cups/api-array.shtml - platform/external/libcups - Git at Google

 <!--
   Array API introduction for CUPS.

   Copyright 2007-2011 by Apple Inc.
   Copyright 1997-2006 by Easy Software Products, all rights reserved.

   These coded instructions, statements, and computer programs are the
   property of Apple Inc. and are protected by Federal copyright
   law.  Distribution and use rights are outlined in the file "LICENSE.txt"
   which should have been included with this file.  If this file is
   file is missing or damaged, see the license at "http://www.cups.org/".
 -->

 <h2 class='title'><a name='OVERVIEW'>Overview</a></h2>

 <p>The CUPS array API provides a high-performance generic array container.
 The contents of the array container can be sorted and the container itself is
 designed for optimal speed and memory usage under a wide variety of conditions.
 Sorted arrays use a binary search algorithm from the last found or inserted
 element to quickly find matching elements in the array. Arrays created with the
 optional hash function can often find elements with a single lookup. The
 <a href='#cups_array_t'><code>cups_array_t</code></a> type is used when
 referring to a CUPS array.</p>

 <p>The CUPS scheduler (<tt>cupsd</tt>) and many of the CUPS API
 functions use the array API to efficiently manage large lists of
 data.</p>

 <h3><a name='MANAGING_ARRAYS'>Managing Arrays</a></h3>

 <p>Arrays are created using either the
 <a href='#cupsArrayNew'><code>cupsArrayNew</code></a>,
 <a href='#cupsArrayNew2'><code>cupsArrayNew2</code></a>, or
 <a href='#cupsArrayNew2'><code>cupsArrayNew3</code></a> functions. The
 first function creates a new array with the specified callback function
 and user data pointer:</p>

 <pre class='example'>
 #include &lt;cups/array.h&gt;

 static int compare_func(void *first, void *second, void *user_data);

 void *user_data;
 <a href='#cups_array_t'>cups_array_t</a> *array = <a href='#cupsArrayNew'>cupsArrayNew</a>(compare_func, user_data);
 </pre>

 <p>The comparison function (type
 <a href="#cups_arrayfunc_t"><code>cups_arrayfunc_t</code></a>) is called
 whenever an element is added to the array and can be <code>NULL</code> to
 create an unsorted array. The function returns -1 if the first element should
 come before the second, 0 if the first and second elements should have the same
 ordering, and 1 if the first element should come after the second.</p>

 <p>The "user_data" pointer is passed to your comparison function. Pass
 <code>NULL</code> if you do not need to associate the elements in your array
 with additional information.</p>

 <p>The <a href='#cupsArrayNew2'><code>cupsArrayNew2</code></a> function adds
 two more arguments to support hashed lookups, which can potentially provide
 instantaneous ("O(1)") lookups in your array:</p>

 <pre class='example'>
 #include &lt;cups/array.h&gt;

 #define HASH_SIZE 512 /* Size of hash table */

 static int compare_func(void *first, void *second, void *user_data);
 static int hash_func(void *element, void *user_data);

 void *user_data;
 <a href='#cups_array_t'>cups_array_t</a> *hash_array = <a href='#cupsArrayNew2'>cupsArrayNew2</a>(compare_func, user_data, hash_func, HASH_SIZE);
 </pre>

 <p>The hash function (type
 <a href="#cups_ahash_func_t"><code>cups_ahash_func_t</code></a>) should return a
 number from 0 to (hash_size-1) that (hopefully) uniquely identifies the
 element and is called whenever you look up an element in the array with
 <a href='#cupsArrayFind'><code>cupsArrayFind</code></a>. The hash size is
 only limited by available memory, but generally should not be larger than
 16384 to realize any performance improvement.</p>

 <p>The <a href='#cupsArrayNew3'><code>cupsArrayNew3</code></a> function adds
 copy and free callbacks to support basic memory management of elements:</p>

 <pre class='example'>
 #include &lt;cups/array.h&gt;

 #define HASH_SIZE 512 /* Size of hash table */

 static int compare_func(void *first, void *second, void *user_data);
 static void *copy_func(void *element, void *user_data);
 static void free_func(void *element, void *user_data);
 static int hash_func(void *element, void *user_data);

 void *user_data;
 <a href='#cups_array_t'>cups_array_t</a> *array = <a href='#cupsArrayNew3'>cupsArrayNew3</a>(compare_func, user_data, NULL, 0, copy_func, free_func);

 <a href='#cups_array_t'>cups_array_t</a> *hash_array = <a href='#cupsArrayNew3'>cupsArrayNew3</a>(compare_func, user_data, hash_func, HASH_SIZE, copy_func, free_func);
 </pre>

