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| 1 /***************************************************************************/ |
| 2 /* */ |
| 3 /* cf2hints.c */ |
| 4 /* */ |
| 5 /* Adobe's code for handling CFF hints (body). */ |
| 6 /* */ |
| 7 /* Copyright 2007-2013 Adobe Systems Incorporated. */ |
| 8 /* */ |
| 9 /* This software, and all works of authorship, whether in source or */ |
| 10 /* object code form as indicated by the copyright notice(s) included */ |
| 11 /* herein (collectively, the "Work") is made available, and may only be */ |
| 12 /* used, modified, and distributed under the FreeType Project License, */ |
| 13 /* LICENSE.TXT. Additionally, subject to the terms and conditions of the */ |
| 14 /* FreeType Project License, each contributor to the Work hereby grants */ |
| 15 /* to any individual or legal entity exercising permissions granted by */ |
| 16 /* the FreeType Project License and this section (hereafter, "You" or */ |
| 17 /* "Your") a perpetual, worldwide, non-exclusive, no-charge, */ |
| 18 /* royalty-free, irrevocable (except as stated in this section) patent */ |
| 19 /* license to make, have made, use, offer to sell, sell, import, and */ |
| 20 /* otherwise transfer the Work, where such license applies only to those */ |
| 21 /* patent claims licensable by such contributor that are necessarily */ |
| 22 /* infringed by their contribution(s) alone or by combination of their */ |
| 23 /* contribution(s) with the Work to which such contribution(s) was */ |
| 24 /* submitted. If You institute patent litigation against any entity */ |
| 25 /* (including a cross-claim or counterclaim in a lawsuit) alleging that */ |
| 26 /* the Work or a contribution incorporated within the Work constitutes */ |
| 27 /* direct or contributory patent infringement, then any patent licenses */ |
| 28 /* granted to You under this License for that Work shall terminate as of */ |
| 29 /* the date such litigation is filed. */ |
| 30 /* */ |
| 31 /* By using, modifying, or distributing the Work you indicate that you */ |
| 32 /* have read and understood the terms and conditions of the */ |
| 33 /* FreeType Project License as well as those provided in this section, */ |
| 34 /* and you accept them fully. */ |
| 35 /* */ |
| 36 /***************************************************************************/ |
| 37 |
| 38 |
| 39 #include "cf2ft.h" |
| 40 #include FT_INTERNAL_DEBUG_H |
| 41 |
| 42 #include "cf2glue.h" |
| 43 #include "cf2font.h" |
| 44 #include "cf2hints.h" |
| 45 #include "cf2intrp.h" |
| 46 |
| 47 |
| 48 /*************************************************************************/ |
| 49 /* */ |
| 50 /* The macro FT_COMPONENT is used in trace mode. It is an implicit */ |
| 51 /* parameter of the FT_TRACE() and FT_ERROR() macros, used to print/log */ |
| 52 /* messages during execution. */ |
| 53 /* */ |
| 54 #undef FT_COMPONENT |
| 55 #define FT_COMPONENT trace_cf2hints |
| 56 |
| 57 |
| 58 typedef struct CF2_HintMoveRec_ |
| 59 { |
| 60 size_t j; /* index of upper hint map edge */ |
| 61 CF2_Fixed moveUp; /* adjustment to optimum position */ |
| 62 |
| 63 } CF2_HintMoveRec, *CF2_HintMove; |
| 64 |
| 65 |
| 66 /* Compute angular momentum for winding order detection. It is called */ |
| 67 /* for all lines and curves, but not necessarily in element order. */ |
| 68 static CF2_Int |
| 69 cf2_getWindingMomentum( CF2_Fixed x1, |
| 70 CF2_Fixed y1, |
| 71 CF2_Fixed x2, |
| 72 CF2_Fixed y2 ) |
| 73 { |
| 74 /* cross product of pt1 position from origin with pt2 position from */ |
| 75 /* pt1; we reduce the precision so that the result fits into 32 bits */ |
| 76 |
| 77 return ( x1 >> 16 ) * ( ( y2 - y1 ) >> 16 ) - |
| 78 ( y1 >> 16 ) * ( ( x2 - x1 ) >> 16 ); |
| 79 } |
| 80 |
| 81 |
| 82 /* |
| 83 * Construct from a StemHint; this is used as a parameter to |
| 84 * `cf2_blues_capture'. |
| 85 * `hintOrigin' is the character space displacement of a seac accent. |
| 86 * Adjust stem hint for darkening here. |
| 87 * |
| 88 */ |
| 89 static void |
| 90 cf2_hint_init( CF2_Hint hint, |
| 91 const CF2_ArrStack stemHintArray, |
| 92 size_t indexStemHint, |
| 93 const CF2_Font font, |
| 94 CF2_Fixed hintOrigin, |
| 95 CF2_Fixed scale, |
| 96 FT_Bool bottom ) |
| 97 { |
| 98 CF2_Fixed width; |
| 99 const CF2_StemHintRec* stemHint; |
| 100 |
| 101 |
| 102 FT_ZERO( hint ); |
| 103 |
| 104 stemHint = (const CF2_StemHintRec*)cf2_arrstack_getPointer( |
| 105 stemHintArray, |
| 106 indexStemHint ); |
| 107 |
| 108 width = stemHint->max - stemHint->min; |
| 109 |
| 110 if ( width == cf2_intToFixed( -21 ) ) |
| 111 { |
| 112 /* ghost bottom */ |
| 113 |
| 114 if ( bottom ) |
| 115 { |
| 116 hint->csCoord = stemHint->max; |
| 117 hint->flags = CF2_GhostBottom; |
| 118 } |
| 119 else |
| 120 hint->flags = 0; |
| 121 } |
| 122 |
| 123 else if ( width == cf2_intToFixed( -20 ) ) |
| 124 { |
| 125 /* ghost top */ |
| 126 |
| 127 if ( bottom ) |
| 128 hint->flags = 0; |
| 129 else |
| 130 { |
| 131 hint->csCoord = stemHint->min; |
| 132 hint->flags = CF2_GhostTop; |
| 133 } |
| 134 } |
| 135 |
| 136 else if ( width < 0 ) |
| 137 { |
| 138 /* inverted pair */ |
| 139 |
| 140 /* |
| 141 * Hints with negative widths were produced by an early version of a |
| 142 * non-Adobe font tool. The Type 2 spec allows edge (ghost) hints |
| 143 * with negative widths, but says |
| 144 * |
| 145 * All other negative widths have undefined meaning. |
| 146 * |
| 147 * CoolType has a silent workaround that negates the hint width; for |
| 148 * permissive mode, we do the same here. |
| 149 * |
| 150 * Note: Such fonts cannot use ghost hints, but should otherwise work. |
| 151 * Note: Some poor hints in our faux fonts can produce negative |
| 152 * widths at some blends. For example, see a light weight of |
| 153 * `u' in ASerifMM. |
| 154 * |
| 155 */ |
| 156 if ( bottom ) |
| 157 { |
| 158 hint->csCoord = stemHint->max; |
| 159 hint->flags = CF2_PairBottom; |
| 160 } |
| 161 else |
| 162 { |
| 163 hint->csCoord = stemHint->min; |
| 164 hint->flags = CF2_PairTop; |
| 165 } |
| 166 } |
| 167 |
| 168 else |
| 169 { |
| 170 /* normal pair */ |
| 171 |
| 172 if ( bottom ) |
| 173 { |
| 174 hint->csCoord = stemHint->min; |
| 175 hint->flags = CF2_PairBottom; |
| 176 } |
| 177 else |
| 178 { |
| 179 hint->csCoord = stemHint->max; |
| 180 hint->flags = CF2_PairTop; |
| 181 } |
| 182 } |
| 183 |
| 184 /* Now that ghost hints have been detected, adjust this edge for */ |
| 185 /* darkening. Bottoms are not changed; tops are incremented by twice */ |
| 186 /* `darkenY'. */ |
| 187 if ( cf2_hint_isTop( hint ) ) |
| 188 hint->csCoord += 2 * font->darkenY; |
| 189 |
| 190 hint->csCoord += hintOrigin; |
| 191 hint->scale = scale; |
| 192 hint->index = indexStemHint; /* index in original stem hint array */ |
| 193 |
| 194 /* if original stem hint has been used, use the same position */ |
| 195 if ( hint->flags != 0 && stemHint->used ) |
| 196 { |
| 197 if ( cf2_hint_isTop( hint ) ) |
