Correctly track texture cleared state for sharing
[chromium-blink-merge.git] / ui / gfx / render_text_harfbuzz.cc
blob82580b3961f5d475e71b407b70839cc35b8cc6be
1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "ui/gfx/render_text_harfbuzz.h"
7 #include <limits>
8 #include <map>
10 #include "base/i18n/bidi_line_iterator.h"
11 #include "base/i18n/break_iterator.h"
12 #include "base/i18n/char_iterator.h"
13 #include "base/lazy_instance.h"
14 #include "base/profiler/scoped_tracker.h"
15 #include "third_party/harfbuzz-ng/src/hb.h"
16 #include "third_party/icu/source/common/unicode/ubidi.h"
17 #include "third_party/skia/include/core/SkColor.h"
18 #include "third_party/skia/include/core/SkTypeface.h"
19 #include "ui/gfx/canvas.h"
20 #include "ui/gfx/font_fallback.h"
21 #include "ui/gfx/font_render_params.h"
22 #include "ui/gfx/utf16_indexing.h"
24 #if defined(OS_WIN)
25 #include "ui/gfx/font_fallback_win.h"
26 #endif
28 using gfx::internal::RangeF;
29 using gfx::internal::RoundRangeF;
31 namespace gfx {
33 namespace {
35 // Text length limit. Longer strings are slow and not fully tested.
36 const size_t kMaxTextLength = 10000;
38 // The maximum number of scripts a Unicode character can belong to. This value
39 // is arbitrarily chosen to be a good limit because it is unlikely for a single
40 // character to belong to more scripts.
41 const size_t kMaxScripts = 5;
43 // Maps from code points to glyph indices in a font.
44 typedef std::map<uint32_t, uint16_t> GlyphCache;
46 // Font data provider for HarfBuzz using Skia. Copied from Blink.
47 // TODO(ckocagil): Eliminate the duplication. http://crbug.com/368375
48 struct FontData {
49 FontData(GlyphCache* glyph_cache) : glyph_cache_(glyph_cache) {}
51 SkPaint paint_;
52 GlyphCache* glyph_cache_;
55 hb_position_t SkiaScalarToHarfBuzzPosition(SkScalar value) {
56 return SkScalarToFixed(value);
59 // Deletes the object at the given pointer after casting it to the given type.
60 template<typename Type>
61 void DeleteByType(void* data) {
62 Type* typed_data = reinterpret_cast<Type*>(data);
63 delete typed_data;
66 template<typename Type>
67 void DeleteArrayByType(void* data) {
68 Type* typed_data = reinterpret_cast<Type*>(data);
69 delete[] typed_data;
72 // Outputs the |width| and |extents| of the glyph with index |codepoint| in
73 // |paint|'s font.
74 void GetGlyphWidthAndExtents(SkPaint* paint,
75 hb_codepoint_t codepoint,
76 hb_position_t* width,
77 hb_glyph_extents_t* extents) {
78 DCHECK_LE(codepoint, std::numeric_limits<uint16>::max());
79 paint->setTextEncoding(SkPaint::kGlyphID_TextEncoding);
81 SkScalar sk_width;
82 SkRect sk_bounds;
83 uint16_t glyph = static_cast<uint16_t>(codepoint);
85 paint->getTextWidths(&glyph, sizeof(glyph), &sk_width, &sk_bounds);
86 if (width)
87 *width = SkiaScalarToHarfBuzzPosition(sk_width);
88 if (extents) {
89 // Invert y-axis because Skia is y-grows-down but we set up HarfBuzz to be
90 // y-grows-up.
91 extents->x_bearing = SkiaScalarToHarfBuzzPosition(sk_bounds.fLeft);
92 extents->y_bearing = SkiaScalarToHarfBuzzPosition(-sk_bounds.fTop);
93 extents->width = SkiaScalarToHarfBuzzPosition(sk_bounds.width());
94 extents->height = SkiaScalarToHarfBuzzPosition(-sk_bounds.height());
98 // Writes the |glyph| index for the given |unicode| code point. Returns whether
99 // the glyph exists, i.e. it is not a missing glyph.
100 hb_bool_t GetGlyph(hb_font_t* font,
101 void* data,
102 hb_codepoint_t unicode,
103 hb_codepoint_t variation_selector,
104 hb_codepoint_t* glyph,
105 void* user_data) {
106 FontData* font_data = reinterpret_cast<FontData*>(data);
107 GlyphCache* cache = font_data->glyph_cache_;
109 bool exists = cache->count(unicode) != 0;
110 if (!exists) {
111 SkPaint* paint = &font_data->paint_;
112 paint->setTextEncoding(SkPaint::kUTF32_TextEncoding);
113 paint->textToGlyphs(&unicode, sizeof(hb_codepoint_t), &(*cache)[unicode]);
115 *glyph = (*cache)[unicode];
116 return !!*glyph;
119 // Returns the horizontal advance value of the |glyph|.
120 hb_position_t GetGlyphHorizontalAdvance(hb_font_t* font,
121 void* data,
122 hb_codepoint_t glyph,
123 void* user_data) {
124 FontData* font_data = reinterpret_cast<FontData*>(data);
125 hb_position_t advance = 0;
127 GetGlyphWidthAndExtents(&font_data->paint_, glyph, &advance, 0);
128 return advance;
131 hb_bool_t GetGlyphHorizontalOrigin(hb_font_t* font,
132 void* data,
133 hb_codepoint_t glyph,
134 hb_position_t* x,
135 hb_position_t* y,
136 void* user_data) {
137 // Just return true, like the HarfBuzz-FreeType implementation.
138 return true;
141 hb_position_t GetGlyphKerning(FontData* font_data,
142 hb_codepoint_t first_glyph,
143 hb_codepoint_t second_glyph) {
144 SkTypeface* typeface = font_data->paint_.getTypeface();
145 const uint16_t glyphs[2] = { static_cast<uint16_t>(first_glyph),
146 static_cast<uint16_t>(second_glyph) };
147 int32_t kerning_adjustments[1] = { 0 };
149 if (!typeface->getKerningPairAdjustments(glyphs, 2, kerning_adjustments))
150 return 0;
152 SkScalar upm = SkIntToScalar(typeface->getUnitsPerEm());
153 SkScalar size = font_data->paint_.getTextSize();
154 return SkiaScalarToHarfBuzzPosition(
155 SkScalarMulDiv(SkIntToScalar(kerning_adjustments[0]), size, upm));
158 hb_position_t GetGlyphHorizontalKerning(hb_font_t* font,
159 void* data,
160 hb_codepoint_t left_glyph,
161 hb_codepoint_t right_glyph,
162 void* user_data) {
163 FontData* font_data = reinterpret_cast<FontData*>(data);
164 if (font_data->paint_.isVerticalText()) {
165 // We don't support cross-stream kerning.
