cups/testarray.c - platform/external/libcups - Git at Google

 /*
  * Array test program for CUPS.
  *
  * Copyright 2007-2014 by Apple Inc.
  * Copyright 1997-2006 by Easy Software Products.
  *
  * 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
  * missing or damaged, see the license at "http://www.cups.org/".
  *
  * This file is subject to the Apple OS-Developed Software exception.
  */

 /*
  * Include necessary headers...
  */

 #include "string-private.h"
 #include "debug-private.h"
 #include "array-private.h"
 #include "dir.h"


 /*
  * Local functions...
  */

 static double	get_seconds(void);
 static int	load_words(const char *filename, cups_array_t *array);


 /*
  * 'main()' - Main entry.
  */

 int					/* O - Exit status */
 main(void)
 {
   int		i;			/* Looping var */
   cups_array_t	*array,			/* Test array */
 		*dup_array;		/* Duplicate array */
   int		status;			/* Exit status */
   char		*text;			/* Text from array */
   char		word[256];		/* Word from file */
   double	start,			/* Start time */
 		end;			/* End time */
   cups_dir_t	*dir;			/* Current directory */
   cups_dentry_t	*dent;			/* Directory entry */
   char		*saved[32];		/* Saved entries */
   void		*data;			/* User data for arrays */


  /*
   * No errors so far...
   */

   status = 0;

  /*
   * cupsArrayNew()
   */

   fputs("cupsArrayNew: ", stdout);

   data  = (void *)"testarray";
   array = cupsArrayNew((cups_array_func_t)strcmp, data);

   if (array)
     puts("PASS");
   else
   {
     puts("FAIL (returned NULL, expected pointer)");
     status ++;
   }

  /*
   * cupsArrayUserData()
   */

   fputs("cupsArrayUserData: ", stdout);
   if (cupsArrayUserData(array) == data)
     puts("PASS");
   else
   {
     printf("FAIL (returned %p instead of %p!)\n", cupsArrayUserData(array),
            data);
     status ++;
   }

  /*
   * cupsArrayAdd()
   */

   fputs("cupsArrayAdd: ", stdout);

   if (!cupsArrayAdd(array, strdup("One Fish")))
   {
     puts("FAIL (\"One Fish\")");
     status ++;
   }
   else
   {
     if (!cupsArrayAdd(array, strdup("Two Fish")))
     {
       puts("FAIL (\"Two Fish\")");
       status ++;
     }
     else
     {
       if (!cupsArrayAdd(array, strdup("Red Fish")))
       {
 	puts("FAIL (\"Red Fish\")");
 	status ++;
       }
       else
       {
         if (!cupsArrayAdd(array, strdup("Blue Fish")))
 	{
 	  puts("FAIL (\"Blue Fish\")");
 	  status ++;
 	}
 	else
 	  puts("PASS");
       }
     }
   }

  /*
   * cupsArrayCount()
   */

   fputs("cupsArrayCount: ", stdout);
   if (cupsArrayCount(array) == 4)
     puts("PASS");
   else
   {
     printf("FAIL (returned %d, expected 4)\n", cupsArrayCount(array));
     status ++;
   }

  /*
   * cupsArrayFirst()
   */

   fputs("cupsArrayFirst: ", stdout);
   if ((text = (char *)cupsArrayFirst(array)) != NULL &&
       !strcmp(text, "Blue Fish"))
     puts("PASS");
   else
   {
     printf("FAIL (returned \"%s\", expected \"Blue Fish\")\n", text);
     status ++;
   }

  /*
   * cupsArrayNext()
   */

   fputs("cupsArrayNext: ", stdout);
   if ((text = (char *)cupsArrayNext(array)) != NULL &&
       !strcmp(text, "One Fish"))
     puts("PASS");
   else
   {
     printf("FAIL (returned \"%s\", expected \"One Fish\")\n", text);
     status ++;
   }

  /*
   * cupsArrayLast()
   */

   fputs("cupsArrayLast: ", stdout);
   if ((text = (char *)cupsArrayLast(array)) != NULL &&
       !strcmp(text, "Two Fish"))
     puts("PASS");
   else
   {
     printf("FAIL (returned \"%s\", expected \"Two Fish\")\n", text);
     status ++;
   }

  /*
   * cupsArrayPrev()
   */

   fputs("cupsArrayPrev: ", stdout);
   if ((text = (char *)cupsArrayPrev(array)) != NULL &&
       !strcmp(text, "Red Fish"))
     puts("PASS");
   else
   {
     printf("FAIL (returned \"%s\", expected \"Red Fish\")\n", text);
     status ++;
   }

