changeset 386:db23f654f87d

make all of website use luan
author Franklin Schmidt <fschmidt@gmail.com>
date Thu, 23 Apr 2015 18:09:12 -0600
parents 9850d788a20b
children 23d075ce1e48
files website/src/diff.html website/src/diff.html.luan website/src/docs.html website/src/docs.html.luan website/src/index.html website/src/index.html.luan website/src/manual.html website/src/manual.html.luan website/src/pil.html website/src/pil.html.luan website/src/tutorial.html.luan
diffstat 11 files changed, 10552 insertions(+), 10573 deletions(-) [+]
line wrap: on
line diff
--- a/website/src/diff.html	Thu Apr 23 14:17:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,225 +0,0 @@
-<!DOCTYPE html>
-<html lang="en">
-	<head>
-		<meta charset="utf-8">
-		<meta name="viewport" content="width=device-width, initial-scale=1">
-
-		<title>How Luan differs from Lua</title>
-		
-		<link href="http://www.simplyhtml.org/assets/bootstrap/css/bootstrap.min.css" rel="stylesheet">
-		<link rel="stylesheet" href="http://www.simplyhtml.org/assets/font-awesome/css/font-awesome.min.css">
-		<script src="http://www.simplyhtml.org/assets/jquery/jquery.min.js"></script>
-
-		<link href="http://www.simplyhtml.org/assets/simplyhtml/simplyhtml.css" rel="stylesheet"/>
-		<script src="http://www.simplyhtml.org/assets/simplyhtml/simplyhtml.js"></script>
-	</head>
-	<body>
-		<div container>
-			<div><small><a href="/">Luan</a></small></div>
-			<h1>How Luan differs from Lua</h1>
-
-			<p>This document explains how Luan differs from <a href="http://www.lua.org">Lua</a> as described in the <a href="http://www.lua.org/manual/5.3/">Lua 5.3 Reference Manual</a>.</p>
-
-			<hr/>
-
-			<h2>Contents</h2>
-
-			<div margin-bottom="1em"><a href="#intro">Introduction</a></div>
-
-			<div margin-bottom="1em">
-				<a href="#basic">Basic Concepts</a>
-				<ul>
-					<li><a href="#types">Values and Types</a></li>
-					<li><a href="#env">Environments</a></li>
-					<li><a href="#error">Error Handling</a></li>
-					<li><a href="#meta">Metatables and Metamethods</a></li>
-					<li><a href="#gc">Garbage Collection</a></li>
-					<li><a href="#coroutines">Coroutines</a></li>
-				</ul>
-			</div>
-
-			<div margin-bottom="1em">
-				<a href="#lang">The Language</a>
-				<ul>
-					<li><a href="#lex">Lexical Conventions</a></li>
-					<li>
-						<a href="#stmt">Statements</a>
-						<ul>
-							<li><a href="#control">Control Structures</a></li>
-							<li><a href="#for">For Statement</a></li>
-							<li><a href="#logical">Logical Statements</a></li>
-							<li><a href="#template-stmt">Template Statements</a></li>
-						</ul>
-					</li>
-					<li>
-						<a href="#expr">Expressions</a>
-						<ul>
-							<li><a href="#bit">Bitwise Operators</a></li>
-							<li><a href="#local-ops">Logical Operators</a></li>
-							<li><a href="#fn-call">Function Calls</a></li>
-							<li><a href="#template-expr">Template Expressions</a></li>
-						</ul>
-					</li>
-				</ul>
-			</div>
-
-			<hr/>
-
-			<h2 margin-top="1em"><a name="intro">Introduction</a></h2>
-
-			<p>Lua is one of the simplest languages available, but Luan is even simpler.  This means Luan removes more than it adds.  Most of what is added is added in the library, not in the language itself.</p>
-
-			<p>Luan is implemented in Java and is tightly integrated with Java.  This makes it an excellent scripting language for Java.</p>
-
-			<h2 margin-top="1em"><a name="basic">Basic Concepts</a></h2>
-
-			<h3 margin-top="1em"><a name="types">Values and Types</a></h3>
-
-			<p>Luan does not have the Lua <i>thread</i> type.  Luan add a <i>binary</i> type that Lua doesn't have.  This is because Lua strings can represent binary while Luan strings cannot.</p>
-
-			<p>The Luan <i>Nil</i> type is implemented as the Java <i>null</i>.  The Luan <i>Boolean</i> type is implemented as the Java <i>Boolean</i> type.  The Luan <i>Number</i> type is implemented as the Java <i>Number</i> type.  The Luan <i>String</i> type is implemented as the Java <i>String</i> type.  Actual numbers may be any subclass of the Java <i>Number</i> class.</p>
-
-			<p>Luan functions may be written in Luan or may be wrappers around native Java methods.  Any Java method may be called as a Luan function.</p>
-
-			<p>Luan <i>userdata</i> is nothing more than a Java object that doesn't fall into one of the other recognized types.</p>
-
-			<p>The Luan <i>binary</i> type is the Java <i>byte[ ]</i> type which is an array of bytes.</p>
-
-			<p>The Luan <i>table</i> type is just like its Lua equivalent, but implemented in Java.</p>
-
-			<h3 margin-top="1em"><a name="env">Environments</a></h3>
-
-			<p>Luan has an <tt>_ENV</tt> which is like its Lua equivalent.  However Luan has no global environment at all, no <tt>_G</tt>.</p>
-
-			<p>Every module is initialized with two local functions: <tt>require</tt> and <tt>java</tt>.  The module then uses these functions to get access to whatever else it needs.</p>
-
-			<h3 margin-top="1em"><a name="error">Error Handling</a></h3>
-
-			<p>Luan has the functions <tt>error</tt> and <tt>pcall</tt> but does not have <tt>xpcall</tt>.  Luan adds the function <tt>try</tt> which looks and acts like try-catch blocks in other languages.</p>
-
-			<h3 margin-top="1em"><a name="meta">Metatables and Metamethods</a></h3>
-
-			<p>to document later...</p>
-
-			<h3 margin-top="1em"><a name="gc">Garbage Collection</a></h3>
-
-			<p>Luan uses Java garbage collection.  Luan has no special garbage collection methods.</p>
-
-			<p>Luan does not yet have weak tables but this will be added.</p>
-
-			<h3 margin-top="1em"><a name="coroutines">Coroutines</a></h3>
-
-			<p>Luan does not have coroutines.  Coroutines is a complex concept that isn't needed in a simple language, so it was left out.</p>
-
-			<h2 margin-top="1em"><a name="lang">The Language</a></h2>
-
-			<h3 margin-top="1em"><a name="lex">Lexical Conventions</a></h3>
-
-			<p>Unlike Lua, Luan generally considers the end of a line to be the end of a statement.  This catches errors and encourages readability.  The exception to this is in paranthesis ( <i>(...)</i>, <i>[...]</i>, and <i>{...}</i> ) where the end of line is treated as white space.</p>
-
-			<p>Luan has exactly the same set of keywords as Lua and has the same other lexical conventions.</p>
-
-			<h3 margin-top="1em"><a name="stmt">Statements</a></h3>
-
-			<p>Most statements in Luan are the same as Lua.  Only those statements that differ will be listed here.</p>
-
-			<h4 margin-top="1em"><a name="control">Control Structures</a></h4>
-
-			<p>The Luan <b>if</b>, <b>while</b>, and <b>repeat</b> statement are the same as in Lua except that the condition expression must return a boolean value.  Any other value type will produce an error.  This helps catch errors and makes code more readable.</p>
-
-			<p>Luan does not have a <b>goto</b> statement.</p>
-
-			<h4 margin-top="1em"><a name="for">For Statement</a></h4>
-
-			<p>Luan has no numeric <b>for</b> statement.  Luan only has generic <b>for</b> statement.  Instead of the numeric <b>for</b> statement, Luan uses the <tt>range</tt> function in a generic <b>for</b> statement like this:</p>
-
-			<tt><pre>
-	for i in range(from,to,step) do <i>block</i> end
-			</pre></tt>
-
-			<p>The Luan generic <b>for</b> statement is simpler than the Lua version because Luan only uses and expression, not an explist.  So a <b>for</b> statement like:</p>
-
-			<tt><pre>
-	for var_1, ···, var_n in exp do block end
-			</pre></tt>
-
-			<p>is equivalent to the code:</p>
-
-			<tt><pre>
-	do
-		local f = exp
-		while true do
-			local var_1, ···, var_n = f()
-			if var_1 == nil then break end
-			block
-		end
-	end
-			</pre></tt>
-
-			<h4 margin-top="1em"><a name="logical">Logical Statements</a></h4>
-
-			<p>Unlike Lua, Luan allows <b>or</b> and <b>and</b> expressions to be stand-alone statements.  This is useful in cases like this:</p>
-
-			<tt><pre>
-	x==5 or error "x should be 5"
-			</pre></tt>
-
-			<h4 margin-top="1em"><a name="template-stmt">Template Statements</a></h4>
-
-			<p>Template statements are based on <a href="#template-expr">template exressions</a> and provide the full equivalent of <a href="http://en.wikipedia.org/wiki/JavaServer_Pages">JSP</a> but in a general way.  Template statements write the equivalent template exression to standard output.  For example:</p>
-
-			<tt><pre>
-	local name = "Bob"
-	%>
-	Hello <%=name%>!
-	Bye <%=name%>.
-	<%
-			</pre></tt>
-
-			<p>is equivalent to the code:</p>
-
-			<tt><pre>
-	local name = "Bob"
-	require("luan:Io").stdout.write( %>
-	Hello <%=name%>!
-	Bye <%=name%>.
-	<% )
-			</pre></tt>
-
-			<h3 margin-top="1em"><a name="expr">Expressions</a></h3>
-
-			<h4 margin-top="1em"><a name="bit">Bitwise Operators</a></h4>
-
-			<p>Bitwise operators appear to be new addition to Lua 5.3 and didn't exist in Lua 5.2.  Luan does not support bitwise operators, but these can be added if there is a need.</p>
-
-			<h4 margin-top="1em"><a name="local-ops">Logical Operators</a></h4>
-
-			<p>The only change in Luan is that <b>not</b> must take a boolean argument.  This helps catch errors and makes code more readable.</p>
-
-			<h4 margin-top="1em"><a name="fn-call">Function Calls</a></h4>
-
-			<p>Luan does not support Lua's <tt>v:name(args)</tt> style object-oriented function call.  Object oriented programming is done in Luan using closures, so this feature is not needed.</p>
-
-			<h4 margin-top="1em"><a name="template-expr">Template Expressions</a></h4>
-
-			<p>Luan adds a new type of expression based on <a href="http://en.wikipedia.org/wiki/JavaServer_Pages">JSP</a> called template expressions.  Template expressions return multiple values.  Here is an example:</p>
-
-			<tt><pre>
-	local name = "Bob"
-	write( %>Hello <%=name%>!<% )
-			</pre></tt>
-
-			<p>This is equivalent to the code:</p>
-
-			<tt><pre>
-	local name = "Bob"
-	write( "Hello ", name, "!" )
-			</pre></tt>
-
-			<p>The strings in template expressions may be multiple lines.</p>
-
-		</div>
-		
-		<script src="http://www.simplyhtml.org/assets/bootstrap/js/bootstrap.min.js"></script>
-	</body>
-</html>
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/website/src/diff.html.luan	Thu Apr 23 18:09:12 2015 -0600
@@ -0,0 +1,222 @@
+local Io = require "luan:Io"
+local Html = require "luan:Html"
+local Http = require "luan:web/Http"
+
+
+function service()
+	Io.stdout = Http.response.text_writer()
+	Html.simply_html_page{
+		head = function() %>
+			<title>How Luan differs from Lua</title>
+<%		end;
+		body = function() %>
+
+<div container>
+<div><small><a href="/">Luan</a></small></div>
+<h1>How Luan differs from Lua</h1>
+
+<p>This document explains how Luan differs from <a href="http://www.lua.org">Lua</a> as described in the <a href="http://www.lua.org/manual/5.3/">Lua 5.3 Reference Manual</a>.</p>
+
+<hr/>
+
+<h2>Contents</h2>
+
+<div margin-bottom="1em"><a href="#intro">Introduction</a></div>
+
+<div margin-bottom="1em">
+	<a href="#basic">Basic Concepts</a>
+	<ul>
+		<li><a href="#types">Values and Types</a></li>
+		<li><a href="#env">Environments</a></li>
+		<li><a href="#error">Error Handling</a></li>
+		<li><a href="#meta">Metatables and Metamethods</a></li>
+		<li><a href="#gc">Garbage Collection</a></li>
+		<li><a href="#coroutines">Coroutines</a></li>
+	</ul>
+</div>
+
+<div margin-bottom="1em">
+	<a href="#lang">The Language</a>
+	<ul>
+		<li><a href="#lex">Lexical Conventions</a></li>
+		<li>
+			<a href="#stmt">Statements</a>
+			<ul>
+				<li><a href="#control">Control Structures</a></li>
+				<li><a href="#for">For Statement</a></li>
+				<li><a href="#logical">Logical Statements</a></li>
+				<li><a href="#template-stmt">Template Statements</a></li>
+			</ul>
+		</li>
+		<li>
+			<a href="#expr">Expressions</a>
+			<ul>
+				<li><a href="#bit">Bitwise Operators</a></li>
+				<li><a href="#local-ops">Logical Operators</a></li>
+				<li><a href="#fn-call">Function Calls</a></li>
+				<li><a href="#template-expr">Template Expressions</a></li>
+			</ul>
+		</li>
+	</ul>
+</div>
+
+<hr/>
+
+<h2 margin-top="1em"><a name="intro">Introduction</a></h2>
+
+<p>Lua is one of the simplest languages available, but Luan is even simpler.  This means Luan removes more than it adds.  Most of what is added is added in the library, not in the language itself.</p>
+
+<p>Luan is implemented in Java and is tightly integrated with Java.  This makes it an excellent scripting language for Java.</p>
+
+<h2 margin-top="1em"><a name="basic">Basic Concepts</a></h2>
+
+<h3 margin-top="1em"><a name="types">Values and Types</a></h3>
+
+<p>Luan does not have the Lua <i>thread</i> type.  Luan add a <i>binary</i> type that Lua doesn't have.  This is because Lua strings can represent binary while Luan strings cannot.</p>
+
+<p>The Luan <i>Nil</i> type is implemented as the Java <i>null</i>.  The Luan <i>Boolean</i> type is implemented as the Java <i>Boolean</i> type.  The Luan <i>Number</i> type is implemented as the Java <i>Number</i> type.  The Luan <i>String</i> type is implemented as the Java <i>String</i> type.  Actual numbers may be any subclass of the Java <i>Number</i> class.</p>
+
+<p>Luan functions may be written in Luan or may be wrappers around native Java methods.  Any Java method may be called as a Luan function.</p>
+
+<p>Luan <i>userdata</i> is nothing more than a Java object that doesn't fall into one of the other recognized types.</p>
+
+<p>The Luan <i>binary</i> type is the Java <i>byte[ ]</i> type which is an array of bytes.</p>
+
+<p>The Luan <i>table</i> type is just like its Lua equivalent, but implemented in Java.</p>
+
+<h3 margin-top="1em"><a name="env">Environments</a></h3>
+
+<p>Luan has an <tt>_ENV</tt> which is like its Lua equivalent.  However Luan has no global environment at all, no <tt>_G</tt>.</p>
+
+<p>Every module is initialized with two local functions: <tt>require</tt> and <tt>java</tt>.  The module then uses these functions to get access to whatever else it needs.</p>
+
+<h3 margin-top="1em"><a name="error">Error Handling</a></h3>
+
+<p>Luan has the functions <tt>error</tt> and <tt>pcall</tt> but does not have <tt>xpcall</tt>.  Luan adds the function <tt>try</tt> which looks and acts like try-catch blocks in other languages.</p>
+
+<h3 margin-top="1em"><a name="meta">Metatables and Metamethods</a></h3>
+
+<p>to document later...</p>
+
+<h3 margin-top="1em"><a name="gc">Garbage Collection</a></h3>
+
+<p>Luan uses Java garbage collection.  Luan has no special garbage collection methods.</p>
+
+<p>Luan does not yet have weak tables but this will be added.</p>
+
+<h3 margin-top="1em"><a name="coroutines">Coroutines</a></h3>
+
+<p>Luan does not have coroutines.  Coroutines is a complex concept that isn't needed in a simple language, so it was left out.</p>
+
+<h2 margin-top="1em"><a name="lang">The Language</a></h2>
+
+<h3 margin-top="1em"><a name="lex">Lexical Conventions</a></h3>
+
+<p>Unlike Lua, Luan generally considers the end of a line to be the end of a statement.  This catches errors and encourages readability.  The exception to this is in paranthesis ( <i>(...)</i>, <i>[...]</i>, and <i>{...}</i> ) where the end of line is treated as white space.</p>
+
+<p>Luan has exactly the same set of keywords as Lua and has the same other lexical conventions.</p>
+
+<h3 margin-top="1em"><a name="stmt">Statements</a></h3>
+
+<p>Most statements in Luan are the same as Lua.  Only those statements that differ will be listed here.</p>
+
+<h4 margin-top="1em"><a name="control">Control Structures</a></h4>
+
+<p>The Luan <b>if</b>, <b>while</b>, and <b>repeat</b> statement are the same as in Lua except that the condition expression must return a boolean value.  Any other value type will produce an error.  This helps catch errors and makes code more readable.</p>
+
+<p>Luan does not have a <b>goto</b> statement.</p>
+
+<h4 margin-top="1em"><a name="for">For Statement</a></h4>
+
+<p>Luan has no numeric <b>for</b> statement.  Luan only has generic <b>for</b> statement.  Instead of the numeric <b>for</b> statement, Luan uses the <tt>range</tt> function in a generic <b>for</b> statement like this:</p>
+
+<tt><pre>
+	for i in range(from,to,step) do <i>block</i> end
+			</pre></tt>
+
+			<p>The Luan generic <b>for</b> statement is simpler than the Lua version because Luan only uses and expression, not an explist.  So a <b>for</b> statement like:</p>
+
+			<tt><pre>
+	for var_1, ···, var_n in exp do block end
+			</pre></tt>
+
+			<p>is equivalent to the code:</p>
+
+			<tt><pre>
+	do
+		local f = exp
+		while true do
+			local var_1, ···, var_n = f()
+			if var_1 == nil then break end
+			block
+		end
+	end
+</pre></tt>
+
+<h4 margin-top="1em"><a name="logical">Logical Statements</a></h4>
+
+<p>Unlike Lua, Luan allows <b>or</b> and <b>and</b> expressions to be stand-alone statements.  This is useful in cases like this:</p>
+
+<tt><pre>
+	x==5 or error "x should be 5"
+</pre></tt>
+
+<h4 margin-top="1em"><a name="template-stmt">Template Statements</a></h4>
+
+<p>Template statements are based on <a href="#template-expr">template exressions</a> and provide the full equivalent of <a href="http://en.wikipedia.org/wiki/JavaServer_Pages">JSP</a> but in a general way.  Template statements write the equivalent template exression to standard output.  For example:</p>
+
+<tt><pre><%=Html.encode[[
+	local name = "Bob"
+	%>
+	Hello <%=name%>!
+	Bye <%=name%>.
+	<%
+]]%></pre></tt>
+
+<p>is equivalent to the code:</p>
+
+<tt><pre><%=Html.encode[[
+	local name = "Bob"
+	require("luan:Io").stdout.write( %>
+	Hello <%=name%>!
+	Bye <%=name%>.
+	<% )
+]]%></pre></tt>
+
+<h3 margin-top="1em"><a name="expr">Expressions</a></h3>
+
+<h4 margin-top="1em"><a name="bit">Bitwise Operators</a></h4>
+
+<p>Bitwise operators appear to be new addition to Lua 5.3 and didn't exist in Lua 5.2.  Luan does not support bitwise operators, but these can be added if there is a need.</p>
+
+<h4 margin-top="1em"><a name="local-ops">Logical Operators</a></h4>
+
+<p>The only change in Luan is that <b>not</b> must take a boolean argument.  This helps catch errors and makes code more readable.</p>
+
+<h4 margin-top="1em"><a name="fn-call">Function Calls</a></h4>
+
+<p>Luan does not support Lua's <tt>v:name(args)</tt> style object-oriented function call.  Object oriented programming is done in Luan using closures, so this feature is not needed.</p>
+
+<h4 margin-top="1em"><a name="template-expr">Template Expressions</a></h4>
+
+<p>Luan adds a new type of expression based on <a href="http://en.wikipedia.org/wiki/JavaServer_Pages">JSP</a> called template expressions.  Template expressions return multiple values.  Here is an example:</p>
+
+<tt><pre><%=Html.encode[[
+	local name = "Bob"
+	write( %>Hello <%=name%>!<% )
+]]%></pre></tt>
+
+<p>This is equivalent to the code:</p>
+
+<tt><pre>
+	local name = "Bob"
+	write( "Hello ", name, "!" )
+</pre></tt>
+
+<p>The strings in template expressions may be multiple lines.</p>
+
+</div>
+		
+<%		end;
+	}
+end
--- a/website/src/docs.html	Thu Apr 23 14:17:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,34 +0,0 @@
-<!DOCTYPE html>
-<html lang="en">
-	<head>
-		<meta charset="utf-8">
-		<meta name="viewport" content="width=device-width, initial-scale=1">
-
-		<title>Luan Documentation</title>
-		
-		<link href="http://www.simplyhtml.org/assets/bootstrap/css/bootstrap.min.css" rel="stylesheet">
-		<link rel="stylesheet" href="http://www.simplyhtml.org/assets/font-awesome/css/font-awesome.min.css">
-		<script src="http://www.simplyhtml.org/assets/jquery/jquery.min.js"></script>
-
-		<link href="http://www.simplyhtml.org/assets/simplyhtml/simplyhtml.css" rel="stylesheet"/>
-		<script src="http://www.simplyhtml.org/assets/simplyhtml/simplyhtml.js"></script>
-	</head>
-	<body>
-		<div container>
-			<div><small><a href="/">Luan</a></small></div>
-			<h1 margin-bottom="1em">Luan Documentation</h1>
-
-			<big>
-				<p>
-					<a href="tutorial.html">Tutorial</a><br>
-					<a href="pil.html">Programming in Lua (book)</a><br>
-					<a href="manual.html">Reference Manual</a><br>
-					<a href="diff.html">How Luan differs from Lua</a><br>
-				</p>
-			</big>
-
-		</div>
-		
-		<script src="http://www.simplyhtml.org/assets/bootstrap/js/bootstrap.min.js"></script>
-	</body>
-</html>
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/website/src/docs.html.luan	Thu Apr 23 18:09:12 2015 -0600
@@ -0,0 +1,29 @@
+local Io = require "luan:Io"
+local Html = require "luan:Html"
+local Http = require "luan:web/Http"
+
+
+function service()
+	Io.stdout = Http.response.text_writer()
+	Html.simply_html_page{
+		head = function() %>
+			<title>Luan Documentation</title>
+<%		end;
+		body = function() %>
+		<div container>
+			<div><small><a href="/">Luan</a></small></div>
+			<h1 margin-bottom="1em">Luan Documentation</h1>
+
+			<big>
+				<p>
+					<a href="tutorial.html">Tutorial</a><br>
+					<a href="pil.html">Programming in Lua (book)</a><br>
+					<a href="manual.html">Reference Manual</a><br>
+					<a href="diff.html">How Luan differs from Lua</a><br>
+				</p>
+			</big>
+
+		</div>
+<%		end;
+	}
+end
--- a/website/src/index.html	Thu Apr 23 14:17:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,35 +0,0 @@
-<!DOCTYPE html>
-<html lang="en">
-	<head>
-		<meta charset="utf-8">
-		<meta name="viewport" content="width=device-width, initial-scale=1">
-
-		<title>Luan</title>
-		
-		<link href="http://www.simplyhtml.org/assets/bootstrap/css/bootstrap.min.css" rel="stylesheet">
-		<link rel="stylesheet" href="http://www.simplyhtml.org/assets/font-awesome/css/font-awesome.min.css">
-		<script src="http://www.simplyhtml.org/assets/jquery/jquery.min.js"></script>
-
-		<link href="http://www.simplyhtml.org/assets/simplyhtml/simplyhtml.css" rel="stylesheet"/>
-		<script src="http://www.simplyhtml.org/assets/simplyhtml/simplyhtml.js"></script>
-	</head>
-	<body>
-		<div container>
-			<h1>The Luan Programming Language</h1>
-			<big>
-				<p margin-bottom="2em">under construction...</p>
-				<p>Luan is a <a href="http://www.lua.org">Lua</a>-like language implemented in <a href="https://www.oracle.com/java/">Java</a>.</p>
-				<p>
-					<a href="docs.html">Documentation</a><br>
-					<a href="https://www.dropbox.com/sh/i7imf67wzj7z3h2/AABrpM0L1apqHysb_ot5t2dla?dl=0
-	">Download</a><br>
-					<a href="https://bitbucket.org/frschmidt/luan">Source</a><br>
-					<a href="http://luan.7479.n7.nabble.com/">Forum</a><br>
-				</p>
-			</big>
-			<p margin-top="2em"><small>This website was made with <a href="http://www.simplyhtml.org/">SimplyHTML</a>.</small></p>
-		</div>
-		
-		<script src="http://www.simplyhtml.org/assets/bootstrap/js/bootstrap.min.js"></script>
-	</body>
-</html>
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/website/src/index.html.luan	Thu Apr 23 18:09:12 2015 -0600
@@ -0,0 +1,29 @@
+local Io = require "luan:Io"
+local Html = require "luan:Html"
+local Http = require "luan:web/Http"
+
+
+function service()
+	Io.stdout = Http.response.text_writer()
+	Html.simply_html_page{
+		head = function() %>
+			<title>Luan</title>
+<%		end;
+		body = function() %>
+		<div container>
+			<h1>The Luan Programming Language</h1>
+			<big>
+				<p margin-bottom="2em">under construction...</p>
+				<p>Luan is a <a href="http://www.lua.org">Lua</a>-like language implemented in <a href="https://www.oracle.com/java/">Java</a>.</p>
+				<p>
+					<a href="docs.html">Documentation</a><br>
+					<a href="https://www.dropbox.com/sh/i7imf67wzj7z3h2/AABrpM0L1apqHysb_ot5t2dla?dl=0">Download</a><br>
+					<a href="https://bitbucket.org/frschmidt/luan">Source</a><br>
+					<a href="http://luan.7479.n7.nabble.com/">Forum</a><br>
+				</p>
+			</big>
+			<p margin-top="2em"><small>This website was made with <a href="http://www.simplyhtml.org/">SimplyHTML</a>.</small></p>
+		</div>
+<%		end;
+	}
+end
--- a/website/src/manual.html	Thu Apr 23 14:17:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,10251 +0,0 @@
-<!DOCTYPE html>
-<html lang="en">
-	<head>
-		<meta charset="utf-8">
-		<meta name="viewport" content="width=device-width, initial-scale=1">
-
-		<title>Luan Reference Manual</title>
-		
-		<link href="http://www.simplyhtml.org/assets/bootstrap/css/bootstrap.min.css" rel="stylesheet">
-		<link rel="stylesheet" href="http://www.simplyhtml.org/assets/font-awesome/css/font-awesome.min.css">
-		<script src="http://www.simplyhtml.org/assets/jquery/jquery.min.js"></script>
-
-		<link href="http://www.simplyhtml.org/assets/simplyhtml/simplyhtml.css" rel="stylesheet"/>
-		<script src="http://www.simplyhtml.org/assets/simplyhtml/simplyhtml.js"></script>
-	</head>
-
-<body>
-<div container>
-<div><small><a href="/">Luan</a></small></div>
-
-<h1>Luan Reference Manual</h1>
-
-<p>
-<small>
-Original copyright &copy; 2015 Lua.org, PUC-Rio.
-Freely available under the terms of the
-<a href="http://www.lua.org/license.html">Lua license</a>.
-Modified for Luan.
-</small>
-</p>
-
-<hr/>
-
-<h2>Contents</h2>
-
-<div margin-bottom="1em"><a href="#intro">Introduction</a></div>
-
-<div margin-bottom="1em">
-	<a href="#basic">Basic Concepts</a>
-	<ul>
-		<li><a href="#types">Values and Types</a></li>
-		<li><a href="#env">Environments</a></li>
-		<li><a href="#error">Error Handling</a></li>
-		<li><a href="#meta">Metatables and Metamethods</a></li>
-		<li><a href="#gc">Garbage Collection</a></li>
-	</ul>
-</div>
-
-<div margin-bottom="1em">
-	<a href="#lang">The Language</a>
-	<ul>
-		<li><a href="#lex">Lexical Conventions</a></li>
-		<li><a href="#vars">Variables</a></li>
-	</ul>
-</div>
-
-<hr/>
-
-
-<h2 margin-top="1em"><a name="intro">Introduction</a></h2>
-
-<p>Luan is a high level programming language based on <a href="http://www.lua.org">Lua</a>.  A great strength of Lua is its simplicity and Luan takes this even further, being even simpler than Lua.  The goal is to provide a simple programming language for the casual programmer with as few concepts as possible so that one can quickly learn the language and then easily understand any code written in Luan.</p>
-
-<p>Luan is implemented in Java and is tightly coupled with Java.  So it makes a great scripting language for Java programmers.</p>
-
-<p>Unlike Lua which is meant to be embedded, Luan is meant to be a full scripting language.  This done not by adding feature to Luan, but rather by providing a complete set of libraries.</p>
-
-
-<h2 margin-top="1em"><a name="basic">Basic Concepts</a></h2>
-
-<p>This section describes the basic concepts of the language.</p>
-
-<h3 margin-top="1em"><a name="types">Values and Types</a></h3>
-
-<p>
-Luan is a <i>dynamically typed language</i>.
-This means that
-variables do not have types; only values do.
-There are no type definitions in the language.
-All values carry their own type.
-
-
-<p>
-All values in Luan are <i>first-class values</i>.
-This means that all values can be stored in variables,
-passed as arguments to other functions, and returned as results.
-
-
-<p>
-There are eight basic types in Luan:
-<i>nil</i>, <i>boolean</i>, <i>number</i>,
-<i>string</i>, <i>binary</i>, <i>function</i>, <i>userdata</i>,
-and <i>table</i>.
-<i>Nil</i> is the type of the value <b>nil</b>,
-whose main property is to be different from any other value;
-it usually represents the absence of a useful value.
-<i>Nil</i> is implemented as the Java value <i>null</i>.
-<i>Boolean</i> is the type of the values <b>false</b> and <b>true</b>.
-<i>Boolean</i> is implemented as the Java class <i>Boolean</i>.
-<i>Number</i> represents both
-integer numbers and real (floating-point) numbers.
-<i>Number</i> is implemented as the Java class <i>Number</i>.  Any Java subclass of <i>Number</i> is allowed and this is invisible to the Luan user.  Operations on numbers follow the same rules of
-the underlying Java implementation.
-
-<i>String</i> is implemented as the Java class <i>String</i>.
-<i>Binary</i> is implemented as the Java type <i>byte[]</i>.
-
-
-<p>
-Luan can call (and manipulate) functions written in Luan and
-functions written in Java (see <a href="#3.4.10">&sect;3.4.10</a>).
-Both are represented by the type <i>function</i>.
-
-
-<p>
-The type <i>userdata</i> is provided to allow arbitrary Java objects to
-be stored in Luan variables.
-A userdata value is a Java object that isn't one of the standard Luan types.
-Userdata has no predefined operations in Luan,
-except assignment and identity test.
-Userdata is useful then Java access is enabled in Luan
-
-
-
-<p>
-The type <i>table</i> implements associative arrays,
-that is, arrays that can be indexed not only with numbers,
-but with any Luan value except <b>nil</b>.
-Tables can be <i>heterogeneous</i>;
-that is, they can contain values of all types (except <b>nil</b>).
-Any key with value <b>nil</b> is not considered part of the table.
-Conversely, any key that is not part of a table has
-an associated value <b>nil</b>.
-
-
-<p>
-Tables are the sole data-structuring mechanism in Luan;
-they can be used to represent ordinary arrays, sequences,
-symbol tables, sets, records, graphs, trees, etc.
-To represent records, Luan uses the field name as an index.
-The language supports this representation by
-providing <tt>a.name</tt> as syntactic sugar for <tt>a["name"]</tt>.
-There are several convenient ways to create tables in Luan
-(see <a href="#3.4.9">&sect;3.4.9</a>).
-
-
-<p>
-We use the term <i>sequence</i> to denote a table where
-the set of all positive numeric keys is equal to {1..<i>n</i>}
-for some non-negative integer <i>n</i>,
-which is called the length of the sequence (see <a href="#3.4.7">&sect;3.4.7</a>).
-
-
-<p>
-Like indices,
-the values of table fields can be of any type.
-In particular,
-because functions are first-class values,
-table fields can contain functions.
-Thus tables can also carry <i>methods</i> (see <a href="#3.4.11">&sect;3.4.11</a>).
-
-
-<p>
-The indexing of tables follows
-the definition of raw equality in the language.
-The expressions <tt>a[i]</tt> and <tt>a[j]</tt>
-denote the same table element
-if and only if <tt>i</tt> and <tt>j</tt> are raw equal
-(that is, equal without metamethods).
-In particular, floats with integral values
-are equal to their respective integers
-(e.g., <tt>1.0 == 1</tt>).
-
-
-<p>
-Luan values are <i>objects</i>:
-variables do not actually <i>contain</i> values,
-only <i>references</i> to them.
-Assignment, parameter passing, and function returns
-always manipulate references to values;
-these operations do not imply any kind of copy.
-
-
-<p>
-The library function <a href="#pdf-type"><tt>Luan.type</tt></a> returns a string describing the type
-of a given value (see <a href="#6.1">&sect;6.1</a>).
-
-
-
-
-
-<h3 margin-top="1em"><a name="env">Environments</a></h3>
-
-<p>
-As will be discussed in <a href="#3.2">&sect;3.2</a> and <a href="#3.3.3">&sect;3.3.3</a>,
-any reference to a free name
-(that is, a name not bound to any declaration) <tt>var</tt>
-is syntactically translated to <tt>_ENV.var</tt>.
-Moreover, every chunk is compiled in the scope of
-an external local variable named <tt>_ENV</tt> (see <a href="#3.3.2">&sect;3.3.2</a>),
-so <tt>_ENV</tt> itself is never a free name in a chunk.
-
-
-<p>
-Despite the existence of this external <tt>_ENV</tt> variable and
-the translation of free names,
-<tt>_ENV</tt> is a completely regular name.
-In particular,
-you can define new variables and parameters with that name.
-Each reference to a free name uses the <tt>_ENV</tt> that is
-visible at that point in the program,
-following the usual visibility rules of Luan (see <a href="#3.5">&sect;3.5</a>).
-
-
-<p>
-Any table used as the value of <tt>_ENV</tt> is called an <i>environment</i>.
-
-
-<p>
-When Luan loads a chunk,
-the default value for its <tt>_ENV</tt> is an empty table.
-
-<p>
-Luan also provides all chunks with two other local values: <tt>require</tt> and <tt>java</tt>.  These are functions used to load and access libraries and other modules.
-
-
-
-
-<h3 margin-top="1em"><a name="error">Error Handling</a></h3>
-
-<p>
-Luan code can explicitly generate an error by calling the
-<a href="#pdf-error"><tt>error</tt></a> function.
-If you need to catch errors in Luan,
-you can use <a href="#pdf-pcall"><tt>pcall</tt></a> or <a href="#pdf-xpcall"><tt>try</tt></a>
-to call a given function in <i>protected mode</i>.
-
-
-<p>
-Whenever there is an error,
-an <i>error object</i> (also called an <i>error message</i>)
-is propagated with information about the error.
-Luan itself only generates errors whose error object is a string,
-but programs may generate errors with
-any value as the error object.
-It is up to the Luan program or its host to handle such error objects.
-
-
-
-
-
-<h3 margin-top="1em"><a name="meta">Metatables and Metamethods</a></h3>
-
-<p>
-Every table in Luan can have a <i>metatable</i>.
-This <i>metatable</i> is an ordinary Luan table
-that defines the behavior of the original value
-under certain special operations.
-You can change several aspects of the behavior
-of operations over a value by setting specific fields in its metatable.
-For instance, when a table is the operand of an addition,
-Luan checks for a function in the field "<tt>__add</tt>" of the table's metatable.
-If it finds one,
-Luan calls this function to perform the addition.
-
-
-<p>
-The keys in a metatable are derived from the <i>event</i> names;
-the corresponding values are called <ii>metamethods</i>.
-In the previous example, the event is <tt>"add"</tt>
-and the metamethod is the function that performs the addition.
-
-
-<p>
-You can query the metatable of any table
-using the <a href="#pdf-getmetatable"><tt>get_metatable</tt></a> function.
-
-
-<p>
-You can replace the metatable of tables
-using the <a href="#pdf-setmetatable"><tt>set_metatable</tt></a> function.
-
-
-<p>
-A metatable controls how a table behaves in
-arithmetic operations, bitwise operations,
-order comparisons, concatenation, length operation, calls, and indexing.
-
-
-<p>
-A detailed list of events controlled by metatables is given next.
-Each operation is identified by its corresponding event name.
-The key for each event is a string with its name prefixed by
-two underscores, '<tt>__</tt>';
-for instance, the key for operation "add" is the
-string "<tt>__add</tt>".
-Note that queries for metamethods are always raw;
-the access to a metamethod does not invoke other metamethods.
-You can emulate how Luan queries a metamethod for an object <tt>obj</tt>
-with the following code:
-
-<p><tt><pre>
-     raw_get(get_metatable(obj) or {}, "__" .. event_name)
-</pre></tt></p>
-
-<p>
-Here are the events:
-
-<ul>
-
-<li><b>"add": </b>
-the <tt>+</tt> operation.
-
-If any operand for an addition is a table,
-Luan will try to call a metamethod.
-First, Luan will check the first operand (even if it is valid).
-If that operand does not define a metamethod for the "<tt>__add</tt>" event,
-then Luan will check the second operand.
-If Luan can find a metamethod,
-it calls the metamethod with the two operands as arguments,
-and the result of the call
-(adjusted to one value)
-is the result of the operation.
-Otherwise,
-it raises an error.
-</li>
-
-<li><b>"sub": </b>
-the <tt>-</tt> operation.
-
-Behavior similar to the "add" operation.
-</li>
-
-<li><b>"mul": </b>
-the <tt>*</tt> operation.
-
-Behavior similar to the "add" operation.
-</li>
-
-<li><b>"div": </b>
-the <tt>/</tt> operation.
-
-Behavior similar to the "add" operation.
-</li>
-
-<li><b>"mod": </b>
-the <tt>%</tt> operation.
-
-Behavior similar to the "add" operation.
-</li>
-
-<li><b>"pow": </b>
-the <tt>^</tt> (exponentiation) operation.
-
-Behavior similar to the "add" operation.
-</li>
-
-<li><b>"unm": </b>
-the <tt>-</tt> (unary minus) operation.
-
-Behavior similar to the "add" operation.
-</li>
-
-<li><b>"concat": </b>
-the <tt>..</tt> (concatenation) operation.
-
-Behavior similar to the "add" operation.
-</li>
-
-<li><b>"len": </b>
-the <tt>#</tt> (length) operation.
-
-If there is a metamethod,
-Luan calls it with the object as argument,
-and the result of the call
-(always adjusted to one value)
-is the result of the operation.
-If there is no metamethod but the object is a table,
-then Luan uses the table length operation (see <a href="#3.4.7">&sect;3.4.7</a>).
-Otherwise, Luan raises an error.
-</li>
-
-<li><b>"eq": </b>
-the <tt>==</tt> (equal) operation.
-
-Behavior similar to the "add" operation,
-except that Luan will try a metamethod only when the values
-being compared are both tables
-and they are not primitively equal.
-The result of the call is always converted to a boolean.
-</li>
-
-<li><b>"lt": </b>
-the <tt>&lt;</tt> (less than) operation.
-
-Behavior similar to the "add" operation.
-The result of the call is always converted to a boolean.
-</li>
-
-<li><b>"le": </b>
-the <tt>&lt;=</tt> (less equal) operation.
-
-Unlike other operations,
-The less-equal operation can use two different events.
-First, Luan looks for the "<tt>__le</tt>" metamethod in both operands,
-like in the "lt" operation.
-If it cannot find such a metamethod,
-then it will try the "<tt>__lt</tt>" event,
-assuming that <tt>a &lt;= b</tt> is equivalent to <tt>not (b &lt; a)</tt>.
-As with the other comparison operators,
-the result is always a boolean.
-</li>
-
-<li><b>"index": </b>
-The indexing access <tt>table[key]</tt>.
-
-This event happens
-when <tt>key</tt> is not present in <tt>table</tt>.
-The metamethod is looked up in <tt>table</tt>.
-
-
-<p>
-Despite the name,
-the metamethod for this event can be either a function or a table.
-If it is a function,
-it is called with <tt>table</tt> and <tt>key</tt> as arguments.
-If it is a table,
-the final result is the result of indexing this table with <tt>key</tt>.
-(This indexing is regular, not raw,
-and therefore can trigger another metamethod.)
-</li>
-
-<li><b>"newindex": </b>
-The indexing assignment <tt>table[key] = value</tt>.
-
-Like the index event,
-this event happens when
-when <tt>key</tt> is not present in <tt>table</tt>.
-The metamethod is looked up in <tt>table</tt>.
-
-
-<p>
-Like with indexing,
-the metamethod for this event can be either a function or a table.
-If it is a function,
-it is called with <tt>table</tt>, <tt>key</tt>, and <tt>value</tt> as arguments.
-If it is a table,
-Luan does an indexing assignment to this table with the same key and value.
-(This assignment is regular, not raw,
-and therefore can trigger another metamethod.)
-
-
-<p>
-Whenever there is a "newindex" metamethod,
-Luan does not perform the primitive assignment.
-(If necessary,
-the metamethod itself can call <a href="#pdf-rawset"><tt>raw_set</tt></a>
-to do the assignment.)
-</li>
-
-<li><b>"call": </b>
-The call operation <tt>func(args)</tt>.
-
-This event happens when Luan tries to call a table.
-The metamethod is looked up in <tt>func</tt>.
-If present,
-the metamethod is called with <tt>func</tt> as its first argument,
-followed by the arguments of the original call (<tt>args</tt>).
-</li>
-
-</ul>
-
-
-
-
-<h3 margin-top="1em"><a name="gc">Garbage Collection</a></h3>
-
-<p>
-Luan uses Java's garbage collection.
-
-
-
-
-
-<h2 margin-top="1em"><a name="lang">The Language</a></h2>
-
-<p>
-This section describes the lexis, the syntax, and the semantics of Luan.
-In other words,
-this section describes
-which tokens are valid,
-how they can be combined,
-and what their combinations mean.
-
-
-<p>
-Language constructs will be explained using the usual extended BNF notation,
-in which
-{<i>a</i>}&nbsp;means&nbsp;0 or more <i>a</i>'s, and
-[<i>a</i>]&nbsp;means an optional <i>a</i>.
-Non-terminals are shown like non-terminal,
-keywords are shown like <b>kword</b>,
-and other terminal symbols are shown like &lsquo;<b>=</b>&rsquo;.
-The complete syntax of Luan can be found in <a href="#9">&sect;9</a>
-at the end of this manual.
-
-
-
-<h3 margin-top="1em"><a name="lex">Lexical Conventions</a></h3>
-
-<p>
-Luan ignores spaces and comments
-between lexical elements (tokens),
-except as delimiters between names and keywords.
-Luan generally considers the end of a line to be the end of a statement.  This catches errors and encourages readability.  The exception to this is in paranthesis ( <i>(...)</i>, <i>[...]</i>, and <i>{...}</i> ) where the end of line is treated as white space.
-
-<p>
-<i>Names</i>
-(also called <i>identifiers</i>)
-in Luan can be any string of letters,
-digits, and underscores,
-not beginning with a digit.
-Identifiers are used to name variables, table fields, and labels.
-
-
-<p>
-The following <i>keywords</i> are reserved
-and cannot be used as names:
-
-
-<p><pre>
-     and       break     do        else      elseif    end
-     false     for       function  goto      if        in
-     local     nil       not       or        repeat    return
-     then      true      until     while
-</pre></p>
-
-<p>
-Luan is a case-sensitive language:
-<tt>and</tt> is a reserved word, but <tt>And</tt> and <tt>AND</tt>
-are two different, valid names.
-
-
-<p>
-The following strings denote other tokens:
-
-<p><pre>
-     +     -     *     /     %     ^     #
-     &amp;     ~     |     &lt;&lt;    &gt;&gt;    //
-     ==    ~=    &lt;=    &gt;=    &lt;     &gt;     =
-     (     )     {     }     [     ]     ::
-     ;     :     ,     .     ..    ...
-</pre></p>
-
-<p>
-<i>Literal strings</i>
-can be delimited by matching single or double quotes,
-and can contain the following C-like escape sequences:
-'<tt>\a</tt>' (bell),
-'<tt>\b</tt>' (backspace),
-'<tt>\f</tt>' (form feed),
-'<tt>\n</tt>' (newline),
-'<tt>\r</tt>' (carriage return),
-'<tt>\t</tt>' (horizontal tab),
-'<tt>\v</tt>' (vertical tab),
-'<tt>\\</tt>' (backslash),
-'<tt>\"</tt>' (quotation mark [double quote]),
-and '<tt>\'</tt>' (apostrophe [single quote]).
-A backslash followed by a real newline
-results in a newline in the string.
-The escape sequence '<tt>\z</tt>' skips the following span
-of white-space characters,
-including line breaks;
-it is particularly useful to break and indent a long literal string
-into multiple lines without adding the newlines and spaces
-into the string contents.
-
-
-<p>
-Luan can specify any character in a literal string by its numerical value.
-This can be done
-with the escape sequence <tt>\x<i>XX</i></tt>,
-where <i>XX</i> is a sequence of exactly two hexadecimal digits,
-or with the escape sequence <tt>\<i>ddd</i></tt>,
-where <i>ddd</i> is a sequence of up to three decimal digits.
-(Note that if a decimal escape sequence is to be followed by a digit,
-it must be expressed using exactly three digits.)
-
-
-<p>
-Literal strings can also be defined using a long format
-enclosed by <i>long brackets</i>.
-We define an <i>opening long bracket of level <i>n</i></i> as an opening
-square bracket followed by <i>n</i> equal signs followed by another
-opening square bracket.
-So, an opening long bracket of level 0 is written as <tt>[[</tt>, 
-an opening long bracket of level 1 is written as <tt>[=[</tt>, 
-and so on.
-A <i>closing long bracket</i> is defined similarly;
-for instance,
-a closing long bracket of level 4 is written as  <tt>]====]</tt>.
-A <i>long literal</i> starts with an opening long bracket of any level and
-ends at the first closing long bracket of the same level.
-It can contain any text except a closing bracket of the same level.
-Literals in this bracketed form can run for several lines,
-do not interpret any escape sequences,
-and ignore long brackets of any other level.
-Any kind of end-of-line sequence
-(carriage return, newline, carriage return followed by newline,
-or newline followed by carriage return)
-is converted to a simple newline.
-
-
-<p>
-Any character in a literal string not
-explicitly affected by the previous rules represents itself.
-However, Luan opens files for parsing in text mode,
-and the system file functions may have problems with
-some control characters.
-So, it is safer to represent
-non-text data as a quoted literal with
-explicit escape sequences for non-text characters.
-
-
-<p>
-For convenience,
-when the opening long bracket is immediately followed by a newline,
-the newline is not included in the string.
-As an example
-the five literal strings below denote the same string:
-
-<p><pre>
-     a = 'alo\n123"'
-     a = "alo\n123\""
-     a = '\97lo\10\04923"'
-     a = [[alo
-     123"]]
-     a = [==[
-     alo
-     123"]==]
-</pre></p>
-
-<p>
-A <i>numerical constant</i> (or <i>numeral</i>)
-can be written with an optional fractional part
-and an optional decimal exponent,
-marked by a letter '<tt>e</tt>' or '<tt>E</tt>'.
-Luan also accepts hexadecimal constants,
-which start with <tt>0x</tt> or <tt>0X</tt>.
-Hexadecimal constants also accept an optional fractional part
-plus an optional binary exponent,
-marked by a letter '<tt>p</tt>' or '<tt>P</tt>'.
-A numeric constant with a fractional dot or an exponent 
-denotes a float;
-otherwise it denotes an integer.
-Examples of valid integer constants are
-
-<p><pre>
-     3   345   0xff   0xBEBADA
-</pre></p>
-
-<p>
-Examples of valid float constants are
-
-<p><pre>
-     3.0     3.1416     314.16e-2     0.31416E1     34e1
-     0x0.1E  0xA23p-4   0X1.921FB54442D18P+1
-</pre></p>
-
-<p>
-A <i>comment</i> starts with a double hyphen (<tt>--</tt>)
-anywhere outside a string.
-If the text immediately after <tt>--</tt> is not an opening long bracket,
-the comment is a <i>short comment</i>,
-which runs until the end of the line.
-Otherwise, it is a <i>long comment</i>,
-which runs until the corresponding closing long bracket.
-Long comments are frequently used to disable code temporarily.
-
-
-
-
-
-<h3 margin-top="1em"><a name="vars">Variables</a></h3>
-
-<p>
-Variables are places that store values.
-There are three kinds of variables in Luan:
-global variables, local variables, and table fields.
-
-
-<p>
-A single name can denote a global variable or a local variable
-(or a function's formal parameter,
-which is a particular kind of local variable):
-
-<p><pre>
-	var ::= Name
-</pre></p>
-
-<p>
-Name denotes identifiers, as defined in <a href="#3.1">&sect;3.1</a>.
-
-
-<p>
-Any variable name is assumed to be global unless explicitly declared
-as a local (see <a href="#3.3.7">&sect;3.3.7</a>).
-Local variables are <i>lexically scoped</i>:
-local variables can be freely accessed by functions
-defined inside their scope (see <a href="#3.5">&sect;3.5</a>).
-
-
-<p>
-Before the first assignment to a variable, its value is <b>nil</b>.
-
-
-<p>
-Square brackets are used to index a table:
-
-<p><pre>
-	var ::= prefixexp &lsquo;<b>[</b>&rsquo; exp &lsquo;<b>]</b>&rsquo;
-</pre></p>
-
-<p>
-The meaning of accesses to table fields can be changed via metatables.
-An access to an indexed variable <tt>t[i]</tt> is equivalent to
-a call <tt>gettable_event(t,i)</tt>.
-(See <a href="#2.4">&sect;2.4</a> for a complete description of the
-<tt>gettable_event</tt> function.
-This function is not defined or callable in Luan.
-We use it here only for explanatory purposes.)
-
-
-<p>
-The syntax <tt>var.Name</tt> is just syntactic sugar for
-<tt>var["Name"]</tt>:
-
-<p><pre>
-	var ::= prefixexp &lsquo;<b>.</b>&rsquo; Name
-</pre></p>
-
-<p>
-An access to a global variable <tt>x</tt>
-is equivalent to <tt>_ENV.x</tt>.
-Due to the way that chunks are compiled,
-<tt>_ENV</tt> is never a global name (see <a href="#2.2">&sect;2.2</a>).
-
-
-
-
-
-<h2>3.3 &ndash; <a name="3.3">Statements</a></h2>
-
-<p>
-Lua supports an almost conventional set of statements,
-similar to those in Pascal or C.
-This set includes
-assignments, control structures, function calls,
-and variable declarations.
-
-
-
-<h3>3.3.1 &ndash; <a name="3.3.1">Blocks</a></h3>
-
-<p>
-A block is a list of statements,
-which are executed sequentially:
-
-<pre>
-	block ::= {stat}
-</pre><p>
-Lua has <em>empty statements</em>
-that allow you to separate statements with semicolons,
-start a block with a semicolon
-or write two semicolons in sequence:
-
-<pre>
-	stat ::= &lsquo;<b>;</b>&rsquo;
-</pre>
-
-<p>
-Function calls and assignments
-can start with an open parenthesis.
-This possibility leads to an ambiguity in Lua's grammar.
-Consider the following fragment:
-
-<pre>
-     a = b + c
-     (print or io.write)('done')
-</pre><p>
-The grammar could see it in two ways:
-
-<pre>
-     a = b + c(print or io.write)('done')
-     
-     a = b + c; (print or io.write)('done')
-</pre><p>
-The current parser always sees such constructions
-in the first way,
-interpreting the open parenthesis
-as the start of the arguments to a call.
-To avoid this ambiguity,
-it is a good practice to always precede with a semicolon
-statements that start with a parenthesis:
-
-<pre>
-     ;(print or io.write)('done')
-</pre>
-
-<p>
-A block can be explicitly delimited to produce a single statement:
-
-<pre>
-	stat ::= <b>do</b> block <b>end</b>
-</pre><p>
-Explicit blocks are useful
-to control the scope of variable declarations.
-Explicit blocks are also sometimes used to
-add a <b>return</b> statement in the middle
-of another block (see <a href="#3.3.4">&sect;3.3.4</a>).
-
-
-
-
-
-<h3>3.3.2 &ndash; <a name="3.3.2">Chunks</a></h3>
-
-<p>
-The unit of compilation of Lua is called a <em>chunk</em>.
-Syntactically,
-a chunk is simply a block:
-
-<pre>
-	chunk ::= block
-</pre>
-
-<p>
-Lua handles a chunk as the body of an anonymous function
-with a variable number of arguments
-(see <a href="#3.4.11">&sect;3.4.11</a>).
-As such, chunks can define local variables,
-receive arguments, and return values.
-Moreover, such anonymous function is compiled as in the
-scope of an external local variable called <code>_ENV</code> (see <a href="#2.2">&sect;2.2</a>).
-The resulting function always has <code>_ENV</code> as its only upvalue,
-even if it does not use that variable.
-
-
-<p>
-A chunk can be stored in a file or in a string inside the host program.
-To execute a chunk,
-Lua first <em>loads</em> it,
-precompiling the chunk's code into instructions for a virtual machine,
-and then Lua executes the compiled code
-with an interpreter for the virtual machine.
-
-
-<p>
-Chunks can also be precompiled into binary form;
-see program <code>luac</code> and function <a href="#pdf-string.dump"><code>string.dump</code></a> for details.
-Programs in source and compiled forms are interchangeable;
-Lua automatically detects the file type and acts accordingly (see <a href="#pdf-load"><code>load</code></a>).
-
-
-
-
-
-<h3>3.3.3 &ndash; <a name="3.3.3">Assignment</a></h3>
-
-<p>
-Lua allows multiple assignments.
-Therefore, the syntax for assignment
-defines a list of variables on the left side
-and a list of expressions on the right side.
-The elements in both lists are separated by commas:
-
-<pre>
-	stat ::= varlist &lsquo;<b>=</b>&rsquo; explist
-	varlist ::= var {&lsquo;<b>,</b>&rsquo; var}
-	explist ::= exp {&lsquo;<b>,</b>&rsquo; exp}
-</pre><p>
-Expressions are discussed in <a href="#3.4">&sect;3.4</a>.
-
-
-<p>
-Before the assignment,
-the list of values is <em>adjusted</em> to the length of
-the list of variables.
-If there are more values than needed,
-the excess values are thrown away.
-If there are fewer values than needed,
-the list is extended with as many  <b>nil</b>'s as needed.
-If the list of expressions ends with a function call,
-then all values returned by that call enter the list of values,
-before the adjustment
-(except when the call is enclosed in parentheses; see <a href="#3.4">&sect;3.4</a>).
-
-
-<p>
-The assignment statement first evaluates all its expressions
-and only then the assignments are performed.
-Thus the code
-
-<pre>
-     i = 3
-     i, a[i] = i+1, 20
-</pre><p>
-sets <code>a[3]</code> to 20, without affecting <code>a[4]</code>
-because the <code>i</code> in <code>a[i]</code> is evaluated (to 3)
-before it is assigned&nbsp;4.
-Similarly, the line
-
-<pre>
-     x, y = y, x
-</pre><p>
-exchanges the values of <code>x</code> and <code>y</code>,
-and
-
-<pre>
-     x, y, z = y, z, x
-</pre><p>
-cyclically permutes the values of <code>x</code>, <code>y</code>, and <code>z</code>.
-
-
-<p>
-The meaning of assignments to global variables
-and table fields can be changed via metatables.
-An assignment to an indexed variable <code>t[i] = val</code> is equivalent to
-<code>settable_event(t,i,val)</code>.
-(See <a href="#2.4">&sect;2.4</a> for a complete description of the
-<code>settable_event</code> function.
-This function is not defined or callable in Lua.
-We use it here only for explanatory purposes.)
-
-
-<p>
-An assignment to a global name <code>x = val</code>
-is equivalent to the assignment
-<code>_ENV.x = val</code> (see <a href="#2.2">&sect;2.2</a>).
-
-
-
-
-
-<h3>3.3.4 &ndash; <a name="3.3.4">Control Structures</a></h3><p>
-The control structures
-<b>if</b>, <b>while</b>, and <b>repeat</b> have the usual meaning and
-familiar syntax:
-
-
-
-
-<pre>
-	stat ::= <b>while</b> exp <b>do</b> block <b>end</b>
-	stat ::= <b>repeat</b> block <b>until</b> exp
-	stat ::= <b>if</b> exp <b>then</b> block {<b>elseif</b> exp <b>then</b> block} [<b>else</b> block] <b>end</b>
-</pre><p>
-Lua also has a <b>for</b> statement, in two flavors (see <a href="#3.3.5">&sect;3.3.5</a>).
-
-
-<p>
-The condition expression of a
-control structure can return any value.
-Both <b>false</b> and <b>nil</b> are considered false.
-All values different from <b>nil</b> and <b>false</b> are considered true
-(in particular, the number 0 and the empty string are also true).
-
-
-<p>
-In the <b>repeat</b>&ndash;<b>until</b> loop,
-the inner block does not end at the <b>until</b> keyword,
-but only after the condition.
-So, the condition can refer to local variables
-declared inside the loop block.
-
-
-<p>
-The <b>goto</b> statement transfers the program control to a label.
-For syntactical reasons,
-labels in Lua are considered statements too:
-
-
-
-<pre>
-	stat ::= <b>goto</b> Name
-	stat ::= label
-	label ::= &lsquo;<b>::</b>&rsquo; Name &lsquo;<b>::</b>&rsquo;
-</pre>
-
-<p>
-A label is visible in the entire block where it is defined,
-except
-inside nested blocks where a label with the same name is defined and
-inside nested functions.
-A goto may jump to any visible label as long as it does not
-enter into the scope of a local variable.
-
-
-<p>
-Labels and empty statements are called <em>void statements</em>,
-as they perform no actions.
-
-
-<p>
-The <b>break</b> statement terminates the execution of a
-<b>while</b>, <b>repeat</b>, or <b>for</b> loop,
-skipping to the next statement after the loop:
-
-
-<pre>
-	stat ::= <b>break</b>
-</pre><p>
-A <b>break</b> ends the innermost enclosing loop.
-
-
-<p>
-The <b>return</b> statement is used to return values
-from a function or a chunk
-(which is an anonymous function).
-
-Functions can return more than one value,
-so the syntax for the <b>return</b> statement is
-
-<pre>
-	stat ::= <b>return</b> [explist] [&lsquo;<b>;</b>&rsquo;]
-</pre>
-
-<p>
-The <b>return</b> statement can only be written
-as the last statement of a block.
-If it is really necessary to <b>return</b> in the middle of a block,
-then an explicit inner block can be used,
-as in the idiom <code>do return end</code>,
-because now <b>return</b> is the last statement in its (inner) block.
-
-
-
-
-
-<h3>3.3.5 &ndash; <a name="3.3.5">For Statement</a></h3>
-
-<p>
-
-The <b>for</b> statement has two forms:
-one numeric and one generic.
-
-
-<p>
-The numeric <b>for</b> loop repeats a block of code while a
-control variable runs through an arithmetic progression.
-It has the following syntax:
-
-<pre>
-	stat ::= <b>for</b> Name &lsquo;<b>=</b>&rsquo; exp &lsquo;<b>,</b>&rsquo; exp [&lsquo;<b>,</b>&rsquo; exp] <b>do</b> block <b>end</b>
-</pre><p>
-The <em>block</em> is repeated for <em>name</em> starting at the value of
-the first <em>exp</em>, until it passes the second <em>exp</em> by steps of the
-third <em>exp</em>.
-More precisely, a <b>for</b> statement like
-
-<pre>
-     for v = <em>e1</em>, <em>e2</em>, <em>e3</em> do <em>block</em> end
-</pre><p>
-is equivalent to the code:
-
-<pre>
-     do
-       local <em>var</em>, <em>limit</em>, <em>step</em> = tonumber(<em>e1</em>), tonumber(<em>e2</em>), tonumber(<em>e3</em>)
-       if not (<em>var</em> and <em>limit</em> and <em>step</em>) then error() end
-       <em>var</em> = <em>var</em> - <em>step</em>
-       while true do
-         <em>var</em> = <em>var</em> + <em>step</em>
-         if (<em>step</em> &gt;= 0 and <em>var</em> &gt; <em>limit</em>) or (<em>step</em> &lt; 0 and <em>var</em> &lt; <em>limit</em>) then
-           break
-         end
-         local v = <em>var</em>
-         <em>block</em>
-       end
-     end
-</pre>
-
-<p>
-Note the following:
-
-<ul>
-
-<li>
-All three control expressions are evaluated only once,
-before the loop starts.
-They must all result in numbers.
-</li>
-
-<li>
-<code><em>var</em></code>, <code><em>limit</em></code>, and <code><em>step</em></code> are invisible variables.
-The names shown here are for explanatory purposes only.
-</li>
-
-<li>
-If the third expression (the step) is absent,
-then a step of&nbsp;1 is used.
-</li>
-
-<li>
-You can use <b>break</b> and <b>goto</b> to exit a <b>for</b> loop.
-</li>
-
-<li>
-The loop variable <code>v</code> is local to the loop body.
-If you need its value after the loop,
-assign it to another variable before exiting the loop.
-</li>
-
-</ul>
-
-<p>
-The generic <b>for</b> statement works over functions,
-called <em>iterators</em>.
-On each iteration, the iterator function is called to produce a new value,
-stopping when this new value is <b>nil</b>.
-The generic <b>for</b> loop has the following syntax:
-
-<pre>
-	stat ::= <b>for</b> namelist <b>in</b> explist <b>do</b> block <b>end</b>
-	namelist ::= Name {&lsquo;<b>,</b>&rsquo; Name}
-</pre><p>
-A <b>for</b> statement like
-
-<pre>
-     for <em>var_1</em>, &middot;&middot;&middot;, <em>var_n</em> in <em>explist</em> do <em>block</em> end
-</pre><p>
-is equivalent to the code:
-
-<pre>
-     do
-       local <em>f</em>, <em>s</em>, <em>var</em> = <em>explist</em>
-       while true do
-         local <em>var_1</em>, &middot;&middot;&middot;, <em>var_n</em> = <em>f</em>(<em>s</em>, <em>var</em>)
-         if <em>var_1</em> == nil then break end
-         <em>var</em> = <em>var_1</em>
-         <em>block</em>
-       end
-     end
-</pre><p>
-Note the following:
-
-<ul>
-
-<li>
-<code><em>explist</em></code> is evaluated only once.
-Its results are an <em>iterator</em> function,
-a <em>state</em>,
-and an initial value for the first <em>iterator variable</em>.
-</li>
-
-<li>
-<code><em>f</em></code>, <code><em>s</em></code>, and <code><em>var</em></code> are invisible variables.
-The names are here for explanatory purposes only.
-</li>
-
-<li>
-You can use <b>break</b> to exit a <b>for</b> loop.
-</li>
-
-<li>
-The loop variables <code><em>var_i</em></code> are local to the loop;
-you cannot use their values after the <b>for</b> ends.
-If you need these values,
-then assign them to other variables before breaking or exiting the loop.
-</li>
-
-</ul>
-
-
-
-
-<h3>3.3.6 &ndash; <a name="3.3.6">Function Calls as Statements</a></h3><p>
-To allow possible side-effects,
-function calls can be executed as statements:
-
-<pre>
-	stat ::= functioncall
-</pre><p>
-In this case, all returned values are thrown away.
-Function calls are explained in <a href="#3.4.10">&sect;3.4.10</a>.
-
-
-
-
-
-<h3>3.3.7 &ndash; <a name="3.3.7">Local Declarations</a></h3><p>
-Local variables can be declared anywhere inside a block.
-The declaration can include an initial assignment:
-
-<pre>
-	stat ::= <b>local</b> namelist [&lsquo;<b>=</b>&rsquo; explist]
-</pre><p>
-If present, an initial assignment has the same semantics
-of a multiple assignment (see <a href="#3.3.3">&sect;3.3.3</a>).
-Otherwise, all variables are initialized with <b>nil</b>.
-
-
-<p>
-A chunk is also a block (see <a href="#3.3.2">&sect;3.3.2</a>),
-and so local variables can be declared in a chunk outside any explicit block.
-
-
-<p>
-The visibility rules for local variables are explained in <a href="#3.5">&sect;3.5</a>.
-
-
-
-
-
-
-
-<h2>3.4 &ndash; <a name="3.4">Expressions</a></h2>
-
-<p>
-The basic expressions in Lua are the following:
-
-<pre>
-	exp ::= prefixexp
-	exp ::= <b>nil</b> | <b>false</b> | <b>true</b>
-	exp ::= Numeral
-	exp ::= LiteralString
-	exp ::= functiondef
-	exp ::= tableconstructor
-	exp ::= &lsquo;<b>...</b>&rsquo;
-	exp ::= exp binop exp
-	exp ::= unop exp
-	prefixexp ::= var | functioncall | &lsquo;<b>(</b>&rsquo; exp &lsquo;<b>)</b>&rsquo;
-</pre>
-
-<p>
-Numerals and literal strings are explained in <a href="#3.1">&sect;3.1</a>;
-variables are explained in <a href="#3.2">&sect;3.2</a>;
-function definitions are explained in <a href="#3.4.11">&sect;3.4.11</a>;
-function calls are explained in <a href="#3.4.10">&sect;3.4.10</a>;
-table constructors are explained in <a href="#3.4.9">&sect;3.4.9</a>.
-Vararg expressions,
-denoted by three dots ('<code>...</code>'), can only be used when
-directly inside a vararg function;
-they are explained in <a href="#3.4.11">&sect;3.4.11</a>.
-
-
-<p>
-Binary operators comprise arithmetic operators (see <a href="#3.4.1">&sect;3.4.1</a>),
-bitwise operators (see <a href="#3.4.2">&sect;3.4.2</a>),
-relational operators (see <a href="#3.4.4">&sect;3.4.4</a>), logical operators (see <a href="#3.4.5">&sect;3.4.5</a>),
-and the concatenation operator (see <a href="#3.4.6">&sect;3.4.6</a>).
-Unary operators comprise the unary minus (see <a href="#3.4.1">&sect;3.4.1</a>),
-the unary bitwise not (see <a href="#3.4.2">&sect;3.4.2</a>),
-the unary logical <b>not</b> (see <a href="#3.4.5">&sect;3.4.5</a>),
-and the unary <em>length operator</em> (see <a href="#3.4.7">&sect;3.4.7</a>).
-
-
-<p>
-Both function calls and vararg expressions can result in multiple values.
-If a function call is used as a statement (see <a href="#3.3.6">&sect;3.3.6</a>),
-then its return list is adjusted to zero elements,
-thus discarding all returned values.
-If an expression is used as the last (or the only) element
-of a list of expressions,
-then no adjustment is made
-(unless the expression is enclosed in parentheses).
-In all other contexts,
-Lua adjusts the result list to one element,
-either discarding all values except the first one
-or adding a single <b>nil</b> if there are no values.
-
-
-<p>
-Here are some examples:
-
-<pre>
-     f()                -- adjusted to 0 results
-     g(f(), x)          -- f() is adjusted to 1 result
-     g(x, f())          -- g gets x plus all results from f()
-     a,b,c = f(), x     -- f() is adjusted to 1 result (c gets nil)
-     a,b = ...          -- a gets the first vararg parameter, b gets
-                        -- the second (both a and b can get nil if there
-                        -- is no corresponding vararg parameter)
-     
-     a,b,c = x, f()     -- f() is adjusted to 2 results
-     a,b,c = f()        -- f() is adjusted to 3 results
-     return f()         -- returns all results from f()
-     return ...         -- returns all received vararg parameters
-     return x,y,f()     -- returns x, y, and all results from f()
-     {f()}              -- creates a list with all results from f()
-     {...}              -- creates a list with all vararg parameters
-     {f(), nil}         -- f() is adjusted to 1 result
-</pre>
-
-<p>
-Any expression enclosed in parentheses always results in only one value.
-Thus,
-<code>(f(x,y,z))</code> is always a single value,
-even if <code>f</code> returns several values.
-(The value of <code>(f(x,y,z))</code> is the first value returned by <code>f</code>
-or <b>nil</b> if <code>f</code> does not return any values.)
-
-
-
-<h3>3.4.1 &ndash; <a name="3.4.1">Arithmetic Operators</a></h3><p>
-Lua supports the following arithmetic operators:
-
-<ul>
-<li><b><code>+</code>: </b>addition</li>
-<li><b><code>-</code>: </b>subtraction</li>
-<li><b><code>*</code>: </b>multiplication</li>
-<li><b><code>/</code>: </b>float division</li>
-<li><b><code>//</code>: </b>floor division</li>
-<li><b><code>%</code>: </b>modulo</li>
-<li><b><code>^</code>: </b>exponentiation</li>
-<li><b><code>-</code>: </b>unary minus</li>
-</ul>
-
-<p>
-With the exception of exponentiation and float division,
-the arithmetic operators work as follows:
-If both operands are integers,
-the operation is performed over integers and the result is an integer.
-Otherwise, if both operands are numbers
-or strings that can be converted to
-numbers (see <a href="#3.4.3">&sect;3.4.3</a>),
-then they are converted to floats,
-the operation is performed following the usual rules
-for floating-point arithmetic
-(usually the IEEE 754 standard),
-and the result is a float.
-
-
-<p>
-Exponentiation and float division (<code>/</code>)
-always convert their operands to floats
-and the result is always a float.
-Exponentiation uses the ISO&nbsp;C function <code>pow</code>,
-so that it works for non-integer exponents too.
-
-
-<p>
-Floor division (<code>//</code>) is a division 
-that rounds the quotient towards minus infinite,
-that is, the floor of the division of its operands.
-
-
-<p>
-Modulo is defined as the remainder of a division
-that rounds the quotient towards minus infinite (floor division).
-
-
-<p>
-In case of overflows in integer arithmetic,
-all operations <em>wrap around</em>,
-according to the usual rules of two-complement arithmetic.
-(In other words,
-they return the unique representable integer
-that is equal modulo <em>2<sup>64</sup></em> to the mathematical result.)
-
-
-
-<h3>3.4.2 &ndash; <a name="3.4.2">Bitwise Operators</a></h3><p>
-Lua supports the following bitwise operators:
-
-<ul>
-<li><b><code>&amp;</code>: </b>bitwise and</li>
-<li><b><code>&#124;</code>: </b>bitwise or</li>
-<li><b><code>~</code>: </b>bitwise exclusive or</li>
-<li><b><code>&gt;&gt;</code>: </b>right shift</li>
-<li><b><code>&lt;&lt;</code>: </b>left shift</li>
-<li><b><code>~</code>: </b>unary bitwise not</li>
-</ul>
-
-<p>
-All bitwise operations convert its operands to integers
-(see <a href="#3.4.3">&sect;3.4.3</a>),
-operate on all bits of those integers,
-and result in an integer.
-
-
-<p>
-Both right and left shifts fill the vacant bits with zeros.
-Negative displacements shift to the other direction;
-displacements with absolute values equal to or higher than
-the number of bits in an integer
-result in zero (as all bits are shifted out).
-
-
-
-
-
-<h3>3.4.3 &ndash; <a name="3.4.3">Coercions and Conversions</a></h3><p>
-Lua provides some automatic conversions between some
-types and representations at run time.
-Bitwise operators always convert float operands to integers.
-Exponentiation and float division
-always convert integer operands to floats.
-All other arithmetic operations applied to mixed numbers
-(integers and floats) convert the integer operand to a float;
-this is called the <em>usual rule</em>.
-The C API also converts both integers to floats and
-floats to integers, as needed.
-Moreover, string concatenation accepts numbers as arguments,
-besides strings. 
-
-
-<p>
-Lua also converts strings to numbers,
-whenever a number is expected.
-
-
-<p>
-In a conversion from integer to float,
-if the integer value has an exact representation as a float,
-that is the result.
-Otherwise,
-the conversion gets the nearest higher or
-the nearest lower representable value.
-This kind of conversion never fails.
-
-
-<p>
-The conversion from float to integer
-checks whether the float has an exact representation as an integer
-(that is, the float has an integral value and
-it is in the range of integer representation).
-If it does, that representation is the result.
-Otherwise, the conversion fails.
-
-
-<p>
-The conversion from strings to numbers goes as follows:
-First, the string is converted to an integer or a float,
-following its syntax and the rules of the Lua lexer.
-(The string may have also leading and trailing spaces and a sign.)
-Then, the resulting number is converted to the required type
-(float or integer) according to the previous rules.
-
-
-<p>
-The conversion from numbers to strings uses a
-non-specified human-readable format.
-For complete control over how numbers are converted to strings,
-use the <code>format</code> function from the string library
-(see <a href="#pdf-string.format"><code>string.format</code></a>).
-
-
-
-
-
-<h3>3.4.4 &ndash; <a name="3.4.4">Relational Operators</a></h3><p>
-Lua supports the following relational operators:
-
-<ul>
-<li><b><code>==</code>: </b>equality</li>
-<li><b><code>~=</code>: </b>inequality</li>
-<li><b><code>&lt;</code>: </b>less than</li>
-<li><b><code>&gt;</code>: </b>greater than</li>
-<li><b><code>&lt;=</code>: </b>less or equal</li>
-<li><b><code>&gt;=</code>: </b>greater or equal</li>
-</ul><p>
-These operators always result in <b>false</b> or <b>true</b>.
-
-
-<p>
-Equality (<code>==</code>) first compares the type of its operands.
-If the types are different, then the result is <b>false</b>.
-Otherwise, the values of the operands are compared.
-Strings are compared in the obvious way.
-Numbers follow the usual rule for binary operations:
-if both operands are integers,
-they are compared as integers;
-otherwise, they are converted to floats
-and compared as such.
-
-
-<p>
-Tables, userdata, and threads
-are compared by reference:
-two objects are considered equal only if they are the same object.
-Every time you create a new object
-(a table, userdata, or thread),
-this new object is different from any previously existing object.
-Closures with the same reference are always equal.
-Closures with any detectable difference
-(different behavior, different definition) are always different.
-
-
-<p>
-You can change the way that Lua compares tables and userdata
-by using the "eq" metamethod (see <a href="#2.4">&sect;2.4</a>).
-
-
-<p>
-Equality comparisons do not convert strings to numbers
-or vice versa.
-Thus, <code>"0"==0</code> evaluates to <b>false</b>,
-and <code>t[0]</code> and <code>t["0"]</code> denote different
-entries in a table.
-
-
-<p>
-The operator <code>~=</code> is exactly the negation of equality (<code>==</code>).
-
-
-<p>
-The order operators work as follows.
-If both arguments are numbers,
-then they are compared following
-the usual rule for binary operations.
-Otherwise, if both arguments are strings,
-then their values are compared according to the current locale.
-Otherwise, Lua tries to call the "lt" or the "le"
-metamethod (see <a href="#2.4">&sect;2.4</a>).
-A comparison <code>a &gt; b</code> is translated to <code>b &lt; a</code>
-and <code>a &gt;= b</code> is translated to <code>b &lt;= a</code>.
-
-
-
-
-
-<h3>3.4.5 &ndash; <a name="3.4.5">Logical Operators</a></h3><p>
-The logical operators in Lua are
-<b>and</b>, <b>or</b>, and <b>not</b>.
-Like the control structures (see <a href="#3.3.4">&sect;3.3.4</a>),
-all logical operators consider both <b>false</b> and <b>nil</b> as false
-and anything else as true.
-
-
-<p>
-The negation operator <b>not</b> always returns <b>false</b> or <b>true</b>.
-The conjunction operator <b>and</b> returns its first argument
-if this value is <b>false</b> or <b>nil</b>;
-otherwise, <b>and</b> returns its second argument.
-The disjunction operator <b>or</b> returns its first argument
-if this value is different from <b>nil</b> and <b>false</b>;
-otherwise, <b>or</b> returns its second argument.
-Both <b>and</b> and <b>or</b> use short-circuit evaluation;
-that is,
-the second operand is evaluated only if necessary.
-Here are some examples:
-
-<pre>
-     10 or 20            --&gt; 10
-     10 or error()       --&gt; 10
-     nil or "a"          --&gt; "a"
-     nil and 10          --&gt; nil
-     false and error()   --&gt; false
-     false and nil       --&gt; false
-     false or nil        --&gt; nil
-     10 and 20           --&gt; 20
-</pre><p>
-(In this manual,
-<code>--&gt;</code> indicates the result of the preceding expression.)
-
-
-
-
-
-<h3>3.4.6 &ndash; <a name="3.4.6">Concatenation</a></h3><p>
-The string concatenation operator in Lua is
-denoted by two dots ('<code>..</code>').
-If both operands are strings or numbers, then they are converted to
-strings according to the rules described in <a href="#3.4.3">&sect;3.4.3</a>.
-Otherwise, the <code>__concat</code> metamethod is called (see <a href="#2.4">&sect;2.4</a>).
-
-
-
-
-
-<h3>3.4.7 &ndash; <a name="3.4.7">The Length Operator</a></h3>
-
-<p>
-The length operator is denoted by the unary prefix operator <code>#</code>.
-The length of a string is its number of bytes
-(that is, the usual meaning of string length when each
-character is one byte).
-
-
-<p>
-A program can modify the behavior of the length operator for
-any value but strings through the <code>__len</code> metamethod (see <a href="#2.4">&sect;2.4</a>).
-
-
-<p>
-Unless a <code>__len</code> metamethod is given,
-the length of a table <code>t</code> is only defined if the
-table is a <em>sequence</em>,
-that is,
-the set of its positive numeric keys is equal to <em>{1..n}</em>
-for some non-negative integer <em>n</em>.
-In that case, <em>n</em> is its length.
-Note that a table like
-
-<pre>
-     {10, 20, nil, 40}
-</pre><p>
-is not a sequence, because it has the key <code>4</code>
-but does not have the key <code>3</code>.
-(So, there is no <em>n</em> such that the set <em>{1..n}</em> is equal
-to the set of positive numeric keys of that table.)
-Note, however, that non-numeric keys do not interfere
-with whether a table is a sequence.
-
-
-
-
-
-<h3>3.4.8 &ndash; <a name="3.4.8">Precedence</a></h3><p>
-Operator precedence in Lua follows the table below,
-from lower to higher priority:
-
-<pre>
-     or
-     and
-     &lt;     &gt;     &lt;=    &gt;=    ~=    ==
-     |
-     ~
-     &amp;
-     &lt;&lt;    &gt;&gt;
-     ..
-     +     -
-     *     /     //    %
-     unary operators (not   #     -     ~)
-     ^
-</pre><p>
-As usual,
-you can use parentheses to change the precedences of an expression.
-The concatenation ('<code>..</code>') and exponentiation ('<code>^</code>')
-operators are right associative.
-All other binary operators are left associative.
-
-
-
-
-
-<h3>3.4.9 &ndash; <a name="3.4.9">Table Constructors</a></h3><p>
-Table constructors are expressions that create tables.
-Every time a constructor is evaluated, a new table is created.
-A constructor can be used to create an empty table
-or to create a table and initialize some of its fields.
-The general syntax for constructors is
-
-<pre>
-	tableconstructor ::= &lsquo;<b>{</b>&rsquo; [fieldlist] &lsquo;<b>}</b>&rsquo;
-	fieldlist ::= field {fieldsep field} [fieldsep]
-	field ::= &lsquo;<b>[</b>&rsquo; exp &lsquo;<b>]</b>&rsquo; &lsquo;<b>=</b>&rsquo; exp | Name &lsquo;<b>=</b>&rsquo; exp | exp
-	fieldsep ::= &lsquo;<b>,</b>&rsquo; | &lsquo;<b>;</b>&rsquo;
-</pre>
-
-<p>
-Each field of the form <code>[exp1] = exp2</code> adds to the new table an entry
-with key <code>exp1</code> and value <code>exp2</code>.
-A field of the form <code>name = exp</code> is equivalent to
-<code>["name"] = exp</code>.
-Finally, fields of the form <code>exp</code> are equivalent to
-<code>[i] = exp</code>, where <code>i</code> are consecutive integers
-starting with 1.
-Fields in the other formats do not affect this counting.
-For example,
-
-<pre>
-     a = { [f(1)] = g; "x", "y"; x = 1, f(x), [30] = 23; 45 }
-</pre><p>
-is equivalent to
-
-<pre>
-     do
-       local t = {}
-       t[f(1)] = g
-       t[1] = "x"         -- 1st exp
-       t[2] = "y"         -- 2nd exp
-       t.x = 1            -- t["x"] = 1
-       t[3] = f(x)        -- 3rd exp
-       t[30] = 23
-       t[4] = 45          -- 4th exp
-       a = t
-     end
-</pre>
-
-<p>
-The order of the assignments in a constructor is undefined.
-(This order would be relevant only when there are repeated keys.)
-
-
-<p>
-If the last field in the list has the form <code>exp</code>
-and the expression is a function call or a vararg expression,
-then all values returned by this expression enter the list consecutively
-(see <a href="#3.4.10">&sect;3.4.10</a>).
-
-
-<p>
-The field list can have an optional trailing separator,
-as a convenience for machine-generated code.
-
-
-
-
-
-<h3>3.4.10 &ndash; <a name="3.4.10">Function Calls</a></h3><p>
-A function call in Lua has the following syntax:
-
-<pre>
-	functioncall ::= prefixexp args
-</pre><p>
-In a function call,
-first prefixexp and args are evaluated.