166 return 0;
169 return GetGlyphKerning(font_data, left_glyph, right_glyph);
172 hb_position_t GetGlyphVerticalKerning(hb_font_t* font,
173 void* data,
174 hb_codepoint_t top_glyph,
175 hb_codepoint_t bottom_glyph,
176 void* user_data) {
177 FontData* font_data = reinterpret_cast<FontData*>(data);
178 if (!font_data->paint_.isVerticalText()) {
179 // We don't support cross-stream kerning.
180 return 0;
183 return GetGlyphKerning(font_data, top_glyph, bottom_glyph);
186 // Writes the |extents| of |glyph|.
187 hb_bool_t GetGlyphExtents(hb_font_t* font,
188 void* data,
189 hb_codepoint_t glyph,
190 hb_glyph_extents_t* extents,
191 void* user_data) {
192 FontData* font_data = reinterpret_cast<FontData*>(data);
194 GetGlyphWidthAndExtents(&font_data->paint_, glyph, 0, extents);
195 return true;
198 class FontFuncs {
199 public:
200 FontFuncs() : font_funcs_(hb_font_funcs_create()) {
201 hb_font_funcs_set_glyph_func(font_funcs_, GetGlyph, 0, 0);
202 hb_font_funcs_set_glyph_h_advance_func(
203 font_funcs_, GetGlyphHorizontalAdvance, 0, 0);
204 hb_font_funcs_set_glyph_h_kerning_func(
205 font_funcs_, GetGlyphHorizontalKerning, 0, 0);
206 hb_font_funcs_set_glyph_h_origin_func(
207 font_funcs_, GetGlyphHorizontalOrigin, 0, 0);
208 hb_font_funcs_set_glyph_v_kerning_func(
209 font_funcs_, GetGlyphVerticalKerning, 0, 0);
210 hb_font_funcs_set_glyph_extents_func(
211 font_funcs_, GetGlyphExtents, 0, 0);
212 hb_font_funcs_make_immutable(font_funcs_);
215 ~FontFuncs() {
216 hb_font_funcs_destroy(font_funcs_);
219 hb_font_funcs_t* get() { return font_funcs_; }
221 private:
222 hb_font_funcs_t* font_funcs_;
224 DISALLOW_COPY_AND_ASSIGN(FontFuncs);
227 base::LazyInstance<FontFuncs>::Leaky g_font_funcs = LAZY_INSTANCE_INITIALIZER;
229 // Returns the raw data of the font table |tag|.
230 hb_blob_t* GetFontTable(hb_face_t* face, hb_tag_t tag, void* user_data) {
231 SkTypeface* typeface = reinterpret_cast<SkTypeface*>(user_data);
233 const size_t table_size = typeface->getTableSize(tag);
234 if (!table_size)
235 return 0;
237 scoped_ptr<char[]> buffer(new char[table_size]);
238 if (!buffer)
239 return 0;
240 size_t actual_size = typeface->getTableData(tag, 0, table_size, buffer.get());
241 if (table_size != actual_size)
242 return 0;
244 char* buffer_raw = buffer.release();
245 return hb_blob_create(buffer_raw, table_size, HB_MEMORY_MODE_WRITABLE,
246 buffer_raw, DeleteArrayByType<char>);
249 void UnrefSkTypeface(void* data) {
250 SkTypeface* skia_face = reinterpret_cast<SkTypeface*>(data);
251 SkSafeUnref(skia_face);
254 // Wrapper class for a HarfBuzz face created from a given Skia face.
255 class HarfBuzzFace {
256 public:
257 HarfBuzzFace() : face_(NULL) {}
259 ~HarfBuzzFace() {
260 if (face_)
261 hb_face_destroy(face_);
264 void Init(SkTypeface* skia_face) {
265 SkSafeRef(skia_face);
266 face_ = hb_face_create_for_tables(GetFontTable, skia_face, UnrefSkTypeface);
267 DCHECK(face_);
270 hb_face_t* get() {
271 return face_;
274 private:
275 hb_face_t* face_;
278 // Creates a HarfBuzz font from the given Skia face and text size.
279 hb_font_t* CreateHarfBuzzFont(SkTypeface* skia_face,
280 SkScalar text_size,
281 const FontRenderParams& params,
282 bool background_is_transparent) {
283 typedef std::pair<HarfBuzzFace, GlyphCache> FaceCache;
285 // TODO(ckocagil): This shouldn't grow indefinitely. Maybe use base::MRUCache?
286 static std::map<SkFontID, FaceCache> face_caches;
288 FaceCache* face_cache = &face_caches[skia_face->uniqueID()];
289 if (face_cache->first.get() == NULL)
290 face_cache->first.Init(skia_face);
292 hb_font_t* harfbuzz_font = hb_font_create(face_cache->first.get());
293 const int scale = SkScalarToFixed(text_size);
294 hb_font_set_scale(harfbuzz_font, scale, scale);
295 FontData* hb_font_data = new FontData(&face_cache->second);
296 hb_font_data->paint_.setTypeface(skia_face);
297 hb_font_data->paint_.setTextSize(text_size);
298 // TODO(ckocagil): Do we need to update these params later?
299 internal::ApplyRenderParams(params, background_is_transparent,
300 &hb_font_data->paint_);
301 hb_font_set_funcs(harfbuzz_font, g_font_funcs.Get().get(), hb_font_data,
302 DeleteByType<FontData>);
303 hb_font_make_immutable(harfbuzz_font);
304 return harfbuzz_font;
307 // Returns true if characters of |block_code| may trigger font fallback.
