src/WinLibs/freetype-2.3.5/src/base/ftutil.c - vendor/opensource/projectM - Git at Google

 /***************************************************************************/
 /*                                                                         */
 /*  ftutil.c                                                               */
 /*                                                                         */
 /*    FreeType utility file for memory and list management (body).         */
 /*                                                                         */
 /*  Copyright 2002, 2004, 2005, 2006, 2007 by                              */
 /*  David Turner, Robert Wilhelm, and Werner Lemberg.                      */
 /*                                                                         */
 /*  This file is part of the FreeType project, and may only be used,       */
 /*  modified, and distributed under the terms of the FreeType project      */
 /*  license, LICENSE.TXT.  By continuing to use, modify, or distribute     */
 /*  this file you indicate that you have read the license and              */
 /*  understand and accept it fully.                                        */
 /*                                                                         */
 /***************************************************************************/


 #include <ft2build.h>
 #include FT_INTERNAL_DEBUG_H
 #include FT_INTERNAL_MEMORY_H
 #include FT_INTERNAL_OBJECTS_H
 #include FT_LIST_H


   /*************************************************************************/
   /*                                                                       */
   /* The macro FT_COMPONENT is used in trace mode.  It is an implicit      */
   /* parameter of the FT_TRACE() and FT_ERROR() macros, used to print/log  */
   /* messages during execution.                                            */
   /*                                                                       */
 #undef  FT_COMPONENT
 #define FT_COMPONENT  trace_memory


   /*************************************************************************/
   /*************************************************************************/
   /*************************************************************************/
   /*****                                                               *****/
   /*****                                                               *****/
   /*****               M E M O R Y   M A N A G E M E N T               *****/
   /*****                                                               *****/
   /*****                                                               *****/
   /*************************************************************************/
   /*************************************************************************/
   /*************************************************************************/


   FT_BASE_DEF( FT_Pointer )
   ft_mem_alloc( FT_Memory  memory,
                 FT_Long    size,
                 FT_Error  *p_error )
   {
     FT_Error    error;
     FT_Pointer  block = ft_mem_qalloc( memory, size, &error );

     if ( !error && size > 0 )
       FT_MEM_ZERO( block, size );

     *p_error = error;
     return block;
   }


   FT_BASE_DEF( FT_Pointer )
   ft_mem_qalloc( FT_Memory  memory,
                  FT_Long    size,
                  FT_Error  *p_error )
   {
     FT_Error    error = FT_Err_Ok;
     FT_Pointer  block = NULL;


     if ( size > 0 )
     {
       block = memory->alloc( memory, size );
       if ( block == NULL )
         error = FT_Err_Out_Of_Memory;
     }
     else if ( size < 0 )
     {
       /* may help catch/prevent security issues */
       error = FT_Err_Invalid_Argument;
     }

     *p_error = error;
     return block;
   }


   FT_BASE_DEF( FT_Pointer )
   ft_mem_realloc( FT_Memory  memory,
                   FT_Long    item_size,
                   FT_Long    cur_count,
                   FT_Long    new_count,
                   void*      block,
                   FT_Error  *p_error )
   {
     FT_Error  error = FT_Err_Ok;

     block = ft_mem_qrealloc( memory, item_size,
                              cur_count, new_count, block, &error );
     if ( !error && new_count > cur_count )
       FT_MEM_ZERO( (char*)block + cur_count * item_size,
                    ( new_count - cur_count ) * item_size );

     *p_error = error;
     return block;
   }


   FT_BASE_DEF( FT_Pointer )
   ft_mem_qrealloc( FT_Memory  memory,
                    FT_Long    item_size,
                    FT_Long    cur_count,
                    FT_Long    new_count,
                    void*      block,
                    FT_Error  *p_error )
   {
     FT_Error  error = FT_Err_Ok;


     /* Note that we now accept `item_size == 0' as a valid parameter, in
      * order to cover very weird cases where an ALLOC_MULT macro would be
      * called.
      */
     if ( cur_count < 0 || new_count < 0 || item_size < 0 )
     {
       /* may help catch/prevent nasty security issues */
       error = FT_Err_Invalid_Argument;
     }
     else if ( new_count == 0 || item_size == 0 )
     {
       ft_mem_free( memory, block );
       block = NULL;
     }
     else if ( new_count > FT_INT_MAX/item_size )
     {
       error = FT_Err_Array_Too_Large;
     }
     else if ( cur_count == 0 )
     {
       FT_ASSERT( block == NULL );

       block = ft_mem_alloc( memory, new_count*item_size, &error );
     }
     else
     {
       FT_Pointer  block2;
       FT_Long     cur_size = cur_count*item_size;
       FT_Long     new_size = new_count*item_size;


       block2 = memory->realloc( memory, cur_size, new_size, block );
       if ( block2 == NULL )
         error = FT_Err_Out_Of_Memory;
       else
         block = block2;
     }