 <p>Once you have created the array, you add elements using the
 <a href='#cupsArrayAdd'><code>cupsArrayAdd</code></a>
 <a href='#cupsArrayInsert'><code>cupsArrayInsert</code></a> functions.
 The first function adds an element to the array, adding the new element
 after any elements that have the same order, while the second inserts the
 element before others with the same order. For unsorted arrays,
 <a href='#cupsArrayAdd'><code>cupsArrayAdd</code></a> appends the element to
 the end of the array while
 <a href='#cupsArrayInsert'><code>cupsArrayInsert</code></a> inserts the
 element at the beginning of the array. For example, the following code
 creates a sorted array of character strings:</p>

 <pre class='example'>
 #include &lt;cups/array.h&gt;

 /* Use strcmp() to compare strings - it will ignore the user_data pointer */
 <a href='#cups_array_t'>cups_array_t</a> *array = <a href='#cupsArrayNew'>cupsArrayNew</a>((<a href='#cups_array_func_t'>cups_array_func_t</a>)strcmp, NULL);

 /* Add four strings to the array */
 <a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "One Fish");
 <a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Two Fish");
 <a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Red Fish");
 <a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Blue Fish");
 </pre>

 <p>Elements are removed using the
 <a href='#cupsArrayRemove'><code>cupsArrayRemove</code></a> function, for
 example:</p>

 <pre class='example'>
 #include &lt;cups/array.h&gt;

 /* Use strcmp() to compare strings - it will ignore the user_data pointer */
 <a href='#cups_array_t'>cups_array_t</a> *array = <a href='#cupsArrayNew'>cupsArrayNew</a>((<a href='#cups_array_func_t'>cups_array_func_t</a>)strcmp, NULL);

 /* Add four strings to the array */
 <a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "One Fish");
 <a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Two Fish");
 <a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Red Fish");
 <a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Blue Fish");

 /* Remove "Red Fish" */
 <a href='#cupsArrayRemove'>cupsArrayRemove</a>(array, "Red Fish");
 </pre>

 <p>Finally, you free the memory used by the array using the
 <a href='#cupsArrayDelete'><code>cupsArrayDelete</code></a> function. All
 of the memory for the array and hash table (if any) is freed, however <em>CUPS
 does not free the elements unless you provide copy and free functions</em>.</p>

 <h3><a name='FINDING_AND_ENUMERATING'>Finding and Enumerating Elements</a></h3>

 <p>CUPS provides several functions to find and enumerate elements in an
 array. Each one sets or updates a "current index" into the array, such that
 future lookups will start where the last one left off:</p>

 <dl>
 	<dt><a href='#cupsArrayFind'><code>cupsArrayFind</code></a></dt>
 	<dd>Returns the first matching element.</dd>
 	<dt><a href='#cupsArrayFirst'><code>cupsArrayFirst</code></a></dt>
 	<dd>Returns the first element in the array.</dd>
 	<dt><a href='#cupsArrayIndex'><code>cupsArrayIndex</code></a></dt>
 	<dd>Returns the Nth element in the array, starting at 0.</dd>
 	<dt><a href='#cupsArrayLast'><code>cupsArrayLast</code></a></dt>
 	<dd>Returns the last element in the array.</dd>
 	<dt><a href='#cupsArrayNext'><code>cupsArrayNext</code></a></dt>
 	<dd>Returns the next element in the array.</dd>
 	<dt><a href='#cupsArrayPrev'><code>cupsArrayPrev</code></a></dt>
 	<dd>Returns the previous element in the array.</dd>
 </dl>

 <p>Each of these functions returns <code>NULL</code> when there is no
 corresponding element.  For example, a simple <code>for</code> loop using the
 <a href='#cupsArrayFirst'><code>cupsArrayFirst</code></a> and
 <a href='#cupsArrayNext'><code>cupsArrayNext</code></a> functions will
 enumerate all of the strings in our previous example:</p>

 <pre class='example'>
 #include &lt;cups/array.h&gt;

 /* Use strcmp() to compare strings - it will ignore the user_data pointer */
 <a href='#cups_array_t'>cups_array_t</a> *array = <a href='#cupsArrayNew'>cupsArrayNew</a>((<a href='#cups_array_func_t'>cups_array_func_t</a>)strcmp, NULL);

 /* Add four strings to the array */
 <a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "One Fish");
 <a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Two Fish");
 <a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Red Fish");
 <a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Blue Fish");

 /* Show all of the strings in the array */
 char *s;
 for (s = (char *)<a href='#cupsArrayFirst'>cupsArrayFirst</a>(array); s != NULL; s = (char *)<a href='#cupsArrayNext'>cupsArrayNext</a>(array))
   puts(s);
 </pre>
	<!--
	Array API introduction for CUPS.