308 // Dingbats and emoticons can be rendered through the color emoji font file,
309 // therefore it needs to be trigerred as fallbacks. See crbug.com/448909
310 bool IsUnusualBlockCode(UBlockCode block_code) {
311 return block_code == UBLOCK_GEOMETRIC_SHAPES ||
312 block_code == UBLOCK_MISCELLANEOUS_SYMBOLS ||
313 block_code == UBLOCK_DINGBATS ||
314 block_code == UBLOCK_EMOTICONS;
317 bool IsBracket(UChar32 character) {
318 static const char kBrackets[] = { '(', ')', '{', '}', '<', '>', };
319 static const char* kBracketsEnd = kBrackets + arraysize(kBrackets);
320 return std::find(kBrackets, kBracketsEnd, character) != kBracketsEnd;
323 // Returns the boundary between a special and a regular character. Special
324 // characters are brackets or characters that satisfy |IsUnusualBlockCode|.
325 size_t FindRunBreakingCharacter(const base::string16& text,
326 size_t run_start,
327 size_t run_break) {
328 const int32 run_length = static_cast<int32>(run_break - run_start);
329 base::i18n::UTF16CharIterator iter(text.c_str() + run_start, run_length);
330 const UChar32 first_char = iter.get();
331 const UBlockCode first_block = ublock_getCode(first_char);
332 const bool first_block_unusual = IsUnusualBlockCode(first_block);
333 const bool first_bracket = IsBracket(first_char);
335 while (iter.Advance() && iter.array_pos() < run_length) {
336 const UChar32 current_char = iter.get();
337 const UBlockCode current_block = ublock_getCode(current_char);
338 const bool block_break = current_block != first_block &&
339 (first_block_unusual || IsUnusualBlockCode(current_block));
340 if (block_break || first_bracket != IsBracket(current_char))
341 return run_start + iter.array_pos();
343 return run_break;
346 // If the given scripts match, returns the one that isn't USCRIPT_COMMON or
347 // USCRIPT_INHERITED, i.e. the more specific one. Otherwise returns
348 // USCRIPT_INVALID_CODE.
349 UScriptCode ScriptIntersect(UScriptCode first, UScriptCode second) {
350 if (first == second ||
351 (second > USCRIPT_INVALID_CODE && second <= USCRIPT_INHERITED)) {
352 return first;
354 if (first > USCRIPT_INVALID_CODE && first <= USCRIPT_INHERITED)
355 return second;
356 return USCRIPT_INVALID_CODE;
359 // Writes the script and the script extensions of the character with the
360 // Unicode |codepoint|. Returns the number of written scripts.
361 int GetScriptExtensions(UChar32 codepoint, UScriptCode* scripts) {
362 UErrorCode icu_error = U_ZERO_ERROR;
363 // ICU documentation incorrectly states that the result of
364 // |uscript_getScriptExtensions| will contain the regular script property.
365 // Write the character's script property to the first element.
366 scripts[0] = uscript_getScript(codepoint, &icu_error);
367 if (U_FAILURE(icu_error))
368 return 0;
369 // Fill the rest of |scripts| with the extensions.
370 int count = uscript_getScriptExtensions(codepoint, scripts + 1,
371 kMaxScripts - 1, &icu_error);
372 if (U_FAILURE(icu_error))
373 count = 0;
374 return count + 1;
377 // Intersects the script extensions set of |codepoint| with |result| and writes
378 // to |result|, reading and updating |result_size|.
379 void ScriptSetIntersect(UChar32 codepoint,
380 UScriptCode* result,
381 size_t* result_size) {
382 UScriptCode scripts[kMaxScripts] = { USCRIPT_INVALID_CODE };
383 int count = GetScriptExtensions(codepoint, scripts);
385 size_t out_size = 0;
387 for (size_t i = 0; i < *result_size; ++i) {
388 for (int j = 0; j < count; ++j) {
389 UScriptCode intersection = ScriptIntersect(result[i], scripts[j]);
390 if (intersection != USCRIPT_INVALID_CODE) {
391 result[out_size++] = intersection;
392 break;
397 *result_size = out_size;
400 // Find the longest sequence of characters from 0 and up to |length| that
401 // have at least one common UScriptCode value. Writes the common script value to
402 // |script| and returns the length of the sequence. Takes the characters' script
403 // extensions into account. http://www.unicode.org/reports/tr24/#ScriptX
405 // Consider 3 characters with the script values {Kana}, {Hira, Kana}, {Kana}.
406 // Without script extensions only the first script in each set would be taken
407 // into account, resulting in 3 runs where 1 would be enough.
408 // TODO(ckocagil): Write a unit test for the case above.
409 int ScriptInterval(const base::string16& text,
410 size_t start,
411 size_t length,
412 UScriptCode* script) {
413 DCHECK_GT(length, 0U);
415 UScriptCode scripts[kMaxScripts] = { USCRIPT_INVALID_CODE };
417 base::i18n::UTF16CharIterator char_iterator(text.c_str() + start, length);
418 size_t scripts_size = GetScriptExtensions(char_iterator.get(), scripts);
419 *script = scripts[0];
421 while (char_iterator.Advance()) {
422 ScriptSetIntersect(char_iterator.get(), scripts, &scripts_size);
423 if (scripts_size == 0U)
424 return char_iterator.array_pos();
425 *script = scripts[0];
428 return length;
431 // A port of hb_icu_script_to_script because harfbuzz on CrOS is built without
432 // hb-icu. See http://crbug.com/356929
433 inline hb_script_t ICUScriptToHBScript(UScriptCode script) {
434 if (script == USCRIPT_INVALID_CODE)
435 return HB_SCRIPT_INVALID;
436 return hb_script_from_string(uscript_getShortName(script), -1);
439 // Helper template function for |TextRunHarfBuzz::GetClusterAt()|. |Iterator|
440 // can be a forward or reverse iterator type depending on the text direction.