| 198 hint->dsCoord = stemHint->maxDS; |
| 199 else |
| 200 hint->dsCoord = stemHint->minDS; |
| 201 |
| 202 cf2_hint_lock( hint ); |
| 203 } |
| 204 else |
| 205 hint->dsCoord = FT_MulFix( hint->csCoord, scale ); |
| 206 } |
| 207 |
| 208 |
| 209 /* initialize an invalid hint map element */ |
| 210 static void |
| 211 cf2_hint_initZero( CF2_Hint hint ) |
| 212 { |
| 213 FT_ZERO( hint ); |
| 214 } |
| 215 |
| 216 |
| 217 FT_LOCAL_DEF( FT_Bool ) |
| 218 cf2_hint_isValid( const CF2_Hint hint ) |
| 219 { |
| 220 return hint->flags != 0; |
| 221 } |
| 222 |
| 223 |
| 224 static FT_Bool |
| 225 cf2_hint_isPair( const CF2_Hint hint ) |
| 226 { |
| 227 return ( hint->flags & |
| 228 ( CF2_PairBottom | CF2_PairTop ) ) != 0; |
| 229 } |
| 230 |
| 231 |
| 232 static FT_Bool |
| 233 cf2_hint_isPairTop( const CF2_Hint hint ) |
| 234 { |
| 235 return ( hint->flags & CF2_PairTop ) != 0; |
| 236 } |
| 237 |
| 238 |
| 239 FT_LOCAL_DEF( FT_Bool ) |
| 240 cf2_hint_isTop( const CF2_Hint hint ) |
| 241 { |
| 242 return ( hint->flags & |
| 243 ( CF2_PairTop | CF2_GhostTop ) ) != 0; |
| 244 } |
| 245 |
| 246 |
| 247 FT_LOCAL_DEF( FT_Bool ) |
| 248 cf2_hint_isBottom( const CF2_Hint hint ) |
| 249 { |
| 250 return ( hint->flags & |
| 251 ( CF2_PairBottom | CF2_GhostBottom ) ) != 0; |
| 252 } |
| 253 |
| 254 |
| 255 static FT_Bool |
| 256 cf2_hint_isLocked( const CF2_Hint hint ) |
| 257 { |
| 258 return ( hint->flags & CF2_Locked ) != 0; |
| 259 } |
| 260 |
| 261 |
| 262 static FT_Bool |
| 263 cf2_hint_isSynthetic( const CF2_Hint hint ) |
| 264 { |
| 265 return ( hint->flags & CF2_Synthetic ) != 0; |
| 266 } |
| 267 |
| 268 |
| 269 FT_LOCAL_DEF( void ) |
| 270 cf2_hint_lock( CF2_Hint hint ) |
| 271 { |
| 272 hint->flags |= CF2_Locked; |
| 273 } |
| 274 |
| 275 |
| 276 FT_LOCAL_DEF( void ) |
| 277 cf2_hintmap_init( CF2_HintMap hintmap, |
| 278 CF2_Font font, |
| 279 CF2_HintMap initialMap, |
| 280 CF2_ArrStack hintMoves, |
| 281 CF2_Fixed scale ) |
| 282 { |
| 283 FT_ZERO( hintmap ); |
| 284 |
| 285 /* copy parameters from font instance */ |
| 286 hintmap->hinted = font->hinted; |
| 287 hintmap->scale = scale; |
| 288 hintmap->font = font; |
| 289 hintmap->initialHintMap = initialMap; |
| 290 /* will clear in `cf2_hintmap_adjustHints' */ |
| 291 hintmap->hintMoves = hintMoves; |
| 292 } |
| 293 |
| 294 |
| 295 static FT_Bool |
| 296 cf2_hintmap_isValid( const CF2_HintMap hintmap ) |
| 297 { |
| 298 return hintmap->isValid; |
| 299 } |
| 300 |
| 301 |
| 302 /* transform character space coordinate to device space using hint map */ |
| 303 static CF2_Fixed |
| 304 cf2_hintmap_map( CF2_HintMap hintmap, |
| 305 CF2_Fixed csCoord ) |
| 306 { |
| 307 FT_ASSERT( hintmap->isValid ); /* must call Build before Map */ |
| 308 FT_ASSERT( hintmap->lastIndex < CF2_MAX_HINT_EDGES ); |
| 309 |
| 310 if ( hintmap->count == 0 || ! hintmap->hinted ) |
| 311 { |
| 312 /* there are no hints; use uniform scale and zero offset */ |
| 313 return FT_MulFix( csCoord, hintmap->scale ); |
| 314 } |
| 315 else |
| 316 { |
| 317 /* start linear search from last hit */ |
| 318 CF2_UInt i = hintmap->lastIndex; |
| 319 |
| 320 |
| 321 /* search up */ |
| 322 while ( i < hintmap->count - 1 && |
| 323 csCoord >= hintmap->edge[i + 1].csCoord ) |
| 324 i += 1; |
| 325 |
| 326 /* search down */ |
| 327 while ( i > 0 && csCoord < hintmap->edge[i].csCoord ) |
| 328 i -= 1; |
| 329 |
| 330 hintmap->lastIndex = i; |
| 331 |
| 332 if ( i == 0 && csCoord < hintmap->edge[0].csCoord ) |
| 333 { |
| 334 /* special case for points below first edge: use uniform scale */ |
| 335 return FT_MulFix( csCoord - hintmap->edge[0].csCoord, |
| 336 hintmap->scale ) + |
| 337 hintmap->edge[0].dsCoord; |
| 338 } |
| 339 else |
| 340 { |
| 341 /* |
| 342 * Note: entries with duplicate csCoord are allowed. |
| 343 * Use edge[i], the highest entry where csCoord >= entry[i].csCoord |
| 344 */ |
| 345 return FT_MulFix( csCoord - hintmap->edge[i].csCoord, |
| 346 hintmap->edge[i].scale ) + |
| 347 hintmap->edge[i].dsCoord; |
| 348 } |
| 349 } |
| 350 } |
| 351 |
| 352 |
| 353 /* |
| 354 * This hinting policy moves a hint pair in device space so that one of |
| 355 * its two edges is on a device pixel boundary (its fractional part is |
| 356 * zero). `cf2_hintmap_insertHint' guarantees no overlap in CS |
| 357 * space. Ensure here that there is no overlap in DS. |
| 358 * |
| 359 * In the first pass, edges are adjusted relative to adjacent hints. |
| 360 * Those that are below have already been adjusted. Those that are |
| 361 * above have not yet been adjusted. If a hint above blocks an |
| 362 * adjustment to an optimal position, we will try again in a second |
| 363 * pass. The second pass is top-down. |
| 364 * |
| 365 */ |
| 366 |
| 367 static void |
| 368 cf2_hintmap_adjustHints( CF2_HintMap hintmap ) |
| 369 { |
| 370 size_t i, j; |
| 371 |
| 372 |
| 373 cf2_arrstack_clear( hintmap->hintMoves ); /* working storage */ |
| 374 |
| 375 /* |
| 376 * First pass is bottom-up (font hint order) without look-ahead. |
| 377 * Locked edges are already adjusted. |
| 378 * Unlocked edges begin with dsCoord from `initialHintMap'. |
| 379 * Save edges that are not optimally adjusted in `hintMoves' array, |
| 380 * and process them in second pass. |
| 381 */ |
| 382 |
| 383 for ( i = 0; i < hintmap->count; i++ ) |
| 384 { |
| 385 FT_Bool isPair = cf2_hint_isPair( &hintmap->edge[i] ); |
| 386 |
| 387 |
| 388 /* index of upper edge (same value for ghost hint) */ |
| 389 j = isPair ? i + 1 : i; |
| 390 |
| 391 FT_ASSERT( j < hintmap->count ); |
| 392 FT_ASSERT( cf2_hint_isValid( &hintmap->edge[i] ) ); |
| 393 FT_ASSERT( cf2_hint_isValid( &hintmap->edge[j] ) ); |
| 394 FT_ASSERT( cf2_hint_isLocked( &hintmap->edge[i] ) == |
| 395 cf2_hint_isLocked( &hintmap->edge[j] ) ); |
| 396 |
| 397 if ( !cf2_hint_isLocked( &hintmap->edge[i] ) ) |
| 398 { |
| 399 /* hint edge is not locked, we can adjust it */ |
| 400 CF2_Fixed fracDown = cf2_fixedFraction( hintmap->edge[i].dsCoord ); |
| 401 CF2_Fixed fracUp = cf2_fixedFraction( hintmap->edge[j].dsCoord ); |
| 402 |
| 403 /* calculate all four possibilities; moves down are negative */ |
| 404 CF2_Fixed downMoveDown = 0 - fracDown; |
| 405 CF2_Fixed upMoveDown = 0 - fracUp; |
| 406 CF2_Fixed downMoveUp = fracDown == 0 |
| 407 ? 0 |
| 408 : cf2_intToFixed( 1 ) - fracDown; |
| 409 CF2_Fixed upMoveUp = fracUp == 0 |
| 410 ? 0 |
| 411 : cf2_intToFixed( 1 ) - fracUp; |
| 412 |
| 413 /* smallest move up */ |
| 414 CF2_Fixed moveUp = FT_MIN( downMoveUp, upMoveUp ); |
| 415 /* smallest move down */ |
| 416 CF2_Fixed moveDown = FT_MAX( downMoveDown, upMoveDown ); |
| 417 |
| 418 /* final amount to move edge or edge pair */ |
| 419 CF2_Fixed move; |
| 420 |
| 421 CF2_Fixed downMinCounter = CF2_MIN_COUNTER; |
| 422 CF2_Fixed upMinCounter = CF2_MIN_COUNTER; |
| 423 FT_Bool saveEdge = FALSE; |
| 424 |
| 425 |
| 426 /* minimum counter constraint doesn't apply when adjacent edges */ |
| 427 /* are synthetic */ |