  /*
   * cupsArrayFind()
   */

   fputs("cupsArrayFind: ", stdout);
   if ((text = (char *)cupsArrayFind(array, (void *)"One Fish")) != NULL &&
       !strcmp(text, "One Fish"))
     puts("PASS");
   else
   {
     printf("FAIL (returned \"%s\", expected \"One Fish\")\n", text);
     status ++;
   }

  /*
   * cupsArrayCurrent()
   */

   fputs("cupsArrayCurrent: ", stdout);
   if ((text = (char *)cupsArrayCurrent(array)) != NULL &&
       !strcmp(text, "One Fish"))
     puts("PASS");
   else
   {
     printf("FAIL (returned \"%s\", expected \"One Fish\")\n", text);
     status ++;
   }

  /*
   * cupsArrayDup()
   */

   fputs("cupsArrayDup: ", stdout);
   if ((dup_array = cupsArrayDup(array)) != NULL &&
       cupsArrayCount(dup_array) == 4)
     puts("PASS");
   else
   {
     printf("FAIL (returned %p with %d elements, expected pointer with 4 elements)\n",
            dup_array, cupsArrayCount(dup_array));
     status ++;
   }

  /*
   * cupsArrayRemove()
   */

   fputs("cupsArrayRemove: ", stdout);
   if (cupsArrayRemove(array, (void *)"One Fish") &&
       cupsArrayCount(array) == 3)
     puts("PASS");
   else
   {
     printf("FAIL (returned 0 with %d elements, expected 1 with 4 elements)\n",
            cupsArrayCount(array));
     status ++;
   }

  /*
   * cupsArrayClear()
   */

   fputs("cupsArrayClear: ", stdout);
   cupsArrayClear(array);
   if (cupsArrayCount(array) == 0)
     puts("PASS");
   else
   {
     printf("FAIL (%d elements, expected 0 elements)\n",
            cupsArrayCount(array));
     status ++;
   }

  /*
   * Now load this source file and grab all of the unique words...
   */

   fputs("Load unique words: ", stdout);
   fflush(stdout);

   start = get_seconds();

   if ((dir = cupsDirOpen(".")) == NULL)
   {
     puts("FAIL (cupsDirOpen failed)");
     status ++;
   }
   else
   {
     while ((dent = cupsDirRead(dir)) != NULL)
     {
       i = (int)strlen(dent->filename) - 2;

       if (i > 0 && dent->filename[i] == '.' &&
           (dent->filename[i + 1] == 'c' ||
 	   dent->filename[i + 1] == 'h'))
 	load_words(dent->filename, array);
     }

     cupsDirClose(dir);

     end = get_seconds();

     printf("%d words in %.3f seconds (%.0f words/sec), ", cupsArrayCount(array),
            end - start, cupsArrayCount(array) / (end - start));
     fflush(stdout);

     for (text = (char *)cupsArrayFirst(array); text;)
     {
      /*
       * Copy this word to the word buffer (safe because we strdup'd from
       * the same buffer in the first place... :)
       */

       strlcpy(word, text, sizeof(word));

      /*
       * Grab the next word and compare...
       */

       if ((text = (char *)cupsArrayNext(array)) == NULL)
 	break;

       if (strcmp(word, text) >= 0)
 	break;
     }

     if (text)
     {
       printf("FAIL (\"%s\" >= \"%s\"!)\n", word, text);
       status ++;
     }
     else
       puts("PASS");
   }

  /*
   * Test deleting with iteration...
   */

   fputs("Delete While Iterating: ", stdout);

   text = (char *)cupsArrayFirst(array);
   cupsArrayRemove(array, text);
   free(text);

   text = (char *)cupsArrayNext(array);
   if (!text)
   {
     puts("FAIL (cupsArrayNext returned NULL!)");
     status ++;
   }
   else
     puts("PASS");

  /*
   * Test save/restore...
   */

   fputs("cupsArraySave: ", stdout);

   for (i = 0, text = (char *)cupsArrayFirst(array);
        i < 32;
        i ++, text = (char *)cupsArrayNext(array))
   {
     saved[i] = text;

     if (!cupsArraySave(array))
       break;
   }

   if (i < 32)
     printf("FAIL (depth = %d)\n", i);
   else
     puts("PASS");

   fputs("cupsArrayRestore: ", stdout);

   while (i > 0)
   {
     i --;

     text = cupsArrayRestore(array);
     if (text != saved[i])
       break;
   }

   if (i)
     printf("FAIL (depth = %d)\n", i);
   else
     puts("PASS");