441 template <class Iterator>
442 void GetClusterAtImpl(size_t pos,
443 Range range,
444 Iterator elements_begin,
445 Iterator elements_end,
446 bool reversed,
447 Range* chars,
448 Range* glyphs) {
449 Iterator element = std::upper_bound(elements_begin, elements_end, pos);
450 chars->set_end(element == elements_end ? range.end() : *element);
451 glyphs->set_end(reversed ? elements_end - element : element - elements_begin);
453 DCHECK(element != elements_begin);
454 while (--element != elements_begin && *element == *(element - 1));
455 chars->set_start(*element);
456 glyphs->set_start(
457 reversed ? elements_end - element : element - elements_begin);
458 if (reversed)
459 *glyphs = Range(glyphs->end(), glyphs->start());
461 DCHECK(!chars->is_reversed());
462 DCHECK(!chars->is_empty());
463 DCHECK(!glyphs->is_reversed());
464 DCHECK(!glyphs->is_empty());
467 } // namespace
469 namespace internal {
471 Range RoundRangeF(const RangeF& range_f) {
472 return Range(std::floor(range_f.first + 0.5f),
473 std::floor(range_f.second + 0.5f));
476 TextRunHarfBuzz::TextRunHarfBuzz()
477 : width(0.0f),
478 preceding_run_widths(0.0f),
479 is_rtl(false),
480 level(0),
481 script(USCRIPT_INVALID_CODE),
482 glyph_count(static_cast<size_t>(-1)),
483 font_size(0),
484 font_style(0),
485 strike(false),
486 diagonal_strike(false),
487 underline(false) {}
489 TextRunHarfBuzz::~TextRunHarfBuzz() {}
491 void TextRunHarfBuzz::GetClusterAt(size_t pos,
492 Range* chars,
493 Range* glyphs) const {
494 DCHECK(range.Contains(Range(pos, pos + 1)));
495 DCHECK(chars);
496 DCHECK(glyphs);
498 if (glyph_count == 0) {
499 *chars = range;
500 *glyphs = Range();
501 return;
504 if (is_rtl) {
505 GetClusterAtImpl(pos, range, glyph_to_char.rbegin(), glyph_to_char.rend(),
506 true, chars, glyphs);
507 return;
510 GetClusterAtImpl(pos, range, glyph_to_char.begin(), glyph_to_char.end(),
511 false, chars, glyphs);
514 Range TextRunHarfBuzz::CharRangeToGlyphRange(const Range& char_range) const {
515 DCHECK(range.Contains(char_range));
516 DCHECK(!char_range.is_reversed());
517 DCHECK(!char_range.is_empty());
519 Range start_glyphs;
520 Range end_glyphs;
521 Range temp_range;
522 GetClusterAt(char_range.start(), &temp_range, &start_glyphs);
523 GetClusterAt(char_range.end() - 1, &temp_range, &end_glyphs);
525 return is_rtl ? Range(end_glyphs.start(), start_glyphs.end()) :
526 Range(start_glyphs.start(), end_glyphs.end());
529 size_t TextRunHarfBuzz::CountMissingGlyphs() const {
530 static const int kMissingGlyphId = 0;
531 size_t missing = 0;
532 for (size_t i = 0; i < glyph_count; ++i)
533 missing += (glyphs[i] == kMissingGlyphId) ? 1 : 0;
534 return missing;
537 RangeF TextRunHarfBuzz::GetGraphemeBounds(
538 base::i18n::BreakIterator* grapheme_iterator,
539 size_t text_index) {
540 DCHECK_LT(text_index, range.end());
541 if (glyph_count == 0)
542 return RangeF(preceding_run_widths, preceding_run_widths + width);
544 Range chars;
545 Range glyphs;
546 GetClusterAt(text_index, &chars, &glyphs);
547 const float cluster_begin_x = positions[glyphs.start()].x();
548 const float cluster_end_x = glyphs.end() < glyph_count ?
549 positions[glyphs.end()].x() : SkFloatToScalar(width);
551 // A cluster consists of a number of code points and corresponds to a number
552 // of glyphs that should be drawn together. A cluster can contain multiple
553 // graphemes. In order to place the cursor at a grapheme boundary inside the
554 // cluster, we simply divide the cluster width by the number of graphemes.
555 if (chars.length() > 1 && grapheme_iterator) {
556 int before = 0;
557 int total = 0;
558 for (size_t i = chars.start(); i < chars.end(); ++i) {
559 if (grapheme_iterator->IsGraphemeBoundary(i)) {
560 if (i < text_index)
561 ++before;
562 ++total;
565 DCHECK_GT(total, 0);
566 if (total > 1) {
567 if (is_rtl)
568 before = total - before - 1;
569 DCHECK_GE(before, 0);
570 DCHECK_LT(before, total);
571 const int cluster_width = cluster_end_x - cluster_begin_x;
572 const int grapheme_begin_x = cluster_begin_x + static_cast<int>(0.5f +
573 cluster_width * before / static_cast<float>(total));
574 const int grapheme_end_x = cluster_begin_x + static_cast<int>(0.5f +
575 cluster_width * (before + 1) / static_cast<float>(total));
576 return RangeF(preceding_run_widths + grapheme_begin_x,
577 preceding_run_widths + grapheme_end_x);
581 return RangeF(preceding_run_widths + cluster_begin_x,
582 preceding_run_widths + cluster_end_x);
585 } // namespace internal
587 RenderTextHarfBuzz::RenderTextHarfBuzz()
588 : RenderText(),
589 needs_layout_(false) {
590 set_truncate_length(kMaxTextLength);
593 RenderTextHarfBuzz::~RenderTextHarfBuzz() {}
595 scoped_ptr<RenderText> RenderTextHarfBuzz::CreateInstanceOfSameType() const {
596 return scoped_ptr<RenderTextHarfBuzz>(new RenderTextHarfBuzz);
599 Size RenderTextHarfBuzz::GetStringSize() {
600 const SizeF size_f = GetStringSizeF();
601 return Size(std::ceil(size_f.width()), size_f.height());
604 SizeF RenderTextHarfBuzz::GetStringSizeF() {
605 EnsureLayout();
606 return lines()[0].size;
609 SelectionModel RenderTextHarfBuzz::FindCursorPosition(const Point& point) {
610 EnsureLayout();
612 int x = ToTextPoint(point).x();
613 float offset = 0;
614 size_t run_index = GetRunContainingXCoord(x, &offset);
615 if (run_index >= runs_.size())
616 return EdgeSelectionModel((x < 0) ? CURSOR_LEFT : CURSOR_RIGHT);
617 const internal::TextRunHarfBuzz& run = *runs_[run_index];
619 for (size_t i = 0; i < run.glyph_count; ++i) {
620 const SkScalar end =
621 i + 1 == run.glyph_count ? run.width : run.positions[i + 1].x();
622 const SkScalar middle = (end + run.positions[i].x()) / 2;
624 if (offset < middle) {
625 return SelectionModel(LayoutIndexToTextIndex(
626 run.glyph_to_char[i] + (run.is_rtl ? 1 : 0)),
627 (run.is_rtl ? CURSOR_BACKWARD : CURSOR_FORWARD));
629 if (offset < end) {
630 return SelectionModel(LayoutIndexToTextIndex(
631 run.glyph_to_char[i] + (run.is_rtl ? 0 : 1)),
632 (run.is_rtl ? CURSOR_FORWARD : CURSOR_BACKWARD));
635 return EdgeSelectionModel(CURSOR_RIGHT);
638 std::vector<RenderText::FontSpan> RenderTextHarfBuzz::GetFontSpansForTesting() {
639 EnsureLayout();
641 std::vector<RenderText::FontSpan> spans;
642 for (size_t i = 0; i < runs_.size(); ++i) {
643 SkString family_name;
644 runs_[i]->skia_face->getFamilyName(&family_name);
645 Font font(family_name.c_str(), runs_[i]->font_size);
646 spans.push_back(RenderText::FontSpan(font,
647 Range(LayoutIndexToTextIndex(runs_[i]->range.start()),
648 LayoutIndexToTextIndex(runs_[i]->range.end()))));
651 return spans;
654 Range RenderTextHarfBuzz::GetGlyphBounds(size_t index) {
655 EnsureLayout();
656 const size_t run_index =
657 GetRunContainingCaret(SelectionModel(index, CURSOR_FORWARD));
658 // Return edge bounds if the index is invalid or beyond the layout text size.