| 428 /* TODO: doesn't seem a big effect; for now, reduce the code */ |
| 429 #if 0 |
| 430 if ( i == 0 || |
| 431 cf2_hint_isSynthetic( &hintmap->edge[i - 1] ) ) |
| 432 downMinCounter = 0; |
| 433 |
| 434 if ( j >= hintmap->count - 1 || |
| 435 cf2_hint_isSynthetic( &hintmap->edge[j + 1] ) ) |
| 436 upMinCounter = 0; |
| 437 #endif |
| 438 |
| 439 /* is there room to move up? */ |
| 440 /* there is if we are at top of array or the next edge is at or */ |
| 441 /* beyond proposed move up? */ |
| 442 if ( j >= hintmap->count - 1 || |
| 443 hintmap->edge[j + 1].dsCoord >= |
| 444 hintmap->edge[j].dsCoord + moveUp + upMinCounter ) |
| 445 { |
| 446 /* there is room to move up; is there also room to move down? */ |
| 447 if ( i == 0 || |
| 448 hintmap->edge[i - 1].dsCoord <= |
| 449 hintmap->edge[i].dsCoord + moveDown - downMinCounter ) |
| 450 { |
| 451 /* move smaller absolute amount */ |
| 452 move = ( -moveDown < moveUp ) ? moveDown : moveUp; /* optimum */ |
| 453 } |
| 454 else |
| 455 move = moveUp; |
| 456 } |
| 457 else |
| 458 { |
| 459 /* is there room to move down? */ |
| 460 if ( i == 0 || |
| 461 hintmap->edge[i - 1].dsCoord <= |
| 462 hintmap->edge[i].dsCoord + moveDown - downMinCounter ) |
| 463 { |
| 464 move = moveDown; |
| 465 saveEdge = moveUp < -moveDown; /* true if non-optimum move */ |
| 466 } |
| 467 else |
| 468 { |
| 469 /* no room to move either way without overlapping or reducing */ |
| 470 /* the counter too much */ |
| 471 move = 0; |
| 472 saveEdge = TRUE; |
| 473 } |
| 474 } |
| 475 |
| 476 /* Identify non-moves and moves down that aren't optimal, and save */ |
| 477 /* them for second pass. */ |
| 478 /* Do this only if there is an unlocked edge above (which could */ |
| 479 /* possibly move). */ |
| 480 if ( saveEdge && |
| 481 j < hintmap->count - 1 && |
| 482 !cf2_hint_isLocked( &hintmap->edge[j + 1] ) ) |
| 483 { |
| 484 CF2_HintMoveRec savedMove; |
| 485 |
| 486 |
| 487 savedMove.j = j; |
| 488 /* desired adjustment in second pass */ |
| 489 savedMove.moveUp = moveUp - move; |
| 490 |
| 491 cf2_arrstack_push( hintmap->hintMoves, &savedMove ); |
| 492 } |
| 493 |
| 494 /* move the edge(s) */ |
| 495 hintmap->edge[i].dsCoord += move; |
| 496 if ( isPair ) |
| 497 hintmap->edge[j].dsCoord += move; |
| 498 } |
| 499 |
| 500 /* assert there are no overlaps in device space */ |
| 501 FT_ASSERT( i == 0 || |
| 502 hintmap->edge[i - 1].dsCoord <= hintmap->edge[i].dsCoord ); |
| 503 FT_ASSERT( i < j || |
| 504 hintmap->edge[i].dsCoord <= hintmap->edge[j].dsCoord ); |
| 505 |
| 506 /* adjust the scales, avoiding divide by zero */ |
| 507 if ( i > 0 ) |
| 508 { |
| 509 if ( hintmap->edge[i].csCoord != hintmap->edge[i - 1].csCoord ) |
| 510 hintmap->edge[i - 1].scale = |
| 511 FT_DivFix( |
| 512 hintmap->edge[i].dsCoord - hintmap->edge[i - 1].dsCoord, |
| 513 hintmap->edge[i].csCoord - hintmap->edge[i - 1].csCoord ); |
| 514 } |
| 515 |
| 516 if ( isPair ) |
| 517 { |
| 518 if ( hintmap->edge[j].csCoord != hintmap->edge[j - 1].csCoord ) |
| 519 hintmap->edge[j - 1].scale = |
| 520 FT_DivFix( |
| 521 hintmap->edge[j].dsCoord - hintmap->edge[j - 1].dsCoord, |
| 522 hintmap->edge[j].csCoord - hintmap->edge[j - 1].csCoord ); |
| 523 |
| 524 i += 1; /* skip upper edge on next loop */ |
| 525 } |
| 526 } |
| 527 |
| 528 /* second pass tries to move non-optimal hints up, in case there is */ |
| 529 /* room now */ |
| 530 for ( i = cf2_arrstack_size( hintmap->hintMoves ); i > 0; i-- ) |
| 531 { |
| 532 CF2_HintMove hintMove = (CF2_HintMove) |
| 533 cf2_arrstack_getPointer( hintmap->hintMoves, i - 1 ); |
| 534 |
| 535 |
| 536 j = hintMove->j; |
| 537 |
| 538 /* this was tested before the push, above */ |
| 539 FT_ASSERT( j < hintmap->count - 1 ); |
| 540 |
| 541 /* is there room to move up? */ |
| 542 if ( hintmap->edge[j + 1].dsCoord >= |
| 543 hintmap->edge[j].dsCoord + hintMove->moveUp + CF2_MIN_COUNTER ) |
| 544 { |
| 545 /* there is more room now, move edge up */ |
| 546 hintmap->edge[j].dsCoord += hintMove->moveUp; |
| 547 |
| 548 if ( cf2_hint_isPair( &hintmap->edge[j] ) ) |
| 549 { |
| 550 FT_ASSERT( j > 0 ); |
| 551 hintmap->edge[j - 1].dsCoord += hintMove->moveUp; |
| 552 } |
| 553 } |
| 554 } |
| 555 } |
| 556 |
| 557 |
| 558 /* insert hint edges into map, sorted by csCoord */ |
| 559 static void |
| 560 cf2_hintmap_insertHint( CF2_HintMap hintmap, |
| 561 CF2_Hint bottomHintEdge, |
| 562 CF2_Hint topHintEdge ) |
| 563 { |
| 564 CF2_UInt indexInsert; |
| 565 |
| 566 /* set default values, then check for edge hints */ |
| 567 FT_Bool isPair = TRUE; |
| 568 CF2_Hint firstHintEdge = bottomHintEdge; |
| 569 CF2_Hint secondHintEdge = topHintEdge; |
| 570 |
| 571 |
| 572 /* one or none of the input params may be invalid when dealing with */ |
| 573 /* edge hints; at least one edge must be valid */ |
| 574 FT_ASSERT( cf2_hint_isValid( bottomHintEdge ) || |
| 575 cf2_hint_isValid( topHintEdge ) ); |
| 576 |
| 577 /* determine how many and which edges to insert */ |
| 578 if ( !cf2_hint_isValid( bottomHintEdge ) ) |
| 579 { |
| 580 /* insert only the top edge */ |
| 581 firstHintEdge = topHintEdge; |
| 582 isPair = FALSE; |
| 583 } |
| 584 else if ( !cf2_hint_isValid( topHintEdge ) ) |
| 585 { |
| 586 /* insert only the bottom edge */ |
| 587 isPair = FALSE; |
| 588 } |
| 589 |
| 590 /* paired edges must be in proper order */ |
| 591 FT_ASSERT( !isPair || |
| 592 topHintEdge->csCoord >= bottomHintEdge->csCoord ); |
| 593 |
| 594 /* linear search to find index value of insertion point */ |
| 595 indexInsert = 0; |
| 596 for ( ; indexInsert < hintmap->count; indexInsert++ ) |
| 597 { |
| 598 if ( hintmap->edge[indexInsert].csCoord > firstHintEdge->csCoord ) |
| 599 break; |
| 600 } |
| 601 |
| 602 /* |
| 603 * Discard any hints that overlap in character space. Most often, |
| 604 * this is while building the initial map, but in theory, it can also |
| 605 * occur because of darkening. |
| 606 * |
| 607 */ |
| 608 if ( indexInsert < hintmap->count ) |
| 609 { |
| 610 /* we are inserting before an existing edge: */ |
| 611 /* verify that a new pair does not straddle the next edge */ |
| 612 if ( isPair && |
| 613 hintmap->edge[indexInsert].csCoord < secondHintEdge->csCoord ) |
| 614 return; /* ignore overlapping stem hint */ |
| 615 |
| 616 /* verify that we are not inserting between paired edges */ |
| 617 if ( cf2_hint_isPairTop( &hintmap->edge[indexInsert] ) ) |
| 618 return; /* ignore overlapping stem hint */ |
| 619 } |
| 620 |
| 621 /* recompute device space locations using initial hint map */ |
| 622 if ( cf2_hintmap_isValid( hintmap->initialHintMap ) && |
| 623 !cf2_hint_isLocked( firstHintEdge ) ) |
| 624 { |
| 625 if ( isPair ) |
| 626 { |
| 627 /* Use hint map to position the center of stem, and nominal scale */ |
| 628 /* to position the two edges. This preserves the stem width. */ |
| 629 CF2_Fixed midpoint = cf2_hintmap_map( |
| 630 hintmap->initialHintMap, |
| 631 ( secondHintEdge->csCoord + |
| 632 firstHintEdge->csCoord ) / 2 ); |
