1 /***************************************************************************/ 2 /* */ 3 /* ftmemory.h */ 4 /* */ 5 /* The FreeType memory management macros (specification). */ 6 /* */ 7 /* Copyright 1996-2018 by */ 8 /* David Turner, Robert Wilhelm, and Werner Lemberg */ 9 /* */ 10 /* This file is part of the FreeType project, and may only be used, */ 11 /* modified, and distributed under the terms of the FreeType project */ 12 /* license, LICENSE.TXT. By continuing to use, modify, or distribute */ 13 /* this file you indicate that you have read the license and */ 14 /* understand and accept it fully. */ 15 /* */ 16 /***************************************************************************/ 17 18 19 #ifndef FTMEMORY_H_ 20 #define FTMEMORY_H_ 21 22 23 #include <ft2build.h> 24 #include FT_CONFIG_CONFIG_H 25 #include FT_TYPES_H 26 27 28 FT_BEGIN_HEADER 29 30 31 /*************************************************************************/ 32 /* */ 33 /* <Macro> */ 34 /* FT_SET_ERROR */ 35 /* */ 36 /* <Description> */ 37 /* This macro is used to set an implicit `error' variable to a given */ 38 /* expression's value (usually a function call), and convert it to a */ 39 /* boolean which is set whenever the value is != 0. */ 40 /* */ 41 #undef FT_SET_ERROR 42 #define FT_SET_ERROR( expression ) \ 43 ( ( error = (expression) ) != 0 ) 44 45 46 47 /*************************************************************************/ 48 /*************************************************************************/ 49 /*************************************************************************/ 50 /**** ****/ 51 /**** ****/ 52 /**** M E M O R Y ****/ 53 /**** ****/ 54 /**** ****/ 55 /*************************************************************************/ 56 /*************************************************************************/ 57 /*************************************************************************/ 58 59 60 /* 61 * C++ refuses to handle statements like p = (void*)anything, with `p' a 62 * typed pointer. Since we don't have a `typeof' operator in standard 63 * C++, we have to use a template to emulate it. 64 */ 65 66 #ifdef __cplusplus 67 68 extern "C++" 69 { 70 template <typename T> inline T* cplusplus_typeof(T *,void * v)71 cplusplus_typeof( T*, 72 void *v ) 73 { 74 return static_cast <T*> ( v ); 75 } 76 } 77 78 #define FT_ASSIGNP( p, val ) (p) = cplusplus_typeof( (p), (val) ) 79 80 #else 81 82 #define FT_ASSIGNP( p, val ) (p) = (val) 83 84 #endif 85 86 87 88 #ifdef FT_DEBUG_MEMORY 89 90 FT_BASE( const char* ) _ft_debug_file; 91 FT_BASE( long ) _ft_debug_lineno; 92 93 #define FT_DEBUG_INNER( exp ) ( _ft_debug_file = __FILE__, \ 94 _ft_debug_lineno = __LINE__, \ 95 (exp) ) 96 97 #define FT_ASSIGNP_INNER( p, exp ) ( _ft_debug_file = __FILE__, \ 98 _ft_debug_lineno = __LINE__, \ 99 FT_ASSIGNP( p, exp ) ) 100 101 #else /* !FT_DEBUG_MEMORY */ 102 103 #define FT_DEBUG_INNER( exp ) (exp) 104 #define FT_ASSIGNP_INNER( p, exp ) FT_ASSIGNP( p, exp ) 105 106 #endif /* !FT_DEBUG_MEMORY */ 107 108 109 /* 110 * The allocation functions return a pointer, and the error code 111 * is written to through the `p_error' parameter. 112 */ 113 114 /* The `q' variants of the functions below (`q' for `quick') don't fill */ 115 /* the allocated or reallocated memory with zero bytes. */ 116 117 FT_BASE( FT_Pointer ) 118 ft_mem_alloc( FT_Memory memory, 119 FT_Long size, 120 FT_Error *p_error ); 121 122 FT_BASE( FT_Pointer ) 123 ft_mem_qalloc( FT_Memory memory, 124 FT_Long size, 125 FT_Error *p_error ); 126 127 FT_BASE( FT_Pointer ) 128 ft_mem_realloc( FT_Memory memory, 129 FT_Long item_size, 130 FT_Long cur_count, 131 FT_Long new_count, 132 void* block, 133 FT_Error *p_error ); 134 135 FT_BASE( FT_Pointer ) 136 ft_mem_qrealloc( FT_Memory memory, 137 FT_Long item_size, 138 FT_Long cur_count, 139 FT_Long new_count, 140 void* block, 141 FT_Error *p_error ); 142 143 FT_BASE( void ) 144 ft_mem_free( FT_Memory memory, 145 const void* P ); 146 147 148 /* The `Q' variants of the macros below (`Q' for `quick') don't fill */ 149 /* the allocated or reallocated memory with zero bytes. */ 150 151 #define FT_MEM_ALLOC( ptr, size ) \ 152 FT_ASSIGNP_INNER( ptr, ft_mem_alloc( memory, \ 153 (FT_Long)(size), \ 154 &error ) ) 155 156 #define FT_MEM_FREE( ptr ) \ 157 FT_BEGIN_STMNT \ 158 ft_mem_free( memory, (ptr) ); \ 159 (ptr) = NULL; \ 160 FT_END_STMNT 161 162 #define FT_MEM_NEW( ptr ) \ 163 FT_MEM_ALLOC( ptr, sizeof ( *(ptr) ) ) 164 165 #define FT_MEM_REALLOC( ptr, cursz, newsz ) \ 166 FT_ASSIGNP_INNER( ptr, ft_mem_realloc( memory, \ 167 1, \ 168 (FT_Long)(cursz), \ 169 (FT_Long)(newsz), \ 170 (ptr), \ 171 &error ) ) 172 173 #define FT_MEM_QALLOC( ptr, size ) \ 174 FT_ASSIGNP_INNER( ptr, ft_mem_qalloc( memory, \ 175 (FT_Long)(size), \ 176 &error ) ) 177 178 #define FT_MEM_QNEW( ptr ) \ 179 FT_MEM_QALLOC( ptr, sizeof ( *(ptr) ) ) 180 181 #define FT_MEM_QREALLOC( ptr, cursz, newsz ) \ 182 FT_ASSIGNP_INNER( ptr, ft_mem_qrealloc( memory, \ 183 1, \ 184 (FT_Long)(cursz), \ 185 (FT_Long)(newsz), \ 186 (ptr), \ 187 &error ) ) 188 189 #define FT_MEM_ALLOC_MULT( ptr, count, item_size ) \ 190 FT_ASSIGNP_INNER( ptr, ft_mem_realloc( memory, \ 191 (FT_Long)(item_size), \ 192 0, \ 193 (FT_Long)(count), \ 194 NULL, \ 195 &error ) ) 196 197 #define FT_MEM_REALLOC_MULT( ptr, oldcnt, newcnt, itmsz ) \ 198 FT_ASSIGNP_INNER( ptr, ft_mem_realloc( memory, \ 199 (FT_Long)(itmsz), \ 200 (FT_Long)(oldcnt), \ 201 (FT_Long)(newcnt), \ 202 (ptr), \ 203 &error ) ) 204 205 #define FT_MEM_QALLOC_MULT( ptr, count, item_size ) \ 206 FT_ASSIGNP_INNER( ptr, ft_mem_qrealloc( memory, \ 207 (FT_Long)(item_size), \ 208 0, \ 209 (FT_Long)(count), \ 210 NULL, \ 211 &error ) ) 212 213 #define FT_MEM_QREALLOC_MULT( ptr, oldcnt, newcnt, itmsz ) \ 214 FT_ASSIGNP_INNER( ptr, ft_mem_qrealloc( memory, \ 215 (FT_Long)(itmsz), \ 216 (FT_Long)(oldcnt), \ 217 (FT_Long)(newcnt), \ 218 (ptr), \ 219 &error ) ) 220 221 222 #define FT_MEM_SET_ERROR( cond ) ( (cond), error != 0 ) 223 224 225 #define FT_MEM_SET( dest, byte, count ) \ 226 ft_memset( dest, byte, (FT_Offset)(count) ) 227 228 #define FT_MEM_COPY( dest, source, count ) \ 229 ft_memcpy( dest, source, (FT_Offset)(count) ) 230 231 #define FT_MEM_MOVE( dest, source, count ) \ 232 ft_memmove( dest, source, (FT_Offset)(count) ) 233 234 235 #define FT_MEM_ZERO( dest, count ) FT_MEM_SET( dest, 0, count ) 236 237 #define FT_ZERO( p ) FT_MEM_ZERO( p, sizeof ( *(p) ) ) 238 239 240 #define FT_ARRAY_ZERO( dest, count ) \ 241 FT_MEM_ZERO( dest, \ 242 (FT_Offset)(count) * sizeof ( *(dest) ) ) 243 244 #define FT_ARRAY_COPY( dest, source, count ) \ 245 FT_MEM_COPY( dest, \ 246 source, \ 247 (FT_Offset)(count) * sizeof ( *(dest) ) ) 248 249 #define FT_ARRAY_MOVE( dest, source, count ) \ 250 FT_MEM_MOVE( dest, \ 251 source, \ 252 (FT_Offset)(count) * sizeof ( *(dest) ) ) 253 254 255 /* 256 * Return the maximum number of addressable elements in an array. 257 * We limit ourselves to INT_MAX, rather than UINT_MAX, to avoid 258 * any problems. 259 */ 260 #define FT_ARRAY_MAX( ptr ) ( FT_INT_MAX / sizeof ( *(ptr) ) ) 261 262 #define FT_ARRAY_CHECK( ptr, count ) ( (count) <= FT_ARRAY_MAX( ptr ) ) 263 264 265 /*************************************************************************/ 266 /* */ 267 /* The following functions macros expect that their pointer argument is */ 268 /* _typed_ in order to automatically compute array element sizes. */ 269 /* */ 270 271 #define FT_MEM_NEW_ARRAY( ptr, count ) \ 272 FT_ASSIGNP_INNER( ptr, ft_mem_realloc( memory, \ 273 sizeof ( *(ptr) ), \ 274 0, \ 275 (FT_Long)(count), \ 276 NULL, \ 277 &error ) ) 278 279 #define FT_MEM_RENEW_ARRAY( ptr, cursz, newsz ) \ 280 FT_ASSIGNP_INNER( ptr, ft_mem_realloc( memory, \ 281 sizeof ( *(ptr) ), \ 282 (FT_Long)(cursz), \ 283 (FT_Long)(newsz), \ 284 (ptr), \ 285 &error ) ) 286 287 #define FT_MEM_QNEW_ARRAY( ptr, count ) \ 288 FT_ASSIGNP_INNER( ptr, ft_mem_qrealloc( memory, \ 289 sizeof ( *(ptr) ), \ 290 0, \ 291 (FT_Long)(count), \ 292 NULL, \ 293 &error ) ) 294 295 #define FT_MEM_QRENEW_ARRAY( ptr, cursz, newsz ) \ 296 FT_ASSIGNP_INNER( ptr, ft_mem_qrealloc( memory, \ 297 sizeof ( *(ptr) ), \ 298 (FT_Long)(cursz), \ 299 (FT_Long)(newsz), \ 300 (ptr), \ 301 &error ) ) 