-If the value of prefixexp has type <em>function</em>,
-then this function is called
-with the given arguments.
-Otherwise, the prefixexp "call" metamethod is called,
-having as first parameter the value of prefixexp,
-followed by the original call arguments
-(see <a href="#2.4">&sect;2.4</a>).
-
-
-<p>
-The form
-
-<pre>
-	functioncall ::= prefixexp &lsquo;<b>:</b>&rsquo; Name args
-</pre><p>
-can be used to call "methods".
-A call <code>v:name(<em>args</em>)</code>
-is syntactic sugar for <code>v.name(v,<em>args</em>)</code>,
-except that <code>v</code> is evaluated only once.
-
-
-<p>
-Arguments have the following syntax:
-
-<pre>
-	args ::= &lsquo;<b>(</b>&rsquo; [explist] &lsquo;<b>)</b>&rsquo;
-	args ::= tableconstructor
-	args ::= LiteralString
-</pre><p>
-All argument expressions are evaluated before the call.
-A call of the form <code>f{<em>fields</em>}</code> is
-syntactic sugar for <code>f({<em>fields</em>})</code>;
-that is, the argument list is a single new table.
-A call of the form <code>f'<em>string</em>'</code>
-(or <code>f"<em>string</em>"</code> or <code>f[[<em>string</em>]]</code>)
-is syntactic sugar for <code>f('<em>string</em>')</code>;
-that is, the argument list is a single literal string.
-
-
-<p>
-A call of the form <code>return <em>functioncall</em></code> is called
-a <em>tail call</em>.
-Lua implements <em>proper tail calls</em>
-(or <em>proper tail recursion</em>):
-in a tail call,
-the called function reuses the stack entry of the calling function.
-Therefore, there is no limit on the number of nested tail calls that
-a program can execute.
-However, a tail call erases any debug information about the
-calling function.
-Note that a tail call only happens with a particular syntax,
-where the <b>return</b> has one single function call as argument;
-this syntax makes the calling function return exactly
-the returns of the called function.
-So, none of the following examples are tail calls:
-
-<pre>
-     return (f(x))        -- results adjusted to 1
-     return 2 * f(x)
-     return x, f(x)       -- additional results
-     f(x); return         -- results discarded
-     return x or f(x)     -- results adjusted to 1
-</pre>
-
-
-
-
-<h3>3.4.11 &ndash; <a name="3.4.11">Function Definitions</a></h3>
-
-<p>
-The syntax for function definition is
-
-<pre>
-	functiondef ::= <b>function</b> funcbody
-	funcbody ::= &lsquo;<b>(</b>&rsquo; [parlist] &lsquo;<b>)</b>&rsquo; block <b>end</b>
-</pre>
-
-<p>
-The following syntactic sugar simplifies function definitions:
-
-<pre>
-	stat ::= <b>function</b> funcname funcbody
-	stat ::= <b>local</b> <b>function</b> Name funcbody
-	funcname ::= Name {&lsquo;<b>.</b>&rsquo; Name} [&lsquo;<b>:</b>&rsquo; Name]
-</pre><p>
-The statement
-
-<pre>
-     function f () <em>body</em> end
-</pre><p>
-translates to
-
-<pre>
-     f = function () <em>body</em> end
-</pre><p>
-The statement
-
-<pre>
-     function t.a.b.c.f () <em>body</em> end
-</pre><p>
-translates to
-
-<pre>
-     t.a.b.c.f = function () <em>body</em> end
-</pre><p>
-The statement
-
-<pre>
-     local function f () <em>body</em> end
-</pre><p>
-translates to
-
-<pre>
-     local f; f = function () <em>body</em> end
-</pre><p>
-not to
-
-<pre>
-     local f = function () <em>body</em> end
-</pre><p>
-(This only makes a difference when the body of the function
-contains references to <code>f</code>.)
-
-
-<p>
-A function definition is an executable expression,
-whose value has type <em>function</em>.
-When Lua precompiles a chunk,
-all its function bodies are precompiled too.
-Then, whenever Lua executes the function definition,
-the function is <em>instantiated</em> (or <em>closed</em>).
-This function instance (or <em>closure</em>)
-is the final value of the expression.
-
-
-<p>
-Parameters act as local variables that are
-initialized with the argument values:
-
-<pre>
-	parlist ::= namelist [&lsquo;<b>,</b>&rsquo; &lsquo;<b>...</b>&rsquo;] | &lsquo;<b>...</b>&rsquo;
-</pre><p>
-When a function is called,
-the list of arguments is adjusted to
-the length of the list of parameters,
-unless the function is a <em>vararg function</em>,
-which is indicated by three dots ('<code>...</code>')
-at the end of its parameter list.
-A vararg function does not adjust its argument list;
-instead, it collects all extra arguments and supplies them
-to the function through a <em>vararg expression</em>,
-which is also written as three dots.
-The value of this expression is a list of all actual extra arguments,
-similar to a function with multiple results.
-If a vararg expression is used inside another expression
-or in the middle of a list of expressions,
-then its return list is adjusted to one element.
-If the expression is used as the last element of a list of expressions,
-then no adjustment is made
-(unless that last expression is enclosed in parentheses).
-
-
-<p>
-As an example, consider the following definitions:
-
-<pre>
-     function f(a, b) end
-     function g(a, b, ...) end
-     function r() return 1,2,3 end
-</pre><p>
-Then, we have the following mapping from arguments to parameters and
-to the vararg expression:
-
-<pre>
-     CALL            PARAMETERS
-     
-     f(3)             a=3, b=nil
-     f(3, 4)          a=3, b=4
-     f(3, 4, 5)       a=3, b=4
-     f(r(), 10)       a=1, b=10
-     f(r())           a=1, b=2
-     
-     g(3)             a=3, b=nil, ... --&gt;  (nothing)
-     g(3, 4)          a=3, b=4,   ... --&gt;  (nothing)
-     g(3, 4, 5, 8)    a=3, b=4,   ... --&gt;  5  8
-     g(5, r())        a=5, b=1,   ... --&gt;  2  3
-</pre>
-
-<p>
-Results are returned using the <b>return</b> statement (see <a href="#3.3.4">&sect;3.3.4</a>).
-If control reaches the end of a function
-without encountering a <b>return</b> statement,
-then the function returns with no results.
-
-
-<p>
-
-There is a system-dependent limit on the number of values
-that a function may return.
-This limit is guaranteed to be larger than 1000.
-
-
-<p>
-The <em>colon</em> syntax
-is used for defining <em>methods</em>,
-that is, functions that have an implicit extra parameter <code>self</code>.
-Thus, the statement
-
-<pre>
-     function t.a.b.c:f (<em>params</em>) <em>body</em> end
-</pre><p>
-is syntactic sugar for
-
-<pre>
-     t.a.b.c.f = function (self, <em>params</em>) <em>body</em> end
-</pre>
-
-
-
-
-
-
-<h2>3.5 &ndash; <a name="3.5">Visibility Rules</a></h2>
-
-<p>
-
-Lua is a lexically scoped language.
-The scope of a local variable begins at the first statement after
-its declaration and lasts until the last non-void statement
-of the innermost block that includes the declaration.
-Consider the following example:
-
-<pre>
-     x = 10                -- global variable
-     do                    -- new block
-       local x = x         -- new 'x', with value 10
-       print(x)            --&gt; 10
-       x = x+1
-       do                  -- another block
-         local x = x+1     -- another 'x'
-         print(x)          --&gt; 12
-       end
-       print(x)            --&gt; 11
-     end
-     print(x)              --&gt; 10  (the global one)
-</pre>
-
-<p>
-Notice that, in a declaration like <code>local x = x</code>,
-the new <code>x</code> being declared is not in scope yet,
-and so the second <code>x</code> refers to the outside variable.
-
-
-<p>
-Because of the lexical scoping rules,
-local variables can be freely accessed by functions
-defined inside their scope.
-A local variable used by an inner function is called
-an <em>upvalue</em>, or <em>external local variable</em>,
-inside the inner function.
-
-
-<p>
-Notice that each execution of a <b>local</b> statement
-defines new local variables.
-Consider the following example:
-
-<pre>
-     a = {}
-     local x = 20
-     for i=1,10 do
-       local y = 0
-       a[i] = function () y=y+1; return x+y end
-     end
-</pre><p>
-The loop creates ten closures
-(that is, ten instances of the anonymous function).
-Each of these closures uses a different <code>y</code> variable,
-while all of them share the same <code>x</code>.
-
-
-
-
-
-<h1>4 &ndash; <a name="4">The Application Program Interface</a></h1>
-
-<p>
-
-This section describes the C&nbsp;API for Lua, that is,
-the set of C&nbsp;functions available to the host program to communicate
-with Lua.
-All API functions and related types and constants
-are declared in the header file <a name="pdf-lua.h"><code>lua.h</code></a>.
-
-
-<p>
-Even when we use the term "function",
-any facility in the API may be provided as a macro instead.
-Except where stated otherwise,
-all such macros use each of their arguments exactly once
-(except for the first argument, which is always a Lua state),
-and so do not generate any hidden side-effects.
-
-
-<p>
-As in most C&nbsp;libraries,
-the Lua API functions do not check their arguments for validity or consistency.
-However, you can change this behavior by compiling Lua
-with the macro <a name="pdf-LUA_USE_APICHECK"><code>LUA_USE_APICHECK</code></a> defined.
-
-
-
-<h2>4.1 &ndash; <a name="4.1">The Stack</a></h2>
-
-<p>
-Lua uses a <em>virtual stack</em> to pass values to and from C.
-Each element in this stack represents a Lua value
-(<b>nil</b>, number, string, etc.).
-
-
-<p>
-Whenever Lua calls C, the called function gets a new stack,
-which is independent of previous stacks and of stacks of
-C&nbsp;functions that are still active.
-This stack initially contains any arguments to the C&nbsp;function
-and it is where the C&nbsp;function pushes its results
-to be returned to the caller (see <a href="#lua_CFunction"><code>lua_CFunction</code></a>).
-
-
-<p>
-For convenience,
-most query operations in the API do not follow a strict stack discipline.
-Instead, they can refer to any element in the stack
-by using an <em>index</em>:
-A positive index represents an absolute stack position
-(starting at&nbsp;1);
-a negative index represents an offset relative to the top of the stack.
-More specifically, if the stack has <em>n</em> elements,
-then index&nbsp;1 represents the first element
-(that is, the element that was pushed onto the stack first)
-and
-index&nbsp;<em>n</em> represents the last element;
-index&nbsp;-1 also represents the last element
-(that is, the element at the&nbsp;top)
-and index <em>-n</em> represents the first element.
-
-
-
-
-
-<h2>4.2 &ndash; <a name="4.2">Stack Size</a></h2>
-
-<p>
-When you interact with the Lua API,
-you are responsible for ensuring consistency.
-In particular,
-<em>you are responsible for controlling stack overflow</em>.
-You can use the function <a href="#lua_checkstack"><code>lua_checkstack</code></a>
-to ensure that the stack has enough space for pushing new elements.
-
-
-<p>
-Whenever Lua calls C,
-it ensures that the stack has space for
-at least <a name="pdf-LUA_MINSTACK"><code>LUA_MINSTACK</code></a> extra slots.
-<code>LUA_MINSTACK</code> is defined as 20,
-so that usually you do not have to worry about stack space
-unless your code has loops pushing elements onto the stack.
-
-
-<p>
-When you call a Lua function
-without a fixed number of results (see <a href="#lua_call"><code>lua_call</code></a>),
-Lua ensures that the stack has enough space for all results,
-but it does not ensure any extra space.
-So, before pushing anything in the stack after such a call
-you should use <a href="#lua_checkstack"><code>lua_checkstack</code></a>.
-
-
-
-
-
-<h2>4.3 &ndash; <a name="4.3">Valid and Acceptable Indices</a></h2>
-
-<p>
-Any function in the API that receives stack indices
-works only with <em>valid indices</em> or <em>acceptable indices</em>.
-
-
-<p>
-A <em>valid index</em> is an index that refers to a
-real position within the stack, that is,
-its position lies between&nbsp;1 and the stack top
-(<code>1 &le; abs(index) &le; top</code>).
-
-Usually, functions that can modify the value at an index
-require valid indices.
-
-
-<p>
-Unless otherwise noted,
-any function that accepts valid indices also accepts <em>pseudo-indices</em>,
-which represent some Lua values that are accessible to C&nbsp;code
-but which are not in the stack.
-Pseudo-indices are used to access the registry
-and the upvalues of a C&nbsp;function (see <a href="#4.4">&sect;4.4</a>).
-
-
-<p>
-Functions that do not need a specific stack position,
-but only a value in the stack (e.g., query functions),
-can be called with acceptable indices.
-An <em>acceptable index</em> can be any valid index,
-including the pseudo-indices,
-but it also can be any positive index after the stack top
-within the space allocated for the stack,
-that is, indices up to the stack size.
-(Note that 0 is never an acceptable index.)
-Except when noted otherwise,
-functions in the API work with acceptable indices.
-
-
-<p>
-Acceptable indices serve to avoid extra tests
-against the stack top when querying the stack.
-For instance, a C&nbsp;function can query its third argument
-without the need to first check whether there is a third argument,
-that is, without the need to check whether 3 is a valid index.
-
-
-<p>
-For functions that can be called with acceptable indices,
-any non-valid index is treated as if it
-contains a value of a virtual type <a name="pdf-LUA_TNONE"><code>LUA_TNONE</code></a>,
-which behaves like a nil value.
-
-
-
-
-
-<h2>4.4 &ndash; <a name="4.4">C Closures</a></h2>
-
-<p>
-When a C&nbsp;function is created,
-it is possible to associate some values with it,
-thus creating a <em>C&nbsp;closure</em>
-(see <a href="#lua_pushcclosure"><code>lua_pushcclosure</code></a>);
-these values are called <em>upvalues</em> and are
-accessible to the function whenever it is called.
-
-
-<p>
-Whenever a C&nbsp;function is called,
-its upvalues are located at specific pseudo-indices.
-These pseudo-indices are produced by the macro
-<a href="#lua_upvalueindex"><code>lua_upvalueindex</code></a>.
-The first value associated with a function is at position
-<code>lua_upvalueindex(1)</code>, and so on.
-Any access to <code>lua_upvalueindex(<em>n</em>)</code>,
-where <em>n</em> is greater than the number of upvalues of the
-current function (but not greater than 256),
-produces an acceptable but invalid index.
-
-
-
-
-
-<h2>4.5 &ndash; <a name="4.5">Registry</a></h2>
-
-<p>
-Lua provides a <em>registry</em>,
-a predefined table that can be used by any C&nbsp;code to
-store whatever Lua values it needs to store.
-The registry table is always located at pseudo-index
-<a name="pdf-LUA_REGISTRYINDEX"><code>LUA_REGISTRYINDEX</code></a>,
-which is a valid index.
-Any C&nbsp;library can store data into this table,
-but it must take care to choose keys
-that are different from those used
-by other libraries, to avoid collisions.
-Typically, you should use as key a string containing your library name,
-or a light userdata with the address of a C&nbsp;object in your code,
-or any Lua object created by your code.
-As with variable names,
-string keys starting with an underscore followed by
-uppercase letters are reserved for Lua.
-
-
-<p>
-The integer keys in the registry are used
-by the reference mechanism (see <a href="#luaL_ref"><code>luaL_ref</code></a>)
-and by some predefined values.
-Therefore, integer keys must not be used for other purposes.
-
-
-<p>
-When you create a new Lua state,
-its registry comes with some predefined values.
-These predefined values are indexed with integer keys
-defined as constants in <code>lua.h</code>.
-The following constants are defined:
-
-<ul>
-<li><b><a name="pdf-LUA_RIDX_MAINTHREAD"><code>LUA_RIDX_MAINTHREAD</code></a>: </b> At this index the registry has
-the main thread of the state.
-(The main thread is the one created together with the state.)
-</li>
-
-<li><b><a name="pdf-LUA_RIDX_GLOBALS"><code>LUA_RIDX_GLOBALS</code></a>: </b> At this index the registry has
-the global environment.
-</li>
-</ul>
-
-
-
-
-<h2>4.6 &ndash; <a name="4.6">Error Handling in C</a></h2>
-
-<p>
-Internally, Lua uses the C <code>longjmp</code> facility to handle errors.
-(Lua will use exceptions if you compile it as C++;
-search for <code>LUAI_THROW</code> in the source code for details.)
-When Lua faces any error
-(such as a memory allocation error, type errors, syntax errors,
-and runtime errors)
-it <em>raises</em> an error;
-that is, it does a long jump.
-A <em>protected environment</em> uses <code>setjmp</code>
-to set a recovery point;
-any error jumps to the most recent active recovery point.
-
-
-<p>
-If an error happens outside any protected environment,
-Lua calls a <em>panic function</em> (see <a href="#lua_atpanic"><code>lua_atpanic</code></a>)
-and then calls <code>abort</code>,
-thus exiting the host application.
-Your panic function can avoid this exit by
-never returning
-(e.g., doing a long jump to your own recovery point outside Lua).
-
-
-<p>
-The panic function runs as if it were a message handler (see <a href="#2.3">&sect;2.3</a>);
-in particular, the error message is at the top of the stack.
-However, there is no guarantee about stack space.
-To push anything on the stack,
-the panic function must first check the available space (see <a href="#4.2">&sect;4.2</a>).
-
-
-<p>
-Most functions in the API can raise an error,
-for instance due to a memory allocation error.
-The documentation for each function indicates whether
-it can raise errors.
-
-
-<p>
-Inside a C&nbsp;function you can raise an error by calling <a href="#lua_error"><code>lua_error</code></a>.
-
-
-
-
-
-<h2>4.7 &ndash; <a name="4.7">Handling Yields in C</a></h2>
-
-<p>
-Internally, Lua uses the C <code>longjmp</code> facility to yield a coroutine.
-Therefore, if a C function <code>foo</code> calls an API function
-and this API function yields
-(directly or indirectly by calling another function that yields),
-Lua cannot return to <code>foo</code> any more,
-because the <code>longjmp</code> removes its frame from the C stack.
-
-
-<p>
-To avoid this kind of problem,
-Lua raises an error whenever it tries to yield across an API call,
-except for three functions:
-<a href="#lua_yieldk"><code>lua_yieldk</code></a>, <a href="#lua_callk"><code>lua_callk</code></a>, and <a href="#lua_pcallk"><code>lua_pcallk</code></a>.
-All those functions receive a <em>continuation function</em>
-(as a parameter named <code>k</code>) to continue execution after a yield.
-
-
-<p>
-We need to set some terminology to explain continuations.
-We have a C function called from Lua which we will call
-the <em>original function</em>.
-This original function then calls one of those three functions in the C API,
-which we will call the <em>callee function</em>,
-that then yields the current thread.
-(This can happen when the callee function is <a href="#lua_yieldk"><code>lua_yieldk</code></a>,
-or when the callee function is either <a href="#lua_callk"><code>lua_callk</code></a> or <a href="#lua_pcallk"><code>lua_pcallk</code></a>
-and the function called by them yields.)
-
-
-<p>
-Suppose the running thread yields while executing the callee function.
-After the thread resumes,
-it eventually will finish running the callee function.
-However,
-the callee function cannot return to the original function,
-because its frame in the C stack was destroyed by the yield.
-Instead, Lua calls a <em>continuation function</em>,
-which was given as an argument to the callee function.
-As the name implies,
-the continuation function should continue the task
-of the original function.
-
-
-<p>
-As an illustration, consider the following function:
-
-<pre>
-     int original_function (lua_State *L) {
-       ...     /* code 1 */
-       status = lua_pcall(L, n, m, h);  /* calls Lua */
-       ...     /* code 2 */
-     }
-</pre><p>
-Now we want to allow
-the Lua code being run by <a href="#lua_pcall"><code>lua_pcall</code></a> to yield.
-First, we can rewrite our function like here:
-
-<pre>
-     int k (lua_State *L, int status, lua_KContext ctx) {
-       ...  /* code 2 */
-     }
-     
-     int original_function (lua_State *L) {
-       ...     /* code 1 */
-       return k(L, lua_pcall(L, n, m, h), ctx);
-     }
-</pre><p>
-In the above code,
-the new function <code>k</code> is a
-<em>continuation function</em> (with type <a href="#lua_KFunction"><code>lua_KFunction</code></a>),
-which should do all the work that the original function
-was doing after calling <a href="#lua_pcall"><code>lua_pcall</code></a>.
-Now, we must inform Lua that it must call <code>k</code> if the Lua code
-being executed by <a href="#lua_pcall"><code>lua_pcall</code></a> gets interrupted in some way
-(errors or yielding),
-so we rewrite the code as here,
-replacing <a href="#lua_pcall"><code>lua_pcall</code></a> by <a href="#lua_pcallk"><code>lua_pcallk</code></a>:
-
-<pre>
-     int original_function (lua_State *L) {
-       ...     /* code 1 */
-       return k(L, lua_pcallk(L, n, m, h, ctx2, k), ctx1);
-     }
-</pre><p>
-Note the external, explicit call to the continuation:
-Lua will call the continuation only if needed, that is,
-in case of errors or resuming after a yield.
-If the called function returns normally without ever yielding,
-<a href="#lua_pcallk"><code>lua_pcallk</code></a> (and <a href="#lua_callk"><code>lua_callk</code></a>) will also return normally.
-(Of course, instead of calling the continuation in that case,
-you can do the equivalent work directly inside the original function.)
-
-
-<p>
-Besides the Lua state,
-the continuation function has two other parameters:
-the final status of the call plus the context value (<code>ctx</code>) that
-was passed originally to <a href="#lua_pcallk"><code>lua_pcallk</code></a>.
-(Lua does not use this context value;
-it only passes this value from the original function to the
-continuation function.)
-For <a href="#lua_pcallk"><code>lua_pcallk</code></a>,
-the status is the same value that would be returned by <a href="#lua_pcallk"><code>lua_pcallk</code></a>,
-except that it is <a href="#pdf-LUA_YIELD"><code>LUA_YIELD</code></a> when being executed after a yield
-(instead of <a href="#pdf-LUA_OK"><code>LUA_OK</code></a>).
-For <a href="#lua_yieldk"><code>lua_yieldk</code></a> and <a href="#lua_callk"><code>lua_callk</code></a>,
-the status is always <a href="#pdf-LUA_YIELD"><code>LUA_YIELD</code></a> when Lua calls the continuation.
-(For these two functions,
-Lua will not call the continuation in case of errors,
-because they do not handle errors.)
-Similarly, when using <a href="#lua_callk"><code>lua_callk</code></a>,
-you should call the continuation function
-with <a href="#pdf-LUA_OK"><code>LUA_OK</code></a> as the status.
-(For <a href="#lua_yieldk"><code>lua_yieldk</code></a>, there is not much point in calling
-directly the continuation function,
-because <a href="#lua_yieldk"><code>lua_yieldk</code></a> usually does not return.)
-
-
-<p>
-Lua treats the continuation function as if it were the original function.
-The continuation function receives the same Lua stack
-from the original function,
-in the same state it would be if the callee function had returned.
-(For instance,
-after a <a href="#lua_callk"><code>lua_callk</code></a> the function and its arguments are
-removed from the stack and replaced by the results from the call.)
-It also has the same upvalues.
-Whatever it returns is handled by Lua as if it were the return
-of the original function.
-
-
-
-
-
-<h2>4.8 &ndash; <a name="4.8">Functions and Types</a></h2>
-
-<p>
-Here we list all functions and types from the C&nbsp;API in
-alphabetical order.
-Each function has an indicator like this:
-<span class="apii">[-o, +p, <em>x</em>]</span>
-
-
-<p>
-The first field, <code>o</code>,
-is how many elements the function pops from the stack.
-The second field, <code>p</code>,
-is how many elements the function pushes onto the stack.
-(Any function always pushes its results after popping its arguments.)
-A field in the form <code>x|y</code> means the function can push (or pop)
-<code>x</code> or <code>y</code> elements,
-depending on the situation;
-an interrogation mark '<code>?</code>' means that
-we cannot know how many elements the function pops/pushes
-by looking only at its arguments
-(e.g., they may depend on what is on the stack).
-The third field, <code>x</code>,
-tells whether the function may raise errors:
-'<code>-</code>' means the function never raises any error;
-'<code>e</code>' means the function may raise errors;
-'<code>v</code>' means the function may raise an error on purpose.
-
-
-
-<hr><h3><a name="lua_absindex"><code>lua_absindex</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_absindex (lua_State *L, int idx);</pre>
-
-<p>
-Converts the acceptable index <code>idx</code> into an absolute index
-(that is, one that does not depend on the stack top).
-
-
-
-
-
-<hr><h3><a name="lua_Alloc"><code>lua_Alloc</code></a></h3>
-<pre>typedef void * (*lua_Alloc) (void *ud,
-                             void *ptr,
-                             size_t osize,
-                             size_t nsize);</pre>
-
-<p>
-The type of the memory-allocation function used by Lua states.
-The allocator function must provide a
-functionality similar to <code>realloc</code>,
-but not exactly the same.
-Its arguments are
-<code>ud</code>, an opaque pointer passed to <a href="#lua_newstate"><code>lua_newstate</code></a>;
-<code>ptr</code>, a pointer to the block being allocated/reallocated/freed;
-<code>osize</code>, the original size of the block or some code about what
-is being allocated;
-and <code>nsize</code>, the new size of the block.
-
-
-<p>
-When <code>ptr</code> is not <code>NULL</code>,
-<code>osize</code> is the size of the block pointed by <code>ptr</code>,
-that is, the size given when it was allocated or reallocated.
-
-
-<p>
-When <code>ptr</code> is <code>NULL</code>,
-<code>osize</code> encodes the kind of object that Lua is allocating.
-<code>osize</code> is any of
-<a href="#pdf-LUA_TSTRING"><code>LUA_TSTRING</code></a>, <a href="#pdf-LUA_TTABLE"><code>LUA_TTABLE</code></a>, <a href="#pdf-LUA_TFUNCTION"><code>LUA_TFUNCTION</code></a>,
-<a href="#pdf-LUA_TUSERDATA"><code>LUA_TUSERDATA</code></a>, or <a href="#pdf-LUA_TTHREAD"><code>LUA_TTHREAD</code></a> when (and only when)
-Lua is creating a new object of that type.
-When <code>osize</code> is some other value,
-Lua is allocating memory for something else.
-
-
-<p>
-Lua assumes the following behavior from the allocator function:
-
-
-<p>
-When <code>nsize</code> is zero,
-the allocator must behave like <code>free</code>
-and return <code>NULL</code>.
-
-
-<p>
-When <code>nsize</code> is not zero,
-the allocator must behave like <code>realloc</code>.
-The allocator returns <code>NULL</code>
-if and only if it cannot fulfill the request.
-Lua assumes that the allocator never fails when
-<code>osize &gt;= nsize</code>.
-
-
-<p>
-Here is a simple implementation for the allocator function.
-It is used in the auxiliary library by <a href="#luaL_newstate"><code>luaL_newstate</code></a>.
-
-<pre>
-     static void *l_alloc (void *ud, void *ptr, size_t osize,
-                                                size_t nsize) {
-       (void)ud;  (void)osize;  /* not used */
-       if (nsize == 0) {
-         free(ptr);
-         return NULL;
-       }
-       else
-         return realloc(ptr, nsize);
-     }
-</pre><p>
-Note that Standard&nbsp;C ensures
-that <code>free(NULL)</code> has no effect and that
-<code>realloc(NULL,size)</code> is equivalent to <code>malloc(size)</code>.
-This code assumes that <code>realloc</code> does not fail when shrinking a block.
-(Although Standard&nbsp;C does not ensure this behavior,
-it seems to be a safe assumption.)
-
-
-
-
-
-<hr><h3><a name="lua_arith"><code>lua_arith</code></a></h3><p>
-<span class="apii">[-(2|1), +1, <em>e</em>]</span>
-<pre>void lua_arith (lua_State *L, int op);</pre>
-
-<p>
-Performs an arithmetic or bitwise operation over the two values
-(or one, in the case of negations)
-at the top of the stack,
-with the value at the top being the second operand,
-pops these values, and pushes the result of the operation.
-The function follows the semantics of the corresponding Lua operator
-(that is, it may call metamethods).
-
-
-<p>
-The value of <code>op</code> must be one of the following constants:
-
-<ul>
-
-<li><b><a name="pdf-LUA_OPADD"><code>LUA_OPADD</code></a>: </b> performs addition (<code>+</code>)</li>
-<li><b><a name="pdf-LUA_OPSUB"><code>LUA_OPSUB</code></a>: </b> performs subtraction (<code>-</code>)</li>
-<li><b><a name="pdf-LUA_OPMUL"><code>LUA_OPMUL</code></a>: </b> performs multiplication (<code>*</code>)</li>
-<li><b><a name="pdf-LUA_OPDIV"><code>LUA_OPDIV</code></a>: </b> performs float division (<code>/</code>)</li>
-<li><b><a name="pdf-LUA_OPIDIV"><code>LUA_OPIDIV</code></a>: </b> performs floor division (<code>//</code>)</li>
-<li><b><a name="pdf-LUA_OPMOD"><code>LUA_OPMOD</code></a>: </b> performs modulo (<code>%</code>)</li>
-<li><b><a name="pdf-LUA_OPPOW"><code>LUA_OPPOW</code></a>: </b> performs exponentiation (<code>^</code>)</li>
-<li><b><a name="pdf-LUA_OPUNM"><code>LUA_OPUNM</code></a>: </b> performs mathematical negation (unary <code>-</code>)</li>
-<li><b><a name="pdf-LUA_OPBNOT"><code>LUA_OPBNOT</code></a>: </b> performs bitwise negation (<code>~</code>)</li>
-<li><b><a name="pdf-LUA_OPBAND"><code>LUA_OPBAND</code></a>: </b> performs bitwise and (<code>&amp;</code>)</li>
-<li><b><a name="pdf-LUA_OPBOR"><code>LUA_OPBOR</code></a>: </b> performs bitwise or (<code>|</code>)</li>
-<li><b><a name="pdf-LUA_OPBXOR"><code>LUA_OPBXOR</code></a>: </b> performs bitwise exclusive or (<code>~</code>)</li>
-<li><b><a name="pdf-LUA_OPSHL"><code>LUA_OPSHL</code></a>: </b> performs left shift (<code>&lt;&lt;</code>)</li>
-<li><b><a name="pdf-LUA_OPSHR"><code>LUA_OPSHR</code></a>: </b> performs right shift (<code>&gt;&gt;</code>)</li>
-
-</ul>
-
-
-
-
-<hr><h3><a name="lua_atpanic"><code>lua_atpanic</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>lua_CFunction lua_atpanic (lua_State *L, lua_CFunction panicf);</pre>
-
-<p>
-Sets a new panic function and returns the old one (see <a href="#4.6">&sect;4.6</a>).
-
-
-
-
-
-<hr><h3><a name="lua_call"><code>lua_call</code></a></h3><p>
-<span class="apii">[-(nargs+1), +nresults, <em>e</em>]</span>
-<pre>void lua_call (lua_State *L, int nargs, int nresults);</pre>
-
-<p>
-Calls a function.
-
-
-<p>
-To call a function you must use the following protocol:
-first, the function to be called is pushed onto the stack;
-then, the arguments to the function are pushed
-in direct order;
-that is, the first argument is pushed first.
-Finally you call <a href="#lua_call"><code>lua_call</code></a>;
-<code>nargs</code> is the number of arguments that you pushed onto the stack.
-All arguments and the function value are popped from the stack
-when the function is called.
-The function results are pushed onto the stack when the function returns.
-The number of results is adjusted to <code>nresults</code>,
-unless <code>nresults</code> is <a name="pdf-LUA_MULTRET"><code>LUA_MULTRET</code></a>.
-In this case, all results from the function are pushed.
-Lua takes care that the returned values fit into the stack space.
-The function results are pushed onto the stack in direct order
-(the first result is pushed first),
-so that after the call the last result is on the top of the stack.
-
-
-<p>
-Any error inside the called function is propagated upwards
-(with a <code>longjmp</code>).
-
-
-<p>
-The following example shows how the host program can do the
-equivalent to this Lua code:
-
-<pre>
-     a = f("how", t.x, 14)
-</pre><p>
-Here it is in&nbsp;C:
-
-<pre>
-     lua_getglobal(L, "f");                  /* function to be called */
-     lua_pushliteral(L, "how");                       /* 1st argument */
-     lua_getglobal(L, "t");                    /* table to be indexed */
-     lua_getfield(L, -1, "x");        /* push result of t.x (2nd arg) */
-     lua_remove(L, -2);                  /* remove 't' from the stack */
-     lua_pushinteger(L, 14);                          /* 3rd argument */
-     lua_call(L, 3, 1);     /* call 'f' with 3 arguments and 1 result */
-     lua_setglobal(L, "a");                         /* set global 'a' */
-</pre><p>
-Note that the code above is <em>balanced</em>:
-at its end, the stack is back to its original configuration.
-This is considered good programming practice.
-
-
-
-
-
-<hr><h3><a name="lua_callk"><code>lua_callk</code></a></h3><p>
-<span class="apii">[-(nargs + 1), +nresults, <em>e</em>]</span>
-<pre>void lua_callk (lua_State *L,
-                int nargs,
-                int nresults,
-                lua_KContext ctx,
-                lua_KFunction k);</pre>
-
-<p>
-This function behaves exactly like <a href="#lua_call"><code>lua_call</code></a>,
-but allows the called function to yield (see <a href="#4.7">&sect;4.7</a>).
-
-
-
-
-
-<hr><h3><a name="lua_CFunction"><code>lua_CFunction</code></a></h3>
-<pre>typedef int (*lua_CFunction) (lua_State *L);</pre>
-
-<p>
-Type for C&nbsp;functions.
-
-
-<p>
-In order to communicate properly with Lua,
-a C&nbsp;function must use the following protocol,
-which defines the way parameters and results are passed:
-a C&nbsp;function receives its arguments from Lua in its stack
-in direct order (the first argument is pushed first).
-So, when the function starts,
-<code>lua_gettop(L)</code> returns the number of arguments received by the function.
-The first argument (if any) is at index 1
-and its last argument is at index <code>lua_gettop(L)</code>.
-To return values to Lua, a C&nbsp;function just pushes them onto the stack,
-in direct order (the first result is pushed first),
-and returns the number of results.
-Any other value in the stack below the results will be properly
-discarded by Lua.
-Like a Lua function, a C&nbsp;function called by Lua can also return
-many results.
-
-
-<p>
-As an example, the following function receives a variable number
-of numerical arguments and returns their average and their sum:
-
-<pre>
-     static int foo (lua_State *L) {
-       int n = lua_gettop(L);    /* number of arguments */
-       lua_Number sum = 0.0;
-       int i;
-       for (i = 1; i &lt;= n; i++) {
-         if (!lua_isnumber(L, i)) {
-           lua_pushliteral(L, "incorrect argument");
-           lua_error(L);
-         }
-         sum += lua_tonumber(L, i);
-       }
-       lua_pushnumber(L, sum/n);        /* first result */
-       lua_pushnumber(L, sum);         /* second result */
-       return 2;                   /* number of results */
-     }
-</pre>
-
-
-
-
-<hr><h3><a name="lua_checkstack"><code>lua_checkstack</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_checkstack (lua_State *L, int n);</pre>
-
-<p>
-Ensures that the stack has space for at least <code>n</code> extra slots.
-It returns false if it cannot fulfill the request,
-either because it would cause the stack
-to be larger than a fixed maximum size
-(typically at least several thousand elements) or
-because it cannot allocate memory for the extra space.
-This function never shrinks the stack;
-if the stack is already larger than the new size,
-it is left unchanged.
-
-
-
-
-
-<hr><h3><a name="lua_close"><code>lua_close</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void lua_close (lua_State *L);</pre>
-
-<p>
-Destroys all objects in the given Lua state
-(calling the corresponding garbage-collection metamethods, if any)
-and frees all dynamic memory used by this state.
-On several platforms, you may not need to call this function,
-because all resources are naturally released when the host program ends.
-On the other hand, long-running programs that create multiple states,
-such as daemons or web servers,
-will probably need to close states as soon as they are not needed.
-
-
-
-
-
-<hr><h3><a name="lua_compare"><code>lua_compare</code></a></h3><p>
-<span class="apii">[-0, +0, <em>e</em>]</span>
-<pre>int lua_compare (lua_State *L, int index1, int index2, int op);</pre>
-
-<p>
-Compares two Lua values.
-Returns 1 if the value at index <code>index1</code> satisfies <code>op</code>
-when compared with the value at index <code>index2</code>,
-following the semantics of the corresponding Lua operator
-(that is, it may call metamethods).
-Otherwise returns&nbsp;0.
-Also returns&nbsp;0 if any of the indices is not valid.
-
-
-<p>
-The value of <code>op</code> must be one of the following constants:
-
-<ul>
-
-<li><b><a name="pdf-LUA_OPEQ"><code>LUA_OPEQ</code></a>: </b> compares for equality (<code>==</code>)</li>
-<li><b><a name="pdf-LUA_OPLT"><code>LUA_OPLT</code></a>: </b> compares for less than (<code>&lt;</code>)</li>
-<li><b><a name="pdf-LUA_OPLE"><code>LUA_OPLE</code></a>: </b> compares for less or equal (<code>&lt;=</code>)</li>
-
-</ul>
-
-
-
-
-<hr><h3><a name="lua_concat"><code>lua_concat</code></a></h3><p>
-<span class="apii">[-n, +1, <em>e</em>]</span>
-<pre>void lua_concat (lua_State *L, int n);</pre>
-
-<p>
-Concatenates the <code>n</code> values at the top of the stack,
-pops them, and leaves the result at the top.
-If <code>n</code>&nbsp;is&nbsp;1, the result is the single value on the stack
-(that is, the function does nothing);
-if <code>n</code> is 0, the result is the empty string.
-Concatenation is performed following the usual semantics of Lua
-(see <a href="#3.4.6">&sect;3.4.6</a>).
-
-
-
-
-
-<hr><h3><a name="lua_copy"><code>lua_copy</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void lua_copy (lua_State *L, int fromidx, int toidx);</pre>
-
-<p>
-Copies the element at index <code>fromidx</code>
-into the valid index <code>toidx</code>,
-replacing the value at that position.
-Values at other positions are not affected.
-
-
-
-
-
-<hr><h3><a name="lua_createtable"><code>lua_createtable</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>void lua_createtable (lua_State *L, int narr, int nrec);</pre>
-
-<p>
-Creates a new empty table and pushes it onto the stack.
-Parameter <code>narr</code> is a hint for how many elements the table
-will have as a sequence;
-parameter <code>nrec</code> is a hint for how many other elements
-the table will have.
-Lua may use these hints to preallocate memory for the new table.
-This pre-allocation is useful for performance when you know in advance
-how many elements the table will have.
-Otherwise you can use the function <a href="#lua_newtable"><code>lua_newtable</code></a>.
-
-
-
-
-
-<hr><h3><a name="lua_dump"><code>lua_dump</code></a></h3><p>
-<span class="apii">[-0, +0, <em>e</em>]</span>
-<pre>int lua_dump (lua_State *L,
-                        lua_Writer writer,
-                        void *data,
-                        int strip);</pre>
-
-<p>
-Dumps a function as a binary chunk.
-Receives a Lua function on the top of the stack
-and produces a binary chunk that,
-if loaded again,
-results in a function equivalent to the one dumped.
-As it produces parts of the chunk,
-<a href="#lua_dump"><code>lua_dump</code></a> calls function <code>writer</code> (see <a href="#lua_Writer"><code>lua_Writer</code></a>)
-with the given <code>data</code>
-to write them.
-
-
-<p>
-If <code>strip</code> is true,
-the binary representation is created without debug information
-about the function.
-
-
-<p>
-The value returned is the error code returned by the last
-call to the writer;
-0&nbsp;means no errors.
-
-
-<p>
-This function does not pop the Lua function from the stack.
-
-
-
-
-
-<hr><h3><a name="lua_error"><code>lua_error</code></a></h3><p>
-<span class="apii">[-1, +0, <em>v</em>]</span>
-<pre>int lua_error (lua_State *L);</pre>
-
-<p>
-Generates a Lua error,
-using the value at the top of the stack as the error object.
-This function does a long jump,
-and therefore never returns
-(see <a href="#luaL_error"><code>luaL_error</code></a>).
-
-
-
-
-
-<hr><h3><a name="lua_gc"><code>lua_gc</code></a></h3><p>
-<span class="apii">[-0, +0, <em>e</em>]</span>
-<pre>int lua_gc (lua_State *L, int what, int data);</pre>
-
-<p>
-Controls the garbage collector.
-
-
-<p>
-This function performs several tasks,
-according to the value of the parameter <code>what</code>:
-
-<ul>
-
-<li><b><code>LUA_GCSTOP</code>: </b>
-stops the garbage collector.
-</li>
-
-<li><b><code>LUA_GCRESTART</code>: </b>
-restarts the garbage collector.
-</li>
-
-<li><b><code>LUA_GCCOLLECT</code>: </b>
-performs a full garbage-collection cycle.
-</li>
-
-<li><b><code>LUA_GCCOUNT</code>: </b>
-returns the current amount of memory (in Kbytes) in use by Lua.
-</li>
-
-<li><b><code>LUA_GCCOUNTB</code>: </b>
-returns the remainder of dividing the current amount of bytes of
-memory in use by Lua by 1024.
-</li>
-
-<li><b><code>LUA_GCSTEP</code>: </b>
-performs an incremental step of garbage collection.
-</li>
-
-<li><b><code>LUA_GCSETPAUSE</code>: </b>
-sets <code>data</code> as the new value
-for the <em>pause</em> of the collector (see <a href="#2.5">&sect;2.5</a>)
-and returns the previous value of the pause.
-</li>
-
-<li><b><code>LUA_GCSETSTEPMUL</code>: </b>
-sets <code>data</code> as the new value for the <em>step multiplier</em> of
-the collector (see <a href="#2.5">&sect;2.5</a>)
-and returns the previous value of the step multiplier.
-</li>
-
-<li><b><code>LUA_GCISRUNNING</code>: </b>
-returns a boolean that tells whether the collector is running
-(i.e., not stopped).
-</li>
-
-</ul>
-
-<p>
-For more details about these options,
-see <a href="#pdf-collectgarbage"><code>collectgarbage</code></a>.
-
-
-
-
-
-<hr><h3><a name="lua_getallocf"><code>lua_getallocf</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>lua_Alloc lua_getallocf (lua_State *L, void **ud);</pre>
-
-<p>
-Returns the memory-allocation function of a given state.
-If <code>ud</code> is not <code>NULL</code>, Lua stores in <code>*ud</code> the
-opaque pointer given when the memory-allocator function was set.
-
-
-
-
-
-<hr><h3><a name="lua_getfield"><code>lua_getfield</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>int lua_getfield (lua_State *L, int index, const char *k);</pre>
-
-<p>
-Pushes onto the stack the value <code>t[k]</code>,
-where <code>t</code> is the value at the given index.
-As in Lua, this function may trigger a metamethod
-for the "index" event (see <a href="#2.4">&sect;2.4</a>).
-
-
-<p>
-Returns the type of the pushed value.
-
-
-
-
-
-<hr><h3><a name="lua_getextraspace"><code>lua_getextraspace</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void *lua_getextraspace (lua_State *L);</pre>
-
-<p>
-Returns a pointer to a raw memory area associated with the
-given Lua state.
-The application can use this area for any purpose;
-Lua does not use it for anything.
-
-
-<p>
-Each new thread has this area initialized with a copy
-of the area of the main thread.
-
-
-<p>
-By default, this area has the size of a pointer to void,
-but you can recompile Lua with a different size for this area.
-(See <code>LUA_EXTRASPACE</code> in <code>luaconf.h</code>.)
-
-
-
-
-
-<hr><h3><a name="lua_getglobal"><code>lua_getglobal</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>int lua_getglobal (lua_State *L, const char *name);</pre>
-
-<p>
-Pushes onto the stack the value of the global <code>name</code>.
-Returns the type of that value.
-
-
-
-
-
-<hr><h3><a name="lua_geti"><code>lua_geti</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>int lua_geti (lua_State *L, int index, lua_Integer i);</pre>
-
-<p>
-Pushes onto the stack the value <code>t[i]</code>,
-where <code>t</code> is the value at the given index.
-As in Lua, this function may trigger a metamethod
-for the "index" event (see <a href="#2.4">&sect;2.4</a>).
-
-
-<p>
-Returns the type of the pushed value.
-
-
-
-
-
-<hr><h3><a name="lua_getmetatable"><code>lua_getmetatable</code></a></h3><p>
-<span class="apii">[-0, +(0|1), &ndash;]</span>
-<pre>int lua_getmetatable (lua_State *L, int index);</pre>
-
-<p>
-If the value at the given index has a metatable,
-the function pushes that metatable onto the stack and returns&nbsp;1.
-Otherwise,
-the function returns&nbsp;0 and pushes nothing on the stack.
-
-
-
-
-
-<hr><h3><a name="lua_gettable"><code>lua_gettable</code></a></h3><p>
-<span class="apii">[-1, +1, <em>e</em>]</span>
-<pre>int lua_gettable (lua_State *L, int index);</pre>
-
-<p>
-Pushes onto the stack the value <code>t[k]</code>,
-where <code>t</code> is the value at the given index
-and <code>k</code> is the value at the top of the stack.
-
-
-<p>
-This function pops the key from the stack,
-pushing the resulting value in its place.
-As in Lua, this function may trigger a metamethod
-for the "index" event (see <a href="#2.4">&sect;2.4</a>).
-
-
-<p>
-Returns the type of the pushed value.
-
-
-
-
-
-<hr><h3><a name="lua_gettop"><code>lua_gettop</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_gettop (lua_State *L);</pre>
-
-<p>
-Returns the index of the top element in the stack.
-Because indices start at&nbsp;1,
-this result is equal to the number of elements in the stack;
-in particular, 0&nbsp;means an empty stack.
-
-
-
-
-
-<hr><h3><a name="lua_getuservalue"><code>lua_getuservalue</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>int lua_getuservalue (lua_State *L, int index);</pre>
-
-<p>
-Pushes onto the stack the Lua value associated with the userdata
-at the given index.
-
-
-<p>
-Returns the type of the pushed value.
-
-
-
-
-
-<hr><h3><a name="lua_insert"><code>lua_insert</code></a></h3><p>
-<span class="apii">[-1, +1, &ndash;]</span>
-<pre>void lua_insert (lua_State *L, int index);</pre>
-
-<p>
-Moves the top element into the given valid index,
-shifting up the elements above this index to open space.
-This function cannot be called with a pseudo-index,
-because a pseudo-index is not an actual stack position.
-
-
-
-
-
-<hr><h3><a name="lua_Integer"><code>lua_Integer</code></a></h3>
-<pre>typedef ... lua_Integer;</pre>
-
-<p>
-The type of integers in Lua.
-
-
-<p>
-By default this type is <code>long long</code>,
-(usually a 64-bit two-complement integer),
-but that can be changed to <code>long</code> or <code>int</code>
-(usually a 32-bit two-complement integer).
-(See <code>LUA_INT</code> in <code>luaconf.h</code>.)
-
-
-<p>
-Lua also defines the constants
-<a name="pdf-LUA_MININTEGER"><code>LUA_MININTEGER</code></a> and <a name="pdf-LUA_MAXINTEGER"><code>LUA_MAXINTEGER</code></a>,
-with the minimum and the maximum values that fit in this type.
-
-
-
-
-
-<hr><h3><a name="lua_isboolean"><code>lua_isboolean</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_isboolean (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the value at the given index is a boolean,
-and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_iscfunction"><code>lua_iscfunction</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_iscfunction (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the value at the given index is a C&nbsp;function,
-and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_isfunction"><code>lua_isfunction</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_isfunction (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the value at the given index is a function
-(either C or Lua), and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_isinteger"><code>lua_isinteger</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_isinteger (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the value at the given index is an integer
-(that is, the value is a number and is represented as an integer),
-and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_islightuserdata"><code>lua_islightuserdata</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_islightuserdata (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the value at the given index is a light userdata,
-and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_isnil"><code>lua_isnil</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_isnil (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the value at the given index is <b>nil</b>,
-and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_isnone"><code>lua_isnone</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_isnone (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the given index is not valid,
-and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_isnoneornil"><code>lua_isnoneornil</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_isnoneornil (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the given index is not valid
-or if the value at this index is <b>nil</b>,
-and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_isnumber"><code>lua_isnumber</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_isnumber (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the value at the given index is a number
-or a string convertible to a number,
-and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_isstring"><code>lua_isstring</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_isstring (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the value at the given index is a string
-or a number (which is always convertible to a string),
-and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_istable"><code>lua_istable</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_istable (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the value at the given index is a table,
-and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_isthread"><code>lua_isthread</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_isthread (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the value at the given index is a thread,
-and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_isuserdata"><code>lua_isuserdata</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_isuserdata (lua_State *L, int index);</pre>
-
-<p>
-Returns 1 if the value at the given index is a userdata
-(either full or light), and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_isyieldable"><code>lua_isyieldable</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_isyieldable (lua_State *L);</pre>
-
-<p>
-Returns 1 if the given coroutine can yield,
-and 0&nbsp;otherwise.
-
-
-
-
-
-<hr><h3><a name="lua_KContext"><code>lua_KContext</code></a></h3>
-<pre>typedef ... lua_KContext;</pre>
-
-<p>
-The type for continuation-function contexts.
-It must be a numerical type.
-This type is defined as <code>intptr_t</code>
-when <code>intptr_t</code> is available,
-so that it can store pointers too.
-Otherwise, it is defined as <code>ptrdiff_t</code>.
-
-
-
-
-
-<hr><h3><a name="lua_KFunction"><code>lua_KFunction</code></a></h3>
-<pre>typedef int (*lua_KFunction) (lua_State *L, int status, lua_KContext ctx);</pre>
-
-<p>
-Type for continuation functions (see <a href="#4.7">&sect;4.7</a>).
-
-
-
-
-
-<hr><h3><a name="lua_len"><code>lua_len</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>void lua_len (lua_State *L, int index);</pre>
-
-<p>
-Returns the length of the value at the given index.
-It is equivalent to the '<code>#</code>' operator in Lua (see <a href="#3.4.7">&sect;3.4.7</a>) and
-may trigger a metamethod for the "length" event (see <a href="#2.4">&sect;2.4</a>).
-The result is pushed on the stack.
-
-
-
-
-
-<hr><h3><a name="lua_load"><code>lua_load</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>int lua_load (lua_State *L,
-              lua_Reader reader,
-              void *data,
-              const char *chunkname,
-              const char *mode);</pre>
-
-<p>
-Loads a Lua chunk without running it.
-If there are no errors,
-<code>lua_load</code> pushes the compiled chunk as a Lua
-function on top of the stack.
-Otherwise, it pushes an error message.
-
-
-<p>
-The return values of <code>lua_load</code> are:
-
-<ul>
-
-<li><b><a href="#pdf-LUA_OK"><code>LUA_OK</code></a>: </b> no errors;</li>
-
-<li><b><a name="pdf-LUA_ERRSYNTAX"><code>LUA_ERRSYNTAX</code></a>: </b>
-syntax error during precompilation;</li>
-
-<li><b><a href="#pdf-LUA_ERRMEM"><code>LUA_ERRMEM</code></a>: </b>
-memory allocation error;</li>
-
-<li><b><a href="#pdf-LUA_ERRGCMM"><code>LUA_ERRGCMM</code></a>: </b>
-error while running a <code>__gc</code> metamethod.
-(This error has no relation with the chunk being loaded.
-It is generated by the garbage collector.)
-</li>
-
-</ul>
-
-<p>
-The <code>lua_load</code> function uses a user-supplied <code>reader</code> function
-to read the chunk (see <a href="#lua_Reader"><code>lua_Reader</code></a>).
-The <code>data</code> argument is an opaque value passed to the reader function.
-
-
-<p>
-The <code>chunkname</code> argument gives a name to the chunk,
-which is used for error messages and in debug information (see <a href="#4.9">&sect;4.9</a>).
-
-
-<p>
-<code>lua_load</code> automatically detects whether the chunk is text or binary
-and loads it accordingly (see program <code>luac</code>).
-The string <code>mode</code> works as in function <a href="#pdf-load"><code>load</code></a>,
-with the addition that
-a <code>NULL</code> value is equivalent to the string "<code>bt</code>".
-
-
-<p>
-<code>lua_load</code> uses the stack internally,
-so the reader function must always leave the stack
-unmodified when returning.
-
-
-<p>
-If the resulting function has upvalues,
-its first upvalue is set to the value of the global environment
-stored at index <code>LUA_RIDX_GLOBALS</code> in the registry (see <a href="#4.5">&sect;4.5</a>).
-When loading main chunks,
-this upvalue will be the <code>_ENV</code> variable (see <a href="#2.2">&sect;2.2</a>).
-Other upvalues are initialized with <b>nil</b>.
-
-
-
-
-
-<hr><h3><a name="lua_newstate"><code>lua_newstate</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>lua_State *lua_newstate (lua_Alloc f, void *ud);</pre>
-
-<p>
-Creates a new thread running in a new, independent state.
-Returns <code>NULL</code> if it cannot create the thread or the state
-(due to lack of memory).
-The argument <code>f</code> is the allocator function;
-Lua does all memory allocation for this state through this function.
-The second argument, <code>ud</code>, is an opaque pointer that Lua
-passes to the allocator in every call.
-
-
-
-
-
-<hr><h3><a name="lua_newtable"><code>lua_newtable</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>void lua_newtable (lua_State *L);</pre>
-
-<p>
-Creates a new empty table and pushes it onto the stack.
-It is equivalent to <code>lua_createtable(L, 0, 0)</code>.
-
-
-
-
-
-<hr><h3><a name="lua_newthread"><code>lua_newthread</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>lua_State *lua_newthread (lua_State *L);</pre>
-
-<p>
-Creates a new thread, pushes it on the stack,
-and returns a pointer to a <a href="#lua_State"><code>lua_State</code></a> that represents this new thread.
-The new thread returned by this function shares with the original thread
-its global environment,
-but has an independent execution stack.
-
-
-<p>
-There is no explicit function to close or to destroy a thread.
-Threads are subject to garbage collection,
-like any Lua object.
-
-
-
-
-
-<hr><h3><a name="lua_newuserdata"><code>lua_newuserdata</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>void *lua_newuserdata (lua_State *L, size_t size);</pre>
-
-<p>
-This function allocates a new block of memory with the given size,
-pushes onto the stack a new full userdata with the block address,
-and returns this address.
-The host program can freely use this memory.
-
-
-
-
-
-<hr><h3><a name="lua_next"><code>lua_next</code></a></h3><p>
-<span class="apii">[-1, +(2|0), <em>e</em>]</span>
-<pre>int lua_next (lua_State *L, int index);</pre>
-
-<p>
-Pops a key from the stack,
-and pushes a key&ndash;value pair from the table at the given index
-(the "next" pair after the given key).
-If there are no more elements in the table,
-then <a href="#lua_next"><code>lua_next</code></a> returns 0 (and pushes nothing).
-
-
-<p>
-A typical traversal looks like this:
-
-<pre>
-     /* table is in the stack at index 't' */
-     lua_pushnil(L);  /* first key */
-     while (lua_next(L, t) != 0) {
-       /* uses 'key' (at index -2) and 'value' (at index -1) */
-       printf("%s - %s\n",
-              lua_typename(L, lua_type(L, -2)),
-              lua_typename(L, lua_type(L, -1)));
-       /* removes 'value'; keeps 'key' for next iteration */
-       lua_pop(L, 1);
-     }
-</pre>
-
-<p>
-While traversing a table,
-do not call <a href="#lua_tolstring"><code>lua_tolstring</code></a> directly on a key,
-unless you know that the key is actually a string.
-Recall that <a href="#lua_tolstring"><code>lua_tolstring</code></a> may change
-the value at the given index;
-this confuses the next call to <a href="#lua_next"><code>lua_next</code></a>.
-
-
-<p>
-See function <a href="#pdf-next"><code>next</code></a> for the caveats of modifying
-the table during its traversal.
-
-
-
-
-
-<hr><h3><a name="lua_Number"><code>lua_Number</code></a></h3>
-<pre>typedef double lua_Number;</pre>
-
-<p>
-The type of floats in Lua.
-
-
-<p>
-By default this type is double,
-but that can be changed to a single float.
-(See <code>LUA_REAL</code> in <code>luaconf.h</code>.)
-
-
-
-
-
-<hr><h3><a name="lua_numbertointeger"><code>lua_numbertointeger</code></a></h3>
-<pre>int lua_numbertointeger (lua_Number n, lua_Integer *p);</pre>
-
-<p>
-Converts a Lua float to a Lua integer.
-This macro assumes that <code>n</code> has an integral value.
-If that value is within the range of Lua integers,
-it is converted to an integer and assigned to <code>*p</code>.
-The macro results in a boolean indicating whether the
-conversion was successful.
-(Note that this range test can be tricky to do
-correctly without this macro,
-due to roundings.)
-
-
-<p>
-This macro may evaluate its arguments more than once.
-
-
-
-
-
-<hr><h3><a name="lua_pcall"><code>lua_pcall</code></a></h3><p>
-<span class="apii">[-(nargs + 1), +(nresults|1), &ndash;]</span>
-<pre>int lua_pcall (lua_State *L, int nargs, int nresults, int msgh);</pre>
-
-<p>
-Calls a function in protected mode.
-
-
-<p>
-Both <code>nargs</code> and <code>nresults</code> have the same meaning as
-in <a href="#lua_call"><code>lua_call</code></a>.
-If there are no errors during the call,
-<a href="#lua_pcall"><code>lua_pcall</code></a> behaves exactly like <a href="#lua_call"><code>lua_call</code></a>.
-However, if there is any error,
-<a href="#lua_pcall"><code>lua_pcall</code></a> catches it,
-pushes a single value on the stack (the error message),
-and returns an error code.
-Like <a href="#lua_call"><code>lua_call</code></a>,
-<a href="#lua_pcall"><code>lua_pcall</code></a> always removes the function
-and its arguments from the stack.
-
-
-<p>
-If <code>msgh</code> is 0,
-then the error message returned on the stack
-is exactly the original error message.
-Otherwise, <code>msgh</code> is the stack index of a
-<em>message handler</em>.
-(In the current implementation, this index cannot be a pseudo-index.)
-In case of runtime errors,
-this function will be called with the error message
-and its return value will be the message
-returned on the stack by <a href="#lua_pcall"><code>lua_pcall</code></a>.
-
-
-<p>
-Typically, the message handler is used to add more debug
-information to the error message, such as a stack traceback.
-Such information cannot be gathered after the return of <a href="#lua_pcall"><code>lua_pcall</code></a>,
-since by then the stack has unwound.
-
-
-<p>
-The <a href="#lua_pcall"><code>lua_pcall</code></a> function returns one of the following constants
-(defined in <code>lua.h</code>):
-
-<ul>
-
-<li><b><a name="pdf-LUA_OK"><code>LUA_OK</code></a> (0): </b>
-success.</li>
-
-<li><b><a name="pdf-LUA_ERRRUN"><code>LUA_ERRRUN</code></a>: </b>
-a runtime error.
-</li>
-
-<li><b><a name="pdf-LUA_ERRMEM"><code>LUA_ERRMEM</code></a>: </b>
-memory allocation error.
-For such errors, Lua does not call the message handler.
-</li>
-
-<li><b><a name="pdf-LUA_ERRERR"><code>LUA_ERRERR</code></a>: </b>
-error while running the message handler.
-</li>
-
-<li><b><a name="pdf-LUA_ERRGCMM"><code>LUA_ERRGCMM</code></a>: </b>
-error while running a <code>__gc</code> metamethod.
-(This error typically has no relation with the function being called.)
-</li>
-
-</ul>
-
-
-
-
-<hr><h3><a name="lua_pcallk"><code>lua_pcallk</code></a></h3><p>
-<span class="apii">[-(nargs + 1), +(nresults|1), &ndash;]</span>
-<pre>int lua_pcallk (lua_State *L,
-                int nargs,
-                int nresults,
-                int msgh,
-                lua_KContext ctx,
-                lua_KFunction k);</pre>
-
-<p>
-This function behaves exactly like <a href="#lua_pcall"><code>lua_pcall</code></a>,
-but allows the called function to yield (see <a href="#4.7">&sect;4.7</a>).
-
-
-
-
-
-<hr><h3><a name="lua_pop"><code>lua_pop</code></a></h3><p>
-<span class="apii">[-n, +0, &ndash;]</span>
-<pre>void lua_pop (lua_State *L, int n);</pre>
-
-<p>
-Pops <code>n</code> elements from the stack.
-
-
-
-
-
-<hr><h3><a name="lua_pushboolean"><code>lua_pushboolean</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>void lua_pushboolean (lua_State *L, int b);</pre>
-
-<p>
-Pushes a boolean value with value <code>b</code> onto the stack.
-
-
-
-
-
-<hr><h3><a name="lua_pushcclosure"><code>lua_pushcclosure</code></a></h3><p>
-<span class="apii">[-n, +1, <em>e</em>]</span>
-<pre>void lua_pushcclosure (lua_State *L, lua_CFunction fn, int n);</pre>
-
-<p>
-Pushes a new C&nbsp;closure onto the stack.
-
-
-<p>
-When a C&nbsp;function is created,
-it is possible to associate some values with it,
-thus creating a C&nbsp;closure (see <a href="#4.4">&sect;4.4</a>);
-these values are then accessible to the function whenever it is called.
-To associate values with a C&nbsp;function,
-first these values must be pushed onto the stack
-(when there are multiple values, the first value is pushed first).
-Then <a href="#lua_pushcclosure"><code>lua_pushcclosure</code></a>
-is called to create and push the C&nbsp;function onto the stack,
-with the argument <code>n</code> telling how many values will be
-associated with the function.
-<a href="#lua_pushcclosure"><code>lua_pushcclosure</code></a> also pops these values from the stack.
-
-
-<p>
-The maximum value for <code>n</code> is 255.
-
-
-<p>
-When <code>n</code> is zero,
-this function creates a <em>light C function</em>,
-which is just a pointer to the C&nbsp;function.
-In that case, it never raises a memory error.
-
-
-
-
-
-<hr><h3><a name="lua_pushcfunction"><code>lua_pushcfunction</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>void lua_pushcfunction (lua_State *L, lua_CFunction f);</pre>
-
-<p>
-Pushes a C&nbsp;function onto the stack.
-This function receives a pointer to a C function
-and pushes onto the stack a Lua value of type <code>function</code> that,
-when called, invokes the corresponding C&nbsp;function.
-
-
-<p>
-Any function to be registered in Lua must
-follow the correct protocol to receive its parameters
-and return its results (see <a href="#lua_CFunction"><code>lua_CFunction</code></a>).
-
-
-<p>
-<code>lua_pushcfunction</code> is defined as a macro:
-
-<pre>
-     #define lua_pushcfunction(L,f)  lua_pushcclosure(L,f,0)
-</pre><p>
-Note that <code>f</code> is used twice.
-
-
-
-
-
-<hr><h3><a name="lua_pushfstring"><code>lua_pushfstring</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>const char *lua_pushfstring (lua_State *L, const char *fmt, ...);</pre>
-
-<p>
-Pushes onto the stack a formatted string
-and returns a pointer to this string.
-It is similar to the ISO&nbsp;C function <code>sprintf</code>,
-but has some important differences:
-
-<ul>
-
-<li>
-You do not have to allocate space for the result:
-the result is a Lua string and Lua takes care of memory allocation
-(and deallocation, through garbage collection).
-</li>
-
-<li>
-The conversion specifiers are quite restricted.
-There are no flags, widths, or precisions.
-The conversion specifiers can only be
-'<code>%%</code>' (inserts the character '<code>%</code>'),
-'<code>%s</code>' (inserts a zero-terminated string, with no size restrictions),
-'<code>%f</code>' (inserts a <a href="#lua_Number"><code>lua_Number</code></a>),
-'<code>%L</code>' (inserts a <a href="#lua_Integer"><code>lua_Integer</code></a>),
-'<code>%p</code>' (inserts a pointer as a hexadecimal numeral),
-'<code>%d</code>' (inserts an <code>int</code>),
-'<code>%c</code>' (inserts an <code>int</code> as a one-byte character), and
-'<code>%U</code>' (inserts a <code>long int</code> as a UTF-8 byte sequence).
-</li>
-
-</ul>
-
-
-
-
-<hr><h3><a name="lua_pushglobaltable"><code>lua_pushglobaltable</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>void lua_pushglobaltable (lua_State *L);</pre>
-
-<p>
-Pushes the global environment onto the stack.
-
-
-
-
-
-<hr><h3><a name="lua_pushinteger"><code>lua_pushinteger</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>void lua_pushinteger (lua_State *L, lua_Integer n);</pre>
-
-<p>
-Pushes an integer with value <code>n</code> onto the stack.
-
-
-
-
-
-<hr><h3><a name="lua_pushlightuserdata"><code>lua_pushlightuserdata</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>void lua_pushlightuserdata (lua_State *L, void *p);</pre>
-
-<p>
-Pushes a light userdata onto the stack.
-
-
-<p>
-Userdata represent C&nbsp;values in Lua.
-A <em>light userdata</em> represents a pointer, a <code>void*</code>.
-It is a value (like a number):
-you do not create it, it has no individual metatable,
-and it is not collected (as it was never created).
-A light userdata is equal to "any"
-light userdata with the same C&nbsp;address.
-
-
-
-
-
-<hr><h3><a name="lua_pushliteral"><code>lua_pushliteral</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>const char *lua_pushliteral (lua_State *L, const char *s);</pre>
-
-<p>
-This macro is equivalent to <a href="#lua_pushlstring"><code>lua_pushlstring</code></a>,
-but can be used only when <code>s</code> is a literal string.
-It automatically provides the string length.
-
-
-
-
-
-<hr><h3><a name="lua_pushlstring"><code>lua_pushlstring</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>const char *lua_pushlstring (lua_State *L, const char *s, size_t len);</pre>
-
-<p>
-Pushes the string pointed to by <code>s</code> with size <code>len</code>
-onto the stack.
-Lua makes (or reuses) an internal copy of the given string,
-so the memory at <code>s</code> can be freed or reused immediately after
-the function returns.
-The string can contain any binary data,
-including embedded zeros.
-
-
-<p>
-Returns a pointer to the internal copy of the string.
-
-
-
-
-
-<hr><h3><a name="lua_pushnil"><code>lua_pushnil</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>void lua_pushnil (lua_State *L);</pre>
-
-<p>
-Pushes a nil value onto the stack.
-
-
-
-
-
-<hr><h3><a name="lua_pushnumber"><code>lua_pushnumber</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>void lua_pushnumber (lua_State *L, lua_Number n);</pre>
-
-<p>
-Pushes a float with value <code>n</code> onto the stack.
-
-
-
-
-
-<hr><h3><a name="lua_pushstring"><code>lua_pushstring</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>const char *lua_pushstring (lua_State *L, const char *s);</pre>
-
-<p>
-Pushes the zero-terminated string pointed to by <code>s</code>
-onto the stack.
-Lua makes (or reuses) an internal copy of the given string,
-so the memory at <code>s</code> can be freed or reused immediately after
-the function returns.
-
-
-<p>
-Returns a pointer to the internal copy of the string.
-
-
-<p>
-If <code>s</code> is <code>NULL</code>, pushes <b>nil</b> and returns <code>NULL</code>.
-
-
-
-
-
-<hr><h3><a name="lua_pushthread"><code>lua_pushthread</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>int lua_pushthread (lua_State *L);</pre>
-
-<p>
-Pushes the thread represented by <code>L</code> onto the stack.
-Returns 1 if this thread is the main thread of its state.
-
-
-
-
-
-<hr><h3><a name="lua_pushvalue"><code>lua_pushvalue</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>void lua_pushvalue (lua_State *L, int index);</pre>
-
-<p>
-Pushes a copy of the element at the given index
-onto the stack.
-
-
-
-
-
-<hr><h3><a name="lua_pushvfstring"><code>lua_pushvfstring</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>const char *lua_pushvfstring (lua_State *L,
-                              const char *fmt,
-                              va_list argp);</pre>
-
-<p>
-Equivalent to <a href="#lua_pushfstring"><code>lua_pushfstring</code></a>, except that it receives a <code>va_list</code>
-instead of a variable number of arguments.
-
-
-
-
-
-<hr><h3><a name="lua_rawequal"><code>lua_rawequal</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_rawequal (lua_State *L, int index1, int index2);</pre>
-
-<p>
-Returns 1 if the two values in indices <code>index1</code> and
-<code>index2</code> are primitively equal
-(that is, without calling metamethods).
-Otherwise returns&nbsp;0.
-Also returns&nbsp;0 if any of the indices are not valid.
-
-
-
-
-
-<hr><h3><a name="lua_rawget"><code>lua_rawget</code></a></h3><p>
-<span class="apii">[-1, +1, &ndash;]</span>
-<pre>int lua_rawget (lua_State *L, int index);</pre>
-
-<p>
-Similar to <a href="#lua_gettable"><code>lua_gettable</code></a>, but does a raw access
-(i.e., without metamethods).
-
-
-
-
-
-<hr><h3><a name="lua_rawgeti"><code>lua_rawgeti</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>int lua_rawgeti (lua_State *L, int index, lua_Integer n);</pre>
-
-<p>
-Pushes onto the stack the value <code>t[n]</code>,
-where <code>t</code> is the table at the given index.
-The access is raw;
-that is, it does not invoke metamethods.
-
-
-<p>
-Returns the type of the pushed value.
-
-
-
-
-
-<hr><h3><a name="lua_rawgetp"><code>lua_rawgetp</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>int lua_rawgetp (lua_State *L, int index, const void *p);</pre>
-
-<p>
-Pushes onto the stack the value <code>t[k]</code>,
-where <code>t</code> is the table at the given index and
-<code>k</code> is the pointer <code>p</code> represented as a light userdata.
-The access is raw;
-that is, it does not invoke metamethods.
-
-
-<p>
-Returns the type of the pushed value.
-
-
-
-
-
-<hr><h3><a name="lua_rawlen"><code>lua_rawlen</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>size_t lua_rawlen (lua_State *L, int index);</pre>
-
-<p>
-Returns the raw "length" of the value at the given index:
-for strings, this is the string length;
-for tables, this is the result of the length operator ('<code>#</code>')
-with no metamethods;
-for userdata, this is the size of the block of memory allocated
-for the userdata;
-for other values, it is&nbsp;0.
-
-
-
-
-
-<hr><h3><a name="lua_rawset"><code>lua_rawset</code></a></h3><p>
-<span class="apii">[-2, +0, <em>e</em>]</span>
-<pre>void lua_rawset (lua_State *L, int index);</pre>
-
-<p>
-Similar to <a href="#lua_settable"><code>lua_settable</code></a>, but does a raw assignment
-(i.e., without metamethods).
-
-
-
-
-
-<hr><h3><a name="lua_rawseti"><code>lua_rawseti</code></a></h3><p>
-<span class="apii">[-1, +0, <em>e</em>]</span>
-<pre>void lua_rawseti (lua_State *L, int index, lua_Integer i);</pre>
-
-<p>
-Does the equivalent of <code>t[i] = v</code>,
-where <code>t</code> is the table at the given index
-and <code>v</code> is the value at the top of the stack.
-
-
-<p>
-This function pops the value from the stack.
-The assignment is raw;
-that is, it does not invoke metamethods.
-
-
-
-
-
-<hr><h3><a name="lua_rawsetp"><code>lua_rawsetp</code></a></h3><p>
-<span class="apii">[-1, +0, <em>e</em>]</span>
-<pre>void lua_rawsetp (lua_State *L, int index, const void *p);</pre>
-
-<p>
-Does the equivalent of <code>t[k] = v</code>,
-where <code>t</code> is the table at the given index,
-<code>k</code> is the pointer <code>p</code> represented as a light userdata,
-and <code>v</code> is the value at the top of the stack.
-
-
-<p>
-This function pops the value from the stack.
-The assignment is raw;
-that is, it does not invoke metamethods.
-
-
-
-
-
-<hr><h3><a name="lua_Reader"><code>lua_Reader</code></a></h3>
-<pre>typedef const char * (*lua_Reader) (lua_State *L,
-                                    void *data,
-                                    size_t *size);</pre>
-
-<p>
-The reader function used by <a href="#lua_load"><code>lua_load</code></a>.
-Every time it needs another piece of the chunk,
-<a href="#lua_load"><code>lua_load</code></a> calls the reader,
-passing along its <code>data</code> parameter.
-The reader must return a pointer to a block of memory
-with a new piece of the chunk
-and set <code>size</code> to the block size.
-The block must exist until the reader function is called again.
-To signal the end of the chunk,
-the reader must return <code>NULL</code> or set <code>size</code> to zero.
-The reader function may return pieces of any size greater than zero.
-
-
-
-
-
-<hr><h3><a name="lua_register"><code>lua_register</code></a></h3><p>
-<span class="apii">[-0, +0, <em>e</em>]</span>
-<pre>void lua_register (lua_State *L, const char *name, lua_CFunction f);</pre>
-
-<p>
-Sets the C function <code>f</code> as the new value of global <code>name</code>.
-It is defined as a macro:
-
-<pre>
-     #define lua_register(L,n,f) \
-            (lua_pushcfunction(L, f), lua_setglobal(L, n))
-</pre>
-
-
-
-
-<hr><h3><a name="lua_remove"><code>lua_remove</code></a></h3><p>
-<span class="apii">[-1, +0, &ndash;]</span>
-<pre>void lua_remove (lua_State *L, int index);</pre>
-
-<p>
-Removes the element at the given valid index,
-shifting down the elements above this index to fill the gap.
-This function cannot be called with a pseudo-index,
-because a pseudo-index is not an actual stack position.
-
-
-
-
-
-<hr><h3><a name="lua_replace"><code>lua_replace</code></a></h3><p>
-<span class="apii">[-1, +0, &ndash;]</span>
-<pre>void lua_replace (lua_State *L, int index);</pre>
-
-<p>
-Moves the top element into the given valid index
-without shifting any element
-(therefore replacing the value at the given index),
-and then pops the top element.
-
-
-
-
-
-<hr><h3><a name="lua_resume"><code>lua_resume</code></a></h3><p>
-<span class="apii">[-?, +?, &ndash;]</span>
-<pre>int lua_resume (lua_State *L, lua_State *from, int nargs);</pre>
-
-<p>
-Starts and resumes a coroutine in a given thread.
-
-
-<p>
-To start a coroutine,
-you push onto the thread stack the main function plus any arguments;
-then you call <a href="#lua_resume"><code>lua_resume</code></a>,
-with <code>nargs</code> being the number of arguments.
-This call returns when the coroutine suspends or finishes its execution.
-When it returns, the stack contains all values passed to <a href="#lua_yield"><code>lua_yield</code></a>,
-or all values returned by the body function.
-<a href="#lua_resume"><code>lua_resume</code></a> returns
-<a href="#pdf-LUA_YIELD"><code>LUA_YIELD</code></a> if the coroutine yields,
-<a href="#pdf-LUA_OK"><code>LUA_OK</code></a> if the coroutine finishes its execution
-without errors,
-or an error code in case of errors (see <a href="#lua_pcall"><code>lua_pcall</code></a>).
-
-
-<p>
-In case of errors,
-the stack is not unwound,
-so you can use the debug API over it.
-The error message is on the top of the stack.
-
-
-<p>
-To resume a coroutine,
-you remove any results from the last <a href="#lua_yield"><code>lua_yield</code></a>,
-put on its stack only the values to
-be passed as results from <code>yield</code>,
-and then call <a href="#lua_resume"><code>lua_resume</code></a>.
-
-
-<p>
-The parameter <code>from</code> represents the coroutine that is resuming <code>L</code>.
-If there is no such coroutine,
-this parameter can be <code>NULL</code>.
-
-
-
-
-
-<hr><h3><a name="lua_rotate"><code>lua_rotate</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void lua_rotate (lua_State *L, int idx, int n);</pre>
-
-<p>
-Rotates the stack elements from <code>idx</code> to the top <code>n</code> positions
-in the direction of the top, for a positive <code>n</code>,
-or <code>-n</code> positions in the direction of the bottom,
-for a negative <code>n</code>.
-The absolute value of <code>n</code> must not be greater than the size
-of the slice being rotated.
-
-
-
-
-
-<hr><h3><a name="lua_setallocf"><code>lua_setallocf</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void lua_setallocf (lua_State *L, lua_Alloc f, void *ud);</pre>
-
-<p>
-Changes the allocator function of a given state to <code>f</code>
-with user data <code>ud</code>.
-
-
-
-
-
-<hr><h3><a name="lua_setfield"><code>lua_setfield</code></a></h3><p>
-<span class="apii">[-1, +0, <em>e</em>]</span>
-<pre>void lua_setfield (lua_State *L, int index, const char *k);</pre>
-
-<p>
-Does the equivalent to <code>t[k] = v</code>,
-where <code>t</code> is the value at the given index
-and <code>v</code> is the value at the top of the stack.
-
-
-<p>
-This function pops the value from the stack.
-As in Lua, this function may trigger a metamethod
-for the "newindex" event (see <a href="#2.4">&sect;2.4</a>).
-
-
-
-
-
-<hr><h3><a name="lua_setglobal"><code>lua_setglobal</code></a></h3><p>
-<span class="apii">[-1, +0, <em>e</em>]</span>
-<pre>void lua_setglobal (lua_State *L, const char *name);</pre>
-
-<p>
-Pops a value from the stack and
-sets it as the new value of global <code>name</code>.
-
-
-
-
-
-<hr><h3><a name="lua_seti"><code>lua_seti</code></a></h3><p>
-<span class="apii">[-1, +0, <em>e</em>]</span>
-<pre>void lua_seti (lua_State *L, int index, lua_Integer n);</pre>
-
-<p>
-Does the equivalent to <code>t[n] = v</code>,
-where <code>t</code> is the value at the given index
-and <code>v</code> is the value at the top of the stack.
-
-
-<p>
-This function pops the value from the stack.
-As in Lua, this function may trigger a metamethod
-for the "newindex" event (see <a href="#2.4">&sect;2.4</a>).
-
-
-
-
-
-<hr><h3><a name="lua_setmetatable"><code>lua_setmetatable</code></a></h3><p>
-<span class="apii">[-1, +0, &ndash;]</span>
-<pre>void lua_setmetatable (lua_State *L, int index);</pre>
-
-<p>
-Pops a table from the stack and
-sets it as the new metatable for the value at the given index.
-
-
-
-
-
-<hr><h3><a name="lua_settable"><code>lua_settable</code></a></h3><p>
-<span class="apii">[-2, +0, <em>e</em>]</span>
-<pre>void lua_settable (lua_State *L, int index);</pre>
-
-<p>
-Does the equivalent to <code>t[k] = v</code>,
-where <code>t</code> is the value at the given index,
-<code>v</code> is the value at the top of the stack,
-and <code>k</code> is the value just below the top.
-
-
-<p>
-This function pops both the key and the value from the stack.
-As in Lua, this function may trigger a metamethod
-for the "newindex" event (see <a href="#2.4">&sect;2.4</a>).
-
-
-
-
-
-<hr><h3><a name="lua_settop"><code>lua_settop</code></a></h3><p>
-<span class="apii">[-?, +?, &ndash;]</span>
-<pre>void lua_settop (lua_State *L, int index);</pre>
-
-<p>
-Accepts any index, or&nbsp;0,
-and sets the stack top to this index.
-If the new top is larger than the old one,
-then the new elements are filled with <b>nil</b>.
-If <code>index</code> is&nbsp;0, then all stack elements are removed.
-
-
-
-
-
-<hr><h3><a name="lua_setuservalue"><code>lua_setuservalue</code></a></h3><p>
-<span class="apii">[-1, +0, &ndash;]</span>
-<pre>void lua_setuservalue (lua_State *L, int index);</pre>
-
-<p>
-Pops a value from the stack and sets it as
-the new value associated to the userdata at the given index.
-
-
-
-
-
-<hr><h3><a name="lua_State"><code>lua_State</code></a></h3>
-<pre>typedef struct lua_State lua_State;</pre>
-
-<p>
-An opaque structure that points to a thread and indirectly
-(through the thread) to the whole state of a Lua interpreter.
-The Lua library is fully reentrant:
-it has no global variables.
-All information about a state is accessible through this structure.
-
-
-<p>
-A pointer to this structure must be passed as the first argument to
-every function in the library, except to <a href="#lua_newstate"><code>lua_newstate</code></a>,
-which creates a Lua state from scratch.
-
-
-
-
-
-<hr><h3><a name="lua_status"><code>lua_status</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_status (lua_State *L);</pre>
-
-<p>
-Returns the status of the thread <code>L</code>.
-
-
-<p>
-The status can be 0 (<a href="#pdf-LUA_OK"><code>LUA_OK</code></a>) for a normal thread,
-an error code if the thread finished the execution
-of a <a href="#lua_resume"><code>lua_resume</code></a> with an error,
-or <a name="pdf-LUA_YIELD"><code>LUA_YIELD</code></a> if the thread is suspended.
-
-
-<p>
-You can only call functions in threads with status <a href="#pdf-LUA_OK"><code>LUA_OK</code></a>.
-You can resume threads with status <a href="#pdf-LUA_OK"><code>LUA_OK</code></a>
-(to start a new coroutine) or <a href="#pdf-LUA_YIELD"><code>LUA_YIELD</code></a>
-(to resume a coroutine).
-
-
-
-
-
-<hr><h3><a name="lua_stringtonumber"><code>lua_stringtonumber</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>size_t lua_stringtonumber (lua_State *L, const char *s);</pre>
-
-<p>
-Converts the zero-terminated string <code>s</code> to a number,
-pushes that number into the stack,
-and returns the total size of the string,
-that is, its length plus one.
-The conversion can result in an integer or a float,
-according to the lexical conventions of Lua (see <a href="#3.1">&sect;3.1</a>).