     *p_error = error;
     return block;
   }


   FT_BASE_DEF( void )
   ft_mem_free( FT_Memory   memory,
                const void *P )
   {
     if ( P )
       memory->free( memory, (void*)P );
   }


   FT_BASE_DEF( FT_Pointer )
   ft_mem_dup( FT_Memory    memory,
               const void*  address,
               FT_ULong     size,
               FT_Error    *p_error )
   {
     FT_Error    error;
     FT_Pointer  p = ft_mem_qalloc( memory, size, &error );


     if ( !error && address )
       ft_memcpy( p, address, size );

     *p_error = error;
     return p;
   }


   FT_BASE_DEF( FT_Pointer )
   ft_mem_strdup( FT_Memory    memory,
                  const char*  str,
                  FT_Error    *p_error )
   {
     FT_ULong  len = str ? (FT_ULong)ft_strlen( str ) + 1
                         : 0;


     return ft_mem_dup( memory, str, len, p_error );
   }


   FT_BASE_DEF( FT_Int )
   ft_mem_strcpyn( char*        dst,
                   const char*  src,
                   FT_ULong     size )
   {
     while ( size > 1 && *src != 0 )
     {
       *dst++ = *src++;
       size--;
     }

     *dst = 0;  /* always zero-terminate */

     return *src != 0;
   }


   /*************************************************************************/
   /*************************************************************************/
   /*************************************************************************/
   /*****                                                               *****/
   /*****                                                               *****/
   /*****            D O U B L Y   L I N K E D   L I S T S              *****/
   /*****                                                               *****/
   /*****                                                               *****/
   /*************************************************************************/
   /*************************************************************************/
   /*************************************************************************/

 #undef  FT_COMPONENT
 #define FT_COMPONENT  trace_list

   /* documentation is in ftlist.h */

   FT_EXPORT_DEF( FT_ListNode )
   FT_List_Find( FT_List  list,
                 void*    data )
   {
     FT_ListNode  cur;


     cur = list->head;
     while ( cur )
     {
       if ( cur->data == data )
         return cur;

       cur = cur->next;
     }

     return (FT_ListNode)0;
   }


   /* documentation is in ftlist.h */

   FT_EXPORT_DEF( void )
   FT_List_Add( FT_List      list,
                FT_ListNode  node )
   {
     FT_ListNode  before = list->tail;


     node->next = 0;
     node->prev = before;

     if ( before )
       before->next = node;
     else
       list->head = node;

     list->tail = node;
   }


   /* documentation is in ftlist.h */

   FT_EXPORT_DEF( void )
   FT_List_Insert( FT_List      list,
                   FT_ListNode  node )
   {
     FT_ListNode  after = list->head;


     node->next = after;
     node->prev = 0;

     if ( !after )
       list->tail = node;
     else
       after->prev = node;

     list->head = node;
   }


   /* documentation is in ftlist.h */

   FT_EXPORT_DEF( void )
   FT_List_Remove( FT_List      list,
                   FT_ListNode  node )
   {
     FT_ListNode  before, after;


     before = node->prev;
     after  = node->next;

     if ( before )
       before->next = after;
     else
       list->head = after;

     if ( after )
       after->prev = before;
     else
       list->tail = before;
   }


   /* documentation is in ftlist.h */

   FT_EXPORT_DEF( void )
   FT_List_Up( FT_List      list,
               FT_ListNode  node )
   {
     FT_ListNode  before, after;


     before = node->prev;
     after  = node->next;

     /* check whether we are already on top of the list */
     if ( !before )
       return;

     before->next = after;

     if ( after )
       after->prev = before;
     else
       list->tail = before;

     node->prev       = 0;
     node->next       = list->head;
     list->head->prev = node;
     list->head       = node;
   }