  /*
   * Delete the arrays...
   */

   cupsArrayDelete(array);
   cupsArrayDelete(dup_array);

  /*
   * Test the array with string functions...
   */

   fputs("_cupsArrayNewStrings(\" \\t\\nfoo bar\\tboo\\nfar\", ' '): ", stdout);
   array = _cupsArrayNewStrings(" \t\nfoo bar\tboo\nfar", ' ');
   if (!array)
   {
     status = 1;
     puts("FAIL (unable to create array)");
   }
   else if (cupsArrayCount(array) != 4)
   {
     status = 1;
     printf("FAIL (got %d elements, expected 4)\n", cupsArrayCount(array));
   }
   else if (strcmp(text = (char *)cupsArrayFirst(array), "bar"))
   {
     status = 1;
     printf("FAIL (first element \"%s\", expected \"bar\")\n", text);
   }
   else if (strcmp(text = (char *)cupsArrayNext(array), "boo"))
   {
     status = 1;
     printf("FAIL (first element \"%s\", expected \"boo\")\n", text);
   }
   else if (strcmp(text = (char *)cupsArrayNext(array), "far"))
   {
     status = 1;
     printf("FAIL (first element \"%s\", expected \"far\")\n", text);
   }
   else if (strcmp(text = (char *)cupsArrayNext(array), "foo"))
   {
     status = 1;
     printf("FAIL (first element \"%s\", expected \"foo\")\n", text);
   }
   else
     puts("PASS");

   fputs("_cupsArrayAddStrings(array, \"foo2,bar2\", ','): ", stdout);
   _cupsArrayAddStrings(array, "foo2,bar2", ',');

   if (cupsArrayCount(array) != 6)
   {
     status = 1;
     printf("FAIL (got %d elements, expected 6)\n", cupsArrayCount(array));
   }
   else if (strcmp(text = (char *)cupsArrayFirst(array), "bar"))
   {
     status = 1;
     printf("FAIL (first element \"%s\", expected \"bar\")\n", text);
   }
   else if (strcmp(text = (char *)cupsArrayNext(array), "bar2"))
   {
     status = 1;
     printf("FAIL (first element \"%s\", expected \"bar2\")\n", text);
   }
   else if (strcmp(text = (char *)cupsArrayNext(array), "boo"))
   {
     status = 1;
     printf("FAIL (first element \"%s\", expected \"boo\")\n", text);
   }
   else if (strcmp(text = (char *)cupsArrayNext(array), "far"))
   {
     status = 1;
     printf("FAIL (first element \"%s\", expected \"far\")\n", text);
   }
   else if (strcmp(text = (char *)cupsArrayNext(array), "foo"))
   {
     status = 1;
     printf("FAIL (first element \"%s\", expected \"foo\")\n", text);
   }
   else if (strcmp(text = (char *)cupsArrayNext(array), "foo2"))
   {
     status = 1;
     printf("FAIL (first element \"%s\", expected \"foo2\")\n", text);
   }
   else
     puts("PASS");

   cupsArrayDelete(array);

  /*
   * Summarize the results and return...
   */

   if (!status)
     puts("\nALL TESTS PASSED!");
   else
     printf("\n%d TEST(S) FAILED!\n", status);

   return (status);
 }


 /*
  * 'get_seconds()' - Get the current time in seconds...
  */

 #ifdef WIN32
 #  include <windows.h>


 static double
 get_seconds(void)
 {
 }
 #else
 #  include <sys/time.h>


 static double
 get_seconds(void)
 {
   struct timeval	curtime;	/* Current time */


   gettimeofday(&curtime, NULL);
   return (curtime.tv_sec + 0.000001 * curtime.tv_usec);
 }
 #endif /* WIN32 */


 /*
  * 'load_words()' - Load words from a file.
  */

 static int				/* O - 1 on success, 0 on failure */
 load_words(const char   *filename,	/* I - File to load */
            cups_array_t *array)		/* I - Array to add to */
 {
   FILE		*fp;			/* Test file */
   char		word[256];		/* Word from file */


   if ((fp = fopen(filename, "r")) == NULL)
   {
     perror(filename);
     return (0);
   }

   while (fscanf(fp, "%255s", word) == 1)
   {
     if (!cupsArrayFind(array, word))
       cupsArrayAdd(array, strdup(word));
   }

   fclose(fp);

   return (1);
 }
	/*
	* Array test program for CUPS.
	*
	* Copyright 2007-2014 by Apple Inc.
	* Copyright 1997-2006 by Easy Software Products.
	*
	* 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
	* missing or damaged, see the license at "http://www.cups.org/".
	*
	* This file is subject to the Apple OS-Developed Software exception.
	*/