-The string may have leading and trailing spaces and a sign.
-If the string is not a valid numeral,
-returns 0 and pushes nothing.
-(Note that the result can be used as a boolean,
-true if the conversion succeeds.)
-
-
-
-
-
-<hr><h3><a name="lua_toboolean"><code>lua_toboolean</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_toboolean (lua_State *L, int index);</pre>
-
-<p>
-Converts the Lua value at the given index to a C&nbsp;boolean
-value (0&nbsp;or&nbsp;1).
-Like all tests in Lua,
-<a href="#lua_toboolean"><code>lua_toboolean</code></a> returns true for any Lua value
-different from <b>false</b> and <b>nil</b>;
-otherwise it returns false.
-(If you want to accept only actual boolean values,
-use <a href="#lua_isboolean"><code>lua_isboolean</code></a> to test the value's type.)
-
-
-
-
-
-<hr><h3><a name="lua_tocfunction"><code>lua_tocfunction</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>lua_CFunction lua_tocfunction (lua_State *L, int index);</pre>
-
-<p>
-Converts a value at the given index to a C&nbsp;function.
-That value must be a C&nbsp;function;
-otherwise, returns <code>NULL</code>.
-
-
-
-
-
-<hr><h3><a name="lua_tointeger"><code>lua_tointeger</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>lua_Integer lua_tointeger (lua_State *L, int index);</pre>
-
-<p>
-Equivalent to <a href="#lua_tointegerx"><code>lua_tointegerx</code></a> with <code>isnum</code> equal to <code>NULL</code>.
-
-
-
-
-
-<hr><h3><a name="lua_tointegerx"><code>lua_tointegerx</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>lua_Integer lua_tointegerx (lua_State *L, int index, int *isnum);</pre>
-
-<p>
-Converts the Lua value at the given index
-to the signed integral type <a href="#lua_Integer"><code>lua_Integer</code></a>.
-The Lua value must be an integer,
-or a number or string convertible to an integer (see <a href="#3.4.3">&sect;3.4.3</a>);
-otherwise, <code>lua_tointegerx</code> returns&nbsp;0.
-
-
-<p>
-If <code>isnum</code> is not <code>NULL</code>,
-its referent is assigned a boolean value that
-indicates whether the operation succeeded.
-
-
-
-
-
-<hr><h3><a name="lua_tolstring"><code>lua_tolstring</code></a></h3><p>
-<span class="apii">[-0, +0, <em>e</em>]</span>
-<pre>const char *lua_tolstring (lua_State *L, int index, size_t *len);</pre>
-
-<p>
-Converts the Lua value at the given index to a C&nbsp;string.
-If <code>len</code> is not <code>NULL</code>,
-it also sets <code>*len</code> with the string length.
-The Lua value must be a string or a number;
-otherwise, the function returns <code>NULL</code>.
-If the value is a number,
-then <code>lua_tolstring</code> also
-<em>changes the actual value in the stack to a string</em>.
-(This change confuses <a href="#lua_next"><code>lua_next</code></a>
-when <code>lua_tolstring</code> is applied to keys during a table traversal.)
-
-
-<p>
-<code>lua_tolstring</code> returns a fully aligned pointer
-to a string inside the Lua state.
-This string always has a zero ('<code>\0</code>')
-after its last character (as in&nbsp;C),
-but can contain other zeros in its body.
-
-
-<p>
-Because Lua has garbage collection,
-there is no guarantee that the pointer returned by <code>lua_tolstring</code>
-will be valid after the corresponding Lua value is removed from the stack.
-
-
-
-
-
-<hr><h3><a name="lua_tonumber"><code>lua_tonumber</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>lua_Number lua_tonumber (lua_State *L, int index);</pre>
-
-<p>
-Equivalent to <a href="#lua_tonumberx"><code>lua_tonumberx</code></a> with <code>isnum</code> equal to <code>NULL</code>.
-
-
-
-
-
-<hr><h3><a name="lua_tonumberx"><code>lua_tonumberx</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>lua_Number lua_tonumberx (lua_State *L, int index, int *isnum);</pre>
-
-<p>
-Converts the Lua value at the given index
-to the C&nbsp;type <a href="#lua_Number"><code>lua_Number</code></a> (see <a href="#lua_Number"><code>lua_Number</code></a>).
-The Lua value must be a number or a string convertible to a number
-(see <a href="#3.4.3">&sect;3.4.3</a>);
-otherwise, <a href="#lua_tonumberx"><code>lua_tonumberx</code></a> returns&nbsp;0.
-
-
-<p>
-If <code>isnum</code> is not <code>NULL</code>,
-its referent is assigned a boolean value that
-indicates whether the operation succeeded.
-
-
-
-
-
-<hr><h3><a name="lua_topointer"><code>lua_topointer</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>const void *lua_topointer (lua_State *L, int index);</pre>
-
-<p>
-Converts the value at the given index to a generic
-C&nbsp;pointer (<code>void*</code>).
-The value can be a userdata, a table, a thread, or a function;
-otherwise, <code>lua_topointer</code> returns <code>NULL</code>.
-Different objects will give different pointers.
-There is no way to convert the pointer back to its original value.
-
-
-<p>
-Typically this function is used only for debug information.
-
-
-
-
-
-<hr><h3><a name="lua_tostring"><code>lua_tostring</code></a></h3><p>
-<span class="apii">[-0, +0, <em>e</em>]</span>
-<pre>const char *lua_tostring (lua_State *L, int index);</pre>
-
-<p>
-Equivalent to <a href="#lua_tolstring"><code>lua_tolstring</code></a> with <code>len</code> equal to <code>NULL</code>.
-
-
-
-
-
-<hr><h3><a name="lua_tothread"><code>lua_tothread</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>lua_State *lua_tothread (lua_State *L, int index);</pre>
-
-<p>
-Converts the value at the given index to a Lua thread
-(represented as <code>lua_State*</code>).
-This value must be a thread;
-otherwise, the function returns <code>NULL</code>.
-
-
-
-
-
-<hr><h3><a name="lua_touserdata"><code>lua_touserdata</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void *lua_touserdata (lua_State *L, int index);</pre>
-
-<p>
-If the value at the given index is a full userdata,
-returns its block address.
-If the value is a light userdata,
-returns its pointer.
-Otherwise, returns <code>NULL</code>.
-
-
-
-
-
-<hr><h3><a name="lua_type"><code>lua_type</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_type (lua_State *L, int index);</pre>
-
-<p>
-Returns the type of the value in the given valid index,
-or <code>LUA_TNONE</code> for a non-valid (but acceptable) index.
-The types returned by <a href="#lua_type"><code>lua_type</code></a> are coded by the following constants
-defined in <code>lua.h</code>:
-<a name="pdf-LUA_TNIL"><code>LUA_TNIL</code></a>,
-<a name="pdf-LUA_TNUMBER"><code>LUA_TNUMBER</code></a>,
-<a name="pdf-LUA_TBOOLEAN"><code>LUA_TBOOLEAN</code></a>,
-<a name="pdf-LUA_TSTRING"><code>LUA_TSTRING</code></a>,
-<a name="pdf-LUA_TTABLE"><code>LUA_TTABLE</code></a>,
-<a name="pdf-LUA_TFUNCTION"><code>LUA_TFUNCTION</code></a>,
-<a name="pdf-LUA_TUSERDATA"><code>LUA_TUSERDATA</code></a>,
-<a name="pdf-LUA_TTHREAD"><code>LUA_TTHREAD</code></a>,
-and
-<a name="pdf-LUA_TLIGHTUSERDATA"><code>LUA_TLIGHTUSERDATA</code></a>.
-
-
-
-
-
-<hr><h3><a name="lua_typename"><code>lua_typename</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>const char *lua_typename (lua_State *L, int tp);</pre>
-
-<p>
-Returns the name of the type encoded by the value <code>tp</code>,
-which must be one the values returned by <a href="#lua_type"><code>lua_type</code></a>.
-
-
-
-
-
-<hr><h3><a name="lua_Unsigned"><code>lua_Unsigned</code></a></h3>
-<pre>typedef ... lua_Unsigned;</pre>
-
-<p>
-The unsigned version of <a href="#lua_Integer"><code>lua_Integer</code></a>.
-
-
-
-
-
-<hr><h3><a name="lua_upvalueindex"><code>lua_upvalueindex</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_upvalueindex (int i);</pre>
-
-<p>
-Returns the pseudo-index that represents the <code>i</code>-th upvalue of
-the running function (see <a href="#4.4">&sect;4.4</a>).
-
-
-
-
-
-<hr><h3><a name="lua_version"><code>lua_version</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>const lua_Number *lua_version (lua_State *L);</pre>
-
-<p>
-Returns the address of the version number stored in the Lua core.
-When called with a valid <a href="#lua_State"><code>lua_State</code></a>,
-returns the address of the version used to create that state.
-When called with <code>NULL</code>,
-returns the address of the version running the call.
-
-
-
-
-
-<hr><h3><a name="lua_Writer"><code>lua_Writer</code></a></h3>
-<pre>typedef int (*lua_Writer) (lua_State *L,
-                           const void* p,
-                           size_t sz,
-                           void* ud);</pre>
-
-<p>
-The type of the writer function used by <a href="#lua_dump"><code>lua_dump</code></a>.
-Every time it produces another piece of chunk,
-<a href="#lua_dump"><code>lua_dump</code></a> calls the writer,
-passing along the buffer to be written (<code>p</code>),
-its size (<code>sz</code>),
-and the <code>data</code> parameter supplied to <a href="#lua_dump"><code>lua_dump</code></a>.
-
-
-<p>
-The writer returns an error code:
-0&nbsp;means no errors;
-any other value means an error and stops <a href="#lua_dump"><code>lua_dump</code></a> from
-calling the writer again.
-
-
-
-
-
-<hr><h3><a name="lua_xmove"><code>lua_xmove</code></a></h3><p>
-<span class="apii">[-?, +?, &ndash;]</span>
-<pre>void lua_xmove (lua_State *from, lua_State *to, int n);</pre>
-
-<p>
-Exchange values between different threads of the same state.
-
-
-<p>
-This function pops <code>n</code> values from the stack <code>from</code>,
-and pushes them onto the stack <code>to</code>.
-
-
-
-
-
-<hr><h3><a name="lua_yield"><code>lua_yield</code></a></h3><p>
-<span class="apii">[-?, +?, <em>e</em>]</span>
-<pre>int lua_yield (lua_State *L, int nresults);</pre>
-
-<p>
-This function is equivalent to <a href="#lua_yieldk"><code>lua_yieldk</code></a>,
-but it has no continuation (see <a href="#4.7">&sect;4.7</a>).
-Therefore, when the thread resumes,
-it continues the function that called
-the function calling <code>lua_yield</code>.
-
-
-
-
-
-<hr><h3><a name="lua_yieldk"><code>lua_yieldk</code></a></h3><p>
-<span class="apii">[-?, +?, <em>e</em>]</span>
-<pre>int lua_yieldk (lua_State *L,
-                int nresults,
-                lua_KContext ctx,
-                lua_KFunction k);</pre>
-
-<p>
-Yields a coroutine (thread).
-
-
-<p>
-When a C&nbsp;function calls <a href="#lua_yieldk"><code>lua_yieldk</code></a>,
-the running coroutine suspends its execution,
-and the call to <a href="#lua_resume"><code>lua_resume</code></a> that started this coroutine returns.
-The parameter <code>nresults</code> is the number of values from the stack
-that will be passed as results to <a href="#lua_resume"><code>lua_resume</code></a>.
-
-
-<p>
-When the coroutine is resumed again,
-Lua calls the given continuation function <code>k</code> to continue
-the execution of the C function that yielded (see <a href="#4.7">&sect;4.7</a>).
-This continuation function receives the same stack
-from the previous function,
-with the <code>n</code> results removed and
-replaced by the arguments passed to <a href="#lua_resume"><code>lua_resume</code></a>.
-Moreover,
-the continuation function receives the value <code>ctx</code>
-that was passed to <a href="#lua_yieldk"><code>lua_yieldk</code></a>.
-
-
-<p>
-Usually, this function does not return;
-when the coroutine eventually resumes,
-it continues executing the continuation function.
-However, there is one special case,
-which is when this function is called
-from inside a line hook (see <a href="#4.9">&sect;4.9</a>).
-In that case, <code>lua_yieldk</code> should be called with no continuation
-(probably in the form of <a href="#lua_yield"><code>lua_yield</code></a>),
-and the hook should return immediately after the call.
-Lua will yield and,
-when the coroutine resumes again,
-it will continue the normal execution
-of the (Lua) function that triggered the hook.
-
-
-<p>
-This function can raise an error if it is called from a thread
-with a pending C call with no continuation function,
-or it is called from a thread that is not running inside a resume
-(e.g., the main thread).
-
-
-
-
-
-
-
-<h2>4.9 &ndash; <a name="4.9">The Debug Interface</a></h2>
-
-<p>
-Lua has no built-in debugging facilities.
-Instead, it offers a special interface
-by means of functions and <em>hooks</em>.
-This interface allows the construction of different
-kinds of debuggers, profilers, and other tools
-that need "inside information" from the interpreter.
-
-
-
-<hr><h3><a name="lua_Debug"><code>lua_Debug</code></a></h3>
-<pre>typedef struct lua_Debug {
-  int event;
-  const char *name;           /* (n) */
-  const char *namewhat;       /* (n) */
-  const char *what;           /* (S) */
-  const char *source;         /* (S) */
-  int currentline;            /* (l) */
-  int linedefined;            /* (S) */
-  int lastlinedefined;        /* (S) */
-  unsigned char nups;         /* (u) number of upvalues */
-  unsigned char nparams;      /* (u) number of parameters */
-  char isvararg;              /* (u) */
-  char istailcall;            /* (t) */
-  char short_src[LUA_IDSIZE]; /* (S) */
-  /* private part */
-  <em>other fields</em>
-} lua_Debug;</pre>
-
-<p>
-A structure used to carry different pieces of
-information about a function or an activation record.
-<a href="#lua_getstack"><code>lua_getstack</code></a> fills only the private part
-of this structure, for later use.
-To fill the other fields of <a href="#lua_Debug"><code>lua_Debug</code></a> with useful information,
-call <a href="#lua_getinfo"><code>lua_getinfo</code></a>.
-
-
-<p>
-The fields of <a href="#lua_Debug"><code>lua_Debug</code></a> have the following meaning:
-
-<ul>
-
-<li><b><code>source</code>: </b>
-the name of the chunk that created the function.
-If <code>source</code> starts with a '<code>@</code>',
-it means that the function was defined in a file where
-the file name follows the '<code>@</code>'.
-If <code>source</code> starts with a '<code>=</code>',
-the remainder of its contents describe the source in a user-dependent manner.
-Otherwise,
-the function was defined in a string where
-<code>source</code> is that string.
-</li>
-
-<li><b><code>short_src</code>: </b>
-a "printable" version of <code>source</code>, to be used in error messages.
-</li>
-
-<li><b><code>linedefined</code>: </b>
-the line number where the definition of the function starts.
-</li>
-
-<li><b><code>lastlinedefined</code>: </b>
-the line number where the definition of the function ends.
-</li>
-
-<li><b><code>what</code>: </b>
-the string <code>"Lua"</code> if the function is a Lua function,
-<code>"C"</code> if it is a C&nbsp;function,
-<code>"main"</code> if it is the main part of a chunk.
-</li>
-
-<li><b><code>currentline</code>: </b>
-the current line where the given function is executing.
-When no line information is available,
-<code>currentline</code> is set to -1.
-</li>
-
-<li><b><code>name</code>: </b>
-a reasonable name for the given function.
-Because functions in Lua are first-class values,
-they do not have a fixed name:
-some functions can be the value of multiple global variables,
-while others can be stored only in a table field.
-The <code>lua_getinfo</code> function checks how the function was
-called to find a suitable name.
-If it cannot find a name,
-then <code>name</code> is set to <code>NULL</code>.
-</li>
-
-<li><b><code>namewhat</code>: </b>
-explains the <code>name</code> field.
-The value of <code>namewhat</code> can be
-<code>"global"</code>, <code>"local"</code>, <code>"method"</code>,
-<code>"field"</code>, <code>"upvalue"</code>, or <code>""</code> (the empty string),
-according to how the function was called.
-(Lua uses the empty string when no other option seems to apply.)
-</li>
-
-<li><b><code>istailcall</code>: </b>
-true if this function invocation was called by a tail call.
-In this case, the caller of this level is not in the stack.
-</li>
-
-<li><b><code>nups</code>: </b>
-the number of upvalues of the function.
-</li>
-
-<li><b><code>nparams</code>: </b>
-the number of fixed parameters of the function
-(always 0&nbsp;for C&nbsp;functions).
-</li>
-
-<li><b><code>isvararg</code>: </b>
-true if the function is a vararg function
-(always true for C&nbsp;functions).
-</li>
-
-</ul>
-
-
-
-
-<hr><h3><a name="lua_gethook"><code>lua_gethook</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>lua_Hook lua_gethook (lua_State *L);</pre>
-
-<p>
-Returns the current hook function.
-
-
-
-
-
-<hr><h3><a name="lua_gethookcount"><code>lua_gethookcount</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_gethookcount (lua_State *L);</pre>
-
-<p>
-Returns the current hook count.
-
-
-
-
-
-<hr><h3><a name="lua_gethookmask"><code>lua_gethookmask</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_gethookmask (lua_State *L);</pre>
-
-<p>
-Returns the current hook mask.
-
-
-
-
-
-<hr><h3><a name="lua_getinfo"><code>lua_getinfo</code></a></h3><p>
-<span class="apii">[-(0|1), +(0|1|2), <em>e</em>]</span>
-<pre>int lua_getinfo (lua_State *L, const char *what, lua_Debug *ar);</pre>
-
-<p>
-Gets information about a specific function or function invocation.
-
-
-<p>
-To get information about a function invocation,
-the parameter <code>ar</code> must be a valid activation record that was
-filled by a previous call to <a href="#lua_getstack"><code>lua_getstack</code></a> or
-given as argument to a hook (see <a href="#lua_Hook"><code>lua_Hook</code></a>).
-
-
-<p>
-To get information about a function you push it onto the stack
-and start the <code>what</code> string with the character '<code>&gt;</code>'.
-(In that case,
-<code>lua_getinfo</code> pops the function from the top of the stack.)
-For instance, to know in which line a function <code>f</code> was defined,
-you can write the following code:
-
-<pre>
-     lua_Debug ar;
-     lua_getglobal(L, "f");  /* get global 'f' */
-     lua_getinfo(L, "&gt;S", &amp;ar);
-     printf("%d\n", ar.linedefined);
-</pre>
-
-<p>
-Each character in the string <code>what</code>
-selects some fields of the structure <code>ar</code> to be filled or
-a value to be pushed on the stack:
-
-<ul>
-
-<li><b>'<code>n</code>': </b> fills in the field <code>name</code> and <code>namewhat</code>;
-</li>
-
-<li><b>'<code>S</code>': </b>
-fills in the fields <code>source</code>, <code>short_src</code>,
-<code>linedefined</code>, <code>lastlinedefined</code>, and <code>what</code>;
-</li>
-
-<li><b>'<code>l</code>': </b> fills in the field <code>currentline</code>;
-</li>
-
-<li><b>'<code>t</code>': </b> fills in the field <code>istailcall</code>;
-</li>
-
-<li><b>'<code>u</code>': </b> fills in the fields
-<code>nups</code>, <code>nparams</code>, and <code>isvararg</code>;
-</li>
-
-<li><b>'<code>f</code>': </b>
-pushes onto the stack the function that is
-running at the given level;
-</li>
-
-<li><b>'<code>L</code>': </b>
-pushes onto the stack a table whose indices are the
-numbers of the lines that are valid on the function.
-(A <em>valid line</em> is a line with some associated code,
-that is, a line where you can put a break point.
-Non-valid lines include empty lines and comments.)
-
-
-<p>
-If this option is given together with option '<code>f</code>',
-its table is pushed after the function.
-</li>
-
-</ul>
-
-<p>
-This function returns 0 on error
-(for instance, an invalid option in <code>what</code>).
-
-
-
-
-
-<hr><h3><a name="lua_getlocal"><code>lua_getlocal</code></a></h3><p>
-<span class="apii">[-0, +(0|1), &ndash;]</span>
-<pre>const char *lua_getlocal (lua_State *L, const lua_Debug *ar, int n);</pre>
-
-<p>
-Gets information about a local variable of
-a given activation record or a given function.
-
-
-<p>
-In the first case,
-the parameter <code>ar</code> must be a valid activation record that was
-filled by a previous call to <a href="#lua_getstack"><code>lua_getstack</code></a> or
-given as argument to a hook (see <a href="#lua_Hook"><code>lua_Hook</code></a>).
-The index <code>n</code> selects which local variable to inspect;
-see <a href="#pdf-debug.getlocal"><code>debug.getlocal</code></a> for details about variable indices
-and names.
-
-
-<p>
-<a href="#lua_getlocal"><code>lua_getlocal</code></a> pushes the variable's value onto the stack
-and returns its name.
-
-
-<p>
-In the second case, <code>ar</code> must be <code>NULL</code> and the function
-to be inspected must be at the top of the stack.
-In this case, only parameters of Lua functions are visible
-(as there is no information about what variables are active)
-and no values are pushed onto the stack.
-
-
-<p>
-Returns <code>NULL</code> (and pushes nothing)
-when the index is greater than
-the number of active local variables.
-
-
-
-
-
-<hr><h3><a name="lua_getstack"><code>lua_getstack</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>int lua_getstack (lua_State *L, int level, lua_Debug *ar);</pre>
-
-<p>
-Gets information about the interpreter runtime stack.
-
-
-<p>
-This function fills parts of a <a href="#lua_Debug"><code>lua_Debug</code></a> structure with
-an identification of the <em>activation record</em>
-of the function executing at a given level.
-Level&nbsp;0 is the current running function,
-whereas level <em>n+1</em> is the function that has called level <em>n</em>
-(except for tail calls, which do not count on the stack).
-When there are no errors, <a href="#lua_getstack"><code>lua_getstack</code></a> returns 1;
-when called with a level greater than the stack depth,
-it returns 0.
-
-
-
-
-
-<hr><h3><a name="lua_getupvalue"><code>lua_getupvalue</code></a></h3><p>
-<span class="apii">[-0, +(0|1), &ndash;]</span>
-<pre>const char *lua_getupvalue (lua_State *L, int funcindex, int n);</pre>
-
-<p>
-Gets information about a closure's upvalue.
-(For Lua functions,
-upvalues are the external local variables that the function uses,
-and that are consequently included in its closure.)
-<a href="#lua_getupvalue"><code>lua_getupvalue</code></a> gets the index <code>n</code> of an upvalue,
-pushes the upvalue's value onto the stack,
-and returns its name.
-<code>funcindex</code> points to the closure in the stack.
-(Upvalues have no particular order,
-as they are active through the whole function.
-So, they are numbered in an arbitrary order.)
-
-
-<p>
-Returns <code>NULL</code> (and pushes nothing)
-when the index is greater than the number of upvalues.
-For C&nbsp;functions, this function uses the empty string <code>""</code>
-as a name for all upvalues.
-
-
-
-
-
-<hr><h3><a name="lua_Hook"><code>lua_Hook</code></a></h3>
-<pre>typedef void (*lua_Hook) (lua_State *L, lua_Debug *ar);</pre>
-
-<p>
-Type for debugging hook functions.
-
-
-<p>
-Whenever a hook is called, its <code>ar</code> argument has its field
-<code>event</code> set to the specific event that triggered the hook.
-Lua identifies these events with the following constants:
-<a name="pdf-LUA_HOOKCALL"><code>LUA_HOOKCALL</code></a>, <a name="pdf-LUA_HOOKRET"><code>LUA_HOOKRET</code></a>,
-<a name="pdf-LUA_HOOKTAILCALL"><code>LUA_HOOKTAILCALL</code></a>, <a name="pdf-LUA_HOOKLINE"><code>LUA_HOOKLINE</code></a>,
-and <a name="pdf-LUA_HOOKCOUNT"><code>LUA_HOOKCOUNT</code></a>.
-Moreover, for line events, the field <code>currentline</code> is also set.
-To get the value of any other field in <code>ar</code>,
-the hook must call <a href="#lua_getinfo"><code>lua_getinfo</code></a>.
-
-
-<p>
-For call events, <code>event</code> can be <code>LUA_HOOKCALL</code>,
-the normal value, or <code>LUA_HOOKTAILCALL</code>, for a tail call;
-in this case, there will be no corresponding return event.
-
-
-<p>
-While Lua is running a hook, it disables other calls to hooks.
-Therefore, if a hook calls back Lua to execute a function or a chunk,
-this execution occurs without any calls to hooks.
-
-
-<p>
-Hook functions cannot have continuations,
-that is, they cannot call <a href="#lua_yieldk"><code>lua_yieldk</code></a>,
-<a href="#lua_pcallk"><code>lua_pcallk</code></a>, or <a href="#lua_callk"><code>lua_callk</code></a> with a non-null <code>k</code>.
-
-
-<p>
-Hook functions can yield under the following conditions:
-Only count and line events can yield
-and they cannot yield any value;
-to yield a hook function must finish its execution
-calling <a href="#lua_yield"><code>lua_yield</code></a> with <code>nresults</code> equal to zero.
-
-
-
-
-
-<hr><h3><a name="lua_sethook"><code>lua_sethook</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void lua_sethook (lua_State *L, lua_Hook f, int mask, int count);</pre>
-
-<p>
-Sets the debugging hook function.
-
-
-<p>
-Argument <code>f</code> is the hook function.
-<code>mask</code> specifies on which events the hook will be called:
-it is formed by a bitwise or of the constants
-<a name="pdf-LUA_MASKCALL"><code>LUA_MASKCALL</code></a>,
-<a name="pdf-LUA_MASKRET"><code>LUA_MASKRET</code></a>,
-<a name="pdf-LUA_MASKLINE"><code>LUA_MASKLINE</code></a>,
-and <a name="pdf-LUA_MASKCOUNT"><code>LUA_MASKCOUNT</code></a>.
-The <code>count</code> argument is only meaningful when the mask
-includes <code>LUA_MASKCOUNT</code>.
-For each event, the hook is called as explained below:
-
-<ul>
-
-<li><b>The call hook: </b> is called when the interpreter calls a function.
-The hook is called just after Lua enters the new function,
-before the function gets its arguments.
-</li>
-
-<li><b>The return hook: </b> is called when the interpreter returns from a function.
-The hook is called just before Lua leaves the function.
-There is no standard way to access the values
-to be returned by the function.
-</li>
-
-<li><b>The line hook: </b> is called when the interpreter is about to
-start the execution of a new line of code,
-or when it jumps back in the code (even to the same line).
-(This event only happens while Lua is executing a Lua function.)
-</li>
-
-<li><b>The count hook: </b> is called after the interpreter executes every
-<code>count</code> instructions.
-(This event only happens while Lua is executing a Lua function.)
-</li>
-
-</ul>
-
-<p>
-A hook is disabled by setting <code>mask</code> to zero.
-
-
-
-
-
-<hr><h3><a name="lua_setlocal"><code>lua_setlocal</code></a></h3><p>
-<span class="apii">[-(0|1), +0, &ndash;]</span>
-<pre>const char *lua_setlocal (lua_State *L, const lua_Debug *ar, int n);</pre>
-
-<p>
-Sets the value of a local variable of a given activation record.
-Parameters <code>ar</code> and <code>n</code> are as in <a href="#lua_getlocal"><code>lua_getlocal</code></a>
-(see <a href="#lua_getlocal"><code>lua_getlocal</code></a>).
-<a href="#lua_setlocal"><code>lua_setlocal</code></a> assigns the value at the top of the stack
-to the variable and returns its name.
-It also pops the value from the stack.
-
-
-<p>
-Returns <code>NULL</code> (and pops nothing)
-when the index is greater than
-the number of active local variables.
-
-
-
-
-
-<hr><h3><a name="lua_setupvalue"><code>lua_setupvalue</code></a></h3><p>
-<span class="apii">[-(0|1), +0, &ndash;]</span>
-<pre>const char *lua_setupvalue (lua_State *L, int funcindex, int n);</pre>
-
-<p>
-Sets the value of a closure's upvalue.
-It assigns the value at the top of the stack
-to the upvalue and returns its name.
-It also pops the value from the stack.
-Parameters <code>funcindex</code> and <code>n</code> are as in the <a href="#lua_getupvalue"><code>lua_getupvalue</code></a>
-(see <a href="#lua_getupvalue"><code>lua_getupvalue</code></a>).
-
-
-<p>
-Returns <code>NULL</code> (and pops nothing)
-when the index is greater than the number of upvalues.
-
-
-
-
-
-<hr><h3><a name="lua_upvalueid"><code>lua_upvalueid</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void *lua_upvalueid (lua_State *L, int funcindex, int n);</pre>
-
-<p>
-Returns a unique identifier for the upvalue numbered <code>n</code>
-from the closure at index <code>funcindex</code>.
-Parameters <code>funcindex</code> and <code>n</code> are as in the <a href="#lua_getupvalue"><code>lua_getupvalue</code></a>
-(see <a href="#lua_getupvalue"><code>lua_getupvalue</code></a>)
-(but <code>n</code> cannot be greater than the number of upvalues).
-
-
-<p>
-These unique identifiers allow a program to check whether different
-closures share upvalues.
-Lua closures that share an upvalue
-(that is, that access a same external local variable)
-will return identical ids for those upvalue indices.
-
-
-
-
-
-<hr><h3><a name="lua_upvaluejoin"><code>lua_upvaluejoin</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void lua_upvaluejoin (lua_State *L, int funcindex1, int n1,
-                                    int funcindex2, int n2);</pre>
-
-<p>
-Make the <code>n1</code>-th upvalue of the Lua closure at index <code>funcindex1</code>
-refer to the <code>n2</code>-th upvalue of the Lua closure at index <code>funcindex2</code>.
-
-
-
-
-
-
-
-<h1>5 &ndash; <a name="5">The Auxiliary Library</a></h1>
-
-<p>
-
-The <em>auxiliary library</em> provides several convenient functions
-to interface C with Lua.
-While the basic API provides the primitive functions for all
-interactions between C and Lua,
-the auxiliary library provides higher-level functions for some
-common tasks.
-
-
-<p>
-All functions and types from the auxiliary library
-are defined in header file <code>lauxlib.h</code> and
-have a prefix <code>luaL_</code>.
-
-
-<p>
-All functions in the auxiliary library are built on
-top of the basic API,
-and so they provide nothing that cannot be done with that API.
-Nevertheless, the use of the auxiliary library ensures
-more consistency to your code.
-
-
-<p>
-Several functions in the auxiliary library use internally some
-extra stack slots.
-When a function in the auxiliary library uses less than five slots,
-it does not check the stack size;
-it simply assumes that there are enough slots.
-
-
-<p>
-Several functions in the auxiliary library are used to
-check C&nbsp;function arguments.
-Because the error message is formatted for arguments
-(e.g., "<code>bad argument #1</code>"),
-you should not use these functions for other stack values.
-
-
-<p>
-Functions called <code>luaL_check*</code>
-always raise an error if the check is not satisfied.
-
-
-
-<h2>5.1 &ndash; <a name="5.1">Functions and Types</a></h2>
-
-<p>
-Here we list all functions and types from the auxiliary library
-in alphabetical order.
-
-
-
-<hr><h3><a name="luaL_addchar"><code>luaL_addchar</code></a></h3><p>
-<span class="apii">[-?, +?, <em>e</em>]</span>
-<pre>void luaL_addchar (luaL_Buffer *B, char c);</pre>
-
-<p>
-Adds the byte <code>c</code> to the buffer <code>B</code>
-(see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>).
-
-
-
-
-
-<hr><h3><a name="luaL_addlstring"><code>luaL_addlstring</code></a></h3><p>
-<span class="apii">[-?, +?, <em>e</em>]</span>
-<pre>void luaL_addlstring (luaL_Buffer *B, const char *s, size_t l);</pre>
-
-<p>
-Adds the string pointed to by <code>s</code> with length <code>l</code> to
-the buffer <code>B</code>
-(see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>).
-The string can contain embedded zeros.
-
-
-
-
-
-<hr><h3><a name="luaL_addsize"><code>luaL_addsize</code></a></h3><p>
-<span class="apii">[-?, +?, <em>e</em>]</span>
-<pre>void luaL_addsize (luaL_Buffer *B, size_t n);</pre>
-
-<p>
-Adds to the buffer <code>B</code> (see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>)
-a string of length <code>n</code> previously copied to the
-buffer area (see <a href="#luaL_prepbuffer"><code>luaL_prepbuffer</code></a>).
-
-
-
-
-
-<hr><h3><a name="luaL_addstring"><code>luaL_addstring</code></a></h3><p>
-<span class="apii">[-?, +?, <em>e</em>]</span>
-<pre>void luaL_addstring (luaL_Buffer *B, const char *s);</pre>
-
-<p>
-Adds the zero-terminated string pointed to by <code>s</code>
-to the buffer <code>B</code>
-(see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>).
-
-
-
-
-
-<hr><h3><a name="luaL_addvalue"><code>luaL_addvalue</code></a></h3><p>
-<span class="apii">[-1, +?, <em>e</em>]</span>
-<pre>void luaL_addvalue (luaL_Buffer *B);</pre>
-
-<p>
-Adds the value at the top of the stack
-to the buffer <code>B</code>
-(see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>).
-Pops the value.
-
-
-<p>
-This is the only function on string buffers that can (and must)
-be called with an extra element on the stack,
-which is the value to be added to the buffer.
-
-
-
-
-
-<hr><h3><a name="luaL_argcheck"><code>luaL_argcheck</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>void luaL_argcheck (lua_State *L,
-                    int cond,
-                    int arg,
-                    const char *extramsg);</pre>
-
-<p>
-Checks whether <code>cond</code> is true.
-If it is not, raises an error with a standard message (see <a href="#luaL_argerror"><code>luaL_argerror</code></a>).
-
-
-
-
-
-<hr><h3><a name="luaL_argerror"><code>luaL_argerror</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>int luaL_argerror (lua_State *L, int arg, const char *extramsg);</pre>
-
-<p>
-Raises an error reporting a problem with argument <code>arg</code>
-of the C function that called it,
-using a standard message
-that includes <code>extramsg</code> as a comment:
-
-<pre>
-     bad argument #<em>arg</em> to '<em>funcname</em>' (<em>extramsg</em>)
-</pre><p>
-This function never returns.
-
-
-
-
-
-<hr><h3><a name="luaL_Buffer"><code>luaL_Buffer</code></a></h3>
-<pre>typedef struct luaL_Buffer luaL_Buffer;</pre>
-
-<p>
-Type for a <em>string buffer</em>.
-
-
-<p>
-A string buffer allows C&nbsp;code to build Lua strings piecemeal.
-Its pattern of use is as follows:
-
-<ul>
-
-<li>First declare a variable <code>b</code> of type <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>.</li>
-
-<li>Then initialize it with a call <code>luaL_buffinit(L, &amp;b)</code>.</li>
-
-<li>
-Then add string pieces to the buffer calling any of
-the <code>luaL_add*</code> functions.
-</li>
-
-<li>
-Finish by calling <code>luaL_pushresult(&amp;b)</code>.
-This call leaves the final string on the top of the stack.
-</li>
-
-</ul>
-
-<p>
-If you know beforehand the total size of the resulting string,
-you can use the buffer like this:
-
-<ul>
-
-<li>First declare a variable <code>b</code> of type <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>.</li>
-
-<li>Then initialize it and preallocate a space of
-size <code>sz</code> with a call <code>luaL_buffinitsize(L, &amp;b, sz)</code>.</li>
-
-<li>Then copy the string into that space.</li>
-
-<li>
-Finish by calling <code>luaL_pushresultsize(&amp;b, sz)</code>,
-where <code>sz</code> is the total size of the resulting string
-copied into that space.
-</li>
-
-</ul>
-
-<p>
-During its normal operation,
-a string buffer uses a variable number of stack slots.
-So, while using a buffer, you cannot assume that you know where
-the top of the stack is.
-You can use the stack between successive calls to buffer operations
-as long as that use is balanced;
-that is,
-when you call a buffer operation,
-the stack is at the same level
-it was immediately after the previous buffer operation.
-(The only exception to this rule is <a href="#luaL_addvalue"><code>luaL_addvalue</code></a>.)
-After calling <a href="#luaL_pushresult"><code>luaL_pushresult</code></a> the stack is back to its
-level when the buffer was initialized,
-plus the final string on its top.
-
-
-
-
-
-<hr><h3><a name="luaL_buffinit"><code>luaL_buffinit</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void luaL_buffinit (lua_State *L, luaL_Buffer *B);</pre>
-
-<p>
-Initializes a buffer <code>B</code>.
-This function does not allocate any space;
-the buffer must be declared as a variable
-(see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>).
-
-
-
-
-
-<hr><h3><a name="luaL_buffinitsize"><code>luaL_buffinitsize</code></a></h3><p>
-<span class="apii">[-?, +?, <em>e</em>]</span>
-<pre>char *luaL_buffinitsize (lua_State *L, luaL_Buffer *B, size_t sz);</pre>
-
-<p>
-Equivalent to the sequence
-<a href="#luaL_buffinit"><code>luaL_buffinit</code></a>, <a href="#luaL_prepbuffsize"><code>luaL_prepbuffsize</code></a>.
-
-
-
-
-
-<hr><h3><a name="luaL_callmeta"><code>luaL_callmeta</code></a></h3><p>
-<span class="apii">[-0, +(0|1), <em>e</em>]</span>
-<pre>int luaL_callmeta (lua_State *L, int obj, const char *e);</pre>
-
-<p>
-Calls a metamethod.
-
-
-<p>
-If the object at index <code>obj</code> has a metatable and this
-metatable has a field <code>e</code>,
-this function calls this field passing the object as its only argument.
-In this case this function returns true and pushes onto the
-stack the value returned by the call.
-If there is no metatable or no metamethod,
-this function returns false (without pushing any value on the stack).
-
-
-
-
-
-<hr><h3><a name="luaL_checkany"><code>luaL_checkany</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>void luaL_checkany (lua_State *L, int arg);</pre>
-
-<p>
-Checks whether the function has an argument
-of any type (including <b>nil</b>) at position <code>arg</code>.
-
-
-
-
-
-<hr><h3><a name="luaL_checkinteger"><code>luaL_checkinteger</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>lua_Integer luaL_checkinteger (lua_State *L, int arg);</pre>
-
-<p>
-Checks whether the function argument <code>arg</code> is an integer
-(or can be converted to an integer)
-and returns this integer cast to a <a href="#lua_Integer"><code>lua_Integer</code></a>.
-
-
-
-
-
-<hr><h3><a name="luaL_checklstring"><code>luaL_checklstring</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>const char *luaL_checklstring (lua_State *L, int arg, size_t *l);</pre>
-
-<p>
-Checks whether the function argument <code>arg</code> is a string
-and returns this string;
-if <code>l</code> is not <code>NULL</code> fills <code>*l</code>
-with the string's length.
-
-
-<p>
-This function uses <a href="#lua_tolstring"><code>lua_tolstring</code></a> to get its result,
-so all conversions and caveats of that function apply here.
-
-
-
-
-
-<hr><h3><a name="luaL_checknumber"><code>luaL_checknumber</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>lua_Number luaL_checknumber (lua_State *L, int arg);</pre>
-
-<p>
-Checks whether the function argument <code>arg</code> is a number
-and returns this number.
-
-
-
-
-
-<hr><h3><a name="luaL_checkoption"><code>luaL_checkoption</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>int luaL_checkoption (lua_State *L,
-                      int arg,
-                      const char *def,
-                      const char *const lst[]);</pre>
-
-<p>
-Checks whether the function argument <code>arg</code> is a string and
-searches for this string in the array <code>lst</code>
-(which must be NULL-terminated).
-Returns the index in the array where the string was found.
-Raises an error if the argument is not a string or
-if the string cannot be found.
-
-
-<p>
-If <code>def</code> is not <code>NULL</code>,
-the function uses <code>def</code> as a default value when
-there is no argument <code>arg</code> or when this argument is <b>nil</b>.
-
-
-<p>
-This is a useful function for mapping strings to C&nbsp;enums.
-(The usual convention in Lua libraries is
-to use strings instead of numbers to select options.)
-
-
-
-
-
-<hr><h3><a name="luaL_checkstack"><code>luaL_checkstack</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>void luaL_checkstack (lua_State *L, int sz, const char *msg);</pre>
-
-<p>
-Grows the stack size to <code>top + sz</code> elements,
-raising an error if the stack cannot grow to that size.
-<code>msg</code> is an additional text to go into the error message
-(or <code>NULL</code> for no additional text).
-
-
-
-
-
-<hr><h3><a name="luaL_checkstring"><code>luaL_checkstring</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>const char *luaL_checkstring (lua_State *L, int arg);</pre>
-
-<p>
-Checks whether the function argument <code>arg</code> is a string
-and returns this string.
-
-
-<p>
-This function uses <a href="#lua_tolstring"><code>lua_tolstring</code></a> to get its result,
-so all conversions and caveats of that function apply here.
-
-
-
-
-
-<hr><h3><a name="luaL_checktype"><code>luaL_checktype</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>void luaL_checktype (lua_State *L, int arg, int t);</pre>
-
-<p>
-Checks whether the function argument <code>arg</code> has type <code>t</code>.
-See <a href="#lua_type"><code>lua_type</code></a> for the encoding of types for <code>t</code>.
-
-
-
-
-
-<hr><h3><a name="luaL_checkudata"><code>luaL_checkudata</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>void *luaL_checkudata (lua_State *L, int arg, const char *tname);</pre>
-
-<p>
-Checks whether the function argument <code>arg</code> is a userdata
-of the type <code>tname</code> (see <a href="#luaL_newmetatable"><code>luaL_newmetatable</code></a>) and
-returns the userdata address (see <a href="#lua_touserdata"><code>lua_touserdata</code></a>).
-
-
-
-
-
-<hr><h3><a name="luaL_checkversion"><code>luaL_checkversion</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void luaL_checkversion (lua_State *L);</pre>
-
-<p>
-Checks whether the core running the call,
-the core that created the Lua state,
-and the code making the call are all using the same version of Lua.
-Also checks whether the core running the call
-and the core that created the Lua state
-are using the same address space.
-
-
-
-
-
-<hr><h3><a name="luaL_dofile"><code>luaL_dofile</code></a></h3><p>
-<span class="apii">[-0, +?, <em>e</em>]</span>
-<pre>int luaL_dofile (lua_State *L, const char *filename);</pre>
-
-<p>
-Loads and runs the given file.
-It is defined as the following macro:
-
-<pre>
-     (luaL_loadfile(L, filename) || lua_pcall(L, 0, LUA_MULTRET, 0))
-</pre><p>
-It returns false if there are no errors
-or true in case of errors.
-
-
-
-
-
-<hr><h3><a name="luaL_dostring"><code>luaL_dostring</code></a></h3><p>
-<span class="apii">[-0, +?, &ndash;]</span>
-<pre>int luaL_dostring (lua_State *L, const char *str);</pre>
-
-<p>
-Loads and runs the given string.
-It is defined as the following macro:
-
-<pre>
-     (luaL_loadstring(L, str) || lua_pcall(L, 0, LUA_MULTRET, 0))
-</pre><p>
-It returns false if there are no errors
-or true in case of errors.
-
-
-
-
-
-<hr><h3><a name="luaL_error"><code>luaL_error</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>int luaL_error (lua_State *L, const char *fmt, ...);</pre>
-
-<p>
-Raises an error.
-The error message format is given by <code>fmt</code>
-plus any extra arguments,
-following the same rules of <a href="#lua_pushfstring"><code>lua_pushfstring</code></a>.
-It also adds at the beginning of the message the file name and
-the line number where the error occurred,
-if this information is available.
-
-
-<p>
-This function never returns,
-but it is an idiom to use it in C&nbsp;functions
-as <code>return luaL_error(<em>args</em>)</code>.
-
-
-
-
-
-<hr><h3><a name="luaL_execresult"><code>luaL_execresult</code></a></h3><p>
-<span class="apii">[-0, +3, <em>e</em>]</span>
-<pre>int luaL_execresult (lua_State *L, int stat);</pre>
-
-<p>
-This function produces the return values for
-process-related functions in the standard library
-(<a href="#pdf-os.execute"><code>os.execute</code></a> and <a href="#pdf-io.close"><code>io.close</code></a>).
-
-
-
-
-
-<hr><h3><a name="luaL_fileresult"><code>luaL_fileresult</code></a></h3><p>
-<span class="apii">[-0, +(1|3), <em>e</em>]</span>
-<pre>int luaL_fileresult (lua_State *L, int stat, const char *fname);</pre>
-
-<p>
-This function produces the return values for
-file-related functions in the standard library
-(<a href="#pdf-io.open"><code>io.open</code></a>, <a href="#pdf-os.rename"><code>os.rename</code></a>, <a href="#pdf-file:seek"><code>file:seek</code></a>, etc.).
-
-
-
-
-
-<hr><h3><a name="luaL_getmetafield"><code>luaL_getmetafield</code></a></h3><p>
-<span class="apii">[-0, +(0|1), <em>e</em>]</span>
-<pre>int luaL_getmetafield (lua_State *L, int obj, const char *e);</pre>
-
-<p>
-Pushes onto the stack the field <code>e</code> from the metatable
-of the object at index <code>obj</code> and returns the type of pushed value.
-If the object does not have a metatable,
-or if the metatable does not have this field,
-pushes nothing and returns <code>LUA_TNIL</code>.
-
-
-
-
-
-<hr><h3><a name="luaL_getmetatable"><code>luaL_getmetatable</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>int luaL_getmetatable (lua_State *L, const char *tname);</pre>
-
-<p>
-Pushes onto the stack the metatable associated with name <code>tname</code>
-in the registry (see <a href="#luaL_newmetatable"><code>luaL_newmetatable</code></a>).
-If there is no metatable associated with <code>tname</code>,
-returns false and pushes <b>nil</b>.
-
-
-
-
-
-<hr><h3><a name="luaL_getsubtable"><code>luaL_getsubtable</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>int luaL_getsubtable (lua_State *L, int idx, const char *fname);</pre>
-
-<p>
-Ensures that the value <code>t[fname]</code>,
-where <code>t</code> is the value at index <code>idx</code>,
-is a table,
-and pushes that table onto the stack.
-Returns true if it finds a previous table there
-and false if it creates a new table.
-
-
-
-
-
-<hr><h3><a name="luaL_gsub"><code>luaL_gsub</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>const char *luaL_gsub (lua_State *L,
-                       const char *s,
-                       const char *p,
-                       const char *r);</pre>
-
-<p>
-Creates a copy of string <code>s</code> by replacing
-any occurrence of the string <code>p</code>
-with the string <code>r</code>.
-Pushes the resulting string on the stack and returns it.
-
-
-
-
-
-<hr><h3><a name="luaL_len"><code>luaL_len</code></a></h3><p>
-<span class="apii">[-0, +0, <em>e</em>]</span>
-<pre>lua_Integer luaL_len (lua_State *L, int index);</pre>
-
-<p>
-Returns the "length" of the value at the given index
-as a number;
-it is equivalent to the '<code>#</code>' operator in Lua (see <a href="#3.4.7">&sect;3.4.7</a>).
-Raises an error if the result of the operation is not an integer.
-(This case only can happen through metamethods.)
-
-
-
-
-
-<hr><h3><a name="luaL_loadbuffer"><code>luaL_loadbuffer</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>int luaL_loadbuffer (lua_State *L,
-                     const char *buff,
-                     size_t sz,
-                     const char *name);</pre>
-
-<p>
-Equivalent to <a href="#luaL_loadbufferx"><code>luaL_loadbufferx</code></a> with <code>mode</code> equal to <code>NULL</code>.
-
-
-
-
-
-<hr><h3><a name="luaL_loadbufferx"><code>luaL_loadbufferx</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>int luaL_loadbufferx (lua_State *L,
-                      const char *buff,
-                      size_t sz,
-                      const char *name,
-                      const char *mode);</pre>
-
-<p>
-Loads a buffer as a Lua chunk.
-This function uses <a href="#lua_load"><code>lua_load</code></a> to load the chunk in the
-buffer pointed to by <code>buff</code> with size <code>sz</code>.
-
-
-<p>
-This function returns the same results as <a href="#lua_load"><code>lua_load</code></a>.
-<code>name</code> is the chunk name,
-used for debug information and error messages.
-The string <code>mode</code> works as in function <a href="#lua_load"><code>lua_load</code></a>.
-
-
-
-
-
-<hr><h3><a name="luaL_loadfile"><code>luaL_loadfile</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>int luaL_loadfile (lua_State *L, const char *filename);</pre>
-
-<p>
-Equivalent to <a href="#luaL_loadfilex"><code>luaL_loadfilex</code></a> with <code>mode</code> equal to <code>NULL</code>.
-
-
-
-
-
-<hr><h3><a name="luaL_loadfilex"><code>luaL_loadfilex</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>int luaL_loadfilex (lua_State *L, const char *filename,
-                                            const char *mode);</pre>
-
-<p>
-Loads a file as a Lua chunk.
-This function uses <a href="#lua_load"><code>lua_load</code></a> to load the chunk in the file
-named <code>filename</code>.
-If <code>filename</code> is <code>NULL</code>,
-then it loads from the standard input.
-The first line in the file is ignored if it starts with a <code>#</code>.
-
-
-<p>
-The string <code>mode</code> works as in function <a href="#lua_load"><code>lua_load</code></a>.
-
-
-<p>
-This function returns the same results as <a href="#lua_load"><code>lua_load</code></a>,
-but it has an extra error code <a name="pdf-LUA_ERRFILE"><code>LUA_ERRFILE</code></a>
-if it cannot open/read the file or the file has a wrong mode.
-
-
-<p>
-As <a href="#lua_load"><code>lua_load</code></a>, this function only loads the chunk;
-it does not run it.
-
-
-
-
-
-<hr><h3><a name="luaL_loadstring"><code>luaL_loadstring</code></a></h3><p>
-<span class="apii">[-0, +1, &ndash;]</span>
-<pre>int luaL_loadstring (lua_State *L, const char *s);</pre>
-
-<p>
-Loads a string as a Lua chunk.
-This function uses <a href="#lua_load"><code>lua_load</code></a> to load the chunk in
-the zero-terminated string <code>s</code>.
-
-
-<p>
-This function returns the same results as <a href="#lua_load"><code>lua_load</code></a>.
-
-
-<p>
-Also as <a href="#lua_load"><code>lua_load</code></a>, this function only loads the chunk;
-it does not run it.
-
-
-
-
-
-<hr><h3><a name="luaL_newlib"><code>luaL_newlib</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>void luaL_newlib (lua_State *L, const luaL_Reg l[]);</pre>
-
-<p>
-Creates a new table and registers there
-the functions in list <code>l</code>.
-
-
-<p>
-It is implemented as the following macro:
-
-<pre>
-     (luaL_newlibtable(L,l), luaL_setfuncs(L,l,0))
-</pre><p>
-The array <code>l</code> must be the actual array,
-not a pointer to it.
-
-
-
-
-
-<hr><h3><a name="luaL_newlibtable"><code>luaL_newlibtable</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>void luaL_newlibtable (lua_State *L, const luaL_Reg l[]);</pre>
-
-<p>
-Creates a new table with a size optimized
-to store all entries in the array <code>l</code>
-(but does not actually store them).
-It is intended to be used in conjunction with <a href="#luaL_setfuncs"><code>luaL_setfuncs</code></a>
-(see <a href="#luaL_newlib"><code>luaL_newlib</code></a>).
-
-
-<p>
-It is implemented as a macro.
-The array <code>l</code> must be the actual array,
-not a pointer to it.
-
-
-
-
-
-<hr><h3><a name="luaL_newmetatable"><code>luaL_newmetatable</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>int luaL_newmetatable (lua_State *L, const char *tname);</pre>
-
-<p>
-If the registry already has the key <code>tname</code>,
-returns 0.
-Otherwise,
-creates a new table to be used as a metatable for userdata,
-adds to this new table the pair <code>__name = tname</code>,
-adds to the registry the pair <code>[tname] = new table</code>,
-and returns 1.
-(The entry <code>__name</code> is used by some error-reporting functions.)
-
-
-<p>
-In both cases pushes onto the stack the final value associated
-with <code>tname</code> in the registry.
-
-
-
-
-
-<hr><h3><a name="luaL_newstate"><code>luaL_newstate</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>lua_State *luaL_newstate (void);</pre>
-
-<p>
-Creates a new Lua state.
-It calls <a href="#lua_newstate"><code>lua_newstate</code></a> with an
-allocator based on the standard&nbsp;C <code>realloc</code> function
-and then sets a panic function (see <a href="#4.6">&sect;4.6</a>) that prints
-an error message to the standard error output in case of fatal
-errors.
-
-
-<p>
-Returns the new state,
-or <code>NULL</code> if there is a memory allocation error.
-
-
-
-
-
-<hr><h3><a name="luaL_openlibs"><code>luaL_openlibs</code></a></h3><p>
-<span class="apii">[-0, +0, <em>e</em>]</span>
-<pre>void luaL_openlibs (lua_State *L);</pre>
-
-<p>
-Opens all standard Lua libraries into the given state.
-
-
-
-
-
-<hr><h3><a name="luaL_optinteger"><code>luaL_optinteger</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>lua_Integer luaL_optinteger (lua_State *L,
-                             int arg,
-                             lua_Integer d);</pre>
-
-<p>
-If the function argument <code>arg</code> is an integer
-(or convertible to an integer),
-returns this integer.
-If this argument is absent or is <b>nil</b>,
-returns <code>d</code>.
-Otherwise, raises an error.
-
-
-
-
-
-<hr><h3><a name="luaL_optlstring"><code>luaL_optlstring</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>const char *luaL_optlstring (lua_State *L,
-                             int arg,
-                             const char *d,
-                             size_t *l);</pre>
-
-<p>
-If the function argument <code>arg</code> is a string,
-returns this string.
-If this argument is absent or is <b>nil</b>,
-returns <code>d</code>.
-Otherwise, raises an error.
-
-
-<p>
-If <code>l</code> is not <code>NULL</code>,
-fills the position <code>*l</code> with the result's length.
-
-
-
-
-
-<hr><h3><a name="luaL_optnumber"><code>luaL_optnumber</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>lua_Number luaL_optnumber (lua_State *L, int arg, lua_Number d);</pre>
-
-<p>
-If the function argument <code>arg</code> is a number,
-returns this number.
-If this argument is absent or is <b>nil</b>,
-returns <code>d</code>.
-Otherwise, raises an error.
-
-
-
-
-
-<hr><h3><a name="luaL_optstring"><code>luaL_optstring</code></a></h3><p>
-<span class="apii">[-0, +0, <em>v</em>]</span>
-<pre>const char *luaL_optstring (lua_State *L,
-                            int arg,
-                            const char *d);</pre>
-
-<p>
-If the function argument <code>arg</code> is a string,
-returns this string.
-If this argument is absent or is <b>nil</b>,
-returns <code>d</code>.
-Otherwise, raises an error.
-
-
-
-
-
-<hr><h3><a name="luaL_prepbuffer"><code>luaL_prepbuffer</code></a></h3><p>
-<span class="apii">[-?, +?, <em>e</em>]</span>
-<pre>char *luaL_prepbuffer (luaL_Buffer *B);</pre>
-
-<p>
-Equivalent to <a href="#luaL_prepbuffsize"><code>luaL_prepbuffsize</code></a>
-with the predefined size <a name="pdf-LUAL_BUFFERSIZE"><code>LUAL_BUFFERSIZE</code></a>.
-
-
-
-
-
-<hr><h3><a name="luaL_prepbuffsize"><code>luaL_prepbuffsize</code></a></h3><p>
-<span class="apii">[-?, +?, <em>e</em>]</span>
-<pre>char *luaL_prepbuffsize (luaL_Buffer *B, size_t sz);</pre>
-
-<p>
-Returns an address to a space of size <code>sz</code>
-where you can copy a string to be added to buffer <code>B</code>
-(see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>).
-After copying the string into this space you must call
-<a href="#luaL_addsize"><code>luaL_addsize</code></a> with the size of the string to actually add
-it to the buffer.
-
-
-
-
-
-<hr><h3><a name="luaL_pushresult"><code>luaL_pushresult</code></a></h3><p>
-<span class="apii">[-?, +1, <em>e</em>]</span>
-<pre>void luaL_pushresult (luaL_Buffer *B);</pre>
-
-<p>
-Finishes the use of buffer <code>B</code> leaving the final string on
-the top of the stack.
-
-
-
-
-
-<hr><h3><a name="luaL_pushresultsize"><code>luaL_pushresultsize</code></a></h3><p>
-<span class="apii">[-?, +1, <em>e</em>]</span>
-<pre>void luaL_pushresultsize (luaL_Buffer *B, size_t sz);</pre>
-
-<p>
-Equivalent to the sequence <a href="#luaL_addsize"><code>luaL_addsize</code></a>, <a href="#luaL_pushresult"><code>luaL_pushresult</code></a>.
-
-
-
-
-
-<hr><h3><a name="luaL_ref"><code>luaL_ref</code></a></h3><p>
-<span class="apii">[-1, +0, <em>e</em>]</span>
-<pre>int luaL_ref (lua_State *L, int t);</pre>
-
-<p>
-Creates and returns a <em>reference</em>,
-in the table at index <code>t</code>,
-for the object at the top of the stack (and pops the object).
-
-
-<p>
-A reference is a unique integer key.
-As long as you do not manually add integer keys into table <code>t</code>,
-<a href="#luaL_ref"><code>luaL_ref</code></a> ensures the uniqueness of the key it returns.
-You can retrieve an object referred by reference <code>r</code>
-by calling <code>lua_rawgeti(L, t, r)</code>.
-Function <a href="#luaL_unref"><code>luaL_unref</code></a> frees a reference and its associated object.
-
-
-<p>
-If the object at the top of the stack is <b>nil</b>,
-<a href="#luaL_ref"><code>luaL_ref</code></a> returns the constant <a name="pdf-LUA_REFNIL"><code>LUA_REFNIL</code></a>.
-The constant <a name="pdf-LUA_NOREF"><code>LUA_NOREF</code></a> is guaranteed to be different
-from any reference returned by <a href="#luaL_ref"><code>luaL_ref</code></a>.
-
-
-
-
-
-<hr><h3><a name="luaL_Reg"><code>luaL_Reg</code></a></h3>
-<pre>typedef struct luaL_Reg {
-  const char *name;
-  lua_CFunction func;
-} luaL_Reg;</pre>
-
-<p>
-Type for arrays of functions to be registered by
-<a href="#luaL_setfuncs"><code>luaL_setfuncs</code></a>.
-<code>name</code> is the function name and <code>func</code> is a pointer to
-the function.
-Any array of <a href="#luaL_Reg"><code>luaL_Reg</code></a> must end with a sentinel entry
-in which both <code>name</code> and <code>func</code> are <code>NULL</code>.
-
-
-
-
-
-<hr><h3><a name="luaL_requiref"><code>luaL_requiref</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>void luaL_requiref (lua_State *L, const char *modname,
-                    lua_CFunction openf, int glb);</pre>
-
-<p>
-If <code>modname</code> is not already present in <a href="#pdf-package.loaded"><code>package.loaded</code></a>,
-calls function <code>openf</code> with string <code>modname</code> as an argument
-and sets the call result in <code>package.loaded[modname]</code>,
-as if that function has been called through <a href="#pdf-require"><code>require</code></a>.
-
-
-<p>
-If <code>glb</code> is true,
-also stores the module into global <code>modname</code>.
-
-
-<p>
-Leaves a copy of the module on the stack.
-
-
-
-
-
-<hr><h3><a name="luaL_setfuncs"><code>luaL_setfuncs</code></a></h3><p>
-<span class="apii">[-nup, +0, <em>e</em>]</span>
-<pre>void luaL_setfuncs (lua_State *L, const luaL_Reg *l, int nup);</pre>
-
-<p>
-Registers all functions in the array <code>l</code>
-(see <a href="#luaL_Reg"><code>luaL_Reg</code></a>) into the table on the top of the stack
-(below optional upvalues, see next).
-
-
-<p>
-When <code>nup</code> is not zero,
-all functions are created sharing <code>nup</code> upvalues,
-which must be previously pushed on the stack
-on top of the library table.
-These values are popped from the stack after the registration.
-
-
-
-
-
-<hr><h3><a name="luaL_setmetatable"><code>luaL_setmetatable</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void luaL_setmetatable (lua_State *L, const char *tname);</pre>
-
-<p>
-Sets the metatable of the object at the top of the stack
-as the metatable associated with name <code>tname</code>
-in the registry (see <a href="#luaL_newmetatable"><code>luaL_newmetatable</code></a>).
-
-
-
-
-
-<hr><h3><a name="luaL_Stream"><code>luaL_Stream</code></a></h3>
-<pre>typedef struct luaL_Stream {
-  FILE *f;
-  lua_CFunction closef;
-} luaL_Stream;</pre>
-
-<p>
-The standard representation for file handles,
-which is used by the standard I/O library.
-
-
-<p>
-A file handle is implemented as a full userdata,
-with a metatable called <code>LUA_FILEHANDLE</code>
-(where <code>LUA_FILEHANDLE</code> is a macro with the actual metatable's name).
-The metatable is created by the I/O library
-(see <a href="#luaL_newmetatable"><code>luaL_newmetatable</code></a>).
-
-
-<p>
-This userdata must start with the structure <code>luaL_Stream</code>;
-it can contain other data after this initial structure.
-Field <code>f</code> points to the corresponding C stream
-(or it can be <code>NULL</code> to indicate an incompletely created handle).
-Field <code>closef</code> points to a Lua function
-that will be called to close the stream
-when the handle is closed or collected;
-this function receives the file handle as its sole argument and
-must return either <b>true</b> (in case of success)
-or <b>nil</b> plus an error message (in case of error).
-Once Lua calls this field,
-the field value is changed to <code>NULL</code>
-to signal that the handle is closed.
-
-
-
-
-
-<hr><h3><a name="luaL_testudata"><code>luaL_testudata</code></a></h3><p>
-<span class="apii">[-0, +0, <em>e</em>]</span>
-<pre>void *luaL_testudata (lua_State *L, int arg, const char *tname);</pre>
-
-<p>
-This function works like <a href="#luaL_checkudata"><code>luaL_checkudata</code></a>,
-except that, when the test fails,
-it returns <code>NULL</code> instead of raising an error.
-
-
-
-
-
-<hr><h3><a name="luaL_tolstring"><code>luaL_tolstring</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>const char *luaL_tolstring (lua_State *L, int idx, size_t *len);</pre>
-
-<p>
-Converts any Lua value at the given index to a C&nbsp;string
-in a reasonable format.
-The resulting string is pushed onto the stack and also
-returned by the function.
-If <code>len</code> is not <code>NULL</code>,
-the function also sets <code>*len</code> with the string length.
-
-
-<p>
-If the value has a metatable with a <code>"__tostring"</code> field,
-then <code>luaL_tolstring</code> calls the corresponding metamethod
-with the value as argument,
-and uses the result of the call as its result.
-
-
-
-
-
-<hr><h3><a name="luaL_traceback"><code>luaL_traceback</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>void luaL_traceback (lua_State *L, lua_State *L1, const char *msg,
-                     int level);</pre>
-
-<p>
-Creates and pushes a traceback of the stack <code>L1</code>.
-If <code>msg</code> is not <code>NULL</code> it is appended
-at the beginning of the traceback.
-The <code>level</code> parameter tells at which level
-to start the traceback.
-
-
-
-
-
-<hr><h3><a name="luaL_typename"><code>luaL_typename</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>const char *luaL_typename (lua_State *L, int index);</pre>
-
-<p>
-Returns the name of the type of the value at the given index.
-
-
-
-
-
-<hr><h3><a name="luaL_unref"><code>luaL_unref</code></a></h3><p>
-<span class="apii">[-0, +0, &ndash;]</span>
-<pre>void luaL_unref (lua_State *L, int t, int ref);</pre>
-
-<p>
-Releases reference <code>ref</code> from the table at index <code>t</code>
-(see <a href="#luaL_ref"><code>luaL_ref</code></a>).
-The entry is removed from the table,
-so that the referred object can be collected.
-The reference <code>ref</code> is also freed to be used again.
-
-
-<p>
-If <code>ref</code> is <a href="#pdf-LUA_NOREF"><code>LUA_NOREF</code></a> or <a href="#pdf-LUA_REFNIL"><code>LUA_REFNIL</code></a>,
-<a href="#luaL_unref"><code>luaL_unref</code></a> does nothing.
-
-
-
-
-
-<hr><h3><a name="luaL_where"><code>luaL_where</code></a></h3><p>
-<span class="apii">[-0, +1, <em>e</em>]</span>
-<pre>void luaL_where (lua_State *L, int lvl);</pre>
-
-<p>
-Pushes onto the stack a string identifying the current position
-of the control at level <code>lvl</code> in the call stack.
-Typically this string has the following format:
-
-<pre>
-     <em>chunkname</em>:<em>currentline</em>:
-</pre><p>
-Level&nbsp;0 is the running function,
-level&nbsp;1 is the function that called the running function,
-etc.
-
-
-<p>
-This function is used to build a prefix for error messages.
-
-
-
-
-
-
-
-<h1>6 &ndash; <a name="6">Standard Libraries</a></h1>
-
-<p>
-The standard Lua libraries provide useful functions
-that are implemented directly through the C&nbsp;API.
-Some of these functions provide essential services to the language
-(e.g., <a href="#pdf-type"><code>type</code></a> and <a href="#pdf-getmetatable"><code>getmetatable</code></a>);
-others provide access to "outside" services (e.g., I/O);
-and others could be implemented in Lua itself,
-but are quite useful or have critical performance requirements that
-deserve an implementation in C (e.g., <a href="#pdf-table.sort"><code>table.sort</code></a>).
-
-
-<p>
-All libraries are implemented through the official C&nbsp;API
-and are provided as separate C&nbsp;modules.
-Currently, Lua has the following standard libraries:
-
-<ul>
-
-<li>basic library (<a href="#6.1">&sect;6.1</a>);</li>
-
-<li>coroutine library (<a href="#6.2">&sect;6.2</a>);</li>
-
-<li>package library (<a href="#6.3">&sect;6.3</a>);</li>
-
-<li>string manipulation (<a href="#6.4">&sect;6.4</a>);</li>
-
-<li>basic UTF-8 support (<a href="#6.5">&sect;6.5</a>);</li>
-
-<li>table manipulation (<a href="#6.6">&sect;6.6</a>);</li>
-
-<li>mathematical functions (<a href="#6.7">&sect;6.7</a>) (sin, log, etc.);</li>
-
-<li>input and output (<a href="#6.8">&sect;6.8</a>);</li>
-
-<li>operating system facilities (<a href="#6.9">&sect;6.9</a>);</li>
-
-<li>debug facilities (<a href="#6.10">&sect;6.10</a>).</li>
-
-</ul><p>
-Except for the basic and the package libraries,
-each library provides all its functions as fields of a global table
-or as methods of its objects.
-
-
-<p>
-To have access to these libraries,
-the C&nbsp;host program should call the <a href="#luaL_openlibs"><code>luaL_openlibs</code></a> function,
-which opens all standard libraries.
-Alternatively,
-the host program can open them individually by using
-<a href="#luaL_requiref"><code>luaL_requiref</code></a> to call
-<a name="pdf-luaopen_base"><code>luaopen_base</code></a> (for the basic library),
-<a name="pdf-luaopen_package"><code>luaopen_package</code></a> (for the package library),
-<a name="pdf-luaopen_coroutine"><code>luaopen_coroutine</code></a> (for the coroutine library),
-<a name="pdf-luaopen_string"><code>luaopen_string</code></a> (for the string library),
-<a name="pdf-luaopen_utf8"><code>luaopen_utf8</code></a> (for the UTF8 library),
-<a name="pdf-luaopen_table"><code>luaopen_table</code></a> (for the table library),
-<a name="pdf-luaopen_math"><code>luaopen_math</code></a> (for the mathematical library),
-<a name="pdf-luaopen_io"><code>luaopen_io</code></a> (for the I/O library),
-<a name="pdf-luaopen_os"><code>luaopen_os</code></a> (for the operating system library),
-and <a name="pdf-luaopen_debug"><code>luaopen_debug</code></a> (for the debug library).
-These functions are declared in <a name="pdf-lualib.h"><code>lualib.h</code></a>.
-
-
-
-<h2>6.1 &ndash; <a name="6.1">Basic Functions</a></h2>
-
-<p>
-The basic library provides core functions to Lua.
-If you do not include this library in your application,
-you should check carefully whether you need to provide
-implementations for some of its facilities.
-
-
-<p>
-<hr><h3><a name="pdf-assert"><code>assert (v [, message])</code></a></h3>
-
-
-<p>
-Calls <a href="#pdf-error"><code>error</code></a> if
-the value of its argument <code>v</code> is false (i.e., <b>nil</b> or <b>false</b>);
-otherwise, returns all its arguments.
-In case of error,
-<code>message</code> is the error object;
-when absent, it defaults to "<code>assertion failed!</code>"
-
-
-
-
-<p>
-<hr><h3><a name="pdf-collectgarbage"><code>collectgarbage ([opt [, arg]])</code></a></h3>
-
-
-<p>
-This function is a generic interface to the garbage collector.
-It performs different functions according to its first argument, <code>opt</code>:
-
-<ul>
-
-<li><b>"<code>collect</code>": </b>
-performs a full garbage-collection cycle.
-This is the default option.
-</li>
-
-<li><b>"<code>stop</code>": </b>
-stops automatic execution of the garbage collector.
-The collector will run only when explicitly invoked,
-until a call to restart it.
-</li>
-
-<li><b>"<code>restart</code>": </b>
-restarts automatic execution of the garbage collector.
-</li>
-
-<li><b>"<code>count</code>": </b>
-returns the total memory in use by Lua in Kbytes.
-The value has a fractional part,
-so that it multiplied by 1024
-gives the exact number of bytes in use by Lua
-(except for overflows).
-</li>
-
-<li><b>"<code>step</code>": </b>
-performs a garbage-collection step.
-The step "size" is controlled by <code>arg</code>.
-With a zero value,
-the collector will perform one basic (indivisible) step.
-For non-zero values,
-the collector will perform as if that amount of memory
-(in KBytes) had been allocated by Lua.
-Returns <b>true</b> if the step finished a collection cycle.
-</li>
-
-<li><b>"<code>setpause</code>": </b>
-sets <code>arg</code> as the new value for the <em>pause</em> of
-the collector (see <a href="#2.5">&sect;2.5</a>).
-Returns the previous value for <em>pause</em>.
-</li>
-
-<li><b>"<code>setstepmul</code>": </b>
-sets <code>arg</code> as the new value for the <em>step multiplier</em> of
-the collector (see <a href="#2.5">&sect;2.5</a>).
-Returns the previous value for <em>step</em>.
-</li>
-
-<li><b>"<code>isrunning</code>": </b>
-returns a boolean that tells whether the collector is running
-(i.e., not stopped).
-</li>
-
-</ul>
-
-
-
-<p>
-<hr><h3><a name="pdf-dofile"><code>dofile ([filename])</code></a></h3>
-Opens the named file and executes its contents as a Lua chunk.
-When called without arguments,
-<code>dofile</code> executes the contents of the standard input (<code>stdin</code>).
-Returns all values returned by the chunk.
-In case of errors, <code>dofile</code> propagates the error
-to its caller (that is, <code>dofile</code> does not run in protected mode).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-error"><code>error (message [, level])</code></a></h3>
-Terminates the last protected function called
-and returns <code>message</code> as the error object.
-Function <code>error</code> never returns.
-
-
-<p>
-Usually, <code>error</code> adds some information about the error position
-at the beginning of the message, if the message is a string.
-The <code>level</code> argument specifies how to get the error position.
-With level&nbsp;1 (the default), the error position is where the
-<code>error</code> function was called.
-Level&nbsp;2 points the error to where the function
-that called <code>error</code> was called; and so on.
-Passing a level&nbsp;0 avoids the addition of error position information
-to the message.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-_G"><code>_G</code></a></h3>
-A global variable (not a function) that
-holds the global environment (see <a href="#2.2">&sect;2.2</a>).
-Lua itself does not use this variable;
-changing its value does not affect any environment,
-nor vice versa.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-getmetatable"><code>getmetatable (object)</code></a></h3>
-
-
-<p>
-If <code>object</code> does not have a metatable, returns <b>nil</b>.
-Otherwise,
-if the object's metatable has a <code>"__metatable"</code> field,
-returns the associated value.
-Otherwise, returns the metatable of the given object.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-ipairs"><code>ipairs (t)</code></a></h3>
-
-
-<p>
-Returns three values (an iterator function, the table <code>t</code>, and 0)
-so that the construction
-
-<pre>
-     for i,v in ipairs(t) do <em>body</em> end
-</pre><p>
-will iterate over the key&ndash;value pairs
-(<code>1,t[1]</code>), (<code>2,t[2]</code>), ...,
-up to the first nil value.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-load"><code>load (chunk [, chunkname [, mode [, env]]])</code></a></h3>
-
-
-<p>
-Loads a chunk.
-
-
-<p>
-If <code>chunk</code> is a string, the chunk is this string.
-If <code>chunk</code> is a function,
-<code>load</code> calls it repeatedly to get the chunk pieces.
-Each call to <code>chunk</code> must return a string that concatenates
-with previous results.
-A return of an empty string, <b>nil</b>, or no value signals the end of the chunk.
-
-
-<p>
-If there are no syntactic errors,
-returns the compiled chunk as a function;
-otherwise, returns <b>nil</b> plus the error message.
-
-
-<p>
-If the resulting function has upvalues,
-the first upvalue is set to the value of <code>env</code>,
-if that parameter is given,
-or to the value of the global environment.
-Other upvalues are initialized with <b>nil</b>.
-(When you load a main chunk,
-the resulting function will always have exactly one upvalue,
-the <code>_ENV</code> variable (see <a href="#2.2">&sect;2.2</a>).
-However,
-when you load a binary chunk created from a function (see <a href="#pdf-string.dump"><code>string.dump</code></a>),
-the resulting function can have an arbitrary number of upvalues.)
-All upvalues are fresh, that is,
-they are not shared with any other function.
-
-
-<p>
-<code>chunkname</code> is used as the name of the chunk for error messages
-and debug information (see <a href="#4.9">&sect;4.9</a>).
-When absent,
-it defaults to <code>chunk</code>, if <code>chunk</code> is a string,
-or to "<code>=(load)</code>" otherwise.
-
-
-<p>
-The string <code>mode</code> controls whether the chunk can be text or binary
-(that is, a precompiled chunk).
-It may be the string "<code>b</code>" (only binary chunks),
-"<code>t</code>" (only text chunks),
-or "<code>bt</code>" (both binary and text).
-The default is "<code>bt</code>".
-
-
-<p>
-Lua does not check the consistency of binary chunks.
-Maliciously crafted binary chunks can crash
-the interpreter.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-loadfile"><code>loadfile ([filename [, mode [, env]]])</code></a></h3>
-
-
-<p>
-Similar to <a href="#pdf-load"><code>load</code></a>,
-but gets the chunk from file <code>filename</code>
-or from the standard input,
-if no file name is given.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-next"><code>next (table [, index])</code></a></h3>
-
-
-<p>
-Allows a program to traverse all fields of a table.
-Its first argument is a table and its second argument
-is an index in this table.
-<code>next</code> returns the next index of the table
-and its associated value.
-When called with <b>nil</b> as its second argument,
-<code>next</code> returns an initial index
-and its associated value.
-When called with the last index,
-or with <b>nil</b> in an empty table,
-<code>next</code> returns <b>nil</b>.
-If the second argument is absent, then it is interpreted as <b>nil</b>.
-In particular,
-you can use <code>next(t)</code> to check whether a table is empty.
-
-
-<p>
-The order in which the indices are enumerated is not specified,
-<em>even for numeric indices</em>.
-(To traverse a table in numeric order,
-use a numerical <b>for</b>.)
-
-
-<p>
-The behavior of <code>next</code> is undefined if,
-during the traversal,
-you assign any value to a non-existent field in the table.
-You may however modify existing fields.
-In particular, you may clear existing fields.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-pairs"><code>pairs (t)</code></a></h3>
-
-
-<p>
-If <code>t</code> has a metamethod <code>__pairs</code>,
-calls it with <code>t</code> as argument and returns the first three
-results from the call.
-
-
-<p>
-Otherwise,
-returns three values: the <a href="#pdf-next"><code>next</code></a> function, the table <code>t</code>, and <b>nil</b>,
-so that the construction
-
-<pre>
-     for k,v in pairs(t) do <em>body</em> end
-</pre><p>
-will iterate over all key&ndash;value pairs of table <code>t</code>.
-
-
-<p>
-See function <a href="#pdf-next"><code>next</code></a> for the caveats of modifying
-the table during its traversal.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-pcall"><code>pcall (f [, arg1, &middot;&middot;&middot;])</code></a></h3>
-
-
-<p>
-Calls function <code>f</code> with
-the given arguments in <em>protected mode</em>.
-This means that any error inside&nbsp;<code>f</code> is not propagated;
-instead, <code>pcall</code> catches the error
-and returns a status code.
-Its first result is the status code (a boolean),
-which is true if the call succeeds without errors.
-In such case, <code>pcall</code> also returns all results from the call,
-after this first result.
-In case of any error, <code>pcall</code> returns <b>false</b> plus the error message.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-print"><code>print (&middot;&middot;&middot;)</code></a></h3>
-Receives any number of arguments
-and prints their values to <code>stdout</code>,
-using the <a href="#pdf-tostring"><code>tostring</code></a> function to convert each argument to a string.
-<code>print</code> is not intended for formatted output,
-but only as a quick way to show a value,
-for instance for debugging.
-For complete control over the output,
-use <a href="#pdf-string.format"><code>string.format</code></a> and <a href="#pdf-io.write"><code>io.write</code></a>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-rawequal"><code>rawequal (v1, v2)</code></a></h3>
-Checks whether <code>v1</code> is equal to <code>v2</code>,
-without invoking any metamethod.
-Returns a boolean.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-rawget"><code>rawget (table, index)</code></a></h3>
-Gets the real value of <code>table[index]</code>,
-without invoking any metamethod.
-<code>table</code> must be a table;
-<code>index</code> may be any value.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-rawlen"><code>rawlen (v)</code></a></h3>
-Returns the length of the object <code>v</code>,
-which must be a table or a string,
-without invoking any metamethod.
-Returns an integer.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-rawset"><code>rawset (table, index, value)</code></a></h3>
-Sets the real value of <code>table[index]</code> to <code>value</code>,
-without invoking any metamethod.
-<code>table</code> must be a table,
-<code>index</code> any value different from <b>nil</b> and NaN,
-and <code>value</code> any Lua value.
-
-
-<p>
-This function returns <code>table</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-select"><code>select (index, &middot;&middot;&middot;)</code></a></h3>
-
-
-<p>
-If <code>index</code> is a number,
-returns all arguments after argument number <code>index</code>;
-a negative number indexes from the end (-1 is the last argument).
-Otherwise, <code>index</code> must be the string <code>"#"</code>,
-and <code>select</code> returns the total number of extra arguments it received.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-setmetatable"><code>setmetatable (table, metatable)</code></a></h3>
-
-
-<p>
-Sets the metatable for the given table.
-(You cannot change the metatable of other types from Lua, only from&nbsp;C.)
-If <code>metatable</code> is <b>nil</b>,
-removes the metatable of the given table.
-If the original metatable has a <code>"__metatable"</code> field,
-raises an error.
-
-
-<p>
-This function returns <code>table</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-tonumber"><code>tonumber (e [, base])</code></a></h3>
-
-
-<p>
-When called with no <code>base</code>,
-<code>tonumber</code> tries to convert its argument to a number.
-If the argument is already a number or
-a string convertible to a number,
-then <code>tonumber</code> returns this number;
-otherwise, it returns <b>nil</b>.
-
-
-<p>
-The conversion of strings can result in integers or floats,
-according to the lexical conventions of Lua (see <a href="#3.1">&sect;3.1</a>).
-(The string may have leading and trailing spaces and a sign.)
-
-
-<p>
-When called with <code>base</code>,
-then <code>e</code> must be a string to be interpreted as
-an integer numeral in that base.
-The base may be any integer between 2 and 36, inclusive.
-In bases above&nbsp;10, the letter '<code>A</code>' (in either upper or lower case)
-represents&nbsp;10, '<code>B</code>' represents&nbsp;11, and so forth,
-with '<code>Z</code>' representing 35.
-If the string <code>e</code> is not a valid numeral in the given base,
-the function returns <b>nil</b>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-tostring"><code>tostring (v)</code></a></h3>
-Receives a value of any type and
-converts it to a string in a human-readable format.
-Floats always produce strings with some
-floating-point indication (either a decimal dot or an exponent).
-(For complete control of how numbers are converted,
-use <a href="#pdf-string.format"><code>string.format</code></a>.)
-
-
-<p>
-If the metatable of <code>v</code> has a <code>"__tostring"</code> field,
-then <code>tostring</code> calls the corresponding value
-with <code>v</code> as argument,
-and uses the result of the call as its result.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-type"><code>type (v)</code></a></h3>
-Returns the type of its only argument, coded as a string.
-The possible results of this function are
-"<code>nil</code>" (a string, not the value <b>nil</b>),
-"<code>number</code>",
-"<code>string</code>",
-"<code>boolean</code>",
-"<code>table</code>",
-"<code>function</code>",
-"<code>thread</code>",
-and "<code>userdata</code>".
-
-
-
-
-<p>
-<hr><h3><a name="pdf-_VERSION"><code>_VERSION</code></a></h3>
-A global variable (not a function) that
-holds a string containing the current interpreter version.
-The current value of this variable is "<code>Lua 5.3</code>".