659 if (run_index >= runs_.size())
660 return Range(GetStringSize().width());
661 const size_t layout_index = TextIndexToLayoutIndex(index);
662 internal::TextRunHarfBuzz* run = runs_[run_index];
663 RangeF bounds =
664 run->GetGraphemeBounds(grapheme_iterator_.get(), layout_index);
665 // If cursor is enabled, extend the last glyph up to the rightmost cursor
666 // position since clients expect them to be contiguous.
667 if (cursor_enabled() && run_index == runs_.size() - 1 &&
668 index == (run->is_rtl ? run->range.start() : run->range.end() - 1))
669 bounds.second = std::ceil(bounds.second);
670 return RoundRangeF(run->is_rtl ?
671 RangeF(bounds.second, bounds.first) : bounds);
674 int RenderTextHarfBuzz::GetLayoutTextBaseline() {
675 EnsureLayout();
676 return lines()[0].baseline;
679 SelectionModel RenderTextHarfBuzz::AdjacentCharSelectionModel(
680 const SelectionModel& selection,
681 VisualCursorDirection direction) {
682 DCHECK(!needs_layout_);
683 internal::TextRunHarfBuzz* run;
684 size_t run_index = GetRunContainingCaret(selection);
685 if (run_index >= runs_.size()) {
686 // The cursor is not in any run: we're at the visual and logical edge.
687 SelectionModel edge = EdgeSelectionModel(direction);
688 if (edge.caret_pos() == selection.caret_pos())
689 return edge;
690 int visual_index = (direction == CURSOR_RIGHT) ? 0 : runs_.size() - 1;
691 run = runs_[visual_to_logical_[visual_index]];
692 } else {
693 // If the cursor is moving within the current run, just move it by one
694 // grapheme in the appropriate direction.
695 run = runs_[run_index];
696 size_t caret = selection.caret_pos();
697 bool forward_motion = run->is_rtl == (direction == CURSOR_LEFT);
698 if (forward_motion) {
699 if (caret < LayoutIndexToTextIndex(run->range.end())) {
700 caret = IndexOfAdjacentGrapheme(caret, CURSOR_FORWARD);
701 return SelectionModel(caret, CURSOR_BACKWARD);
703 } else {
704 if (caret > LayoutIndexToTextIndex(run->range.start())) {
705 caret = IndexOfAdjacentGrapheme(caret, CURSOR_BACKWARD);
706 return SelectionModel(caret, CURSOR_FORWARD);
709 // The cursor is at the edge of a run; move to the visually adjacent run.
710 int visual_index = logical_to_visual_[run_index];
711 visual_index += (direction == CURSOR_LEFT) ? -1 : 1;
712 if (visual_index < 0 || visual_index >= static_cast<int>(runs_.size()))
713 return EdgeSelectionModel(direction);
714 run = runs_[visual_to_logical_[visual_index]];
716 bool forward_motion = run->is_rtl == (direction == CURSOR_LEFT);
717 return forward_motion ? FirstSelectionModelInsideRun(run) :
718 LastSelectionModelInsideRun(run);
721 SelectionModel RenderTextHarfBuzz::AdjacentWordSelectionModel(
722 const SelectionModel& selection,
723 VisualCursorDirection direction) {
724 if (obscured())
725 return EdgeSelectionModel(direction);
727 base::i18n::BreakIterator iter(text(), base::i18n::BreakIterator::BREAK_WORD);
728 bool success = iter.Init();
729 DCHECK(success);
730 if (!success)
731 return selection;
733 // Match OS specific word break behavior.
734 #if defined(OS_WIN)
735 size_t pos;
736 if (direction == CURSOR_RIGHT) {
737 pos = std::min(selection.caret_pos() + 1, text().length());
738 while (iter.Advance()) {
739 pos = iter.pos();
740 if (iter.IsWord() && pos > selection.caret_pos())
741 break;
743 } else { // direction == CURSOR_LEFT
744 // Notes: We always iterate words from the beginning.
745 // This is probably fast enough for our usage, but we may
746 // want to modify WordIterator so that it can start from the
747 // middle of string and advance backwards.
748 pos = std::max<int>(selection.caret_pos() - 1, 0);
749 while (iter.Advance()) {
750 if (iter.IsWord()) {
751 size_t begin = iter.pos() - iter.GetString().length();
752 if (begin == selection.caret_pos()) {
753 // The cursor is at the beginning of a word.
754 // Move to previous word.
755 break;
756 } else if (iter.pos() >= selection.caret_pos()) {
757 // The cursor is in the middle or at the end of a word.
758 // Move to the top of current word.
