ref: e40ae7569aa4ef591f66ff9066df2f91de75bb77
dir: /src/base/ftutil.c/
/**************************************************************************** * * ftutil.c * * FreeType utility file for memory and list management (body). * * Copyright (C) 2002-2021 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 <freetype/internal/ftdebug.h> #include <freetype/internal/ftmemory.h> #include <freetype/internal/ftobjs.h> #include <freetype/ftlist.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 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 && block && 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 ) error = FT_THROW( Out_Of_Memory ); } else if ( size < 0 ) { /* may help catch/prevent security issues */ error = FT_THROW( 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 && block && 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_THROW( 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_THROW( Array_Too_Large ); } else if ( cur_count == 0 ) { FT_ASSERT( !block ); block = memory->alloc( memory, new_count * item_size ); if ( block == NULL ) error = FT_THROW( Out_Of_Memory ); } 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 ) error = FT_THROW( 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, (FT_Long)size, &error ); if ( !error && address && size > 0 ) 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 list /* documentation is in ftlist.h */ FT_EXPORT_DEF( FT_ListNode ) FT_List_Find( FT_List list, void* data ) { FT_ListNode cur; if ( !list ) return NULL; cur = list->head; while ( cur ) { if ( cur->data == data ) return cur; cur = cur->next; } return NULL; } /* documentation is in ftlist.h */ FT_EXPORT_DEF( void ) FT_List_Add( FT_List list, FT_ListNode node ) { FT_ListNode before; if ( !list || !node ) return; before = list->tail; node->next = NULL; 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; if ( !list || !node ) return; after = list->head; node->next = after; node->prev = NULL; 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; if ( !list || !node ) return; 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; if ( !list || !node ) return; 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 = NULL; 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; FT_Error error = FT_Err_Ok; if ( !list || !iterator ) return FT_THROW( Invalid_Argument ); cur = list->head; 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; if ( !list || !memory ) return; 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 = NULL; list->tail = NULL; } /* END */