-
-
-
-
-<p>
-<hr><h3><a name="pdf-xpcall"><code>xpcall (f, msgh [, arg1, &middot;&middot;&middot;])</code></a></h3>
-
-
-<p>
-This function is similar to <a href="#pdf-pcall"><code>pcall</code></a>,
-except that it sets a new message handler <code>msgh</code>.
-
-
-
-
-
-
-
-<h2>6.2 &ndash; <a name="6.2">Coroutine Manipulation</a></h2>
-
-<p>
-The operations related to coroutines comprise a sub-library of
-the basic library and come inside the table <a name="pdf-coroutine"><code>coroutine</code></a>.
-See <a href="#2.6">&sect;2.6</a> for a general description of coroutines.
-
-
-<p>
-<hr><h3><a name="pdf-coroutine.create"><code>coroutine.create (f)</code></a></h3>
-
-
-<p>
-Creates a new coroutine, with body <code>f</code>.
-<code>f</code> must be a Lua function.
-Returns this new coroutine,
-an object with type <code>"thread"</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-coroutine.isyieldable"><code>coroutine.isyieldable ()</code></a></h3>
-
-
-<p>
-Returns true when the running coroutine can yield.
-
-
-<p>
-A running coroutine is yieldable if it is not the main thread and
-it is not inside a non-yieldable C function.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-coroutine.resume"><code>coroutine.resume (co [, val1, &middot;&middot;&middot;])</code></a></h3>
-
-
-<p>
-Starts or continues the execution of coroutine <code>co</code>.
-The first time you resume a coroutine,
-it starts running its body.
-The values <code>val1</code>, ... are passed
-as the arguments to the body function.
-If the coroutine has yielded,
-<code>resume</code> restarts it;
-the values <code>val1</code>, ... are passed
-as the results from the yield.
-
-
-<p>
-If the coroutine runs without any errors,
-<code>resume</code> returns <b>true</b> plus any values passed to <code>yield</code>
-(when the coroutine yields) or any values returned by the body function
-(when the coroutine terminates).
-If there is any error,
-<code>resume</code> returns <b>false</b> plus the error message.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-coroutine.running"><code>coroutine.running ()</code></a></h3>
-
-
-<p>
-Returns the running coroutine plus a boolean,
-true when the running coroutine is the main one.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-coroutine.status"><code>coroutine.status (co)</code></a></h3>
-
-
-<p>
-Returns the status of coroutine <code>co</code>, as a string:
-<code>"running"</code>,
-if the coroutine is running (that is, it called <code>status</code>);
-<code>"suspended"</code>, if the coroutine is suspended in a call to <code>yield</code>,
-or if it has not started running yet;
-<code>"normal"</code> if the coroutine is active but not running
-(that is, it has resumed another coroutine);
-and <code>"dead"</code> if the coroutine has finished its body function,
-or if it has stopped with an error.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-coroutine.wrap"><code>coroutine.wrap (f)</code></a></h3>
-
-
-<p>
-Creates a new coroutine, with body <code>f</code>.
-<code>f</code> must be a Lua function.
-Returns a function that resumes the coroutine each time it is called.
-Any arguments passed to the function behave as the
-extra arguments to <code>resume</code>.
-Returns the same values returned by <code>resume</code>,
-except the first boolean.
-In case of error, propagates the error.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-coroutine.yield"><code>coroutine.yield (&middot;&middot;&middot;)</code></a></h3>
-
-
-<p>
-Suspends the execution of the calling coroutine.
-Any arguments to <code>yield</code> are passed as extra results to <code>resume</code>.
-
-
-
-
-
-
-
-<h2>6.3 &ndash; <a name="6.3">Modules</a></h2>
-
-<p>
-The package library provides basic
-facilities for loading modules in Lua.
-It exports one function directly in the global environment:
-<a href="#pdf-require"><code>require</code></a>.
-Everything else is exported in a table <a name="pdf-package"><code>package</code></a>.
-
-
-<p>
-<hr><h3><a name="pdf-require"><code>require (modname)</code></a></h3>
-
-
-<p>
-Loads the given module.
-The function starts by looking into the <a href="#pdf-package.loaded"><code>package.loaded</code></a> table
-to determine whether <code>modname</code> is already loaded.
-If it is, then <code>require</code> returns the value stored
-at <code>package.loaded[modname]</code>.
-Otherwise, it tries to find a <em>loader</em> for the module.
-
-
-<p>
-To find a loader,
-<code>require</code> is guided by the <a href="#pdf-package.searchers"><code>package.searchers</code></a> sequence.
-By changing this sequence,
-we can change how <code>require</code> looks for a module.
-The following explanation is based on the default configuration
-for <a href="#pdf-package.searchers"><code>package.searchers</code></a>.
-
-
-<p>
-First <code>require</code> queries <code>package.preload[modname]</code>.
-If it has a value,
-this value (which must be a function) is the loader.
-Otherwise <code>require</code> searches for a Lua loader using the
-path stored in <a href="#pdf-package.path"><code>package.path</code></a>.
-If that also fails, it searches for a C&nbsp;loader using the
-path stored in <a href="#pdf-package.cpath"><code>package.cpath</code></a>.
-If that also fails,
-it tries an <em>all-in-one</em> loader (see <a href="#pdf-package.searchers"><code>package.searchers</code></a>).
-
-
-<p>
-Once a loader is found,
-<code>require</code> calls the loader with two arguments:
-<code>modname</code> and an extra value dependent on how it got the loader.
-(If the loader came from a file,
-this extra value is the file name.)
-If the loader returns any non-nil value,
-<code>require</code> assigns the returned value to <code>package.loaded[modname]</code>.
-If the loader does not return a non-nil value and
-has not assigned any value to <code>package.loaded[modname]</code>,
-then <code>require</code> assigns <b>true</b> to this entry.
-In any case, <code>require</code> returns the
-final value of <code>package.loaded[modname]</code>.
-
-
-<p>
-If there is any error loading or running the module,
-or if it cannot find any loader for the module,
-then <code>require</code> raises an error.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-package.config"><code>package.config</code></a></h3>
-
-
-<p>
-A string describing some compile-time configurations for packages.
-This string is a sequence of lines:
-
-<ul>
-
-<li>The first line is the directory separator string.
-Default is '<code>\</code>' for Windows and '<code>/</code>' for all other systems.</li>
-
-<li>The second line is the character that separates templates in a path.
-Default is '<code>;</code>'.</li>
-
-<li>The third line is the string that marks the
-substitution points in a template.
-Default is '<code>?</code>'.</li>
-
-<li>The fourth line is a string that, in a path in Windows,
-is replaced by the executable's directory.
-Default is '<code>!</code>'.</li>
-
-<li>The fifth line is a mark to ignore all text after it
-when building the <code>luaopen_</code> function name.
-Default is '<code>-</code>'.</li>
-
-</ul>
-
-
-
-<p>
-<hr><h3><a name="pdf-package.cpath"><code>package.cpath</code></a></h3>
-
-
-<p>
-The path used by <a href="#pdf-require"><code>require</code></a> to search for a C&nbsp;loader.
-
-
-<p>
-Lua initializes the C&nbsp;path <a href="#pdf-package.cpath"><code>package.cpath</code></a> in the same way
-it initializes the Lua path <a href="#pdf-package.path"><code>package.path</code></a>,
-using the environment variable <a name="pdf-LUA_CPATH_5_3"><code>LUA_CPATH_5_3</code></a>
-or the environment variable <a name="pdf-LUA_CPATH"><code>LUA_CPATH</code></a>
-or a default path defined in <code>luaconf.h</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-package.loaded"><code>package.loaded</code></a></h3>
-
-
-<p>
-A table used by <a href="#pdf-require"><code>require</code></a> to control which
-modules are already loaded.
-When you require a module <code>modname</code> and
-<code>package.loaded[modname]</code> is not false,
-<a href="#pdf-require"><code>require</code></a> simply returns the value stored there.
-
-
-<p>
-This variable is only a reference to the real table;
-assignments to this variable do not change the
-table used by <a href="#pdf-require"><code>require</code></a>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-package.loadlib"><code>package.loadlib (libname, funcname)</code></a></h3>
-
-
-<p>
-Dynamically links the host program with the C&nbsp;library <code>libname</code>.
-
-
-<p>
-If <code>funcname</code> is "<code>*</code>",
-then it only links with the library,
-making the symbols exported by the library
-available to other dynamically linked libraries.
-Otherwise,
-it looks for a function <code>funcname</code> inside the library
-and returns this function as a C&nbsp;function.
-So, <code>funcname</code> must follow the <a href="#lua_CFunction"><code>lua_CFunction</code></a> prototype
-(see <a href="#lua_CFunction"><code>lua_CFunction</code></a>).
-
-
-<p>
-This is a low-level function.
-It completely bypasses the package and module system.
-Unlike <a href="#pdf-require"><code>require</code></a>,
-it does not perform any path searching and
-does not automatically adds extensions.
-<code>libname</code> must be the complete file name of the C&nbsp;library,
-including if necessary a path and an extension.
-<code>funcname</code> must be the exact name exported by the C&nbsp;library
-(which may depend on the C&nbsp;compiler and linker used).
-
-
-<p>
-This function is not supported by Standard&nbsp;C.
-As such, it is only available on some platforms
-(Windows, Linux, Mac OS X, Solaris, BSD,
-plus other Unix systems that support the <code>dlfcn</code> standard).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-package.path"><code>package.path</code></a></h3>
-
-
-<p>
-The path used by <a href="#pdf-require"><code>require</code></a> to search for a Lua loader.
-
-
-<p>
-At start-up, Lua initializes this variable with
-the value of the environment variable <a name="pdf-LUA_PATH_5_3"><code>LUA_PATH_5_3</code></a> or
-the environment variable <a name="pdf-LUA_PATH"><code>LUA_PATH</code></a> or
-with a default path defined in <code>luaconf.h</code>,
-if those environment variables are not defined.
-Any "<code>;;</code>" in the value of the environment variable
-is replaced by the default path.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-package.preload"><code>package.preload</code></a></h3>
-
-
-<p>
-A table to store loaders for specific modules
-(see <a href="#pdf-require"><code>require</code></a>).
-
-
-<p>
-This variable is only a reference to the real table;
-assignments to this variable do not change the
-table used by <a href="#pdf-require"><code>require</code></a>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-package.searchers"><code>package.searchers</code></a></h3>
-
-
-<p>
-A table used by <a href="#pdf-require"><code>require</code></a> to control how to load modules.
-
-
-<p>
-Each entry in this table is a <em>searcher function</em>.
-When looking for a module,
-<a href="#pdf-require"><code>require</code></a> calls each of these searchers in ascending order,
-with the module name (the argument given to <a href="#pdf-require"><code>require</code></a>) as its
-sole parameter.
-The function can return another function (the module <em>loader</em>)
-plus an extra value that will be passed to that loader,
-or a string explaining why it did not find that module
-(or <b>nil</b> if it has nothing to say).
-
-
-<p>
-Lua initializes this table with four searcher functions.
-
-
-<p>
-The first searcher simply looks for a loader in the
-<a href="#pdf-package.preload"><code>package.preload</code></a> table.
-
-
-<p>
-The second searcher looks for a loader as a Lua library,
-using the path stored at <a href="#pdf-package.path"><code>package.path</code></a>.
-The search is done as described in function <a href="#pdf-package.searchpath"><code>package.searchpath</code></a>.
-
-
-<p>
-The third searcher looks for a loader as a C&nbsp;library,
-using the path given by the variable <a href="#pdf-package.cpath"><code>package.cpath</code></a>.
-Again,
-the search is done as described in function <a href="#pdf-package.searchpath"><code>package.searchpath</code></a>.
-For instance,
-if the C&nbsp;path is the string
-
-<pre>
-     "./?.so;./?.dll;/usr/local/?/init.so"
-</pre><p>
-the searcher for module <code>foo</code>
-will try to open the files <code>./foo.so</code>, <code>./foo.dll</code>,
-and <code>/usr/local/foo/init.so</code>, in that order.
-Once it finds a C&nbsp;library,
-this searcher first uses a dynamic link facility to link the
-application with the library.
-Then it tries to find a C&nbsp;function inside the library to
-be used as the loader.
-The name of this C&nbsp;function is the string "<code>luaopen_</code>"
-concatenated with a copy of the module name where each dot
-is replaced by an underscore.
-Moreover, if the module name has a hyphen,
-its suffix after (and including) the first hyphen is removed.
-For instance, if the module name is <code>a.b.c-v2.1</code>,
-the function name will be <code>luaopen_a_b_c</code>.
-
-
-<p>
-The fourth searcher tries an <em>all-in-one loader</em>.
-It searches the C&nbsp;path for a library for
-the root name of the given module.
-For instance, when requiring <code>a.b.c</code>,
-it will search for a C&nbsp;library for <code>a</code>.
-If found, it looks into it for an open function for
-the submodule;
-in our example, that would be <code>luaopen_a_b_c</code>.
-With this facility, a package can pack several C&nbsp;submodules
-into one single library,
-with each submodule keeping its original open function.
-
-
-<p>
-All searchers except the first one (preload) return as the extra value
-the file name where the module was found,
-as returned by <a href="#pdf-package.searchpath"><code>package.searchpath</code></a>.
-The first searcher returns no extra value.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-package.searchpath"><code>package.searchpath (name, path [, sep [, rep]])</code></a></h3>
-
-
-<p>
-Searches for the given <code>name</code> in the given <code>path</code>.
-
-
-<p>
-A path is a string containing a sequence of
-<em>templates</em> separated by semicolons.
-For each template,
-the function replaces each interrogation mark (if any)
-in the template with a copy of <code>name</code>
-wherein all occurrences of <code>sep</code>
-(a dot, by default)
-were replaced by <code>rep</code>
-(the system's directory separator, by default),
-and then tries to open the resulting file name.
-
-
-<p>
-For instance, if the path is the string
-
-<pre>
-     "./?.lua;./?.lc;/usr/local/?/init.lua"
-</pre><p>
-the search for the name <code>foo.a</code>
-will try to open the files
-<code>./foo/a.lua</code>, <code>./foo/a.lc</code>, and
-<code>/usr/local/foo/a/init.lua</code>, in that order.
-
-
-<p>
-Returns the resulting name of the first file that it can
-open in read mode (after closing the file),
-or <b>nil</b> plus an error message if none succeeds.
-(This error message lists all file names it tried to open.)
-
-
-
-
-
-
-
-<h2>6.4 &ndash; <a name="6.4">String Manipulation</a></h2>
-
-<p>
-This library provides generic functions for string manipulation,
-such as finding and extracting substrings, and pattern matching.
-When indexing a string in Lua, the first character is at position&nbsp;1
-(not at&nbsp;0, as in C).
-Indices are allowed to be negative and are interpreted as indexing backwards,
-from the end of the string.
-Thus, the last character is at position -1, and so on.
-
-
-<p>
-The string library provides all its functions inside the table
-<a name="pdf-string"><code>string</code></a>.
-It also sets a metatable for strings
-where the <code>__index</code> field points to the <code>string</code> table.
-Therefore, you can use the string functions in object-oriented style.
-For instance, <code>string.byte(s,i)</code>
-can be written as <code>s:byte(i)</code>.
-
-
-<p>
-The string library assumes one-byte character encodings.
-
-
-<p>
-<hr><h3><a name="pdf-string.byte"><code>string.byte (s [, i [, j]])</code></a></h3>
-Returns the internal numerical codes of the characters <code>s[i]</code>,
-<code>s[i+1]</code>, ..., <code>s[j]</code>.
-The default value for <code>i</code> is&nbsp;1;
-the default value for <code>j</code> is&nbsp;<code>i</code>.
-These indices are corrected
-following the same rules of function <a href="#pdf-string.sub"><code>string.sub</code></a>.
-
-
-<p>
-Numerical codes are not necessarily portable across platforms.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.char"><code>string.char (&middot;&middot;&middot;)</code></a></h3>
-Receives zero or more integers.
-Returns a string with length equal to the number of arguments,
-in which each character has the internal numerical code equal
-to its corresponding argument.
-
-
-<p>
-Numerical codes are not necessarily portable across platforms.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.dump"><code>string.dump (function [, strip])</code></a></h3>
-
-
-<p>
-Returns a string containing a binary representation
-(a <em>binary chunk</em>)
-of the given function,
-so that a later <a href="#pdf-load"><code>load</code></a> on this string returns
-a copy of the function (but with new upvalues).
-If <code>strip</code> is a true value,
-the binary representation is created without debug information
-about the function
-(local variable names, lines, etc.).
-
-
-<p>
-Functions with upvalues have only their number of upvalues saved.
-When (re)loaded,
-those upvalues receive fresh instances containing <b>nil</b>.
-(You can use the debug library to serialize
-and reload the upvalues of a function
-in a way adequate to your needs.)
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.find"><code>string.find (s, pattern [, init [, plain]])</code></a></h3>
-
-
-<p>
-Looks for the first match of
-<code>pattern</code> (see <a href="#6.4.1">&sect;6.4.1</a>) in the string <code>s</code>.
-If it finds a match, then <code>find</code> returns the indices of&nbsp;<code>s</code>
-where this occurrence starts and ends;
-otherwise, it returns <b>nil</b>.
-A third, optional numerical argument <code>init</code> specifies
-where to start the search;
-its default value is&nbsp;1 and can be negative.
-A value of <b>true</b> as a fourth, optional argument <code>plain</code>
-turns off the pattern matching facilities,
-so the function does a plain "find substring" operation,
-with no characters in <code>pattern</code> being considered magic.
-Note that if <code>plain</code> is given, then <code>init</code> must be given as well.
-
-
-<p>
-If the pattern has captures,
-then in a successful match
-the captured values are also returned,
-after the two indices.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.format"><code>string.format (formatstring, &middot;&middot;&middot;)</code></a></h3>
-
-
-<p>
-Returns a formatted version of its variable number of arguments
-following the description given in its first argument (which must be a string).
-The format string follows the same rules as the ISO&nbsp;C function <code>sprintf</code>.
-The only differences are that the options/modifiers
-<code>*</code>, <code>h</code>, <code>L</code>, <code>l</code>, <code>n</code>,
-and <code>p</code> are not supported
-and that there is an extra option, <code>q</code>.
-The <code>q</code> option formats a string between double quotes,
-using escape sequences when necessary to ensure that
-it can safely be read back by the Lua interpreter.
-For instance, the call
-
-<pre>
-     string.format('%q', 'a string with "quotes" and \n new line')
-</pre><p>
-may produce the string:
-
-<pre>
-     "a string with \"quotes\" and \
-      new line"
-</pre>
-
-<p>
-Options
-<code>A</code> and <code>a</code> (when available),
-<code>E</code>, <code>e</code>, <code>f</code>,
-<code>G</code>, and <code>g</code> all expect a number as argument.
-Options <code>c</code>, <code>d</code>,
-<code>i</code>, <code>o</code>, <code>u</code>, <code>X</code>, and <code>x</code>
-expect an integer.
-Option <code>q</code> expects a string;
-option <code>s</code> expects a string without embedded zeros.
-If the argument to option <code>s</code> is not a string,
-it is converted to one following the same rules of <a href="#pdf-tostring"><code>tostring</code></a>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.gmatch"><code>string.gmatch (s, pattern)</code></a></h3>
-Returns an iterator function that,
-each time it is called,
-returns the next captures from <code>pattern</code> (see <a href="#6.4.1">&sect;6.4.1</a>)
-over the string <code>s</code>.
-If <code>pattern</code> specifies no captures,
-then the whole match is produced in each call.
-
-
-<p>
-As an example, the following loop
-will iterate over all the words from string <code>s</code>,
-printing one per line:
-
-<pre>
-     s = "hello world from Lua"
-     for w in string.gmatch(s, "%a+") do
-       print(w)
-     end
-</pre><p>
-The next example collects all pairs <code>key=value</code> from the
-given string into a table:
-
-<pre>
-     t = {}
-     s = "from=world, to=Lua"
-     for k, v in string.gmatch(s, "(%w+)=(%w+)") do
-       t[k] = v
-     end
-</pre>
-
-<p>
-For this function, a caret '<code>^</code>' at the start of a pattern does not
-work as an anchor, as this would prevent the iteration.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.gsub"><code>string.gsub (s, pattern, repl [, n])</code></a></h3>
-Returns a copy of <code>s</code>
-in which all (or the first <code>n</code>, if given)
-occurrences of the <code>pattern</code> (see <a href="#6.4.1">&sect;6.4.1</a>) have been
-replaced by a replacement string specified by <code>repl</code>,
-which can be a string, a table, or a function.
-<code>gsub</code> also returns, as its second value,
-the total number of matches that occurred.
-The name <code>gsub</code> comes from <em>Global SUBstitution</em>.
-
-
-<p>
-If <code>repl</code> is a string, then its value is used for replacement.
-The character&nbsp;<code>%</code> works as an escape character:
-any sequence in <code>repl</code> of the form <code>%<em>d</em></code>,
-with <em>d</em> between 1 and 9,
-stands for the value of the <em>d</em>-th captured substring.
-The sequence <code>%0</code> stands for the whole match.
-The sequence <code>%%</code> stands for a single&nbsp;<code>%</code>.
-
-
-<p>
-If <code>repl</code> is a table, then the table is queried for every match,
-using the first capture as the key.
-
-
-<p>
-If <code>repl</code> is a function, then this function is called every time a
-match occurs, with all captured substrings passed as arguments,
-in order.
-
-
-<p>
-In any case,
-if the pattern specifies no captures,
-then it behaves as if the whole pattern was inside a capture.
-
-
-<p>
-If the value returned by the table query or by the function call
-is a string or a number,
-then it is used as the replacement string;
-otherwise, if it is <b>false</b> or <b>nil</b>,
-then there is no replacement
-(that is, the original match is kept in the string).
-
-
-<p>
-Here are some examples:
-
-<pre>
-     x = string.gsub("hello world", "(%w+)", "%1 %1")
-     --&gt; x="hello hello world world"
-     
-     x = string.gsub("hello world", "%w+", "%0 %0", 1)
-     --&gt; x="hello hello world"
-     
-     x = string.gsub("hello world from Lua", "(%w+)%s*(%w+)", "%2 %1")
-     --&gt; x="world hello Lua from"
-     
-     x = string.gsub("home = $HOME, user = $USER", "%$(%w+)", os.getenv)
-     --&gt; x="home = /home/roberto, user = roberto"
-     
-     x = string.gsub("4+5 = $return 4+5$", "%$(.-)%$", function (s)
-           return load(s)()
-         end)
-     --&gt; x="4+5 = 9"
-     
-     local t = {name="lua", version="5.3"}
-     x = string.gsub("$name-$version.tar.gz", "%$(%w+)", t)
-     --&gt; x="lua-5.3.tar.gz"
-</pre>
-
-
-
-<p>
-<hr><h3><a name="pdf-string.len"><code>string.len (s)</code></a></h3>
-Receives a string and returns its length.
-The empty string <code>""</code> has length 0.
-Embedded zeros are counted,
-so <code>"a\000bc\000"</code> has length 5.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.lower"><code>string.lower (s)</code></a></h3>
-Receives a string and returns a copy of this string with all
-uppercase letters changed to lowercase.
-All other characters are left unchanged.
-The definition of what an uppercase letter is depends on the current locale.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.match"><code>string.match (s, pattern [, init])</code></a></h3>
-Looks for the first <em>match</em> of
-<code>pattern</code> (see <a href="#6.4.1">&sect;6.4.1</a>) in the string <code>s</code>.
-If it finds one, then <code>match</code> returns
-the captures from the pattern;
-otherwise it returns <b>nil</b>.
-If <code>pattern</code> specifies no captures,
-then the whole match is returned.
-A third, optional numerical argument <code>init</code> specifies
-where to start the search;
-its default value is&nbsp;1 and can be negative.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.pack"><code>string.pack (fmt, v1, v2, &middot;&middot;&middot;)</code></a></h3>
-
-
-<p>
-Returns a binary string containing the values <code>v1</code>, <code>v2</code>, etc.
-packed (that is, serialized in binary form)
-according to the format string <code>fmt</code> (see <a href="#6.4.2">&sect;6.4.2</a>). 
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.packsize"><code>string.packsize (fmt)</code></a></h3>
-
-
-<p>
-Returns the size of a string resulting from <a href="#pdf-string.pack"><code>string.pack</code></a>
-with the given format.
-The format string cannot have the variable-length options
-'<code>s</code>' or '<code>z</code>' (see <a href="#6.4.2">&sect;6.4.2</a>).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.rep"><code>string.rep (s, n [, sep])</code></a></h3>
-Returns a string that is the concatenation of <code>n</code> copies of
-the string <code>s</code> separated by the string <code>sep</code>.
-The default value for <code>sep</code> is the empty string
-(that is, no separator).
-Returns the empty string if <code>n</code> is not positive.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.reverse"><code>string.reverse (s)</code></a></h3>
-Returns a string that is the string <code>s</code> reversed.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.sub"><code>string.sub (s, i [, j])</code></a></h3>
-Returns the substring of <code>s</code> that
-starts at <code>i</code>  and continues until <code>j</code>;
-<code>i</code> and <code>j</code> can be negative.
-If <code>j</code> is absent, then it is assumed to be equal to -1
-(which is the same as the string length).
-In particular,
-the call <code>string.sub(s,1,j)</code> returns a prefix of <code>s</code>
-with length <code>j</code>,
-and <code>string.sub(s, -i)</code> returns a suffix of <code>s</code>
-with length <code>i</code>.
-
-
-<p>
-If, after the translation of negative indices,
-<code>i</code> is less than 1,
-it is corrected to 1.
-If <code>j</code> is greater than the string length,
-it is corrected to that length.
-If, after these corrections,
-<code>i</code> is greater than <code>j</code>,
-the function returns the empty string.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.unpack"><code>string.unpack (fmt, s [, pos])</code></a></h3>
-
-
-<p>
-Returns the values packed in string <code>s</code> (see <a href="#pdf-string.pack"><code>string.pack</code></a>)
-according to the format string <code>fmt</code> (see <a href="#6.4.2">&sect;6.4.2</a>).
-An optional <code>pos</code> marks where
-to start reading in <code>s</code> (default is 1).
-After the read values,
-this function also returns the index of the first unread byte in <code>s</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-string.upper"><code>string.upper (s)</code></a></h3>
-Receives a string and returns a copy of this string with all
-lowercase letters changed to uppercase.
-All other characters are left unchanged.
-The definition of what a lowercase letter is depends on the current locale.
-
-
-
-
-
-<h3>6.4.1 &ndash; <a name="6.4.1">Patterns</a></h3>
-
-<p>
-Patterns in Lua are described by regular strings,
-which are interpreted as patterns by the pattern-matching functions
-<a href="#pdf-string.find"><code>string.find</code></a>,
-<a href="#pdf-string.gmatch"><code>string.gmatch</code></a>,
-<a href="#pdf-string.gsub"><code>string.gsub</code></a>,
-and <a href="#pdf-string.match"><code>string.match</code></a>.
-This section describes the syntax and the meaning
-(that is, what they match) of these strings.
-
-
-
-<h4>Character Class:</h4><p>
-A <em>character class</em> is used to represent a set of characters.
-The following combinations are allowed in describing a character class:
-
-<ul>
-
-<li><b><em>x</em>: </b>
-(where <em>x</em> is not one of the <em>magic characters</em>
-<code>^$()%.[]*+-?</code>)
-represents the character <em>x</em> itself.
-</li>
-
-<li><b><code>.</code>: </b> (a dot) represents all characters.</li>
-
-<li><b><code>%a</code>: </b> represents all letters.</li>
-
-<li><b><code>%c</code>: </b> represents all control characters.</li>
-
-<li><b><code>%d</code>: </b> represents all digits.</li>
-
-<li><b><code>%g</code>: </b> represents all printable characters except space.</li>
-
-<li><b><code>%l</code>: </b> represents all lowercase letters.</li>
-
-<li><b><code>%p</code>: </b> represents all punctuation characters.</li>
-
-<li><b><code>%s</code>: </b> represents all space characters.</li>
-
-<li><b><code>%u</code>: </b> represents all uppercase letters.</li>
-
-<li><b><code>%w</code>: </b> represents all alphanumeric characters.</li>
-
-<li><b><code>%x</code>: </b> represents all hexadecimal digits.</li>
-
-<li><b><code>%<em>x</em></code>: </b> (where <em>x</em> is any non-alphanumeric character)
-represents the character <em>x</em>.
-This is the standard way to escape the magic characters.
-Any non-alphanumeric character
-(including all punctuations, even the non-magical)
-can be preceded by a '<code>%</code>'
-when used to represent itself in a pattern.
-</li>
-
-<li><b><code>[<em>set</em>]</code>: </b>
-represents the class which is the union of all
-characters in <em>set</em>.
-A range of characters can be specified by
-separating the end characters of the range,
-in ascending order, with a '<code>-</code>'.
-All classes <code>%</code><em>x</em> described above can also be used as
-components in <em>set</em>.
-All other characters in <em>set</em> represent themselves.
-For example, <code>[%w_]</code> (or <code>[_%w]</code>)
-represents all alphanumeric characters plus the underscore,
-<code>[0-7]</code> represents the octal digits,
-and <code>[0-7%l%-]</code> represents the octal digits plus
-the lowercase letters plus the '<code>-</code>' character.
-
-
-<p>
-The interaction between ranges and classes is not defined.
-Therefore, patterns like <code>[%a-z]</code> or <code>[a-%%]</code>
-have no meaning.
-</li>
-
-<li><b><code>[^<em>set</em>]</code>: </b>
-represents the complement of <em>set</em>,
-where <em>set</em> is interpreted as above.
-</li>
-
-</ul><p>
-For all classes represented by single letters (<code>%a</code>, <code>%c</code>, etc.),
-the corresponding uppercase letter represents the complement of the class.
-For instance, <code>%S</code> represents all non-space characters.
-
-
-<p>
-The definitions of letter, space, and other character groups
-depend on the current locale.
-In particular, the class <code>[a-z]</code> may not be equivalent to <code>%l</code>.
-
-
-
-
-
-<h4>Pattern Item:</h4><p>
-A <em>pattern item</em> can be
-
-<ul>
-
-<li>
-a single character class,
-which matches any single character in the class;
-</li>
-
-<li>
-a single character class followed by '<code>*</code>',
-which matches zero or more repetitions of characters in the class.
-These repetition items will always match the longest possible sequence;
-</li>
-
-<li>
-a single character class followed by '<code>+</code>',
-which matches one or more repetitions of characters in the class.
-These repetition items will always match the longest possible sequence;
-</li>
-
-<li>
-a single character class followed by '<code>-</code>',
-which also matches zero or more repetitions of characters in the class.
-Unlike '<code>*</code>',
-these repetition items will always match the shortest possible sequence;
-</li>
-
-<li>
-a single character class followed by '<code>?</code>',
-which matches zero or one occurrence of a character in the class.
-It always matches one occurrence if possible;
-</li>
-
-<li>
-<code>%<em>n</em></code>, for <em>n</em> between 1 and 9;
-such item matches a substring equal to the <em>n</em>-th captured string
-(see below);
-</li>
-
-<li>
-<code>%b<em>xy</em></code>, where <em>x</em> and <em>y</em> are two distinct characters;
-such item matches strings that start with&nbsp;<em>x</em>, end with&nbsp;<em>y</em>,
-and where the <em>x</em> and <em>y</em> are <em>balanced</em>.
-This means that, if one reads the string from left to right,
-counting <em>+1</em> for an <em>x</em> and <em>-1</em> for a <em>y</em>,
-the ending <em>y</em> is the first <em>y</em> where the count reaches 0.
-For instance, the item <code>%b()</code> matches expressions with
-balanced parentheses.
-</li>
-
-<li>
-<code>%f[<em>set</em>]</code>, a <em>frontier pattern</em>;
-such item matches an empty string at any position such that
-the next character belongs to <em>set</em>
-and the previous character does not belong to <em>set</em>.
-The set <em>set</em> is interpreted as previously described.
-The beginning and the end of the subject are handled as if
-they were the character '<code>\0</code>'.
-</li>
-
-</ul>
-
-
-
-
-<h4>Pattern:</h4><p>
-A <em>pattern</em> is a sequence of pattern items.
-A caret '<code>^</code>' at the beginning of a pattern anchors the match at the
-beginning of the subject string.
-A '<code>$</code>' at the end of a pattern anchors the match at the
-end of the subject string.
-At other positions,
-'<code>^</code>' and '<code>$</code>' have no special meaning and represent themselves.
-
-
-
-
-
-<h4>Captures:</h4><p>
-A pattern can contain sub-patterns enclosed in parentheses;
-they describe <em>captures</em>.
-When a match succeeds, the substrings of the subject string
-that match captures are stored (<em>captured</em>) for future use.
-Captures are numbered according to their left parentheses.
-For instance, in the pattern <code>"(a*(.)%w(%s*))"</code>,
-the part of the string matching <code>"a*(.)%w(%s*)"</code> is
-stored as the first capture (and therefore has number&nbsp;1);
-the character matching "<code>.</code>" is captured with number&nbsp;2,
-and the part matching "<code>%s*</code>" has number&nbsp;3.
-
-
-<p>
-As a special case, the empty capture <code>()</code> captures
-the current string position (a number).
-For instance, if we apply the pattern <code>"()aa()"</code> on the
-string <code>"flaaap"</code>, there will be two captures: 3&nbsp;and&nbsp;5.
-
-
-
-
-
-
-
-<h3>6.4.2 &ndash; <a name="6.4.2">Format Strings for Pack and Unpack</a></h3>
-
-<p>
-The first argument to <a href="#pdf-string.pack"><code>string.pack</code></a>,
-<a href="#pdf-string.packsize"><code>string.packsize</code></a>, and <a href="#pdf-string.unpack"><code>string.unpack</code></a>
-is a format string,
-which describes the layout of the structure being created or read.
-
-
-<p>
-A format string is a sequence of conversion options.
-The conversion options are as follows:
-
-<ul>
-<li><b><code>&lt;</code>: </b>sets little endian</li>
-<li><b><code>&gt;</code>: </b>sets big endian</li>
-<li><b><code>=</code>: </b>sets native endian</li>
-<li><b><code>![<em>n</em>]</code>: </b>sets maximum alignment to <code>n</code>
-(default is native alignment)</li>
-<li><b><code>b</code>: </b>a signed byte (<code>char</code>)</li>
-<li><b><code>B</code>: </b>an unsigned byte (<code>char</code>)</li>
-<li><b><code>h</code>: </b>a signed <code>short</code> (native size)</li>
-<li><b><code>H</code>: </b>an unsigned <code>short</code> (native size)</li>
-<li><b><code>l</code>: </b>a signed <code>long</code> (native size)</li>
-<li><b><code>L</code>: </b>an unsigned <code>long</code> (native size)</li>
-<li><b><code>j</code>: </b>a <code>lua_Integer</code></li>
-<li><b><code>J</code>: </b>a <code>lua_Unsigned</code></li>
-<li><b><code>T</code>: </b>a <code>size_t</code> (native size)</li>
-<li><b><code>i[<em>n</em>]</code>: </b>a signed <code>int</code> with <code>n</code> bytes
-(default is native size)</li>
-<li><b><code>I[<em>n</em>]</code>: </b>an unsigned <code>int</code> with <code>n</code> bytes
-(default is native size)</li>
-<li><b><code>f</code>: </b>a <code>float</code> (native size)</li>
-<li><b><code>d</code>: </b>a <code>double</code> (native size)</li>
-<li><b><code>n</code>: </b>a <code>lua_Number</code></li>
-<li><b><code>c<em>n</em></code>: </b>a fixed-sized string with <code>n</code> bytes</li>
-<li><b><code>z</code>: </b>a zero-terminated string</li>
-<li><b><code>s[<em>n</em>]</code>: </b>a string preceded by its length
-coded as an unsigned integer with <code>n</code> bytes
-(default is a <code>size_t</code>)</li>
-<li><b><code>x</code>: </b>one byte of padding</li>
-<li><b><code>X<em>op</em></code>: </b>an empty item that aligns
-according to option <code>op</code>
-(which is otherwise ignored)</li>
-<li><b>'<code> </code>': </b>(empty space) ignored</li>
-</ul><p>
-(A "<code>[<em>n</em>]</code>" means an optional integral numeral.)
-Except for padding, spaces, and configurations
-(options "<code>xX &lt;=&gt;!</code>"),
-each option corresponds to an argument (in <a href="#pdf-string.pack"><code>string.pack</code></a>)
-or a result (in <a href="#pdf-string.unpack"><code>string.unpack</code></a>).
-
-
-<p>
-For options "<code>!<em>n</em></code>", "<code>s<em>n</em></code>", "<code>i<em>n</em></code>", and "<code>I<em>n</em></code>",
-<code>n</code> can be any integer between 1 and 16.
-All integral options check overflows;
-<a href="#pdf-string.pack"><code>string.pack</code></a> checks whether the given value fits in the given size;
-<a href="#pdf-string.unpack"><code>string.unpack</code></a> checks whether the read value fits in a Lua integer.
-
-
-<p>
-Any format string starts as if prefixed by "<code>!1=</code>",
-that is,
-with maximum alignment of 1 (no alignment)
-and native endianness.
-
-
-<p>
-Alignment works as follows:
-For each option,
-the format gets extra padding until the data starts
-at an offset that is a multiple of the minimum between the
-option size and the maximum alignment;
-this minimum must be a power of 2.
-Options "<code>c</code>" and "<code>z</code>" are not aligned;
-option "<code>s</code>" follows the alignment of its starting integer.
-
-
-<p>
-All padding is filled with zeros by <a href="#pdf-string.pack"><code>string.pack</code></a>
-(and ignored by <a href="#pdf-string.unpack"><code>string.unpack</code></a>).
-
-
-
-
-
-
-
-<h2>6.5 &ndash; <a name="6.5">UTF-8 Support</a></h2>
-
-<p>
-This library provides basic support for UTF-8 encoding.
-It provides all its functions inside the table <a name="pdf-utf8"><code>utf8</code></a>.
-This library does not provide any support for Unicode other
-than the handling of the encoding.
-Any operation that needs the meaning of a character,
-such as character classification, is outside its scope.
-
-
-<p>
-Unless stated otherwise,
-all functions that expect a byte position as a parameter
-assume that the given position is either the start of a byte sequence
-or one plus the length of the subject string.
-As in the string library,
-negative indices count from the end of the string.
-
-
-<p>
-<hr><h3><a name="pdf-utf8.char"><code>utf8.char (&middot;&middot;&middot;)</code></a></h3>
-Receives zero or more integers,
-converts each one to its corresponding UTF-8 byte sequence
-and returns a string with the concatenation of all these sequences.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-utf8.charpattern"><code>utf8.charpattern</code></a></h3>
-The pattern (a string, not a function) "<code>[\0-\x7F\xC2-\xF4][\x80-\xBF]*</code>"
-(see <a href="#6.4.1">&sect;6.4.1</a>),
-which matches exactly one UTF-8 byte sequence,
-assuming that the subject is a valid UTF-8 string.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-utf8.codes"><code>utf8.codes (s)</code></a></h3>
-
-
-<p>
-Returns values so that the construction
-
-<pre>
-     for p, c in utf8.codes(s) do <em>body</em> end
-</pre><p>
-will iterate over all characters in string <code>s</code>,
-with <code>p</code> being the position (in bytes) and <code>c</code> the code point
-of each character.
-It raises an error if it meets any invalid byte sequence.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-utf8.codepoint"><code>utf8.codepoint (s [, i [, j]])</code></a></h3>
-Returns the codepoints (as integers) from all characters in <code>s</code>
-that start between byte position <code>i</code> and <code>j</code> (both included).
-The default for <code>i</code> is 1 and for <code>j</code> is <code>i</code>.
-It raises an error if it meets any invalid byte sequence.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-utf8.len"><code>utf8.len (s [, i [, j]])</code></a></h3>
-Returns the number of UTF-8 characters in string <code>s</code>
-that start between positions <code>i</code> and <code>j</code> (both inclusive).
-The default for <code>i</code> is 1 and for <code>j</code> is -1.
-If it finds any invalid byte sequence,
-returns a false value plus the position of the first invalid byte. 
-
-
-
-
-<p>
-<hr><h3><a name="pdf-utf8.offset"><code>utf8.offset (s, n [, i])</code></a></h3>
-Returns the position (in bytes) where the encoding of the
-<code>n</code>-th character of <code>s</code>
-(counting from position <code>i</code>) starts.
-A negative <code>n</code> gets characters before position <code>i</code>.
-The default for <code>i</code> is 1 when <code>n</code> is non-negative
-and <code>#s + 1</code> otherwise,
-so that <code>utf8.offset(s, -n)</code> gets the offset of the
-<code>n</code>-th character from the end of the string.
-If the specified character is neither in the subject
-nor right after its end,
-the function returns <b>nil</b>.
-
-
-<p>
-As a special case,
-when <code>n</code> is 0 the function returns the start of the encoding
-of the character that contains the <code>i</code>-th byte of <code>s</code>.
-
-
-<p>
-This function assumes that <code>s</code> is a valid UTF-8 string.
-
-
-
-
-
-
-
-<h2>6.6 &ndash; <a name="6.6">Table Manipulation</a></h2>
-
-<p>
-This library provides generic functions for table manipulation.
-It provides all its functions inside the table <a name="pdf-table"><code>table</code></a>.
-
-
-<p>
-Remember that, whenever an operation needs the length of a table,
-the table must be a proper sequence
-or have a <code>__len</code> metamethod (see <a href="#3.4.7">&sect;3.4.7</a>).
-All functions ignore non-numeric keys
-in the tables given as arguments.
-
-
-<p>
-<hr><h3><a name="pdf-table.concat"><code>table.concat (list [, sep [, i [, j]]])</code></a></h3>
-
-
-<p>
-Given a list where all elements are strings or numbers,
-returns the string <code>list[i]..sep..list[i+1] &middot;&middot;&middot; sep..list[j]</code>.
-The default value for <code>sep</code> is the empty string,
-the default for <code>i</code> is 1,
-and the default for <code>j</code> is <code>#list</code>.
-If <code>i</code> is greater than <code>j</code>, returns the empty string.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-table.insert"><code>table.insert (list, [pos,] value)</code></a></h3>
-
-
-<p>
-Inserts element <code>value</code> at position <code>pos</code> in <code>list</code>,
-shifting up the elements
-<code>list[pos], list[pos+1], &middot;&middot;&middot;, list[#list]</code>.
-The default value for <code>pos</code> is <code>#list+1</code>,
-so that a call <code>table.insert(t,x)</code> inserts <code>x</code> at the end
-of list <code>t</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-table.move"><code>table.move (a1, f, e, t [,a2])</code></a></h3>
-
-
-<p>
-Moves elements from table <code>a1</code> to table <code>a2</code>.
-This function performs the equivalent to the following
-multiple assignment:
-<code>a2[t],&middot;&middot;&middot; = a1[f],&middot;&middot;&middot;,a1[e]</code>.
-The default for <code>a2</code> is <code>a1</code>.
-The destination range can overlap with the source range.
-Index <code>f</code> must be positive.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-table.pack"><code>table.pack (&middot;&middot;&middot;)</code></a></h3>
-
-
-<p>
-Returns a new table with all parameters stored into keys 1, 2, etc.
-and with a field "<code>n</code>" with the total number of parameters.
-Note that the resulting table may not be a sequence.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-table.remove"><code>table.remove (list [, pos])</code></a></h3>
-
-
-<p>
-Removes from <code>list</code> the element at position <code>pos</code>,
-returning the value of the removed element.
-When <code>pos</code> is an integer between 1 and <code>#list</code>,
-it shifts down the elements
-<code>list[pos+1], list[pos+2], &middot;&middot;&middot;, list[#list]</code>
-and erases element <code>list[#list]</code>;
-The index <code>pos</code> can also be 0 when <code>#list</code> is 0,
-or <code>#list + 1</code>;
-in those cases, the function erases the element <code>list[pos]</code>.
-
-
-<p>
-The default value for <code>pos</code> is <code>#list</code>,
-so that a call <code>table.remove(l)</code> removes the last element
-of list <code>l</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-table.sort"><code>table.sort (list [, comp])</code></a></h3>
-
-
-<p>
-Sorts list elements in a given order, <em>in-place</em>,
-from <code>list[1]</code> to <code>list[#list]</code>.
-If <code>comp</code> is given,
-then it must be a function that receives two list elements
-and returns true when the first element must come
-before the second in the final order
-(so that <code>not comp(list[i+1],list[i])</code> will be true after the sort).
-If <code>comp</code> is not given,
-then the standard Lua operator <code>&lt;</code> is used instead.
-
-
-<p>
-The sort algorithm is not stable;
-that is, elements considered equal by the given order
-may have their relative positions changed by the sort.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-table.unpack"><code>table.unpack (list [, i [, j]])</code></a></h3>
-
-
-<p>
-Returns the elements from the given list.
-This function is equivalent to
-
-<pre>
-     return list[i], list[i+1], &middot;&middot;&middot;, list[j]
-</pre><p>
-By default, <code>i</code> is&nbsp;1 and <code>j</code> is <code>#list</code>.
-
-
-
-
-
-
-
-<h2>6.7 &ndash; <a name="6.7">Mathematical Functions</a></h2>
-
-<p>
-This library provides basic mathematical functions.
-It provides all its functions and constants inside the table <a name="pdf-math"><code>math</code></a>.
-Functions with the annotation "<code>integer/float</code>" give
-integer results for integer arguments
-and float results for float (or mixed) arguments.
-Rounding functions
-(<a href="#pdf-math.ceil"><code>math.ceil</code></a>, <a href="#pdf-math.floor"><code>math.floor</code></a>, and <a href="#pdf-math.modf"><code>math.modf</code></a>)
-return an integer when the result fits in the range of an integer,
-or a float otherwise.
-
-
-<p>
-<hr><h3><a name="pdf-math.abs"><code>math.abs (x)</code></a></h3>
-
-
-<p>
-Returns the absolute value of <code>x</code>. (integer/float)
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.acos"><code>math.acos (x)</code></a></h3>
-
-
-<p>
-Returns the arc cosine of <code>x</code> (in radians).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.asin"><code>math.asin (x)</code></a></h3>
-
-
-<p>
-Returns the arc sine of <code>x</code> (in radians).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.atan"><code>math.atan (y [, x])</code></a></h3>
-
-
-<p>
-
-Returns the arc tangent of <code>y/x</code> (in radians),
-but uses the signs of both parameters to find the
-quadrant of the result.
-(It also handles correctly the case of <code>x</code> being zero.)
-
-
-<p>
-The default value for <code>x</code> is 1,
-so that the call <code>math.atan(y)</code>
-returns the arc tangent of <code>y</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.ceil"><code>math.ceil (x)</code></a></h3>
-
-
-<p>
-Returns the smallest integral value larger than or equal to <code>x</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.cos"><code>math.cos (x)</code></a></h3>
-
-
-<p>
-Returns the cosine of <code>x</code> (assumed to be in radians).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.deg"><code>math.deg (x)</code></a></h3>
-
-
-<p>
-Converts the angle <code>x</code> from radians to degrees.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.exp"><code>math.exp (x)</code></a></h3>
-
-
-<p>
-Returns the value <em>e<sup>x</sup></em>
-(where <code>e</code> is the base of natural logarithms).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.floor"><code>math.floor (x)</code></a></h3>
-
-
-<p>
-Returns the largest integral value smaller than or equal to <code>x</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.fmod"><code>math.fmod (x, y)</code></a></h3>
-
-
-<p>
-Returns the remainder of the division of <code>x</code> by <code>y</code>
-that rounds the quotient towards zero. (integer/float)
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.huge"><code>math.huge</code></a></h3>
-
-
-<p>
-The float value <code>HUGE_VAL</code>,
-a value larger than any other numerical value.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.log"><code>math.log (x [, base])</code></a></h3>
-
-
-<p>
-Returns the logarithm of <code>x</code> in the given base.
-The default for <code>base</code> is <em>e</em>
-(so that the function returns the natural logarithm of <code>x</code>).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.max"><code>math.max (x, &middot;&middot;&middot;)</code></a></h3>
-
-
-<p>
-Returns the argument with the maximum value,
-according to the Lua operator <code>&lt;</code>. (integer/float)
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.maxinteger"><code>math.maxinteger</code></a></h3>
-An integer with the maximum value for an integer.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.min"><code>math.min (x, &middot;&middot;&middot;)</code></a></h3>
-
-
-<p>
-Returns the argument with the minimum value,
-according to the Lua operator <code>&lt;</code>. (integer/float)
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.mininteger"><code>math.mininteger</code></a></h3>
-An integer with the minimum value for an integer.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.modf"><code>math.modf (x)</code></a></h3>
-
-
-<p>
-Returns the integral part of <code>x</code> and the fractional part of <code>x</code>.
-Its second result is always a float.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.pi"><code>math.pi</code></a></h3>
-
-
-<p>
-The value of <em>&pi;</em>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.rad"><code>math.rad (x)</code></a></h3>
-
-
-<p>
-Converts the angle <code>x</code> from degrees to radians.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.random"><code>math.random ([m [, n]])</code></a></h3>
-
-
-<p>
-When called without arguments,
-returns a pseudo-random float with uniform distribution
-in the range  <em>[0,1)</em>.  
-When called with two integers <code>m</code> and <code>n</code>,
-<code>math.random</code> returns a pseudo-random integer
-with uniform distribution in the range <em>[m, n]</em>.
-(The value <em>m-n</em> cannot be negative and must fit in a Lua integer.)
-The call <code>math.random(n)</code> is equivalent to <code>math.random(1,n)</code>.
-
-
-<p>
-This function is an interface to the underling
-pseudo-random generator function provided by C.
-No guarantees can be given for its statistical properties.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.randomseed"><code>math.randomseed (x)</code></a></h3>
-
-
-<p>
-Sets <code>x</code> as the "seed"
-for the pseudo-random generator:
-equal seeds produce equal sequences of numbers.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.sin"><code>math.sin (x)</code></a></h3>
-
-
-<p>
-Returns the sine of <code>x</code> (assumed to be in radians).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.sqrt"><code>math.sqrt (x)</code></a></h3>
-
-
-<p>
-Returns the square root of <code>x</code>.
-(You can also use the expression <code>x^0.5</code> to compute this value.)
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.tan"><code>math.tan (x)</code></a></h3>
-
-
-<p>
-Returns the tangent of <code>x</code> (assumed to be in radians).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.tointeger"><code>math.tointeger (x)</code></a></h3>
-
-
-<p>
-If the value <code>x</code> is convertible to an integer,
-returns that integer.
-Otherwise, returns <b>nil</b>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.type"><code>math.type (x)</code></a></h3>
-
-
-<p>
-Returns "<code>integer</code>" if <code>x</code> is an integer,
-"<code>float</code>" if it is a float,
-or <b>nil</b> if <code>x</code> is not a number.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-math.ult"><code>math.ult (m, n)</code></a></h3>
-
-
-<p>
-Returns a boolean,
-true if integer <code>m</code> is below integer <code>n</code> when
-they are compared as unsigned integers.
-
-
-
-
-
-
-
-<h2>6.8 &ndash; <a name="6.8">Input and Output Facilities</a></h2>
-
-<p>
-The I/O library provides two different styles for file manipulation.
-The first one uses implicit file handles;
-that is, there are operations to set a default input file and a
-default output file,
-and all input/output operations are over these default files.
-The second style uses explicit file handles.
-
-
-<p>
-When using implicit file handles,
-all operations are supplied by table <a name="pdf-io"><code>io</code></a>.
-When using explicit file handles,
-the operation <a href="#pdf-io.open"><code>io.open</code></a> returns a file handle
-and then all operations are supplied as methods of the file handle.
-
-
-<p>
-The table <code>io</code> also provides
-three predefined file handles with their usual meanings from C:
-<a name="pdf-io.stdin"><code>io.stdin</code></a>, <a name="pdf-io.stdout"><code>io.stdout</code></a>, and <a name="pdf-io.stderr"><code>io.stderr</code></a>.
-The I/O library never closes these files.
-
-
-<p>
-Unless otherwise stated,
-all I/O functions return <b>nil</b> on failure
-(plus an error message as a second result and
-a system-dependent error code as a third result)
-and some value different from <b>nil</b> on success.
-On non-POSIX systems,
-the computation of the error message and error code
-in case of errors
-may be not thread safe,
-because they rely on the global C variable <code>errno</code>.
-
-
-<p>
-<hr><h3><a name="pdf-io.close"><code>io.close ([file])</code></a></h3>
-
-
-<p>
-Equivalent to <code>file:close()</code>.
-Without a <code>file</code>, closes the default output file.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-io.flush"><code>io.flush ()</code></a></h3>
-
-
-<p>
-Equivalent to <code>io.output():flush()</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-io.input"><code>io.input ([file])</code></a></h3>
-
-
-<p>
-When called with a file name, it opens the named file (in text mode),
-and sets its handle as the default input file.
-When called with a file handle,
-it simply sets this file handle as the default input file.
-When called without parameters,
-it returns the current default input file.
-
-
-<p>
-In case of errors this function raises the error,
-instead of returning an error code.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-io.lines"><code>io.lines ([filename &middot;&middot;&middot;])</code></a></h3>
-
-
-<p>
-Opens the given file name in read mode
-and returns an iterator function that
-works like <code>file:lines(&middot;&middot;&middot;)</code> over the opened file.
-When the iterator function detects the end of file,
-it returns no values (to finish the loop) and automatically closes the file.
-
-
-<p>
-The call <code>io.lines()</code> (with no file name) is equivalent
-to <code>io.input():lines("*l")</code>;
-that is, it iterates over the lines of the default input file.
-In this case it does not close the file when the loop ends.
-
-
-<p>
-In case of errors this function raises the error,
-instead of returning an error code.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-io.open"><code>io.open (filename [, mode])</code></a></h3>
-
-
-<p>
-This function opens a file,
-in the mode specified in the string <code>mode</code>.
-It returns a new file handle,
-or, in case of errors, <b>nil</b> plus an error message.
-
-
-<p>
-The <code>mode</code> string can be any of the following:
-
-<ul>
-<li><b>"<code>r</code>": </b> read mode (the default);</li>
-<li><b>"<code>w</code>": </b> write mode;</li>
-<li><b>"<code>a</code>": </b> append mode;</li>
-<li><b>"<code>r+</code>": </b> update mode, all previous data is preserved;</li>
-<li><b>"<code>w+</code>": </b> update mode, all previous data is erased;</li>
-<li><b>"<code>a+</code>": </b> append update mode, previous data is preserved,
-  writing is only allowed at the end of file.</li>
-</ul><p>
-The <code>mode</code> string can also have a '<code>b</code>' at the end,
-which is needed in some systems to open the file in binary mode.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-io.output"><code>io.output ([file])</code></a></h3>
-
-
-<p>
-Similar to <a href="#pdf-io.input"><code>io.input</code></a>, but operates over the default output file.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-io.popen"><code>io.popen (prog [, mode])</code></a></h3>
-
-
-<p>
-This function is system dependent and is not available
-on all platforms.
-
-
-<p>
-Starts program <code>prog</code> in a separated process and returns
-a file handle that you can use to read data from this program
-(if <code>mode</code> is <code>"r"</code>, the default)
-or to write data to this program
-(if <code>mode</code> is <code>"w"</code>).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-io.read"><code>io.read (&middot;&middot;&middot;)</code></a></h3>
-
-
-<p>
-Equivalent to <code>io.input():read(&middot;&middot;&middot;)</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-io.tmpfile"><code>io.tmpfile ()</code></a></h3>
-
-
-<p>
-Returns a handle for a temporary file.
-This file is opened in update mode
-and it is automatically removed when the program ends.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-io.type"><code>io.type (obj)</code></a></h3>
-
-
-<p>
-Checks whether <code>obj</code> is a valid file handle.
-Returns the string <code>"file"</code> if <code>obj</code> is an open file handle,
-<code>"closed file"</code> if <code>obj</code> is a closed file handle,
-or <b>nil</b> if <code>obj</code> is not a file handle.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-io.write"><code>io.write (&middot;&middot;&middot;)</code></a></h3>
-
-
-<p>
-Equivalent to <code>io.output():write(&middot;&middot;&middot;)</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-file:close"><code>file:close ()</code></a></h3>
-
-
-<p>
-Closes <code>file</code>.
-Note that files are automatically closed when
-their handles are garbage collected,
-but that takes an unpredictable amount of time to happen.
-
-
-<p>
-When closing a file handle created with <a href="#pdf-io.popen"><code>io.popen</code></a>,
-<a href="#pdf-file:close"><code>file:close</code></a> returns the same values
-returned by <a href="#pdf-os.execute"><code>os.execute</code></a>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-file:flush"><code>file:flush ()</code></a></h3>
-
-
-<p>
-Saves any written data to <code>file</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-file:lines"><code>file:lines (&middot;&middot;&middot;)</code></a></h3>
-
-
-<p>
-Returns an iterator function that,
-each time it is called,
-reads the file according to the given formats.
-When no format is given,
-uses "<code>l</code>" as a default.
-As an example, the construction
-
-<pre>
-     for c in file:lines(1) do <em>body</em> end
-</pre><p>
-will iterate over all characters of the file,
-starting at the current position.
-Unlike <a href="#pdf-io.lines"><code>io.lines</code></a>, this function does not close the file
-when the loop ends.
-
-
-<p>
-In case of errors this function raises the error,
-instead of returning an error code.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-file:read"><code>file:read (&middot;&middot;&middot;)</code></a></h3>
-
-
-<p>
-Reads the file <code>file</code>,
-according to the given formats, which specify what to read.
-For each format,
-the function returns a string or a number with the characters read,
-or <b>nil</b> if it cannot read data with the specified format.
-(In this latter case,
-the function does not read subsequent formats.)
-When called without formats,
-it uses a default format that reads the next line
-(see below).
-
-
-<p>
-The available formats are
-
-<ul>
-
-<li><b>"<code>n</code>": </b>
-reads a numeral and returns it as a float or an integer,
-following the lexical conventions of Lua.
-(The numeral may have leading spaces and a sign.)
-This format always reads the longest input sequence that
-is a valid prefix for a number;
-if that prefix does not form a valid number
-(e.g., an empty string, "<code>0x</code>", or "<code>3.4e-</code>"),
-it is discarded and the function returns <b>nil</b>.
-</li>
-
-<li><b>"<code>i</code>": </b>
-reads an integral number and returns it as an integer.
-</li>
-
-<li><b>"<code>a</code>": </b>
-reads the whole file, starting at the current position.
-On end of file, it returns the empty string.
-</li>
-
-<li><b>"<code>l</code>": </b>
-reads the next line skipping the end of line,
-returning <b>nil</b> on end of file.
-This is the default format.
-</li>
-
-<li><b>"<code>L</code>": </b>
-reads the next line keeping the end-of-line character (if present),
-returning <b>nil</b> on end of file.
-</li>
-
-<li><b><em>number</em>: </b>
-reads a string with up to this number of bytes,
-returning <b>nil</b> on end of file.
-If <code>number</code> is zero,
-it reads nothing and returns an empty string,
-or <b>nil</b> on end of file.
-</li>
-
-</ul><p>
-The formats "<code>l</code>" and "<code>L</code>" should be used only for text files.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-file:seek"><code>file:seek ([whence [, offset]])</code></a></h3>
-
-
-<p>
-Sets and gets the file position,
-measured from the beginning of the file,
-to the position given by <code>offset</code> plus a base
-specified by the string <code>whence</code>, as follows:
-
-<ul>
-<li><b>"<code>set</code>": </b> base is position 0 (beginning of the file);</li>
-<li><b>"<code>cur</code>": </b> base is current position;</li>
-<li><b>"<code>end</code>": </b> base is end of file;</li>
-</ul><p>
-In case of success, <code>seek</code> returns the final file position,
-measured in bytes from the beginning of the file.
-If <code>seek</code> fails, it returns <b>nil</b>,
-plus a string describing the error.
-
-
-<p>
-The default value for <code>whence</code> is <code>"cur"</code>,
-and for <code>offset</code> is 0.
-Therefore, the call <code>file:seek()</code> returns the current
-file position, without changing it;
-the call <code>file:seek("set")</code> sets the position to the
-beginning of the file (and returns 0);
-and the call <code>file:seek("end")</code> sets the position to the
-end of the file, and returns its size.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-file:setvbuf"><code>file:setvbuf (mode [, size])</code></a></h3>
-
-
-<p>
-Sets the buffering mode for an output file.
-There are three available modes:
-
-<ul>
-
-<li><b>"<code>no</code>": </b>
-no buffering; the result of any output operation appears immediately.
-</li>
-
-<li><b>"<code>full</code>": </b>
-full buffering; output operation is performed only
-when the buffer is full or when
-you explicitly <code>flush</code> the file (see <a href="#pdf-io.flush"><code>io.flush</code></a>).
-</li>
-
-<li><b>"<code>line</code>": </b>
-line buffering; output is buffered until a newline is output
-or there is any input from some special files
-(such as a terminal device).
-</li>
-
-</ul><p>
-For the last two cases, <code>size</code>
-specifies the size of the buffer, in bytes.
-The default is an appropriate size.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-file:write"><code>file:write (&middot;&middot;&middot;)</code></a></h3>
-
-
-<p>
-Writes the value of each of its arguments to <code>file</code>.
-The arguments must be strings or numbers.
-
-
-<p>
-In case of success, this function returns <code>file</code>.
-Otherwise it returns <b>nil</b> plus a string describing the error.
-
-
-
-
-
-
-
-<h2>6.9 &ndash; <a name="6.9">Operating System Facilities</a></h2>
-
-<p>
-This library is implemented through table <a name="pdf-os"><code>os</code></a>.
-
-
-<p>
-<hr><h3><a name="pdf-os.clock"><code>os.clock ()</code></a></h3>
-
-
-<p>
-Returns an approximation of the amount in seconds of CPU time
-used by the program.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-os.date"><code>os.date ([format [, time]])</code></a></h3>
-
-
-<p>
-Returns a string or a table containing date and time,
-formatted according to the given string <code>format</code>.
-
-
-<p>
-If the <code>time</code> argument is present,
-this is the time to be formatted
-(see the <a href="#pdf-os.time"><code>os.time</code></a> function for a description of this value).
-Otherwise, <code>date</code> formats the current time.
-
-
-<p>
-If <code>format</code> starts with '<code>!</code>',
-then the date is formatted in Coordinated Universal Time.
-After this optional character,
-if <code>format</code> is the string "<code>*t</code>",
-then <code>date</code> returns a table with the following fields:
-<code>year</code> (four digits), <code>month</code> (1&ndash;12), <code>day</code> (1&ndash;31),
-<code>hour</code> (0&ndash;23), <code>min</code> (0&ndash;59), <code>sec</code> (0&ndash;61),
-<code>wday</code> (weekday, Sunday is&nbsp;1),
-<code>yday</code> (day of the year),
-and <code>isdst</code> (daylight saving flag, a boolean).
-This last field may be absent
-if the information is not available.
-
-
-<p>
-If <code>format</code> is not "<code>*t</code>",
-then <code>date</code> returns the date as a string,
-formatted according to the same rules as the ISO&nbsp;C function <code>strftime</code>.
-
-
-<p>
-When called without arguments,
-<code>date</code> returns a reasonable date and time representation that depends on
-the host system and on the current locale
-(that is, <code>os.date()</code> is equivalent to <code>os.date("%c")</code>).
-
-
-<p>
-On non-POSIX systems,
-this function may be not thread safe
-because of its reliance on C&nbsp;function <code>gmtime</code> and C&nbsp;function <code>localtime</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-os.difftime"><code>os.difftime (t2, t1)</code></a></h3>
-
-
-<p>
-Returns the difference, in seconds,
-from time <code>t1</code> to time <code>t2</code>
-(where the times are values returned by <a href="#pdf-os.time"><code>os.time</code></a>).
-In POSIX, Windows, and some other systems,
-this value is exactly <code>t2</code><em>-</em><code>t1</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-os.execute"><code>os.execute ([command])</code></a></h3>
-
-
-<p>
-This function is equivalent to the ISO&nbsp;C function <code>system</code>.
-It passes <code>command</code> to be executed by an operating system shell.
-Its first result is <b>true</b>
-if the command terminated successfully,
-or <b>nil</b> otherwise.
-After this first result
-the function returns a string plus a number,
-as follows:
-
-<ul>
-
-<li><b>"<code>exit</code>": </b>
-the command terminated normally;
-the following number is the exit status of the command.
-</li>
-
-<li><b>"<code>signal</code>": </b>
-the command was terminated by a signal;
-the following number is the signal that terminated the command.
-</li>
-
-</ul>
-
-<p>
-When called without a <code>command</code>,
-<code>os.execute</code> returns a boolean that is true if a shell is available.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-os.exit"><code>os.exit ([code [, close]])</code></a></h3>
-
-
-<p>
-Calls the ISO&nbsp;C function <code>exit</code> to terminate the host program.
-If <code>code</code> is <b>true</b>,
-the returned status is <code>EXIT_SUCCESS</code>;
-if <code>code</code> is <b>false</b>,
-the returned status is <code>EXIT_FAILURE</code>;
-if <code>code</code> is a number,
-the returned status is this number.
-The default value for <code>code</code> is <b>true</b>.
-
-
-<p>
-If the optional second argument <code>close</code> is true,
-closes the Lua state before exiting.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-os.getenv"><code>os.getenv (varname)</code></a></h3>
-
-
-<p>
-Returns the value of the process environment variable <code>varname</code>,
-or <b>nil</b> if the variable is not defined.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-os.remove"><code>os.remove (filename)</code></a></h3>
-
-
-<p>
-Deletes the file (or empty directory, on POSIX systems)
-with the given name.
-If this function fails, it returns <b>nil</b>,
-plus a string describing the error and the error code.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-os.rename"><code>os.rename (oldname, newname)</code></a></h3>
-
-
-<p>
-Renames file or directory named <code>oldname</code> to <code>newname</code>.
-If this function fails, it returns <b>nil</b>,
-plus a string describing the error and the error code.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-os.setlocale"><code>os.setlocale (locale [, category])</code></a></h3>
-
-
-<p>
-Sets the current locale of the program.
-<code>locale</code> is a system-dependent string specifying a locale;
-<code>category</code> is an optional string describing which category to change:
-<code>"all"</code>, <code>"collate"</code>, <code>"ctype"</code>,
-<code>"monetary"</code>, <code>"numeric"</code>, or <code>"time"</code>;
-the default category is <code>"all"</code>.
-The function returns the name of the new locale,
-or <b>nil</b> if the request cannot be honored.
-
-
-<p>
-If <code>locale</code> is the empty string,
-the current locale is set to an implementation-defined native locale.
-If <code>locale</code> is the string "<code>C</code>",
-the current locale is set to the standard C locale.
-
-
-<p>
-When called with <b>nil</b> as the first argument,
-this function only returns the name of the current locale
-for the given category.
-
-
-<p>
-This function may be not thread safe
-because of its reliance on C&nbsp;function <code>setlocale</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-os.time"><code>os.time ([table])</code></a></h3>
-
-
-<p>
-Returns the current time when called without arguments,
-or a time representing the date and time specified by the given table.
-This table must have fields <code>year</code>, <code>month</code>, and <code>day</code>,
-and may have fields
-<code>hour</code> (default is 12),
-<code>min</code> (default is 0),
-<code>sec</code> (default is 0),
-and <code>isdst</code> (default is <b>nil</b>).
-For a description of these fields, see the <a href="#pdf-os.date"><code>os.date</code></a> function.
-
-
-<p>
-The returned value is a number, whose meaning depends on your system.
-In POSIX, Windows, and some other systems,
-this number counts the number
-of seconds since some given start time (the "epoch").
-In other systems, the meaning is not specified,
-and the number returned by <code>time</code> can be used only as an argument to
-<a href="#pdf-os.date"><code>os.date</code></a> and <a href="#pdf-os.difftime"><code>os.difftime</code></a>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-os.tmpname"><code>os.tmpname ()</code></a></h3>
-
-
-<p>
-Returns a string with a file name that can
-be used for a temporary file.
-The file must be explicitly opened before its use
-and explicitly removed when no longer needed.
-
-
-<p>
-On POSIX systems,
-this function also creates a file with that name,
-to avoid security risks.
-(Someone else might create the file with wrong permissions
-in the time between getting the name and creating the file.)
-You still have to open the file to use it
-and to remove it (even if you do not use it).
-
-
-<p>
-When possible,
-you may prefer to use <a href="#pdf-io.tmpfile"><code>io.tmpfile</code></a>,
-which automatically removes the file when the program ends.
-
-
-
-
-
-
-
-<h2>6.10 &ndash; <a name="6.10">The Debug Library</a></h2>
-
-<p>
-This library provides
-the functionality of the debug interface (<a href="#4.9">&sect;4.9</a>) to Lua programs.
-You should exert care when using this library.
-Several of its functions
-violate basic assumptions about Lua code
-(e.g., that variables local to a function
-cannot be accessed from outside;
-that userdata metatables cannot be changed by Lua code;
-that Lua programs do not crash)
-and therefore can compromise otherwise secure code.
-Moreover, some functions in this library may be slow.
-
-
-<p>
-All functions in this library are provided
-inside the <a name="pdf-debug"><code>debug</code></a> table.
-All functions that operate over a thread
-have an optional first argument which is the
-thread to operate over.
-The default is always the current thread.
-
-
-<p>
-<hr><h3><a name="pdf-debug.debug"><code>debug.debug ()</code></a></h3>
-
-
-<p>
-Enters an interactive mode with the user,
-running each string that the user enters.
-Using simple commands and other debug facilities,
-the user can inspect global and local variables,
-change their values, evaluate expressions, and so on.
-A line containing only the word <code>cont</code> finishes this function,
-so that the caller continues its execution.
-
-
-<p>
-Note that commands for <code>debug.debug</code> are not lexically nested
-within any function and so have no direct access to local variables.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.gethook"><code>debug.gethook ([thread])</code></a></h3>
-
-
-<p>
-Returns the current hook settings of the thread, as three values:
-the current hook function, the current hook mask,
-and the current hook count
-(as set by the <a href="#pdf-debug.sethook"><code>debug.sethook</code></a> function).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.getinfo"><code>debug.getinfo ([thread,] f [, what])</code></a></h3>
-
-
-<p>
-Returns a table with information about a function.
-You can give the function directly
-or you can give a number as the value of <code>f</code>,
-which means the function running at level <code>f</code> of the call stack
-of the given thread:
-level&nbsp;0 is the current function (<code>getinfo</code> itself);
-level&nbsp;1 is the function that called <code>getinfo</code>
-(except for tail calls, which do not count on the stack);
-and so on.
-If <code>f</code> is a number larger than the number of active functions,
-then <code>getinfo</code> returns <b>nil</b>.
-
-
-<p>
-The returned table can contain all the fields returned by <a href="#lua_getinfo"><code>lua_getinfo</code></a>,
-with the string <code>what</code> describing which fields to fill in.
-The default for <code>what</code> is to get all information available,
-except the table of valid lines.
-If present,
-the option '<code>f</code>'
-adds a field named <code>func</code> with the function itself.
-If present,
-the option '<code>L</code>'
-adds a field named <code>activelines</code> with the table of
-valid lines.
-
-
-<p>
-For instance, the expression <code>debug.getinfo(1,"n").name</code> returns
-a table with a name for the current function,
-if a reasonable name can be found,
-and the expression <code>debug.getinfo(print)</code>
-returns a table with all available information
-about the <a href="#pdf-print"><code>print</code></a> function.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.getlocal"><code>debug.getlocal ([thread,] f, local)</code></a></h3>
-
-
-<p>
-This function returns the name and the value of the local variable
-with index <code>local</code> of the function at level <code>f</code> of the stack.
-This function accesses not only explicit local variables,
-but also parameters, temporaries, etc.
-
-
-<p>
-The first parameter or local variable has index&nbsp;1, and so on,
-following the order that they are declared in the code,
-counting only the variables that are active
-in the current scope of the function.
-Negative indices refer to vararg parameters;
--1 is the first vararg parameter.
-The function returns <b>nil</b> if there is no variable with the given index,
-and raises an error when called with a level out of range.
-(You can call <a href="#pdf-debug.getinfo"><code>debug.getinfo</code></a> to check whether the level is valid.)
-
-
-<p>
-Variable names starting with '<code>(</code>' (open parenthesis) 
-represent variables with no known names
-(internal variables such as loop control variables,
-and variables from chunks saved without debug information).
-
-
-<p>
-The parameter <code>f</code> may also be a function.
-In that case, <code>getlocal</code> returns only the name of function parameters.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.getmetatable"><code>debug.getmetatable (value)</code></a></h3>
-
-
-<p>
-Returns the metatable of the given <code>value</code>
-or <b>nil</b> if it does not have a metatable.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.getregistry"><code>debug.getregistry ()</code></a></h3>
-
-
-<p>
-Returns the registry table (see <a href="#4.5">&sect;4.5</a>).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.getupvalue"><code>debug.getupvalue (f, up)</code></a></h3>
-
-
-<p>
-This function returns the name and the value of the upvalue
-with index <code>up</code> of the function <code>f</code>.
-The function returns <b>nil</b> if there is no upvalue with the given index.
-
-
-<p>
-Variable names starting with '<code>(</code>' (open parenthesis) 
-represent variables with no known names
-(variables from chunks saved without debug information).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.getuservalue"><code>debug.getuservalue (u)</code></a></h3>
-
-
-<p>
-Returns the Lua value associated to <code>u</code>.
-If <code>u</code> is not a userdata,
-returns <b>nil</b>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.sethook"><code>debug.sethook ([thread,] hook, mask [, count])</code></a></h3>
-
-
-<p>
-Sets the given function as a hook.
-The string <code>mask</code> and the number <code>count</code> describe
-when the hook will be called.
-The string mask may have any combination of the following characters,
-with the given meaning:
-
-<ul>
-<li><b>'<code>c</code>': </b> the hook is called every time Lua calls a function;</li>
-<li><b>'<code>r</code>': </b> the hook is called every time Lua returns from a function;</li>
-<li><b>'<code>l</code>': </b> the hook is called every time Lua enters a new line of code.</li>
-</ul><p>
-Moreover,
-with a <code>count</code> different from zero,
-the hook is called also after every <code>count</code> instructions.
-
-
-<p>
-When called without arguments,
-<a href="#pdf-debug.sethook"><code>debug.sethook</code></a> turns off the hook.
-
-
-<p>
-When the hook is called, its first parameter is a string
-describing the event that has triggered its call:
-<code>"call"</code> (or <code>"tail call"</code>),
-<code>"return"</code>,
-<code>"line"</code>, and <code>"count"</code>.
-For line events,
-the hook also gets the new line number as its second parameter.
-Inside a hook,
-you can call <code>getinfo</code> with level&nbsp;2 to get more information about
-the running function
-(level&nbsp;0 is the <code>getinfo</code> function,
-and level&nbsp;1 is the hook function).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.setlocal"><code>debug.setlocal ([thread,] level, local, value)</code></a></h3>
-
-
-<p>
-This function assigns the value <code>value</code> to the local variable
-with index <code>local</code> of the function at level <code>level</code> of the stack.
-The function returns <b>nil</b> if there is no local
-variable with the given index,
-and raises an error when called with a <code>level</code> out of range.
-(You can call <code>getinfo</code> to check whether the level is valid.)
-Otherwise, it returns the name of the local variable.
-
-
-<p>
-See <a href="#pdf-debug.getlocal"><code>debug.getlocal</code></a> for more information about
-variable indices and names.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.setmetatable"><code>debug.setmetatable (value, table)</code></a></h3>
-
-
-<p>
-Sets the metatable for the given <code>value</code> to the given <code>table</code>
-(which can be <b>nil</b>).
-Returns <code>value</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.setupvalue"><code>debug.setupvalue (f, up, value)</code></a></h3>
-
-
-<p>
-This function assigns the value <code>value</code> to the upvalue
-with index <code>up</code> of the function <code>f</code>.
-The function returns <b>nil</b> if there is no upvalue
-with the given index.
-Otherwise, it returns the name of the upvalue.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.setuservalue"><code>debug.setuservalue (udata, value)</code></a></h3>
-
-
-<p>
-Sets the given <code>value</code> as
-the Lua value associated to the given <code>udata</code>.
-<code>udata</code> must be a full userdata.
-
-
-<p>
-Returns <code>udata</code>.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.traceback"><code>debug.traceback ([thread,] [message [, level]])</code></a></h3>
-
-
-<p>
-If <code>message</code> is present but is neither a string nor <b>nil</b>,
-this function returns <code>message</code> without further processing.
-Otherwise,
-it returns a string with a traceback of the call stack.
-The optional <code>message</code> string is appended
-at the beginning of the traceback.
-An optional <code>level</code> number tells at which level
-to start the traceback
-(default is 1, the function calling <code>traceback</code>).
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.upvalueid"><code>debug.upvalueid (f, n)</code></a></h3>
-
-
-<p>
-Returns a unique identifier (as a light userdata)
-for the upvalue numbered <code>n</code>
-from the given function.
-
-
-<p>
-These unique identifiers allow a program to check whether different
-closures share upvalues.
-Lua closures that share an upvalue
-(that is, that access a same external local variable)
-will return identical ids for those upvalue indices.
-
-
-
-
-<p>
-<hr><h3><a name="pdf-debug.upvaluejoin"><code>debug.upvaluejoin (f1, n1, f2, n2)</code></a></h3>
-
-
-<p>
-Make the <code>n1</code>-th upvalue of the Lua closure <code>f1</code>
-refer to the <code>n2</code>-th upvalue of the Lua closure <code>f2</code>.
-
-
-
-
-
-
-
-<h1>7 &ndash; <a name="7">Lua Standalone</a></h1>
-
-<p>
-Although Lua has been designed as an extension language,
-to be embedded in a host C&nbsp;program,
-it is also frequently used as a standalone language.
-An interpreter for Lua as a standalone language,
-called simply <code>lua</code>,
-is provided with the standard distribution.
-The standalone interpreter includes
-all standard libraries, including the debug library.
-Its usage is:
-
-<pre>
-     lua [options] [script [args]]
-</pre><p>
-The options are:
-
-<ul>
-<li><b><code>-e <em>stat</em></code>: </b> executes string <em>stat</em>;</li>
-<li><b><code>-l <em>mod</em></code>: </b> "requires" <em>mod</em>;</li>
-<li><b><code>-i</code>: </b> enters interactive mode after running <em>script</em>;</li>
-<li><b><code>-v</code>: </b> prints version information;</li>
-<li><b><code>-E</code>: </b> ignores environment variables;</li>
-<li><b><code>--</code>: </b> stops handling options;</li>
-<li><b><code>-</code>: </b> executes <code>stdin</code> as a file and stops handling options.</li>
-</ul><p>
-After handling its options, <code>lua</code> runs the given <em>script</em>.
-When called without arguments,
-<code>lua</code> behaves as <code>lua -v -i</code>
-when the standard input (<code>stdin</code>) is a terminal,
-and as <code>lua -</code> otherwise.
-
-
-<p>
-When called without option <code>-E</code>, 
-the interpreter checks for an environment variable <a name="pdf-LUA_INIT_5_3"><code>LUA_INIT_5_3</code></a>
-(or <a name="pdf-LUA_INIT"><code>LUA_INIT</code></a> if the versioned name is not defined)
-before running any argument.
-If the variable content has the format <code>@<em>filename</em></code>,
-then <code>lua</code> executes the file.
-Otherwise, <code>lua</code> executes the string itself.
-
-
-<p>
-When called with option <code>-E</code>,
-besides ignoring <code>LUA_INIT</code>,
-Lua also ignores
-the values of <code>LUA_PATH</code> and <code>LUA_CPATH</code>,
-setting the values of
-<a href="#pdf-package.path"><code>package.path</code></a> and <a href="#pdf-package.cpath"><code>package.cpath</code></a>
-with the default paths defined in <code>luaconf.h</code>.
-
-
-<p>
-All options are handled in order, except <code>-i</code> and <code>-E</code>.
-For instance, an invocation like
-
-<pre>
-     $ lua -e'a=1' -e 'print(a)' script.lua
-</pre><p>
-will first set <code>a</code> to 1, then print the value of <code>a</code>,
-and finally run the file <code>script.lua</code> with no arguments.
-(Here <code>$</code> is the shell prompt. Your prompt may be different.)
-
-
-<p>
-Before running any code,
-<code>lua</code> collects all command-line arguments
-in a global table called <code>arg</code>.
-The script name goes to index 0,
-the first argument after the script name goes to index 1,
-and so on.
-Any arguments before the script name
-(that is, the interpreter name plus its options)
-go to negative indices.
-For instance, in the call
-
-<pre>
-     $ lua -la b.lua t1 t2
-</pre><p>
-the table is like this:
-
-<pre>
-     arg = { [-2] = "lua", [-1] = "-la",
-             [0] = "b.lua",
-             [1] = "t1", [2] = "t2" }
-</pre><p>
-If there is no script in the call,
-the interpreter name goes to index 0,
-followed by the other arguments.
-For instance, the call
-
-<pre>
-     $ lua -e "print(arg[1])"
-</pre><p>
-will print "<code>-e</code>".
-If there is a script,
-the script is called with parameters
-<code>arg[1]</code>, &middot;&middot;&middot;, <code>arg[#arg]</code>.
-(Like all chunks in Lua,
-the script is compiled as a vararg function.)
-
-
-<p>
-In interactive mode,
-Lua repeatedly prompts and waits for a line.
-After reading a line,
-Lua first try to interpret the line as an expression.
-If it succeeds, it prints its value.
-Otherwise, it interprets the line as a statement.
-If you write an incomplete statement,
-the interpreter waits for its completion
-by issuing a different prompt.
-
-
-<p>
-In case of unprotected errors in the script,
-the interpreter reports the error to the standard error stream.
-If the error object is not a string but 
-has a metamethod <code>__tostring</code>,
-the interpreter calls this metamethod to produce the final message.
-Otherwise, the interpreter converts the error object to a string
-and adds a stack traceback to it.