	/*
	* Include necessary headers...
	*/

	#include "string-private.h"
	#include "debug-private.h"
	#include "array-private.h"
	#include "dir.h"


	/*
	* Local functions...
	*/

	static double get_seconds(void);
	static int load_words(const char filename, cups_array_t array);


	/*
	* 'main()' - Main entry.
	*/

	int /* O - Exit status */
	main(void)
	{
	int i; /* Looping var */
	cups_array_t array, / Test array */
	dup_array; / Duplicate array */
	int status; /* Exit status */
	char text; / Text from array */
	char word[256]; /* Word from file */
	double start, /* Start time */
	end; /* End time */
	cups_dir_t dir; / Current directory */
	cups_dentry_t dent; / Directory entry */
	char saved[32]; / Saved entries */
	void data; / User data for arrays */


	/*
	* No errors so far...
	*/

	status = 0;

	/*
	* cupsArrayNew()
	*/

	fputs("cupsArrayNew: ", stdout);

	data = (void *)"testarray";
	array = cupsArrayNew((cups_array_func_t)strcmp, data);

	if (array)
	puts("PASS");
	else
	{
	puts("FAIL (returned NULL, expected pointer)");
	status ++;
	}

	/*
	* cupsArrayUserData()
	*/

	fputs("cupsArrayUserData: ", stdout);
	if (cupsArrayUserData(array) == data)
	puts("PASS");
	else
	{
	printf("FAIL (returned %p instead of %p!)\n", cupsArrayUserData(array),
	data);
	status ++;
	}

	/*
	* cupsArrayAdd()
	*/

	fputs("cupsArrayAdd: ", stdout);

	if (!cupsArrayAdd(array, strdup("One Fish")))
	{
	puts("FAIL (\"One Fish\")");
	status ++;
	}
	else
	{
	if (!cupsArrayAdd(array, strdup("Two Fish")))
	{
	puts("FAIL (\"Two Fish\")");
	status ++;
	}
	else
	{
	if (!cupsArrayAdd(array, strdup("Red Fish")))
	{
	puts("FAIL (\"Red Fish\")");
	status ++;
	}
	else
	{
	if (!cupsArrayAdd(array, strdup("Blue Fish")))
	{
	puts("FAIL (\"Blue Fish\")");
	status ++;
	}
	else
	puts("PASS");
	}
	}
	}

	/*
	* cupsArrayCount()
	*/

	fputs("cupsArrayCount: ", stdout);
	if (cupsArrayCount(array) == 4)
	puts("PASS");
	else
	{
	printf("FAIL (returned %d, expected 4)\n", cupsArrayCount(array));
	status ++;
	}

	/*
	* cupsArrayFirst()
	*/

	fputs("cupsArrayFirst: ", stdout);
	if ((text = (char *)cupsArrayFirst(array)) != NULL &&
	!strcmp(text, "Blue Fish"))
	puts("PASS");
	else
	{
	printf("FAIL (returned \"%s\", expected \"Blue Fish\")\n", text);
	status ++;
	}

	/*
	* cupsArrayNext()
	*/

	fputs("cupsArrayNext: ", stdout);
	if ((text = (char *)cupsArrayNext(array)) != NULL &&
	!strcmp(text, "One Fish"))
	puts("PASS");
	else
	{
	printf("FAIL (returned \"%s\", expected \"One Fish\")\n", text);
	status ++;
	}

	/*
	* cupsArrayLast()
	*/

	fputs("cupsArrayLast: ", stdout);
	if ((text = (char *)cupsArrayLast(array)) != NULL &&
	!strcmp(text, "Two Fish"))
	puts("PASS");
	else
	{
	printf("FAIL (returned \"%s\", expected \"Two Fish\")\n", text);
	status ++;
	}

	/*
	* cupsArrayPrev()
	*/

	fputs("cupsArrayPrev: ", stdout);
	if ((text = (char *)cupsArrayPrev(array)) != NULL &&
	!strcmp(text, "Red Fish"))
	puts("PASS");
	else
	{
	printf("FAIL (returned \"%s\", expected \"Red Fish\")\n", text);
	status ++;
	}