   /* documentation is in ftlist.h */

   FT_EXPORT_DEF( FT_Error )
   FT_List_Iterate( FT_List            list,
                    FT_List_Iterator   iterator,
                    void*              user )
   {
     FT_ListNode  cur   = list->head;
     FT_Error     error = FT_Err_Ok;


     while ( cur )
     {
       FT_ListNode  next = cur->next;


       error = iterator( cur, user );
       if ( error )
         break;

       cur = next;
     }

     return error;
   }


   /* documentation is in ftlist.h */

   FT_EXPORT_DEF( void )
   FT_List_Finalize( FT_List             list,
                     FT_List_Destructor  destroy,
                     FT_Memory           memory,
                     void*               user )
   {
     FT_ListNode  cur;


     cur = list->head;
     while ( cur )
     {
       FT_ListNode  next = cur->next;
       void*        data = cur->data;


       if ( destroy )
         destroy( memory, data, user );

       FT_FREE( cur );
       cur = next;
     }

     list->head = 0;
     list->tail = 0;
   }


   FT_BASE_DEF( FT_UInt32 )
   ft_highpow2( FT_UInt32  value )
   {
     FT_UInt32  value2;


     /*
      *  We simply clear the lowest bit in each iteration.  When
      *  we reach 0, we know that the previous value was our result.
      */
     for ( ;; )
     {
       value2 = value & (value - 1);  /* clear lowest bit */
       if ( value2 == 0 )
         break;

       value = value2;
     }
     return value;
   }


 #ifdef FT_CONFIG_OPTION_OLD_INTERNALS

   FT_BASE_DEF( FT_Error )
   FT_Alloc( FT_Memory  memory,
             FT_Long    size,
             void*     *P )
   {
     FT_Error  error;


     (void)FT_ALLOC( *P, size );
     return error;
   }


   FT_BASE_DEF( FT_Error )
   FT_QAlloc( FT_Memory  memory,
              FT_Long    size,
              void*     *p )
   {
     FT_Error  error;


     (void)FT_QALLOC( *p, size );
     return error;
   }


   FT_BASE_DEF( FT_Error )
   FT_Realloc( FT_Memory  memory,
               FT_Long    current,
               FT_Long    size,
               void*     *P )
   {
     FT_Error  error;


     (void)FT_REALLOC( *P, current, size );
     return error;
   }


   FT_BASE_DEF( FT_Error )
   FT_QRealloc( FT_Memory  memory,
                FT_Long    current,
                FT_Long    size,
                void*     *p )
   {
     FT_Error  error;


     (void)FT_QREALLOC( *p, current, size );
     return error;
   }


   FT_BASE_DEF( void )
   FT_Free( FT_Memory  memory,
            void*     *P )
   {
     if ( *P )
       FT_MEM_FREE( *P );
   }

 #endif /* FT_CONFIG_OPTION_OLD_INTERNALS */

 /* END */
	/***************************************************************************/
	/* */
	/* ftutil.c */
	/* */
	/* FreeType utility file for memory and list management (body). */
	/* */
	/* Copyright 2002, 2004, 2005, 2006, 2007 by */
	/* David Turner, Robert Wilhelm, and Werner Lemberg. */
	/* */
	/* This file is part of the FreeType project, and may only be used, */
	/* modified, and distributed under the terms of the FreeType project */
	/* license, LICENSE.TXT. By continuing to use, modify, or distribute */
	/* this file you indicate that you have read the license and */
	/* understand and accept it fully. */
	/* */
	/***************************************************************************/


	#include <ft2build.h>
	#include FT_INTERNAL_DEBUG_H
	#include FT_INTERNAL_MEMORY_H
	#include FT_INTERNAL_OBJECTS_H
	#include FT_LIST_H


	/*************************************************************************/
	/* */
	/* The macro FT_COMPONENT is used in trace mode. It is an implicit */
	/* parameter of the FT_TRACE() and FT_ERROR() macros, used to print/log */
	/* messages during execution. */
	/* */
	#undef FT_COMPONENT
	#define FT_COMPONENT trace_memory


	/*************************************************************************/
	/*************************************************************************/
	/*************************************************************************/
	/*** ***/
	/*** ***/
	/*** M E M O R Y M A N A G E M E N T ***/
	/*** ***/
	/*** ***/
	/*************************************************************************/
	/*************************************************************************/
	/*************************************************************************/


	FT_BASE_DEF( FT_Pointer )
	ft_mem_alloc( FT_Memory memory,
	FT_Long size,
	FT_Error *p_error )
	{
	FT_Error error;
	FT_Pointer block = ft_mem_qalloc( memory, size, &error );

	if ( !error && size > 0 )
	FT_MEM_ZERO( block, size );