-
-
-<p>
-When finishing normally,
-the interpreter closes its main Lua state
-(see <a href="#lua_close"><code>lua_close</code></a>).
-The script can avoid this step by
-calling <a href="#pdf-os.exit"><code>os.exit</code></a> to terminate.
-
-
-<p>
-To allow the use of Lua as a
-script interpreter in Unix systems,
-the standalone interpreter skips
-the first line of a chunk if it starts with <code>#</code>.
-Therefore, Lua scripts can be made into executable programs
-by using <code>chmod +x</code> and the&nbsp;<code>#!</code> form,
-as in
-
-<pre>
-     #!/usr/local/bin/lua
-</pre><p>
-(Of course,
-the location of the Lua interpreter may be different in your machine.
-If <code>lua</code> is in your <code>PATH</code>,
-then
-
-<pre>
-     #!/usr/bin/env lua
-</pre><p>
-is a more portable solution.)
-
-
-
-<h1>8 &ndash; <a name="8">Incompatibilities with the Previous Version</a></h1>
-
-<p>
-Here we list the incompatibilities that you may find when moving a program
-from Lua&nbsp;5.2 to Lua&nbsp;5.3.
-You can avoid some incompatibilities by compiling Lua with
-appropriate options (see file <code>luaconf.h</code>).
-However,
-all these compatibility options will be removed in the future.
-
-
-<p>
-Lua versions can always change the C API in ways that
-do not imply source-code changes in a program,
-such as the numeric values for constants
-or the implementation of functions as macros.
-Therefore,
-you should not assume that binaries are compatible between
-different Lua versions.
-Always recompile clients of the Lua API when
-using a new version.
-
-
-<p>
-Similarly, Lua versions can always change the internal representation
-of precompiled chunks;
-precompiled chunks are not compatible between different Lua versions.
-
-
-<p>
-The standard paths in the official distribution may
-change between versions.
-
-
-
-<h2>8.1 &ndash; <a name="8.1">Changes in the Language</a></h2>
-<ul>
-
-<li>
-The main difference between Lua&nbsp;5.2 and Lua&nbsp;5.3 is the
-introduction of an integer subtype for numbers.
-Although this change should not affect "normal" computations,
-some computations
-(mainly those that involve some kind of overflow)
-can give different results.
-
-
-<p>
-You can fix these differences by forcing a number to be a float
-(in Lua&nbsp;5.2 all numbers were float),
-in particular writing constants with an ending <code>.0</code>
-or using <code>x = x + 0.0</code> to convert a variable.
-(This recommendation is only for a quick fix
-for an occasional incompatibility;
-it is not a general guideline for good programming.
-For good programming,
-use floats where you need floats
-and integers where you need integers.)
-</li>
-
-<li>
-The conversion of a float to a string now adds a <code>.0</code> suffix
-to the result if it looks like an integer.
-(For instance, the float 2.0 will be printed as <code>2.0</code>,
-not as <code>2</code>.)
-You should always use an explicit format
-when you need a specific format for numbers.
-
-
-<p>
-(Formally this is not an incompatibility,
-because Lua does not specify how numbers are formatted as strings,
-but some programs assumed a specific format.)
-</li>
-
-<li>
-The generational mode for the garbage collector was removed.
-(It was an experimental feature in Lua&nbsp;5.2.)
-</li>
-
-</ul>
-
-
-
-
-<h2>8.2 &ndash; <a name="8.2">Changes in the Libraries</a></h2>
-<ul>
-
-<li>
-The <code>bit32</code> library has been deprecated.
-It is easy to require a compatible external library or,
-better yet, to replace its functions with appropriate bitwise operations.
-(Keep in mind that <code>bit32</code> operates on 32-bit integers,
-while the bitwise operators in standard Lua operate on 64-bit integers.)
-</li>
-
-<li>
-The Table library now respects metamethods
-for setting and getting elements.
-</li>
-
-<li>
-The <a href="#pdf-ipairs"><code>ipairs</code></a> iterator now respects metamethods and
-its <code>__ipairs</code> metamethod has been deprecated.
-</li>
-
-<li>
-Option names in <a href="#pdf-io.read"><code>io.read</code></a> do not have a starting '<code>*</code>' anymore.
-For compatibility, Lua will continue to ignore this character.
-</li>
-
-<li>
-The following functions were deprecated in the mathematical library:
-<code>atan2</code>, <code>cosh</code>, <code>sinh</code>, <code>tanh</code>, <code>pow</code>,
-<code>frexp</code>, and <code>ldexp</code>.
-You can replace <code>math.pow(x,y)</code> with <code>x^y</code>;
-you can replace <code>math.atan2</code> with <code>math.atan</code>,
-which now accepts one or two parameters;
-you can replace <code>math.ldexp(x,exp)</code> with <code>x * 2.0^exp</code>.
-For the other operations,
-you can either use an external library or
-implement them in Lua.
-</li>
-
-<li>
-The searcher for C loaders used by <a href="#pdf-require"><code>require</code></a>
-changed the way it handles versioned names.
-Now, the version should come after the module name
-(as is usual in most other tools).
-For compatibility, that searcher still tries the old format
-if it cannot find an open function according to the new style.
-(Lua&nbsp;5.2 already worked that way,
-but it did not document the change.)
-</li>
-
-</ul>
-
-
-
-
-<h2>8.3 &ndash; <a name="8.3">Changes in the API</a></h2>
-
-
-<ul>
-
-<li>
-Continuation functions now receive as parameters what they needed
-to get through <code>lua_getctx</code>,
-so <code>lua_getctx</code> has been removed.
-Adapt your code accordingly.
-</li>
-
-<li>
-Function <a href="#lua_dump"><code>lua_dump</code></a> has an extra parameter, <code>strip</code>.
-Use 0 as the value of this parameter to get the old behavior.
-</li>
-
-<li>
-Functions to inject/project unsigned integers
-(<code>lua_pushunsigned</code>, <code>lua_tounsigned</code>, <code>lua_tounsignedx</code>,
-<code>luaL_checkunsigned</code>, <code>luaL_optunsigned</code>)
-were deprecated.
-Use their signed equivalents with a type cast.
-</li>
-
-<li>
-Macros to project non-default integer types
-(<code>luaL_checkint</code>, <code>luaL_optint</code>, <code>luaL_checklong</code>, <code>luaL_optlong</code>)
-were deprecated.
-Use their equivalent over <a href="#lua_Integer"><code>lua_Integer</code></a> with a type cast
-(or, when possible, use <a href="#lua_Integer"><code>lua_Integer</code></a> in your code).
-</li>
-
-</ul>
-
-
-
-
-<h1>9 &ndash; <a name="9">The Complete Syntax of Lua</a></h1>
-
-<p>
-Here is the complete syntax of Lua in extended BNF.
-As usual in extended BNF,
-{A} means 0 or more As,
-and [A] means an optional A.
-(For operator precedences, see <a href="#3.4.8">&sect;3.4.8</a>;
-for a description of the terminals
-Name, Numeral,
-and LiteralString, see <a href="#3.1">&sect;3.1</a>.)
-
-
-
-
-<pre>
-
-	chunk ::= block
-
-	block ::= {stat} [retstat]
-
-	stat ::=  &lsquo;<b>;</b>&rsquo; | 
-		 varlist &lsquo;<b>=</b>&rsquo; explist | 
-		 functioncall | 
-		 label | 
-		 <b>break</b> | 
-		 <b>goto</b> Name | 
-		 <b>do</b> block <b>end</b> | 
-		 <b>while</b> exp <b>do</b> block <b>end</b> | 
-		 <b>repeat</b> block <b>until</b> exp | 
-		 <b>if</b> exp <b>then</b> block {<b>elseif</b> exp <b>then</b> block} [<b>else</b> block] <b>end</b> | 
-		 <b>for</b> Name &lsquo;<b>=</b>&rsquo; exp &lsquo;<b>,</b>&rsquo; exp [&lsquo;<b>,</b>&rsquo; exp] <b>do</b> block <b>end</b> | 
-		 <b>for</b> namelist <b>in</b> explist <b>do</b> block <b>end</b> | 
-		 <b>function</b> funcname funcbody | 
-		 <b>local</b> <b>function</b> Name funcbody | 
-		 <b>local</b> namelist [&lsquo;<b>=</b>&rsquo; explist] 
-
-	retstat ::= <b>return</b> [explist] [&lsquo;<b>;</b>&rsquo;]
-
-	label ::= &lsquo;<b>::</b>&rsquo; Name &lsquo;<b>::</b>&rsquo;
-
-	funcname ::= Name {&lsquo;<b>.</b>&rsquo; Name} [&lsquo;<b>:</b>&rsquo; Name]
-
-	varlist ::= var {&lsquo;<b>,</b>&rsquo; var}
-
-	var ::=  Name | prefixexp &lsquo;<b>[</b>&rsquo; exp &lsquo;<b>]</b>&rsquo; | prefixexp &lsquo;<b>.</b>&rsquo; Name 
-
-	namelist ::= Name {&lsquo;<b>,</b>&rsquo; Name}
-
-	explist ::= exp {&lsquo;<b>,</b>&rsquo; exp}
-
-	exp ::=  <b>nil</b> | <b>false</b> | <b>true</b> | Numeral | LiteralString | &lsquo;<b>...</b>&rsquo; | functiondef | 
-		 prefixexp | tableconstructor | exp binop exp | unop exp 
-
-	prefixexp ::= var | functioncall | &lsquo;<b>(</b>&rsquo; exp &lsquo;<b>)</b>&rsquo;
-
-	functioncall ::=  prefixexp args | prefixexp &lsquo;<b>:</b>&rsquo; Name args 
-
-	args ::=  &lsquo;<b>(</b>&rsquo; [explist] &lsquo;<b>)</b>&rsquo; | tableconstructor | LiteralString 
-
-	functiondef ::= <b>function</b> funcbody
-
-	funcbody ::= &lsquo;<b>(</b>&rsquo; [parlist] &lsquo;<b>)</b>&rsquo; block <b>end</b>
-
-	parlist ::= namelist [&lsquo;<b>,</b>&rsquo; &lsquo;<b>...</b>&rsquo;] | &lsquo;<b>...</b>&rsquo;
-
-	tableconstructor ::= &lsquo;<b>{</b>&rsquo; [fieldlist] &lsquo;<b>}</b>&rsquo;
-
-	fieldlist ::= field {fieldsep field} [fieldsep]
-
-	field ::= &lsquo;<b>[</b>&rsquo; exp &lsquo;<b>]</b>&rsquo; &lsquo;<b>=</b>&rsquo; exp | Name &lsquo;<b>=</b>&rsquo; exp | exp
-
-	fieldsep ::= &lsquo;<b>,</b>&rsquo; | &lsquo;<b>;</b>&rsquo;
-
-	binop ::=  &lsquo;<b>+</b>&rsquo; | &lsquo;<b>-</b>&rsquo; | &lsquo;<b>*</b>&rsquo; | &lsquo;<b>/</b>&rsquo; | &lsquo;<b>//</b>&rsquo; | &lsquo;<b>^</b>&rsquo; | &lsquo;<b>%</b>&rsquo; | 
-		 &lsquo;<b>&amp;</b>&rsquo; | &lsquo;<b>~</b>&rsquo; | &lsquo;<b>|</b>&rsquo; | &lsquo;<b>&gt;&gt;</b>&rsquo; | &lsquo;<b>&lt;&lt;</b>&rsquo; | &lsquo;<b>..</b>&rsquo; | 
-		 &lsquo;<b>&lt;</b>&rsquo; | &lsquo;<b>&lt;=</b>&rsquo; | &lsquo;<b>&gt;</b>&rsquo; | &lsquo;<b>&gt;=</b>&rsquo; | &lsquo;<b>==</b>&rsquo; | &lsquo;<b>~=</b>&rsquo; | 
-		 <b>and</b> | <b>or</b>
-
-	unop ::= &lsquo;<b>-</b>&rsquo; | <b>not</b> | &lsquo;<b>#</b>&rsquo; | &lsquo;<b>~</b>&rsquo;
-
-</pre>
-
-<p>
-
-
-
-
-
-
-
-
-<HR>
-<SMALL CLASS="footer">
-Last update:
-Fri Jan 16 00:58:20 BRST 2015
-</SMALL>
-<!--
-Last change: minor edit
--->
-
-</div>
-</body>
-</html>
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/website/src/manual.html.luan	Thu Apr 23 18:09:12 2015 -0600
@@ -0,0 +1,10249 @@
+local Io = require "luan:Io"
+local Html = require "luan:Html"
+local Http = require "luan:web/Http"
+
+
+function service()
+	Io.stdout = Http.response.text_writer()
+	Html.simply_html_page{
+		head = function() %>
+			<title>Luan Reference Manual</title>
+<%		end;
+		body = function() %>
+
+<div container>
+<div><small><a href="/">Luan</a></small></div>
+
+<h1>Luan Reference Manual</h1>
+
+<p>
+<small>
+Original copyright &copy; 2015 Lua.org, PUC-Rio.
+Freely available under the terms of the
+<a href="http://www.lua.org/license.html">Lua license</a>.
+Modified for Luan.
+</small>
+</p>
+
+<hr/>
+
+<h2>Contents</h2>
+
+<div margin-bottom="1em"><a href="#intro">Introduction</a></div>
+
+<div margin-bottom="1em">
+	<a href="#basic">Basic Concepts</a>
+	<ul>
+		<li><a href="#types">Values and Types</a></li>
+		<li><a href="#env">Environments</a></li>
+		<li><a href="#error">Error Handling</a></li>
+		<li><a href="#meta">Metatables and Metamethods</a></li>
+		<li><a href="#gc">Garbage Collection</a></li>
+	</ul>
+</div>
+
+<div margin-bottom="1em">
+	<a href="#lang">The Language</a>
+	<ul>
+		<li><a href="#lex">Lexical Conventions</a></li>
+		<li><a href="#vars">Variables</a></li>
+	</ul>
+</div>
+
+<hr/>
+
+
+<h2 margin-top="1em"><a name="intro">Introduction</a></h2>
+
+<p>Luan is a high level programming language based on <a href="http://www.lua.org">Lua</a>.  A great strength of Lua is its simplicity and Luan takes this even further, being even simpler than Lua.  The goal is to provide a simple programming language for the casual programmer with as few concepts as possible so that one can quickly learn the language and then easily understand any code written in Luan.</p>
+
+<p>Luan is implemented in Java and is tightly coupled with Java.  So it makes a great scripting language for Java programmers.</p>
+
+<p>Unlike Lua which is meant to be embedded, Luan is meant to be a full scripting language.  This done not by adding feature to Luan, but rather by providing a complete set of libraries.</p>
+
+
+<h2 margin-top="1em"><a name="basic">Basic Concepts</a></h2>
+
+<p>This section describes the basic concepts of the language.</p>
+
+<h3 margin-top="1em"><a name="types">Values and Types</a></h3>
+
+<p>
+Luan is a <i>dynamically typed language</i>.
+This means that
+variables do not have types; only values do.
+There are no type definitions in the language.
+All values carry their own type.
+
+
+<p>
+All values in Luan are <i>first-class values</i>.
+This means that all values can be stored in variables,
+passed as arguments to other functions, and returned as results.
+
+
+<p>
+There are eight basic types in Luan:
+<i>nil</i>, <i>boolean</i>, <i>number</i>,
+<i>string</i>, <i>binary</i>, <i>function</i>, <i>userdata</i>,
+and <i>table</i>.
+<i>Nil</i> is the type of the value <b>nil</b>,
+whose main property is to be different from any other value;
+it usually represents the absence of a useful value.
+<i>Nil</i> is implemented as the Java value <i>null</i>.
+<i>Boolean</i> is the type of the values <b>false</b> and <b>true</b>.
+<i>Boolean</i> is implemented as the Java class <i>Boolean</i>.
+<i>Number</i> represents both
+integer numbers and real (floating-point) numbers.
+<i>Number</i> is implemented as the Java class <i>Number</i>.  Any Java subclass of <i>Number</i> is allowed and this is invisible to the Luan user.  Operations on numbers follow the same rules of
+the underlying Java implementation.
+
+<i>String</i> is implemented as the Java class <i>String</i>.
+<i>Binary</i> is implemented as the Java type <i>byte[]</i>.
+
+
+<p>
+Luan can call (and manipulate) functions written in Luan and
+functions written in Java (see <a href="#3.4.10">&sect;3.4.10</a>).
+Both are represented by the type <i>function</i>.
+
+
+<p>
+The type <i>userdata</i> is provided to allow arbitrary Java objects to
+be stored in Luan variables.
+A userdata value is a Java object that isn't one of the standard Luan types.
+Userdata has no predefined operations in Luan,
+except assignment and identity test.
+Userdata is useful then Java access is enabled in Luan
+
+
+
+<p>
+The type <i>table</i> implements associative arrays,
+that is, arrays that can be indexed not only with numbers,
+but with any Luan value except <b>nil</b>.
+Tables can be <i>heterogeneous</i>;
+that is, they can contain values of all types (except <b>nil</b>).
+Any key with value <b>nil</b> is not considered part of the table.
+Conversely, any key that is not part of a table has
+an associated value <b>nil</b>.
+
+
+<p>
+Tables are the sole data-structuring mechanism in Luan;
+they can be used to represent ordinary arrays, sequences,
+symbol tables, sets, records, graphs, trees, etc.
+To represent records, Luan uses the field name as an index.
+The language supports this representation by
+providing <tt>a.name</tt> as syntactic sugar for <tt>a["name"]</tt>.
+There are several convenient ways to create tables in Luan
+(see <a href="#3.4.9">&sect;3.4.9</a>).
+
+
+<p>
+We use the term <i>sequence</i> to denote a table where
+the set of all positive numeric keys is equal to {1..<i>n</i>}
+for some non-negative integer <i>n</i>,
+which is called the length of the sequence (see <a href="#3.4.7">&sect;3.4.7</a>).
+
+
+<p>
+Like indices,
+the values of table fields can be of any type.
+In particular,
+because functions are first-class values,
+table fields can contain functions.
+Thus tables can also carry <i>methods</i> (see <a href="#3.4.11">&sect;3.4.11</a>).
+
+
+<p>
+The indexing of tables follows
+the definition of raw equality in the language.
+The expressions <tt>a[i]</tt> and <tt>a[j]</tt>
+denote the same table element
+if and only if <tt>i</tt> and <tt>j</tt> are raw equal
+(that is, equal without metamethods).
+In particular, floats with integral values
+are equal to their respective integers
+(e.g., <tt>1.0 == 1</tt>).
+
+
+<p>
+Luan values are <i>objects</i>:
+variables do not actually <i>contain</i> values,
+only <i>references</i> to them.
+Assignment, parameter passing, and function returns
+always manipulate references to values;
+these operations do not imply any kind of copy.
+
+
+<p>
+The library function <a href="#pdf-type"><tt>Luan.type</tt></a> returns a string describing the type
+of a given value (see <a href="#6.1">&sect;6.1</a>).
+
+
+
+
+
+<h3 margin-top="1em"><a name="env">Environments</a></h3>
+
+<p>
+As will be discussed in <a href="#3.2">&sect;3.2</a> and <a href="#3.3.3">&sect;3.3.3</a>,
+any reference to a free name
+(that is, a name not bound to any declaration) <tt>var</tt>
+is syntactically translated to <tt>_ENV.var</tt>.
+Moreover, every chunk is compiled in the scope of
+an external local variable named <tt>_ENV</tt> (see <a href="#3.3.2">&sect;3.3.2</a>),
+so <tt>_ENV</tt> itself is never a free name in a chunk.
+
+
+<p>
+Despite the existence of this external <tt>_ENV</tt> variable and
+the translation of free names,
+<tt>_ENV</tt> is a completely regular name.
+In particular,
+you can define new variables and parameters with that name.
+Each reference to a free name uses the <tt>_ENV</tt> that is
+visible at that point in the program,
+following the usual visibility rules of Luan (see <a href="#3.5">&sect;3.5</a>).
+
+
+<p>
+Any table used as the value of <tt>_ENV</tt> is called an <i>environment</i>.
+
+
+<p>
+When Luan loads a chunk,
+the default value for its <tt>_ENV</tt> is an empty table.
+
+<p>
+Luan also provides all chunks with two other local values: <tt>require</tt> and <tt>java</tt>.  These are functions used to load and access libraries and other modules.
+
+
+
+
+<h3 margin-top="1em"><a name="error">Error Handling</a></h3>
+
+<p>
+Luan code can explicitly generate an error by calling the
+<a href="#pdf-error"><tt>error</tt></a> function.
+If you need to catch errors in Luan,
+you can use <a href="#pdf-pcall"><tt>pcall</tt></a> or <a href="#pdf-xpcall"><tt>try</tt></a>
+to call a given function in <i>protected mode</i>.
+
+
+<p>
+Whenever there is an error,
+an <i>error object</i> (also called an <i>error message</i>)
+is propagated with information about the error.
+Luan itself only generates errors whose error object is a string,
+but programs may generate errors with
+any value as the error object.
+It is up to the Luan program or its host to handle such error objects.
+
+
+
+
+
+<h3 margin-top="1em"><a name="meta">Metatables and Metamethods</a></h3>
+
+<p>
+Every table in Luan can have a <i>metatable</i>.
+This <i>metatable</i> is an ordinary Luan table
+that defines the behavior of the original value
+under certain special operations.
+You can change several aspects of the behavior
+of operations over a value by setting specific fields in its metatable.
+For instance, when a table is the operand of an addition,
+Luan checks for a function in the field "<tt>__add</tt>" of the table's metatable.
+If it finds one,
+Luan calls this function to perform the addition.
+
+
+<p>
+The keys in a metatable are derived from the <i>event</i> names;
+the corresponding values are called <ii>metamethods</i>.
+In the previous example, the event is <tt>"add"</tt>
+and the metamethod is the function that performs the addition.
+
+
+<p>
+You can query the metatable of any table
+using the <a href="#pdf-getmetatable"><tt>get_metatable</tt></a> function.
+
+
+<p>
+You can replace the metatable of tables
+using the <a href="#pdf-setmetatable"><tt>set_metatable</tt></a> function.
+
+
+<p>
+A metatable controls how a table behaves in
+arithmetic operations, bitwise operations,
+order comparisons, concatenation, length operation, calls, and indexing.
+
+
+<p>
+A detailed list of events controlled by metatables is given next.
+Each operation is identified by its corresponding event name.
+The key for each event is a string with its name prefixed by
+two underscores, '<tt>__</tt>';
+for instance, the key for operation "add" is the
+string "<tt>__add</tt>".
+Note that queries for metamethods are always raw;
+the access to a metamethod does not invoke other metamethods.
+You can emulate how Luan queries a metamethod for an object <tt>obj</tt>
+with the following code:
+
+<p><tt><pre>
+     raw_get(get_metatable(obj) or {}, "__" .. event_name)
+</pre></tt></p>
+
+<p>
+Here are the events:
+
+<ul>
+
+<li><b>"add": </b>
+the <tt>+</tt> operation.
+
+If any operand for an addition is a table,
+Luan will try to call a metamethod.
+First, Luan will check the first operand (even if it is valid).
+If that operand does not define a metamethod for the "<tt>__add</tt>" event,
+then Luan will check the second operand.
+If Luan can find a metamethod,
+it calls the metamethod with the two operands as arguments,
+and the result of the call
+(adjusted to one value)
+is the result of the operation.
+Otherwise,
+it raises an error.
+</li>
+
+<li><b>"sub": </b>
+the <tt>-</tt> operation.
+
+Behavior similar to the "add" operation.
+</li>
+
+<li><b>"mul": </b>
+the <tt>*</tt> operation.
+
+Behavior similar to the "add" operation.
+</li>
+
+<li><b>"div": </b>
+the <tt>/</tt> operation.
+
+Behavior similar to the "add" operation.
+</li>
+
+<li><b>"mod": </b>
+the <tt>%</tt> operation.
+
+Behavior similar to the "add" operation.
+</li>
+
+<li><b>"pow": </b>
+the <tt>^</tt> (exponentiation) operation.
+
+Behavior similar to the "add" operation.
+</li>
+
+<li><b>"unm": </b>
+the <tt>-</tt> (unary minus) operation.
+
+Behavior similar to the "add" operation.
+</li>
+
+<li><b>"concat": </b>
+the <tt>..</tt> (concatenation) operation.
+
+Behavior similar to the "add" operation.
+</li>
+
+<li><b>"len": </b>
+the <tt>#</tt> (length) operation.
+
+If there is a metamethod,
+Luan calls it with the object as argument,
+and the result of the call
+(always adjusted to one value)
+is the result of the operation.
+If there is no metamethod but the object is a table,
+then Luan uses the table length operation (see <a href="#3.4.7">&sect;3.4.7</a>).
+Otherwise, Luan raises an error.
+</li>
+
+<li><b>"eq": </b>
+the <tt>==</tt> (equal) operation.
+
+Behavior similar to the "add" operation,
+except that Luan will try a metamethod only when the values
+being compared are both tables
+and they are not primitively equal.
+The result of the call is always converted to a boolean.
+</li>
+
+<li><b>"lt": </b>
+the <tt>&lt;</tt> (less than) operation.
+
+Behavior similar to the "add" operation.
+The result of the call is always converted to a boolean.
+</li>
+
+<li><b>"le": </b>
+the <tt>&lt;=</tt> (less equal) operation.
+
+Unlike other operations,
+The less-equal operation can use two different events.
+First, Luan looks for the "<tt>__le</tt>" metamethod in both operands,
+like in the "lt" operation.
+If it cannot find such a metamethod,
+then it will try the "<tt>__lt</tt>" event,
+assuming that <tt>a &lt;= b</tt> is equivalent to <tt>not (b &lt; a)</tt>.
+As with the other comparison operators,
+the result is always a boolean.
+</li>
+
+<li><b>"index": </b>
+The indexing access <tt>table[key]</tt>.
+
+This event happens
+when <tt>key</tt> is not present in <tt>table</tt>.
+The metamethod is looked up in <tt>table</tt>.
+
+
+<p>
+Despite the name,
+the metamethod for this event can be either a function or a table.
+If it is a function,
+it is called with <tt>table</tt> and <tt>key</tt> as arguments.
+If it is a table,
+the final result is the result of indexing this table with <tt>key</tt>.
+(This indexing is regular, not raw,
+and therefore can trigger another metamethod.)
+</li>
+
+<li><b>"newindex": </b>
+The indexing assignment <tt>table[key] = value</tt>.
+
+Like the index event,
+this event happens when
+when <tt>key</tt> is not present in <tt>table</tt>.
+The metamethod is looked up in <tt>table</tt>.
+
+
+<p>
+Like with indexing,
+the metamethod for this event can be either a function or a table.
+If it is a function,
+it is called with <tt>table</tt>, <tt>key</tt>, and <tt>value</tt> as arguments.
+If it is a table,
+Luan does an indexing assignment to this table with the same key and value.
+(This assignment is regular, not raw,
+and therefore can trigger another metamethod.)
+
+
+<p>
+Whenever there is a "newindex" metamethod,
+Luan does not perform the primitive assignment.
+(If necessary,
+the metamethod itself can call <a href="#pdf-rawset"><tt>raw_set</tt></a>
+to do the assignment.)
+</li>
+
+<li><b>"call": </b>
+The call operation <tt>func(args)</tt>.
+
+This event happens when Luan tries to call a table.
+The metamethod is looked up in <tt>func</tt>.
+If present,
+the metamethod is called with <tt>func</tt> as its first argument,
+followed by the arguments of the original call (<tt>args</tt>).
+</li>
+
+</ul>
+
+
+
+
+<h3 margin-top="1em"><a name="gc">Garbage Collection</a></h3>
+
+<p>
+Luan uses Java's garbage collection.
+
+
+
+
+
+<h2 margin-top="1em"><a name="lang">The Language</a></h2>
+
+<p>
+This section describes the lexis, the syntax, and the semantics of Luan.
+In other words,
+this section describes
+which tokens are valid,
+how they can be combined,
+and what their combinations mean.
+
+
+<p>
+Language constructs will be explained using the usual extended BNF notation,
+in which
+{<i>a</i>}&nbsp;means&nbsp;0 or more <i>a</i>'s, and
+[<i>a</i>]&nbsp;means an optional <i>a</i>.
+Non-terminals are shown like non-terminal,
+keywords are shown like <b>kword</b>,
+and other terminal symbols are shown like &lsquo;<b>=</b>&rsquo;.
+The complete syntax of Luan can be found in <a href="#9">&sect;9</a>
+at the end of this manual.
+
+
+
+<h3 margin-top="1em"><a name="lex">Lexical Conventions</a></h3>
+
+<p>
+Luan ignores spaces and comments
+between lexical elements (tokens),
+except as delimiters between names and keywords.
+Luan generally considers the end of a line to be the end of a statement.  This catches errors and encourages readability.  The exception to this is in paranthesis ( <i>(...)</i>, <i>[...]</i>, and <i>{...}</i> ) where the end of line is treated as white space.
+
+<p>
+<i>Names</i>
+(also called <i>identifiers</i>)
+in Luan can be any string of letters,
+digits, and underscores,
+not beginning with a digit.
+Identifiers are used to name variables, table fields, and labels.
+
+
+<p>
+The following <i>keywords</i> are reserved
+and cannot be used as names:
+
+
+<p><pre>
+     and       break     do        else      elseif    end
+     false     for       function  goto      if        in
+     local     nil       not       or        repeat    return
+     then      true      until     while
+</pre></p>
+
+<p>
+Luan is a case-sensitive language:
+<tt>and</tt> is a reserved word, but <tt>And</tt> and <tt>AND</tt>
+are two different, valid names.
+
+
+<p>
+The following strings denote other tokens:
+
+<p><pre>
+     +     -     *     /     %     ^     #
+     &amp;     ~     |     &lt;&lt;    &gt;&gt;    //
+     ==    ~=    &lt;=    &gt;=    &lt;     &gt;     =
+     (     )     {     }     [     ]     ::
+     ;     :     ,     .     ..    ...
+</pre></p>
+
+<p>
+<i>Literal strings</i>
+can be delimited by matching single or double quotes,
+and can contain the following C-like escape sequences:
+'<tt>\a</tt>' (bell),
+'<tt>\b</tt>' (backspace),
+'<tt>\f</tt>' (form feed),
+'<tt>\n</tt>' (newline),
+'<tt>\r</tt>' (carriage return),
+'<tt>\t</tt>' (horizontal tab),
+'<tt>\v</tt>' (vertical tab),
+'<tt>\\</tt>' (backslash),
+'<tt>\"</tt>' (quotation mark [double quote]),
+and '<tt>\'</tt>' (apostrophe [single quote]).
+A backslash followed by a real newline
+results in a newline in the string.
+The escape sequence '<tt>\z</tt>' skips the following span
+of white-space characters,
+including line breaks;
+it is particularly useful to break and indent a long literal string
+into multiple lines without adding the newlines and spaces
+into the string contents.
+
+
+<p>
+Luan can specify any character in a literal string by its numerical value.
+This can be done
+with the escape sequence <tt>\x<i>XX</i></tt>,
+where <i>XX</i> is a sequence of exactly two hexadecimal digits,
+or with the escape sequence <tt>\<i>ddd</i></tt>,
+where <i>ddd</i> is a sequence of up to three decimal digits.
+(Note that if a decimal escape sequence is to be followed by a digit,
+it must be expressed using exactly three digits.)
+
+
+<p>
+Literal strings can also be defined using a long format
+enclosed by <i>long brackets</i>.
+We define an <i>opening long bracket of level <i>n</i></i> as an opening
+square bracket followed by <i>n</i> equal signs followed by another
+opening square bracket.
+So, an opening long bracket of level 0 is written as <tt>[[</tt>, 
+an opening long bracket of level 1 is written as <tt>[=[</tt>, 
+and so on.
+A <i>closing long bracket</i> is defined similarly;
+for instance,
+a closing long bracket of level 4 is written as  <tt>]====]</tt>.
+A <i>long literal</i> starts with an opening long bracket of any level and
+ends at the first closing long bracket of the same level.
+It can contain any text except a closing bracket of the same level.
+Literals in this bracketed form can run for several lines,
+do not interpret any escape sequences,
+and ignore long brackets of any other level.
+Any kind of end-of-line sequence
+(carriage return, newline, carriage return followed by newline,
+or newline followed by carriage return)
+is converted to a simple newline.
+
+
+<p>
+Any character in a literal string not
+explicitly affected by the previous rules represents itself.
+However, Luan opens files for parsing in text mode,
+and the system file functions may have problems with
+some control characters.
+So, it is safer to represent
+non-text data as a quoted literal with
+explicit escape sequences for non-text characters.
+
+
+<p>
+For convenience,
+when the opening long bracket is immediately followed by a newline,
+the newline is not included in the string.
+As an example
+the five literal strings below denote the same string:
+
+<p><pre>
+     a = 'alo\n123"'
+     a = "alo\n123\""
+     a = '\97lo\10\04923"'
+     a = [[alo
+     123"]]
+     a = [==[
+     alo
+     123"]==]
+</pre></p>
+
+<p>
+A <i>numerical constant</i> (or <i>numeral</i>)
+can be written with an optional fractional part
+and an optional decimal exponent,
+marked by a letter '<tt>e</tt>' or '<tt>E</tt>'.
+Luan also accepts hexadecimal constants,
+which start with <tt>0x</tt> or <tt>0X</tt>.
+Hexadecimal constants also accept an optional fractional part
+plus an optional binary exponent,
+marked by a letter '<tt>p</tt>' or '<tt>P</tt>'.
+A numeric constant with a fractional dot or an exponent 
+denotes a float;
+otherwise it denotes an integer.
+Examples of valid integer constants are
+
+<p><pre>
+     3   345   0xff   0xBEBADA
+</pre></p>
+
+<p>
+Examples of valid float constants are
+
+<p><pre>
+     3.0     3.1416     314.16e-2     0.31416E1     34e1
+     0x0.1E  0xA23p-4   0X1.921FB54442D18P+1
+</pre></p>
+
+<p>
+A <i>comment</i> starts with a double hyphen (<tt>--</tt>)
+anywhere outside a string.
+If the text immediately after <tt>--</tt> is not an opening long bracket,
+the comment is a <i>short comment</i>,
+which runs until the end of the line.
+Otherwise, it is a <i>long comment</i>,
+which runs until the corresponding closing long bracket.
+Long comments are frequently used to disable code temporarily.
+
+
+
+
+
+<h3 margin-top="1em"><a name="vars">Variables</a></h3>
+
+<p>
+Variables are places that store values.
+There are three kinds of variables in Luan:
+global variables, local variables, and table fields.
+
+
+<p>
+A single name can denote a global variable or a local variable
+(or a function's formal parameter,
+which is a particular kind of local variable):
+
+<p><pre>
+	var ::= Name
+</pre></p>
+
+<p>
+Name denotes identifiers, as defined in <a href="#3.1">&sect;3.1</a>.
+
+
+<p>
+Any variable name is assumed to be global unless explicitly declared
+as a local (see <a href="#3.3.7">&sect;3.3.7</a>).
+Local variables are <i>lexically scoped</i>:
+local variables can be freely accessed by functions
+defined inside their scope (see <a href="#3.5">&sect;3.5</a>).
+
+
+<p>
+Before the first assignment to a variable, its value is <b>nil</b>.
+
+
+<p>
+Square brackets are used to index a table:
+
+<p><pre>
+	var ::= prefixexp &lsquo;<b>[</b>&rsquo; exp &lsquo;<b>]</b>&rsquo;
+</pre></p>
+
+<p>
+The meaning of accesses to table fields can be changed via metatables.
+An access to an indexed variable <tt>t[i]</tt> is equivalent to
+a call <tt>gettable_event(t,i)</tt>.
+(See <a href="#2.4">&sect;2.4</a> for a complete description of the
+<tt>gettable_event</tt> function.
+This function is not defined or callable in Luan.
+We use it here only for explanatory purposes.)
+
+
+<p>
+The syntax <tt>var.Name</tt> is just syntactic sugar for
+<tt>var["Name"]</tt>:
+
+<p><pre>
+	var ::= prefixexp &lsquo;<b>.</b>&rsquo; Name
+</pre></p>
+
+<p>
+An access to a global variable <tt>x</tt>
+is equivalent to <tt>_ENV.x</tt>.
+Due to the way that chunks are compiled,
+<tt>_ENV</tt> is never a global name (see <a href="#2.2">&sect;2.2</a>).
+
+
+
+
+
+<h2>3.3 &ndash; <a name="3.3">Statements</a></h2>
+
+<p>
+Lua supports an almost conventional set of statements,
+similar to those in Pascal or C.
+This set includes
+assignments, control structures, function calls,
+and variable declarations.
+
+
+
+<h3>3.3.1 &ndash; <a name="3.3.1">Blocks</a></h3>
+
+<p>
+A block is a list of statements,
+which are executed sequentially:
+
+<pre>
+	block ::= {stat}
+</pre><p>
+Lua has <em>empty statements</em>
+that allow you to separate statements with semicolons,
+start a block with a semicolon
+or write two semicolons in sequence:
+
+<pre>
+	stat ::= &lsquo;<b>;</b>&rsquo;
+</pre>
+
+<p>
+Function calls and assignments
+can start with an open parenthesis.
+This possibility leads to an ambiguity in Lua's grammar.
+Consider the following fragment:
+
+<pre>
+     a = b + c
+     (print or io.write)('done')
+</pre><p>
+The grammar could see it in two ways:
+
+<pre>
+     a = b + c(print or io.write)('done')
+     
+     a = b + c; (print or io.write)('done')
+</pre><p>
+The current parser always sees such constructions
+in the first way,
+interpreting the open parenthesis
+as the start of the arguments to a call.
+To avoid this ambiguity,
+it is a good practice to always precede with a semicolon
+statements that start with a parenthesis:
+
+<pre>
+     ;(print or io.write)('done')
+</pre>
+
+<p>
+A block can be explicitly delimited to produce a single statement:
+
+<pre>
+	stat ::= <b>do</b> block <b>end</b>
+</pre><p>
+Explicit blocks are useful
+to control the scope of variable declarations.
+Explicit blocks are also sometimes used to
+add a <b>return</b> statement in the middle
+of another block (see <a href="#3.3.4">&sect;3.3.4</a>).
+
+
+
+
+
+<h3>3.3.2 &ndash; <a name="3.3.2">Chunks</a></h3>
+
+<p>
+The unit of compilation of Lua is called a <em>chunk</em>.
+Syntactically,
+a chunk is simply a block:
+
+<pre>
+	chunk ::= block
+</pre>
+
+<p>
+Lua handles a chunk as the body of an anonymous function
+with a variable number of arguments
+(see <a href="#3.4.11">&sect;3.4.11</a>).
+As such, chunks can define local variables,
+receive arguments, and return values.
+Moreover, such anonymous function is compiled as in the
+scope of an external local variable called <code>_ENV</code> (see <a href="#2.2">&sect;2.2</a>).
+The resulting function always has <code>_ENV</code> as its only upvalue,
+even if it does not use that variable.
+
+
+<p>
+A chunk can be stored in a file or in a string inside the host program.
+To execute a chunk,
+Lua first <em>loads</em> it,
+precompiling the chunk's code into instructions for a virtual machine,
+and then Lua executes the compiled code
+with an interpreter for the virtual machine.
+
+
+<p>
+Chunks can also be precompiled into binary form;
+see program <code>luac</code> and function <a href="#pdf-string.dump"><code>string.dump</code></a> for details.
+Programs in source and compiled forms are interchangeable;
+Lua automatically detects the file type and acts accordingly (see <a href="#pdf-load"><code>load</code></a>).
+
+
+
+
+
+<h3>3.3.3 &ndash; <a name="3.3.3">Assignment</a></h3>
+
+<p>
+Lua allows multiple assignments.
+Therefore, the syntax for assignment
+defines a list of variables on the left side
+and a list of expressions on the right side.
+The elements in both lists are separated by commas:
+
+<pre>
+	stat ::= varlist &lsquo;<b>=</b>&rsquo; explist
+	varlist ::= var {&lsquo;<b>,</b>&rsquo; var}
+	explist ::= exp {&lsquo;<b>,</b>&rsquo; exp}
+</pre><p>
+Expressions are discussed in <a href="#3.4">&sect;3.4</a>.
+
+
+<p>
+Before the assignment,
+the list of values is <em>adjusted</em> to the length of
+the list of variables.
+If there are more values than needed,
+the excess values are thrown away.
+If there are fewer values than needed,
+the list is extended with as many  <b>nil</b>'s as needed.
+If the list of expressions ends with a function call,
+then all values returned by that call enter the list of values,
+before the adjustment
+(except when the call is enclosed in parentheses; see <a href="#3.4">&sect;3.4</a>).
+
+
+<p>
+The assignment statement first evaluates all its expressions
+and only then the assignments are performed.
+Thus the code
+
+<pre>
+     i = 3
+     i, a[i] = i+1, 20
+</pre><p>
+sets <code>a[3]</code> to 20, without affecting <code>a[4]</code>
+because the <code>i</code> in <code>a[i]</code> is evaluated (to 3)
+before it is assigned&nbsp;4.
+Similarly, the line
+
+<pre>
+     x, y = y, x
+</pre><p>
+exchanges the values of <code>x</code> and <code>y</code>,
+and
+
+<pre>
+     x, y, z = y, z, x
+</pre><p>
+cyclically permutes the values of <code>x</code>, <code>y</code>, and <code>z</code>.
+
+
+<p>
+The meaning of assignments to global variables
+and table fields can be changed via metatables.
+An assignment to an indexed variable <code>t[i] = val</code> is equivalent to
+<code>settable_event(t,i,val)</code>.
+(See <a href="#2.4">&sect;2.4</a> for a complete description of the
+<code>settable_event</code> function.
+This function is not defined or callable in Lua.
+We use it here only for explanatory purposes.)
+
+
+<p>
+An assignment to a global name <code>x = val</code>
+is equivalent to the assignment
+<code>_ENV.x = val</code> (see <a href="#2.2">&sect;2.2</a>).
+
+
+
+
+
+<h3>3.3.4 &ndash; <a name="3.3.4">Control Structures</a></h3><p>
+The control structures
+<b>if</b>, <b>while</b>, and <b>repeat</b> have the usual meaning and
+familiar syntax:
+
+
+
+
+<pre>
+	stat ::= <b>while</b> exp <b>do</b> block <b>end</b>
+	stat ::= <b>repeat</b> block <b>until</b> exp
+	stat ::= <b>if</b> exp <b>then</b> block {<b>elseif</b> exp <b>then</b> block} [<b>else</b> block] <b>end</b>
+</pre><p>
+Lua also has a <b>for</b> statement, in two flavors (see <a href="#3.3.5">&sect;3.3.5</a>).
+
+
+<p>
+The condition expression of a
+control structure can return any value.
+Both <b>false</b> and <b>nil</b> are considered false.
+All values different from <b>nil</b> and <b>false</b> are considered true
+(in particular, the number 0 and the empty string are also true).
+
+
+<p>
+In the <b>repeat</b>&ndash;<b>until</b> loop,
+the inner block does not end at the <b>until</b> keyword,
+but only after the condition.
+So, the condition can refer to local variables
+declared inside the loop block.
+
+
+<p>
+The <b>goto</b> statement transfers the program control to a label.
+For syntactical reasons,
+labels in Lua are considered statements too:
+
+
+
+<pre>
+	stat ::= <b>goto</b> Name
+	stat ::= label
+	label ::= &lsquo;<b>::</b>&rsquo; Name &lsquo;<b>::</b>&rsquo;
+</pre>
+
+<p>
+A label is visible in the entire block where it is defined,
+except
+inside nested blocks where a label with the same name is defined and
+inside nested functions.
+A goto may jump to any visible label as long as it does not
+enter into the scope of a local variable.
+
+
+<p>
+Labels and empty statements are called <em>void statements</em>,
+as they perform no actions.
+
+
+<p>
+The <b>break</b> statement terminates the execution of a
+<b>while</b>, <b>repeat</b>, or <b>for</b> loop,
+skipping to the next statement after the loop:
+
+
+<pre>
+	stat ::= <b>break</b>
+</pre><p>
+A <b>break</b> ends the innermost enclosing loop.
+
+
+<p>
+The <b>return</b> statement is used to return values
+from a function or a chunk
+(which is an anonymous function).
+
+Functions can return more than one value,
+so the syntax for the <b>return</b> statement is
+
+<pre>
+	stat ::= <b>return</b> [explist] [&lsquo;<b>;</b>&rsquo;]
+</pre>
+
+<p>
+The <b>return</b> statement can only be written
+as the last statement of a block.
+If it is really necessary to <b>return</b> in the middle of a block,
+then an explicit inner block can be used,
+as in the idiom <code>do return end</code>,
+because now <b>return</b> is the last statement in its (inner) block.
+
+
+
+
+
+<h3>3.3.5 &ndash; <a name="3.3.5">For Statement</a></h3>
+
+<p>
+
+The <b>for</b> statement has two forms:
+one numeric and one generic.
+
+
+<p>
+The numeric <b>for</b> loop repeats a block of code while a
+control variable runs through an arithmetic progression.
+It has the following syntax:
+
+<pre>
+	stat ::= <b>for</b> Name &lsquo;<b>=</b>&rsquo; exp &lsquo;<b>,</b>&rsquo; exp [&lsquo;<b>,</b>&rsquo; exp] <b>do</b> block <b>end</b>
+</pre><p>
+The <em>block</em> is repeated for <em>name</em> starting at the value of
+the first <em>exp</em>, until it passes the second <em>exp</em> by steps of the
+third <em>exp</em>.
+More precisely, a <b>for</b> statement like
+
+<pre>
+     for v = <em>e1</em>, <em>e2</em>, <em>e3</em> do <em>block</em> end
+</pre><p>
+is equivalent to the code:
+
+<pre>
+     do
+       local <em>var</em>, <em>limit</em>, <em>step</em> = tonumber(<em>e1</em>), tonumber(<em>e2</em>), tonumber(<em>e3</em>)
+       if not (<em>var</em> and <em>limit</em> and <em>step</em>) then error() end
+       <em>var</em> = <em>var</em> - <em>step</em>
+       while true do
+         <em>var</em> = <em>var</em> + <em>step</em>
+         if (<em>step</em> &gt;= 0 and <em>var</em> &gt; <em>limit</em>) or (<em>step</em> &lt; 0 and <em>var</em> &lt; <em>limit</em>) then
+           break
+         end
+         local v = <em>var</em>
+         <em>block</em>
+       end
+     end
+</pre>
+
+<p>
+Note the following:
+
+<ul>
+
+<li>
+All three control expressions are evaluated only once,
+before the loop starts.
+They must all result in numbers.
+</li>
+
+<li>
+<code><em>var</em></code>, <code><em>limit</em></code>, and <code><em>step</em></code> are invisible variables.
+The names shown here are for explanatory purposes only.
+</li>
+
+<li>
+If the third expression (the step) is absent,
+then a step of&nbsp;1 is used.
+</li>
+
+<li>
+You can use <b>break</b> and <b>goto</b> to exit a <b>for</b> loop.
+</li>
+
+<li>
+The loop variable <code>v</code> is local to the loop body.
+If you need its value after the loop,
+assign it to another variable before exiting the loop.
+</li>
+
+</ul>
+
+<p>
+The generic <b>for</b> statement works over functions,
+called <em>iterators</em>.
+On each iteration, the iterator function is called to produce a new value,
+stopping when this new value is <b>nil</b>.
+The generic <b>for</b> loop has the following syntax:
+
+<pre>
+	stat ::= <b>for</b> namelist <b>in</b> explist <b>do</b> block <b>end</b>
+	namelist ::= Name {&lsquo;<b>,</b>&rsquo; Name}
+</pre><p>
+A <b>for</b> statement like
+
+<pre>
+     for <em>var_1</em>, &middot;&middot;&middot;, <em>var_n</em> in <em>explist</em> do <em>block</em> end
+</pre><p>
+is equivalent to the code:
+
+<pre>
+     do
+       local <em>f</em>, <em>s</em>, <em>var</em> = <em>explist</em>
+       while true do
+         local <em>var_1</em>, &middot;&middot;&middot;, <em>var_n</em> = <em>f</em>(<em>s</em>, <em>var</em>)
+         if <em>var_1</em> == nil then break end
+         <em>var</em> = <em>var_1</em>
+         <em>block</em>
+       end
+     end
+</pre><p>
+Note the following:
+
+<ul>
+
+<li>
+<code><em>explist</em></code> is evaluated only once.
+Its results are an <em>iterator</em> function,
+a <em>state</em>,
+and an initial value for the first <em>iterator variable</em>.
+</li>
+
+<li>
+<code><em>f</em></code>, <code><em>s</em></code>, and <code><em>var</em></code> are invisible variables.
+The names are here for explanatory purposes only.
+</li>
+
+<li>
+You can use <b>break</b> to exit a <b>for</b> loop.
+</li>
+
+<li>
+The loop variables <code><em>var_i</em></code> are local to the loop;
+you cannot use their values after the <b>for</b> ends.
+If you need these values,
+then assign them to other variables before breaking or exiting the loop.
+</li>
+
+</ul>
+
+
+
+
+<h3>3.3.6 &ndash; <a name="3.3.6">Function Calls as Statements</a></h3><p>
+To allow possible side-effects,
+function calls can be executed as statements:
+
+<pre>
+	stat ::= functioncall
+</pre><p>
+In this case, all returned values are thrown away.
+Function calls are explained in <a href="#3.4.10">&sect;3.4.10</a>.
+
+
+
+
+
+<h3>3.3.7 &ndash; <a name="3.3.7">Local Declarations</a></h3><p>
+Local variables can be declared anywhere inside a block.
+The declaration can include an initial assignment:
+
+<pre>
+	stat ::= <b>local</b> namelist [&lsquo;<b>=</b>&rsquo; explist]
+</pre><p>
+If present, an initial assignment has the same semantics
+of a multiple assignment (see <a href="#3.3.3">&sect;3.3.3</a>).
+Otherwise, all variables are initialized with <b>nil</b>.
+
+
+<p>
+A chunk is also a block (see <a href="#3.3.2">&sect;3.3.2</a>),
+and so local variables can be declared in a chunk outside any explicit block.
+
+
+<p>
+The visibility rules for local variables are explained in <a href="#3.5">&sect;3.5</a>.
+
+
+
+
+
+
+
+<h2>3.4 &ndash; <a name="3.4">Expressions</a></h2>
+
+<p>
+The basic expressions in Lua are the following:
+
+<pre>
+	exp ::= prefixexp
+	exp ::= <b>nil</b> | <b>false</b> | <b>true</b>
+	exp ::= Numeral
+	exp ::= LiteralString
+	exp ::= functiondef
+	exp ::= tableconstructor
+	exp ::= &lsquo;<b>...</b>&rsquo;
+	exp ::= exp binop exp
+	exp ::= unop exp
+	prefixexp ::= var | functioncall | &lsquo;<b>(</b>&rsquo; exp &lsquo;<b>)</b>&rsquo;
+</pre>
+
+<p>
+Numerals and literal strings are explained in <a href="#3.1">&sect;3.1</a>;
+variables are explained in <a href="#3.2">&sect;3.2</a>;
+function definitions are explained in <a href="#3.4.11">&sect;3.4.11</a>;
+function calls are explained in <a href="#3.4.10">&sect;3.4.10</a>;
+table constructors are explained in <a href="#3.4.9">&sect;3.4.9</a>.
+Vararg expressions,
+denoted by three dots ('<code>...</code>'), can only be used when
+directly inside a vararg function;
+they are explained in <a href="#3.4.11">&sect;3.4.11</a>.
+
+
+<p>
+Binary operators comprise arithmetic operators (see <a href="#3.4.1">&sect;3.4.1</a>),
+bitwise operators (see <a href="#3.4.2">&sect;3.4.2</a>),
+relational operators (see <a href="#3.4.4">&sect;3.4.4</a>), logical operators (see <a href="#3.4.5">&sect;3.4.5</a>),
+and the concatenation operator (see <a href="#3.4.6">&sect;3.4.6</a>).
+Unary operators comprise the unary minus (see <a href="#3.4.1">&sect;3.4.1</a>),
+the unary bitwise not (see <a href="#3.4.2">&sect;3.4.2</a>),
+the unary logical <b>not</b> (see <a href="#3.4.5">&sect;3.4.5</a>),
+and the unary <em>length operator</em> (see <a href="#3.4.7">&sect;3.4.7</a>).
+
+
+<p>
+Both function calls and vararg expressions can result in multiple values.
+If a function call is used as a statement (see <a href="#3.3.6">&sect;3.3.6</a>),
+then its return list is adjusted to zero elements,
+thus discarding all returned values.
+If an expression is used as the last (or the only) element
+of a list of expressions,
+then no adjustment is made
+(unless the expression is enclosed in parentheses).
+In all other contexts,
+Lua adjusts the result list to one element,
+either discarding all values except the first one
+or adding a single <b>nil</b> if there are no values.
+
+
+<p>
+Here are some examples:
+
+<pre>
+     f()                -- adjusted to 0 results
+     g(f(), x)          -- f() is adjusted to 1 result
+     g(x, f())          -- g gets x plus all results from f()
+     a,b,c = f(), x     -- f() is adjusted to 1 result (c gets nil)
+     a,b = ...          -- a gets the first vararg parameter, b gets
+                        -- the second (both a and b can get nil if there
+                        -- is no corresponding vararg parameter)
+     
+     a,b,c = x, f()     -- f() is adjusted to 2 results
+     a,b,c = f()        -- f() is adjusted to 3 results
+     return f()         -- returns all results from f()
+     return ...         -- returns all received vararg parameters
+     return x,y,f()     -- returns x, y, and all results from f()
+     {f()}              -- creates a list with all results from f()
+     {...}              -- creates a list with all vararg parameters
+     {f(), nil}         -- f() is adjusted to 1 result
+</pre>
+
+<p>
+Any expression enclosed in parentheses always results in only one value.
+Thus,
+<code>(f(x,y,z))</code> is always a single value,
+even if <code>f</code> returns several values.
+(The value of <code>(f(x,y,z))</code> is the first value returned by <code>f</code>
+or <b>nil</b> if <code>f</code> does not return any values.)
+
+
+
+<h3>3.4.1 &ndash; <a name="3.4.1">Arithmetic Operators</a></h3><p>
+Lua supports the following arithmetic operators:
+
+<ul>
+<li><b><code>+</code>: </b>addition</li>
+<li><b><code>-</code>: </b>subtraction</li>
+<li><b><code>*</code>: </b>multiplication</li>
+<li><b><code>/</code>: </b>float division</li>
+<li><b><code>//</code>: </b>floor division</li>
+<li><b><code>%</code>: </b>modulo</li>
+<li><b><code>^</code>: </b>exponentiation</li>
+<li><b><code>-</code>: </b>unary minus</li>
+</ul>
+
+<p>
+With the exception of exponentiation and float division,
+the arithmetic operators work as follows:
+If both operands are integers,
+the operation is performed over integers and the result is an integer.
+Otherwise, if both operands are numbers
+or strings that can be converted to
+numbers (see <a href="#3.4.3">&sect;3.4.3</a>),
+then they are converted to floats,
+the operation is performed following the usual rules
+for floating-point arithmetic
+(usually the IEEE 754 standard),
+and the result is a float.
+
+
+<p>
+Exponentiation and float division (<code>/</code>)
+always convert their operands to floats
+and the result is always a float.
+Exponentiation uses the ISO&nbsp;C function <code>pow</code>,
+so that it works for non-integer exponents too.
+
+
+<p>
+Floor division (<code>//</code>) is a division 
+that rounds the quotient towards minus infinite,
+that is, the floor of the division of its operands.
+
+
+<p>
+Modulo is defined as the remainder of a division
+that rounds the quotient towards minus infinite (floor division).
+
+
+<p>
+In case of overflows in integer arithmetic,
+all operations <em>wrap around</em>,
+according to the usual rules of two-complement arithmetic.
+(In other words,
+they return the unique representable integer
+that is equal modulo <em>2<sup>64</sup></em> to the mathematical result.)
+
+
+
+<h3>3.4.2 &ndash; <a name="3.4.2">Bitwise Operators</a></h3><p>
+Lua supports the following bitwise operators:
+
+<ul>
+<li><b><code>&amp;</code>: </b>bitwise and</li>
+<li><b><code>&#124;</code>: </b>bitwise or</li>
+<li><b><code>~</code>: </b>bitwise exclusive or</li>
+<li><b><code>&gt;&gt;</code>: </b>right shift</li>
+<li><b><code>&lt;&lt;</code>: </b>left shift</li>
+<li><b><code>~</code>: </b>unary bitwise not</li>
+</ul>
+
+<p>
+All bitwise operations convert its operands to integers
+(see <a href="#3.4.3">&sect;3.4.3</a>),
+operate on all bits of those integers,
+and result in an integer.
+
+
+<p>
+Both right and left shifts fill the vacant bits with zeros.
+Negative displacements shift to the other direction;
+displacements with absolute values equal to or higher than
+the number of bits in an integer
+result in zero (as all bits are shifted out).
+
+
+
+
+
+<h3>3.4.3 &ndash; <a name="3.4.3">Coercions and Conversions</a></h3><p>
+Lua provides some automatic conversions between some
+types and representations at run time.
+Bitwise operators always convert float operands to integers.
+Exponentiation and float division
+always convert integer operands to floats.
+All other arithmetic operations applied to mixed numbers
+(integers and floats) convert the integer operand to a float;
+this is called the <em>usual rule</em>.
+The C API also converts both integers to floats and
+floats to integers, as needed.
+Moreover, string concatenation accepts numbers as arguments,
+besides strings. 
+
+
+<p>
+Lua also converts strings to numbers,
+whenever a number is expected.
+
+
+<p>
+In a conversion from integer to float,
+if the integer value has an exact representation as a float,
+that is the result.
+Otherwise,
+the conversion gets the nearest higher or
+the nearest lower representable value.
+This kind of conversion never fails.
+
+
+<p>
+The conversion from float to integer
+checks whether the float has an exact representation as an integer
+(that is, the float has an integral value and
+it is in the range of integer representation).
+If it does, that representation is the result.
+Otherwise, the conversion fails.
+
+
+<p>
+The conversion from strings to numbers goes as follows:
+First, the string is converted to an integer or a float,
+following its syntax and the rules of the Lua lexer.
+(The string may have also leading and trailing spaces and a sign.)
+Then, the resulting number is converted to the required type
+(float or integer) according to the previous rules.
+
+
+<p>
+The conversion from numbers to strings uses a
+non-specified human-readable format.
+For complete control over how numbers are converted to strings,
+use the <code>format</code> function from the string library
+(see <a href="#pdf-string.format"><code>string.format</code></a>).
+
+
+
+
+
+<h3>3.4.4 &ndash; <a name="3.4.4">Relational Operators</a></h3><p>
+Lua supports the following relational operators:
+
+<ul>
+<li><b><code>==</code>: </b>equality</li>
+<li><b><code>~=</code>: </b>inequality</li>
+<li><b><code>&lt;</code>: </b>less than</li>
+<li><b><code>&gt;</code>: </b>greater than</li>
+<li><b><code>&lt;=</code>: </b>less or equal</li>
+<li><b><code>&gt;=</code>: </b>greater or equal</li>
+</ul><p>
+These operators always result in <b>false</b> or <b>true</b>.
+
+
+<p>
+Equality (<code>==</code>) first compares the type of its operands.
+If the types are different, then the result is <b>false</b>.
+Otherwise, the values of the operands are compared.
+Strings are compared in the obvious way.
+Numbers follow the usual rule for binary operations:
+if both operands are integers,
+they are compared as integers;
+otherwise, they are converted to floats
+and compared as such.
+
+
+<p>
+Tables, userdata, and threads
+are compared by reference:
+two objects are considered equal only if they are the same object.
+Every time you create a new object
+(a table, userdata, or thread),
+this new object is different from any previously existing object.
+Closures with the same reference are always equal.
+Closures with any detectable difference
+(different behavior, different definition) are always different.
+
+
+<p>
+You can change the way that Lua compares tables and userdata
+by using the "eq" metamethod (see <a href="#2.4">&sect;2.4</a>).
+
+
+<p>
+Equality comparisons do not convert strings to numbers
+or vice versa.
+Thus, <code>"0"==0</code> evaluates to <b>false</b>,
+and <code>t[0]</code> and <code>t["0"]</code> denote different
+entries in a table.
+
+
+<p>
+The operator <code>~=</code> is exactly the negation of equality (<code>==</code>).
+
+
+<p>
+The order operators work as follows.
+If both arguments are numbers,
+then they are compared following
+the usual rule for binary operations.
+Otherwise, if both arguments are strings,
+then their values are compared according to the current locale.
+Otherwise, Lua tries to call the "lt" or the "le"
+metamethod (see <a href="#2.4">&sect;2.4</a>).
+A comparison <code>a &gt; b</code> is translated to <code>b &lt; a</code>
+and <code>a &gt;= b</code> is translated to <code>b &lt;= a</code>.
+
+
+
+
+
+<h3>3.4.5 &ndash; <a name="3.4.5">Logical Operators</a></h3><p>
+The logical operators in Lua are
+<b>and</b>, <b>or</b>, and <b>not</b>.
+Like the control structures (see <a href="#3.3.4">&sect;3.3.4</a>),
+all logical operators consider both <b>false</b> and <b>nil</b> as false
+and anything else as true.
+
+
+<p>
+The negation operator <b>not</b> always returns <b>false</b> or <b>true</b>.
+The conjunction operator <b>and</b> returns its first argument
+if this value is <b>false</b> or <b>nil</b>;
+otherwise, <b>and</b> returns its second argument.
+The disjunction operator <b>or</b> returns its first argument
+if this value is different from <b>nil</b> and <b>false</b>;
+otherwise, <b>or</b> returns its second argument.
+Both <b>and</b> and <b>or</b> use short-circuit evaluation;
+that is,
+the second operand is evaluated only if necessary.
+Here are some examples:
+
+<pre>
+     10 or 20            --&gt; 10
+     10 or error()       --&gt; 10
+     nil or "a"          --&gt; "a"
+     nil and 10          --&gt; nil
+     false and error()   --&gt; false
+     false and nil       --&gt; false
+     false or nil        --&gt; nil
+     10 and 20           --&gt; 20
+</pre><p>
+(In this manual,
+<code>--&gt;</code> indicates the result of the preceding expression.)
+
+
+
+
+
+<h3>3.4.6 &ndash; <a name="3.4.6">Concatenation</a></h3><p>
+The string concatenation operator in Lua is
+denoted by two dots ('<code>..</code>').
+If both operands are strings or numbers, then they are converted to
+strings according to the rules described in <a href="#3.4.3">&sect;3.4.3</a>.
+Otherwise, the <code>__concat</code> metamethod is called (see <a href="#2.4">&sect;2.4</a>).
+
+
+
+
+
+<h3>3.4.7 &ndash; <a name="3.4.7">The Length Operator</a></h3>
+
+<p>
+The length operator is denoted by the unary prefix operator <code>#</code>.
+The length of a string is its number of bytes
+(that is, the usual meaning of string length when each
+character is one byte).
+
+
+<p>
+A program can modify the behavior of the length operator for
+any value but strings through the <code>__len</code> metamethod (see <a href="#2.4">&sect;2.4</a>).
+
+
+<p>
+Unless a <code>__len</code> metamethod is given,
+the length of a table <code>t</code> is only defined if the
+table is a <em>sequence</em>,
+that is,
+the set of its positive numeric keys is equal to <em>{1..n}</em>
+for some non-negative integer <em>n</em>.
+In that case, <em>n</em> is its length.
+Note that a table like
+
+<pre>
+     {10, 20, nil, 40}
+</pre><p>
+is not a sequence, because it has the key <code>4</code>
+but does not have the key <code>3</code>.
+(So, there is no <em>n</em> such that the set <em>{1..n}</em> is equal
+to the set of positive numeric keys of that table.)
+Note, however, that non-numeric keys do not interfere
+with whether a table is a sequence.
+
+
+
+
+
+<h3>3.4.8 &ndash; <a name="3.4.8">Precedence</a></h3><p>
+Operator precedence in Lua follows the table below,
+from lower to higher priority:
+
+<pre>
+     or
+     and
+     &lt;     &gt;     &lt;=    &gt;=    ~=    ==
+     |
+     ~
+     &amp;
+     &lt;&lt;    &gt;&gt;
+     ..
+     +     -
+     *     /     //    %
+     unary operators (not   #     -     ~)
+     ^
+</pre><p>
+As usual,
+you can use parentheses to change the precedences of an expression.
+The concatenation ('<code>..</code>') and exponentiation ('<code>^</code>')
+operators are right associative.
+All other binary operators are left associative.
+
+
+
+
+
+<h3>3.4.9 &ndash; <a name="3.4.9">Table Constructors</a></h3><p>
+Table constructors are expressions that create tables.
+Every time a constructor is evaluated, a new table is created.
+A constructor can be used to create an empty table
+or to create a table and initialize some of its fields.
+The general syntax for constructors is
+
+<pre>
+	tableconstructor ::= &lsquo;<b>{</b>&rsquo; [fieldlist] &lsquo;<b>}</b>&rsquo;
+	fieldlist ::= field {fieldsep field} [fieldsep]
+	field ::= &lsquo;<b>[</b>&rsquo; exp &lsquo;<b>]</b>&rsquo; &lsquo;<b>=</b>&rsquo; exp | Name &lsquo;<b>=</b>&rsquo; exp | exp
+	fieldsep ::= &lsquo;<b>,</b>&rsquo; | &lsquo;<b>;</b>&rsquo;
+</pre>
+
+<p>
+Each field of the form <code>[exp1] = exp2</code> adds to the new table an entry
+with key <code>exp1</code> and value <code>exp2</code>.
+A field of the form <code>name = exp</code> is equivalent to
+<code>["name"] = exp</code>.
+Finally, fields of the form <code>exp</code> are equivalent to
+<code>[i] = exp</code>, where <code>i</code> are consecutive integers
+starting with 1.
+Fields in the other formats do not affect this counting.
+For example,
+
+<pre>
+     a = { [f(1)] = g; "x", "y"; x = 1, f(x), [30] = 23; 45 }
+</pre><p>
+is equivalent to
+
+<pre>
+     do
+       local t = {}
+       t[f(1)] = g
+       t[1] = "x"         -- 1st exp
+       t[2] = "y"         -- 2nd exp
+       t.x = 1            -- t["x"] = 1
+       t[3] = f(x)        -- 3rd exp
+       t[30] = 23
+       t[4] = 45          -- 4th exp
+       a = t
+     end
+</pre>
+
+<p>
+The order of the assignments in a constructor is undefined.
+(This order would be relevant only when there are repeated keys.)
+
+
+<p>
+If the last field in the list has the form <code>exp</code>
+and the expression is a function call or a vararg expression,
+then all values returned by this expression enter the list consecutively
+(see <a href="#3.4.10">&sect;3.4.10</a>).
+
+
+<p>
+The field list can have an optional trailing separator,
+as a convenience for machine-generated code.
+
+
+
+
+
+<h3>3.4.10 &ndash; <a name="3.4.10">Function Calls</a></h3><p>
+A function call in Lua has the following syntax:
+
+<pre>
+	functioncall ::= prefixexp args
+</pre><p>
+In a function call,
+first prefixexp and args are evaluated.
+If the value of prefixexp has type <em>function</em>,
+then this function is called
+with the given arguments.
+Otherwise, the prefixexp "call" metamethod is called,
+having as first parameter the value of prefixexp,
+followed by the original call arguments
+(see <a href="#2.4">&sect;2.4</a>).
+
+
+<p>
+The form
+
+<pre>
+	functioncall ::= prefixexp &lsquo;<b>:</b>&rsquo; Name args
+</pre><p>
+can be used to call "methods".
+A call <code>v:name(<em>args</em>)</code>
+is syntactic sugar for <code>v.name(v,<em>args</em>)</code>,
+except that <code>v</code> is evaluated only once.
+
+
+<p>
+Arguments have the following syntax:
+
+<pre>
+	args ::= &lsquo;<b>(</b>&rsquo; [explist] &lsquo;<b>)</b>&rsquo;
+	args ::= tableconstructor
+	args ::= LiteralString
+</pre><p>
+All argument expressions are evaluated before the call.
+A call of the form <code>f{<em>fields</em>}</code> is
+syntactic sugar for <code>f({<em>fields</em>})</code>;
+that is, the argument list is a single new table.
+A call of the form <code>f'<em>string</em>'</code>
+(or <code>f"<em>string</em>"</code> or <code>f[[<em>string</em>]]</code>)
+is syntactic sugar for <code>f('<em>string</em>')</code>;
+that is, the argument list is a single literal string.
+
+
+<p>
+A call of the form <code>return <em>functioncall</em></code> is called
+a <em>tail call</em>.
+Lua implements <em>proper tail calls</em>
+(or <em>proper tail recursion</em>):
+in a tail call,
+the called function reuses the stack entry of the calling function.
+Therefore, there is no limit on the number of nested tail calls that
+a program can execute.
+However, a tail call erases any debug information about the
+calling function.
+Note that a tail call only happens with a particular syntax,
+where the <b>return</b> has one single function call as argument;
+this syntax makes the calling function return exactly
+the returns of the called function.
+So, none of the following examples are tail calls:
+
+<pre>
+     return (f(x))        -- results adjusted to 1
+     return 2 * f(x)
+     return x, f(x)       -- additional results
+     f(x); return         -- results discarded
+     return x or f(x)     -- results adjusted to 1
+</pre>
+
+
+
+
+<h3>3.4.11 &ndash; <a name="3.4.11">Function Definitions</a></h3>
+
+<p>
+The syntax for function definition is
+
+<pre>
+	functiondef ::= <b>function</b> funcbody
+	funcbody ::= &lsquo;<b>(</b>&rsquo; [parlist] &lsquo;<b>)</b>&rsquo; block <b>end</b>
+</pre>
+
+<p>
+The following syntactic sugar simplifies function definitions:
+
+<pre>
+	stat ::= <b>function</b> funcname funcbody
+	stat ::= <b>local</b> <b>function</b> Name funcbody
+	funcname ::= Name {&lsquo;<b>.</b>&rsquo; Name} [&lsquo;<b>:</b>&rsquo; Name]
+</pre><p>
+The statement
+
+<pre>
+     function f () <em>body</em> end
+</pre><p>
+translates to
+
+<pre>
+     f = function () <em>body</em> end
+</pre><p>
+The statement
+
+<pre>
+     function t.a.b.c.f () <em>body</em> end
+</pre><p>
+translates to
+
+<pre>
+     t.a.b.c.f = function () <em>body</em> end
+</pre><p>
+The statement
+
+<pre>
+     local function f () <em>body</em> end
+</pre><p>
+translates to
+
+<pre>
+     local f; f = function () <em>body</em> end
+</pre><p>
+not to
+
+<pre>
+     local f = function () <em>body</em> end
+</pre><p>
+(This only makes a difference when the body of the function
+contains references to <code>f</code>.)
+
+
+<p>
+A function definition is an executable expression,
+whose value has type <em>function</em>.
+When Lua precompiles a chunk,
+all its function bodies are precompiled too.
+Then, whenever Lua executes the function definition,
+the function is <em>instantiated</em> (or <em>closed</em>).
+This function instance (or <em>closure</em>)
+is the final value of the expression.
+
+
+<p>
+Parameters act as local variables that are
+initialized with the argument values:
+
+<pre>
+	parlist ::= namelist [&lsquo;<b>,</b>&rsquo; &lsquo;<b>...</b>&rsquo;] | &lsquo;<b>...</b>&rsquo;
+</pre><p>
+When a function is called,
+the list of arguments is adjusted to
+the length of the list of parameters,
+unless the function is a <em>vararg function</em>,
+which is indicated by three dots ('<code>...</code>')
+at the end of its parameter list.
+A vararg function does not adjust its argument list;
+instead, it collects all extra arguments and supplies them
+to the function through a <em>vararg expression</em>,
+which is also written as three dots.
+The value of this expression is a list of all actual extra arguments,
+similar to a function with multiple results.
+If a vararg expression is used inside another expression
+or in the middle of a list of expressions,
+then its return list is adjusted to one element.
+If the expression is used as the last element of a list of expressions,
+then no adjustment is made
+(unless that last expression is enclosed in parentheses).
+
+
+<p>
+As an example, consider the following definitions:
+
+<pre>
+     function f(a, b) end
+     function g(a, b, ...) end
+     function r() return 1,2,3 end
+</pre><p>
+Then, we have the following mapping from arguments to parameters and
+to the vararg expression:
+
+<pre>
+     CALL            PARAMETERS
+     
+     f(3)             a=3, b=nil
+     f(3, 4)          a=3, b=4
+     f(3, 4, 5)       a=3, b=4
+     f(r(), 10)       a=1, b=10
+     f(r())           a=1, b=2
+     
+     g(3)             a=3, b=nil, ... --&gt;  (nothing)
+     g(3, 4)          a=3, b=4,   ... --&gt;  (nothing)
+     g(3, 4, 5, 8)    a=3, b=4,   ... --&gt;  5  8
+     g(5, r())        a=5, b=1,   ... --&gt;  2  3
+</pre>
+
+<p>
+Results are returned using the <b>return</b> statement (see <a href="#3.3.4">&sect;3.3.4</a>).
+If control reaches the end of a function
+without encountering a <b>return</b> statement,
+then the function returns with no results.
+
+
+<p>
+
+There is a system-dependent limit on the number of values
+that a function may return.
+This limit is guaranteed to be larger than 1000.
+
+
+<p>
+The <em>colon</em> syntax
+is used for defining <em>methods</em>,
+that is, functions that have an implicit extra parameter <code>self</code>.
+Thus, the statement
+
+<pre>
+     function t.a.b.c:f (<em>params</em>) <em>body</em> end
+</pre><p>
+is syntactic sugar for
+
+<pre>
+     t.a.b.c.f = function (self, <em>params</em>) <em>body</em> end
+</pre>
+
+
+
+
+
+
+<h2>3.5 &ndash; <a name="3.5">Visibility Rules</a></h2>
+
+<p>
+
+Lua is a lexically scoped language.
+The scope of a local variable begins at the first statement after
+its declaration and lasts until the last non-void statement
+of the innermost block that includes the declaration.
+Consider the following example:
+
+<pre>
+     x = 10                -- global variable
+     do                    -- new block
+       local x = x         -- new 'x', with value 10
+       print(x)            --&gt; 10
+       x = x+1
+       do                  -- another block
+         local x = x+1     -- another 'x'
+         print(x)          --&gt; 12
+       end
+       print(x)            --&gt; 11
+     end
+     print(x)              --&gt; 10  (the global one)
+</pre>
+
+<p>
+Notice that, in a declaration like <code>local x = x</code>,
+the new <code>x</code> being declared is not in scope yet,
+and so the second <code>x</code> refers to the outside variable.
+
+
+<p>
+Because of the lexical scoping rules,
+local variables can be freely accessed by functions
+defined inside their scope.
+A local variable used by an inner function is called
+an <em>upvalue</em>, or <em>external local variable</em>,
+inside the inner function.
+
+
+<p>
+Notice that each execution of a <b>local</b> statement
+defines new local variables.
+Consider the following example:
+
+<pre>
+     a = {}
+     local x = 20
+     for i=1,10 do
+       local y = 0
+       a[i] = function () y=y+1; return x+y end
+     end
+</pre><p>
+The loop creates ten closures
+(that is, ten instances of the anonymous function).
+Each of these closures uses a different <code>y</code> variable,
+while all of them share the same <code>x</code>.
+
+
+
+
+
+<h1>4 &ndash; <a name="4">The Application Program Interface</a></h1>
+
+<p>
+
+This section describes the C&nbsp;API for Lua, that is,
+the set of C&nbsp;functions available to the host program to communicate
+with Lua.
+All API functions and related types and constants
+are declared in the header file <a name="pdf-lua.h"><code>lua.h</code></a>.
+
+
+<p>
+Even when we use the term "function",
+any facility in the API may be provided as a macro instead.
+Except where stated otherwise,
+all such macros use each of their arguments exactly once
+(except for the first argument, which is always a Lua state),
+and so do not generate any hidden side-effects.
+
+
+<p>
+As in most C&nbsp;libraries,
+the Lua API functions do not check their arguments for validity or consistency.
+However, you can change this behavior by compiling Lua
+with the macro <a name="pdf-LUA_USE_APICHECK"><code>LUA_USE_APICHECK</code></a> defined.
+
+
+
+<h2>4.1 &ndash; <a name="4.1">The Stack</a></h2>
+
+<p>
+Lua uses a <em>virtual stack</em> to pass values to and from C.
+Each element in this stack represents a Lua value
+(<b>nil</b>, number, string, etc.).
+
+
+<p>
+Whenever Lua calls C, the called function gets a new stack,
+which is independent of previous stacks and of stacks of
+C&nbsp;functions that are still active.
+This stack initially contains any arguments to the C&nbsp;function
+and it is where the C&nbsp;function pushes its results
+to be returned to the caller (see <a href="#lua_CFunction"><code>lua_CFunction</code></a>).
+
+
+<p>
+For convenience,
+most query operations in the API do not follow a strict stack discipline.
+Instead, they can refer to any element in the stack
+by using an <em>index</em>:
+A positive index represents an absolute stack position
+(starting at&nbsp;1);
+a negative index represents an offset relative to the top of the stack.
+More specifically, if the stack has <em>n</em> elements,
+then index&nbsp;1 represents the first element
+(that is, the element that was pushed onto the stack first)
+and
+index&nbsp;<em>n</em> represents the last element;
+index&nbsp;-1 also represents the last element
+(that is, the element at the&nbsp;top)
+and index <em>-n</em> represents the first element.
+
+
+
+
+
+<h2>4.2 &ndash; <a name="4.2">Stack Size</a></h2>
+
+<p>
+When you interact with the Lua API,
+you are responsible for ensuring consistency.
+In particular,
+<em>you are responsible for controlling stack overflow</em>.
+You can use the function <a href="#lua_checkstack"><code>lua_checkstack</code></a>
+to ensure that the stack has enough space for pushing new elements.
+
+
+<p>
+Whenever Lua calls C,
+it ensures that the stack has space for
+at least <a name="pdf-LUA_MINSTACK"><code>LUA_MINSTACK</code></a> extra slots.
+<code>LUA_MINSTACK</code> is defined as 20,
+so that usually you do not have to worry about stack space
+unless your code has loops pushing elements onto the stack.
+
+
+<p>
+When you call a Lua function
+without a fixed number of results (see <a href="#lua_call"><code>lua_call</code></a>),
+Lua ensures that the stack has enough space for all results,
+but it does not ensure any extra space.
+So, before pushing anything in the stack after such a call
+you should use <a href="#lua_checkstack"><code>lua_checkstack</code></a>.
+
+
+
+
+
+<h2>4.3 &ndash; <a name="4.3">Valid and Acceptable Indices</a></h2>
+
+<p>
+Any function in the API that receives stack indices
+works only with <em>valid indices</em> or <em>acceptable indices</em>.
+
+
+<p>
+A <em>valid index</em> is an index that refers to a
+real position within the stack, that is,
+its position lies between&nbsp;1 and the stack top
+(<code>1 &le; abs(index) &le; top</code>).
+
+Usually, functions that can modify the value at an index
+require valid indices.
+
+
+<p>
+Unless otherwise noted,
+any function that accepts valid indices also accepts <em>pseudo-indices</em>,
+which represent some Lua values that are accessible to C&nbsp;code
+but which are not in the stack.
+Pseudo-indices are used to access the registry
+and the upvalues of a C&nbsp;function (see <a href="#4.4">&sect;4.4</a>).
+
+
+<p>
+Functions that do not need a specific stack position,
+but only a value in the stack (e.g., query functions),
+can be called with acceptable indices.
+An <em>acceptable index</em> can be any valid index,
+including the pseudo-indices,
+but it also can be any positive index after the stack top
+within the space allocated for the stack,
+that is, indices up to the stack size.
+(Note that 0 is never an acceptable index.)
+Except when noted otherwise,
+functions in the API work with acceptable indices.
+
+
+<p>
+Acceptable indices serve to avoid extra tests
+against the stack top when querying the stack.
+For instance, a C&nbsp;function can query its third argument
+without the need to first check whether there is a third argument,
+that is, without the need to check whether 3 is a valid index.
+
+
+<p>
+For functions that can be called with acceptable indices,
+any non-valid index is treated as if it
+contains a value of a virtual type <a name="pdf-LUA_TNONE"><code>LUA_TNONE</code></a>,
+which behaves like a nil value.
+
+
+
+
+
+<h2>4.4 &ndash; <a name="4.4">C Closures</a></h2>
+
+<p>
+When a C&nbsp;function is created,
+it is possible to associate some values with it,
+thus creating a <em>C&nbsp;closure</em>
+(see <a href="#lua_pushcclosure"><code>lua_pushcclosure</code></a>);
+these values are called <em>upvalues</em> and are
+accessible to the function whenever it is called.
+
+
+<p>
+Whenever a C&nbsp;function is called,
+its upvalues are located at specific pseudo-indices.
+These pseudo-indices are produced by the macro
+<a href="#lua_upvalueindex"><code>lua_upvalueindex</code></a>.
+The first value associated with a function is at position
+<code>lua_upvalueindex(1)</code>, and so on.
+Any access to <code>lua_upvalueindex(<em>n</em>)</code>,
+where <em>n</em> is greater than the number of upvalues of the
+current function (but not greater than 256),
+produces an acceptable but invalid index.
+
+
+
+
+
+<h2>4.5 &ndash; <a name="4.5">Registry</a></h2>
+
+<p>
+Lua provides a <em>registry</em>,
+a predefined table that can be used by any C&nbsp;code to
+store whatever Lua values it needs to store.
+The registry table is always located at pseudo-index
+<a name="pdf-LUA_REGISTRYINDEX"><code>LUA_REGISTRYINDEX</code></a>,
+which is a valid index.
+Any C&nbsp;library can store data into this table,
+but it must take care to choose keys
+that are different from those used
+by other libraries, to avoid collisions.