| 633 CF2_Fixed halfWidth = FT_MulFix( |
| 634 ( secondHintEdge->csCoord - |
| 635 firstHintEdge->csCoord ) / 2, |
| 636 hintmap->scale ); |
| 637 |
| 638 |
| 639 firstHintEdge->dsCoord = midpoint - halfWidth; |
| 640 secondHintEdge->dsCoord = midpoint + halfWidth; |
| 641 } |
| 642 else |
| 643 firstHintEdge->dsCoord = cf2_hintmap_map( hintmap->initialHintMap, |
| 644 firstHintEdge->csCoord ); |
| 645 } |
| 646 |
| 647 /* discard any hints that overlap in device space; this can occur */ |
| 648 /* because locked hints have been moved to align with blue zones */ |
| 649 if ( indexInsert > 0 ) |
| 650 { |
| 651 /* we are inserting after an existing edge */ |
| 652 if ( firstHintEdge->dsCoord < hintmap->edge[indexInsert - 1].dsCoord ) |
| 653 return; |
| 654 } |
| 655 |
| 656 if ( indexInsert < hintmap->count ) |
| 657 { |
| 658 /* we are inserting before an existing edge */ |
| 659 if ( isPair ) |
| 660 { |
| 661 if ( secondHintEdge->dsCoord > hintmap->edge[indexInsert].dsCoord ) |
| 662 return; |
| 663 } |
| 664 else |
| 665 { |
| 666 if ( firstHintEdge->dsCoord > hintmap->edge[indexInsert].dsCoord ) |
| 667 return; |
| 668 } |
| 669 } |
| 670 |
| 671 /* make room to insert */ |
| 672 { |
| 673 CF2_Int iSrc = hintmap->count - 1; |
| 674 CF2_Int iDst = isPair ? hintmap->count + 1 : hintmap->count; |
| 675 |
| 676 CF2_Int count = hintmap->count - indexInsert; |
| 677 |
| 678 |
| 679 if ( iDst >= CF2_MAX_HINT_EDGES ) |
| 680 { |
| 681 FT_TRACE4(( "cf2_hintmap_insertHint: too many hintmaps\n" )); |
| 682 return; |
| 683 } |
| 684 |
| 685 while ( count-- ) |
| 686 hintmap->edge[iDst--] = hintmap->edge[iSrc--]; |
| 687 |
| 688 /* insert first edge */ |
| 689 hintmap->edge[indexInsert] = *firstHintEdge; /* copy struct */ |
| 690 hintmap->count += 1; |
| 691 |
| 692 if ( isPair ) |
| 693 { |
| 694 /* insert second edge */ |
| 695 hintmap->edge[indexInsert + 1] = *secondHintEdge; /* copy struct */ |
| 696 hintmap->count += 1; |
| 697 } |
| 698 } |
| 699 |
| 700 return; |
| 701 } |
| 702 |
| 703 |
| 704 /* |
| 705 * Build a map from hints and mask. |
| 706 * |
| 707 * This function may recur one level if `hintmap->initialHintMap' is not yet |
| 708 * valid. |
| 709 * If `initialMap' is true, simply build initial map. |
| 710 * |
| 711 * Synthetic hints are used in two ways. A hint at zero is inserted, if |
| 712 * needed, in the initial hint map, to prevent translations from |
| 713 * propagating across the origin. If synthetic em box hints are enabled |
| 714 * for ideographic dictionaries, then they are inserted in all hint |
| 715 * maps, including the initial one. |
| 716 * |
| 717 */ |
| 718 FT_LOCAL_DEF( void ) |
| 719 cf2_hintmap_build( CF2_HintMap hintmap, |
| 720 CF2_ArrStack hStemHintArray, |
| 721 CF2_ArrStack vStemHintArray, |
| 722 CF2_HintMask hintMask, |
| 723 CF2_Fixed hintOrigin, |
| 724 FT_Bool initialMap ) |
| 725 { |
| 726 FT_Byte* maskPtr; |
| 727 |
| 728 CF2_Font font = hintmap->font; |
| 729 CF2_HintMaskRec tempHintMask; |
| 730 |
| 731 size_t bitCount, i; |
| 732 FT_Byte maskByte; |
| 733 |
| 734 |
| 735 /* check whether initial map is constructed */ |
| 736 if ( !initialMap && !cf2_hintmap_isValid( hintmap->initialHintMap ) ) |
| 737 { |
| 738 /* make recursive call with initialHintMap and temporary mask; */ |
| 739 /* temporary mask will get all bits set, below */ |
| 740 cf2_hintmask_init( &tempHintMask, hintMask->error ); |
| 741 cf2_hintmap_build( hintmap->initialHintMap, |
| 742 hStemHintArray, |
| 743 vStemHintArray, |
| 744 &tempHintMask, |
| 745 hintOrigin, |
| 746 TRUE ); |
| 747 } |
| 748 |
| 749 if ( !cf2_hintmask_isValid( hintMask ) ) |
| 750 { |
| 751 /* without a hint mask, assume all hints are active */ |
| 752 cf2_hintmask_setAll( hintMask, |
| 753 cf2_arrstack_size( hStemHintArray ) + |
| 754 cf2_arrstack_size( vStemHintArray ) ); |
| 755 } |
| 756 |
| 757 /* begin by clearing the map */ |
| 758 hintmap->count = 0; |
| 759 hintmap->lastIndex = 0; |
| 760 |
| 761 /* make a copy of the hint mask so we can modify it */ |
| 762 tempHintMask = *hintMask; |
| 763 maskPtr = cf2_hintmask_getMaskPtr( &tempHintMask ); |
| 764 |
| 765 /* use the hStem hints only, which are first in the mask */ |
| 766 /* TODO: compare this to cffhintmaskGetBitCount */ |
| 767 bitCount = cf2_arrstack_size( hStemHintArray ); |
| 768 |
| 769 /* synthetic embox hints get highest priority */ |
| 770 if ( font->blues.doEmBoxHints ) |
| 771 { |
| 772 CF2_HintRec dummy; |
| 773 |
| 774 |
| 775 cf2_hint_initZero( &dummy ); /* invalid hint map element */ |
| 776 |
| 777 /* ghost bottom */ |
| 778 cf2_hintmap_insertHint( hintmap, |
| 779 &font->blues.emBoxBottomEdge, |
| 780 &dummy ); |
| 781 /* ghost top */ |
| 782 cf2_hintmap_insertHint( hintmap, |
| 783 &dummy, |
| 784 &font->blues.emBoxTopEdge ); |
| 785 } |
| 786 |
| 787 /* insert hints captured by a blue zone or already locked (higher */ |
| 788 /* priority) */ |
| 789 for ( i = 0, maskByte = 0x80; i < bitCount; i++ ) |
| 790 { |
| 791 if ( maskByte & *maskPtr ) |
| 792 { |
| 793 /* expand StemHint into two `CF2_Hint' elements */ |
| 794 CF2_HintRec bottomHintEdge, topHintEdge; |
| 795 |
| 796 |
| 797 cf2_hint_init( &bottomHintEdge, |
| 798 hStemHintArray, |
| 799 i, |
| 800 font, |
| 801 hintOrigin, |
| 802 hintmap->scale, |
| 803 TRUE /* bottom */ ); |
| 804 cf2_hint_init( &topHintEdge, |
| 805 hStemHintArray, |
| 806 i, |
| 807 font, |
| 808 hintOrigin, |
| 809 hintmap->scale, |
| 810 FALSE /* top */ ); |
| 811 |
| 812 if ( cf2_hint_isLocked( &bottomHintEdge ) || |
| 813 cf2_hint_isLocked( &topHintEdge ) || |
| 814 cf2_blues_capture( &font->blues, |
| 815 &bottomHintEdge, |
| 816 &topHintEdge ) ) |
| 817 { |
| 818 /* insert captured hint into map */ |
| 819 cf2_hintmap_insertHint( hintmap, &bottomHintEdge, &topHintEdge ); |
| 820 |
| 821 *maskPtr &= ~maskByte; /* turn off the bit for this hint */ |
| 822 } |
| 823 } |
| 824 |
| 825 if ( ( i & 7 ) == 7 ) |
| 826 { |
| 827 /* move to next mask byte */ |
| 828 maskPtr++; |
| 829 maskByte = 0x80; |
| 830 } |
| 831 else |
| 832 maskByte >>= 1; |
| 833 } |
| 834 |
| 835 /* initial hint map includes only captured hints plus maybe one at 0 */ |
| 836 |
| 837 /* |
| 838 * TODO: There is a problem here because we are trying to build a |
| 839 * single hint map containing all captured hints. It is |
| 840 * possible for there to be conflicts between captured hints, |
| 841 * either because of darkening or because the hints are in |
| 842 * separate hint zones (we are ignoring hint zones for the |
| 843 * initial map). An example of the latter is MinionPro-Regular |
| 844 * v2.030 glyph 883 (Greek Capital Alpha with Psili) at 15ppem. |
| 845 * A stem hint for the psili conflicts with the top edge hint |
| 846 * for the base character. The stem hint gets priority because |
| 847 * of its sort order. In glyph 884 (Greek Capital Alpha with |
| 848 * Psili and Oxia), the top of the base character gets a stem |
| 849 * hint, and the psili does not. This creates different initial |