	*p_error = error;
	return block;
	}


	FT_BASE_DEF( FT_Pointer )
	ft_mem_qalloc( FT_Memory memory,
	FT_Long size,
	FT_Error *p_error )
	{
	FT_Error error = FT_Err_Ok;
	FT_Pointer block = NULL;


	if ( size > 0 )
	{
	block = memory->alloc( memory, size );
	if ( block == NULL )
	error = FT_Err_Out_Of_Memory;
	}
	else if ( size < 0 )
	{
	/* may help catch/prevent security issues */
	error = FT_Err_Invalid_Argument;
	}

	*p_error = error;
	return block;
	}


	FT_BASE_DEF( FT_Pointer )
	ft_mem_realloc( FT_Memory memory,
	FT_Long item_size,
	FT_Long cur_count,
	FT_Long new_count,
	void* block,
	FT_Error *p_error )
	{
	FT_Error error = FT_Err_Ok;

	block = ft_mem_qrealloc( memory, item_size,
	cur_count, new_count, block, &error );
	if ( !error && new_count > cur_count )
	FT_MEM_ZERO( (char)block + cur_count item_size,
	( new_count - cur_count ) * item_size );

	*p_error = error;
	return block;
	}


	FT_BASE_DEF( FT_Pointer )
	ft_mem_qrealloc( FT_Memory memory,
	FT_Long item_size,
	FT_Long cur_count,
	FT_Long new_count,
	void* block,
	FT_Error *p_error )
	{
	FT_Error error = FT_Err_Ok;


	/* Note that we now accept `item_size == 0' as a valid parameter, in
	* order to cover very weird cases where an ALLOC_MULT macro would be
	* called.
	*/
	if ( cur_count < 0 \|\| new_count < 0 \|\| item_size < 0 )
	{
	/* may help catch/prevent nasty security issues */
	error = FT_Err_Invalid_Argument;
	}
	else if ( new_count == 0 \|\| item_size == 0 )
	{
	ft_mem_free( memory, block );
	block = NULL;
	}
	else if ( new_count > FT_INT_MAX/item_size )
	{
	error = FT_Err_Array_Too_Large;
	}
	else if ( cur_count == 0 )
	{
	FT_ASSERT( block == NULL );

	block = ft_mem_alloc( memory, new_count*item_size, &error );
	}
	else
	{
	FT_Pointer block2;
	FT_Long cur_size = cur_count*item_size;
	FT_Long new_size = new_count*item_size;


	block2 = memory->realloc( memory, cur_size, new_size, block );
	if ( block2 == NULL )
	error = FT_Err_Out_Of_Memory;
	else
	block = block2;
	}

	*p_error = error;
	return block;
	}


	FT_BASE_DEF( void )
	ft_mem_free( FT_Memory memory,
	const void *P )
	{
	if ( P )
	memory->free( memory, (void*)P );
	}


	FT_BASE_DEF( FT_Pointer )
	ft_mem_dup( FT_Memory memory,
	const void* address,
	FT_ULong size,
	FT_Error *p_error )
	{
	FT_Error error;
	FT_Pointer p = ft_mem_qalloc( memory, size, &error );


	if ( !error && address )
	ft_memcpy( p, address, size );

	*p_error = error;
	return p;
	}


	FT_BASE_DEF( FT_Pointer )
	ft_mem_strdup( FT_Memory memory,
	const char* str,
	FT_Error *p_error )
	{
	FT_ULong len = str ? (FT_ULong)ft_strlen( str ) + 1
	: 0;


	return ft_mem_dup( memory, str, len, p_error );
	}


	FT_BASE_DEF( FT_Int )
	ft_mem_strcpyn( char* dst,
	const char* src,
	FT_ULong size )
	{
	while ( size > 1 && *src != 0 )
	{
	dst++ = src++;
	size--;
	}

	dst = 0; / always zero-terminate */

	return *src != 0;
	}


	/*************************************************************************/
	/*************************************************************************/
	/*************************************************************************/
	/*** ***/
	/*** ***/
	/*** D O U B L Y L I N K E D L I S T S ***/
	/*** ***/
	/*** ***/
	/*************************************************************************/
	/*************************************************************************/
	/*************************************************************************/