+Typically, you should use as key a string containing your library name,
+or a light userdata with the address of a C&nbsp;object in your code,
+or any Lua object created by your code.
+As with variable names,
+string keys starting with an underscore followed by
+uppercase letters are reserved for Lua.
+
+
+<p>
+The integer keys in the registry are used
+by the reference mechanism (see <a href="#luaL_ref"><code>luaL_ref</code></a>)
+and by some predefined values.
+Therefore, integer keys must not be used for other purposes.
+
+
+<p>
+When you create a new Lua state,
+its registry comes with some predefined values.
+These predefined values are indexed with integer keys
+defined as constants in <code>lua.h</code>.
+The following constants are defined:
+
+<ul>
+<li><b><a name="pdf-LUA_RIDX_MAINTHREAD"><code>LUA_RIDX_MAINTHREAD</code></a>: </b> At this index the registry has
+the main thread of the state.
+(The main thread is the one created together with the state.)
+</li>
+
+<li><b><a name="pdf-LUA_RIDX_GLOBALS"><code>LUA_RIDX_GLOBALS</code></a>: </b> At this index the registry has
+the global environment.
+</li>
+</ul>
+
+
+
+
+<h2>4.6 &ndash; <a name="4.6">Error Handling in C</a></h2>
+
+<p>
+Internally, Lua uses the C <code>longjmp</code> facility to handle errors.
+(Lua will use exceptions if you compile it as C++;
+search for <code>LUAI_THROW</code> in the source code for details.)
+When Lua faces any error
+(such as a memory allocation error, type errors, syntax errors,
+and runtime errors)
+it <em>raises</em> an error;
+that is, it does a long jump.
+A <em>protected environment</em> uses <code>setjmp</code>
+to set a recovery point;
+any error jumps to the most recent active recovery point.
+
+
+<p>
+If an error happens outside any protected environment,
+Lua calls a <em>panic function</em> (see <a href="#lua_atpanic"><code>lua_atpanic</code></a>)
+and then calls <code>abort</code>,
+thus exiting the host application.
+Your panic function can avoid this exit by
+never returning
+(e.g., doing a long jump to your own recovery point outside Lua).
+
+
+<p>
+The panic function runs as if it were a message handler (see <a href="#2.3">&sect;2.3</a>);
+in particular, the error message is at the top of the stack.
+However, there is no guarantee about stack space.
+To push anything on the stack,
+the panic function must first check the available space (see <a href="#4.2">&sect;4.2</a>).
+
+
+<p>
+Most functions in the API can raise an error,
+for instance due to a memory allocation error.
+The documentation for each function indicates whether
+it can raise errors.
+
+
+<p>
+Inside a C&nbsp;function you can raise an error by calling <a href="#lua_error"><code>lua_error</code></a>.
+
+
+
+
+
+<h2>4.7 &ndash; <a name="4.7">Handling Yields in C</a></h2>
+
+<p>
+Internally, Lua uses the C <code>longjmp</code> facility to yield a coroutine.
+Therefore, if a C function <code>foo</code> calls an API function
+and this API function yields
+(directly or indirectly by calling another function that yields),
+Lua cannot return to <code>foo</code> any more,
+because the <code>longjmp</code> removes its frame from the C stack.
+
+
+<p>
+To avoid this kind of problem,
+Lua raises an error whenever it tries to yield across an API call,
+except for three functions:
+<a href="#lua_yieldk"><code>lua_yieldk</code></a>, <a href="#lua_callk"><code>lua_callk</code></a>, and <a href="#lua_pcallk"><code>lua_pcallk</code></a>.
+All those functions receive a <em>continuation function</em>
+(as a parameter named <code>k</code>) to continue execution after a yield.
+
+
+<p>
+We need to set some terminology to explain continuations.
+We have a C function called from Lua which we will call
+the <em>original function</em>.
+This original function then calls one of those three functions in the C API,
+which we will call the <em>callee function</em>,
+that then yields the current thread.
+(This can happen when the callee function is <a href="#lua_yieldk"><code>lua_yieldk</code></a>,
+or when the callee function is either <a href="#lua_callk"><code>lua_callk</code></a> or <a href="#lua_pcallk"><code>lua_pcallk</code></a>
+and the function called by them yields.)
+
+
+<p>
+Suppose the running thread yields while executing the callee function.
+After the thread resumes,
+it eventually will finish running the callee function.
+However,
+the callee function cannot return to the original function,
+because its frame in the C stack was destroyed by the yield.
+Instead, Lua calls a <em>continuation function</em>,
+which was given as an argument to the callee function.
+As the name implies,
+the continuation function should continue the task
+of the original function.
+
+
+<p>
+As an illustration, consider the following function:
+
+<pre>
+     int original_function (lua_State *L) {
+       ...     /* code 1 */
+       status = lua_pcall(L, n, m, h);  /* calls Lua */
+       ...     /* code 2 */
+     }
+</pre><p>
+Now we want to allow
+the Lua code being run by <a href="#lua_pcall"><code>lua_pcall</code></a> to yield.
+First, we can rewrite our function like here:
+
+<pre>
+     int k (lua_State *L, int status, lua_KContext ctx) {
+       ...  /* code 2 */
+     }
+     
+     int original_function (lua_State *L) {
+       ...     /* code 1 */
+       return k(L, lua_pcall(L, n, m, h), ctx);
+     }
+</pre><p>
+In the above code,
+the new function <code>k</code> is a
+<em>continuation function</em> (with type <a href="#lua_KFunction"><code>lua_KFunction</code></a>),
+which should do all the work that the original function
+was doing after calling <a href="#lua_pcall"><code>lua_pcall</code></a>.
+Now, we must inform Lua that it must call <code>k</code> if the Lua code
+being executed by <a href="#lua_pcall"><code>lua_pcall</code></a> gets interrupted in some way
+(errors or yielding),
+so we rewrite the code as here,
+replacing <a href="#lua_pcall"><code>lua_pcall</code></a> by <a href="#lua_pcallk"><code>lua_pcallk</code></a>:
+
+<pre>
+     int original_function (lua_State *L) {
+       ...     /* code 1 */
+       return k(L, lua_pcallk(L, n, m, h, ctx2, k), ctx1);
+     }
+</pre><p>
+Note the external, explicit call to the continuation:
+Lua will call the continuation only if needed, that is,
+in case of errors or resuming after a yield.
+If the called function returns normally without ever yielding,
+<a href="#lua_pcallk"><code>lua_pcallk</code></a> (and <a href="#lua_callk"><code>lua_callk</code></a>) will also return normally.
+(Of course, instead of calling the continuation in that case,
+you can do the equivalent work directly inside the original function.)
+
+
+<p>
+Besides the Lua state,
+the continuation function has two other parameters:
+the final status of the call plus the context value (<code>ctx</code>) that
+was passed originally to <a href="#lua_pcallk"><code>lua_pcallk</code></a>.
+(Lua does not use this context value;
+it only passes this value from the original function to the
+continuation function.)
+For <a href="#lua_pcallk"><code>lua_pcallk</code></a>,
+the status is the same value that would be returned by <a href="#lua_pcallk"><code>lua_pcallk</code></a>,
+except that it is <a href="#pdf-LUA_YIELD"><code>LUA_YIELD</code></a> when being executed after a yield
+(instead of <a href="#pdf-LUA_OK"><code>LUA_OK</code></a>).
+For <a href="#lua_yieldk"><code>lua_yieldk</code></a> and <a href="#lua_callk"><code>lua_callk</code></a>,
+the status is always <a href="#pdf-LUA_YIELD"><code>LUA_YIELD</code></a> when Lua calls the continuation.
+(For these two functions,
+Lua will not call the continuation in case of errors,
+because they do not handle errors.)
+Similarly, when using <a href="#lua_callk"><code>lua_callk</code></a>,
+you should call the continuation function
+with <a href="#pdf-LUA_OK"><code>LUA_OK</code></a> as the status.
+(For <a href="#lua_yieldk"><code>lua_yieldk</code></a>, there is not much point in calling
+directly the continuation function,
+because <a href="#lua_yieldk"><code>lua_yieldk</code></a> usually does not return.)
+
+
+<p>
+Lua treats the continuation function as if it were the original function.
+The continuation function receives the same Lua stack
+from the original function,
+in the same state it would be if the callee function had returned.
+(For instance,
+after a <a href="#lua_callk"><code>lua_callk</code></a> the function and its arguments are
+removed from the stack and replaced by the results from the call.)
+It also has the same upvalues.
+Whatever it returns is handled by Lua as if it were the return
+of the original function.
+
+
+
+
+
+<h2>4.8 &ndash; <a name="4.8">Functions and Types</a></h2>
+
+<p>
+Here we list all functions and types from the C&nbsp;API in
+alphabetical order.
+Each function has an indicator like this:
+<span class="apii">[-o, +p, <em>x</em>]</span>
+
+
+<p>
+The first field, <code>o</code>,
+is how many elements the function pops from the stack.
+The second field, <code>p</code>,
+is how many elements the function pushes onto the stack.
+(Any function always pushes its results after popping its arguments.)
+A field in the form <code>x|y</code> means the function can push (or pop)
+<code>x</code> or <code>y</code> elements,
+depending on the situation;
+an interrogation mark '<code>?</code>' means that
+we cannot know how many elements the function pops/pushes
+by looking only at its arguments
+(e.g., they may depend on what is on the stack).
+The third field, <code>x</code>,
+tells whether the function may raise errors:
+'<code>-</code>' means the function never raises any error;
+'<code>e</code>' means the function may raise errors;
+'<code>v</code>' means the function may raise an error on purpose.
+
+
+
+<hr><h3><a name="lua_absindex"><code>lua_absindex</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_absindex (lua_State *L, int idx);</pre>
+
+<p>
+Converts the acceptable index <code>idx</code> into an absolute index
+(that is, one that does not depend on the stack top).
+
+
+
+
+
+<hr><h3><a name="lua_Alloc"><code>lua_Alloc</code></a></h3>
+<pre>typedef void * (*lua_Alloc) (void *ud,
+                             void *ptr,
+                             size_t osize,
+                             size_t nsize);</pre>
+
+<p>
+The type of the memory-allocation function used by Lua states.
+The allocator function must provide a
+functionality similar to <code>realloc</code>,
+but not exactly the same.
+Its arguments are
+<code>ud</code>, an opaque pointer passed to <a href="#lua_newstate"><code>lua_newstate</code></a>;
+<code>ptr</code>, a pointer to the block being allocated/reallocated/freed;
+<code>osize</code>, the original size of the block or some code about what
+is being allocated;
+and <code>nsize</code>, the new size of the block.
+
+
+<p>
+When <code>ptr</code> is not <code>NULL</code>,
+<code>osize</code> is the size of the block pointed by <code>ptr</code>,
+that is, the size given when it was allocated or reallocated.
+
+
+<p>
+When <code>ptr</code> is <code>NULL</code>,
+<code>osize</code> encodes the kind of object that Lua is allocating.
+<code>osize</code> is any of
+<a href="#pdf-LUA_TSTRING"><code>LUA_TSTRING</code></a>, <a href="#pdf-LUA_TTABLE"><code>LUA_TTABLE</code></a>, <a href="#pdf-LUA_TFUNCTION"><code>LUA_TFUNCTION</code></a>,
+<a href="#pdf-LUA_TUSERDATA"><code>LUA_TUSERDATA</code></a>, or <a href="#pdf-LUA_TTHREAD"><code>LUA_TTHREAD</code></a> when (and only when)
+Lua is creating a new object of that type.
+When <code>osize</code> is some other value,
+Lua is allocating memory for something else.
+
+
+<p>
+Lua assumes the following behavior from the allocator function:
+
+
+<p>
+When <code>nsize</code> is zero,
+the allocator must behave like <code>free</code>
+and return <code>NULL</code>.
+
+
+<p>
+When <code>nsize</code> is not zero,
+the allocator must behave like <code>realloc</code>.
+The allocator returns <code>NULL</code>
+if and only if it cannot fulfill the request.
+Lua assumes that the allocator never fails when
+<code>osize &gt;= nsize</code>.
+
+
+<p>
+Here is a simple implementation for the allocator function.
+It is used in the auxiliary library by <a href="#luaL_newstate"><code>luaL_newstate</code></a>.
+
+<pre>
+     static void *l_alloc (void *ud, void *ptr, size_t osize,
+                                                size_t nsize) {
+       (void)ud;  (void)osize;  /* not used */
+       if (nsize == 0) {
+         free(ptr);
+         return NULL;
+       }
+       else
+         return realloc(ptr, nsize);
+     }
+</pre><p>
+Note that Standard&nbsp;C ensures
+that <code>free(NULL)</code> has no effect and that
+<code>realloc(NULL,size)</code> is equivalent to <code>malloc(size)</code>.
+This code assumes that <code>realloc</code> does not fail when shrinking a block.
+(Although Standard&nbsp;C does not ensure this behavior,
+it seems to be a safe assumption.)
+
+
+
+
+
+<hr><h3><a name="lua_arith"><code>lua_arith</code></a></h3><p>
+<span class="apii">[-(2|1), +1, <em>e</em>]</span>
+<pre>void lua_arith (lua_State *L, int op);</pre>
+
+<p>
+Performs an arithmetic or bitwise operation over the two values
+(or one, in the case of negations)
+at the top of the stack,
+with the value at the top being the second operand,
+pops these values, and pushes the result of the operation.
+The function follows the semantics of the corresponding Lua operator
+(that is, it may call metamethods).
+
+
+<p>
+The value of <code>op</code> must be one of the following constants:
+
+<ul>
+
+<li><b><a name="pdf-LUA_OPADD"><code>LUA_OPADD</code></a>: </b> performs addition (<code>+</code>)</li>
+<li><b><a name="pdf-LUA_OPSUB"><code>LUA_OPSUB</code></a>: </b> performs subtraction (<code>-</code>)</li>
+<li><b><a name="pdf-LUA_OPMUL"><code>LUA_OPMUL</code></a>: </b> performs multiplication (<code>*</code>)</li>
+<li><b><a name="pdf-LUA_OPDIV"><code>LUA_OPDIV</code></a>: </b> performs float division (<code>/</code>)</li>
+<li><b><a name="pdf-LUA_OPIDIV"><code>LUA_OPIDIV</code></a>: </b> performs floor division (<code>//</code>)</li>
+<li><b><a name="pdf-LUA_OPMOD"><code>LUA_OPMOD</code></a>: </b> performs modulo (<code>%</code>)</li>
+<li><b><a name="pdf-LUA_OPPOW"><code>LUA_OPPOW</code></a>: </b> performs exponentiation (<code>^</code>)</li>
+<li><b><a name="pdf-LUA_OPUNM"><code>LUA_OPUNM</code></a>: </b> performs mathematical negation (unary <code>-</code>)</li>
+<li><b><a name="pdf-LUA_OPBNOT"><code>LUA_OPBNOT</code></a>: </b> performs bitwise negation (<code>~</code>)</li>
+<li><b><a name="pdf-LUA_OPBAND"><code>LUA_OPBAND</code></a>: </b> performs bitwise and (<code>&amp;</code>)</li>
+<li><b><a name="pdf-LUA_OPBOR"><code>LUA_OPBOR</code></a>: </b> performs bitwise or (<code>|</code>)</li>
+<li><b><a name="pdf-LUA_OPBXOR"><code>LUA_OPBXOR</code></a>: </b> performs bitwise exclusive or (<code>~</code>)</li>
+<li><b><a name="pdf-LUA_OPSHL"><code>LUA_OPSHL</code></a>: </b> performs left shift (<code>&lt;&lt;</code>)</li>
+<li><b><a name="pdf-LUA_OPSHR"><code>LUA_OPSHR</code></a>: </b> performs right shift (<code>&gt;&gt;</code>)</li>
+
+</ul>
+
+
+
+
+<hr><h3><a name="lua_atpanic"><code>lua_atpanic</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>lua_CFunction lua_atpanic (lua_State *L, lua_CFunction panicf);</pre>
+
+<p>
+Sets a new panic function and returns the old one (see <a href="#4.6">&sect;4.6</a>).
+
+
+
+
+
+<hr><h3><a name="lua_call"><code>lua_call</code></a></h3><p>
+<span class="apii">[-(nargs+1), +nresults, <em>e</em>]</span>
+<pre>void lua_call (lua_State *L, int nargs, int nresults);</pre>
+
+<p>
+Calls a function.
+
+
+<p>
+To call a function you must use the following protocol:
+first, the function to be called is pushed onto the stack;
+then, the arguments to the function are pushed
+in direct order;
+that is, the first argument is pushed first.
+Finally you call <a href="#lua_call"><code>lua_call</code></a>;
+<code>nargs</code> is the number of arguments that you pushed onto the stack.
+All arguments and the function value are popped from the stack
+when the function is called.
+The function results are pushed onto the stack when the function returns.
+The number of results is adjusted to <code>nresults</code>,
+unless <code>nresults</code> is <a name="pdf-LUA_MULTRET"><code>LUA_MULTRET</code></a>.
+In this case, all results from the function are pushed.
+Lua takes care that the returned values fit into the stack space.
+The function results are pushed onto the stack in direct order
+(the first result is pushed first),
+so that after the call the last result is on the top of the stack.
+
+
+<p>
+Any error inside the called function is propagated upwards
+(with a <code>longjmp</code>).
+
+
+<p>
+The following example shows how the host program can do the
+equivalent to this Lua code:
+
+<pre>
+     a = f("how", t.x, 14)
+</pre><p>
+Here it is in&nbsp;C:
+
+<pre>
+     lua_getglobal(L, "f");                  /* function to be called */
+     lua_pushliteral(L, "how");                       /* 1st argument */
+     lua_getglobal(L, "t");                    /* table to be indexed */
+     lua_getfield(L, -1, "x");        /* push result of t.x (2nd arg) */
+     lua_remove(L, -2);                  /* remove 't' from the stack */
+     lua_pushinteger(L, 14);                          /* 3rd argument */
+     lua_call(L, 3, 1);     /* call 'f' with 3 arguments and 1 result */
+     lua_setglobal(L, "a");                         /* set global 'a' */
+</pre><p>
+Note that the code above is <em>balanced</em>:
+at its end, the stack is back to its original configuration.
+This is considered good programming practice.
+
+
+
+
+
+<hr><h3><a name="lua_callk"><code>lua_callk</code></a></h3><p>
+<span class="apii">[-(nargs + 1), +nresults, <em>e</em>]</span>
+<pre>void lua_callk (lua_State *L,
+                int nargs,
+                int nresults,
+                lua_KContext ctx,
+                lua_KFunction k);</pre>
+
+<p>
+This function behaves exactly like <a href="#lua_call"><code>lua_call</code></a>,
+but allows the called function to yield (see <a href="#4.7">&sect;4.7</a>).
+
+
+
+
+
+<hr><h3><a name="lua_CFunction"><code>lua_CFunction</code></a></h3>
+<pre>typedef int (*lua_CFunction) (lua_State *L);</pre>
+
+<p>
+Type for C&nbsp;functions.
+
+
+<p>
+In order to communicate properly with Lua,
+a C&nbsp;function must use the following protocol,
+which defines the way parameters and results are passed:
+a C&nbsp;function receives its arguments from Lua in its stack
+in direct order (the first argument is pushed first).
+So, when the function starts,
+<code>lua_gettop(L)</code> returns the number of arguments received by the function.
+The first argument (if any) is at index 1
+and its last argument is at index <code>lua_gettop(L)</code>.
+To return values to Lua, a C&nbsp;function just pushes them onto the stack,
+in direct order (the first result is pushed first),
+and returns the number of results.
+Any other value in the stack below the results will be properly
+discarded by Lua.
+Like a Lua function, a C&nbsp;function called by Lua can also return
+many results.
+
+
+<p>
+As an example, the following function receives a variable number
+of numerical arguments and returns their average and their sum:
+
+<pre>
+     static int foo (lua_State *L) {
+       int n = lua_gettop(L);    /* number of arguments */
+       lua_Number sum = 0.0;
+       int i;
+       for (i = 1; i &lt;= n; i++) {
+         if (!lua_isnumber(L, i)) {
+           lua_pushliteral(L, "incorrect argument");
+           lua_error(L);
+         }
+         sum += lua_tonumber(L, i);
+       }
+       lua_pushnumber(L, sum/n);        /* first result */
+       lua_pushnumber(L, sum);         /* second result */
+       return 2;                   /* number of results */
+     }
+</pre>
+
+
+
+
+<hr><h3><a name="lua_checkstack"><code>lua_checkstack</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_checkstack (lua_State *L, int n);</pre>
+
+<p>
+Ensures that the stack has space for at least <code>n</code> extra slots.
+It returns false if it cannot fulfill the request,
+either because it would cause the stack
+to be larger than a fixed maximum size
+(typically at least several thousand elements) or
+because it cannot allocate memory for the extra space.
+This function never shrinks the stack;
+if the stack is already larger than the new size,
+it is left unchanged.
+
+
+
+
+
+<hr><h3><a name="lua_close"><code>lua_close</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void lua_close (lua_State *L);</pre>
+
+<p>
+Destroys all objects in the given Lua state
+(calling the corresponding garbage-collection metamethods, if any)
+and frees all dynamic memory used by this state.
+On several platforms, you may not need to call this function,
+because all resources are naturally released when the host program ends.
+On the other hand, long-running programs that create multiple states,
+such as daemons or web servers,
+will probably need to close states as soon as they are not needed.
+
+
+
+
+
+<hr><h3><a name="lua_compare"><code>lua_compare</code></a></h3><p>
+<span class="apii">[-0, +0, <em>e</em>]</span>
+<pre>int lua_compare (lua_State *L, int index1, int index2, int op);</pre>
+
+<p>
+Compares two Lua values.
+Returns 1 if the value at index <code>index1</code> satisfies <code>op</code>
+when compared with the value at index <code>index2</code>,
+following the semantics of the corresponding Lua operator
+(that is, it may call metamethods).
+Otherwise returns&nbsp;0.
+Also returns&nbsp;0 if any of the indices is not valid.
+
+
+<p>
+The value of <code>op</code> must be one of the following constants:
+
+<ul>
+
+<li><b><a name="pdf-LUA_OPEQ"><code>LUA_OPEQ</code></a>: </b> compares for equality (<code>==</code>)</li>
+<li><b><a name="pdf-LUA_OPLT"><code>LUA_OPLT</code></a>: </b> compares for less than (<code>&lt;</code>)</li>
+<li><b><a name="pdf-LUA_OPLE"><code>LUA_OPLE</code></a>: </b> compares for less or equal (<code>&lt;=</code>)</li>
+
+</ul>
+
+
+
+
+<hr><h3><a name="lua_concat"><code>lua_concat</code></a></h3><p>
+<span class="apii">[-n, +1, <em>e</em>]</span>
+<pre>void lua_concat (lua_State *L, int n);</pre>
+
+<p>
+Concatenates the <code>n</code> values at the top of the stack,
+pops them, and leaves the result at the top.
+If <code>n</code>&nbsp;is&nbsp;1, the result is the single value on the stack
+(that is, the function does nothing);
+if <code>n</code> is 0, the result is the empty string.
+Concatenation is performed following the usual semantics of Lua
+(see <a href="#3.4.6">&sect;3.4.6</a>).
+
+
+
+
+
+<hr><h3><a name="lua_copy"><code>lua_copy</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void lua_copy (lua_State *L, int fromidx, int toidx);</pre>
+
+<p>
+Copies the element at index <code>fromidx</code>
+into the valid index <code>toidx</code>,
+replacing the value at that position.
+Values at other positions are not affected.
+
+
+
+
+
+<hr><h3><a name="lua_createtable"><code>lua_createtable</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>void lua_createtable (lua_State *L, int narr, int nrec);</pre>
+
+<p>
+Creates a new empty table and pushes it onto the stack.
+Parameter <code>narr</code> is a hint for how many elements the table
+will have as a sequence;
+parameter <code>nrec</code> is a hint for how many other elements
+the table will have.
+Lua may use these hints to preallocate memory for the new table.
+This pre-allocation is useful for performance when you know in advance
+how many elements the table will have.
+Otherwise you can use the function <a href="#lua_newtable"><code>lua_newtable</code></a>.
+
+
+
+
+
+<hr><h3><a name="lua_dump"><code>lua_dump</code></a></h3><p>
+<span class="apii">[-0, +0, <em>e</em>]</span>
+<pre>int lua_dump (lua_State *L,
+                        lua_Writer writer,
+                        void *data,
+                        int strip);</pre>
+
+<p>
+Dumps a function as a binary chunk.
+Receives a Lua function on the top of the stack
+and produces a binary chunk that,
+if loaded again,
+results in a function equivalent to the one dumped.
+As it produces parts of the chunk,
+<a href="#lua_dump"><code>lua_dump</code></a> calls function <code>writer</code> (see <a href="#lua_Writer"><code>lua_Writer</code></a>)
+with the given <code>data</code>
+to write them.
+
+
+<p>
+If <code>strip</code> is true,
+the binary representation is created without debug information
+about the function.
+
+
+<p>
+The value returned is the error code returned by the last
+call to the writer;
+0&nbsp;means no errors.
+
+
+<p>
+This function does not pop the Lua function from the stack.
+
+
+
+
+
+<hr><h3><a name="lua_error"><code>lua_error</code></a></h3><p>
+<span class="apii">[-1, +0, <em>v</em>]</span>
+<pre>int lua_error (lua_State *L);</pre>
+
+<p>
+Generates a Lua error,
+using the value at the top of the stack as the error object.
+This function does a long jump,
+and therefore never returns
+(see <a href="#luaL_error"><code>luaL_error</code></a>).
+
+
+
+
+
+<hr><h3><a name="lua_gc"><code>lua_gc</code></a></h3><p>
+<span class="apii">[-0, +0, <em>e</em>]</span>
+<pre>int lua_gc (lua_State *L, int what, int data);</pre>
+
+<p>
+Controls the garbage collector.
+
+
+<p>
+This function performs several tasks,
+according to the value of the parameter <code>what</code>:
+
+<ul>
+
+<li><b><code>LUA_GCSTOP</code>: </b>
+stops the garbage collector.
+</li>
+
+<li><b><code>LUA_GCRESTART</code>: </b>
+restarts the garbage collector.
+</li>
+
+<li><b><code>LUA_GCCOLLECT</code>: </b>
+performs a full garbage-collection cycle.
+</li>
+
+<li><b><code>LUA_GCCOUNT</code>: </b>
+returns the current amount of memory (in Kbytes) in use by Lua.
+</li>
+
+<li><b><code>LUA_GCCOUNTB</code>: </b>
+returns the remainder of dividing the current amount of bytes of
+memory in use by Lua by 1024.
+</li>
+
+<li><b><code>LUA_GCSTEP</code>: </b>
+performs an incremental step of garbage collection.
+</li>
+
+<li><b><code>LUA_GCSETPAUSE</code>: </b>
+sets <code>data</code> as the new value
+for the <em>pause</em> of the collector (see <a href="#2.5">&sect;2.5</a>)
+and returns the previous value of the pause.
+</li>
+
+<li><b><code>LUA_GCSETSTEPMUL</code>: </b>
+sets <code>data</code> as the new value for the <em>step multiplier</em> of
+the collector (see <a href="#2.5">&sect;2.5</a>)
+and returns the previous value of the step multiplier.
+</li>
+
+<li><b><code>LUA_GCISRUNNING</code>: </b>
+returns a boolean that tells whether the collector is running
+(i.e., not stopped).
+</li>
+
+</ul>
+
+<p>
+For more details about these options,
+see <a href="#pdf-collectgarbage"><code>collectgarbage</code></a>.
+
+
+
+
+
+<hr><h3><a name="lua_getallocf"><code>lua_getallocf</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>lua_Alloc lua_getallocf (lua_State *L, void **ud);</pre>
+
+<p>
+Returns the memory-allocation function of a given state.
+If <code>ud</code> is not <code>NULL</code>, Lua stores in <code>*ud</code> the
+opaque pointer given when the memory-allocator function was set.
+
+
+
+
+
+<hr><h3><a name="lua_getfield"><code>lua_getfield</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>int lua_getfield (lua_State *L, int index, const char *k);</pre>
+
+<p>
+Pushes onto the stack the value <code>t[k]</code>,
+where <code>t</code> is the value at the given index.
+As in Lua, this function may trigger a metamethod
+for the "index" event (see <a href="#2.4">&sect;2.4</a>).
+
+
+<p>
+Returns the type of the pushed value.
+
+
+
+
+
+<hr><h3><a name="lua_getextraspace"><code>lua_getextraspace</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void *lua_getextraspace (lua_State *L);</pre>
+
+<p>
+Returns a pointer to a raw memory area associated with the
+given Lua state.
+The application can use this area for any purpose;
+Lua does not use it for anything.
+
+
+<p>
+Each new thread has this area initialized with a copy
+of the area of the main thread.
+
+
+<p>
+By default, this area has the size of a pointer to void,
+but you can recompile Lua with a different size for this area.
+(See <code>LUA_EXTRASPACE</code> in <code>luaconf.h</code>.)
+
+
+
+
+
+<hr><h3><a name="lua_getglobal"><code>lua_getglobal</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>int lua_getglobal (lua_State *L, const char *name);</pre>
+
+<p>
+Pushes onto the stack the value of the global <code>name</code>.
+Returns the type of that value.
+
+
+
+
+
+<hr><h3><a name="lua_geti"><code>lua_geti</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>int lua_geti (lua_State *L, int index, lua_Integer i);</pre>
+
+<p>
+Pushes onto the stack the value <code>t[i]</code>,
+where <code>t</code> is the value at the given index.
+As in Lua, this function may trigger a metamethod
+for the "index" event (see <a href="#2.4">&sect;2.4</a>).
+
+
+<p>
+Returns the type of the pushed value.
+
+
+
+
+
+<hr><h3><a name="lua_getmetatable"><code>lua_getmetatable</code></a></h3><p>
+<span class="apii">[-0, +(0|1), &ndash;]</span>
+<pre>int lua_getmetatable (lua_State *L, int index);</pre>
+
+<p>
+If the value at the given index has a metatable,
+the function pushes that metatable onto the stack and returns&nbsp;1.
+Otherwise,
+the function returns&nbsp;0 and pushes nothing on the stack.
+
+
+
+
+
+<hr><h3><a name="lua_gettable"><code>lua_gettable</code></a></h3><p>
+<span class="apii">[-1, +1, <em>e</em>]</span>
+<pre>int lua_gettable (lua_State *L, int index);</pre>
+
+<p>
+Pushes onto the stack the value <code>t[k]</code>,
+where <code>t</code> is the value at the given index
+and <code>k</code> is the value at the top of the stack.
+
+
+<p>
+This function pops the key from the stack,
+pushing the resulting value in its place.
+As in Lua, this function may trigger a metamethod
+for the "index" event (see <a href="#2.4">&sect;2.4</a>).
+
+
+<p>
+Returns the type of the pushed value.
+
+
+
+
+
+<hr><h3><a name="lua_gettop"><code>lua_gettop</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_gettop (lua_State *L);</pre>
+
+<p>
+Returns the index of the top element in the stack.
+Because indices start at&nbsp;1,
+this result is equal to the number of elements in the stack;
+in particular, 0&nbsp;means an empty stack.
+
+
+
+
+
+<hr><h3><a name="lua_getuservalue"><code>lua_getuservalue</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>int lua_getuservalue (lua_State *L, int index);</pre>
+
+<p>
+Pushes onto the stack the Lua value associated with the userdata
+at the given index.
+
+
+<p>
+Returns the type of the pushed value.
+
+
+
+
+
+<hr><h3><a name="lua_insert"><code>lua_insert</code></a></h3><p>
+<span class="apii">[-1, +1, &ndash;]</span>
+<pre>void lua_insert (lua_State *L, int index);</pre>
+
+<p>
+Moves the top element into the given valid index,
+shifting up the elements above this index to open space.
+This function cannot be called with a pseudo-index,
+because a pseudo-index is not an actual stack position.
+
+
+
+
+
+<hr><h3><a name="lua_Integer"><code>lua_Integer</code></a></h3>
+<pre>typedef ... lua_Integer;</pre>
+
+<p>
+The type of integers in Lua.
+
+
+<p>
+By default this type is <code>long long</code>,
+(usually a 64-bit two-complement integer),
+but that can be changed to <code>long</code> or <code>int</code>
+(usually a 32-bit two-complement integer).
+(See <code>LUA_INT</code> in <code>luaconf.h</code>.)
+
+
+<p>
+Lua also defines the constants
+<a name="pdf-LUA_MININTEGER"><code>LUA_MININTEGER</code></a> and <a name="pdf-LUA_MAXINTEGER"><code>LUA_MAXINTEGER</code></a>,
+with the minimum and the maximum values that fit in this type.
+
+
+
+
+
+<hr><h3><a name="lua_isboolean"><code>lua_isboolean</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_isboolean (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the value at the given index is a boolean,
+and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_iscfunction"><code>lua_iscfunction</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_iscfunction (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the value at the given index is a C&nbsp;function,
+and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_isfunction"><code>lua_isfunction</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_isfunction (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the value at the given index is a function
+(either C or Lua), and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_isinteger"><code>lua_isinteger</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_isinteger (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the value at the given index is an integer
+(that is, the value is a number and is represented as an integer),
+and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_islightuserdata"><code>lua_islightuserdata</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_islightuserdata (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the value at the given index is a light userdata,
+and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_isnil"><code>lua_isnil</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_isnil (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the value at the given index is <b>nil</b>,
+and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_isnone"><code>lua_isnone</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_isnone (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the given index is not valid,
+and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_isnoneornil"><code>lua_isnoneornil</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_isnoneornil (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the given index is not valid
+or if the value at this index is <b>nil</b>,
+and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_isnumber"><code>lua_isnumber</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_isnumber (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the value at the given index is a number
+or a string convertible to a number,
+and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_isstring"><code>lua_isstring</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_isstring (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the value at the given index is a string
+or a number (which is always convertible to a string),
+and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_istable"><code>lua_istable</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_istable (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the value at the given index is a table,
+and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_isthread"><code>lua_isthread</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_isthread (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the value at the given index is a thread,
+and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_isuserdata"><code>lua_isuserdata</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_isuserdata (lua_State *L, int index);</pre>
+
+<p>
+Returns 1 if the value at the given index is a userdata
+(either full or light), and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_isyieldable"><code>lua_isyieldable</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_isyieldable (lua_State *L);</pre>
+
+<p>
+Returns 1 if the given coroutine can yield,
+and 0&nbsp;otherwise.
+
+
+
+
+
+<hr><h3><a name="lua_KContext"><code>lua_KContext</code></a></h3>
+<pre>typedef ... lua_KContext;</pre>
+
+<p>
+The type for continuation-function contexts.
+It must be a numerical type.
+This type is defined as <code>intptr_t</code>
+when <code>intptr_t</code> is available,
+so that it can store pointers too.
+Otherwise, it is defined as <code>ptrdiff_t</code>.
+
+
+
+
+
+<hr><h3><a name="lua_KFunction"><code>lua_KFunction</code></a></h3>
+<pre>typedef int (*lua_KFunction) (lua_State *L, int status, lua_KContext ctx);</pre>
+
+<p>
+Type for continuation functions (see <a href="#4.7">&sect;4.7</a>).
+
+
+
+
+
+<hr><h3><a name="lua_len"><code>lua_len</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>void lua_len (lua_State *L, int index);</pre>
+
+<p>
+Returns the length of the value at the given index.
+It is equivalent to the '<code>#</code>' operator in Lua (see <a href="#3.4.7">&sect;3.4.7</a>) and
+may trigger a metamethod for the "length" event (see <a href="#2.4">&sect;2.4</a>).
+The result is pushed on the stack.
+
+
+
+
+
+<hr><h3><a name="lua_load"><code>lua_load</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>int lua_load (lua_State *L,
+              lua_Reader reader,
+              void *data,
+              const char *chunkname,
+              const char *mode);</pre>
+
+<p>
+Loads a Lua chunk without running it.
+If there are no errors,
+<code>lua_load</code> pushes the compiled chunk as a Lua
+function on top of the stack.
+Otherwise, it pushes an error message.
+
+
+<p>
+The return values of <code>lua_load</code> are:
+
+<ul>
+
+<li><b><a href="#pdf-LUA_OK"><code>LUA_OK</code></a>: </b> no errors;</li>
+
+<li><b><a name="pdf-LUA_ERRSYNTAX"><code>LUA_ERRSYNTAX</code></a>: </b>
+syntax error during precompilation;</li>
+
+<li><b><a href="#pdf-LUA_ERRMEM"><code>LUA_ERRMEM</code></a>: </b>
+memory allocation error;</li>
+
+<li><b><a href="#pdf-LUA_ERRGCMM"><code>LUA_ERRGCMM</code></a>: </b>
+error while running a <code>__gc</code> metamethod.
+(This error has no relation with the chunk being loaded.
+It is generated by the garbage collector.)
+</li>
+
+</ul>
+
+<p>
+The <code>lua_load</code> function uses a user-supplied <code>reader</code> function
+to read the chunk (see <a href="#lua_Reader"><code>lua_Reader</code></a>).
+The <code>data</code> argument is an opaque value passed to the reader function.
+
+
+<p>
+The <code>chunkname</code> argument gives a name to the chunk,
+which is used for error messages and in debug information (see <a href="#4.9">&sect;4.9</a>).
+
+
+<p>
+<code>lua_load</code> automatically detects whether the chunk is text or binary
+and loads it accordingly (see program <code>luac</code>).
+The string <code>mode</code> works as in function <a href="#pdf-load"><code>load</code></a>,
+with the addition that
+a <code>NULL</code> value is equivalent to the string "<code>bt</code>".
+
+
+<p>
+<code>lua_load</code> uses the stack internally,
+so the reader function must always leave the stack
+unmodified when returning.
+
+
+<p>
+If the resulting function has upvalues,
+its first upvalue is set to the value of the global environment
+stored at index <code>LUA_RIDX_GLOBALS</code> in the registry (see <a href="#4.5">&sect;4.5</a>).
+When loading main chunks,
+this upvalue will be the <code>_ENV</code> variable (see <a href="#2.2">&sect;2.2</a>).
+Other upvalues are initialized with <b>nil</b>.
+
+
+
+
+
+<hr><h3><a name="lua_newstate"><code>lua_newstate</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>lua_State *lua_newstate (lua_Alloc f, void *ud);</pre>
+
+<p>
+Creates a new thread running in a new, independent state.
+Returns <code>NULL</code> if it cannot create the thread or the state
+(due to lack of memory).
+The argument <code>f</code> is the allocator function;
+Lua does all memory allocation for this state through this function.
+The second argument, <code>ud</code>, is an opaque pointer that Lua
+passes to the allocator in every call.
+
+
+
+
+
+<hr><h3><a name="lua_newtable"><code>lua_newtable</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>void lua_newtable (lua_State *L);</pre>
+
+<p>
+Creates a new empty table and pushes it onto the stack.
+It is equivalent to <code>lua_createtable(L, 0, 0)</code>.
+
+
+
+
+
+<hr><h3><a name="lua_newthread"><code>lua_newthread</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>lua_State *lua_newthread (lua_State *L);</pre>
+
+<p>
+Creates a new thread, pushes it on the stack,
+and returns a pointer to a <a href="#lua_State"><code>lua_State</code></a> that represents this new thread.
+The new thread returned by this function shares with the original thread
+its global environment,
+but has an independent execution stack.
+
+
+<p>
+There is no explicit function to close or to destroy a thread.
+Threads are subject to garbage collection,
+like any Lua object.
+
+
+
+
+
+<hr><h3><a name="lua_newuserdata"><code>lua_newuserdata</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>void *lua_newuserdata (lua_State *L, size_t size);</pre>
+
+<p>
+This function allocates a new block of memory with the given size,
+pushes onto the stack a new full userdata with the block address,
+and returns this address.
+The host program can freely use this memory.
+
+
+
+
+
+<hr><h3><a name="lua_next"><code>lua_next</code></a></h3><p>
+<span class="apii">[-1, +(2|0), <em>e</em>]</span>
+<pre>int lua_next (lua_State *L, int index);</pre>
+
+<p>
+Pops a key from the stack,
+and pushes a key&ndash;value pair from the table at the given index
+(the "next" pair after the given key).
+If there are no more elements in the table,
+then <a href="#lua_next"><code>lua_next</code></a> returns 0 (and pushes nothing).
+
+
+<p>
+A typical traversal looks like this:
+
+<pre>
+     /* table is in the stack at index 't' */
+     lua_pushnil(L);  /* first key */
+     while (lua_next(L, t) != 0) {
+       /* uses 'key' (at index -2) and 'value' (at index -1) */
+       printf("%s - %s\n",
+              lua_typename(L, lua_type(L, -2)),
+              lua_typename(L, lua_type(L, -1)));
+       /* removes 'value'; keeps 'key' for next iteration */
+       lua_pop(L, 1);
+     }
+</pre>
+
+<p>
+While traversing a table,
+do not call <a href="#lua_tolstring"><code>lua_tolstring</code></a> directly on a key,
+unless you know that the key is actually a string.
+Recall that <a href="#lua_tolstring"><code>lua_tolstring</code></a> may change
+the value at the given index;
+this confuses the next call to <a href="#lua_next"><code>lua_next</code></a>.
+
+
+<p>
+See function <a href="#pdf-next"><code>next</code></a> for the caveats of modifying
+the table during its traversal.
+
+
+
+
+
+<hr><h3><a name="lua_Number"><code>lua_Number</code></a></h3>
+<pre>typedef double lua_Number;</pre>
+
+<p>
+The type of floats in Lua.
+
+
+<p>
+By default this type is double,
+but that can be changed to a single float.
+(See <code>LUA_REAL</code> in <code>luaconf.h</code>.)
+
+
+
+
+
+<hr><h3><a name="lua_numbertointeger"><code>lua_numbertointeger</code></a></h3>
+<pre>int lua_numbertointeger (lua_Number n, lua_Integer *p);</pre>
+
+<p>
+Converts a Lua float to a Lua integer.
+This macro assumes that <code>n</code> has an integral value.
+If that value is within the range of Lua integers,
+it is converted to an integer and assigned to <code>*p</code>.
+The macro results in a boolean indicating whether the
+conversion was successful.
+(Note that this range test can be tricky to do
+correctly without this macro,
+due to roundings.)
+
+
+<p>
+This macro may evaluate its arguments more than once.
+
+
+
+
+
+<hr><h3><a name="lua_pcall"><code>lua_pcall</code></a></h3><p>
+<span class="apii">[-(nargs + 1), +(nresults|1), &ndash;]</span>
+<pre>int lua_pcall (lua_State *L, int nargs, int nresults, int msgh);</pre>
+
+<p>
+Calls a function in protected mode.
+
+
+<p>
+Both <code>nargs</code> and <code>nresults</code> have the same meaning as
+in <a href="#lua_call"><code>lua_call</code></a>.
+If there are no errors during the call,
+<a href="#lua_pcall"><code>lua_pcall</code></a> behaves exactly like <a href="#lua_call"><code>lua_call</code></a>.
+However, if there is any error,
+<a href="#lua_pcall"><code>lua_pcall</code></a> catches it,
+pushes a single value on the stack (the error message),
+and returns an error code.
+Like <a href="#lua_call"><code>lua_call</code></a>,
+<a href="#lua_pcall"><code>lua_pcall</code></a> always removes the function
+and its arguments from the stack.
+
+
+<p>
+If <code>msgh</code> is 0,
+then the error message returned on the stack
+is exactly the original error message.
+Otherwise, <code>msgh</code> is the stack index of a
+<em>message handler</em>.
+(In the current implementation, this index cannot be a pseudo-index.)
+In case of runtime errors,
+this function will be called with the error message
+and its return value will be the message
+returned on the stack by <a href="#lua_pcall"><code>lua_pcall</code></a>.
+
+
+<p>
+Typically, the message handler is used to add more debug
+information to the error message, such as a stack traceback.
+Such information cannot be gathered after the return of <a href="#lua_pcall"><code>lua_pcall</code></a>,
+since by then the stack has unwound.
+
+
+<p>
+The <a href="#lua_pcall"><code>lua_pcall</code></a> function returns one of the following constants
+(defined in <code>lua.h</code>):
+
+<ul>
+
+<li><b><a name="pdf-LUA_OK"><code>LUA_OK</code></a> (0): </b>
+success.</li>
+
+<li><b><a name="pdf-LUA_ERRRUN"><code>LUA_ERRRUN</code></a>: </b>
+a runtime error.
+</li>
+
+<li><b><a name="pdf-LUA_ERRMEM"><code>LUA_ERRMEM</code></a>: </b>
+memory allocation error.
+For such errors, Lua does not call the message handler.
+</li>
+
+<li><b><a name="pdf-LUA_ERRERR"><code>LUA_ERRERR</code></a>: </b>
+error while running the message handler.
+</li>
+
+<li><b><a name="pdf-LUA_ERRGCMM"><code>LUA_ERRGCMM</code></a>: </b>
+error while running a <code>__gc</code> metamethod.
+(This error typically has no relation with the function being called.)
+</li>
+
+</ul>
+
+
+
+
+<hr><h3><a name="lua_pcallk"><code>lua_pcallk</code></a></h3><p>
+<span class="apii">[-(nargs + 1), +(nresults|1), &ndash;]</span>
+<pre>int lua_pcallk (lua_State *L,
+                int nargs,
+                int nresults,
+                int msgh,
+                lua_KContext ctx,
+                lua_KFunction k);</pre>
+
+<p>
+This function behaves exactly like <a href="#lua_pcall"><code>lua_pcall</code></a>,
+but allows the called function to yield (see <a href="#4.7">&sect;4.7</a>).
+
+
+
+
+
+<hr><h3><a name="lua_pop"><code>lua_pop</code></a></h3><p>
+<span class="apii">[-n, +0, &ndash;]</span>
+<pre>void lua_pop (lua_State *L, int n);</pre>
+
+<p>
+Pops <code>n</code> elements from the stack.
+
+
+
+
+
+<hr><h3><a name="lua_pushboolean"><code>lua_pushboolean</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>void lua_pushboolean (lua_State *L, int b);</pre>
+
+<p>
+Pushes a boolean value with value <code>b</code> onto the stack.
+
+
+
+
+
+<hr><h3><a name="lua_pushcclosure"><code>lua_pushcclosure</code></a></h3><p>
+<span class="apii">[-n, +1, <em>e</em>]</span>
+<pre>void lua_pushcclosure (lua_State *L, lua_CFunction fn, int n);</pre>
+
+<p>
+Pushes a new C&nbsp;closure onto the stack.
+
+
+<p>
+When a C&nbsp;function is created,
+it is possible to associate some values with it,
+thus creating a C&nbsp;closure (see <a href="#4.4">&sect;4.4</a>);
+these values are then accessible to the function whenever it is called.
+To associate values with a C&nbsp;function,
+first these values must be pushed onto the stack
+(when there are multiple values, the first value is pushed first).
+Then <a href="#lua_pushcclosure"><code>lua_pushcclosure</code></a>
+is called to create and push the C&nbsp;function onto the stack,
+with the argument <code>n</code> telling how many values will be
+associated with the function.
+<a href="#lua_pushcclosure"><code>lua_pushcclosure</code></a> also pops these values from the stack.
+
+
+<p>
+The maximum value for <code>n</code> is 255.
+
+
+<p>
+When <code>n</code> is zero,
+this function creates a <em>light C function</em>,
+which is just a pointer to the C&nbsp;function.
+In that case, it never raises a memory error.
+
+
+
+
+
+<hr><h3><a name="lua_pushcfunction"><code>lua_pushcfunction</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>void lua_pushcfunction (lua_State *L, lua_CFunction f);</pre>
+
+<p>
+Pushes a C&nbsp;function onto the stack.
+This function receives a pointer to a C function
+and pushes onto the stack a Lua value of type <code>function</code> that,
+when called, invokes the corresponding C&nbsp;function.
+
+
+<p>
+Any function to be registered in Lua must
+follow the correct protocol to receive its parameters
+and return its results (see <a href="#lua_CFunction"><code>lua_CFunction</code></a>).
+
+
+<p>
+<code>lua_pushcfunction</code> is defined as a macro:
+
+<pre>
+     #define lua_pushcfunction(L,f)  lua_pushcclosure(L,f,0)
+</pre><p>
+Note that <code>f</code> is used twice.
+
+
+
+
+
+<hr><h3><a name="lua_pushfstring"><code>lua_pushfstring</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>const char *lua_pushfstring (lua_State *L, const char *fmt, ...);</pre>
+
+<p>
+Pushes onto the stack a formatted string
+and returns a pointer to this string.
+It is similar to the ISO&nbsp;C function <code>sprintf</code>,
+but has some important differences:
+
+<ul>
+
+<li>
+You do not have to allocate space for the result:
+the result is a Lua string and Lua takes care of memory allocation
+(and deallocation, through garbage collection).
+</li>
+
+<li>
+The conversion specifiers are quite restricted.
+There are no flags, widths, or precisions.
+The conversion specifiers can only be
+'<code>%%</code>' (inserts the character '<code>%</code>'),
+'<code>%s</code>' (inserts a zero-terminated string, with no size restrictions),
+'<code>%f</code>' (inserts a <a href="#lua_Number"><code>lua_Number</code></a>),
+'<code>%L</code>' (inserts a <a href="#lua_Integer"><code>lua_Integer</code></a>),
+'<code>%p</code>' (inserts a pointer as a hexadecimal numeral),
+'<code>%d</code>' (inserts an <code>int</code>),
+'<code>%c</code>' (inserts an <code>int</code> as a one-byte character), and
+'<code>%U</code>' (inserts a <code>long int</code> as a UTF-8 byte sequence).
+</li>
+
+</ul>
+
+
+
+
+<hr><h3><a name="lua_pushglobaltable"><code>lua_pushglobaltable</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>void lua_pushglobaltable (lua_State *L);</pre>
+
+<p>
+Pushes the global environment onto the stack.
+
+
+
+
+
+<hr><h3><a name="lua_pushinteger"><code>lua_pushinteger</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>void lua_pushinteger (lua_State *L, lua_Integer n);</pre>
+
+<p>
+Pushes an integer with value <code>n</code> onto the stack.
+
+
+
+
+
+<hr><h3><a name="lua_pushlightuserdata"><code>lua_pushlightuserdata</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>void lua_pushlightuserdata (lua_State *L, void *p);</pre>
+
+<p>
+Pushes a light userdata onto the stack.
+
+
+<p>
+Userdata represent C&nbsp;values in Lua.
+A <em>light userdata</em> represents a pointer, a <code>void*</code>.
+It is a value (like a number):
+you do not create it, it has no individual metatable,
+and it is not collected (as it was never created).
+A light userdata is equal to "any"
+light userdata with the same C&nbsp;address.
+
+
+
+
+
+<hr><h3><a name="lua_pushliteral"><code>lua_pushliteral</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>const char *lua_pushliteral (lua_State *L, const char *s);</pre>
+
+<p>
+This macro is equivalent to <a href="#lua_pushlstring"><code>lua_pushlstring</code></a>,
+but can be used only when <code>s</code> is a literal string.
+It automatically provides the string length.
+
+
+
+
+
+<hr><h3><a name="lua_pushlstring"><code>lua_pushlstring</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>const char *lua_pushlstring (lua_State *L, const char *s, size_t len);</pre>
+
+<p>
+Pushes the string pointed to by <code>s</code> with size <code>len</code>
+onto the stack.
+Lua makes (or reuses) an internal copy of the given string,
+so the memory at <code>s</code> can be freed or reused immediately after
+the function returns.
+The string can contain any binary data,
+including embedded zeros.
+
+
+<p>
+Returns a pointer to the internal copy of the string.
+
+
+
+
+
+<hr><h3><a name="lua_pushnil"><code>lua_pushnil</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>void lua_pushnil (lua_State *L);</pre>
+
+<p>
+Pushes a nil value onto the stack.
+
+
+
+
+
+<hr><h3><a name="lua_pushnumber"><code>lua_pushnumber</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>void lua_pushnumber (lua_State *L, lua_Number n);</pre>
+
+<p>
+Pushes a float with value <code>n</code> onto the stack.
+
+
+
+
+
+<hr><h3><a name="lua_pushstring"><code>lua_pushstring</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>const char *lua_pushstring (lua_State *L, const char *s);</pre>
+
+<p>
+Pushes the zero-terminated string pointed to by <code>s</code>
+onto the stack.
+Lua makes (or reuses) an internal copy of the given string,
+so the memory at <code>s</code> can be freed or reused immediately after
+the function returns.
+
+
+<p>
+Returns a pointer to the internal copy of the string.
+
+
+<p>
+If <code>s</code> is <code>NULL</code>, pushes <b>nil</b> and returns <code>NULL</code>.
+
+
+
+
+
+<hr><h3><a name="lua_pushthread"><code>lua_pushthread</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>int lua_pushthread (lua_State *L);</pre>
+
+<p>
+Pushes the thread represented by <code>L</code> onto the stack.
+Returns 1 if this thread is the main thread of its state.
+
+
+
+
+
+<hr><h3><a name="lua_pushvalue"><code>lua_pushvalue</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>void lua_pushvalue (lua_State *L, int index);</pre>
+
+<p>
+Pushes a copy of the element at the given index
+onto the stack.
+
+
+
+
+
+<hr><h3><a name="lua_pushvfstring"><code>lua_pushvfstring</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>const char *lua_pushvfstring (lua_State *L,
+                              const char *fmt,
+                              va_list argp);</pre>
+
+<p>
+Equivalent to <a href="#lua_pushfstring"><code>lua_pushfstring</code></a>, except that it receives a <code>va_list</code>
+instead of a variable number of arguments.
+
+
+
+
+
+<hr><h3><a name="lua_rawequal"><code>lua_rawequal</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_rawequal (lua_State *L, int index1, int index2);</pre>
+
+<p>
+Returns 1 if the two values in indices <code>index1</code> and
+<code>index2</code> are primitively equal
+(that is, without calling metamethods).
+Otherwise returns&nbsp;0.
+Also returns&nbsp;0 if any of the indices are not valid.
+
+
+
+
+
+<hr><h3><a name="lua_rawget"><code>lua_rawget</code></a></h3><p>
+<span class="apii">[-1, +1, &ndash;]</span>
+<pre>int lua_rawget (lua_State *L, int index);</pre>
+
+<p>
+Similar to <a href="#lua_gettable"><code>lua_gettable</code></a>, but does a raw access
+(i.e., without metamethods).
+
+
+
+
+
+<hr><h3><a name="lua_rawgeti"><code>lua_rawgeti</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>int lua_rawgeti (lua_State *L, int index, lua_Integer n);</pre>
+
+<p>
+Pushes onto the stack the value <code>t[n]</code>,
+where <code>t</code> is the table at the given index.
+The access is raw;
+that is, it does not invoke metamethods.
+
+
+<p>
+Returns the type of the pushed value.
+
+
+
+
+
+<hr><h3><a name="lua_rawgetp"><code>lua_rawgetp</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>int lua_rawgetp (lua_State *L, int index, const void *p);</pre>
+
+<p>
+Pushes onto the stack the value <code>t[k]</code>,
+where <code>t</code> is the table at the given index and
+<code>k</code> is the pointer <code>p</code> represented as a light userdata.
+The access is raw;
+that is, it does not invoke metamethods.
+
+
+<p>
+Returns the type of the pushed value.
+
+
+
+
+
+<hr><h3><a name="lua_rawlen"><code>lua_rawlen</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>size_t lua_rawlen (lua_State *L, int index);</pre>
+
+<p>
+Returns the raw "length" of the value at the given index:
+for strings, this is the string length;
+for tables, this is the result of the length operator ('<code>#</code>')
+with no metamethods;
+for userdata, this is the size of the block of memory allocated
+for the userdata;
+for other values, it is&nbsp;0.
+
+
+
+
+
+<hr><h3><a name="lua_rawset"><code>lua_rawset</code></a></h3><p>
+<span class="apii">[-2, +0, <em>e</em>]</span>
+<pre>void lua_rawset (lua_State *L, int index);</pre>
+
+<p>
+Similar to <a href="#lua_settable"><code>lua_settable</code></a>, but does a raw assignment
+(i.e., without metamethods).
+
+
+
+
+
+<hr><h3><a name="lua_rawseti"><code>lua_rawseti</code></a></h3><p>
+<span class="apii">[-1, +0, <em>e</em>]</span>
+<pre>void lua_rawseti (lua_State *L, int index, lua_Integer i);</pre>
+
+<p>
+Does the equivalent of <code>t[i] = v</code>,
+where <code>t</code> is the table at the given index
+and <code>v</code> is the value at the top of the stack.
+
+
+<p>
+This function pops the value from the stack.
+The assignment is raw;
+that is, it does not invoke metamethods.
+
+
+
+
+
+<hr><h3><a name="lua_rawsetp"><code>lua_rawsetp</code></a></h3><p>
+<span class="apii">[-1, +0, <em>e</em>]</span>
+<pre>void lua_rawsetp (lua_State *L, int index, const void *p);</pre>
+
+<p>
+Does the equivalent of <code>t[k] = v</code>,
+where <code>t</code> is the table at the given index,
+<code>k</code> is the pointer <code>p</code> represented as a light userdata,
+and <code>v</code> is the value at the top of the stack.
+
+
+<p>
+This function pops the value from the stack.
+The assignment is raw;
+that is, it does not invoke metamethods.
+
+
+
+
+
+<hr><h3><a name="lua_Reader"><code>lua_Reader</code></a></h3>
+<pre>typedef const char * (*lua_Reader) (lua_State *L,
+                                    void *data,
+                                    size_t *size);</pre>
+
+<p>
+The reader function used by <a href="#lua_load"><code>lua_load</code></a>.
+Every time it needs another piece of the chunk,
+<a href="#lua_load"><code>lua_load</code></a> calls the reader,
+passing along its <code>data</code> parameter.
+The reader must return a pointer to a block of memory
+with a new piece of the chunk
+and set <code>size</code> to the block size.
+The block must exist until the reader function is called again.
+To signal the end of the chunk,
+the reader must return <code>NULL</code> or set <code>size</code> to zero.
+The reader function may return pieces of any size greater than zero.
+
+
+
+
+
+<hr><h3><a name="lua_register"><code>lua_register</code></a></h3><p>
+<span class="apii">[-0, +0, <em>e</em>]</span>
+<pre>void lua_register (lua_State *L, const char *name, lua_CFunction f);</pre>
+
+<p>
+Sets the C function <code>f</code> as the new value of global <code>name</code>.
+It is defined as a macro:
+
+<pre>
+     #define lua_register(L,n,f) \
+            (lua_pushcfunction(L, f), lua_setglobal(L, n))
+</pre>
+
+
+
+
+<hr><h3><a name="lua_remove"><code>lua_remove</code></a></h3><p>
+<span class="apii">[-1, +0, &ndash;]</span>
+<pre>void lua_remove (lua_State *L, int index);</pre>
+
+<p>
+Removes the element at the given valid index,
+shifting down the elements above this index to fill the gap.
+This function cannot be called with a pseudo-index,
+because a pseudo-index is not an actual stack position.
+
+
+
+
+
+<hr><h3><a name="lua_replace"><code>lua_replace</code></a></h3><p>
+<span class="apii">[-1, +0, &ndash;]</span>
+<pre>void lua_replace (lua_State *L, int index);</pre>
+
+<p>
+Moves the top element into the given valid index
+without shifting any element
+(therefore replacing the value at the given index),
+and then pops the top element.
+
+
+
+
+
+<hr><h3><a name="lua_resume"><code>lua_resume</code></a></h3><p>
+<span class="apii">[-?, +?, &ndash;]</span>
+<pre>int lua_resume (lua_State *L, lua_State *from, int nargs);</pre>
+
+<p>
+Starts and resumes a coroutine in a given thread.
+
+
+<p>
+To start a coroutine,
+you push onto the thread stack the main function plus any arguments;
+then you call <a href="#lua_resume"><code>lua_resume</code></a>,
+with <code>nargs</code> being the number of arguments.
+This call returns when the coroutine suspends or finishes its execution.
+When it returns, the stack contains all values passed to <a href="#lua_yield"><code>lua_yield</code></a>,
+or all values returned by the body function.
+<a href="#lua_resume"><code>lua_resume</code></a> returns
+<a href="#pdf-LUA_YIELD"><code>LUA_YIELD</code></a> if the coroutine yields,
+<a href="#pdf-LUA_OK"><code>LUA_OK</code></a> if the coroutine finishes its execution
+without errors,
+or an error code in case of errors (see <a href="#lua_pcall"><code>lua_pcall</code></a>).
+
+
+<p>
+In case of errors,
+the stack is not unwound,
+so you can use the debug API over it.
+The error message is on the top of the stack.
+
+
+<p>
+To resume a coroutine,
+you remove any results from the last <a href="#lua_yield"><code>lua_yield</code></a>,
+put on its stack only the values to
+be passed as results from <code>yield</code>,
+and then call <a href="#lua_resume"><code>lua_resume</code></a>.
+
+
+<p>
+The parameter <code>from</code> represents the coroutine that is resuming <code>L</code>.
+If there is no such coroutine,
+this parameter can be <code>NULL</code>.
+
+
+
+
+
+<hr><h3><a name="lua_rotate"><code>lua_rotate</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void lua_rotate (lua_State *L, int idx, int n);</pre>
+
+<p>
+Rotates the stack elements from <code>idx</code> to the top <code>n</code> positions
+in the direction of the top, for a positive <code>n</code>,
+or <code>-n</code> positions in the direction of the bottom,
+for a negative <code>n</code>.
+The absolute value of <code>n</code> must not be greater than the size
+of the slice being rotated.
+
+
+
+
+
+<hr><h3><a name="lua_setallocf"><code>lua_setallocf</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void lua_setallocf (lua_State *L, lua_Alloc f, void *ud);</pre>
+
+<p>
+Changes the allocator function of a given state to <code>f</code>
+with user data <code>ud</code>.
+
+
+
+
+
+<hr><h3><a name="lua_setfield"><code>lua_setfield</code></a></h3><p>
+<span class="apii">[-1, +0, <em>e</em>]</span>
+<pre>void lua_setfield (lua_State *L, int index, const char *k);</pre>
+
+<p>
+Does the equivalent to <code>t[k] = v</code>,
+where <code>t</code> is the value at the given index
+and <code>v</code> is the value at the top of the stack.
+
+
+<p>
+This function pops the value from the stack.
+As in Lua, this function may trigger a metamethod
+for the "newindex" event (see <a href="#2.4">&sect;2.4</a>).
+
+
+
+
+
+<hr><h3><a name="lua_setglobal"><code>lua_setglobal</code></a></h3><p>
+<span class="apii">[-1, +0, <em>e</em>]</span>
+<pre>void lua_setglobal (lua_State *L, const char *name);</pre>
+
+<p>
+Pops a value from the stack and
+sets it as the new value of global <code>name</code>.
+
+
+
+
+
+<hr><h3><a name="lua_seti"><code>lua_seti</code></a></h3><p>
+<span class="apii">[-1, +0, <em>e</em>]</span>
+<pre>void lua_seti (lua_State *L, int index, lua_Integer n);</pre>
+
+<p>
+Does the equivalent to <code>t[n] = v</code>,
+where <code>t</code> is the value at the given index
+and <code>v</code> is the value at the top of the stack.
+
+
+<p>
+This function pops the value from the stack.
+As in Lua, this function may trigger a metamethod
+for the "newindex" event (see <a href="#2.4">&sect;2.4</a>).
+
+
+
+
+
+<hr><h3><a name="lua_setmetatable"><code>lua_setmetatable</code></a></h3><p>
+<span class="apii">[-1, +0, &ndash;]</span>
+<pre>void lua_setmetatable (lua_State *L, int index);</pre>
+
+<p>
+Pops a table from the stack and
+sets it as the new metatable for the value at the given index.
+
+
+
+
+
+<hr><h3><a name="lua_settable"><code>lua_settable</code></a></h3><p>
+<span class="apii">[-2, +0, <em>e</em>]</span>
+<pre>void lua_settable (lua_State *L, int index);</pre>
+
+<p>
+Does the equivalent to <code>t[k] = v</code>,
+where <code>t</code> is the value at the given index,
+<code>v</code> is the value at the top of the stack,
+and <code>k</code> is the value just below the top.
+
+
+<p>
+This function pops both the key and the value from the stack.
+As in Lua, this function may trigger a metamethod
+for the "newindex" event (see <a href="#2.4">&sect;2.4</a>).
+
+
+
+
+
+<hr><h3><a name="lua_settop"><code>lua_settop</code></a></h3><p>
+<span class="apii">[-?, +?, &ndash;]</span>
+<pre>void lua_settop (lua_State *L, int index);</pre>
+
+<p>
+Accepts any index, or&nbsp;0,
+and sets the stack top to this index.
+If the new top is larger than the old one,
+then the new elements are filled with <b>nil</b>.
+If <code>index</code> is&nbsp;0, then all stack elements are removed.
+
+
+
+
+
+<hr><h3><a name="lua_setuservalue"><code>lua_setuservalue</code></a></h3><p>
+<span class="apii">[-1, +0, &ndash;]</span>
+<pre>void lua_setuservalue (lua_State *L, int index);</pre>
+
+<p>
+Pops a value from the stack and sets it as
+the new value associated to the userdata at the given index.
+
+
+
+
+
+<hr><h3><a name="lua_State"><code>lua_State</code></a></h3>
+<pre>typedef struct lua_State lua_State;</pre>
+
+<p>
+An opaque structure that points to a thread and indirectly
+(through the thread) to the whole state of a Lua interpreter.
+The Lua library is fully reentrant:
+it has no global variables.
+All information about a state is accessible through this structure.
+
+
+<p>
+A pointer to this structure must be passed as the first argument to
+every function in the library, except to <a href="#lua_newstate"><code>lua_newstate</code></a>,
+which creates a Lua state from scratch.
+
+
+
+
+
+<hr><h3><a name="lua_status"><code>lua_status</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_status (lua_State *L);</pre>
+
+<p>
+Returns the status of the thread <code>L</code>.
+
+
+<p>
+The status can be 0 (<a href="#pdf-LUA_OK"><code>LUA_OK</code></a>) for a normal thread,
+an error code if the thread finished the execution
+of a <a href="#lua_resume"><code>lua_resume</code></a> with an error,
+or <a name="pdf-LUA_YIELD"><code>LUA_YIELD</code></a> if the thread is suspended.
+
+
+<p>
+You can only call functions in threads with status <a href="#pdf-LUA_OK"><code>LUA_OK</code></a>.
+You can resume threads with status <a href="#pdf-LUA_OK"><code>LUA_OK</code></a>
+(to start a new coroutine) or <a href="#pdf-LUA_YIELD"><code>LUA_YIELD</code></a>
+(to resume a coroutine).
+
+
+
+
+
+<hr><h3><a name="lua_stringtonumber"><code>lua_stringtonumber</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>size_t lua_stringtonumber (lua_State *L, const char *s);</pre>
+
+<p>
+Converts the zero-terminated string <code>s</code> to a number,
+pushes that number into the stack,
+and returns the total size of the string,
+that is, its length plus one.
+The conversion can result in an integer or a float,
+according to the lexical conventions of Lua (see <a href="#3.1">&sect;3.1</a>).
+The string may have leading and trailing spaces and a sign.
+If the string is not a valid numeral,
+returns 0 and pushes nothing.
+(Note that the result can be used as a boolean,
+true if the conversion succeeds.)
+
+
+
+
+
+<hr><h3><a name="lua_toboolean"><code>lua_toboolean</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_toboolean (lua_State *L, int index);</pre>
+
+<p>
+Converts the Lua value at the given index to a C&nbsp;boolean
+value (0&nbsp;or&nbsp;1).
+Like all tests in Lua,
+<a href="#lua_toboolean"><code>lua_toboolean</code></a> returns true for any Lua value
+different from <b>false</b> and <b>nil</b>;
+otherwise it returns false.
+(If you want to accept only actual boolean values,
+use <a href="#lua_isboolean"><code>lua_isboolean</code></a> to test the value's type.)
+
+
+
+
+
+<hr><h3><a name="lua_tocfunction"><code>lua_tocfunction</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>lua_CFunction lua_tocfunction (lua_State *L, int index);</pre>
+
+<p>
+Converts a value at the given index to a C&nbsp;function.
+That value must be a C&nbsp;function;
+otherwise, returns <code>NULL</code>.
+
+
+
+
+
+<hr><h3><a name="lua_tointeger"><code>lua_tointeger</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>lua_Integer lua_tointeger (lua_State *L, int index);</pre>
+
+<p>
+Equivalent to <a href="#lua_tointegerx"><code>lua_tointegerx</code></a> with <code>isnum</code> equal to <code>NULL</code>.
+
+
+
+
+
+<hr><h3><a name="lua_tointegerx"><code>lua_tointegerx</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>lua_Integer lua_tointegerx (lua_State *L, int index, int *isnum);</pre>
+
+<p>
+Converts the Lua value at the given index
+to the signed integral type <a href="#lua_Integer"><code>lua_Integer</code></a>.
+The Lua value must be an integer,
+or a number or string convertible to an integer (see <a href="#3.4.3">&sect;3.4.3</a>);
+otherwise, <code>lua_tointegerx</code> returns&nbsp;0.
+
+
+<p>
+If <code>isnum</code> is not <code>NULL</code>,
+its referent is assigned a boolean value that
+indicates whether the operation succeeded.
+
+
+
+
+
+<hr><h3><a name="lua_tolstring"><code>lua_tolstring</code></a></h3><p>
+<span class="apii">[-0, +0, <em>e</em>]</span>
+<pre>const char *lua_tolstring (lua_State *L, int index, size_t *len);</pre>
+
+<p>
+Converts the Lua value at the given index to a C&nbsp;string.
+If <code>len</code> is not <code>NULL</code>,
+it also sets <code>*len</code> with the string length.
+The Lua value must be a string or a number;
+otherwise, the function returns <code>NULL</code>.
+If the value is a number,
+then <code>lua_tolstring</code> also
+<em>changes the actual value in the stack to a string</em>.
+(This change confuses <a href="#lua_next"><code>lua_next</code></a>
+when <code>lua_tolstring</code> is applied to keys during a table traversal.)
+
+
+<p>
+<code>lua_tolstring</code> returns a fully aligned pointer
+to a string inside the Lua state.
+This string always has a zero ('<code>\0</code>')
+after its last character (as in&nbsp;C),
+but can contain other zeros in its body.
+
+
+<p>
+Because Lua has garbage collection,
+there is no guarantee that the pointer returned by <code>lua_tolstring</code>
+will be valid after the corresponding Lua value is removed from the stack.
+
+
+
+
+
+<hr><h3><a name="lua_tonumber"><code>lua_tonumber</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>lua_Number lua_tonumber (lua_State *L, int index);</pre>
+
+<p>
+Equivalent to <a href="#lua_tonumberx"><code>lua_tonumberx</code></a> with <code>isnum</code> equal to <code>NULL</code>.
+
+
+
+
+
+<hr><h3><a name="lua_tonumberx"><code>lua_tonumberx</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>lua_Number lua_tonumberx (lua_State *L, int index, int *isnum);</pre>
+
+<p>
+Converts the Lua value at the given index
+to the C&nbsp;type <a href="#lua_Number"><code>lua_Number</code></a> (see <a href="#lua_Number"><code>lua_Number</code></a>).
+The Lua value must be a number or a string convertible to a number
+(see <a href="#3.4.3">&sect;3.4.3</a>);
+otherwise, <a href="#lua_tonumberx"><code>lua_tonumberx</code></a> returns&nbsp;0.
+
+
+<p>
+If <code>isnum</code> is not <code>NULL</code>,
+its referent is assigned a boolean value that
+indicates whether the operation succeeded.
+
+
+
+
+
+<hr><h3><a name="lua_topointer"><code>lua_topointer</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>const void *lua_topointer (lua_State *L, int index);</pre>
+
+<p>
+Converts the value at the given index to a generic
+C&nbsp;pointer (<code>void*</code>).
+The value can be a userdata, a table, a thread, or a function;
+otherwise, <code>lua_topointer</code> returns <code>NULL</code>.
+Different objects will give different pointers.
+There is no way to convert the pointer back to its original value.
+
+
+<p>
+Typically this function is used only for debug information.
+
+
+
+
+
+<hr><h3><a name="lua_tostring"><code>lua_tostring</code></a></h3><p>
+<span class="apii">[-0, +0, <em>e</em>]</span>
+<pre>const char *lua_tostring (lua_State *L, int index);</pre>
+
+<p>
+Equivalent to <a href="#lua_tolstring"><code>lua_tolstring</code></a> with <code>len</code> equal to <code>NULL</code>.
+
+
+
+
+
+<hr><h3><a name="lua_tothread"><code>lua_tothread</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>lua_State *lua_tothread (lua_State *L, int index);</pre>
+
+<p>
+Converts the value at the given index to a Lua thread
+(represented as <code>lua_State*</code>).
+This value must be a thread;
+otherwise, the function returns <code>NULL</code>.
+
+
+
+
+
+<hr><h3><a name="lua_touserdata"><code>lua_touserdata</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void *lua_touserdata (lua_State *L, int index);</pre>
+
+<p>
+If the value at the given index is a full userdata,
+returns its block address.
+If the value is a light userdata,
+returns its pointer.
+Otherwise, returns <code>NULL</code>.
+
+
+
+
+
+<hr><h3><a name="lua_type"><code>lua_type</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_type (lua_State *L, int index);</pre>
+
+<p>
+Returns the type of the value in the given valid index,
+or <code>LUA_TNONE</code> for a non-valid (but acceptable) index.
+The types returned by <a href="#lua_type"><code>lua_type</code></a> are coded by the following constants
+defined in <code>lua.h</code>:
+<a name="pdf-LUA_TNIL"><code>LUA_TNIL</code></a>,
+<a name="pdf-LUA_TNUMBER"><code>LUA_TNUMBER</code></a>,
+<a name="pdf-LUA_TBOOLEAN"><code>LUA_TBOOLEAN</code></a>,
+<a name="pdf-LUA_TSTRING"><code>LUA_TSTRING</code></a>,
+<a name="pdf-LUA_TTABLE"><code>LUA_TTABLE</code></a>,
+<a name="pdf-LUA_TFUNCTION"><code>LUA_TFUNCTION</code></a>,
+<a name="pdf-LUA_TUSERDATA"><code>LUA_TUSERDATA</code></a>,
+<a name="pdf-LUA_TTHREAD"><code>LUA_TTHREAD</code></a>,
+and
+<a name="pdf-LUA_TLIGHTUSERDATA"><code>LUA_TLIGHTUSERDATA</code></a>.
+
+
+
+
+
+<hr><h3><a name="lua_typename"><code>lua_typename</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>const char *lua_typename (lua_State *L, int tp);</pre>
+
+<p>
+Returns the name of the type encoded by the value <code>tp</code>,
+which must be one the values returned by <a href="#lua_type"><code>lua_type</code></a>.
+
+
+
+
+
+<hr><h3><a name="lua_Unsigned"><code>lua_Unsigned</code></a></h3>
+<pre>typedef ... lua_Unsigned;</pre>
+
+<p>
+The unsigned version of <a href="#lua_Integer"><code>lua_Integer</code></a>.
+
+
+
+
+
+<hr><h3><a name="lua_upvalueindex"><code>lua_upvalueindex</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_upvalueindex (int i);</pre>
+
+<p>
+Returns the pseudo-index that represents the <code>i</code>-th upvalue of
+the running function (see <a href="#4.4">&sect;4.4</a>).
+
+
+
+
+
+<hr><h3><a name="lua_version"><code>lua_version</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>const lua_Number *lua_version (lua_State *L);</pre>
+
+<p>
+Returns the address of the version number stored in the Lua core.
+When called with a valid <a href="#lua_State"><code>lua_State</code></a>,
+returns the address of the version used to create that state.
+When called with <code>NULL</code>,
+returns the address of the version running the call.
+
+
+
+
+
+<hr><h3><a name="lua_Writer"><code>lua_Writer</code></a></h3>
+<pre>typedef int (*lua_Writer) (lua_State *L,
+                           const void* p,
+                           size_t sz,
+                           void* ud);</pre>
+
+<p>
+The type of the writer function used by <a href="#lua_dump"><code>lua_dump</code></a>.
+Every time it produces another piece of chunk,
+<a href="#lua_dump"><code>lua_dump</code></a> calls the writer,
+passing along the buffer to be written (<code>p</code>),
+its size (<code>sz</code>),
+and the <code>data</code> parameter supplied to <a href="#lua_dump"><code>lua_dump</code></a>.
+
+
+<p>
+The writer returns an error code:
+0&nbsp;means no errors;
+any other value means an error and stops <a href="#lua_dump"><code>lua_dump</code></a> from
+calling the writer again.
+
+
+
+
+
+<hr><h3><a name="lua_xmove"><code>lua_xmove</code></a></h3><p>
+<span class="apii">[-?, +?, &ndash;]</span>
+<pre>void lua_xmove (lua_State *from, lua_State *to, int n);</pre>
+
+<p>
+Exchange values between different threads of the same state.
+
+
+<p>
+This function pops <code>n</code> values from the stack <code>from</code>,
+and pushes them onto the stack <code>to</code>.
+
+
+
+
+
+<hr><h3><a name="lua_yield"><code>lua_yield</code></a></h3><p>
+<span class="apii">[-?, +?, <em>e</em>]</span>
+<pre>int lua_yield (lua_State *L, int nresults);</pre>
+
+<p>
+This function is equivalent to <a href="#lua_yieldk"><code>lua_yieldk</code></a>,
+but it has no continuation (see <a href="#4.7">&sect;4.7</a>).
+Therefore, when the thread resumes,
+it continues the function that called
+the function calling <code>lua_yield</code>.
+
+
+
+
+
+<hr><h3><a name="lua_yieldk"><code>lua_yieldk</code></a></h3><p>
+<span class="apii">[-?, +?, <em>e</em>]</span>
+<pre>int lua_yieldk (lua_State *L,
+                int nresults,
+                lua_KContext ctx,
+                lua_KFunction k);</pre>
+
+<p>
+Yields a coroutine (thread).
+
+
+<p>
+When a C&nbsp;function calls <a href="#lua_yieldk"><code>lua_yieldk</code></a>,
+the running coroutine suspends its execution,
+and the call to <a href="#lua_resume"><code>lua_resume</code></a> that started this coroutine returns.
+The parameter <code>nresults</code> is the number of values from the stack
+that will be passed as results to <a href="#lua_resume"><code>lua_resume</code></a>.
+
+
+<p>
+When the coroutine is resumed again,
+Lua calls the given continuation function <code>k</code> to continue
+the execution of the C function that yielded (see <a href="#4.7">&sect;4.7</a>).
+This continuation function receives the same stack
+from the previous function,
+with the <code>n</code> results removed and
+replaced by the arguments passed to <a href="#lua_resume"><code>lua_resume</code></a>.
+Moreover,
+the continuation function receives the value <code>ctx</code>
+that was passed to <a href="#lua_yieldk"><code>lua_yieldk</code></a>.
+
+
+<p>
+Usually, this function does not return;
+when the coroutine eventually resumes,
+it continues executing the continuation function.
+However, there is one special case,
+which is when this function is called
+from inside a line hook (see <a href="#4.9">&sect;4.9</a>).
+In that case, <code>lua_yieldk</code> should be called with no continuation
+(probably in the form of <a href="#lua_yield"><code>lua_yield</code></a>),
+and the hook should return immediately after the call.
+Lua will yield and,
+when the coroutine resumes again,
+it will continue the normal execution
+of the (Lua) function that triggered the hook.
+
+
+<p>
+This function can raise an error if it is called from a thread
+with a pending C call with no continuation function,
+or it is called from a thread that is not running inside a resume
+(e.g., the main thread).
+
+
+
+
+
+
+
+<h2>4.9 &ndash; <a name="4.9">The Debug Interface</a></h2>
+
+<p>
+Lua has no built-in debugging facilities.
+Instead, it offers a special interface
+by means of functions and <em>hooks</em>.
+This interface allows the construction of different
+kinds of debuggers, profilers, and other tools
+that need "inside information" from the interpreter.
+
+
+
+<hr><h3><a name="lua_Debug"><code>lua_Debug</code></a></h3>
+<pre>typedef struct lua_Debug {
+  int event;
+  const char *name;           /* (n) */
+  const char *namewhat;       /* (n) */
+  const char *what;           /* (S) */
+  const char *source;         /* (S) */
+  int currentline;            /* (l) */
+  int linedefined;            /* (S) */
+  int lastlinedefined;        /* (S) */
+  unsigned char nups;         /* (u) number of upvalues */
+  unsigned char nparams;      /* (u) number of parameters */
+  char isvararg;              /* (u) */
+  char istailcall;            /* (t) */
+  char short_src[LUA_IDSIZE]; /* (S) */
+  /* private part */
+  <em>other fields</em>
+} lua_Debug;</pre>
+
+<p>
+A structure used to carry different pieces of
+information about a function or an activation record.
+<a href="#lua_getstack"><code>lua_getstack</code></a> fills only the private part
+of this structure, for later use.
+To fill the other fields of <a href="#lua_Debug"><code>lua_Debug</code></a> with useful information,
+call <a href="#lua_getinfo"><code>lua_getinfo</code></a>.
+
+
+<p>
+The fields of <a href="#lua_Debug"><code>lua_Debug</code></a> have the following meaning:
+
+<ul>
+
+<li><b><code>source</code>: </b>
+the name of the chunk that created the function.
+If <code>source</code> starts with a '<code>@</code>',
+it means that the function was defined in a file where
+the file name follows the '<code>@</code>'.
+If <code>source</code> starts with a '<code>=</code>',
+the remainder of its contents describe the source in a user-dependent manner.
+Otherwise,
+the function was defined in a string where
+<code>source</code> is that string.
+</li>
+
+<li><b><code>short_src</code>: </b>
+a "printable" version of <code>source</code>, to be used in error messages.
+</li>
+
+<li><b><code>linedefined</code>: </b>
+the line number where the definition of the function starts.