| 850 * maps for the two glyphs resulting in different renderings of |
| 851 * the base character. Will probably defer this either as not |
| 852 * worth the cost or as a font bug. I don't think there is any |
| 853 * good reason for an accent to be captured by an alignment |
| 854 * zone. -darnold 2/12/10 |
| 855 */ |
| 856 |
| 857 if ( initialMap ) |
| 858 { |
| 859 /* Apply a heuristic that inserts a point for (0,0), unless it's */ |
| 860 /* already covered by a mapping. This locks the baseline for glyphs */ |
| 861 /* that have no baseline hints. */ |
| 862 |
| 863 if ( hintmap->count == 0 || |
| 864 hintmap->edge[0].csCoord > 0 || |
| 865 hintmap->edge[hintmap->count - 1].csCoord < 0 ) |
| 866 { |
| 867 /* all edges are above 0 or all edges are below 0; */ |
| 868 /* construct a locked edge hint at 0 */ |
| 869 |
| 870 CF2_HintRec edge, invalid; |
| 871 |
| 872 |
| 873 cf2_hint_initZero( &edge ); |
| 874 |
| 875 edge.flags = CF2_GhostBottom | |
| 876 CF2_Locked | |
| 877 CF2_Synthetic; |
| 878 edge.scale = hintmap->scale; |
| 879 |
| 880 cf2_hint_initZero( &invalid ); |
| 881 cf2_hintmap_insertHint( hintmap, &edge, &invalid ); |
| 882 } |
| 883 } |
| 884 else |
| 885 { |
| 886 /* insert remaining hints */ |
| 887 |
| 888 maskPtr = cf2_hintmask_getMaskPtr( &tempHintMask ); |
| 889 |
| 890 for ( i = 0, maskByte = 0x80; i < bitCount; i++ ) |
| 891 { |
| 892 if ( maskByte & *maskPtr ) |
| 893 { |
| 894 CF2_HintRec bottomHintEdge, topHintEdge; |
| 895 |
| 896 |
| 897 cf2_hint_init( &bottomHintEdge, |
| 898 hStemHintArray, |
| 899 i, |
| 900 font, |
| 901 hintOrigin, |
| 902 hintmap->scale, |
| 903 TRUE /* bottom */ ); |
| 904 cf2_hint_init( &topHintEdge, |
| 905 hStemHintArray, |
| 906 i, |
| 907 font, |
| 908 hintOrigin, |
| 909 hintmap->scale, |
| 910 FALSE /* top */ ); |
| 911 |
| 912 cf2_hintmap_insertHint( hintmap, &bottomHintEdge, &topHintEdge ); |
| 913 } |
| 914 |
| 915 if ( ( i & 7 ) == 7 ) |
| 916 { |
| 917 /* move to next mask byte */ |
| 918 maskPtr++; |
| 919 maskByte = 0x80; |
| 920 } |
| 921 else |
| 922 maskByte >>= 1; |
| 923 } |
| 924 } |
| 925 |
| 926 /* |
| 927 * Note: The following line is a convenient place to break when |
| 928 * debugging hinting. Examine `hintmap->edge' for the list of |
| 929 * enabled hints, then step over the call to see the effect of |
| 930 * adjustment. We stop here first on the recursive call that |
| 931 * creates the initial map, and then on each counter group and |
| 932 * hint zone. |
| 933 */ |
| 934 |
| 935 /* adjust positions of hint edges that are not locked to blue zones */ |
| 936 cf2_hintmap_adjustHints( hintmap ); |
| 937 |
| 938 /* save the position of all hints that were used in this hint map; */ |
| 939 /* if we use them again, we'll locate them in the same position */ |
| 940 if ( !initialMap ) |
| 941 { |
| 942 for ( i = 0; i < hintmap->count; i++ ) |
| 943 { |
| 944 if ( !cf2_hint_isSynthetic( &hintmap->edge[i] ) ) |
| 945 { |
| 946 /* Note: include both valid and invalid edges */ |
| 947 /* Note: top and bottom edges are copied back separately */ |
| 948 CF2_StemHint stemhint = (CF2_StemHint) |
| 949 cf2_arrstack_getPointer( hStemHintArray, |
| 950 hintmap->edge[i].index ); |
| 951 |
| 952 |
| 953 if ( cf2_hint_isTop( &hintmap->edge[i] ) ) |
| 954 stemhint->maxDS = hintmap->edge[i].dsCoord; |
| 955 else |
| 956 stemhint->minDS = hintmap->edge[i].dsCoord; |
| 957 |
| 958 stemhint->used = TRUE; |
| 959 } |
| 960 } |
| 961 } |
| 962 |
| 963 /* hint map is ready to use */ |
| 964 hintmap->isValid = TRUE; |
| 965 |
| 966 /* remember this mask has been used */ |
| 967 cf2_hintmask_setNew( hintMask, FALSE ); |
| 968 } |
| 969 |
| 970 |
| 971 FT_LOCAL_DEF( void ) |
| 972 cf2_glyphpath_init( CF2_GlyphPath glyphpath, |
| 973 CF2_Font font, |
| 974 CF2_OutlineCallbacks callbacks, |
| 975 CF2_Fixed scaleY, |
| 976 /* CF2_Fixed hShift, */ |
| 977 CF2_ArrStack hStemHintArray, |
| 978 CF2_ArrStack vStemHintArray, |
| 979 CF2_HintMask hintMask, |
| 980 CF2_Fixed hintOriginY, |
| 981 const CF2_Blues blues, |
| 982 const FT_Vector* fractionalTranslation ) |
| 983 { |
| 984 FT_ZERO( glyphpath ); |
| 985 |
| 986 glyphpath->font = font; |
| 987 glyphpath->callbacks = callbacks; |
| 988 |
| 989 cf2_arrstack_init( &glyphpath->hintMoves, |
| 990 font->memory, |
| 991 &font->error, |
| 992 sizeof ( CF2_HintMoveRec ) ); |
| 993 |
| 994 cf2_hintmap_init( &glyphpath->initialHintMap, |
| 995 font, |
| 996 &glyphpath->initialHintMap, |
| 997 &glyphpath->hintMoves, |
| 998 scaleY ); |
| 999 cf2_hintmap_init( &glyphpath->firstHintMap, |
| 1000 font, |
| 1001 &glyphpath->initialHintMap, |
| 1002 &glyphpath->hintMoves, |
| 1003 scaleY ); |
| 1004 cf2_hintmap_init( &glyphpath->hintMap, |
| 1005 font, |
| 1006 &glyphpath->initialHintMap, |
| 1007 &glyphpath->hintMoves, |
| 1008 scaleY ); |
| 1009 |
| 1010 glyphpath->scaleX = font->innerTransform.a; |
| 1011 glyphpath->scaleC = font->innerTransform.c; |
| 1012 glyphpath->scaleY = font->innerTransform.d; |
| 1013 |
| 1014 glyphpath->fractionalTranslation = *fractionalTranslation; |
| 1015 |
| 1016 #if 0 |
| 1017 glyphpath->hShift = hShift; /* for fauxing */ |
| 1018 #endif |
| 1019 |
| 1020 glyphpath->hStemHintArray = hStemHintArray; |
| 1021 glyphpath->vStemHintArray = vStemHintArray; |
| 1022 glyphpath->hintMask = hintMask; /* ptr to current mask */ |
| 1023 glyphpath->hintOriginY = hintOriginY; |
| 1024 glyphpath->blues = blues; |
| 1025 glyphpath->darken = font->darkened; /* TODO: should we make copies?
*/ |
| 1026 glyphpath->xOffset = font->darkenX; |
| 1027 glyphpath->yOffset = font->darkenY; |
| 1028 glyphpath->miterLimit = 2 * FT_MAX( |
| 1029 cf2_fixedAbs( glyphpath->xOffset ), |
| 1030 cf2_fixedAbs( glyphpath->yOffset ) ); |
| 1031 |
| 1032 /* .1 character space unit */ |
| 1033 glyphpath->snapThreshold = cf2_floatToFixed( 0.1f ); |
| 1034 |
| 1035 glyphpath->moveIsPending = TRUE; |
| 1036 glyphpath->pathIsOpen = FALSE; |
| 1037 glyphpath->elemIsQueued = FALSE; |
| 1038 } |
| 1039 |
| 1040 |
| 1041 FT_LOCAL_DEF( void ) |
| 1042 cf2_glyphpath_finalize( CF2_GlyphPath glyphpath ) |
| 1043 { |
| 1044 cf2_arrstack_finalize( &glyphpath->hintMoves ); |
| 1045 } |
| 1046 |
| 1047 |
| 1048 /* |
| 1049 * Hint point in y-direction and apply outerTransform. |
| 1050 * Input `current' hint map (which is actually delayed by one element). |
| 1051 * Input x,y point in Character Space. |
| 1052 * Output x,y point in Device Space, including translation. |
| 1053 */ |
| 1054 static void |
| 1055 cf2_glyphpath_hintPoint( CF2_GlyphPath glyphpath, |
| 1056 CF2_HintMap hintmap, |
| 1057 FT_Vector* ppt, |
| 1058 CF2_Fixed x, |
| 1059 CF2_Fixed y ) |
| 1060 { |
| 1061 FT_Vector pt; /* hinted point in upright DS */ |
| 1062 |
| 1063 |
| 1064 pt.x = FT_MulFix( glyphpath->scaleX, x ) + |
| 1065 FT_MulFix( glyphpath->scaleC, y ); |
| 1066 pt.y = cf2_hintmap_map( hintmap, y ); |
| 1067 |
| 1068 ppt->x = FT_MulFix( glyphpath->font->outerTransform.a, pt.x ) + |