759 pos = begin;
760 break;
762 pos = iter.pos() - iter.GetString().length();
766 return SelectionModel(pos, CURSOR_FORWARD);
767 #else
768 SelectionModel cur(selection);
769 for (;;) {
770 cur = AdjacentCharSelectionModel(cur, direction);
771 size_t run = GetRunContainingCaret(cur);
772 if (run == runs_.size())
773 break;
774 const bool is_forward = runs_[run]->is_rtl == (direction == CURSOR_LEFT);
775 size_t cursor = cur.caret_pos();
776 if (is_forward ? iter.IsEndOfWord(cursor) : iter.IsStartOfWord(cursor))
777 break;
779 return cur;
780 #endif
783 std::vector<Rect> RenderTextHarfBuzz::GetSubstringBounds(const Range& range) {
784 DCHECK(!needs_layout_);
785 DCHECK(Range(0, text().length()).Contains(range));
786 Range layout_range(TextIndexToLayoutIndex(range.start()),
787 TextIndexToLayoutIndex(range.end()));
788 DCHECK(Range(0, GetLayoutText().length()).Contains(layout_range));
790 std::vector<Rect> rects;
791 if (layout_range.is_empty())
792 return rects;
793 std::vector<Range> bounds;
795 // Add a Range for each run/selection intersection.
796 for (size_t i = 0; i < runs_.size(); ++i) {
797 internal::TextRunHarfBuzz* run = runs_[visual_to_logical_[i]];
798 Range intersection = run->range.Intersect(layout_range);
799 if (!intersection.IsValid())
800 continue;
801 DCHECK(!intersection.is_reversed());
802 const Range leftmost_character_x = RoundRangeF(run->GetGraphemeBounds(
803 grapheme_iterator_.get(),
804 run->is_rtl ? intersection.end() - 1 : intersection.start()));
805 const Range rightmost_character_x = RoundRangeF(run->GetGraphemeBounds(
806 grapheme_iterator_.get(),
807 run->is_rtl ? intersection.start() : intersection.end() - 1));
808 Range range_x(leftmost_character_x.start(), rightmost_character_x.end());
809 DCHECK(!range_x.is_reversed());
810 if (range_x.is_empty())
811 continue;
813 // Union this with the last range if they're adjacent.
814 DCHECK(bounds.empty() || bounds.back().GetMax() <= range_x.GetMin());
815 if (!bounds.empty() && bounds.back().GetMax() == range_x.GetMin()) {
816 range_x = Range(bounds.back().GetMin(), range_x.GetMax());
817 bounds.pop_back();
819 bounds.push_back(range_x);
821 for (size_t i = 0; i < bounds.size(); ++i) {
822 std::vector<Rect> current_rects = TextBoundsToViewBounds(bounds[i]);
823 rects.insert(rects.end(), current_rects.begin(), current_rects.end());
825 return rects;
828 size_t RenderTextHarfBuzz::TextIndexToLayoutIndex(size_t index) const {
829 DCHECK_LE(index, text().length());
830 ptrdiff_t i = obscured() ? UTF16IndexToOffset(text(), 0, index) : index;
831 CHECK_GE(i, 0);
832 // Clamp layout indices to the length of the text actually used for layout.
833 return std::min<size_t>(GetLayoutText().length(), i);
836 size_t RenderTextHarfBuzz::LayoutIndexToTextIndex(size_t index) const {
837 if (!obscured())
838 return index;
840 DCHECK_LE(index, GetLayoutText().length());
841 const size_t text_index = UTF16OffsetToIndex(text(), 0, index);
842 DCHECK_LE(text_index, text().length());
843 return text_index;
846 bool RenderTextHarfBuzz::IsValidCursorIndex(size_t index) {
847 if (index == 0 || index == text().length())
848 return true;
849 if (!IsValidLogicalIndex(index))
850 return false;
851 EnsureLayout();
852 return !grapheme_iterator_ || grapheme_iterator_->IsGraphemeBoundary(index);
855 void RenderTextHarfBuzz::ResetLayout() {
856 needs_layout_ = true;
859 void RenderTextHarfBuzz::EnsureLayout() {
860 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
861 tracked_objects::ScopedTracker tracking_profile(
862 FROM_HERE_WITH_EXPLICIT_FUNCTION(
863 "431326 RenderTextHarfBuzz::EnsureLayout"));
865 if (needs_layout_) {
866 runs_.clear();
867 grapheme_iterator_.reset();
869 if (!GetLayoutText().empty()) {
870 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is
871 // fixed.
872 tracked_objects::ScopedTracker tracking_profile1(
873 FROM_HERE_WITH_EXPLICIT_FUNCTION(
874 "431326 RenderTextHarfBuzz::EnsureLayout1"));
876 grapheme_iterator_.reset(new base::i18n::BreakIterator(GetLayoutText(),
877 base::i18n::BreakIterator::BREAK_CHARACTER));
878 if (!grapheme_iterator_->Init())
879 grapheme_iterator_.reset();
881 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is
882 // fixed.
883 tracked_objects::ScopedTracker tracking_profile11(
884 FROM_HERE_WITH_EXPLICIT_FUNCTION(
885 "431326 RenderTextHarfBuzz::EnsureLayout11"));
887 ItemizeText();
889 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is
890 // fixed.
891 tracked_objects::ScopedTracker tracking_profile12(
892 FROM_HERE_WITH_EXPLICIT_FUNCTION(
893 "431326 RenderTextHarfBuzz::EnsureLayout12"));
895 for (size_t i = 0; i < runs_.size(); ++i)
896 ShapeRun(runs_[i]);
898 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is
899 // fixed.
900 tracked_objects::ScopedTracker tracking_profile13(
901 FROM_HERE_WITH_EXPLICIT_FUNCTION(
902 "431326 RenderTextHarfBuzz::EnsureLayout13"));
904 // Precalculate run width information.
905 float preceding_run_widths = 0.0f;
906 for (size_t i = 0; i < runs_.size(); ++i) {
907 internal::TextRunHarfBuzz* run = runs_[visual_to_logical_[i]];
908 run->preceding_run_widths = preceding_run_widths;
909 preceding_run_widths += run->width;
913 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is
914 // fixed.