302 303 #define FT_ALLOC( ptr, size ) \ 304 FT_MEM_SET_ERROR( FT_MEM_ALLOC( ptr, size ) ) 305 306 #define FT_REALLOC( ptr, cursz, newsz ) \ 307 FT_MEM_SET_ERROR( FT_MEM_REALLOC( ptr, cursz, newsz ) ) 308 309 #define FT_ALLOC_MULT( ptr, count, item_size ) \ 310 FT_MEM_SET_ERROR( FT_MEM_ALLOC_MULT( ptr, count, item_size ) ) 311 312 #define FT_REALLOC_MULT( ptr, oldcnt, newcnt, itmsz ) \ 313 FT_MEM_SET_ERROR( FT_MEM_REALLOC_MULT( ptr, oldcnt, \ 314 newcnt, itmsz ) ) 315 316 #define FT_QALLOC( ptr, size ) \ 317 FT_MEM_SET_ERROR( FT_MEM_QALLOC( ptr, size ) ) 318 319 #define FT_QREALLOC( ptr, cursz, newsz ) \ 320 FT_MEM_SET_ERROR( FT_MEM_QREALLOC( ptr, cursz, newsz ) ) 321 322 #define FT_QALLOC_MULT( ptr, count, item_size ) \ 323 FT_MEM_SET_ERROR( FT_MEM_QALLOC_MULT( ptr, count, item_size ) ) 324 325 #define FT_QREALLOC_MULT( ptr, oldcnt, newcnt, itmsz ) \ 326 FT_MEM_SET_ERROR( FT_MEM_QREALLOC_MULT( ptr, oldcnt, \ 327 newcnt, itmsz ) ) 328 329 #define FT_FREE( ptr ) FT_MEM_FREE( ptr ) 330 331 #define FT_NEW( ptr ) FT_MEM_SET_ERROR( FT_MEM_NEW( ptr ) ) 332 333 #define FT_NEW_ARRAY( ptr, count ) \ 334 FT_MEM_SET_ERROR( FT_MEM_NEW_ARRAY( ptr, count ) ) 335 336 #define FT_RENEW_ARRAY( ptr, curcnt, newcnt ) \ 337 FT_MEM_SET_ERROR( FT_MEM_RENEW_ARRAY( ptr, curcnt, newcnt ) ) 338 339 #define FT_QNEW( ptr ) \ 340 FT_MEM_SET_ERROR( FT_MEM_QNEW( ptr ) ) 341 342 #define FT_QNEW_ARRAY( ptr, count ) \ 343 FT_MEM_SET_ERROR( FT_MEM_NEW_ARRAY( ptr, count ) ) 344 345 #define FT_QRENEW_ARRAY( ptr, curcnt, newcnt ) \ 346 FT_MEM_SET_ERROR( FT_MEM_RENEW_ARRAY( ptr, curcnt, newcnt ) ) 347 348 349 FT_BASE( FT_Pointer ) 350 ft_mem_strdup( FT_Memory memory, 351 const char* str, 352 FT_Error *p_error ); 353 354 FT_BASE( FT_Pointer ) 355 ft_mem_dup( FT_Memory memory, 356 const void* address, 357 FT_ULong size, 358 FT_Error *p_error ); 359 360 361 #define FT_MEM_STRDUP( dst, str ) \ 362 (dst) = (char*)ft_mem_strdup( memory, (const char*)(str), &error ) 363 364 #define FT_STRDUP( dst, str ) \ 365 FT_MEM_SET_ERROR( FT_MEM_STRDUP( dst, str ) ) 366 367 #define FT_MEM_DUP( dst, address, size ) \ 368 (dst) = ft_mem_dup( memory, (address), (FT_ULong)(size), &error ) 369 370 #define FT_DUP( dst, address, size ) \ 371 FT_MEM_SET_ERROR( FT_MEM_DUP( dst, address, size ) ) 372 373 374 /* Return >= 1 if a truncation occurs. */ 375 /* Return 0 if the source string fits the buffer. */ 376 /* This is *not* the same as strlcpy(). */ 377 FT_BASE( FT_Int ) 378 ft_mem_strcpyn( char* dst, 379 const char* src, 380 FT_ULong size ); 381 382 #define FT_STRCPYN( dst, src, size ) \ 383 ft_mem_strcpyn( (char*)dst, (const char*)(src), (FT_ULong)(size) ) 384 385 /* */ 386 387 388 FT_END_HEADER 389 390 #endif /* FTMEMORY_H_ */ 391 392 393 /* END */ 394