	#undef FT_COMPONENT
	#define FT_COMPONENT trace_list

	/* documentation is in ftlist.h */

	FT_EXPORT_DEF( FT_ListNode )
	FT_List_Find( FT_List list,
	void* data )
	{
	FT_ListNode cur;


	cur = list->head;
	while ( cur )
	{
	if ( cur->data == data )
	return cur;

	cur = cur->next;
	}

	return (FT_ListNode)0;
	}


	/* documentation is in ftlist.h */

	FT_EXPORT_DEF( void )
	FT_List_Add( FT_List list,
	FT_ListNode node )
	{
	FT_ListNode before = list->tail;


	node->next = 0;
	node->prev = before;

	if ( before )
	before->next = node;
	else
	list->head = node;

	list->tail = node;
	}


	/* documentation is in ftlist.h */

	FT_EXPORT_DEF( void )
	FT_List_Insert( FT_List list,
	FT_ListNode node )
	{
	FT_ListNode after = list->head;


	node->next = after;
	node->prev = 0;

	if ( !after )
	list->tail = node;
	else
	after->prev = node;

	list->head = node;
	}


	/* documentation is in ftlist.h */

	FT_EXPORT_DEF( void )
	FT_List_Remove( FT_List list,
	FT_ListNode node )
	{
	FT_ListNode before, after;


	before = node->prev;
	after = node->next;

	if ( before )
	before->next = after;
	else
	list->head = after;

	if ( after )
	after->prev = before;
	else
	list->tail = before;
	}


	/* documentation is in ftlist.h */

	FT_EXPORT_DEF( void )
	FT_List_Up( FT_List list,
	FT_ListNode node )
	{
	FT_ListNode before, after;


	before = node->prev;
	after = node->next;

	/* check whether we are already on top of the list */
	if ( !before )
	return;

	before->next = after;

	if ( after )
	after->prev = before;
	else
	list->tail = before;

	node->prev = 0;
	node->next = list->head;
	list->head->prev = node;
	list->head = node;
	}


	/* documentation is in ftlist.h */

	FT_EXPORT_DEF( FT_Error )
	FT_List_Iterate( FT_List list,
	FT_List_Iterator iterator,
	void* user )
	{
	FT_ListNode cur = list->head;
	FT_Error error = FT_Err_Ok;


	while ( cur )
	{
	FT_ListNode next = cur->next;


	error = iterator( cur, user );
	if ( error )
	break;

	cur = next;
	}

	return error;
	}


	/* documentation is in ftlist.h */

	FT_EXPORT_DEF( void )
	FT_List_Finalize( FT_List list,
	FT_List_Destructor destroy,
	FT_Memory memory,
	void* user )
	{
	FT_ListNode cur;


	cur = list->head;
	while ( cur )
	{
	FT_ListNode next = cur->next;
	void* data = cur->data;


	if ( destroy )
	destroy( memory, data, user );

	FT_FREE( cur );
	cur = next;
	}

	list->head = 0;
	list->tail = 0;
	}


	FT_BASE_DEF( FT_UInt32 )
	ft_highpow2( FT_UInt32 value )
	{
	FT_UInt32 value2;


	/*
	* We simply clear the lowest bit in each iteration. When
	* we reach 0, we know that the previous value was our result.
	*/
	for ( ;; )
	{
	value2 = value & (value - 1); /* clear lowest bit */
	if ( value2 == 0 )
	break;

	value = value2;
	}
	return value;
	}


	#ifdef FT_CONFIG_OPTION_OLD_INTERNALS

	FT_BASE_DEF( FT_Error )
	FT_Alloc( FT_Memory memory,
	FT_Long size,
	void* *P )
	{
	FT_Error error;


	(void)FT_ALLOC( *P, size );
	return error;
	}


	FT_BASE_DEF( FT_Error )
	FT_QAlloc( FT_Memory memory,
	FT_Long size,
	void* *p )
	{
	FT_Error error;


	(void)FT_QALLOC( *p, size );
	return error;
	}


	FT_BASE_DEF( FT_Error )
	FT_Realloc( FT_Memory memory,
	FT_Long current,
	FT_Long size,
	void* *P )
	{
	FT_Error error;


	(void)FT_REALLOC( *P, current, size );
	return error;
	}


	FT_BASE_DEF( FT_Error )
	FT_QRealloc( FT_Memory memory,
	FT_Long current,
	FT_Long size,
	void* *p )
	{
	FT_Error error;


	(void)FT_QREALLOC( *p, current, size );
	return error;
	}


	FT_BASE_DEF( void )
	FT_Free( FT_Memory memory,
	void* *P )
	{
	if ( *P )
	FT_MEM_FREE( *P );
	}

	#endif /* FT_CONFIG_OPTION_OLD_INTERNALS */

	/* END */