915 tracked_objects::ScopedTracker tracking_profile14(
916 FROM_HERE_WITH_EXPLICIT_FUNCTION(
917 "431326 RenderTextHarfBuzz::EnsureLayout14"));
919 needs_layout_ = false;
920 std::vector<internal::Line> empty_lines;
921 set_lines(&empty_lines);
924 if (lines().empty()) {
925 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
926 tracked_objects::ScopedTracker tracking_profile2(
927 FROM_HERE_WITH_EXPLICIT_FUNCTION(
928 "431326 RenderTextHarfBuzz::EnsureLayout2"));
930 std::vector<internal::Line> lines;
931 lines.push_back(internal::Line());
932 lines[0].baseline = font_list().GetBaseline();
933 lines[0].size.set_height(font_list().GetHeight());
935 int current_x = 0;
936 SkPaint paint;
938 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
939 tracked_objects::ScopedTracker tracking_profile3(
940 FROM_HERE_WITH_EXPLICIT_FUNCTION(
941 "431326 RenderTextHarfBuzz::EnsureLayout3"));
943 for (size_t i = 0; i < runs_.size(); ++i) {
944 const internal::TextRunHarfBuzz& run = *runs_[visual_to_logical_[i]];
945 internal::LineSegment segment;
946 segment.x_range = Range(current_x, current_x + run.width);
947 segment.char_range = run.range;
948 segment.run = i;
949 lines[0].segments.push_back(segment);
951 paint.setTypeface(run.skia_face.get());
952 paint.setTextSize(SkIntToScalar(run.font_size));
953 paint.setAntiAlias(run.render_params.antialiasing);
954 SkPaint::FontMetrics metrics;
955 paint.getFontMetrics(&metrics);
957 lines[0].size.set_width(lines[0].size.width() + run.width);
958 lines[0].size.set_height(std::max(lines[0].size.height(),
959 metrics.fDescent - metrics.fAscent));
960 lines[0].baseline = std::max(lines[0].baseline,
961 SkScalarRoundToInt(-metrics.fAscent));
964 set_lines(&lines);
968 void RenderTextHarfBuzz::DrawVisualText(Canvas* canvas) {
969 DCHECK(!needs_layout_);
970 internal::SkiaTextRenderer renderer(canvas);
971 ApplyFadeEffects(&renderer);
972 ApplyTextShadows(&renderer);
973 ApplyCompositionAndSelectionStyles();
975 const Vector2d line_offset = GetLineOffset(0);
976 for (size_t i = 0; i < runs_.size(); ++i) {
977 const internal::TextRunHarfBuzz& run = *runs_[visual_to_logical_[i]];
978 renderer.SetTypeface(run.skia_face.get());
979 renderer.SetTextSize(SkIntToScalar(run.font_size));
980 renderer.SetFontRenderParams(run.render_params,
981 background_is_transparent());
983 Vector2d origin = line_offset + Vector2d(0, lines()[0].baseline);
984 scoped_ptr<SkPoint[]> positions(new SkPoint[run.glyph_count]);
985 for (size_t j = 0; j < run.glyph_count; ++j) {
986 positions[j] = run.positions[j];
987 positions[j].offset(SkIntToScalar(origin.x()) + run.preceding_run_widths,
988 SkIntToScalar(origin.y()));
991 for (BreakList<SkColor>::const_iterator it =
992 colors().GetBreak(run.range.start());
993 it != colors().breaks().end() && it->first < run.range.end();
994 ++it) {
995 const Range intersection = colors().GetRange(it).Intersect(run.range);
996 const Range colored_glyphs = run.CharRangeToGlyphRange(intersection);
997 // The range may be empty if a portion of a multi-character grapheme is
998 // selected, yielding two colors for a single glyph. For now, this just
999 // paints the glyph with a single style, but it should paint it twice,
1000 // clipped according to selection bounds. See http://crbug.com/366786
1001 if (colored_glyphs.is_empty())
1002 continue;
1004 renderer.SetForegroundColor(it->second);
1005 renderer.DrawPosText(&positions[colored_glyphs.start()],
1006 &run.glyphs[colored_glyphs.start()],
1007 colored_glyphs.length());
1008 int start_x = SkScalarRoundToInt(positions[colored_glyphs.start()].x());
1009 int end_x = SkScalarRoundToInt((colored_glyphs.end() == run.glyph_count) ?
1010 (run.width + run.preceding_run_widths + SkIntToScalar(origin.x())) :
1011 positions[colored_glyphs.end()].x());
1012 renderer.DrawDecorations(start_x, origin.y(), end_x - start_x,
1013 run.underline, run.strike, run.diagonal_strike);
1017 renderer.EndDiagonalStrike();
1019 UndoCompositionAndSelectionStyles();
1022 size_t RenderTextHarfBuzz::GetRunContainingCaret(
1023 const SelectionModel& caret) const {
1024 DCHECK(!needs_layout_);
1025 size_t layout_position = TextIndexToLayoutIndex(caret.caret_pos());
1026 LogicalCursorDirection affinity = caret.caret_affinity();
1027 for (size_t run = 0; run < runs_.size(); ++run) {
1028 if (RangeContainsCaret(runs_[run]->range, layout_position, affinity))
1029 return run;
1031 return runs_.size();
1034 size_t RenderTextHarfBuzz::GetRunContainingXCoord(float x,
1035 float* offset) const {
1036 DCHECK(!needs_layout_);
1037 if (x < 0)
1038 return runs_.size();
1039 // Find the text run containing the argument point (assumed already offset).
1040 float current_x = 0;
1041 for (size_t i = 0; i < runs_.size(); ++i) {
1042 size_t run = visual_to_logical_[i];
1043 current_x += runs_[run]->width;
1044 if (x < current_x) {
1045 *offset = x - (current_x - runs_[run]->width);
1046 return run;
1049 return runs_.size();
1052 SelectionModel RenderTextHarfBuzz::FirstSelectionModelInsideRun(
1053 const internal::TextRunHarfBuzz* run) {
1054 size_t position = LayoutIndexToTextIndex(run->range.start());
1055 position = IndexOfAdjacentGrapheme(position, CURSOR_FORWARD);
1056 return SelectionModel(position, CURSOR_BACKWARD);
1059 SelectionModel RenderTextHarfBuzz::LastSelectionModelInsideRun(
1060 const internal::TextRunHarfBuzz* run) {
1061 size_t position = LayoutIndexToTextIndex(run->range.end());
1062 position = IndexOfAdjacentGrapheme(position, CURSOR_BACKWARD);
1063 return SelectionModel(position, CURSOR_FORWARD);
1066 void RenderTextHarfBuzz::ItemizeText() {
1067 const base::string16& text = GetLayoutText();
1068 const bool is_text_rtl = GetTextDirection() == base::i18n::RIGHT_TO_LEFT;
1069 DCHECK_NE(0U, text.length());
1071 // If ICU fails to itemize the text, we create a run that spans the entire
1072 // text. This is needed because leaving the runs set empty causes some clients
1073 // to misbehave since they expect non-zero text metrics from a non-empty text.