	/*
	* cupsArrayFind()
	*/

	fputs("cupsArrayFind: ", stdout);
	if ((text = (char )cupsArrayFind(array, (void )"One Fish")) != NULL &&
	!strcmp(text, "One Fish"))
	puts("PASS");
	else
	{
	printf("FAIL (returned \"%s\", expected \"One Fish\")\n", text);
	status ++;
	}

	/*
	* cupsArrayCurrent()
	*/

	fputs("cupsArrayCurrent: ", stdout);
	if ((text = (char *)cupsArrayCurrent(array)) != NULL &&
	!strcmp(text, "One Fish"))
	puts("PASS");
	else
	{
	printf("FAIL (returned \"%s\", expected \"One Fish\")\n", text);
	status ++;
	}

	/*
	* cupsArrayDup()
	*/

	fputs("cupsArrayDup: ", stdout);
	if ((dup_array = cupsArrayDup(array)) != NULL &&
	cupsArrayCount(dup_array) == 4)
	puts("PASS");
	else
	{
	printf("FAIL (returned %p with %d elements, expected pointer with 4 elements)\n",
	dup_array, cupsArrayCount(dup_array));
	status ++;
	}

	/*
	* cupsArrayRemove()
	*/

	fputs("cupsArrayRemove: ", stdout);
	if (cupsArrayRemove(array, (void *)"One Fish") &&
	cupsArrayCount(array) == 3)
	puts("PASS");
	else
	{
	printf("FAIL (returned 0 with %d elements, expected 1 with 4 elements)\n",
	cupsArrayCount(array));
	status ++;
	}

	/*
	* cupsArrayClear()
	*/

	fputs("cupsArrayClear: ", stdout);
	cupsArrayClear(array);
	if (cupsArrayCount(array) == 0)
	puts("PASS");
	else
	{
	printf("FAIL (%d elements, expected 0 elements)\n",
	cupsArrayCount(array));
	status ++;
	}

	/*
	* Now load this source file and grab all of the unique words...
	*/

	fputs("Load unique words: ", stdout);
	fflush(stdout);

	start = get_seconds();

	if ((dir = cupsDirOpen(".")) == NULL)
	{
	puts("FAIL (cupsDirOpen failed)");
	status ++;
	}
	else
	{
	while ((dent = cupsDirRead(dir)) != NULL)
	{
	i = (int)strlen(dent->filename) - 2;

	if (i > 0 && dent->filename[i] == '.' &&
	(dent->filename[i + 1] == 'c' \|\|
	dent->filename[i + 1] == 'h'))
	load_words(dent->filename, array);
	}

	cupsDirClose(dir);

	end = get_seconds();

	printf("%d words in %.3f seconds (%.0f words/sec), ", cupsArrayCount(array),
	end - start, cupsArrayCount(array) / (end - start));
	fflush(stdout);

	for (text = (char *)cupsArrayFirst(array); text;)
	{
	/*
	* Copy this word to the word buffer (safe because we strdup'd from
	* the same buffer in the first place... :)
	*/

	strlcpy(word, text, sizeof(word));

	/*
	* Grab the next word and compare...
	*/

	if ((text = (char *)cupsArrayNext(array)) == NULL)
	break;

	if (strcmp(word, text) >= 0)
	break;
	}

	if (text)
	{
	printf("FAIL (\"%s\" >= \"%s\"!)\n", word, text);
	status ++;
	}
	else
	puts("PASS");
	}

	/*
	* Test deleting with iteration...
	*/

	fputs("Delete While Iterating: ", stdout);

	text = (char *)cupsArrayFirst(array);
	cupsArrayRemove(array, text);
	free(text);

	text = (char *)cupsArrayNext(array);
	if (!text)
	{
	puts("FAIL (cupsArrayNext returned NULL!)");
	status ++;
	}
	else
	puts("PASS");

	/*
	* Test save/restore...
	*/

	fputs("cupsArraySave: ", stdout);

	for (i = 0, text = (char *)cupsArrayFirst(array);
	i < 32;
	i ++, text = (char *)cupsArrayNext(array))
	{
	saved[i] = text;

	if (!cupsArraySave(array))
	break;
	}

	if (i < 32)
	printf("FAIL (depth = %d)\n", i);
	else
	puts("PASS");

	fputs("cupsArrayRestore: ", stdout);

	while (i > 0)
	{
	i --;

	text = cupsArrayRestore(array);
	if (text != saved[i])
	break;
	}

	if (i)
	printf("FAIL (depth = %d)\n", i);
	else
	puts("PASS");