| 1069 FT_MulFix( glyphpath->font->outerTransform.c, pt.y ) + |
| 1070 glyphpath->fractionalTranslation.x; |
| 1071 ppt->y = FT_MulFix( glyphpath->font->outerTransform.b, pt.x ) + |
| 1072 FT_MulFix( glyphpath->font->outerTransform.d, pt.y ) + |
| 1073 glyphpath->fractionalTranslation.y; |
| 1074 } |
| 1075 |
| 1076 |
| 1077 /* |
| 1078 * From two line segments, (u1,u2) and (v1,v2), compute a point of |
| 1079 * intersection on the corresponding lines. |
| 1080 * Return false if no intersection is found, or if the intersection is |
| 1081 * too far away from the ends of the line segments, u2 and v1. |
| 1082 * |
| 1083 */ |
| 1084 static FT_Bool |
| 1085 cf2_glyphpath_computeIntersection( CF2_GlyphPath glyphpath, |
| 1086 const FT_Vector* u1, |
| 1087 const FT_Vector* u2, |
| 1088 const FT_Vector* v1, |
| 1089 const FT_Vector* v2, |
| 1090 FT_Vector* intersection ) |
| 1091 { |
| 1092 /* |
| 1093 * Let `u' be a zero-based vector from the first segment, `v' from the |
| 1094 * second segment. |
| 1095 * Let `w 'be the zero-based vector from `u1' to `v1'. |
| 1096 * `perp' is the `perpendicular dot product'; see |
| 1097 * http://mathworld.wolfram.com/PerpDotProduct.html. |
| 1098 * `s' is the parameter for the parametric line for the first segment |
| 1099 * (`u'). |
| 1100 * |
| 1101 * See notation in |
| 1102 * http://softsurfer.com/Archive/algorithm_0104/algorithm_0104B.htm. |
| 1103 * Calculations are done in 16.16, but must handle the squaring of |
| 1104 * line lengths in character space. We scale all vectors by 1/32 to |
| 1105 * avoid overflow. This allows values up to 4095 to be squared. The |
| 1106 * scale factor cancels in the divide. |
| 1107 * |
| 1108 * TODO: the scale factor could be computed from UnitsPerEm. |
| 1109 * |
| 1110 */ |
| 1111 |
| 1112 #define cf2_perp( a, b ) \ |
| 1113 ( FT_MulFix( a.x, b.y ) - FT_MulFix( a.y, b.x ) ) |
| 1114 |
| 1115 /* round and divide by 32 */ |
| 1116 #define CF2_CS_SCALE( x ) \ |
| 1117 ( ( (x) + 0x10 ) >> 5 ) |
| 1118 |
| 1119 FT_Vector u, v, w; /* scaled vectors */ |
| 1120 CF2_Fixed denominator, s; |
| 1121 |
| 1122 |
| 1123 u.x = CF2_CS_SCALE( u2->x - u1->x ); |
| 1124 u.y = CF2_CS_SCALE( u2->y - u1->y ); |
| 1125 v.x = CF2_CS_SCALE( v2->x - v1->x ); |
| 1126 v.y = CF2_CS_SCALE( v2->y - v1->y ); |
| 1127 w.x = CF2_CS_SCALE( v1->x - u1->x ); |
| 1128 w.y = CF2_CS_SCALE( v1->y - u1->y ); |
| 1129 |
| 1130 denominator = cf2_perp( u, v ); |
| 1131 |
| 1132 if ( denominator == 0 ) |
| 1133 return FALSE; /* parallel or coincident lines */ |
| 1134 |
| 1135 s = FT_DivFix( cf2_perp( w, v ), denominator ); |
| 1136 |
| 1137 intersection->x = u1->x + FT_MulFix( s, u2->x - u1->x ); |
| 1138 intersection->y = u1->y + FT_MulFix( s, u2->y - u1->y ); |
| 1139 |
| 1140 /* |
| 1141 * Special case snapping for horizontal and vertical lines. |
| 1142 * This cleans up intersections and reduces problems with winding |
| 1143 * order detection. |
| 1144 * Sample case is sbc cd KozGoPr6N-Medium.otf 20 16685. |
| 1145 * Note: these calculations are in character space. |
| 1146 * |
| 1147 */ |
| 1148 |
| 1149 if ( u1->x == u2->x && |
| 1150 cf2_fixedAbs( intersection->x - u1->x ) < glyphpath->snapThreshold ) |
| 1151 intersection->x = u1->x; |
| 1152 if ( u1->y == u2->y && |
| 1153 cf2_fixedAbs( intersection->y - u1->y ) < glyphpath->snapThreshold ) |
| 1154 intersection->y = u1->y; |
| 1155 |
| 1156 if ( v1->x == v2->x && |
| 1157 cf2_fixedAbs( intersection->x - v1->x ) < glyphpath->snapThreshold ) |
| 1158 intersection->x = v1->x; |
| 1159 if ( v1->y == v2->y && |
| 1160 cf2_fixedAbs( intersection->y - v1->y ) < glyphpath->snapThreshold ) |
| 1161 intersection->y = v1->y; |
| 1162 |
| 1163 /* limit the intersection distance from midpoint of u2 and v1 */ |
| 1164 if ( cf2_fixedAbs( intersection->x - ( u2->x + v1->x ) / 2 ) > |
| 1165 glyphpath->miterLimit || |
| 1166 cf2_fixedAbs( intersection->y - ( u2->y + v1->y ) / 2 ) > |
| 1167 glyphpath->miterLimit ) |
| 1168 return FALSE; |
| 1169 |
| 1170 return TRUE; |
| 1171 } |
| 1172 |
| 1173 |
| 1174 /* |
| 1175 * Push the cached element (glyphpath->prevElem*) to the outline |
| 1176 * consumer. When a darkening offset is used, the end point of the |
| 1177 * cached element may be adjusted to an intersection point or it may be |
| 1178 * connected by a line to the current element. This calculation must |
| 1179 * use a HintMap that was valid at the time the element was saved. For |
| 1180 * the first point in a subpath, that is a saved HintMap. For most |
| 1181 * elements, it just means the caller has delayed building a HintMap |
| 1182 * from the current HintMask. |
| 1183 * |
| 1184 * Transform each point with outerTransform and call the outline |
| 1185 * callbacks. This is a general 3x3 transform: |
| 1186 * |
| 1187 * x' = a*x + c*y + tx, y' = b*x + d*y + ty |
| 1188 * |
| 1189 * but it uses 4 elements from CF2_Font and the translation part |
| 1190 * from CF2_GlyphPath. |
| 1191 * |
| 1192 */ |
| 1193 static void |
| 1194 cf2_glyphpath_pushPrevElem( CF2_GlyphPath glyphpath, |
| 1195 CF2_HintMap hintmap, |
| 1196 FT_Vector* nextP0, |
| 1197 FT_Vector nextP1, |
| 1198 FT_Bool close ) |
| 1199 { |
| 1200 CF2_CallbackParamsRec params; |
| 1201 |
| 1202 FT_Vector* prevP0; |
| 1203 FT_Vector* prevP1; |
| 1204 |
| 1205 FT_Vector intersection = { 0, 0 }; |
| 1206 FT_Bool useIntersection = FALSE; |
| 1207 |
| 1208 |
| 1209 FT_ASSERT( glyphpath->prevElemOp == CF2_PathOpLineTo || |
| 1210 glyphpath->prevElemOp == CF2_PathOpCubeTo ); |
| 1211 |
| 1212 if ( glyphpath->prevElemOp == CF2_PathOpLineTo ) |
| 1213 { |
| 1214 prevP0 = &glyphpath->prevElemP0; |
| 1215 prevP1 = &glyphpath->prevElemP1; |
| 1216 } |
| 1217 else |
| 1218 { |
| 1219 prevP0 = &glyphpath->prevElemP2; |
| 1220 prevP1 = &glyphpath->prevElemP3; |
| 1221 } |
| 1222 |
| 1223 /* optimization: if previous and next elements are offset by the same */ |
| 1224 /* amount, then there will be no gap, and no need to compute an */ |
| 1225 /* intersection. */ |
| 1226 if ( prevP1->x != nextP0->x || prevP1->y != nextP0->y ) |
| 1227 { |
| 1228 /* previous element does not join next element: */ |
| 1229 /* adjust end point of previous element to the intersection */ |
| 1230 useIntersection = cf2_glyphpath_computeIntersection( glyphpath, |
| 1231 prevP0, |
| 1232 prevP1, |
| 1233 nextP0, |
| 1234 &nextP1, |
| 1235 &intersection ); |
| 1236 if ( useIntersection ) |
| 1237 { |
| 1238 /* modify the last point of the cached element (either line or */ |
| 1239 /* curve) */ |
| 1240 *prevP1 = intersection; |
| 1241 } |
| 1242 } |
| 1243 |
| 1244 params.pt0 = glyphpath->currentDS; |
| 1245 |
| 1246 switch( glyphpath->prevElemOp ) |
| 1247 { |
| 1248 case CF2_PathOpLineTo: |
| 1249 params.op = CF2_PathOpLineTo; |
| 1250 |
| 1251 /* note: pt2 and pt3 are unused */ |
| 1252 cf2_glyphpath_hintPoint( glyphpath, |
| 1253 hintmap, |
| 1254 ¶ms.pt1, |
| 1255 glyphpath->prevElemP1.x, |
| 1256 glyphpath->prevElemP1.y ); |
| 1257 |