	Copyright 2007-2011 by Apple Inc.
	Copyright 1997-2006 by Easy Software Products, all rights reserved.

	These coded instructions, statements, and computer programs are the
	property of Apple Inc. and are protected by Federal copyright
	law. Distribution and use rights are outlined in the file "LICENSE.txt"
	which should have been included with this file. If this file is
	file is missing or damaged, see the license at "http://www.cups.org/".
	-->

	<h2 class='title'><a name='OVERVIEW'>Overview</a></h2>

	<p>The CUPS array API provides a high-performance generic array container.
	The contents of the array container can be sorted and the container itself is
	designed for optimal speed and memory usage under a wide variety of conditions.
	Sorted arrays use a binary search algorithm from the last found or inserted
	element to quickly find matching elements in the array. Arrays created with the
	optional hash function can often find elements with a single lookup. The
	<a href='#cups_array_t'><code>cups_array_t</code></a> type is used when
	referring to a CUPS array.</p>

	<p>The CUPS scheduler (<tt>cupsd</tt>) and many of the CUPS API
	functions use the array API to efficiently manage large lists of
	data.</p>

	<h3><a name='MANAGING_ARRAYS'>Managing Arrays</a></h3>

	<p>Arrays are created using either the
	<a href='#cupsArrayNew'><code>cupsArrayNew</code></a>,
	<a href='#cupsArrayNew2'><code>cupsArrayNew2</code></a>, or
	<a href='#cupsArrayNew2'><code>cupsArrayNew3</code></a> functions. The
	first function creates a new array with the specified callback function
	and user data pointer:</p>

	<pre class='example'>
	#include <cups/array.h>

	static int compare_func(void first, void second, void *user_data);

	void *user_data;
	<a href='#cups_array_t'>cups_array_t</a> *array = <a href='#cupsArrayNew'>cupsArrayNew</a>(compare_func, user_data);
	</pre>

	<p>The comparison function (type
	<a href="#cups_arrayfunc_t"><code>cups_arrayfunc_t</code></a>) is called
	whenever an element is added to the array and can be <code>NULL</code> to
	create an unsorted array. The function returns -1 if the first element should
	come before the second, 0 if the first and second elements should have the same
	ordering, and 1 if the first element should come after the second.</p>

	<p>The "user_data" pointer is passed to your comparison function. Pass
	<code>NULL</code> if you do not need to associate the elements in your array
	with additional information.</p>

	<p>The <a href='#cupsArrayNew2'><code>cupsArrayNew2</code></a> function adds
	two more arguments to support hashed lookups, which can potentially provide
	instantaneous ("O(1)") lookups in your array:</p>

	<pre class='example'>
	#include <cups/array.h>

	#define HASH_SIZE 512 /* Size of hash table */

	static int compare_func(void first, void second, void *user_data);
	static int hash_func(void element, void user_data);

	void *user_data;
	<a href='#cups_array_t'>cups_array_t</a> *hash_array = <a href='#cupsArrayNew2'>cupsArrayNew2</a>(compare_func, user_data, hash_func, HASH_SIZE);
	</pre>

	<p>The hash function (type
	<a href="#cups_ahash_func_t"><code>cups_ahash_func_t</code></a>) should return a
	number from 0 to (hash_size-1) that (hopefully) uniquely identifies the
	element and is called whenever you look up an element in the array with
	<a href='#cupsArrayFind'><code>cupsArrayFind</code></a>. The hash size is
	only limited by available memory, but generally should not be larger than
	16384 to realize any performance improvement.</p>

	<p>The <a href='#cupsArrayNew3'><code>cupsArrayNew3</code></a> function adds
	copy and free callbacks to support basic memory management of elements:</p>

	<pre class='example'>
	#include <cups/array.h>

	#define HASH_SIZE 512 /* Size of hash table */

	static int compare_func(void first, void second, void *user_data);
	static void copy_func(void element, void *user_data);
	static void free_func(void element, void user_data);
	static int hash_func(void element, void user_data);

	void *user_data;
	<a href='#cups_array_t'>cups_array_t</a> *array = <a href='#cupsArrayNew3'>cupsArrayNew3</a>(compare_func, user_data, NULL, 0, copy_func, free_func);

	<a href='#cups_array_t'>cups_array_t</a> *hash_array = <a href='#cupsArrayNew3'>cupsArrayNew3</a>(compare_func, user_data, hash_func, HASH_SIZE, copy_func, free_func);
	</pre>