+</li>
+
+<li><b><code>lastlinedefined</code>: </b>
+the line number where the definition of the function ends.
+</li>
+
+<li><b><code>what</code>: </b>
+the string <code>"Lua"</code> if the function is a Lua function,
+<code>"C"</code> if it is a C&nbsp;function,
+<code>"main"</code> if it is the main part of a chunk.
+</li>
+
+<li><b><code>currentline</code>: </b>
+the current line where the given function is executing.
+When no line information is available,
+<code>currentline</code> is set to -1.
+</li>
+
+<li><b><code>name</code>: </b>
+a reasonable name for the given function.
+Because functions in Lua are first-class values,
+they do not have a fixed name:
+some functions can be the value of multiple global variables,
+while others can be stored only in a table field.
+The <code>lua_getinfo</code> function checks how the function was
+called to find a suitable name.
+If it cannot find a name,
+then <code>name</code> is set to <code>NULL</code>.
+</li>
+
+<li><b><code>namewhat</code>: </b>
+explains the <code>name</code> field.
+The value of <code>namewhat</code> can be
+<code>"global"</code>, <code>"local"</code>, <code>"method"</code>,
+<code>"field"</code>, <code>"upvalue"</code>, or <code>""</code> (the empty string),
+according to how the function was called.
+(Lua uses the empty string when no other option seems to apply.)
+</li>
+
+<li><b><code>istailcall</code>: </b>
+true if this function invocation was called by a tail call.
+In this case, the caller of this level is not in the stack.
+</li>
+
+<li><b><code>nups</code>: </b>
+the number of upvalues of the function.
+</li>
+
+<li><b><code>nparams</code>: </b>
+the number of fixed parameters of the function
+(always 0&nbsp;for C&nbsp;functions).
+</li>
+
+<li><b><code>isvararg</code>: </b>
+true if the function is a vararg function
+(always true for C&nbsp;functions).
+</li>
+
+</ul>
+
+
+
+
+<hr><h3><a name="lua_gethook"><code>lua_gethook</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>lua_Hook lua_gethook (lua_State *L);</pre>
+
+<p>
+Returns the current hook function.
+
+
+
+
+
+<hr><h3><a name="lua_gethookcount"><code>lua_gethookcount</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_gethookcount (lua_State *L);</pre>
+
+<p>
+Returns the current hook count.
+
+
+
+
+
+<hr><h3><a name="lua_gethookmask"><code>lua_gethookmask</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_gethookmask (lua_State *L);</pre>
+
+<p>
+Returns the current hook mask.
+
+
+
+
+
+<hr><h3><a name="lua_getinfo"><code>lua_getinfo</code></a></h3><p>
+<span class="apii">[-(0|1), +(0|1|2), <em>e</em>]</span>
+<pre>int lua_getinfo (lua_State *L, const char *what, lua_Debug *ar);</pre>
+
+<p>
+Gets information about a specific function or function invocation.
+
+
+<p>
+To get information about a function invocation,
+the parameter <code>ar</code> must be a valid activation record that was
+filled by a previous call to <a href="#lua_getstack"><code>lua_getstack</code></a> or
+given as argument to a hook (see <a href="#lua_Hook"><code>lua_Hook</code></a>).
+
+
+<p>
+To get information about a function you push it onto the stack
+and start the <code>what</code> string with the character '<code>&gt;</code>'.
+(In that case,
+<code>lua_getinfo</code> pops the function from the top of the stack.)
+For instance, to know in which line a function <code>f</code> was defined,
+you can write the following code:
+
+<pre>
+     lua_Debug ar;
+     lua_getglobal(L, "f");  /* get global 'f' */
+     lua_getinfo(L, "&gt;S", &amp;ar);
+     printf("%d\n", ar.linedefined);
+</pre>
+
+<p>
+Each character in the string <code>what</code>
+selects some fields of the structure <code>ar</code> to be filled or
+a value to be pushed on the stack:
+
+<ul>
+
+<li><b>'<code>n</code>': </b> fills in the field <code>name</code> and <code>namewhat</code>;
+</li>
+
+<li><b>'<code>S</code>': </b>
+fills in the fields <code>source</code>, <code>short_src</code>,
+<code>linedefined</code>, <code>lastlinedefined</code>, and <code>what</code>;
+</li>
+
+<li><b>'<code>l</code>': </b> fills in the field <code>currentline</code>;
+</li>
+
+<li><b>'<code>t</code>': </b> fills in the field <code>istailcall</code>;
+</li>
+
+<li><b>'<code>u</code>': </b> fills in the fields
+<code>nups</code>, <code>nparams</code>, and <code>isvararg</code>;
+</li>
+
+<li><b>'<code>f</code>': </b>
+pushes onto the stack the function that is
+running at the given level;
+</li>
+
+<li><b>'<code>L</code>': </b>
+pushes onto the stack a table whose indices are the
+numbers of the lines that are valid on the function.
+(A <em>valid line</em> is a line with some associated code,
+that is, a line where you can put a break point.
+Non-valid lines include empty lines and comments.)
+
+
+<p>
+If this option is given together with option '<code>f</code>',
+its table is pushed after the function.
+</li>
+
+</ul>
+
+<p>
+This function returns 0 on error
+(for instance, an invalid option in <code>what</code>).
+
+
+
+
+
+<hr><h3><a name="lua_getlocal"><code>lua_getlocal</code></a></h3><p>
+<span class="apii">[-0, +(0|1), &ndash;]</span>
+<pre>const char *lua_getlocal (lua_State *L, const lua_Debug *ar, int n);</pre>
+
+<p>
+Gets information about a local variable of
+a given activation record or a given function.
+
+
+<p>
+In the first case,
+the parameter <code>ar</code> must be a valid activation record that was
+filled by a previous call to <a href="#lua_getstack"><code>lua_getstack</code></a> or
+given as argument to a hook (see <a href="#lua_Hook"><code>lua_Hook</code></a>).
+The index <code>n</code> selects which local variable to inspect;
+see <a href="#pdf-debug.getlocal"><code>debug.getlocal</code></a> for details about variable indices
+and names.
+
+
+<p>
+<a href="#lua_getlocal"><code>lua_getlocal</code></a> pushes the variable's value onto the stack
+and returns its name.
+
+
+<p>
+In the second case, <code>ar</code> must be <code>NULL</code> and the function
+to be inspected must be at the top of the stack.
+In this case, only parameters of Lua functions are visible
+(as there is no information about what variables are active)
+and no values are pushed onto the stack.
+
+
+<p>
+Returns <code>NULL</code> (and pushes nothing)
+when the index is greater than
+the number of active local variables.
+
+
+
+
+
+<hr><h3><a name="lua_getstack"><code>lua_getstack</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>int lua_getstack (lua_State *L, int level, lua_Debug *ar);</pre>
+
+<p>
+Gets information about the interpreter runtime stack.
+
+
+<p>
+This function fills parts of a <a href="#lua_Debug"><code>lua_Debug</code></a> structure with
+an identification of the <em>activation record</em>
+of the function executing at a given level.
+Level&nbsp;0 is the current running function,
+whereas level <em>n+1</em> is the function that has called level <em>n</em>
+(except for tail calls, which do not count on the stack).
+When there are no errors, <a href="#lua_getstack"><code>lua_getstack</code></a> returns 1;
+when called with a level greater than the stack depth,
+it returns 0.
+
+
+
+
+
+<hr><h3><a name="lua_getupvalue"><code>lua_getupvalue</code></a></h3><p>
+<span class="apii">[-0, +(0|1), &ndash;]</span>
+<pre>const char *lua_getupvalue (lua_State *L, int funcindex, int n);</pre>
+
+<p>
+Gets information about a closure's upvalue.
+(For Lua functions,
+upvalues are the external local variables that the function uses,
+and that are consequently included in its closure.)
+<a href="#lua_getupvalue"><code>lua_getupvalue</code></a> gets the index <code>n</code> of an upvalue,
+pushes the upvalue's value onto the stack,
+and returns its name.
+<code>funcindex</code> points to the closure in the stack.
+(Upvalues have no particular order,
+as they are active through the whole function.
+So, they are numbered in an arbitrary order.)
+
+
+<p>
+Returns <code>NULL</code> (and pushes nothing)
+when the index is greater than the number of upvalues.
+For C&nbsp;functions, this function uses the empty string <code>""</code>
+as a name for all upvalues.
+
+
+
+
+
+<hr><h3><a name="lua_Hook"><code>lua_Hook</code></a></h3>
+<pre>typedef void (*lua_Hook) (lua_State *L, lua_Debug *ar);</pre>
+
+<p>
+Type for debugging hook functions.
+
+
+<p>
+Whenever a hook is called, its <code>ar</code> argument has its field
+<code>event</code> set to the specific event that triggered the hook.
+Lua identifies these events with the following constants:
+<a name="pdf-LUA_HOOKCALL"><code>LUA_HOOKCALL</code></a>, <a name="pdf-LUA_HOOKRET"><code>LUA_HOOKRET</code></a>,
+<a name="pdf-LUA_HOOKTAILCALL"><code>LUA_HOOKTAILCALL</code></a>, <a name="pdf-LUA_HOOKLINE"><code>LUA_HOOKLINE</code></a>,
+and <a name="pdf-LUA_HOOKCOUNT"><code>LUA_HOOKCOUNT</code></a>.
+Moreover, for line events, the field <code>currentline</code> is also set.
+To get the value of any other field in <code>ar</code>,
+the hook must call <a href="#lua_getinfo"><code>lua_getinfo</code></a>.
+
+
+<p>
+For call events, <code>event</code> can be <code>LUA_HOOKCALL</code>,
+the normal value, or <code>LUA_HOOKTAILCALL</code>, for a tail call;
+in this case, there will be no corresponding return event.
+
+
+<p>
+While Lua is running a hook, it disables other calls to hooks.
+Therefore, if a hook calls back Lua to execute a function or a chunk,
+this execution occurs without any calls to hooks.
+
+
+<p>
+Hook functions cannot have continuations,
+that is, they cannot call <a href="#lua_yieldk"><code>lua_yieldk</code></a>,
+<a href="#lua_pcallk"><code>lua_pcallk</code></a>, or <a href="#lua_callk"><code>lua_callk</code></a> with a non-null <code>k</code>.
+
+
+<p>
+Hook functions can yield under the following conditions:
+Only count and line events can yield
+and they cannot yield any value;
+to yield a hook function must finish its execution
+calling <a href="#lua_yield"><code>lua_yield</code></a> with <code>nresults</code> equal to zero.
+
+
+
+
+
+<hr><h3><a name="lua_sethook"><code>lua_sethook</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void lua_sethook (lua_State *L, lua_Hook f, int mask, int count);</pre>
+
+<p>
+Sets the debugging hook function.
+
+
+<p>
+Argument <code>f</code> is the hook function.
+<code>mask</code> specifies on which events the hook will be called:
+it is formed by a bitwise or of the constants
+<a name="pdf-LUA_MASKCALL"><code>LUA_MASKCALL</code></a>,
+<a name="pdf-LUA_MASKRET"><code>LUA_MASKRET</code></a>,
+<a name="pdf-LUA_MASKLINE"><code>LUA_MASKLINE</code></a>,
+and <a name="pdf-LUA_MASKCOUNT"><code>LUA_MASKCOUNT</code></a>.
+The <code>count</code> argument is only meaningful when the mask
+includes <code>LUA_MASKCOUNT</code>.
+For each event, the hook is called as explained below:
+
+<ul>
+
+<li><b>The call hook: </b> is called when the interpreter calls a function.
+The hook is called just after Lua enters the new function,
+before the function gets its arguments.
+</li>
+
+<li><b>The return hook: </b> is called when the interpreter returns from a function.
+The hook is called just before Lua leaves the function.
+There is no standard way to access the values
+to be returned by the function.
+</li>
+
+<li><b>The line hook: </b> is called when the interpreter is about to
+start the execution of a new line of code,
+or when it jumps back in the code (even to the same line).
+(This event only happens while Lua is executing a Lua function.)
+</li>
+
+<li><b>The count hook: </b> is called after the interpreter executes every
+<code>count</code> instructions.
+(This event only happens while Lua is executing a Lua function.)
+</li>
+
+</ul>
+
+<p>
+A hook is disabled by setting <code>mask</code> to zero.
+
+
+
+
+
+<hr><h3><a name="lua_setlocal"><code>lua_setlocal</code></a></h3><p>
+<span class="apii">[-(0|1), +0, &ndash;]</span>
+<pre>const char *lua_setlocal (lua_State *L, const lua_Debug *ar, int n);</pre>
+
+<p>
+Sets the value of a local variable of a given activation record.
+Parameters <code>ar</code> and <code>n</code> are as in <a href="#lua_getlocal"><code>lua_getlocal</code></a>
+(see <a href="#lua_getlocal"><code>lua_getlocal</code></a>).
+<a href="#lua_setlocal"><code>lua_setlocal</code></a> assigns the value at the top of the stack
+to the variable and returns its name.
+It also pops the value from the stack.
+
+
+<p>
+Returns <code>NULL</code> (and pops nothing)
+when the index is greater than
+the number of active local variables.
+
+
+
+
+
+<hr><h3><a name="lua_setupvalue"><code>lua_setupvalue</code></a></h3><p>
+<span class="apii">[-(0|1), +0, &ndash;]</span>
+<pre>const char *lua_setupvalue (lua_State *L, int funcindex, int n);</pre>
+
+<p>
+Sets the value of a closure's upvalue.
+It assigns the value at the top of the stack
+to the upvalue and returns its name.
+It also pops the value from the stack.
+Parameters <code>funcindex</code> and <code>n</code> are as in the <a href="#lua_getupvalue"><code>lua_getupvalue</code></a>
+(see <a href="#lua_getupvalue"><code>lua_getupvalue</code></a>).
+
+
+<p>
+Returns <code>NULL</code> (and pops nothing)
+when the index is greater than the number of upvalues.
+
+
+
+
+
+<hr><h3><a name="lua_upvalueid"><code>lua_upvalueid</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void *lua_upvalueid (lua_State *L, int funcindex, int n);</pre>
+
+<p>
+Returns a unique identifier for the upvalue numbered <code>n</code>
+from the closure at index <code>funcindex</code>.
+Parameters <code>funcindex</code> and <code>n</code> are as in the <a href="#lua_getupvalue"><code>lua_getupvalue</code></a>
+(see <a href="#lua_getupvalue"><code>lua_getupvalue</code></a>)
+(but <code>n</code> cannot be greater than the number of upvalues).
+
+
+<p>
+These unique identifiers allow a program to check whether different
+closures share upvalues.
+Lua closures that share an upvalue
+(that is, that access a same external local variable)
+will return identical ids for those upvalue indices.
+
+
+
+
+
+<hr><h3><a name="lua_upvaluejoin"><code>lua_upvaluejoin</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void lua_upvaluejoin (lua_State *L, int funcindex1, int n1,
+                                    int funcindex2, int n2);</pre>
+
+<p>
+Make the <code>n1</code>-th upvalue of the Lua closure at index <code>funcindex1</code>
+refer to the <code>n2</code>-th upvalue of the Lua closure at index <code>funcindex2</code>.
+
+
+
+
+
+
+
+<h1>5 &ndash; <a name="5">The Auxiliary Library</a></h1>
+
+<p>
+
+The <em>auxiliary library</em> provides several convenient functions
+to interface C with Lua.
+While the basic API provides the primitive functions for all
+interactions between C and Lua,
+the auxiliary library provides higher-level functions for some
+common tasks.
+
+
+<p>
+All functions and types from the auxiliary library
+are defined in header file <code>lauxlib.h</code> and
+have a prefix <code>luaL_</code>.
+
+
+<p>
+All functions in the auxiliary library are built on
+top of the basic API,
+and so they provide nothing that cannot be done with that API.
+Nevertheless, the use of the auxiliary library ensures
+more consistency to your code.
+
+
+<p>
+Several functions in the auxiliary library use internally some
+extra stack slots.
+When a function in the auxiliary library uses less than five slots,
+it does not check the stack size;
+it simply assumes that there are enough slots.
+
+
+<p>
+Several functions in the auxiliary library are used to
+check C&nbsp;function arguments.
+Because the error message is formatted for arguments
+(e.g., "<code>bad argument #1</code>"),
+you should not use these functions for other stack values.
+
+
+<p>
+Functions called <code>luaL_check*</code>
+always raise an error if the check is not satisfied.
+
+
+
+<h2>5.1 &ndash; <a name="5.1">Functions and Types</a></h2>
+
+<p>
+Here we list all functions and types from the auxiliary library
+in alphabetical order.
+
+
+
+<hr><h3><a name="luaL_addchar"><code>luaL_addchar</code></a></h3><p>
+<span class="apii">[-?, +?, <em>e</em>]</span>
+<pre>void luaL_addchar (luaL_Buffer *B, char c);</pre>
+
+<p>
+Adds the byte <code>c</code> to the buffer <code>B</code>
+(see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>).
+
+
+
+
+
+<hr><h3><a name="luaL_addlstring"><code>luaL_addlstring</code></a></h3><p>
+<span class="apii">[-?, +?, <em>e</em>]</span>
+<pre>void luaL_addlstring (luaL_Buffer *B, const char *s, size_t l);</pre>
+
+<p>
+Adds the string pointed to by <code>s</code> with length <code>l</code> to
+the buffer <code>B</code>
+(see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>).
+The string can contain embedded zeros.
+
+
+
+
+
+<hr><h3><a name="luaL_addsize"><code>luaL_addsize</code></a></h3><p>
+<span class="apii">[-?, +?, <em>e</em>]</span>
+<pre>void luaL_addsize (luaL_Buffer *B, size_t n);</pre>
+
+<p>
+Adds to the buffer <code>B</code> (see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>)
+a string of length <code>n</code> previously copied to the
+buffer area (see <a href="#luaL_prepbuffer"><code>luaL_prepbuffer</code></a>).
+
+
+
+
+
+<hr><h3><a name="luaL_addstring"><code>luaL_addstring</code></a></h3><p>
+<span class="apii">[-?, +?, <em>e</em>]</span>
+<pre>void luaL_addstring (luaL_Buffer *B, const char *s);</pre>
+
+<p>
+Adds the zero-terminated string pointed to by <code>s</code>
+to the buffer <code>B</code>
+(see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>).
+
+
+
+
+
+<hr><h3><a name="luaL_addvalue"><code>luaL_addvalue</code></a></h3><p>
+<span class="apii">[-1, +?, <em>e</em>]</span>
+<pre>void luaL_addvalue (luaL_Buffer *B);</pre>
+
+<p>
+Adds the value at the top of the stack
+to the buffer <code>B</code>
+(see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>).
+Pops the value.
+
+
+<p>
+This is the only function on string buffers that can (and must)
+be called with an extra element on the stack,
+which is the value to be added to the buffer.
+
+
+
+
+
+<hr><h3><a name="luaL_argcheck"><code>luaL_argcheck</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>void luaL_argcheck (lua_State *L,
+                    int cond,
+                    int arg,
+                    const char *extramsg);</pre>
+
+<p>
+Checks whether <code>cond</code> is true.
+If it is not, raises an error with a standard message (see <a href="#luaL_argerror"><code>luaL_argerror</code></a>).
+
+
+
+
+
+<hr><h3><a name="luaL_argerror"><code>luaL_argerror</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>int luaL_argerror (lua_State *L, int arg, const char *extramsg);</pre>
+
+<p>
+Raises an error reporting a problem with argument <code>arg</code>
+of the C function that called it,
+using a standard message
+that includes <code>extramsg</code> as a comment:
+
+<pre>
+     bad argument #<em>arg</em> to '<em>funcname</em>' (<em>extramsg</em>)
+</pre><p>
+This function never returns.
+
+
+
+
+
+<hr><h3><a name="luaL_Buffer"><code>luaL_Buffer</code></a></h3>
+<pre>typedef struct luaL_Buffer luaL_Buffer;</pre>
+
+<p>
+Type for a <em>string buffer</em>.
+
+
+<p>
+A string buffer allows C&nbsp;code to build Lua strings piecemeal.
+Its pattern of use is as follows:
+
+<ul>
+
+<li>First declare a variable <code>b</code> of type <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>.</li>
+
+<li>Then initialize it with a call <code>luaL_buffinit(L, &amp;b)</code>.</li>
+
+<li>
+Then add string pieces to the buffer calling any of
+the <code>luaL_add*</code> functions.
+</li>
+
+<li>
+Finish by calling <code>luaL_pushresult(&amp;b)</code>.
+This call leaves the final string on the top of the stack.
+</li>
+
+</ul>
+
+<p>
+If you know beforehand the total size of the resulting string,
+you can use the buffer like this:
+
+<ul>
+
+<li>First declare a variable <code>b</code> of type <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>.</li>
+
+<li>Then initialize it and preallocate a space of
+size <code>sz</code> with a call <code>luaL_buffinitsize(L, &amp;b, sz)</code>.</li>
+
+<li>Then copy the string into that space.</li>
+
+<li>
+Finish by calling <code>luaL_pushresultsize(&amp;b, sz)</code>,
+where <code>sz</code> is the total size of the resulting string
+copied into that space.
+</li>
+
+</ul>
+
+<p>
+During its normal operation,
+a string buffer uses a variable number of stack slots.
+So, while using a buffer, you cannot assume that you know where
+the top of the stack is.
+You can use the stack between successive calls to buffer operations
+as long as that use is balanced;
+that is,
+when you call a buffer operation,
+the stack is at the same level
+it was immediately after the previous buffer operation.
+(The only exception to this rule is <a href="#luaL_addvalue"><code>luaL_addvalue</code></a>.)
+After calling <a href="#luaL_pushresult"><code>luaL_pushresult</code></a> the stack is back to its
+level when the buffer was initialized,
+plus the final string on its top.
+
+
+
+
+
+<hr><h3><a name="luaL_buffinit"><code>luaL_buffinit</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void luaL_buffinit (lua_State *L, luaL_Buffer *B);</pre>
+
+<p>
+Initializes a buffer <code>B</code>.
+This function does not allocate any space;
+the buffer must be declared as a variable
+(see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>).
+
+
+
+
+
+<hr><h3><a name="luaL_buffinitsize"><code>luaL_buffinitsize</code></a></h3><p>
+<span class="apii">[-?, +?, <em>e</em>]</span>
+<pre>char *luaL_buffinitsize (lua_State *L, luaL_Buffer *B, size_t sz);</pre>
+
+<p>
+Equivalent to the sequence
+<a href="#luaL_buffinit"><code>luaL_buffinit</code></a>, <a href="#luaL_prepbuffsize"><code>luaL_prepbuffsize</code></a>.
+
+
+
+
+
+<hr><h3><a name="luaL_callmeta"><code>luaL_callmeta</code></a></h3><p>
+<span class="apii">[-0, +(0|1), <em>e</em>]</span>
+<pre>int luaL_callmeta (lua_State *L, int obj, const char *e);</pre>
+
+<p>
+Calls a metamethod.
+
+
+<p>
+If the object at index <code>obj</code> has a metatable and this
+metatable has a field <code>e</code>,
+this function calls this field passing the object as its only argument.
+In this case this function returns true and pushes onto the
+stack the value returned by the call.
+If there is no metatable or no metamethod,
+this function returns false (without pushing any value on the stack).
+
+
+
+
+
+<hr><h3><a name="luaL_checkany"><code>luaL_checkany</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>void luaL_checkany (lua_State *L, int arg);</pre>
+
+<p>
+Checks whether the function has an argument
+of any type (including <b>nil</b>) at position <code>arg</code>.
+
+
+
+
+
+<hr><h3><a name="luaL_checkinteger"><code>luaL_checkinteger</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>lua_Integer luaL_checkinteger (lua_State *L, int arg);</pre>
+
+<p>
+Checks whether the function argument <code>arg</code> is an integer
+(or can be converted to an integer)
+and returns this integer cast to a <a href="#lua_Integer"><code>lua_Integer</code></a>.
+
+
+
+
+
+<hr><h3><a name="luaL_checklstring"><code>luaL_checklstring</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>const char *luaL_checklstring (lua_State *L, int arg, size_t *l);</pre>
+
+<p>
+Checks whether the function argument <code>arg</code> is a string
+and returns this string;
+if <code>l</code> is not <code>NULL</code> fills <code>*l</code>
+with the string's length.
+
+
+<p>
+This function uses <a href="#lua_tolstring"><code>lua_tolstring</code></a> to get its result,
+so all conversions and caveats of that function apply here.
+
+
+
+
+
+<hr><h3><a name="luaL_checknumber"><code>luaL_checknumber</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>lua_Number luaL_checknumber (lua_State *L, int arg);</pre>
+
+<p>
+Checks whether the function argument <code>arg</code> is a number
+and returns this number.
+
+
+
+
+
+<hr><h3><a name="luaL_checkoption"><code>luaL_checkoption</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>int luaL_checkoption (lua_State *L,
+                      int arg,
+                      const char *def,
+                      const char *const lst[]);</pre>
+
+<p>
+Checks whether the function argument <code>arg</code> is a string and
+searches for this string in the array <code>lst</code>
+(which must be NULL-terminated).
+Returns the index in the array where the string was found.
+Raises an error if the argument is not a string or
+if the string cannot be found.
+
+
+<p>
+If <code>def</code> is not <code>NULL</code>,
+the function uses <code>def</code> as a default value when
+there is no argument <code>arg</code> or when this argument is <b>nil</b>.
+
+
+<p>
+This is a useful function for mapping strings to C&nbsp;enums.
+(The usual convention in Lua libraries is
+to use strings instead of numbers to select options.)
+
+
+
+
+
+<hr><h3><a name="luaL_checkstack"><code>luaL_checkstack</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>void luaL_checkstack (lua_State *L, int sz, const char *msg);</pre>
+
+<p>
+Grows the stack size to <code>top + sz</code> elements,
+raising an error if the stack cannot grow to that size.
+<code>msg</code> is an additional text to go into the error message
+(or <code>NULL</code> for no additional text).
+
+
+
+
+
+<hr><h3><a name="luaL_checkstring"><code>luaL_checkstring</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>const char *luaL_checkstring (lua_State *L, int arg);</pre>
+
+<p>
+Checks whether the function argument <code>arg</code> is a string
+and returns this string.
+
+
+<p>
+This function uses <a href="#lua_tolstring"><code>lua_tolstring</code></a> to get its result,
+so all conversions and caveats of that function apply here.
+
+
+
+
+
+<hr><h3><a name="luaL_checktype"><code>luaL_checktype</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>void luaL_checktype (lua_State *L, int arg, int t);</pre>
+
+<p>
+Checks whether the function argument <code>arg</code> has type <code>t</code>.
+See <a href="#lua_type"><code>lua_type</code></a> for the encoding of types for <code>t</code>.
+
+
+
+
+
+<hr><h3><a name="luaL_checkudata"><code>luaL_checkudata</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>void *luaL_checkudata (lua_State *L, int arg, const char *tname);</pre>
+
+<p>
+Checks whether the function argument <code>arg</code> is a userdata
+of the type <code>tname</code> (see <a href="#luaL_newmetatable"><code>luaL_newmetatable</code></a>) and
+returns the userdata address (see <a href="#lua_touserdata"><code>lua_touserdata</code></a>).
+
+
+
+
+
+<hr><h3><a name="luaL_checkversion"><code>luaL_checkversion</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void luaL_checkversion (lua_State *L);</pre>
+
+<p>
+Checks whether the core running the call,
+the core that created the Lua state,
+and the code making the call are all using the same version of Lua.
+Also checks whether the core running the call
+and the core that created the Lua state
+are using the same address space.
+
+
+
+
+
+<hr><h3><a name="luaL_dofile"><code>luaL_dofile</code></a></h3><p>
+<span class="apii">[-0, +?, <em>e</em>]</span>
+<pre>int luaL_dofile (lua_State *L, const char *filename);</pre>
+
+<p>
+Loads and runs the given file.
+It is defined as the following macro:
+
+<pre>
+     (luaL_loadfile(L, filename) || lua_pcall(L, 0, LUA_MULTRET, 0))
+</pre><p>
+It returns false if there are no errors
+or true in case of errors.
+
+
+
+
+
+<hr><h3><a name="luaL_dostring"><code>luaL_dostring</code></a></h3><p>
+<span class="apii">[-0, +?, &ndash;]</span>
+<pre>int luaL_dostring (lua_State *L, const char *str);</pre>
+
+<p>
+Loads and runs the given string.
+It is defined as the following macro:
+
+<pre>
+     (luaL_loadstring(L, str) || lua_pcall(L, 0, LUA_MULTRET, 0))
+</pre><p>
+It returns false if there are no errors
+or true in case of errors.
+
+
+
+
+
+<hr><h3><a name="luaL_error"><code>luaL_error</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>int luaL_error (lua_State *L, const char *fmt, ...);</pre>
+
+<p>
+Raises an error.
+The error message format is given by <code>fmt</code>
+plus any extra arguments,
+following the same rules of <a href="#lua_pushfstring"><code>lua_pushfstring</code></a>.
+It also adds at the beginning of the message the file name and
+the line number where the error occurred,
+if this information is available.
+
+
+<p>
+This function never returns,
+but it is an idiom to use it in C&nbsp;functions
+as <code>return luaL_error(<em>args</em>)</code>.
+
+
+
+
+
+<hr><h3><a name="luaL_execresult"><code>luaL_execresult</code></a></h3><p>
+<span class="apii">[-0, +3, <em>e</em>]</span>
+<pre>int luaL_execresult (lua_State *L, int stat);</pre>
+
+<p>
+This function produces the return values for
+process-related functions in the standard library
+(<a href="#pdf-os.execute"><code>os.execute</code></a> and <a href="#pdf-io.close"><code>io.close</code></a>).
+
+
+
+
+
+<hr><h3><a name="luaL_fileresult"><code>luaL_fileresult</code></a></h3><p>
+<span class="apii">[-0, +(1|3), <em>e</em>]</span>
+<pre>int luaL_fileresult (lua_State *L, int stat, const char *fname);</pre>
+
+<p>
+This function produces the return values for
+file-related functions in the standard library
+(<a href="#pdf-io.open"><code>io.open</code></a>, <a href="#pdf-os.rename"><code>os.rename</code></a>, <a href="#pdf-file:seek"><code>file:seek</code></a>, etc.).
+
+
+
+
+
+<hr><h3><a name="luaL_getmetafield"><code>luaL_getmetafield</code></a></h3><p>
+<span class="apii">[-0, +(0|1), <em>e</em>]</span>
+<pre>int luaL_getmetafield (lua_State *L, int obj, const char *e);</pre>
+
+<p>
+Pushes onto the stack the field <code>e</code> from the metatable
+of the object at index <code>obj</code> and returns the type of pushed value.
+If the object does not have a metatable,
+or if the metatable does not have this field,
+pushes nothing and returns <code>LUA_TNIL</code>.
+
+
+
+
+
+<hr><h3><a name="luaL_getmetatable"><code>luaL_getmetatable</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>int luaL_getmetatable (lua_State *L, const char *tname);</pre>
+
+<p>
+Pushes onto the stack the metatable associated with name <code>tname</code>
+in the registry (see <a href="#luaL_newmetatable"><code>luaL_newmetatable</code></a>).
+If there is no metatable associated with <code>tname</code>,
+returns false and pushes <b>nil</b>.
+
+
+
+
+
+<hr><h3><a name="luaL_getsubtable"><code>luaL_getsubtable</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>int luaL_getsubtable (lua_State *L, int idx, const char *fname);</pre>
+
+<p>
+Ensures that the value <code>t[fname]</code>,
+where <code>t</code> is the value at index <code>idx</code>,
+is a table,
+and pushes that table onto the stack.
+Returns true if it finds a previous table there
+and false if it creates a new table.
+
+
+
+
+
+<hr><h3><a name="luaL_gsub"><code>luaL_gsub</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>const char *luaL_gsub (lua_State *L,
+                       const char *s,
+                       const char *p,
+                       const char *r);</pre>
+
+<p>
+Creates a copy of string <code>s</code> by replacing
+any occurrence of the string <code>p</code>
+with the string <code>r</code>.
+Pushes the resulting string on the stack and returns it.
+
+
+
+
+
+<hr><h3><a name="luaL_len"><code>luaL_len</code></a></h3><p>
+<span class="apii">[-0, +0, <em>e</em>]</span>
+<pre>lua_Integer luaL_len (lua_State *L, int index);</pre>
+
+<p>
+Returns the "length" of the value at the given index
+as a number;
+it is equivalent to the '<code>#</code>' operator in Lua (see <a href="#3.4.7">&sect;3.4.7</a>).
+Raises an error if the result of the operation is not an integer.
+(This case only can happen through metamethods.)
+
+
+
+
+
+<hr><h3><a name="luaL_loadbuffer"><code>luaL_loadbuffer</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>int luaL_loadbuffer (lua_State *L,
+                     const char *buff,
+                     size_t sz,
+                     const char *name);</pre>
+
+<p>
+Equivalent to <a href="#luaL_loadbufferx"><code>luaL_loadbufferx</code></a> with <code>mode</code> equal to <code>NULL</code>.
+
+
+
+
+
+<hr><h3><a name="luaL_loadbufferx"><code>luaL_loadbufferx</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>int luaL_loadbufferx (lua_State *L,
+                      const char *buff,
+                      size_t sz,
+                      const char *name,
+                      const char *mode);</pre>
+
+<p>
+Loads a buffer as a Lua chunk.
+This function uses <a href="#lua_load"><code>lua_load</code></a> to load the chunk in the
+buffer pointed to by <code>buff</code> with size <code>sz</code>.
+
+
+<p>
+This function returns the same results as <a href="#lua_load"><code>lua_load</code></a>.
+<code>name</code> is the chunk name,
+used for debug information and error messages.
+The string <code>mode</code> works as in function <a href="#lua_load"><code>lua_load</code></a>.
+
+
+
+
+
+<hr><h3><a name="luaL_loadfile"><code>luaL_loadfile</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>int luaL_loadfile (lua_State *L, const char *filename);</pre>
+
+<p>
+Equivalent to <a href="#luaL_loadfilex"><code>luaL_loadfilex</code></a> with <code>mode</code> equal to <code>NULL</code>.
+
+
+
+
+
+<hr><h3><a name="luaL_loadfilex"><code>luaL_loadfilex</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>int luaL_loadfilex (lua_State *L, const char *filename,
+                                            const char *mode);</pre>
+
+<p>
+Loads a file as a Lua chunk.
+This function uses <a href="#lua_load"><code>lua_load</code></a> to load the chunk in the file
+named <code>filename</code>.
+If <code>filename</code> is <code>NULL</code>,
+then it loads from the standard input.
+The first line in the file is ignored if it starts with a <code>#</code>.
+
+
+<p>
+The string <code>mode</code> works as in function <a href="#lua_load"><code>lua_load</code></a>.
+
+
+<p>
+This function returns the same results as <a href="#lua_load"><code>lua_load</code></a>,
+but it has an extra error code <a name="pdf-LUA_ERRFILE"><code>LUA_ERRFILE</code></a>
+if it cannot open/read the file or the file has a wrong mode.
+
+
+<p>
+As <a href="#lua_load"><code>lua_load</code></a>, this function only loads the chunk;
+it does not run it.
+
+
+
+
+
+<hr><h3><a name="luaL_loadstring"><code>luaL_loadstring</code></a></h3><p>
+<span class="apii">[-0, +1, &ndash;]</span>
+<pre>int luaL_loadstring (lua_State *L, const char *s);</pre>
+
+<p>
+Loads a string as a Lua chunk.
+This function uses <a href="#lua_load"><code>lua_load</code></a> to load the chunk in
+the zero-terminated string <code>s</code>.
+
+
+<p>
+This function returns the same results as <a href="#lua_load"><code>lua_load</code></a>.
+
+
+<p>
+Also as <a href="#lua_load"><code>lua_load</code></a>, this function only loads the chunk;
+it does not run it.
+
+
+
+
+
+<hr><h3><a name="luaL_newlib"><code>luaL_newlib</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>void luaL_newlib (lua_State *L, const luaL_Reg l[]);</pre>
+
+<p>
+Creates a new table and registers there
+the functions in list <code>l</code>.
+
+
+<p>
+It is implemented as the following macro:
+
+<pre>
+     (luaL_newlibtable(L,l), luaL_setfuncs(L,l,0))
+</pre><p>
+The array <code>l</code> must be the actual array,
+not a pointer to it.
+
+
+
+
+
+<hr><h3><a name="luaL_newlibtable"><code>luaL_newlibtable</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>void luaL_newlibtable (lua_State *L, const luaL_Reg l[]);</pre>
+
+<p>
+Creates a new table with a size optimized
+to store all entries in the array <code>l</code>
+(but does not actually store them).
+It is intended to be used in conjunction with <a href="#luaL_setfuncs"><code>luaL_setfuncs</code></a>
+(see <a href="#luaL_newlib"><code>luaL_newlib</code></a>).
+
+
+<p>
+It is implemented as a macro.
+The array <code>l</code> must be the actual array,
+not a pointer to it.
+
+
+
+
+
+<hr><h3><a name="luaL_newmetatable"><code>luaL_newmetatable</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>int luaL_newmetatable (lua_State *L, const char *tname);</pre>
+
+<p>
+If the registry already has the key <code>tname</code>,
+returns 0.
+Otherwise,
+creates a new table to be used as a metatable for userdata,
+adds to this new table the pair <code>__name = tname</code>,
+adds to the registry the pair <code>[tname] = new table</code>,
+and returns 1.
+(The entry <code>__name</code> is used by some error-reporting functions.)
+
+
+<p>
+In both cases pushes onto the stack the final value associated
+with <code>tname</code> in the registry.
+
+
+
+
+
+<hr><h3><a name="luaL_newstate"><code>luaL_newstate</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>lua_State *luaL_newstate (void);</pre>
+
+<p>
+Creates a new Lua state.
+It calls <a href="#lua_newstate"><code>lua_newstate</code></a> with an
+allocator based on the standard&nbsp;C <code>realloc</code> function
+and then sets a panic function (see <a href="#4.6">&sect;4.6</a>) that prints
+an error message to the standard error output in case of fatal
+errors.
+
+
+<p>
+Returns the new state,
+or <code>NULL</code> if there is a memory allocation error.
+
+
+
+
+
+<hr><h3><a name="luaL_openlibs"><code>luaL_openlibs</code></a></h3><p>
+<span class="apii">[-0, +0, <em>e</em>]</span>
+<pre>void luaL_openlibs (lua_State *L);</pre>
+
+<p>
+Opens all standard Lua libraries into the given state.
+
+
+
+
+
+<hr><h3><a name="luaL_optinteger"><code>luaL_optinteger</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>lua_Integer luaL_optinteger (lua_State *L,
+                             int arg,
+                             lua_Integer d);</pre>
+
+<p>
+If the function argument <code>arg</code> is an integer
+(or convertible to an integer),
+returns this integer.
+If this argument is absent or is <b>nil</b>,
+returns <code>d</code>.
+Otherwise, raises an error.
+
+
+
+
+
+<hr><h3><a name="luaL_optlstring"><code>luaL_optlstring</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>const char *luaL_optlstring (lua_State *L,
+                             int arg,
+                             const char *d,
+                             size_t *l);</pre>
+
+<p>
+If the function argument <code>arg</code> is a string,
+returns this string.
+If this argument is absent or is <b>nil</b>,
+returns <code>d</code>.
+Otherwise, raises an error.
+
+
+<p>
+If <code>l</code> is not <code>NULL</code>,
+fills the position <code>*l</code> with the result's length.
+
+
+
+
+
+<hr><h3><a name="luaL_optnumber"><code>luaL_optnumber</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>lua_Number luaL_optnumber (lua_State *L, int arg, lua_Number d);</pre>
+
+<p>
+If the function argument <code>arg</code> is a number,
+returns this number.
+If this argument is absent or is <b>nil</b>,
+returns <code>d</code>.
+Otherwise, raises an error.
+
+
+
+
+
+<hr><h3><a name="luaL_optstring"><code>luaL_optstring</code></a></h3><p>
+<span class="apii">[-0, +0, <em>v</em>]</span>
+<pre>const char *luaL_optstring (lua_State *L,
+                            int arg,
+                            const char *d);</pre>
+
+<p>
+If the function argument <code>arg</code> is a string,
+returns this string.
+If this argument is absent or is <b>nil</b>,
+returns <code>d</code>.
+Otherwise, raises an error.
+
+
+
+
+
+<hr><h3><a name="luaL_prepbuffer"><code>luaL_prepbuffer</code></a></h3><p>
+<span class="apii">[-?, +?, <em>e</em>]</span>
+<pre>char *luaL_prepbuffer (luaL_Buffer *B);</pre>
+
+<p>
+Equivalent to <a href="#luaL_prepbuffsize"><code>luaL_prepbuffsize</code></a>
+with the predefined size <a name="pdf-LUAL_BUFFERSIZE"><code>LUAL_BUFFERSIZE</code></a>.
+
+
+
+
+
+<hr><h3><a name="luaL_prepbuffsize"><code>luaL_prepbuffsize</code></a></h3><p>
+<span class="apii">[-?, +?, <em>e</em>]</span>
+<pre>char *luaL_prepbuffsize (luaL_Buffer *B, size_t sz);</pre>
+
+<p>
+Returns an address to a space of size <code>sz</code>
+where you can copy a string to be added to buffer <code>B</code>
+(see <a href="#luaL_Buffer"><code>luaL_Buffer</code></a>).
+After copying the string into this space you must call
+<a href="#luaL_addsize"><code>luaL_addsize</code></a> with the size of the string to actually add
+it to the buffer.
+
+
+
+
+
+<hr><h3><a name="luaL_pushresult"><code>luaL_pushresult</code></a></h3><p>
+<span class="apii">[-?, +1, <em>e</em>]</span>
+<pre>void luaL_pushresult (luaL_Buffer *B);</pre>
+
+<p>
+Finishes the use of buffer <code>B</code> leaving the final string on
+the top of the stack.
+
+
+
+
+
+<hr><h3><a name="luaL_pushresultsize"><code>luaL_pushresultsize</code></a></h3><p>
+<span class="apii">[-?, +1, <em>e</em>]</span>
+<pre>void luaL_pushresultsize (luaL_Buffer *B, size_t sz);</pre>
+
+<p>
+Equivalent to the sequence <a href="#luaL_addsize"><code>luaL_addsize</code></a>, <a href="#luaL_pushresult"><code>luaL_pushresult</code></a>.
+
+
+
+
+
+<hr><h3><a name="luaL_ref"><code>luaL_ref</code></a></h3><p>
+<span class="apii">[-1, +0, <em>e</em>]</span>
+<pre>int luaL_ref (lua_State *L, int t);</pre>
+
+<p>
+Creates and returns a <em>reference</em>,
+in the table at index <code>t</code>,
+for the object at the top of the stack (and pops the object).
+
+
+<p>
+A reference is a unique integer key.
+As long as you do not manually add integer keys into table <code>t</code>,
+<a href="#luaL_ref"><code>luaL_ref</code></a> ensures the uniqueness of the key it returns.
+You can retrieve an object referred by reference <code>r</code>
+by calling <code>lua_rawgeti(L, t, r)</code>.
+Function <a href="#luaL_unref"><code>luaL_unref</code></a> frees a reference and its associated object.
+
+
+<p>
+If the object at the top of the stack is <b>nil</b>,
+<a href="#luaL_ref"><code>luaL_ref</code></a> returns the constant <a name="pdf-LUA_REFNIL"><code>LUA_REFNIL</code></a>.
+The constant <a name="pdf-LUA_NOREF"><code>LUA_NOREF</code></a> is guaranteed to be different
+from any reference returned by <a href="#luaL_ref"><code>luaL_ref</code></a>.
+
+
+
+
+
+<hr><h3><a name="luaL_Reg"><code>luaL_Reg</code></a></h3>
+<pre>typedef struct luaL_Reg {
+  const char *name;
+  lua_CFunction func;
+} luaL_Reg;</pre>
+
+<p>
+Type for arrays of functions to be registered by
+<a href="#luaL_setfuncs"><code>luaL_setfuncs</code></a>.
+<code>name</code> is the function name and <code>func</code> is a pointer to
+the function.
+Any array of <a href="#luaL_Reg"><code>luaL_Reg</code></a> must end with a sentinel entry
+in which both <code>name</code> and <code>func</code> are <code>NULL</code>.
+
+
+
+
+
+<hr><h3><a name="luaL_requiref"><code>luaL_requiref</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>void luaL_requiref (lua_State *L, const char *modname,
+                    lua_CFunction openf, int glb);</pre>
+
+<p>
+If <code>modname</code> is not already present in <a href="#pdf-package.loaded"><code>package.loaded</code></a>,
+calls function <code>openf</code> with string <code>modname</code> as an argument
+and sets the call result in <code>package.loaded[modname]</code>,
+as if that function has been called through <a href="#pdf-require"><code>require</code></a>.
+
+
+<p>
+If <code>glb</code> is true,
+also stores the module into global <code>modname</code>.
+
+
+<p>
+Leaves a copy of the module on the stack.
+
+
+
+
+
+<hr><h3><a name="luaL_setfuncs"><code>luaL_setfuncs</code></a></h3><p>
+<span class="apii">[-nup, +0, <em>e</em>]</span>
+<pre>void luaL_setfuncs (lua_State *L, const luaL_Reg *l, int nup);</pre>
+
+<p>
+Registers all functions in the array <code>l</code>
+(see <a href="#luaL_Reg"><code>luaL_Reg</code></a>) into the table on the top of the stack
+(below optional upvalues, see next).
+
+
+<p>
+When <code>nup</code> is not zero,
+all functions are created sharing <code>nup</code> upvalues,
+which must be previously pushed on the stack
+on top of the library table.
+These values are popped from the stack after the registration.
+
+
+
+
+
+<hr><h3><a name="luaL_setmetatable"><code>luaL_setmetatable</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void luaL_setmetatable (lua_State *L, const char *tname);</pre>
+
+<p>
+Sets the metatable of the object at the top of the stack
+as the metatable associated with name <code>tname</code>
+in the registry (see <a href="#luaL_newmetatable"><code>luaL_newmetatable</code></a>).
+
+
+
+
+
+<hr><h3><a name="luaL_Stream"><code>luaL_Stream</code></a></h3>
+<pre>typedef struct luaL_Stream {
+  FILE *f;
+  lua_CFunction closef;
+} luaL_Stream;</pre>
+
+<p>
+The standard representation for file handles,
+which is used by the standard I/O library.
+
+
+<p>
+A file handle is implemented as a full userdata,
+with a metatable called <code>LUA_FILEHANDLE</code>
+(where <code>LUA_FILEHANDLE</code> is a macro with the actual metatable's name).
+The metatable is created by the I/O library
+(see <a href="#luaL_newmetatable"><code>luaL_newmetatable</code></a>).
+
+
+<p>
+This userdata must start with the structure <code>luaL_Stream</code>;
+it can contain other data after this initial structure.
+Field <code>f</code> points to the corresponding C stream
+(or it can be <code>NULL</code> to indicate an incompletely created handle).
+Field <code>closef</code> points to a Lua function
+that will be called to close the stream
+when the handle is closed or collected;
+this function receives the file handle as its sole argument and
+must return either <b>true</b> (in case of success)
+or <b>nil</b> plus an error message (in case of error).
+Once Lua calls this field,
+the field value is changed to <code>NULL</code>
+to signal that the handle is closed.
+
+
+
+
+
+<hr><h3><a name="luaL_testudata"><code>luaL_testudata</code></a></h3><p>
+<span class="apii">[-0, +0, <em>e</em>]</span>
+<pre>void *luaL_testudata (lua_State *L, int arg, const char *tname);</pre>
+
+<p>
+This function works like <a href="#luaL_checkudata"><code>luaL_checkudata</code></a>,
+except that, when the test fails,
+it returns <code>NULL</code> instead of raising an error.
+
+
+
+
+
+<hr><h3><a name="luaL_tolstring"><code>luaL_tolstring</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>const char *luaL_tolstring (lua_State *L, int idx, size_t *len);</pre>
+
+<p>
+Converts any Lua value at the given index to a C&nbsp;string
+in a reasonable format.
+The resulting string is pushed onto the stack and also
+returned by the function.
+If <code>len</code> is not <code>NULL</code>,
+the function also sets <code>*len</code> with the string length.
+
+
+<p>
+If the value has a metatable with a <code>"__tostring"</code> field,
+then <code>luaL_tolstring</code> calls the corresponding metamethod
+with the value as argument,
+and uses the result of the call as its result.
+
+
+
+
+
+<hr><h3><a name="luaL_traceback"><code>luaL_traceback</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>void luaL_traceback (lua_State *L, lua_State *L1, const char *msg,
+                     int level);</pre>
+
+<p>
+Creates and pushes a traceback of the stack <code>L1</code>.
+If <code>msg</code> is not <code>NULL</code> it is appended
+at the beginning of the traceback.
+The <code>level</code> parameter tells at which level
+to start the traceback.
+
+
+
+
+
+<hr><h3><a name="luaL_typename"><code>luaL_typename</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>const char *luaL_typename (lua_State *L, int index);</pre>
+
+<p>
+Returns the name of the type of the value at the given index.
+
+
+
+
+
+<hr><h3><a name="luaL_unref"><code>luaL_unref</code></a></h3><p>
+<span class="apii">[-0, +0, &ndash;]</span>
+<pre>void luaL_unref (lua_State *L, int t, int ref);</pre>
+
+<p>
+Releases reference <code>ref</code> from the table at index <code>t</code>
+(see <a href="#luaL_ref"><code>luaL_ref</code></a>).
+The entry is removed from the table,
+so that the referred object can be collected.
+The reference <code>ref</code> is also freed to be used again.
+
+
+<p>
+If <code>ref</code> is <a href="#pdf-LUA_NOREF"><code>LUA_NOREF</code></a> or <a href="#pdf-LUA_REFNIL"><code>LUA_REFNIL</code></a>,
+<a href="#luaL_unref"><code>luaL_unref</code></a> does nothing.
+
+
+
+
+
+<hr><h3><a name="luaL_where"><code>luaL_where</code></a></h3><p>
+<span class="apii">[-0, +1, <em>e</em>]</span>
+<pre>void luaL_where (lua_State *L, int lvl);</pre>
+
+<p>
+Pushes onto the stack a string identifying the current position
+of the control at level <code>lvl</code> in the call stack.
+Typically this string has the following format:
+
+<pre>
+     <em>chunkname</em>:<em>currentline</em>:
+</pre><p>
+Level&nbsp;0 is the running function,
+level&nbsp;1 is the function that called the running function,
+etc.
+
+
+<p>
+This function is used to build a prefix for error messages.
+
+
+
+
+
+
+
+<h1>6 &ndash; <a name="6">Standard Libraries</a></h1>
+
+<p>
+The standard Lua libraries provide useful functions
+that are implemented directly through the C&nbsp;API.
+Some of these functions provide essential services to the language
+(e.g., <a href="#pdf-type"><code>type</code></a> and <a href="#pdf-getmetatable"><code>getmetatable</code></a>);
+others provide access to "outside" services (e.g., I/O);
+and others could be implemented in Lua itself,
+but are quite useful or have critical performance requirements that
+deserve an implementation in C (e.g., <a href="#pdf-table.sort"><code>table.sort</code></a>).
+
+
+<p>
+All libraries are implemented through the official C&nbsp;API
+and are provided as separate C&nbsp;modules.
+Currently, Lua has the following standard libraries:
+
+<ul>
+
+<li>basic library (<a href="#6.1">&sect;6.1</a>);</li>
+
+<li>coroutine library (<a href="#6.2">&sect;6.2</a>);</li>
+
+<li>package library (<a href="#6.3">&sect;6.3</a>);</li>
+
+<li>string manipulation (<a href="#6.4">&sect;6.4</a>);</li>
+
+<li>basic UTF-8 support (<a href="#6.5">&sect;6.5</a>);</li>
+
+<li>table manipulation (<a href="#6.6">&sect;6.6</a>);</li>
+
+<li>mathematical functions (<a href="#6.7">&sect;6.7</a>) (sin, log, etc.);</li>
+
+<li>input and output (<a href="#6.8">&sect;6.8</a>);</li>
+
+<li>operating system facilities (<a href="#6.9">&sect;6.9</a>);</li>
+
+<li>debug facilities (<a href="#6.10">&sect;6.10</a>).</li>
+
+</ul><p>
+Except for the basic and the package libraries,
+each library provides all its functions as fields of a global table
+or as methods of its objects.
+
+
+<p>
+To have access to these libraries,
+the C&nbsp;host program should call the <a href="#luaL_openlibs"><code>luaL_openlibs</code></a> function,
+which opens all standard libraries.
+Alternatively,
+the host program can open them individually by using
+<a href="#luaL_requiref"><code>luaL_requiref</code></a> to call
+<a name="pdf-luaopen_base"><code>luaopen_base</code></a> (for the basic library),
+<a name="pdf-luaopen_package"><code>luaopen_package</code></a> (for the package library),
+<a name="pdf-luaopen_coroutine"><code>luaopen_coroutine</code></a> (for the coroutine library),
+<a name="pdf-luaopen_string"><code>luaopen_string</code></a> (for the string library),
+<a name="pdf-luaopen_utf8"><code>luaopen_utf8</code></a> (for the UTF8 library),
+<a name="pdf-luaopen_table"><code>luaopen_table</code></a> (for the table library),
+<a name="pdf-luaopen_math"><code>luaopen_math</code></a> (for the mathematical library),
+<a name="pdf-luaopen_io"><code>luaopen_io</code></a> (for the I/O library),
+<a name="pdf-luaopen_os"><code>luaopen_os</code></a> (for the operating system library),
+and <a name="pdf-luaopen_debug"><code>luaopen_debug</code></a> (for the debug library).
+These functions are declared in <a name="pdf-lualib.h"><code>lualib.h</code></a>.
+
+
+
+<h2>6.1 &ndash; <a name="6.1">Basic Functions</a></h2>
+
+<p>
+The basic library provides core functions to Lua.
+If you do not include this library in your application,
+you should check carefully whether you need to provide
+implementations for some of its facilities.
+
+
+<p>
+<hr><h3><a name="pdf-assert"><code>assert (v [, message])</code></a></h3>
+
+
+<p>
+Calls <a href="#pdf-error"><code>error</code></a> if
+the value of its argument <code>v</code> is false (i.e., <b>nil</b> or <b>false</b>);
+otherwise, returns all its arguments.
+In case of error,
+<code>message</code> is the error object;
+when absent, it defaults to "<code>assertion failed!</code>"
+
+
+
+
+<p>
+<hr><h3><a name="pdf-collectgarbage"><code>collectgarbage ([opt [, arg]])</code></a></h3>
+
+
+<p>
+This function is a generic interface to the garbage collector.
+It performs different functions according to its first argument, <code>opt</code>:
+
+<ul>
+
+<li><b>"<code>collect</code>": </b>
+performs a full garbage-collection cycle.
+This is the default option.
+</li>
+
+<li><b>"<code>stop</code>": </b>
+stops automatic execution of the garbage collector.
+The collector will run only when explicitly invoked,
+until a call to restart it.
+</li>
+
+<li><b>"<code>restart</code>": </b>
+restarts automatic execution of the garbage collector.
+</li>
+
+<li><b>"<code>count</code>": </b>
+returns the total memory in use by Lua in Kbytes.
+The value has a fractional part,
+so that it multiplied by 1024
+gives the exact number of bytes in use by Lua
+(except for overflows).
+</li>
+
+<li><b>"<code>step</code>": </b>
+performs a garbage-collection step.
+The step "size" is controlled by <code>arg</code>.
+With a zero value,
+the collector will perform one basic (indivisible) step.
+For non-zero values,
+the collector will perform as if that amount of memory
+(in KBytes) had been allocated by Lua.
+Returns <b>true</b> if the step finished a collection cycle.
+</li>
+
+<li><b>"<code>setpause</code>": </b>
+sets <code>arg</code> as the new value for the <em>pause</em> of
+the collector (see <a href="#2.5">&sect;2.5</a>).
+Returns the previous value for <em>pause</em>.
+</li>
+
+<li><b>"<code>setstepmul</code>": </b>
+sets <code>arg</code> as the new value for the <em>step multiplier</em> of
+the collector (see <a href="#2.5">&sect;2.5</a>).
+Returns the previous value for <em>step</em>.
+</li>
+
+<li><b>"<code>isrunning</code>": </b>
+returns a boolean that tells whether the collector is running
+(i.e., not stopped).
+</li>
+
+</ul>
+
+
+
+<p>
+<hr><h3><a name="pdf-dofile"><code>dofile ([filename])</code></a></h3>
+Opens the named file and executes its contents as a Lua chunk.
+When called without arguments,
+<code>dofile</code> executes the contents of the standard input (<code>stdin</code>).
+Returns all values returned by the chunk.
+In case of errors, <code>dofile</code> propagates the error
+to its caller (that is, <code>dofile</code> does not run in protected mode).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-error"><code>error (message [, level])</code></a></h3>
+Terminates the last protected function called
+and returns <code>message</code> as the error object.
+Function <code>error</code> never returns.
+
+
+<p>
+Usually, <code>error</code> adds some information about the error position
+at the beginning of the message, if the message is a string.
+The <code>level</code> argument specifies how to get the error position.
+With level&nbsp;1 (the default), the error position is where the
+<code>error</code> function was called.
+Level&nbsp;2 points the error to where the function
+that called <code>error</code> was called; and so on.
+Passing a level&nbsp;0 avoids the addition of error position information
+to the message.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-_G"><code>_G</code></a></h3>
+A global variable (not a function) that
+holds the global environment (see <a href="#2.2">&sect;2.2</a>).
+Lua itself does not use this variable;
+changing its value does not affect any environment,
+nor vice versa.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-getmetatable"><code>getmetatable (object)</code></a></h3>
+
+
+<p>
+If <code>object</code> does not have a metatable, returns <b>nil</b>.
+Otherwise,
+if the object's metatable has a <code>"__metatable"</code> field,
+returns the associated value.
+Otherwise, returns the metatable of the given object.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-ipairs"><code>ipairs (t)</code></a></h3>
+
+
+<p>
+Returns three values (an iterator function, the table <code>t</code>, and 0)
+so that the construction
+
+<pre>
+     for i,v in ipairs(t) do <em>body</em> end
+</pre><p>
+will iterate over the key&ndash;value pairs
+(<code>1,t[1]</code>), (<code>2,t[2]</code>), ...,
+up to the first nil value.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-load"><code>load (chunk [, chunkname [, mode [, env]]])</code></a></h3>
+
+
+<p>
+Loads a chunk.
+
+
+<p>
+If <code>chunk</code> is a string, the chunk is this string.
+If <code>chunk</code> is a function,
+<code>load</code> calls it repeatedly to get the chunk pieces.
+Each call to <code>chunk</code> must return a string that concatenates
+with previous results.
+A return of an empty string, <b>nil</b>, or no value signals the end of the chunk.
+
+
+<p>
+If there are no syntactic errors,
+returns the compiled chunk as a function;
+otherwise, returns <b>nil</b> plus the error message.
+
+
+<p>
+If the resulting function has upvalues,
+the first upvalue is set to the value of <code>env</code>,
+if that parameter is given,
+or to the value of the global environment.
+Other upvalues are initialized with <b>nil</b>.
+(When you load a main chunk,
+the resulting function will always have exactly one upvalue,
+the <code>_ENV</code> variable (see <a href="#2.2">&sect;2.2</a>).
+However,
+when you load a binary chunk created from a function (see <a href="#pdf-string.dump"><code>string.dump</code></a>),
+the resulting function can have an arbitrary number of upvalues.)
+All upvalues are fresh, that is,
+they are not shared with any other function.
+
+
+<p>
+<code>chunkname</code> is used as the name of the chunk for error messages
+and debug information (see <a href="#4.9">&sect;4.9</a>).
+When absent,
+it defaults to <code>chunk</code>, if <code>chunk</code> is a string,
+or to "<code>=(load)</code>" otherwise.
+
+
+<p>
+The string <code>mode</code> controls whether the chunk can be text or binary
+(that is, a precompiled chunk).
+It may be the string "<code>b</code>" (only binary chunks),
+"<code>t</code>" (only text chunks),
+or "<code>bt</code>" (both binary and text).
+The default is "<code>bt</code>".
+
+
+<p>
+Lua does not check the consistency of binary chunks.
+Maliciously crafted binary chunks can crash
+the interpreter.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-loadfile"><code>loadfile ([filename [, mode [, env]]])</code></a></h3>
+
+
+<p>
+Similar to <a href="#pdf-load"><code>load</code></a>,
+but gets the chunk from file <code>filename</code>
+or from the standard input,
+if no file name is given.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-next"><code>next (table [, index])</code></a></h3>
+
+
+<p>
+Allows a program to traverse all fields of a table.
+Its first argument is a table and its second argument
+is an index in this table.
+<code>next</code> returns the next index of the table
+and its associated value.
+When called with <b>nil</b> as its second argument,
+<code>next</code> returns an initial index
+and its associated value.
+When called with the last index,
+or with <b>nil</b> in an empty table,
+<code>next</code> returns <b>nil</b>.
+If the second argument is absent, then it is interpreted as <b>nil</b>.
+In particular,
+you can use <code>next(t)</code> to check whether a table is empty.
+
+
+<p>
+The order in which the indices are enumerated is not specified,
+<em>even for numeric indices</em>.
+(To traverse a table in numeric order,
+use a numerical <b>for</b>.)
+
+
+<p>
+The behavior of <code>next</code> is undefined if,
+during the traversal,
+you assign any value to a non-existent field in the table.
+You may however modify existing fields.
+In particular, you may clear existing fields.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-pairs"><code>pairs (t)</code></a></h3>
+
+
+<p>
+If <code>t</code> has a metamethod <code>__pairs</code>,
+calls it with <code>t</code> as argument and returns the first three
+results from the call.
+
+
+<p>
+Otherwise,
+returns three values: the <a href="#pdf-next"><code>next</code></a> function, the table <code>t</code>, and <b>nil</b>,
+so that the construction
+
+<pre>
+     for k,v in pairs(t) do <em>body</em> end
+</pre><p>
+will iterate over all key&ndash;value pairs of table <code>t</code>.
+
+
+<p>
+See function <a href="#pdf-next"><code>next</code></a> for the caveats of modifying
+the table during its traversal.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-pcall"><code>pcall (f [, arg1, &middot;&middot;&middot;])</code></a></h3>
+
+
+<p>
+Calls function <code>f</code> with
+the given arguments in <em>protected mode</em>.
+This means that any error inside&nbsp;<code>f</code> is not propagated;
+instead, <code>pcall</code> catches the error
+and returns a status code.
+Its first result is the status code (a boolean),
+which is true if the call succeeds without errors.
+In such case, <code>pcall</code> also returns all results from the call,
+after this first result.
+In case of any error, <code>pcall</code> returns <b>false</b> plus the error message.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-print"><code>print (&middot;&middot;&middot;)</code></a></h3>
+Receives any number of arguments
+and prints their values to <code>stdout</code>,
+using the <a href="#pdf-tostring"><code>tostring</code></a> function to convert each argument to a string.
+<code>print</code> is not intended for formatted output,
+but only as a quick way to show a value,
+for instance for debugging.
+For complete control over the output,
+use <a href="#pdf-string.format"><code>string.format</code></a> and <a href="#pdf-io.write"><code>io.write</code></a>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-rawequal"><code>rawequal (v1, v2)</code></a></h3>
+Checks whether <code>v1</code> is equal to <code>v2</code>,
+without invoking any metamethod.
+Returns a boolean.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-rawget"><code>rawget (table, index)</code></a></h3>
+Gets the real value of <code>table[index]</code>,
+without invoking any metamethod.
+<code>table</code> must be a table;
+<code>index</code> may be any value.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-rawlen"><code>rawlen (v)</code></a></h3>
+Returns the length of the object <code>v</code>,
+which must be a table or a string,
+without invoking any metamethod.
+Returns an integer.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-rawset"><code>rawset (table, index, value)</code></a></h3>
+Sets the real value of <code>table[index]</code> to <code>value</code>,
+without invoking any metamethod.
+<code>table</code> must be a table,
+<code>index</code> any value different from <b>nil</b> and NaN,
+and <code>value</code> any Lua value.
+
+
+<p>
+This function returns <code>table</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-select"><code>select (index, &middot;&middot;&middot;)</code></a></h3>
+
+
+<p>
+If <code>index</code> is a number,
+returns all arguments after argument number <code>index</code>;
+a negative number indexes from the end (-1 is the last argument).
+Otherwise, <code>index</code> must be the string <code>"#"</code>,
+and <code>select</code> returns the total number of extra arguments it received.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-setmetatable"><code>setmetatable (table, metatable)</code></a></h3>
+
+
+<p>
+Sets the metatable for the given table.
+(You cannot change the metatable of other types from Lua, only from&nbsp;C.)
+If <code>metatable</code> is <b>nil</b>,
+removes the metatable of the given table.
+If the original metatable has a <code>"__metatable"</code> field,
+raises an error.
+
+
+<p>
+This function returns <code>table</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-tonumber"><code>tonumber (e [, base])</code></a></h3>
+
+
+<p>
+When called with no <code>base</code>,
+<code>tonumber</code> tries to convert its argument to a number.
+If the argument is already a number or
+a string convertible to a number,
+then <code>tonumber</code> returns this number;
+otherwise, it returns <b>nil</b>.
+
+
+<p>
+The conversion of strings can result in integers or floats,
+according to the lexical conventions of Lua (see <a href="#3.1">&sect;3.1</a>).
+(The string may have leading and trailing spaces and a sign.)
+
+
+<p>
+When called with <code>base</code>,
+then <code>e</code> must be a string to be interpreted as
+an integer numeral in that base.
+The base may be any integer between 2 and 36, inclusive.
+In bases above&nbsp;10, the letter '<code>A</code>' (in either upper or lower case)
+represents&nbsp;10, '<code>B</code>' represents&nbsp;11, and so forth,
+with '<code>Z</code>' representing 35.
+If the string <code>e</code> is not a valid numeral in the given base,
+the function returns <b>nil</b>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-tostring"><code>tostring (v)</code></a></h3>
+Receives a value of any type and
+converts it to a string in a human-readable format.
+Floats always produce strings with some
+floating-point indication (either a decimal dot or an exponent).
+(For complete control of how numbers are converted,
+use <a href="#pdf-string.format"><code>string.format</code></a>.)
+
+
+<p>
+If the metatable of <code>v</code> has a <code>"__tostring"</code> field,
+then <code>tostring</code> calls the corresponding value
+with <code>v</code> as argument,
+and uses the result of the call as its result.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-type"><code>type (v)</code></a></h3>
+Returns the type of its only argument, coded as a string.
+The possible results of this function are
+"<code>nil</code>" (a string, not the value <b>nil</b>),
+"<code>number</code>",
+"<code>string</code>",
+"<code>boolean</code>",
+"<code>table</code>",
+"<code>function</code>",
+"<code>thread</code>",
+and "<code>userdata</code>".
+
+
+
+
+<p>
+<hr><h3><a name="pdf-_VERSION"><code>_VERSION</code></a></h3>
+A global variable (not a function) that
+holds a string containing the current interpreter version.
+The current value of this variable is "<code>Lua 5.3</code>".
+
+
+
+
+<p>
+<hr><h3><a name="pdf-xpcall"><code>xpcall (f, msgh [, arg1, &middot;&middot;&middot;])</code></a></h3>
+
+
+<p>
+This function is similar to <a href="#pdf-pcall"><code>pcall</code></a>,
+except that it sets a new message handler <code>msgh</code>.
+
+
+
+
+
+
+
+<h2>6.2 &ndash; <a name="6.2">Coroutine Manipulation</a></h2>
+
+<p>
+The operations related to coroutines comprise a sub-library of
+the basic library and come inside the table <a name="pdf-coroutine"><code>coroutine</code></a>.
+See <a href="#2.6">&sect;2.6</a> for a general description of coroutines.
+
+
+<p>
+<hr><h3><a name="pdf-coroutine.create"><code>coroutine.create (f)</code></a></h3>
+
+
+<p>
+Creates a new coroutine, with body <code>f</code>.
+<code>f</code> must be a Lua function.
+Returns this new coroutine,
+an object with type <code>"thread"</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-coroutine.isyieldable"><code>coroutine.isyieldable ()</code></a></h3>
+
+
+<p>
+Returns true when the running coroutine can yield.
+
+
+<p>
+A running coroutine is yieldable if it is not the main thread and
+it is not inside a non-yieldable C function.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-coroutine.resume"><code>coroutine.resume (co [, val1, &middot;&middot;&middot;])</code></a></h3>
+
+
+<p>
+Starts or continues the execution of coroutine <code>co</code>.
+The first time you resume a coroutine,
+it starts running its body.
+The values <code>val1</code>, ... are passed
+as the arguments to the body function.
+If the coroutine has yielded,
+<code>resume</code> restarts it;
+the values <code>val1</code>, ... are passed
+as the results from the yield.
+
+
+<p>
+If the coroutine runs without any errors,
+<code>resume</code> returns <b>true</b> plus any values passed to <code>yield</code>
+(when the coroutine yields) or any values returned by the body function
+(when the coroutine terminates).
+If there is any error,
+<code>resume</code> returns <b>false</b> plus the error message.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-coroutine.running"><code>coroutine.running ()</code></a></h3>
+
+
+<p>
+Returns the running coroutine plus a boolean,
+true when the running coroutine is the main one.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-coroutine.status"><code>coroutine.status (co)</code></a></h3>
+
+
+<p>
+Returns the status of coroutine <code>co</code>, as a string:
+<code>"running"</code>,
+if the coroutine is running (that is, it called <code>status</code>);
+<code>"suspended"</code>, if the coroutine is suspended in a call to <code>yield</code>,
+or if it has not started running yet;
+<code>"normal"</code> if the coroutine is active but not running
+(that is, it has resumed another coroutine);
+and <code>"dead"</code> if the coroutine has finished its body function,
+or if it has stopped with an error.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-coroutine.wrap"><code>coroutine.wrap (f)</code></a></h3>
+
+
+<p>
+Creates a new coroutine, with body <code>f</code>.
+<code>f</code> must be a Lua function.
+Returns a function that resumes the coroutine each time it is called.
+Any arguments passed to the function behave as the
+extra arguments to <code>resume</code>.
+Returns the same values returned by <code>resume</code>,
+except the first boolean.
+In case of error, propagates the error.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-coroutine.yield"><code>coroutine.yield (&middot;&middot;&middot;)</code></a></h3>
+
+
+<p>
+Suspends the execution of the calling coroutine.
+Any arguments to <code>yield</code> are passed as extra results to <code>resume</code>.
+
+
+
+
+
+
+
+<h2>6.3 &ndash; <a name="6.3">Modules</a></h2>
+
+<p>
+The package library provides basic
+facilities for loading modules in Lua.
+It exports one function directly in the global environment:
+<a href="#pdf-require"><code>require</code></a>.
+Everything else is exported in a table <a name="pdf-package"><code>package</code></a>.
+
+
+<p>
+<hr><h3><a name="pdf-require"><code>require (modname)</code></a></h3>
+
+
+<p>
+Loads the given module.
+The function starts by looking into the <a href="#pdf-package.loaded"><code>package.loaded</code></a> table
+to determine whether <code>modname</code> is already loaded.
+If it is, then <code>require</code> returns the value stored
+at <code>package.loaded[modname]</code>.
+Otherwise, it tries to find a <em>loader</em> for the module.
+
+
+<p>
+To find a loader,
+<code>require</code> is guided by the <a href="#pdf-package.searchers"><code>package.searchers</code></a> sequence.
+By changing this sequence,
+we can change how <code>require</code> looks for a module.
+The following explanation is based on the default configuration
+for <a href="#pdf-package.searchers"><code>package.searchers</code></a>.
+
+
+<p>
+First <code>require</code> queries <code>package.preload[modname]</code>.
+If it has a value,
+this value (which must be a function) is the loader.
+Otherwise <code>require</code> searches for a Lua loader using the
+path stored in <a href="#pdf-package.path"><code>package.path</code></a>.
+If that also fails, it searches for a C&nbsp;loader using the
+path stored in <a href="#pdf-package.cpath"><code>package.cpath</code></a>.
+If that also fails,
+it tries an <em>all-in-one</em> loader (see <a href="#pdf-package.searchers"><code>package.searchers</code></a>).
+
+
+<p>
+Once a loader is found,
+<code>require</code> calls the loader with two arguments:
+<code>modname</code> and an extra value dependent on how it got the loader.
+(If the loader came from a file,
+this extra value is the file name.)
+If the loader returns any non-nil value,
+<code>require</code> assigns the returned value to <code>package.loaded[modname]</code>.
+If the loader does not return a non-nil value and
+has not assigned any value to <code>package.loaded[modname]</code>,
+then <code>require</code> assigns <b>true</b> to this entry.
+In any case, <code>require</code> returns the
+final value of <code>package.loaded[modname]</code>.
+
+
+<p>
+If there is any error loading or running the module,
+or if it cannot find any loader for the module,
+then <code>require</code> raises an error.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-package.config"><code>package.config</code></a></h3>
+
+
+<p>
+A string describing some compile-time configurations for packages.
+This string is a sequence of lines:
+
+<ul>
+
+<li>The first line is the directory separator string.
+Default is '<code>\</code>' for Windows and '<code>/</code>' for all other systems.</li>
+
+<li>The second line is the character that separates templates in a path.
+Default is '<code>;</code>'.</li>
+
+<li>The third line is the string that marks the
+substitution points in a template.
+Default is '<code>?</code>'.</li>
+
+<li>The fourth line is a string that, in a path in Windows,
+is replaced by the executable's directory.
+Default is '<code>!</code>'.</li>
+
+<li>The fifth line is a mark to ignore all text after it
+when building the <code>luaopen_</code> function name.
+Default is '<code>-</code>'.</li>
+
+</ul>
+
+
+
+<p>
+<hr><h3><a name="pdf-package.cpath"><code>package.cpath</code></a></h3>
+
+
+<p>
+The path used by <a href="#pdf-require"><code>require</code></a> to search for a C&nbsp;loader.
+
+
+<p>
+Lua initializes the C&nbsp;path <a href="#pdf-package.cpath"><code>package.cpath</code></a> in the same way
+it initializes the Lua path <a href="#pdf-package.path"><code>package.path</code></a>,
+using the environment variable <a name="pdf-LUA_CPATH_5_3"><code>LUA_CPATH_5_3</code></a>
+or the environment variable <a name="pdf-LUA_CPATH"><code>LUA_CPATH</code></a>
+or a default path defined in <code>luaconf.h</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-package.loaded"><code>package.loaded</code></a></h3>
+
+
+<p>
+A table used by <a href="#pdf-require"><code>require</code></a> to control which
+modules are already loaded.
+When you require a module <code>modname</code> and
+<code>package.loaded[modname]</code> is not false,
+<a href="#pdf-require"><code>require</code></a> simply returns the value stored there.
+
+
+<p>
+This variable is only a reference to the real table;
+assignments to this variable do not change the
+table used by <a href="#pdf-require"><code>require</code></a>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-package.loadlib"><code>package.loadlib (libname, funcname)</code></a></h3>
+
+
+<p>
+Dynamically links the host program with the C&nbsp;library <code>libname</code>.
+
+
+<p>
+If <code>funcname</code> is "<code>*</code>",
+then it only links with the library,
+making the symbols exported by the library
+available to other dynamically linked libraries.
+Otherwise,
+it looks for a function <code>funcname</code> inside the library
+and returns this function as a C&nbsp;function.
+So, <code>funcname</code> must follow the <a href="#lua_CFunction"><code>lua_CFunction</code></a> prototype
+(see <a href="#lua_CFunction"><code>lua_CFunction</code></a>).
+
+
+<p>
+This is a low-level function.
+It completely bypasses the package and module system.
+Unlike <a href="#pdf-require"><code>require</code></a>,
+it does not perform any path searching and
+does not automatically adds extensions.
+<code>libname</code> must be the complete file name of the C&nbsp;library,
+including if necessary a path and an extension.
+<code>funcname</code> must be the exact name exported by the C&nbsp;library
+(which may depend on the C&nbsp;compiler and linker used).
+
+
+<p>
+This function is not supported by Standard&nbsp;C.
+As such, it is only available on some platforms
+(Windows, Linux, Mac OS X, Solaris, BSD,
+plus other Unix systems that support the <code>dlfcn</code> standard).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-package.path"><code>package.path</code></a></h3>
+
+
+<p>
+The path used by <a href="#pdf-require"><code>require</code></a> to search for a Lua loader.
+
+
+<p>
+At start-up, Lua initializes this variable with
+the value of the environment variable <a name="pdf-LUA_PATH_5_3"><code>LUA_PATH_5_3</code></a> or
+the environment variable <a name="pdf-LUA_PATH"><code>LUA_PATH</code></a> or
+with a default path defined in <code>luaconf.h</code>,
+if those environment variables are not defined.
+Any "<code>;;</code>" in the value of the environment variable
+is replaced by the default path.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-package.preload"><code>package.preload</code></a></h3>
+
+
+<p>
+A table to store loaders for specific modules
+(see <a href="#pdf-require"><code>require</code></a>).
+
+
+<p>
+This variable is only a reference to the real table;
+assignments to this variable do not change the
+table used by <a href="#pdf-require"><code>require</code></a>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-package.searchers"><code>package.searchers</code></a></h3>
+
+
+<p>
+A table used by <a href="#pdf-require"><code>require</code></a> to control how to load modules.
+
+
+<p>
+Each entry in this table is a <em>searcher function</em>.
+When looking for a module,
+<a href="#pdf-require"><code>require</code></a> calls each of these searchers in ascending order,
+with the module name (the argument given to <a href="#pdf-require"><code>require</code></a>) as its
+sole parameter.
+The function can return another function (the module <em>loader</em>)
+plus an extra value that will be passed to that loader,
+or a string explaining why it did not find that module
+(or <b>nil</b> if it has nothing to say).
+
+
+<p>
+Lua initializes this table with four searcher functions.
+
+
+<p>
+The first searcher simply looks for a loader in the
+<a href="#pdf-package.preload"><code>package.preload</code></a> table.
+
+
+<p>
+The second searcher looks for a loader as a Lua library,
+using the path stored at <a href="#pdf-package.path"><code>package.path</code></a>.
+The search is done as described in function <a href="#pdf-package.searchpath"><code>package.searchpath</code></a>.
+
+
+<p>
+The third searcher looks for a loader as a C&nbsp;library,
+using the path given by the variable <a href="#pdf-package.cpath"><code>package.cpath</code></a>.
+Again,
+the search is done as described in function <a href="#pdf-package.searchpath"><code>package.searchpath</code></a>.
+For instance,
+if the C&nbsp;path is the string
+
+<pre>
+     "./?.so;./?.dll;/usr/local/?/init.so"
+</pre><p>
+the searcher for module <code>foo</code>
+will try to open the files <code>./foo.so</code>, <code>./foo.dll</code>,
+and <code>/usr/local/foo/init.so</code>, in that order.
+Once it finds a C&nbsp;library,
+this searcher first uses a dynamic link facility to link the
+application with the library.
+Then it tries to find a C&nbsp;function inside the library to
+be used as the loader.
+The name of this C&nbsp;function is the string "<code>luaopen_</code>"
+concatenated with a copy of the module name where each dot
+is replaced by an underscore.
+Moreover, if the module name has a hyphen,
+its suffix after (and including) the first hyphen is removed.
+For instance, if the module name is <code>a.b.c-v2.1</code>,
+the function name will be <code>luaopen_a_b_c</code>.
+
+
+<p>
+The fourth searcher tries an <em>all-in-one loader</em>.
+It searches the C&nbsp;path for a library for
+the root name of the given module.
+For instance, when requiring <code>a.b.c</code>,
+it will search for a C&nbsp;library for <code>a</code>.
+If found, it looks into it for an open function for
+the submodule;
+in our example, that would be <code>luaopen_a_b_c</code>.
+With this facility, a package can pack several C&nbsp;submodules
+into one single library,
+with each submodule keeping its original open function.
+
+
+<p>
+All searchers except the first one (preload) return as the extra value
+the file name where the module was found,
+as returned by <a href="#pdf-package.searchpath"><code>package.searchpath</code></a>.
+The first searcher returns no extra value.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-package.searchpath"><code>package.searchpath (name, path [, sep [, rep]])</code></a></h3>
+
+
+<p>
+Searches for the given <code>name</code> in the given <code>path</code>.
+
+
+<p>
+A path is a string containing a sequence of
+<em>templates</em> separated by semicolons.
+For each template,
+the function replaces each interrogation mark (if any)
+in the template with a copy of <code>name</code>
+wherein all occurrences of <code>sep</code>
+(a dot, by default)
+were replaced by <code>rep</code>
+(the system's directory separator, by default),
+and then tries to open the resulting file name.
+
+
+<p>
+For instance, if the path is the string
+
+<pre>
+     "./?.lua;./?.lc;/usr/local/?/init.lua"
+</pre><p>
+the search for the name <code>foo.a</code>
+will try to open the files
+<code>./foo/a.lua</code>, <code>./foo/a.lc</code>, and
+<code>/usr/local/foo/a/init.lua</code>, in that order.
+
+
+<p>
+Returns the resulting name of the first file that it can
+open in read mode (after closing the file),
+or <b>nil</b> plus an error message if none succeeds.
+(This error message lists all file names it tried to open.)
+
+
+
+
+
+
+
+<h2>6.4 &ndash; <a name="6.4">String Manipulation</a></h2>
+
+<p>
+This library provides generic functions for string manipulation,
+such as finding and extracting substrings, and pattern matching.
+When indexing a string in Lua, the first character is at position&nbsp;1
+(not at&nbsp;0, as in C).
+Indices are allowed to be negative and are interpreted as indexing backwards,
+from the end of the string.
+Thus, the last character is at position -1, and so on.
+
+
+<p>
+The string library provides all its functions inside the table
+<a name="pdf-string"><code>string</code></a>.
+It also sets a metatable for strings
+where the <code>__index</code> field points to the <code>string</code> table.