| 1258 glyphpath->callbacks->lineTo( glyphpath->callbacks, ¶ms ); |
| 1259 |
| 1260 glyphpath->currentDS = params.pt1; |
| 1261 |
| 1262 break; |
| 1263 |
| 1264 case CF2_PathOpCubeTo: |
| 1265 params.op = CF2_PathOpCubeTo; |
| 1266 |
| 1267 /* TODO: should we intersect the interior joins (p1-p2 and p2-p3)? */ |
| 1268 cf2_glyphpath_hintPoint( glyphpath, |
| 1269 hintmap, |
| 1270 ¶ms.pt1, |
| 1271 glyphpath->prevElemP1.x, |
| 1272 glyphpath->prevElemP1.y ); |
| 1273 cf2_glyphpath_hintPoint( glyphpath, |
| 1274 hintmap, |
| 1275 ¶ms.pt2, |
| 1276 glyphpath->prevElemP2.x, |
| 1277 glyphpath->prevElemP2.y ); |
| 1278 cf2_glyphpath_hintPoint( glyphpath, |
| 1279 hintmap, |
| 1280 ¶ms.pt3, |
| 1281 glyphpath->prevElemP3.x, |
| 1282 glyphpath->prevElemP3.y ); |
| 1283 |
| 1284 glyphpath->callbacks->cubeTo( glyphpath->callbacks, ¶ms ); |
| 1285 |
| 1286 glyphpath->currentDS = params.pt3; |
| 1287 |
| 1288 break; |
| 1289 } |
| 1290 |
| 1291 if ( !useIntersection || close ) |
| 1292 { |
| 1293 /* insert connecting line between end of previous element and start */ |
| 1294 /* of current one */ |
| 1295 /* note: at the end of a subpath, we might do both, so use `nextP0' */ |
| 1296 /* before we change it, below */ |
| 1297 |
| 1298 cf2_glyphpath_hintPoint( glyphpath, |
| 1299 hintmap, |
| 1300 ¶ms.pt1, |
| 1301 nextP0->x, |
| 1302 nextP0->y ); |
| 1303 |
| 1304 if ( params.pt1.x != glyphpath->currentDS.x || |
| 1305 params.pt1.y != glyphpath->currentDS.y ) |
| 1306 { |
| 1307 /* length is nonzero */ |
| 1308 params.op = CF2_PathOpLineTo; |
| 1309 params.pt0 = glyphpath->currentDS; |
| 1310 |
| 1311 /* note: pt2 and pt3 are unused */ |
| 1312 glyphpath->callbacks->lineTo( glyphpath->callbacks, ¶ms ); |
| 1313 |
| 1314 glyphpath->currentDS = params.pt1; |
| 1315 } |
| 1316 } |
| 1317 |
| 1318 if ( useIntersection ) |
| 1319 { |
| 1320 /* return intersection point to caller */ |
| 1321 *nextP0 = intersection; |
| 1322 } |
| 1323 } |
| 1324 |
| 1325 |
| 1326 /* push a MoveTo element based on current point and offset of current */ |
| 1327 /* element */ |
| 1328 static void |
| 1329 cf2_glyphpath_pushMove( CF2_GlyphPath glyphpath, |
| 1330 FT_Vector start ) |
| 1331 { |
| 1332 CF2_CallbackParamsRec params; |
| 1333 |
| 1334 |
| 1335 params.op = CF2_PathOpMoveTo; |
| 1336 params.pt0 = glyphpath->currentDS; |
| 1337 |
| 1338 /* Test if move has really happened yet; it would have called */ |
| 1339 /* `cf2_hintmap_build' to set `isValid'. */ |
| 1340 if ( !cf2_hintmap_isValid( &glyphpath->hintMap ) ) |
| 1341 { |
| 1342 /* we are here iff first subpath is missing a moveto operator: */ |
| 1343 /* synthesize first moveTo to finish initialization of hintMap */ |
| 1344 cf2_glyphpath_moveTo( glyphpath, |
| 1345 glyphpath->start.x, |
| 1346 glyphpath->start.y ); |
| 1347 } |
| 1348 |
| 1349 cf2_glyphpath_hintPoint( glyphpath, |
| 1350 &glyphpath->hintMap, |
| 1351 ¶ms.pt1, |
| 1352 start.x, |
| 1353 start.y ); |
| 1354 |
| 1355 /* note: pt2 and pt3 are unused */ |
| 1356 glyphpath->callbacks->moveTo( glyphpath->callbacks, ¶ms ); |
| 1357 |
| 1358 glyphpath->currentDS = params.pt1; |
| 1359 glyphpath->offsetStart0 = start; |
| 1360 } |
| 1361 |
| 1362 |
| 1363 /* |
| 1364 * All coordinates are in character space. |
| 1365 * On input, (x1, y1) and (x2, y2) give line segment. |
| 1366 * On output, (x, y) give offset vector. |
| 1367 * We use a piecewise approximation to trig functions. |
| 1368 * |
| 1369 * TODO: Offset true perpendicular and proper length |
| 1370 * supply the y-translation for hinting here, too, |
| 1371 * that adds yOffset unconditionally to *y. |
| 1372 */ |
| 1373 static void |
| 1374 cf2_glyphpath_computeOffset( CF2_GlyphPath glyphpath, |
| 1375 CF2_Fixed x1, |
| 1376 CF2_Fixed y1, |
| 1377 CF2_Fixed x2, |
| 1378 CF2_Fixed y2, |
| 1379 CF2_Fixed* x, |
| 1380 CF2_Fixed* y ) |
| 1381 { |
| 1382 CF2_Fixed dx = x2 - x1; |
| 1383 CF2_Fixed dy = y2 - y1; |
| 1384 |
| 1385 |
| 1386 /* note: negative offsets don't work here; negate deltas to change */ |
| 1387 /* quadrants, below */ |
| 1388 if ( glyphpath->font->reverseWinding ) |
| 1389 { |
| 1390 dx = -dx; |
| 1391 dy = -dy; |
| 1392 } |
| 1393 |
| 1394 *x = *y = 0; |
| 1395 |
| 1396 if ( !glyphpath->darken ) |
| 1397 return; |
| 1398 |
| 1399 /* add momentum for this path element */ |
| 1400 glyphpath->callbacks->windingMomentum += |
| 1401 cf2_getWindingMomentum( x1, y1, x2, y2 ); |
| 1402 |
| 1403 /* note: allow mixed integer and fixed multiplication here */ |
| 1404 if ( dx >= 0 ) |
| 1405 { |
| 1406 if ( dy >= 0 ) |
| 1407 { |
| 1408 /* first quadrant, +x +y */ |
| 1409 |
| 1410 if ( dx > 2 * dy ) |
| 1411 { |
| 1412 /* +x */ |
| 1413 *x = 0; |
| 1414 *y = 0; |
| 1415 } |
| 1416 else if ( dy > 2 * dx ) |
| 1417 { |
| 1418 /* +y */ |
| 1419 *x = glyphpath->xOffset; |
| 1420 *y = glyphpath->yOffset; |
| 1421 } |
| 1422 else |
| 1423 { |
| 1424 /* +x +y */ |
| 1425 *x = FT_MulFix( cf2_floatToFixed( 0.7 ), |
| 1426 glyphpath->xOffset ); |
| 1427 *y = FT_MulFix( cf2_floatToFixed( 1.0 - 0.7 ), |
| 1428 glyphpath->yOffset ); |
| 1429 } |
| 1430 } |
| 1431 else |
| 1432 { |
| 1433 /* fourth quadrant, +x -y */ |
| 1434 |
| 1435 if ( dx > -2 * dy ) |
| 1436 { |
| 1437 /* +x */ |
| 1438 *x = 0; |
| 1439 *y = 0; |
| 1440 } |
| 1441 else if ( -dy > 2 * dx ) |
| 1442 { |
| 1443 /* -y */ |
| 1444 *x = -glyphpath->xOffset; |
| 1445 *y = glyphpath->yOffset; |
| 1446 } |
| 1447 else |
| 1448 { |
| 1449 /* +x -y */ |
| 1450 *x = FT_MulFix( cf2_floatToFixed( -0.7 ), |
| 1451 glyphpath->xOffset ); |
| 1452 *y = FT_MulFix( cf2_floatToFixed( 1.0 - 0.7 ), |
| 1453 glyphpath->yOffset ); |
| 1454 } |
| 1455 } |
| 1456 } |
| 1457 else |
| 1458 { |
| 1459 if ( dy >= 0 ) |
| 1460 { |
| 1461 /* second quadrant, -x +y */ |
| 1462 |
| 1463 if ( -dx > 2 * dy ) |
| 1464 { |
| 1465 /* -x */ |
| 1466 *x = 0; |
| 1467 *y = 2 * glyphpath->yOffset; |
| 1468 } |
| 1469 else if ( dy > -2 * dx ) |
| 1470 { |
| 1471 /* +y */ |
| 1472 *x = glyphpath->xOffset; |
| 1473 *y = glyphpath->yOffset; |
| 1474 } |
| 1475 else |
| 1476 { |
| 1477 /* -x +y */ |
| 1478 *x = FT_MulFix( cf2_floatToFixed( 0.7 ), |
| 1479 glyphpath->xOffset ); |
| 1480 *y = FT_MulFix( cf2_floatToFixed( 1.0 + 0.7 ), |
| 1481 glyphpath->yOffset ); |
| 1482 } |
| 1483 } |
| 1484 else |
| 1485 { |
| 1486 /* third quadrant, -x -y */ |
| 1487 |
| 1488 if ( -dx > -2 * dy ) |
| 1489 { |
| 1490 /* -x */ |
| 1491 *x = 0; |
| 1492 *y = 2 * glyphpath->yOffset; |
| 1493 } |
| 1494 else if ( -dy > -2 * dx ) |
| 1495 { |
| 1496 /* -y */ |
| 1497 *x = -glyphpath->xOffset; |
| 1498 *y = glyphpath->xOffset; |
| 1499 } |
| 1500 else |
| 1501 { |
| 1502 /* -x -y */ |
| 1503 *x = FT_MulFix( cf2_floatToFixed( -0.7 ), |
| 1504 glyphpath->xOffset ); |
| 1505 *y = FT_MulFix( cf2_floatToFixed( 1.0 + 0.7 ), |
| 1506 glyphpath->yOffset ); |
| 1507 } |
| 1508 } |
| 1509 } |
| 1510 } |
| 1511 |
| 1512 |
| 1513 FT_LOCAL_DEF( void ) |
| 1514 cf2_glyphpath_moveTo( CF2_GlyphPath glyphpath, |