	/*
	* Delete the arrays...
	*/

	cupsArrayDelete(array);
	cupsArrayDelete(dup_array);

	/*
	* Test the array with string functions...
	*/

	fputs("_cupsArrayNewStrings(\" \\t\\nfoo bar\\tboo\\nfar\", ' '): ", stdout);
	array = _cupsArrayNewStrings(" \t\nfoo bar\tboo\nfar", ' ');
	if (!array)
	{
	status = 1;
	puts("FAIL (unable to create array)");
	}
	else if (cupsArrayCount(array) != 4)
	{
	status = 1;
	printf("FAIL (got %d elements, expected 4)\n", cupsArrayCount(array));
	}
	else if (strcmp(text = (char *)cupsArrayFirst(array), "bar"))
	{
	status = 1;
	printf("FAIL (first element \"%s\", expected \"bar\")\n", text);
	}
	else if (strcmp(text = (char *)cupsArrayNext(array), "boo"))
	{
	status = 1;
	printf("FAIL (first element \"%s\", expected \"boo\")\n", text);
	}
	else if (strcmp(text = (char *)cupsArrayNext(array), "far"))
	{
	status = 1;
	printf("FAIL (first element \"%s\", expected \"far\")\n", text);
	}
	else if (strcmp(text = (char *)cupsArrayNext(array), "foo"))
	{
	status = 1;
	printf("FAIL (first element \"%s\", expected \"foo\")\n", text);
	}
	else
	puts("PASS");

	fputs("_cupsArrayAddStrings(array, \"foo2,bar2\", ','): ", stdout);
	_cupsArrayAddStrings(array, "foo2,bar2", ',');

	if (cupsArrayCount(array) != 6)
	{
	status = 1;
	printf("FAIL (got %d elements, expected 6)\n", cupsArrayCount(array));
	}
	else if (strcmp(text = (char *)cupsArrayFirst(array), "bar"))
	{
	status = 1;
	printf("FAIL (first element \"%s\", expected \"bar\")\n", text);
	}
	else if (strcmp(text = (char *)cupsArrayNext(array), "bar2"))
	{
	status = 1;
	printf("FAIL (first element \"%s\", expected \"bar2\")\n", text);
	}
	else if (strcmp(text = (char *)cupsArrayNext(array), "boo"))
	{
	status = 1;
	printf("FAIL (first element \"%s\", expected \"boo\")\n", text);
	}
	else if (strcmp(text = (char *)cupsArrayNext(array), "far"))
	{
	status = 1;
	printf("FAIL (first element \"%s\", expected \"far\")\n", text);
	}
	else if (strcmp(text = (char *)cupsArrayNext(array), "foo"))
	{
	status = 1;
	printf("FAIL (first element \"%s\", expected \"foo\")\n", text);
	}
	else if (strcmp(text = (char *)cupsArrayNext(array), "foo2"))
	{
	status = 1;
	printf("FAIL (first element \"%s\", expected \"foo2\")\n", text);
	}
	else
	puts("PASS");

	cupsArrayDelete(array);

	/*
	* Summarize the results and return...
	*/

	if (!status)
	puts("\nALL TESTS PASSED!");
	else
	printf("\n%d TEST(S) FAILED!\n", status);

	return (status);
	}


	/*
	* 'get_seconds()' - Get the current time in seconds...
	*/

	#ifdef WIN32
	# include <windows.h>


	static double
	get_seconds(void)
	{
	}
	#else
	# include <sys/time.h>


	static double
	get_seconds(void)
	{
	struct timeval curtime; /* Current time */


	gettimeofday(&curtime, NULL);
	return (curtime.tv_sec + 0.000001 * curtime.tv_usec);
	}
	#endif /* WIN32 */


	/*
	* 'load_words()' - Load words from a file.
	*/

	static int /* O - 1 on success, 0 on failure */
	load_words(const char filename, / I - File to load */
	cups_array_t array) / I - Array to add to */
	{
	FILE fp; / Test file */
	char word[256]; /* Word from file */


	if ((fp = fopen(filename, "r")) == NULL)
	{
	perror(filename);
	return (0);
	}

	while (fscanf(fp, "%255s", word) == 1)
	{
	if (!cupsArrayFind(array, word))
	cupsArrayAdd(array, strdup(word));
	}

	fclose(fp);

	return (1);
	}