+Therefore, you can use the string functions in object-oriented style.
+For instance, <code>string.byte(s,i)</code>
+can be written as <code>s:byte(i)</code>.
+
+
+<p>
+The string library assumes one-byte character encodings.
+
+
+<p>
+<hr><h3><a name="pdf-string.byte"><code>string.byte (s [, i [, j]])</code></a></h3>
+Returns the internal numerical codes of the characters <code>s[i]</code>,
+<code>s[i+1]</code>, ..., <code>s[j]</code>.
+The default value for <code>i</code> is&nbsp;1;
+the default value for <code>j</code> is&nbsp;<code>i</code>.
+These indices are corrected
+following the same rules of function <a href="#pdf-string.sub"><code>string.sub</code></a>.
+
+
+<p>
+Numerical codes are not necessarily portable across platforms.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.char"><code>string.char (&middot;&middot;&middot;)</code></a></h3>
+Receives zero or more integers.
+Returns a string with length equal to the number of arguments,
+in which each character has the internal numerical code equal
+to its corresponding argument.
+
+
+<p>
+Numerical codes are not necessarily portable across platforms.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.dump"><code>string.dump (function [, strip])</code></a></h3>
+
+
+<p>
+Returns a string containing a binary representation
+(a <em>binary chunk</em>)
+of the given function,
+so that a later <a href="#pdf-load"><code>load</code></a> on this string returns
+a copy of the function (but with new upvalues).
+If <code>strip</code> is a true value,
+the binary representation is created without debug information
+about the function
+(local variable names, lines, etc.).
+
+
+<p>
+Functions with upvalues have only their number of upvalues saved.
+When (re)loaded,
+those upvalues receive fresh instances containing <b>nil</b>.
+(You can use the debug library to serialize
+and reload the upvalues of a function
+in a way adequate to your needs.)
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.find"><code>string.find (s, pattern [, init [, plain]])</code></a></h3>
+
+
+<p>
+Looks for the first match of
+<code>pattern</code> (see <a href="#6.4.1">&sect;6.4.1</a>) in the string <code>s</code>.
+If it finds a match, then <code>find</code> returns the indices of&nbsp;<code>s</code>
+where this occurrence starts and ends;
+otherwise, it returns <b>nil</b>.
+A third, optional numerical argument <code>init</code> specifies
+where to start the search;
+its default value is&nbsp;1 and can be negative.
+A value of <b>true</b> as a fourth, optional argument <code>plain</code>
+turns off the pattern matching facilities,
+so the function does a plain "find substring" operation,
+with no characters in <code>pattern</code> being considered magic.
+Note that if <code>plain</code> is given, then <code>init</code> must be given as well.
+
+
+<p>
+If the pattern has captures,
+then in a successful match
+the captured values are also returned,
+after the two indices.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.format"><code>string.format (formatstring, &middot;&middot;&middot;)</code></a></h3>
+
+
+<p>
+Returns a formatted version of its variable number of arguments
+following the description given in its first argument (which must be a string).
+The format string follows the same rules as the ISO&nbsp;C function <code>sprintf</code>.
+The only differences are that the options/modifiers
+<code>*</code>, <code>h</code>, <code>L</code>, <code>l</code>, <code>n</code>,
+and <code>p</code> are not supported
+and that there is an extra option, <code>q</code>.
+The <code>q</code> option formats a string between double quotes,
+using escape sequences when necessary to ensure that
+it can safely be read back by the Lua interpreter.
+For instance, the call
+
+<pre>
+     string.format('%q', 'a string with "quotes" and \n new line')
+</pre><p>
+may produce the string:
+
+<pre>
+     "a string with \"quotes\" and \
+      new line"
+</pre>
+
+<p>
+Options
+<code>A</code> and <code>a</code> (when available),
+<code>E</code>, <code>e</code>, <code>f</code>,
+<code>G</code>, and <code>g</code> all expect a number as argument.
+Options <code>c</code>, <code>d</code>,
+<code>i</code>, <code>o</code>, <code>u</code>, <code>X</code>, and <code>x</code>
+expect an integer.
+Option <code>q</code> expects a string;
+option <code>s</code> expects a string without embedded zeros.
+If the argument to option <code>s</code> is not a string,
+it is converted to one following the same rules of <a href="#pdf-tostring"><code>tostring</code></a>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.gmatch"><code>string.gmatch (s, pattern)</code></a></h3>
+Returns an iterator function that,
+each time it is called,
+returns the next captures from <code>pattern</code> (see <a href="#6.4.1">&sect;6.4.1</a>)
+over the string <code>s</code>.
+If <code>pattern</code> specifies no captures,
+then the whole match is produced in each call.
+
+
+<p>
+As an example, the following loop
+will iterate over all the words from string <code>s</code>,
+printing one per line:
+
+<pre>
+     s = "hello world from Lua"
+     for w in string.gmatch(s, "%a+") do
+       print(w)
+     end
+</pre><p>
+The next example collects all pairs <code>key=value</code> from the
+given string into a table:
+
+<pre>
+     t = {}
+     s = "from=world, to=Lua"
+     for k, v in string.gmatch(s, "(%w+)=(%w+)") do
+       t[k] = v
+     end
+</pre>
+
+<p>
+For this function, a caret '<code>^</code>' at the start of a pattern does not
+work as an anchor, as this would prevent the iteration.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.gsub"><code>string.gsub (s, pattern, repl [, n])</code></a></h3>
+Returns a copy of <code>s</code>
+in which all (or the first <code>n</code>, if given)
+occurrences of the <code>pattern</code> (see <a href="#6.4.1">&sect;6.4.1</a>) have been
+replaced by a replacement string specified by <code>repl</code>,
+which can be a string, a table, or a function.
+<code>gsub</code> also returns, as its second value,
+the total number of matches that occurred.
+The name <code>gsub</code> comes from <em>Global SUBstitution</em>.
+
+
+<p>
+If <code>repl</code> is a string, then its value is used for replacement.
+The character&nbsp;<code>%</code> works as an escape character:
+any sequence in <code>repl</code> of the form <code>%<em>d</em></code>,
+with <em>d</em> between 1 and 9,
+stands for the value of the <em>d</em>-th captured substring.
+The sequence <code>%0</code> stands for the whole match.
+The sequence <code>%%</code> stands for a single&nbsp;<code>%</code>.
+
+
+<p>
+If <code>repl</code> is a table, then the table is queried for every match,
+using the first capture as the key.
+
+
+<p>
+If <code>repl</code> is a function, then this function is called every time a
+match occurs, with all captured substrings passed as arguments,
+in order.
+
+
+<p>
+In any case,
+if the pattern specifies no captures,
+then it behaves as if the whole pattern was inside a capture.
+
+
+<p>
+If the value returned by the table query or by the function call
+is a string or a number,
+then it is used as the replacement string;
+otherwise, if it is <b>false</b> or <b>nil</b>,
+then there is no replacement
+(that is, the original match is kept in the string).
+
+
+<p>
+Here are some examples:
+
+<pre>
+     x = string.gsub("hello world", "(%w+)", "%1 %1")
+     --&gt; x="hello hello world world"
+     
+     x = string.gsub("hello world", "%w+", "%0 %0", 1)
+     --&gt; x="hello hello world"
+     
+     x = string.gsub("hello world from Lua", "(%w+)%s*(%w+)", "%2 %1")
+     --&gt; x="world hello Lua from"
+     
+     x = string.gsub("home = $HOME, user = $USER", "%$(%w+)", os.getenv)
+     --&gt; x="home = /home/roberto, user = roberto"
+     
+     x = string.gsub("4+5 = $return 4+5$", "%$(.-)%$", function (s)
+           return load(s)()
+         end)
+     --&gt; x="4+5 = 9"
+     
+     local t = {name="lua", version="5.3"}
+     x = string.gsub("$name-$version.tar.gz", "%$(%w+)", t)
+     --&gt; x="lua-5.3.tar.gz"
+</pre>
+
+
+
+<p>
+<hr><h3><a name="pdf-string.len"><code>string.len (s)</code></a></h3>
+Receives a string and returns its length.
+The empty string <code>""</code> has length 0.
+Embedded zeros are counted,
+so <code>"a\000bc\000"</code> has length 5.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.lower"><code>string.lower (s)</code></a></h3>
+Receives a string and returns a copy of this string with all
+uppercase letters changed to lowercase.
+All other characters are left unchanged.
+The definition of what an uppercase letter is depends on the current locale.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.match"><code>string.match (s, pattern [, init])</code></a></h3>
+Looks for the first <em>match</em> of
+<code>pattern</code> (see <a href="#6.4.1">&sect;6.4.1</a>) in the string <code>s</code>.
+If it finds one, then <code>match</code> returns
+the captures from the pattern;
+otherwise it returns <b>nil</b>.
+If <code>pattern</code> specifies no captures,
+then the whole match is returned.
+A third, optional numerical argument <code>init</code> specifies
+where to start the search;
+its default value is&nbsp;1 and can be negative.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.pack"><code>string.pack (fmt, v1, v2, &middot;&middot;&middot;)</code></a></h3>
+
+
+<p>
+Returns a binary string containing the values <code>v1</code>, <code>v2</code>, etc.
+packed (that is, serialized in binary form)
+according to the format string <code>fmt</code> (see <a href="#6.4.2">&sect;6.4.2</a>). 
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.packsize"><code>string.packsize (fmt)</code></a></h3>
+
+
+<p>
+Returns the size of a string resulting from <a href="#pdf-string.pack"><code>string.pack</code></a>
+with the given format.
+The format string cannot have the variable-length options
+'<code>s</code>' or '<code>z</code>' (see <a href="#6.4.2">&sect;6.4.2</a>).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.rep"><code>string.rep (s, n [, sep])</code></a></h3>
+Returns a string that is the concatenation of <code>n</code> copies of
+the string <code>s</code> separated by the string <code>sep</code>.
+The default value for <code>sep</code> is the empty string
+(that is, no separator).
+Returns the empty string if <code>n</code> is not positive.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.reverse"><code>string.reverse (s)</code></a></h3>
+Returns a string that is the string <code>s</code> reversed.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.sub"><code>string.sub (s, i [, j])</code></a></h3>
+Returns the substring of <code>s</code> that
+starts at <code>i</code>  and continues until <code>j</code>;
+<code>i</code> and <code>j</code> can be negative.
+If <code>j</code> is absent, then it is assumed to be equal to -1
+(which is the same as the string length).
+In particular,
+the call <code>string.sub(s,1,j)</code> returns a prefix of <code>s</code>
+with length <code>j</code>,
+and <code>string.sub(s, -i)</code> returns a suffix of <code>s</code>
+with length <code>i</code>.
+
+
+<p>
+If, after the translation of negative indices,
+<code>i</code> is less than 1,
+it is corrected to 1.
+If <code>j</code> is greater than the string length,
+it is corrected to that length.
+If, after these corrections,
+<code>i</code> is greater than <code>j</code>,
+the function returns the empty string.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.unpack"><code>string.unpack (fmt, s [, pos])</code></a></h3>
+
+
+<p>
+Returns the values packed in string <code>s</code> (see <a href="#pdf-string.pack"><code>string.pack</code></a>)
+according to the format string <code>fmt</code> (see <a href="#6.4.2">&sect;6.4.2</a>).
+An optional <code>pos</code> marks where
+to start reading in <code>s</code> (default is 1).
+After the read values,
+this function also returns the index of the first unread byte in <code>s</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-string.upper"><code>string.upper (s)</code></a></h3>
+Receives a string and returns a copy of this string with all
+lowercase letters changed to uppercase.
+All other characters are left unchanged.
+The definition of what a lowercase letter is depends on the current locale.
+
+
+
+
+
+<h3>6.4.1 &ndash; <a name="6.4.1">Patterns</a></h3>
+
+<p>
+Patterns in Lua are described by regular strings,
+which are interpreted as patterns by the pattern-matching functions
+<a href="#pdf-string.find"><code>string.find</code></a>,
+<a href="#pdf-string.gmatch"><code>string.gmatch</code></a>,
+<a href="#pdf-string.gsub"><code>string.gsub</code></a>,
+and <a href="#pdf-string.match"><code>string.match</code></a>.
+This section describes the syntax and the meaning
+(that is, what they match) of these strings.
+
+
+
+<h4>Character Class:</h4><p>
+A <em>character class</em> is used to represent a set of characters.
+The following combinations are allowed in describing a character class:
+
+<ul>
+
+<li><b><em>x</em>: </b>
+(where <em>x</em> is not one of the <em>magic characters</em>
+<code>^$()%.[]*+-?</code>)
+represents the character <em>x</em> itself.
+</li>
+
+<li><b><code>.</code>: </b> (a dot) represents all characters.</li>
+
+<li><b><code>%a</code>: </b> represents all letters.</li>
+
+<li><b><code>%c</code>: </b> represents all control characters.</li>
+
+<li><b><code>%d</code>: </b> represents all digits.</li>
+
+<li><b><code>%g</code>: </b> represents all printable characters except space.</li>
+
+<li><b><code>%l</code>: </b> represents all lowercase letters.</li>
+
+<li><b><code>%p</code>: </b> represents all punctuation characters.</li>
+
+<li><b><code>%s</code>: </b> represents all space characters.</li>
+
+<li><b><code>%u</code>: </b> represents all uppercase letters.</li>
+
+<li><b><code>%w</code>: </b> represents all alphanumeric characters.</li>
+
+<li><b><code>%x</code>: </b> represents all hexadecimal digits.</li>
+
+<li><b><code>%<em>x</em></code>: </b> (where <em>x</em> is any non-alphanumeric character)
+represents the character <em>x</em>.
+This is the standard way to escape the magic characters.
+Any non-alphanumeric character
+(including all punctuations, even the non-magical)
+can be preceded by a '<code>%</code>'
+when used to represent itself in a pattern.
+</li>
+
+<li><b><code>[<em>set</em>]</code>: </b>
+represents the class which is the union of all
+characters in <em>set</em>.
+A range of characters can be specified by
+separating the end characters of the range,
+in ascending order, with a '<code>-</code>'.
+All classes <code>%</code><em>x</em> described above can also be used as
+components in <em>set</em>.
+All other characters in <em>set</em> represent themselves.
+For example, <code>[%w_]</code> (or <code>[_%w]</code>)
+represents all alphanumeric characters plus the underscore,
+<code>[0-7]</code> represents the octal digits,
+and <code>[0-7%l%-]</code> represents the octal digits plus
+the lowercase letters plus the '<code>-</code>' character.
+
+
+<p>
+The interaction between ranges and classes is not defined.
+Therefore, patterns like <code>[%a-z]</code> or <code>[a-%%]</code>
+have no meaning.
+</li>
+
+<li><b><code>[^<em>set</em>]</code>: </b>
+represents the complement of <em>set</em>,
+where <em>set</em> is interpreted as above.
+</li>
+
+</ul><p>
+For all classes represented by single letters (<code>%a</code>, <code>%c</code>, etc.),
+the corresponding uppercase letter represents the complement of the class.
+For instance, <code>%S</code> represents all non-space characters.
+
+
+<p>
+The definitions of letter, space, and other character groups
+depend on the current locale.
+In particular, the class <code>[a-z]</code> may not be equivalent to <code>%l</code>.
+
+
+
+
+
+<h4>Pattern Item:</h4><p>
+A <em>pattern item</em> can be
+
+<ul>
+
+<li>
+a single character class,
+which matches any single character in the class;
+</li>
+
+<li>
+a single character class followed by '<code>*</code>',
+which matches zero or more repetitions of characters in the class.
+These repetition items will always match the longest possible sequence;
+</li>
+
+<li>
+a single character class followed by '<code>+</code>',
+which matches one or more repetitions of characters in the class.
+These repetition items will always match the longest possible sequence;
+</li>
+
+<li>
+a single character class followed by '<code>-</code>',
+which also matches zero or more repetitions of characters in the class.
+Unlike '<code>*</code>',
+these repetition items will always match the shortest possible sequence;
+</li>
+
+<li>
+a single character class followed by '<code>?</code>',
+which matches zero or one occurrence of a character in the class.
+It always matches one occurrence if possible;
+</li>
+
+<li>
+<code>%<em>n</em></code>, for <em>n</em> between 1 and 9;
+such item matches a substring equal to the <em>n</em>-th captured string
+(see below);
+</li>
+
+<li>
+<code>%b<em>xy</em></code>, where <em>x</em> and <em>y</em> are two distinct characters;
+such item matches strings that start with&nbsp;<em>x</em>, end with&nbsp;<em>y</em>,
+and where the <em>x</em> and <em>y</em> are <em>balanced</em>.
+This means that, if one reads the string from left to right,
+counting <em>+1</em> for an <em>x</em> and <em>-1</em> for a <em>y</em>,
+the ending <em>y</em> is the first <em>y</em> where the count reaches 0.
+For instance, the item <code>%b()</code> matches expressions with
+balanced parentheses.
+</li>
+
+<li>
+<code>%f[<em>set</em>]</code>, a <em>frontier pattern</em>;
+such item matches an empty string at any position such that
+the next character belongs to <em>set</em>
+and the previous character does not belong to <em>set</em>.
+The set <em>set</em> is interpreted as previously described.
+The beginning and the end of the subject are handled as if
+they were the character '<code>\0</code>'.
+</li>
+
+</ul>
+
+
+
+
+<h4>Pattern:</h4><p>
+A <em>pattern</em> is a sequence of pattern items.
+A caret '<code>^</code>' at the beginning of a pattern anchors the match at the
+beginning of the subject string.
+A '<code>$</code>' at the end of a pattern anchors the match at the
+end of the subject string.
+At other positions,
+'<code>^</code>' and '<code>$</code>' have no special meaning and represent themselves.
+
+
+
+
+
+<h4>Captures:</h4><p>
+A pattern can contain sub-patterns enclosed in parentheses;
+they describe <em>captures</em>.
+When a match succeeds, the substrings of the subject string
+that match captures are stored (<em>captured</em>) for future use.
+Captures are numbered according to their left parentheses.
+For instance, in the pattern <code>"(a*(.)%w(%s*))"</code>,
+the part of the string matching <code>"a*(.)%w(%s*)"</code> is
+stored as the first capture (and therefore has number&nbsp;1);
+the character matching "<code>.</code>" is captured with number&nbsp;2,
+and the part matching "<code>%s*</code>" has number&nbsp;3.
+
+
+<p>
+As a special case, the empty capture <code>()</code> captures
+the current string position (a number).
+For instance, if we apply the pattern <code>"()aa()"</code> on the
+string <code>"flaaap"</code>, there will be two captures: 3&nbsp;and&nbsp;5.
+
+
+
+
+
+
+
+<h3>6.4.2 &ndash; <a name="6.4.2">Format Strings for Pack and Unpack</a></h3>
+
+<p>
+The first argument to <a href="#pdf-string.pack"><code>string.pack</code></a>,
+<a href="#pdf-string.packsize"><code>string.packsize</code></a>, and <a href="#pdf-string.unpack"><code>string.unpack</code></a>
+is a format string,
+which describes the layout of the structure being created or read.
+
+
+<p>
+A format string is a sequence of conversion options.
+The conversion options are as follows:
+
+<ul>
+<li><b><code>&lt;</code>: </b>sets little endian</li>
+<li><b><code>&gt;</code>: </b>sets big endian</li>
+<li><b><code>=</code>: </b>sets native endian</li>
+<li><b><code>![<em>n</em>]</code>: </b>sets maximum alignment to <code>n</code>
+(default is native alignment)</li>
+<li><b><code>b</code>: </b>a signed byte (<code>char</code>)</li>
+<li><b><code>B</code>: </b>an unsigned byte (<code>char</code>)</li>
+<li><b><code>h</code>: </b>a signed <code>short</code> (native size)</li>
+<li><b><code>H</code>: </b>an unsigned <code>short</code> (native size)</li>
+<li><b><code>l</code>: </b>a signed <code>long</code> (native size)</li>
+<li><b><code>L</code>: </b>an unsigned <code>long</code> (native size)</li>
+<li><b><code>j</code>: </b>a <code>lua_Integer</code></li>
+<li><b><code>J</code>: </b>a <code>lua_Unsigned</code></li>
+<li><b><code>T</code>: </b>a <code>size_t</code> (native size)</li>
+<li><b><code>i[<em>n</em>]</code>: </b>a signed <code>int</code> with <code>n</code> bytes
+(default is native size)</li>
+<li><b><code>I[<em>n</em>]</code>: </b>an unsigned <code>int</code> with <code>n</code> bytes
+(default is native size)</li>
+<li><b><code>f</code>: </b>a <code>float</code> (native size)</li>
+<li><b><code>d</code>: </b>a <code>double</code> (native size)</li>
+<li><b><code>n</code>: </b>a <code>lua_Number</code></li>
+<li><b><code>c<em>n</em></code>: </b>a fixed-sized string with <code>n</code> bytes</li>
+<li><b><code>z</code>: </b>a zero-terminated string</li>
+<li><b><code>s[<em>n</em>]</code>: </b>a string preceded by its length
+coded as an unsigned integer with <code>n</code> bytes
+(default is a <code>size_t</code>)</li>
+<li><b><code>x</code>: </b>one byte of padding</li>
+<li><b><code>X<em>op</em></code>: </b>an empty item that aligns
+according to option <code>op</code>
+(which is otherwise ignored)</li>
+<li><b>'<code> </code>': </b>(empty space) ignored</li>
+</ul><p>
+(A "<code>[<em>n</em>]</code>" means an optional integral numeral.)
+Except for padding, spaces, and configurations
+(options "<code>xX &lt;=&gt;!</code>"),
+each option corresponds to an argument (in <a href="#pdf-string.pack"><code>string.pack</code></a>)
+or a result (in <a href="#pdf-string.unpack"><code>string.unpack</code></a>).
+
+
+<p>
+For options "<code>!<em>n</em></code>", "<code>s<em>n</em></code>", "<code>i<em>n</em></code>", and "<code>I<em>n</em></code>",
+<code>n</code> can be any integer between 1 and 16.
+All integral options check overflows;
+<a href="#pdf-string.pack"><code>string.pack</code></a> checks whether the given value fits in the given size;
+<a href="#pdf-string.unpack"><code>string.unpack</code></a> checks whether the read value fits in a Lua integer.
+
+
+<p>
+Any format string starts as if prefixed by "<code>!1=</code>",
+that is,
+with maximum alignment of 1 (no alignment)
+and native endianness.
+
+
+<p>
+Alignment works as follows:
+For each option,
+the format gets extra padding until the data starts
+at an offset that is a multiple of the minimum between the
+option size and the maximum alignment;
+this minimum must be a power of 2.
+Options "<code>c</code>" and "<code>z</code>" are not aligned;
+option "<code>s</code>" follows the alignment of its starting integer.
+
+
+<p>
+All padding is filled with zeros by <a href="#pdf-string.pack"><code>string.pack</code></a>
+(and ignored by <a href="#pdf-string.unpack"><code>string.unpack</code></a>).
+
+
+
+
+
+
+
+<h2>6.5 &ndash; <a name="6.5">UTF-8 Support</a></h2>
+
+<p>
+This library provides basic support for UTF-8 encoding.
+It provides all its functions inside the table <a name="pdf-utf8"><code>utf8</code></a>.
+This library does not provide any support for Unicode other
+than the handling of the encoding.
+Any operation that needs the meaning of a character,
+such as character classification, is outside its scope.
+
+
+<p>
+Unless stated otherwise,
+all functions that expect a byte position as a parameter
+assume that the given position is either the start of a byte sequence
+or one plus the length of the subject string.
+As in the string library,
+negative indices count from the end of the string.
+
+
+<p>
+<hr><h3><a name="pdf-utf8.char"><code>utf8.char (&middot;&middot;&middot;)</code></a></h3>
+Receives zero or more integers,
+converts each one to its corresponding UTF-8 byte sequence
+and returns a string with the concatenation of all these sequences.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-utf8.charpattern"><code>utf8.charpattern</code></a></h3>
+The pattern (a string, not a function) "<code>[\0-\x7F\xC2-\xF4][\x80-\xBF]*</code>"
+(see <a href="#6.4.1">&sect;6.4.1</a>),
+which matches exactly one UTF-8 byte sequence,
+assuming that the subject is a valid UTF-8 string.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-utf8.codes"><code>utf8.codes (s)</code></a></h3>
+
+
+<p>
+Returns values so that the construction
+
+<pre>
+     for p, c in utf8.codes(s) do <em>body</em> end
+</pre><p>
+will iterate over all characters in string <code>s</code>,
+with <code>p</code> being the position (in bytes) and <code>c</code> the code point
+of each character.
+It raises an error if it meets any invalid byte sequence.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-utf8.codepoint"><code>utf8.codepoint (s [, i [, j]])</code></a></h3>
+Returns the codepoints (as integers) from all characters in <code>s</code>
+that start between byte position <code>i</code> and <code>j</code> (both included).
+The default for <code>i</code> is 1 and for <code>j</code> is <code>i</code>.
+It raises an error if it meets any invalid byte sequence.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-utf8.len"><code>utf8.len (s [, i [, j]])</code></a></h3>
+Returns the number of UTF-8 characters in string <code>s</code>
+that start between positions <code>i</code> and <code>j</code> (both inclusive).
+The default for <code>i</code> is 1 and for <code>j</code> is -1.
+If it finds any invalid byte sequence,
+returns a false value plus the position of the first invalid byte. 
+
+
+
+
+<p>
+<hr><h3><a name="pdf-utf8.offset"><code>utf8.offset (s, n [, i])</code></a></h3>
+Returns the position (in bytes) where the encoding of the
+<code>n</code>-th character of <code>s</code>
+(counting from position <code>i</code>) starts.
+A negative <code>n</code> gets characters before position <code>i</code>.
+The default for <code>i</code> is 1 when <code>n</code> is non-negative
+and <code>#s + 1</code> otherwise,
+so that <code>utf8.offset(s, -n)</code> gets the offset of the
+<code>n</code>-th character from the end of the string.
+If the specified character is neither in the subject
+nor right after its end,
+the function returns <b>nil</b>.
+
+
+<p>
+As a special case,
+when <code>n</code> is 0 the function returns the start of the encoding
+of the character that contains the <code>i</code>-th byte of <code>s</code>.
+
+
+<p>
+This function assumes that <code>s</code> is a valid UTF-8 string.
+
+
+
+
+
+
+
+<h2>6.6 &ndash; <a name="6.6">Table Manipulation</a></h2>
+
+<p>
+This library provides generic functions for table manipulation.
+It provides all its functions inside the table <a name="pdf-table"><code>table</code></a>.
+
+
+<p>
+Remember that, whenever an operation needs the length of a table,
+the table must be a proper sequence
+or have a <code>__len</code> metamethod (see <a href="#3.4.7">&sect;3.4.7</a>).
+All functions ignore non-numeric keys
+in the tables given as arguments.
+
+
+<p>
+<hr><h3><a name="pdf-table.concat"><code>table.concat (list [, sep [, i [, j]]])</code></a></h3>
+
+
+<p>
+Given a list where all elements are strings or numbers,
+returns the string <code>list[i]..sep..list[i+1] &middot;&middot;&middot; sep..list[j]</code>.
+The default value for <code>sep</code> is the empty string,
+the default for <code>i</code> is 1,
+and the default for <code>j</code> is <code>#list</code>.
+If <code>i</code> is greater than <code>j</code>, returns the empty string.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-table.insert"><code>table.insert (list, [pos,] value)</code></a></h3>
+
+
+<p>
+Inserts element <code>value</code> at position <code>pos</code> in <code>list</code>,
+shifting up the elements
+<code>list[pos], list[pos+1], &middot;&middot;&middot;, list[#list]</code>.
+The default value for <code>pos</code> is <code>#list+1</code>,
+so that a call <code>table.insert(t,x)</code> inserts <code>x</code> at the end
+of list <code>t</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-table.move"><code>table.move (a1, f, e, t [,a2])</code></a></h3>
+
+
+<p>
+Moves elements from table <code>a1</code> to table <code>a2</code>.
+This function performs the equivalent to the following
+multiple assignment:
+<code>a2[t],&middot;&middot;&middot; = a1[f],&middot;&middot;&middot;,a1[e]</code>.
+The default for <code>a2</code> is <code>a1</code>.
+The destination range can overlap with the source range.
+Index <code>f</code> must be positive.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-table.pack"><code>table.pack (&middot;&middot;&middot;)</code></a></h3>
+
+
+<p>
+Returns a new table with all parameters stored into keys 1, 2, etc.
+and with a field "<code>n</code>" with the total number of parameters.
+Note that the resulting table may not be a sequence.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-table.remove"><code>table.remove (list [, pos])</code></a></h3>
+
+
+<p>
+Removes from <code>list</code> the element at position <code>pos</code>,
+returning the value of the removed element.
+When <code>pos</code> is an integer between 1 and <code>#list</code>,
+it shifts down the elements
+<code>list[pos+1], list[pos+2], &middot;&middot;&middot;, list[#list]</code>
+and erases element <code>list[#list]</code>;
+The index <code>pos</code> can also be 0 when <code>#list</code> is 0,
+or <code>#list + 1</code>;
+in those cases, the function erases the element <code>list[pos]</code>.
+
+
+<p>
+The default value for <code>pos</code> is <code>#list</code>,
+so that a call <code>table.remove(l)</code> removes the last element
+of list <code>l</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-table.sort"><code>table.sort (list [, comp])</code></a></h3>
+
+
+<p>
+Sorts list elements in a given order, <em>in-place</em>,
+from <code>list[1]</code> to <code>list[#list]</code>.
+If <code>comp</code> is given,
+then it must be a function that receives two list elements
+and returns true when the first element must come
+before the second in the final order
+(so that <code>not comp(list[i+1],list[i])</code> will be true after the sort).
+If <code>comp</code> is not given,
+then the standard Lua operator <code>&lt;</code> is used instead.
+
+
+<p>
+The sort algorithm is not stable;
+that is, elements considered equal by the given order
+may have their relative positions changed by the sort.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-table.unpack"><code>table.unpack (list [, i [, j]])</code></a></h3>
+
+
+<p>
+Returns the elements from the given list.
+This function is equivalent to
+
+<pre>
+     return list[i], list[i+1], &middot;&middot;&middot;, list[j]
+</pre><p>
+By default, <code>i</code> is&nbsp;1 and <code>j</code> is <code>#list</code>.
+
+
+
+
+
+
+
+<h2>6.7 &ndash; <a name="6.7">Mathematical Functions</a></h2>
+
+<p>
+This library provides basic mathematical functions.
+It provides all its functions and constants inside the table <a name="pdf-math"><code>math</code></a>.
+Functions with the annotation "<code>integer/float</code>" give
+integer results for integer arguments
+and float results for float (or mixed) arguments.
+Rounding functions
+(<a href="#pdf-math.ceil"><code>math.ceil</code></a>, <a href="#pdf-math.floor"><code>math.floor</code></a>, and <a href="#pdf-math.modf"><code>math.modf</code></a>)
+return an integer when the result fits in the range of an integer,
+or a float otherwise.
+
+
+<p>
+<hr><h3><a name="pdf-math.abs"><code>math.abs (x)</code></a></h3>
+
+
+<p>
+Returns the absolute value of <code>x</code>. (integer/float)
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.acos"><code>math.acos (x)</code></a></h3>
+
+
+<p>
+Returns the arc cosine of <code>x</code> (in radians).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.asin"><code>math.asin (x)</code></a></h3>
+
+
+<p>
+Returns the arc sine of <code>x</code> (in radians).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.atan"><code>math.atan (y [, x])</code></a></h3>
+
+
+<p>
+
+Returns the arc tangent of <code>y/x</code> (in radians),
+but uses the signs of both parameters to find the
+quadrant of the result.
+(It also handles correctly the case of <code>x</code> being zero.)
+
+
+<p>
+The default value for <code>x</code> is 1,
+so that the call <code>math.atan(y)</code>
+returns the arc tangent of <code>y</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.ceil"><code>math.ceil (x)</code></a></h3>
+
+
+<p>
+Returns the smallest integral value larger than or equal to <code>x</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.cos"><code>math.cos (x)</code></a></h3>
+
+
+<p>
+Returns the cosine of <code>x</code> (assumed to be in radians).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.deg"><code>math.deg (x)</code></a></h3>
+
+
+<p>
+Converts the angle <code>x</code> from radians to degrees.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.exp"><code>math.exp (x)</code></a></h3>
+
+
+<p>
+Returns the value <em>e<sup>x</sup></em>
+(where <code>e</code> is the base of natural logarithms).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.floor"><code>math.floor (x)</code></a></h3>
+
+
+<p>
+Returns the largest integral value smaller than or equal to <code>x</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.fmod"><code>math.fmod (x, y)</code></a></h3>
+
+
+<p>
+Returns the remainder of the division of <code>x</code> by <code>y</code>
+that rounds the quotient towards zero. (integer/float)
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.huge"><code>math.huge</code></a></h3>
+
+
+<p>
+The float value <code>HUGE_VAL</code>,
+a value larger than any other numerical value.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.log"><code>math.log (x [, base])</code></a></h3>
+
+
+<p>
+Returns the logarithm of <code>x</code> in the given base.
+The default for <code>base</code> is <em>e</em>
+(so that the function returns the natural logarithm of <code>x</code>).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.max"><code>math.max (x, &middot;&middot;&middot;)</code></a></h3>
+
+
+<p>
+Returns the argument with the maximum value,
+according to the Lua operator <code>&lt;</code>. (integer/float)
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.maxinteger"><code>math.maxinteger</code></a></h3>
+An integer with the maximum value for an integer.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.min"><code>math.min (x, &middot;&middot;&middot;)</code></a></h3>
+
+
+<p>
+Returns the argument with the minimum value,
+according to the Lua operator <code>&lt;</code>. (integer/float)
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.mininteger"><code>math.mininteger</code></a></h3>
+An integer with the minimum value for an integer.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.modf"><code>math.modf (x)</code></a></h3>
+
+
+<p>
+Returns the integral part of <code>x</code> and the fractional part of <code>x</code>.
+Its second result is always a float.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.pi"><code>math.pi</code></a></h3>
+
+
+<p>
+The value of <em>&pi;</em>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.rad"><code>math.rad (x)</code></a></h3>
+
+
+<p>
+Converts the angle <code>x</code> from degrees to radians.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.random"><code>math.random ([m [, n]])</code></a></h3>
+
+
+<p>
+When called without arguments,
+returns a pseudo-random float with uniform distribution
+in the range  <em>[0,1)</em>.  
+When called with two integers <code>m</code> and <code>n</code>,
+<code>math.random</code> returns a pseudo-random integer
+with uniform distribution in the range <em>[m, n]</em>.
+(The value <em>m-n</em> cannot be negative and must fit in a Lua integer.)
+The call <code>math.random(n)</code> is equivalent to <code>math.random(1,n)</code>.
+
+
+<p>
+This function is an interface to the underling
+pseudo-random generator function provided by C.
+No guarantees can be given for its statistical properties.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.randomseed"><code>math.randomseed (x)</code></a></h3>
+
+
+<p>
+Sets <code>x</code> as the "seed"
+for the pseudo-random generator:
+equal seeds produce equal sequences of numbers.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.sin"><code>math.sin (x)</code></a></h3>
+
+
+<p>
+Returns the sine of <code>x</code> (assumed to be in radians).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.sqrt"><code>math.sqrt (x)</code></a></h3>
+
+
+<p>
+Returns the square root of <code>x</code>.
+(You can also use the expression <code>x^0.5</code> to compute this value.)
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.tan"><code>math.tan (x)</code></a></h3>
+
+
+<p>
+Returns the tangent of <code>x</code> (assumed to be in radians).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.tointeger"><code>math.tointeger (x)</code></a></h3>
+
+
+<p>
+If the value <code>x</code> is convertible to an integer,
+returns that integer.
+Otherwise, returns <b>nil</b>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.type"><code>math.type (x)</code></a></h3>
+
+
+<p>
+Returns "<code>integer</code>" if <code>x</code> is an integer,
+"<code>float</code>" if it is a float,
+or <b>nil</b> if <code>x</code> is not a number.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-math.ult"><code>math.ult (m, n)</code></a></h3>
+
+
+<p>
+Returns a boolean,
+true if integer <code>m</code> is below integer <code>n</code> when
+they are compared as unsigned integers.
+
+
+
+
+
+
+
+<h2>6.8 &ndash; <a name="6.8">Input and Output Facilities</a></h2>
+
+<p>
+The I/O library provides two different styles for file manipulation.
+The first one uses implicit file handles;
+that is, there are operations to set a default input file and a
+default output file,
+and all input/output operations are over these default files.
+The second style uses explicit file handles.
+
+
+<p>
+When using implicit file handles,
+all operations are supplied by table <a name="pdf-io"><code>io</code></a>.
+When using explicit file handles,
+the operation <a href="#pdf-io.open"><code>io.open</code></a> returns a file handle
+and then all operations are supplied as methods of the file handle.
+
+
+<p>
+The table <code>io</code> also provides
+three predefined file handles with their usual meanings from C:
+<a name="pdf-io.stdin"><code>io.stdin</code></a>, <a name="pdf-io.stdout"><code>io.stdout</code></a>, and <a name="pdf-io.stderr"><code>io.stderr</code></a>.
+The I/O library never closes these files.
+
+
+<p>
+Unless otherwise stated,
+all I/O functions return <b>nil</b> on failure
+(plus an error message as a second result and
+a system-dependent error code as a third result)
+and some value different from <b>nil</b> on success.
+On non-POSIX systems,
+the computation of the error message and error code
+in case of errors
+may be not thread safe,
+because they rely on the global C variable <code>errno</code>.
+
+
+<p>
+<hr><h3><a name="pdf-io.close"><code>io.close ([file])</code></a></h3>
+
+
+<p>
+Equivalent to <code>file:close()</code>.
+Without a <code>file</code>, closes the default output file.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-io.flush"><code>io.flush ()</code></a></h3>
+
+
+<p>
+Equivalent to <code>io.output():flush()</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-io.input"><code>io.input ([file])</code></a></h3>
+
+
+<p>
+When called with a file name, it opens the named file (in text mode),
+and sets its handle as the default input file.
+When called with a file handle,
+it simply sets this file handle as the default input file.
+When called without parameters,
+it returns the current default input file.
+
+
+<p>
+In case of errors this function raises the error,
+instead of returning an error code.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-io.lines"><code>io.lines ([filename &middot;&middot;&middot;])</code></a></h3>
+
+
+<p>
+Opens the given file name in read mode
+and returns an iterator function that
+works like <code>file:lines(&middot;&middot;&middot;)</code> over the opened file.
+When the iterator function detects the end of file,
+it returns no values (to finish the loop) and automatically closes the file.
+
+
+<p>
+The call <code>io.lines()</code> (with no file name) is equivalent
+to <code>io.input():lines("*l")</code>;
+that is, it iterates over the lines of the default input file.
+In this case it does not close the file when the loop ends.
+
+
+<p>
+In case of errors this function raises the error,
+instead of returning an error code.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-io.open"><code>io.open (filename [, mode])</code></a></h3>
+
+
+<p>
+This function opens a file,
+in the mode specified in the string <code>mode</code>.
+It returns a new file handle,
+or, in case of errors, <b>nil</b> plus an error message.
+
+
+<p>
+The <code>mode</code> string can be any of the following:
+
+<ul>
+<li><b>"<code>r</code>": </b> read mode (the default);</li>
+<li><b>"<code>w</code>": </b> write mode;</li>
+<li><b>"<code>a</code>": </b> append mode;</li>
+<li><b>"<code>r+</code>": </b> update mode, all previous data is preserved;</li>
+<li><b>"<code>w+</code>": </b> update mode, all previous data is erased;</li>
+<li><b>"<code>a+</code>": </b> append update mode, previous data is preserved,
+  writing is only allowed at the end of file.</li>
+</ul><p>
+The <code>mode</code> string can also have a '<code>b</code>' at the end,
+which is needed in some systems to open the file in binary mode.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-io.output"><code>io.output ([file])</code></a></h3>
+
+
+<p>
+Similar to <a href="#pdf-io.input"><code>io.input</code></a>, but operates over the default output file.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-io.popen"><code>io.popen (prog [, mode])</code></a></h3>
+
+
+<p>
+This function is system dependent and is not available
+on all platforms.
+
+
+<p>
+Starts program <code>prog</code> in a separated process and returns
+a file handle that you can use to read data from this program
+(if <code>mode</code> is <code>"r"</code>, the default)
+or to write data to this program
+(if <code>mode</code> is <code>"w"</code>).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-io.read"><code>io.read (&middot;&middot;&middot;)</code></a></h3>
+
+
+<p>
+Equivalent to <code>io.input():read(&middot;&middot;&middot;)</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-io.tmpfile"><code>io.tmpfile ()</code></a></h3>
+
+
+<p>
+Returns a handle for a temporary file.
+This file is opened in update mode
+and it is automatically removed when the program ends.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-io.type"><code>io.type (obj)</code></a></h3>
+
+
+<p>
+Checks whether <code>obj</code> is a valid file handle.
+Returns the string <code>"file"</code> if <code>obj</code> is an open file handle,
+<code>"closed file"</code> if <code>obj</code> is a closed file handle,
+or <b>nil</b> if <code>obj</code> is not a file handle.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-io.write"><code>io.write (&middot;&middot;&middot;)</code></a></h3>
+
+
+<p>
+Equivalent to <code>io.output():write(&middot;&middot;&middot;)</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-file:close"><code>file:close ()</code></a></h3>
+
+
+<p>
+Closes <code>file</code>.
+Note that files are automatically closed when
+their handles are garbage collected,
+but that takes an unpredictable amount of time to happen.
+
+
+<p>
+When closing a file handle created with <a href="#pdf-io.popen"><code>io.popen</code></a>,
+<a href="#pdf-file:close"><code>file:close</code></a> returns the same values
+returned by <a href="#pdf-os.execute"><code>os.execute</code></a>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-file:flush"><code>file:flush ()</code></a></h3>
+
+
+<p>
+Saves any written data to <code>file</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-file:lines"><code>file:lines (&middot;&middot;&middot;)</code></a></h3>
+
+
+<p>
+Returns an iterator function that,
+each time it is called,
+reads the file according to the given formats.
+When no format is given,
+uses "<code>l</code>" as a default.
+As an example, the construction
+
+<pre>
+     for c in file:lines(1) do <em>body</em> end
+</pre><p>
+will iterate over all characters of the file,
+starting at the current position.
+Unlike <a href="#pdf-io.lines"><code>io.lines</code></a>, this function does not close the file
+when the loop ends.
+
+
+<p>
+In case of errors this function raises the error,
+instead of returning an error code.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-file:read"><code>file:read (&middot;&middot;&middot;)</code></a></h3>
+
+
+<p>
+Reads the file <code>file</code>,
+according to the given formats, which specify what to read.
+For each format,
+the function returns a string or a number with the characters read,
+or <b>nil</b> if it cannot read data with the specified format.
+(In this latter case,
+the function does not read subsequent formats.)
+When called without formats,
+it uses a default format that reads the next line
+(see below).
+
+
+<p>
+The available formats are
+
+<ul>
+
+<li><b>"<code>n</code>": </b>
+reads a numeral and returns it as a float or an integer,
+following the lexical conventions of Lua.
+(The numeral may have leading spaces and a sign.)
+This format always reads the longest input sequence that
+is a valid prefix for a number;
+if that prefix does not form a valid number
+(e.g., an empty string, "<code>0x</code>", or "<code>3.4e-</code>"),
+it is discarded and the function returns <b>nil</b>.
+</li>
+
+<li><b>"<code>i</code>": </b>
+reads an integral number and returns it as an integer.
+</li>
+
+<li><b>"<code>a</code>": </b>
+reads the whole file, starting at the current position.
+On end of file, it returns the empty string.
+</li>
+
+<li><b>"<code>l</code>": </b>
+reads the next line skipping the end of line,
+returning <b>nil</b> on end of file.
+This is the default format.
+</li>
+
+<li><b>"<code>L</code>": </b>
+reads the next line keeping the end-of-line character (if present),
+returning <b>nil</b> on end of file.
+</li>
+
+<li><b><em>number</em>: </b>
+reads a string with up to this number of bytes,
+returning <b>nil</b> on end of file.
+If <code>number</code> is zero,
+it reads nothing and returns an empty string,
+or <b>nil</b> on end of file.
+</li>
+
+</ul><p>
+The formats "<code>l</code>" and "<code>L</code>" should be used only for text files.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-file:seek"><code>file:seek ([whence [, offset]])</code></a></h3>
+
+
+<p>
+Sets and gets the file position,
+measured from the beginning of the file,
+to the position given by <code>offset</code> plus a base
+specified by the string <code>whence</code>, as follows:
+
+<ul>
+<li><b>"<code>set</code>": </b> base is position 0 (beginning of the file);</li>
+<li><b>"<code>cur</code>": </b> base is current position;</li>
+<li><b>"<code>end</code>": </b> base is end of file;</li>
+</ul><p>
+In case of success, <code>seek</code> returns the final file position,
+measured in bytes from the beginning of the file.
+If <code>seek</code> fails, it returns <b>nil</b>,
+plus a string describing the error.
+
+
+<p>
+The default value for <code>whence</code> is <code>"cur"</code>,
+and for <code>offset</code> is 0.
+Therefore, the call <code>file:seek()</code> returns the current
+file position, without changing it;
+the call <code>file:seek("set")</code> sets the position to the
+beginning of the file (and returns 0);
+and the call <code>file:seek("end")</code> sets the position to the
+end of the file, and returns its size.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-file:setvbuf"><code>file:setvbuf (mode [, size])</code></a></h3>
+
+
+<p>
+Sets the buffering mode for an output file.
+There are three available modes:
+
+<ul>
+
+<li><b>"<code>no</code>": </b>
+no buffering; the result of any output operation appears immediately.
+</li>
+
+<li><b>"<code>full</code>": </b>
+full buffering; output operation is performed only
+when the buffer is full or when
+you explicitly <code>flush</code> the file (see <a href="#pdf-io.flush"><code>io.flush</code></a>).
+</li>
+
+<li><b>"<code>line</code>": </b>
+line buffering; output is buffered until a newline is output
+or there is any input from some special files
+(such as a terminal device).
+</li>
+
+</ul><p>
+For the last two cases, <code>size</code>
+specifies the size of the buffer, in bytes.
+The default is an appropriate size.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-file:write"><code>file:write (&middot;&middot;&middot;)</code></a></h3>
+
+
+<p>
+Writes the value of each of its arguments to <code>file</code>.
+The arguments must be strings or numbers.
+
+
+<p>
+In case of success, this function returns <code>file</code>.
+Otherwise it returns <b>nil</b> plus a string describing the error.
+
+
+
+
+
+
+
+<h2>6.9 &ndash; <a name="6.9">Operating System Facilities</a></h2>
+
+<p>
+This library is implemented through table <a name="pdf-os"><code>os</code></a>.
+
+
+<p>
+<hr><h3><a name="pdf-os.clock"><code>os.clock ()</code></a></h3>
+
+
+<p>
+Returns an approximation of the amount in seconds of CPU time
+used by the program.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-os.date"><code>os.date ([format [, time]])</code></a></h3>
+
+
+<p>
+Returns a string or a table containing date and time,
+formatted according to the given string <code>format</code>.
+
+
+<p>
+If the <code>time</code> argument is present,
+this is the time to be formatted
+(see the <a href="#pdf-os.time"><code>os.time</code></a> function for a description of this value).
+Otherwise, <code>date</code> formats the current time.
+
+
+<p>
+If <code>format</code> starts with '<code>!</code>',
+then the date is formatted in Coordinated Universal Time.
+After this optional character,
+if <code>format</code> is the string "<code>*t</code>",
+then <code>date</code> returns a table with the following fields:
+<code>year</code> (four digits), <code>month</code> (1&ndash;12), <code>day</code> (1&ndash;31),
+<code>hour</code> (0&ndash;23), <code>min</code> (0&ndash;59), <code>sec</code> (0&ndash;61),
+<code>wday</code> (weekday, Sunday is&nbsp;1),
+<code>yday</code> (day of the year),
+and <code>isdst</code> (daylight saving flag, a boolean).
+This last field may be absent
+if the information is not available.
+
+
+<p>
+If <code>format</code> is not "<code>*t</code>",
+then <code>date</code> returns the date as a string,
+formatted according to the same rules as the ISO&nbsp;C function <code>strftime</code>.
+
+
+<p>
+When called without arguments,
+<code>date</code> returns a reasonable date and time representation that depends on
+the host system and on the current locale
+(that is, <code>os.date()</code> is equivalent to <code>os.date("%c")</code>).
+
+
+<p>
+On non-POSIX systems,
+this function may be not thread safe
+because of its reliance on C&nbsp;function <code>gmtime</code> and C&nbsp;function <code>localtime</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-os.difftime"><code>os.difftime (t2, t1)</code></a></h3>
+
+
+<p>
+Returns the difference, in seconds,
+from time <code>t1</code> to time <code>t2</code>
+(where the times are values returned by <a href="#pdf-os.time"><code>os.time</code></a>).
+In POSIX, Windows, and some other systems,
+this value is exactly <code>t2</code><em>-</em><code>t1</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-os.execute"><code>os.execute ([command])</code></a></h3>
+
+
+<p>
+This function is equivalent to the ISO&nbsp;C function <code>system</code>.
+It passes <code>command</code> to be executed by an operating system shell.
+Its first result is <b>true</b>
+if the command terminated successfully,
+or <b>nil</b> otherwise.
+After this first result
+the function returns a string plus a number,
+as follows:
+
+<ul>
+
+<li><b>"<code>exit</code>": </b>
+the command terminated normally;
+the following number is the exit status of the command.
+</li>
+
+<li><b>"<code>signal</code>": </b>
+the command was terminated by a signal;
+the following number is the signal that terminated the command.
+</li>
+
+</ul>
+
+<p>
+When called without a <code>command</code>,
+<code>os.execute</code> returns a boolean that is true if a shell is available.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-os.exit"><code>os.exit ([code [, close]])</code></a></h3>
+
+
+<p>
+Calls the ISO&nbsp;C function <code>exit</code> to terminate the host program.
+If <code>code</code> is <b>true</b>,
+the returned status is <code>EXIT_SUCCESS</code>;
+if <code>code</code> is <b>false</b>,
+the returned status is <code>EXIT_FAILURE</code>;
+if <code>code</code> is a number,
+the returned status is this number.
+The default value for <code>code</code> is <b>true</b>.
+
+
+<p>
+If the optional second argument <code>close</code> is true,
+closes the Lua state before exiting.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-os.getenv"><code>os.getenv (varname)</code></a></h3>
+
+
+<p>
+Returns the value of the process environment variable <code>varname</code>,
+or <b>nil</b> if the variable is not defined.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-os.remove"><code>os.remove (filename)</code></a></h3>
+
+
+<p>
+Deletes the file (or empty directory, on POSIX systems)
+with the given name.
+If this function fails, it returns <b>nil</b>,
+plus a string describing the error and the error code.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-os.rename"><code>os.rename (oldname, newname)</code></a></h3>
+
+
+<p>
+Renames file or directory named <code>oldname</code> to <code>newname</code>.
+If this function fails, it returns <b>nil</b>,
+plus a string describing the error and the error code.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-os.setlocale"><code>os.setlocale (locale [, category])</code></a></h3>
+
+
+<p>
+Sets the current locale of the program.
+<code>locale</code> is a system-dependent string specifying a locale;
+<code>category</code> is an optional string describing which category to change:
+<code>"all"</code>, <code>"collate"</code>, <code>"ctype"</code>,
+<code>"monetary"</code>, <code>"numeric"</code>, or <code>"time"</code>;
+the default category is <code>"all"</code>.
+The function returns the name of the new locale,
+or <b>nil</b> if the request cannot be honored.
+
+
+<p>
+If <code>locale</code> is the empty string,
+the current locale is set to an implementation-defined native locale.
+If <code>locale</code> is the string "<code>C</code>",
+the current locale is set to the standard C locale.
+
+
+<p>
+When called with <b>nil</b> as the first argument,
+this function only returns the name of the current locale
+for the given category.
+
+
+<p>
+This function may be not thread safe
+because of its reliance on C&nbsp;function <code>setlocale</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-os.time"><code>os.time ([table])</code></a></h3>
+
+
+<p>
+Returns the current time when called without arguments,
+or a time representing the date and time specified by the given table.
+This table must have fields <code>year</code>, <code>month</code>, and <code>day</code>,
+and may have fields
+<code>hour</code> (default is 12),
+<code>min</code> (default is 0),
+<code>sec</code> (default is 0),
+and <code>isdst</code> (default is <b>nil</b>).
+For a description of these fields, see the <a href="#pdf-os.date"><code>os.date</code></a> function.
+
+
+<p>
+The returned value is a number, whose meaning depends on your system.
+In POSIX, Windows, and some other systems,
+this number counts the number
+of seconds since some given start time (the "epoch").
+In other systems, the meaning is not specified,
+and the number returned by <code>time</code> can be used only as an argument to
+<a href="#pdf-os.date"><code>os.date</code></a> and <a href="#pdf-os.difftime"><code>os.difftime</code></a>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-os.tmpname"><code>os.tmpname ()</code></a></h3>
+
+
+<p>
+Returns a string with a file name that can
+be used for a temporary file.
+The file must be explicitly opened before its use
+and explicitly removed when no longer needed.
+
+
+<p>
+On POSIX systems,
+this function also creates a file with that name,
+to avoid security risks.
+(Someone else might create the file with wrong permissions
+in the time between getting the name and creating the file.)
+You still have to open the file to use it
+and to remove it (even if you do not use it).
+
+
+<p>
+When possible,
+you may prefer to use <a href="#pdf-io.tmpfile"><code>io.tmpfile</code></a>,
+which automatically removes the file when the program ends.
+
+
+
+
+
+
+
+<h2>6.10 &ndash; <a name="6.10">The Debug Library</a></h2>
+
+<p>
+This library provides
+the functionality of the debug interface (<a href="#4.9">&sect;4.9</a>) to Lua programs.
+You should exert care when using this library.
+Several of its functions
+violate basic assumptions about Lua code
+(e.g., that variables local to a function
+cannot be accessed from outside;
+that userdata metatables cannot be changed by Lua code;
+that Lua programs do not crash)
+and therefore can compromise otherwise secure code.
+Moreover, some functions in this library may be slow.
+
+
+<p>
+All functions in this library are provided
+inside the <a name="pdf-debug"><code>debug</code></a> table.
+All functions that operate over a thread
+have an optional first argument which is the
+thread to operate over.
+The default is always the current thread.
+
+
+<p>
+<hr><h3><a name="pdf-debug.debug"><code>debug.debug ()</code></a></h3>
+
+
+<p>
+Enters an interactive mode with the user,
+running each string that the user enters.
+Using simple commands and other debug facilities,
+the user can inspect global and local variables,
+change their values, evaluate expressions, and so on.
+A line containing only the word <code>cont</code> finishes this function,
+so that the caller continues its execution.
+
+
+<p>
+Note that commands for <code>debug.debug</code> are not lexically nested
+within any function and so have no direct access to local variables.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.gethook"><code>debug.gethook ([thread])</code></a></h3>
+
+
+<p>
+Returns the current hook settings of the thread, as three values:
+the current hook function, the current hook mask,
+and the current hook count
+(as set by the <a href="#pdf-debug.sethook"><code>debug.sethook</code></a> function).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.getinfo"><code>debug.getinfo ([thread,] f [, what])</code></a></h3>
+
+
+<p>
+Returns a table with information about a function.
+You can give the function directly
+or you can give a number as the value of <code>f</code>,
+which means the function running at level <code>f</code> of the call stack
+of the given thread:
+level&nbsp;0 is the current function (<code>getinfo</code> itself);
+level&nbsp;1 is the function that called <code>getinfo</code>
+(except for tail calls, which do not count on the stack);
+and so on.
+If <code>f</code> is a number larger than the number of active functions,
+then <code>getinfo</code> returns <b>nil</b>.
+
+
+<p>
+The returned table can contain all the fields returned by <a href="#lua_getinfo"><code>lua_getinfo</code></a>,
+with the string <code>what</code> describing which fields to fill in.
+The default for <code>what</code> is to get all information available,
+except the table of valid lines.
+If present,
+the option '<code>f</code>'
+adds a field named <code>func</code> with the function itself.
+If present,
+the option '<code>L</code>'
+adds a field named <code>activelines</code> with the table of
+valid lines.
+
+
+<p>
+For instance, the expression <code>debug.getinfo(1,"n").name</code> returns
+a table with a name for the current function,
+if a reasonable name can be found,
+and the expression <code>debug.getinfo(print)</code>
+returns a table with all available information
+about the <a href="#pdf-print"><code>print</code></a> function.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.getlocal"><code>debug.getlocal ([thread,] f, local)</code></a></h3>
+
+
+<p>
+This function returns the name and the value of the local variable
+with index <code>local</code> of the function at level <code>f</code> of the stack.
+This function accesses not only explicit local variables,
+but also parameters, temporaries, etc.
+
+
+<p>
+The first parameter or local variable has index&nbsp;1, and so on,
+following the order that they are declared in the code,
+counting only the variables that are active
+in the current scope of the function.
+Negative indices refer to vararg parameters;
+-1 is the first vararg parameter.
+The function returns <b>nil</b> if there is no variable with the given index,
+and raises an error when called with a level out of range.
+(You can call <a href="#pdf-debug.getinfo"><code>debug.getinfo</code></a> to check whether the level is valid.)
+
+
+<p>
+Variable names starting with '<code>(</code>' (open parenthesis) 
+represent variables with no known names
+(internal variables such as loop control variables,
+and variables from chunks saved without debug information).
+
+
+<p>
+The parameter <code>f</code> may also be a function.
+In that case, <code>getlocal</code> returns only the name of function parameters.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.getmetatable"><code>debug.getmetatable (value)</code></a></h3>
+
+
+<p>
+Returns the metatable of the given <code>value</code>
+or <b>nil</b> if it does not have a metatable.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.getregistry"><code>debug.getregistry ()</code></a></h3>
+
+
+<p>
+Returns the registry table (see <a href="#4.5">&sect;4.5</a>).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.getupvalue"><code>debug.getupvalue (f, up)</code></a></h3>
+
+
+<p>
+This function returns the name and the value of the upvalue
+with index <code>up</code> of the function <code>f</code>.
+The function returns <b>nil</b> if there is no upvalue with the given index.
+
+
+<p>
+Variable names starting with '<code>(</code>' (open parenthesis) 
+represent variables with no known names
+(variables from chunks saved without debug information).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.getuservalue"><code>debug.getuservalue (u)</code></a></h3>
+
+
+<p>
+Returns the Lua value associated to <code>u</code>.
+If <code>u</code> is not a userdata,
+returns <b>nil</b>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.sethook"><code>debug.sethook ([thread,] hook, mask [, count])</code></a></h3>
+
+
+<p>
+Sets the given function as a hook.
+The string <code>mask</code> and the number <code>count</code> describe
+when the hook will be called.
+The string mask may have any combination of the following characters,
+with the given meaning:
+
+<ul>
+<li><b>'<code>c</code>': </b> the hook is called every time Lua calls a function;</li>
+<li><b>'<code>r</code>': </b> the hook is called every time Lua returns from a function;</li>
+<li><b>'<code>l</code>': </b> the hook is called every time Lua enters a new line of code.</li>
+</ul><p>
+Moreover,
+with a <code>count</code> different from zero,
+the hook is called also after every <code>count</code> instructions.
+
+
+<p>
+When called without arguments,
+<a href="#pdf-debug.sethook"><code>debug.sethook</code></a> turns off the hook.
+
+
+<p>
+When the hook is called, its first parameter is a string
+describing the event that has triggered its call:
+<code>"call"</code> (or <code>"tail call"</code>),
+<code>"return"</code>,
+<code>"line"</code>, and <code>"count"</code>.
+For line events,
+the hook also gets the new line number as its second parameter.
+Inside a hook,
+you can call <code>getinfo</code> with level&nbsp;2 to get more information about
+the running function
+(level&nbsp;0 is the <code>getinfo</code> function,
+and level&nbsp;1 is the hook function).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.setlocal"><code>debug.setlocal ([thread,] level, local, value)</code></a></h3>
+
+
+<p>
+This function assigns the value <code>value</code> to the local variable
+with index <code>local</code> of the function at level <code>level</code> of the stack.
+The function returns <b>nil</b> if there is no local
+variable with the given index,
+and raises an error when called with a <code>level</code> out of range.
+(You can call <code>getinfo</code> to check whether the level is valid.)
+Otherwise, it returns the name of the local variable.
+
+
+<p>
+See <a href="#pdf-debug.getlocal"><code>debug.getlocal</code></a> for more information about
+variable indices and names.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.setmetatable"><code>debug.setmetatable (value, table)</code></a></h3>
+
+
+<p>
+Sets the metatable for the given <code>value</code> to the given <code>table</code>
+(which can be <b>nil</b>).
+Returns <code>value</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.setupvalue"><code>debug.setupvalue (f, up, value)</code></a></h3>
+
+
+<p>
+This function assigns the value <code>value</code> to the upvalue
+with index <code>up</code> of the function <code>f</code>.
+The function returns <b>nil</b> if there is no upvalue
+with the given index.
+Otherwise, it returns the name of the upvalue.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.setuservalue"><code>debug.setuservalue (udata, value)</code></a></h3>
+
+
+<p>
+Sets the given <code>value</code> as
+the Lua value associated to the given <code>udata</code>.
+<code>udata</code> must be a full userdata.
+
+
+<p>
+Returns <code>udata</code>.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.traceback"><code>debug.traceback ([thread,] [message [, level]])</code></a></h3>
+
+
+<p>
+If <code>message</code> is present but is neither a string nor <b>nil</b>,
+this function returns <code>message</code> without further processing.
+Otherwise,
+it returns a string with a traceback of the call stack.
+The optional <code>message</code> string is appended
+at the beginning of the traceback.
+An optional <code>level</code> number tells at which level
+to start the traceback
+(default is 1, the function calling <code>traceback</code>).
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.upvalueid"><code>debug.upvalueid (f, n)</code></a></h3>
+
+
+<p>
+Returns a unique identifier (as a light userdata)
+for the upvalue numbered <code>n</code>
+from the given function.
+
+
+<p>
+These unique identifiers allow a program to check whether different
+closures share upvalues.
+Lua closures that share an upvalue
+(that is, that access a same external local variable)
+will return identical ids for those upvalue indices.
+
+
+
+
+<p>
+<hr><h3><a name="pdf-debug.upvaluejoin"><code>debug.upvaluejoin (f1, n1, f2, n2)</code></a></h3>
+
+
+<p>
+Make the <code>n1</code>-th upvalue of the Lua closure <code>f1</code>
+refer to the <code>n2</code>-th upvalue of the Lua closure <code>f2</code>.
+
+
+
+
+
+
+
+<h1>7 &ndash; <a name="7">Lua Standalone</a></h1>
+
+<p>
+Although Lua has been designed as an extension language,
+to be embedded in a host C&nbsp;program,
+it is also frequently used as a standalone language.
+An interpreter for Lua as a standalone language,
+called simply <code>lua</code>,
+is provided with the standard distribution.
+The standalone interpreter includes
+all standard libraries, including the debug library.
+Its usage is:
+
+<pre>
+     lua [options] [script [args]]
+</pre><p>
+The options are:
+
+<ul>
+<li><b><code>-e <em>stat</em></code>: </b> executes string <em>stat</em>;</li>
+<li><b><code>-l <em>mod</em></code>: </b> "requires" <em>mod</em>;</li>
+<li><b><code>-i</code>: </b> enters interactive mode after running <em>script</em>;</li>
+<li><b><code>-v</code>: </b> prints version information;</li>
+<li><b><code>-E</code>: </b> ignores environment variables;</li>
+<li><b><code>--</code>: </b> stops handling options;</li>
+<li><b><code>-</code>: </b> executes <code>stdin</code> as a file and stops handling options.</li>
+</ul><p>
+After handling its options, <code>lua</code> runs the given <em>script</em>.
+When called without arguments,
+<code>lua</code> behaves as <code>lua -v -i</code>
+when the standard input (<code>stdin</code>) is a terminal,
+and as <code>lua -</code> otherwise.
+
+
+<p>
+When called without option <code>-E</code>, 
+the interpreter checks for an environment variable <a name="pdf-LUA_INIT_5_3"><code>LUA_INIT_5_3</code></a>
+(or <a name="pdf-LUA_INIT"><code>LUA_INIT</code></a> if the versioned name is not defined)
+before running any argument.
+If the variable content has the format <code>@<em>filename</em></code>,
+then <code>lua</code> executes the file.
+Otherwise, <code>lua</code> executes the string itself.
+
+
+<p>
+When called with option <code>-E</code>,
+besides ignoring <code>LUA_INIT</code>,
+Lua also ignores
+the values of <code>LUA_PATH</code> and <code>LUA_CPATH</code>,
+setting the values of
+<a href="#pdf-package.path"><code>package.path</code></a> and <a href="#pdf-package.cpath"><code>package.cpath</code></a>
+with the default paths defined in <code>luaconf.h</code>.
+
+
+<p>
+All options are handled in order, except <code>-i</code> and <code>-E</code>.
+For instance, an invocation like
+
+<pre>
+     $ lua -e'a=1' -e 'print(a)' script.lua
+</pre><p>
+will first set <code>a</code> to 1, then print the value of <code>a</code>,
+and finally run the file <code>script.lua</code> with no arguments.
+(Here <code>$</code> is the shell prompt. Your prompt may be different.)
+
+
+<p>
+Before running any code,
+<code>lua</code> collects all command-line arguments
+in a global table called <code>arg</code>.
+The script name goes to index 0,
+the first argument after the script name goes to index 1,
+and so on.
+Any arguments before the script name
+(that is, the interpreter name plus its options)
+go to negative indices.
+For instance, in the call
+
+<pre>
+     $ lua -la b.lua t1 t2
+</pre><p>
+the table is like this:
+
+<pre>
+     arg = { [-2] = "lua", [-1] = "-la",
+             [0] = "b.lua",
+             [1] = "t1", [2] = "t2" }
+</pre><p>
+If there is no script in the call,
+the interpreter name goes to index 0,
+followed by the other arguments.
+For instance, the call
+
+<pre>
+     $ lua -e "print(arg[1])"
+</pre><p>
+will print "<code>-e</code>".
+If there is a script,
+the script is called with parameters
+<code>arg[1]</code>, &middot;&middot;&middot;, <code>arg[#arg]</code>.
+(Like all chunks in Lua,
+the script is compiled as a vararg function.)
+
+
+<p>
+In interactive mode,
+Lua repeatedly prompts and waits for a line.
+After reading a line,
+Lua first try to interpret the line as an expression.
+If it succeeds, it prints its value.
+Otherwise, it interprets the line as a statement.
+If you write an incomplete statement,
+the interpreter waits for its completion
+by issuing a different prompt.
+
+
+<p>
+In case of unprotected errors in the script,
+the interpreter reports the error to the standard error stream.
+If the error object is not a string but 
+has a metamethod <code>__tostring</code>,
+the interpreter calls this metamethod to produce the final message.
+Otherwise, the interpreter converts the error object to a string
+and adds a stack traceback to it.
+
+
+<p>
+When finishing normally,
+the interpreter closes its main Lua state
+(see <a href="#lua_close"><code>lua_close</code></a>).
+The script can avoid this step by
+calling <a href="#pdf-os.exit"><code>os.exit</code></a> to terminate.
+
+
+<p>
+To allow the use of Lua as a
+script interpreter in Unix systems,
+the standalone interpreter skips
+the first line of a chunk if it starts with <code>#</code>.
+Therefore, Lua scripts can be made into executable programs
+by using <code>chmod +x</code> and the&nbsp;<code>#!</code> form,
+as in
+
+<pre>
+     #!/usr/local/bin/lua
+</pre><p>
+(Of course,
+the location of the Lua interpreter may be different in your machine.
+If <code>lua</code> is in your <code>PATH</code>,
+then
+
+<pre>
+     #!/usr/bin/env lua
+</pre><p>
+is a more portable solution.)
+
+
+
+<h1>8 &ndash; <a name="8">Incompatibilities with the Previous Version</a></h1>
+
+<p>
+Here we list the incompatibilities that you may find when moving a program
+from Lua&nbsp;5.2 to Lua&nbsp;5.3.
+You can avoid some incompatibilities by compiling Lua with
+appropriate options (see file <code>luaconf.h</code>).
+However,
+all these compatibility options will be removed in the future.
+
+
+<p>
+Lua versions can always change the C API in ways that
+do not imply source-code changes in a program,
+such as the numeric values for constants
+or the implementation of functions as macros.
+Therefore,
+you should not assume that binaries are compatible between
+different Lua versions.
+Always recompile clients of the Lua API when
+using a new version.
+
+
+<p>
+Similarly, Lua versions can always change the internal representation
+of precompiled chunks;
+precompiled chunks are not compatible between different Lua versions.
+
+
+<p>
+The standard paths in the official distribution may
+change between versions.
+
+
+
+<h2>8.1 &ndash; <a name="8.1">Changes in the Language</a></h2>
+<ul>
+
+<li>
+The main difference between Lua&nbsp;5.2 and Lua&nbsp;5.3 is the
+introduction of an integer subtype for numbers.
+Although this change should not affect "normal" computations,
+some computations
+(mainly those that involve some kind of overflow)
+can give different results.
+
+
+<p>
+You can fix these differences by forcing a number to be a float
+(in Lua&nbsp;5.2 all numbers were float),
+in particular writing constants with an ending <code>.0</code>
+or using <code>x = x + 0.0</code> to convert a variable.
+(This recommendation is only for a quick fix
+for an occasional incompatibility;
+it is not a general guideline for good programming.
+For good programming,
+use floats where you need floats
+and integers where you need integers.)
+</li>
+
+<li>
+The conversion of a float to a string now adds a <code>.0</code> suffix
+to the result if it looks like an integer.
+(For instance, the float 2.0 will be printed as <code>2.0</code>,
+not as <code>2</code>.)
+You should always use an explicit format
+when you need a specific format for numbers.
+
+
+<p>
+(Formally this is not an incompatibility,
+because Lua does not specify how numbers are formatted as strings,
+but some programs assumed a specific format.)
+</li>
+
+<li>
+The generational mode for the garbage collector was removed.
+(It was an experimental feature in Lua&nbsp;5.2.)
+</li>
+
+</ul>
+
+
+
+
+<h2>8.2 &ndash; <a name="8.2">Changes in the Libraries</a></h2>
+<ul>
+
+<li>
+The <code>bit32</code> library has been deprecated.
+It is easy to require a compatible external library or,
+better yet, to replace its functions with appropriate bitwise operations.
+(Keep in mind that <code>bit32</code> operates on 32-bit integers,
+while the bitwise operators in standard Lua operate on 64-bit integers.)
+</li>
+
+<li>
+The Table library now respects metamethods
+for setting and getting elements.
+</li>
+
+<li>
+The <a href="#pdf-ipairs"><code>ipairs</code></a> iterator now respects metamethods and
+its <code>__ipairs</code> metamethod has been deprecated.
+</li>
+
+<li>
+Option names in <a href="#pdf-io.read"><code>io.read</code></a> do not have a starting '<code>*</code>' anymore.
+For compatibility, Lua will continue to ignore this character.
+</li>
+
+<li>
+The following functions were deprecated in the mathematical library:
+<code>atan2</code>, <code>cosh</code>, <code>sinh</code>, <code>tanh</code>, <code>pow</code>,
+<code>frexp</code>, and <code>ldexp</code>.
+You can replace <code>math.pow(x,y)</code> with <code>x^y</code>;
+you can replace <code>math.atan2</code> with <code>math.atan</code>,
+which now accepts one or two parameters;
+you can replace <code>math.ldexp(x,exp)</code> with <code>x * 2.0^exp</code>.
+For the other operations,
+you can either use an external library or
+implement them in Lua.
+</li>
+
+<li>
+The searcher for C loaders used by <a href="#pdf-require"><code>require</code></a>
+changed the way it handles versioned names.
+Now, the version should come after the module name
+(as is usual in most other tools).
+For compatibility, that searcher still tries the old format
+if it cannot find an open function according to the new style.
+(Lua&nbsp;5.2 already worked that way,
+but it did not document the change.)
+</li>
+
+</ul>
+
+
+
+
+<h2>8.3 &ndash; <a name="8.3">Changes in the API</a></h2>
+
+
+<ul>
+
+<li>
+Continuation functions now receive as parameters what they needed
+to get through <code>lua_getctx</code>,
+so <code>lua_getctx</code> has been removed.
+Adapt your code accordingly.
+</li>
+
+<li>
+Function <a href="#lua_dump"><code>lua_dump</code></a> has an extra parameter, <code>strip</code>.
+Use 0 as the value of this parameter to get the old behavior.
+</li>
+
+<li>
+Functions to inject/project unsigned integers
+(<code>lua_pushunsigned</code>, <code>lua_tounsigned</code>, <code>lua_tounsignedx</code>,
+<code>luaL_checkunsigned</code>, <code>luaL_optunsigned</code>)
+were deprecated.
+Use their signed equivalents with a type cast.
+</li>
+
+<li>
+Macros to project non-default integer types
+(<code>luaL_checkint</code>, <code>luaL_optint</code>, <code>luaL_checklong</code>, <code>luaL_optlong</code>)
+were deprecated.
+Use their equivalent over <a href="#lua_Integer"><code>lua_Integer</code></a> with a type cast
+(or, when possible, use <a href="#lua_Integer"><code>lua_Integer</code></a> in your code).
+</li>
+
+</ul>
+
+
+
+
+<h1>9 &ndash; <a name="9">The Complete Syntax of Lua</a></h1>
+
+<p>
+Here is the complete syntax of Lua in extended BNF.
+As usual in extended BNF,
+{A} means 0 or more As,
+and [A] means an optional A.
+(For operator precedences, see <a href="#3.4.8">&sect;3.4.8</a>;
+for a description of the terminals
+Name, Numeral,
+and LiteralString, see <a href="#3.1">&sect;3.1</a>.)
+
+
+
+
+<pre>
+
+	chunk ::= block
+
+	block ::= {stat} [retstat]
+
+	stat ::=  &lsquo;<b>;</b>&rsquo; | 
+		 varlist &lsquo;<b>=</b>&rsquo; explist | 
+		 functioncall | 
+		 label | 
+		 <b>break</b> | 
+		 <b>goto</b> Name | 
+		 <b>do</b> block <b>end</b> | 
+		 <b>while</b> exp <b>do</b> block <b>end</b> | 
+		 <b>repeat</b> block <b>until</b> exp | 
+		 <b>if</b> exp <b>then</b> block {<b>elseif</b> exp <b>then</b> block} [<b>else</b> block] <b>end</b> | 
+		 <b>for</b> Name &lsquo;<b>=</b>&rsquo; exp &lsquo;<b>,</b>&rsquo; exp [&lsquo;<b>,</b>&rsquo; exp] <b>do</b> block <b>end</b> | 
+		 <b>for</b> namelist <b>in</b> explist <b>do</b> block <b>end</b> | 
+		 <b>function</b> funcname funcbody | 
+		 <b>local</b> <b>function</b> Name funcbody | 
+		 <b>local</b> namelist [&lsquo;<b>=</b>&rsquo; explist] 
+
+	retstat ::= <b>return</b> [explist] [&lsquo;<b>;</b>&rsquo;]
+
+	label ::= &lsquo;<b>::</b>&rsquo; Name &lsquo;<b>::</b>&rsquo;
+
+	funcname ::= Name {&lsquo;<b>.</b>&rsquo; Name} [&lsquo;<b>:</b>&rsquo; Name]
+
+	varlist ::= var {&lsquo;<b>,</b>&rsquo; var}
+
+	var ::=  Name | prefixexp &lsquo;<b>[</b>&rsquo; exp &lsquo;<b>]</b>&rsquo; | prefixexp &lsquo;<b>.</b>&rsquo; Name 
+
+	namelist ::= Name {&lsquo;<b>,</b>&rsquo; Name}
+
+	explist ::= exp {&lsquo;<b>,</b>&rsquo; exp}
+
+	exp ::=  <b>nil</b> | <b>false</b> | <b>true</b> | Numeral | LiteralString | &lsquo;<b>...</b>&rsquo; | functiondef | 
+		 prefixexp | tableconstructor | exp binop exp | unop exp 
+
+	prefixexp ::= var | functioncall | &lsquo;<b>(</b>&rsquo; exp &lsquo;<b>)</b>&rsquo;
+
+	functioncall ::=  prefixexp args | prefixexp &lsquo;<b>:</b>&rsquo; Name args 
+
+	args ::=  &lsquo;<b>(</b>&rsquo; [explist] &lsquo;<b>)</b>&rsquo; | tableconstructor | LiteralString 
+
+	functiondef ::= <b>function</b> funcbody
+
+	funcbody ::= &lsquo;<b>(</b>&rsquo; [parlist] &lsquo;<b>)</b>&rsquo; block <b>end</b>
+
+	parlist ::= namelist [&lsquo;<b>,</b>&rsquo; &lsquo;<b>...</b>&rsquo;] | &lsquo;<b>...</b>&rsquo;
+
+	tableconstructor ::= &lsquo;<b>{</b>&rsquo; [fieldlist] &lsquo;<b>}</b>&rsquo;
+
+	fieldlist ::= field {fieldsep field} [fieldsep]
+
+	field ::= &lsquo;<b>[</b>&rsquo; exp &lsquo;<b>]</b>&rsquo; &lsquo;<b>=</b>&rsquo; exp | Name &lsquo;<b>=</b>&rsquo; exp | exp
+
+	fieldsep ::= &lsquo;<b>,</b>&rsquo; | &lsquo;<b>;</b>&rsquo;
+
+	binop ::=  &lsquo;<b>+</b>&rsquo; | &lsquo;<b>-</b>&rsquo; | &lsquo;<b>*</b>&rsquo; | &lsquo;<b>/</b>&rsquo; | &lsquo;<b>//</b>&rsquo; | &lsquo;<b>^</b>&rsquo; | &lsquo;<b>%</b>&rsquo; | 
+		 &lsquo;<b>&amp;</b>&rsquo; | &lsquo;<b>~</b>&rsquo; | &lsquo;<b>|</b>&rsquo; | &lsquo;<b>&gt;&gt;</b>&rsquo; | &lsquo;<b>&lt;&lt;</b>&rsquo; | &lsquo;<b>..</b>&rsquo; | 
+		 &lsquo;<b>&lt;</b>&rsquo; | &lsquo;<b>&lt;=</b>&rsquo; | &lsquo;<b>&gt;</b>&rsquo; | &lsquo;<b>&gt;=</b>&rsquo; | &lsquo;<b>==</b>&rsquo; | &lsquo;<b>~=</b>&rsquo; | 
+		 <b>and</b> | <b>or</b>
+
+	unop ::= &lsquo;<b>-</b>&rsquo; | <b>not</b> | &lsquo;<b>#</b>&rsquo; | &lsquo;<b>~</b>&rsquo;
+
+</pre>
+
+<p>
+
+
+
+
+
+
+
+
+<HR>
+<SMALL CLASS="footer">
+Last update:
+Fri Jan 16 00:58:20 BRST 2015
+</SMALL>
+<!--
+Last change: minor edit
+-->
+
+</div>
+
+<%		end;
+	}
+end
--- a/website/src/pil.html	Thu Apr 23 14:17:24 2015 -0600
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,27 +0,0 @@
-<!DOCTYPE html>
-<html lang="en">
-	<head>
-		<meta charset="utf-8">
-		<meta name="viewport" content="width=device-width, initial-scale=1">
-
-		<title>Programming in Lua</title>
-		
-		<link href="http://www.simplyhtml.org/assets/bootstrap/css/bootstrap.min.css" rel="stylesheet">
-		<link rel="stylesheet" href="http://www.simplyhtml.org/assets/font-awesome/css/font-awesome.min.css">
-		<script src="http://www.simplyhtml.org/assets/jquery/jquery.min.js"></script>
-
-		<link href="http://www.simplyhtml.org/assets/simplyhtml/simplyhtml.css" rel="stylesheet"/>
-		<script src="http://www.simplyhtml.org/assets/simplyhtml/simplyhtml.js"></script>
-	</head>
-	<body>
-		<div container>
-			<div><small><a href="/">Luan</a></small></div>
-			<h1 margin-bottom="1em">Programming in Lua</h1>
-
-			<p>Even though <a href="http://www.lua.org/pil/">Programming in Lua</a> is about Lua, not Luan, it still serves as an excellent introduction to Luan since the languages are so close.</p>
-
-		</div>
-		
-		<script src="http://www.simplyhtml.org/assets/bootstrap/js/bootstrap.min.js"></script>
-	</body>
-</html>
--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/website/src/pil.html.luan	Thu Apr 23 18:09:12 2015 -0600
@@ -0,0 +1,22 @@
+local Io = require "luan:Io"
+local Html = require "luan:Html"
+local Http = require "luan:web/Http"
+
+
+function service()
+	Io.stdout = Http.response.text_writer()
+	Html.simply_html_page{
+		head = function() %>
+			<title>Programming in Lua</title>
+<%		end;
+		body = function() %>
+		<div container>
+			<div><small><a href="/">Luan</a></small></div>
+			<h1 margin-bottom="1em">Programming in Lua</h1>
+
+			<p>Even though <a href="http://www.lua.org/pil/">Programming in Lua</a> is about Lua, not Luan, it still serves as an excellent introduction to Luan since the languages are so close.</p>
+
+		</div>
+<%		end;
+	}
+end
--- a/website/src/tutorial.html.luan	Thu Apr 23 14:17:24 2015 -0600
+++ b/website/src/tutorial.html.luan	Thu Apr 23 18:09:12 2015 -0600
@@ -2,9 +2,9 @@
 local Html = require "luan:Html"
 local Http = require "luan:web/Http"
 
+
 function service()
 	Io.stdout = Http.response.text_writer()
-	Io.stdout = Http.response.text_writer()
 	Html.simply_html_page{
 		head = function() %>
 			<title>Luan Tutorial</title>