| 1515 CF2_Fixed x, |
| 1516 CF2_Fixed y ) |
| 1517 { |
| 1518 cf2_glyphpath_closeOpenPath( glyphpath ); |
| 1519 |
| 1520 /* save the parameters of the move for later, when we'll know how to */ |
| 1521 /* offset it; */ |
| 1522 /* also save last move point */ |
| 1523 glyphpath->currentCS.x = glyphpath->start.x = x; |
| 1524 glyphpath->currentCS.y = glyphpath->start.y = y; |
| 1525 |
| 1526 glyphpath->moveIsPending = TRUE; |
| 1527 |
| 1528 /* ensure we have a valid map with current mask */ |
| 1529 if ( !cf2_hintmap_isValid( &glyphpath->hintMap ) || |
| 1530 cf2_hintmask_isNew( glyphpath->hintMask ) ) |
| 1531 cf2_hintmap_build( &glyphpath->hintMap, |
| 1532 glyphpath->hStemHintArray, |
| 1533 glyphpath->vStemHintArray, |
| 1534 glyphpath->hintMask, |
| 1535 glyphpath->hintOriginY, |
| 1536 FALSE ); |
| 1537 |
| 1538 /* save a copy of current HintMap to use when drawing initial point */ |
| 1539 glyphpath->firstHintMap = glyphpath->hintMap; /* structure copy */ |
| 1540 } |
| 1541 |
| 1542 |
| 1543 FT_LOCAL_DEF( void ) |
| 1544 cf2_glyphpath_lineTo( CF2_GlyphPath glyphpath, |
| 1545 CF2_Fixed x, |
| 1546 CF2_Fixed y ) |
| 1547 { |
| 1548 CF2_Fixed xOffset, yOffset; |
| 1549 FT_Vector P0, P1; |
| 1550 |
| 1551 |
| 1552 /* can't compute offset of zero length line, so ignore them */ |
| 1553 if ( glyphpath->currentCS.x == x && glyphpath->currentCS.y == y ) |
| 1554 return; |
| 1555 |
| 1556 cf2_glyphpath_computeOffset( glyphpath, |
| 1557 glyphpath->currentCS.x, |
| 1558 glyphpath->currentCS.y, |
| 1559 x, |
| 1560 y, |
| 1561 &xOffset, |
| 1562 &yOffset ); |
| 1563 |
| 1564 /* construct offset points */ |
| 1565 P0.x = glyphpath->currentCS.x + xOffset; |
| 1566 P0.y = glyphpath->currentCS.y + yOffset; |
| 1567 P1.x = x + xOffset; |
| 1568 P1.y = y + yOffset; |
| 1569 |
| 1570 if ( glyphpath->moveIsPending ) |
| 1571 { |
| 1572 /* emit offset 1st point as MoveTo */ |
| 1573 cf2_glyphpath_pushMove( glyphpath, P0 ); |
| 1574 |
| 1575 glyphpath->moveIsPending = FALSE; /* adjust state machine */ |
| 1576 glyphpath->pathIsOpen = TRUE; |
| 1577 |
| 1578 glyphpath->offsetStart1 = P1; /* record second point */ |
| 1579 } |
| 1580 |
| 1581 if ( glyphpath->elemIsQueued ) |
| 1582 { |
| 1583 FT_ASSERT( cf2_hintmap_isValid( &glyphpath->hintMap ) ); |
| 1584 |
| 1585 cf2_glyphpath_pushPrevElem( glyphpath, |
| 1586 &glyphpath->hintMap, |
| 1587 &P0, |
| 1588 P1, |
| 1589 FALSE ); |
| 1590 } |
| 1591 |
| 1592 /* queue the current element with offset points */ |
| 1593 glyphpath->elemIsQueued = TRUE; |
| 1594 glyphpath->prevElemOp = CF2_PathOpLineTo; |
| 1595 glyphpath->prevElemP0 = P0; |
| 1596 glyphpath->prevElemP1 = P1; |
| 1597 |
| 1598 /* update current map */ |
| 1599 if ( cf2_hintmask_isNew( glyphpath->hintMask ) ) |
| 1600 cf2_hintmap_build( &glyphpath->hintMap, |
| 1601 glyphpath->hStemHintArray, |
| 1602 glyphpath->vStemHintArray, |
| 1603 glyphpath->hintMask, |
| 1604 glyphpath->hintOriginY, |
| 1605 FALSE ); |
| 1606 |
| 1607 glyphpath->currentCS.x = x; /* pre-offset current point */ |
| 1608 glyphpath->currentCS.y = y; |
| 1609 } |
| 1610 |
| 1611 |
| 1612 FT_LOCAL_DEF( void ) |
| 1613 cf2_glyphpath_curveTo( CF2_GlyphPath glyphpath, |
| 1614 CF2_Fixed x1, |
| 1615 CF2_Fixed y1, |
| 1616 CF2_Fixed x2, |
| 1617 CF2_Fixed y2, |
| 1618 CF2_Fixed x3, |
| 1619 CF2_Fixed y3 ) |
| 1620 { |
| 1621 CF2_Fixed xOffset1, yOffset1, xOffset3, yOffset3; |
| 1622 FT_Vector P0, P1, P2, P3; |
| 1623 |
| 1624 |
| 1625 /* TODO: ignore zero length portions of curve?? */ |
| 1626 cf2_glyphpath_computeOffset( glyphpath, |
| 1627 glyphpath->currentCS.x, |
| 1628 glyphpath->currentCS.y, |
| 1629 x1, |
| 1630 y1, |
| 1631 &xOffset1, |
| 1632 &yOffset1 ); |
| 1633 cf2_glyphpath_computeOffset( glyphpath, |
| 1634 x2, |
| 1635 y2, |
| 1636 x3, |
| 1637 y3, |
| 1638 &xOffset3, |
| 1639 &yOffset3 ); |
| 1640 |
| 1641 /* add momentum from the middle segment */ |
| 1642 glyphpath->callbacks->windingMomentum += |
| 1643 cf2_getWindingMomentum( x1, y1, x2, y2 ); |
| 1644 |
| 1645 /* construct offset points */ |
| 1646 P0.x = glyphpath->currentCS.x + xOffset1; |
| 1647 P0.y = glyphpath->currentCS.y + yOffset1; |
| 1648 P1.x = x1 + xOffset1; |
| 1649 P1.y = y1 + yOffset1; |
| 1650 /* note: preserve angle of final segment by using offset3 at both ends */ |
| 1651 P2.x = x2 + xOffset3; |
| 1652 P2.y = y2 + yOffset3; |
| 1653 P3.x = x3 + xOffset3; |
| 1654 P3.y = y3 + yOffset3; |
| 1655 |
| 1656 if ( glyphpath->moveIsPending ) |
| 1657 { |
| 1658 /* emit offset 1st point as MoveTo */ |
| 1659 cf2_glyphpath_pushMove( glyphpath, P0 ); |
| 1660 |
| 1661 glyphpath->moveIsPending = FALSE; |
| 1662 glyphpath->pathIsOpen = TRUE; |
| 1663 |
| 1664 glyphpath->offsetStart1 = P1; /* record second point */ |
| 1665 } |
| 1666 |
| 1667 if ( glyphpath->elemIsQueued ) |
| 1668 { |
| 1669 FT_ASSERT( cf2_hintmap_isValid( &glyphpath->hintMap ) ); |
| 1670 |
| 1671 cf2_glyphpath_pushPrevElem( glyphpath, |
| 1672 &glyphpath->hintMap, |
| 1673 &P0, |
| 1674 P1, |
| 1675 FALSE ); |
| 1676 } |
| 1677 |
| 1678 /* queue the current element with offset points */ |
| 1679 glyphpath->elemIsQueued = TRUE; |
| 1680 glyphpath->prevElemOp = CF2_PathOpCubeTo; |
| 1681 glyphpath->prevElemP0 = P0; |
| 1682 glyphpath->prevElemP1 = P1; |
| 1683 glyphpath->prevElemP2 = P2; |
| 1684 glyphpath->prevElemP3 = P3; |
| 1685 |
| 1686 /* update current map */ |
| 1687 if ( cf2_hintmask_isNew( glyphpath->hintMask ) ) |
| 1688 cf2_hintmap_build( &glyphpath->hintMap, |
| 1689 glyphpath->hStemHintArray, |
| 1690 glyphpath->vStemHintArray, |
| 1691 glyphpath->hintMask, |
| 1692 glyphpath->hintOriginY, |
| 1693 FALSE ); |
| 1694 |
| 1695 glyphpath->currentCS.x = x3; /* pre-offset current point */ |
| 1696 glyphpath->currentCS.y = y3; |
| 1697 } |
| 1698 |
| 1699 |
| 1700 FT_LOCAL_DEF( void ) |
| 1701 cf2_glyphpath_closeOpenPath( CF2_GlyphPath glyphpath ) |
| 1702 { |
| 1703 if ( glyphpath->pathIsOpen ) |
| 1704 { |
| 1705 FT_ASSERT( cf2_hintmap_isValid( &glyphpath->firstHintMap ) ); |
| 1706 |
| 1707 /* since we need to apply an offset to the implicit lineto, we make */ |
| 1708 /* it explicit here */ |
| 1709 cf2_glyphpath_lineTo( glyphpath, |
| 1710 glyphpath->start.x, |
| 1711 glyphpath->start.y ); |
| 1712 |
| 1713 /* Draw previous element (the explicit LineTo we just created, */ |
| 1714 /* above) and connect it to the start point, but with the offset we */ |
| 1715 /* saved from the first element. */ |
| 1716 /* Use the saved HintMap, too. */ |
| 1717 FT_ASSERT( glyphpath->elemIsQueued ); |
| 1718 |
| 1719 cf2_glyphpath_pushPrevElem( glyphpath, |
| 1720 &glyphpath->firstHintMap, |
| 1721 &glyphpath->offsetStart0, |
| 1722 glyphpath->offsetStart1, |
| 1723 TRUE ); |
| 1724 |
| 1725 /* reset state machine */ |
| 1726 glyphpath->moveIsPending = TRUE; |
| 1727 glyphpath->pathIsOpen = FALSE; |
| 1728 glyphpath->elemIsQueued = FALSE; |
| 1729 } |
| 1730 } |
| 1731 |
| 1732 |
| 1733 /* END */ |
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