	<p>Once you have created the array, you add elements using the
	<a href='#cupsArrayAdd'><code>cupsArrayAdd</code></a>
	<a href='#cupsArrayInsert'><code>cupsArrayInsert</code></a> functions.
	The first function adds an element to the array, adding the new element
	after any elements that have the same order, while the second inserts the
	element before others with the same order. For unsorted arrays,
	<a href='#cupsArrayAdd'><code>cupsArrayAdd</code></a> appends the element to
	the end of the array while
	<a href='#cupsArrayInsert'><code>cupsArrayInsert</code></a> inserts the
	element at the beginning of the array. For example, the following code
	creates a sorted array of character strings:</p>

	<pre class='example'>
	#include <cups/array.h>

	/* Use strcmp() to compare strings - it will ignore the user_data pointer */
	<a href='#cups_array_t'>cups_array_t</a> *array = <a href='#cupsArrayNew'>cupsArrayNew</a>((<a href='#cups_array_func_t'>cups_array_func_t</a>)strcmp, NULL);

	/* Add four strings to the array */
	<a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "One Fish");
	<a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Two Fish");
	<a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Red Fish");
	<a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Blue Fish");
	</pre>

	<p>Elements are removed using the
	<a href='#cupsArrayRemove'><code>cupsArrayRemove</code></a> function, for
	example:</p>

	<pre class='example'>
	#include <cups/array.h>

	/* Use strcmp() to compare strings - it will ignore the user_data pointer */
	<a href='#cups_array_t'>cups_array_t</a> *array = <a href='#cupsArrayNew'>cupsArrayNew</a>((<a href='#cups_array_func_t'>cups_array_func_t</a>)strcmp, NULL);

	/* Add four strings to the array */
	<a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "One Fish");
	<a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Two Fish");
	<a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Red Fish");
	<a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Blue Fish");

	/* Remove "Red Fish" */
	<a href='#cupsArrayRemove'>cupsArrayRemove</a>(array, "Red Fish");
	</pre>

	<p>Finally, you free the memory used by the array using the
	<a href='#cupsArrayDelete'><code>cupsArrayDelete</code></a> function. All
	of the memory for the array and hash table (if any) is freed, however <em>CUPS
	does not free the elements unless you provide copy and free functions</em>.</p>

	<h3><a name='FINDING_AND_ENUMERATING'>Finding and Enumerating Elements</a></h3>

	<p>CUPS provides several functions to find and enumerate elements in an
	array. Each one sets or updates a "current index" into the array, such that
	future lookups will start where the last one left off:</p>

	<dl>
	<dt><a href='#cupsArrayFind'><code>cupsArrayFind</code></a></dt>
	<dd>Returns the first matching element.</dd>
	<dt><a href='#cupsArrayFirst'><code>cupsArrayFirst</code></a></dt>
	<dd>Returns the first element in the array.</dd>
	<dt><a href='#cupsArrayIndex'><code>cupsArrayIndex</code></a></dt>
	<dd>Returns the Nth element in the array, starting at 0.</dd>
	<dt><a href='#cupsArrayLast'><code>cupsArrayLast</code></a></dt>
	<dd>Returns the last element in the array.</dd>
	<dt><a href='#cupsArrayNext'><code>cupsArrayNext</code></a></dt>
	<dd>Returns the next element in the array.</dd>
	<dt><a href='#cupsArrayPrev'><code>cupsArrayPrev</code></a></dt>
	<dd>Returns the previous element in the array.</dd>
	</dl>

	<p>Each of these functions returns <code>NULL</code> when there is no
	corresponding element. For example, a simple <code>for</code> loop using the
	<a href='#cupsArrayFirst'><code>cupsArrayFirst</code></a> and
	<a href='#cupsArrayNext'><code>cupsArrayNext</code></a> functions will
	enumerate all of the strings in our previous example:</p>

	<pre class='example'>
	#include <cups/array.h>

	/* Use strcmp() to compare strings - it will ignore the user_data pointer */
	<a href='#cups_array_t'>cups_array_t</a> *array = <a href='#cupsArrayNew'>cupsArrayNew</a>((<a href='#cups_array_func_t'>cups_array_func_t</a>)strcmp, NULL);

	/* Add four strings to the array */
	<a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "One Fish");
	<a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Two Fish");
	<a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Red Fish");
	<a href='#cupsArrayAdd'>cupsArrayAdd</a>(array, "Blue Fish");

	/* Show all of the strings in the array */
	char *s;
	for (s = (char )<a href='#cupsArrayFirst'>cupsArrayFirst</a>(array); s != NULL; s = (char )<a href='#cupsArrayNext'>cupsArrayNext</a>(array))
	puts(s);
	</pre>