1074 base::i18n::BiDiLineIterator bidi_iterator;
1075 if (!bidi_iterator.Open(text, is_text_rtl, false)) {
1076 internal::TextRunHarfBuzz* run = new internal::TextRunHarfBuzz;
1077 run->range = Range(0, text.length());
1078 runs_.push_back(run);
1079 visual_to_logical_ = logical_to_visual_ = std::vector<int32_t>(1, 0);
1080 return;
1083 // Temporarily apply composition underlines and selection colors.
1084 ApplyCompositionAndSelectionStyles();
1086 // Build the list of runs from the script items and ranged styles. Use an
1087 // empty color BreakList to avoid breaking runs at color boundaries.
1088 BreakList<SkColor> empty_colors;
1089 empty_colors.SetMax(text.length());
1090 internal::StyleIterator style(empty_colors, styles());
1092 for (size_t run_break = 0; run_break < text.length();) {
1093 internal::TextRunHarfBuzz* run = new internal::TextRunHarfBuzz;
1094 run->range.set_start(run_break);
1095 run->font_style = (style.style(BOLD) ? Font::BOLD : 0) |
1096 (style.style(ITALIC) ? Font::ITALIC : 0);
1097 run->strike = style.style(STRIKE);
1098 run->diagonal_strike = style.style(DIAGONAL_STRIKE);
1099 run->underline = style.style(UNDERLINE);
1101 int32 script_item_break = 0;
1102 bidi_iterator.GetLogicalRun(run_break, &script_item_break, &run->level);
1103 // Odd BiDi embedding levels correspond to RTL runs.
1104 run->is_rtl = (run->level % 2) == 1;
1105 // Find the length and script of this script run.
1106 script_item_break = ScriptInterval(text, run_break,
1107 script_item_break - run_break, &run->script) + run_break;
1109 // Find the next break and advance the iterators as needed.
1110 run_break = std::min(static_cast<size_t>(script_item_break),
1111 TextIndexToLayoutIndex(style.GetRange().end()));
1113 // Break runs at certain characters that need to be rendered separately to
1114 // prevent either an unusual character from forcing a fallback font on the
1115 // entire run, or brackets from being affected by a fallback font.
1116 // http://crbug.com/278913, http://crbug.com/396776
1117 if (run_break > run->range.start())
1118 run_break = FindRunBreakingCharacter(text, run->range.start(), run_break);
1120 DCHECK(IsValidCodePointIndex(text, run_break));
1121 style.UpdatePosition(LayoutIndexToTextIndex(run_break));
1122 run->range.set_end(run_break);
1124 runs_.push_back(run);
1127 // Undo the temporarily applied composition underlines and selection colors.
1128 UndoCompositionAndSelectionStyles();
1130 const size_t num_runs = runs_.size();
1131 std::vector<UBiDiLevel> levels(num_runs);
1132 for (size_t i = 0; i < num_runs; ++i)
1133 levels[i] = runs_[i]->level;
1134 visual_to_logical_.resize(num_runs);
1135 ubidi_reorderVisual(&levels[0], num_runs, &visual_to_logical_[0]);
1136 logical_to_visual_.resize(num_runs);
1137 ubidi_reorderLogical(&levels[0], num_runs, &logical_to_visual_[0]);
1140 bool RenderTextHarfBuzz::CompareFamily(
1141 internal::TextRunHarfBuzz* run,
1142 const std::string& family,
1143 const gfx::FontRenderParams& render_params,
1144 std::string* best_family,
1145 gfx::FontRenderParams* best_render_params,
1146 size_t* best_missing_glyphs) {
1147 if (!ShapeRunWithFont(run, family, render_params))
1148 return false;
1150 const size_t missing_glyphs = run->CountMissingGlyphs();
1151 if (missing_glyphs < *best_missing_glyphs) {
1152 *best_family = family;
1153 *best_render_params = render_params;
1154 *best_missing_glyphs = missing_glyphs;
1156 return missing_glyphs == 0;
1159 void RenderTextHarfBuzz::ShapeRun(internal::TextRunHarfBuzz* run) {
1160 const Font& primary_font = font_list().GetPrimaryFont();
1161 const std::string primary_family = primary_font.GetFontName();
1162 run->font_size = primary_font.GetFontSize();
1164 std::string best_family;
1165 FontRenderParams best_render_params;
1166 size_t best_missing_glyphs = std::numeric_limits<size_t>::max();
1168 for (const Font& font : font_list().GetFonts()) {
1169 if (CompareFamily(run, font.GetFontName(), font.GetFontRenderParams(),
1170 &best_family, &best_render_params, &best_missing_glyphs))
1171 return;
1174 #if defined(OS_WIN)
1175 Font uniscribe_font;
1176 std::string uniscribe_family;
1177 const base::char16* run_text = &(GetLayoutText()[run->range.start()]);
1178 if (GetUniscribeFallbackFont(primary_font, run_text, run->range.length(),
1179 &uniscribe_font)) {
1180 uniscribe_family = uniscribe_font.GetFontName();
1181 if (CompareFamily(run, uniscribe_family,
1182 uniscribe_font.GetFontRenderParams(),
1183 &best_family, &best_render_params, &best_missing_glyphs))
1184 return;
1186 #endif
1188 std::vector<std::string> fallback_families =
1189 GetFallbackFontFamilies(primary_family);
1191 #if defined(OS_WIN)
1192 // Append fonts in the fallback list of the Uniscribe font.
1193 if (!uniscribe_family.empty()) {
1194 std::vector<std::string> uniscribe_fallbacks =
1195 GetFallbackFontFamilies(uniscribe_family);
1196 fallback_families.insert(fallback_families.end(),
1197 uniscribe_fallbacks.begin(), uniscribe_fallbacks.end());
1199 #endif
1201 // Try shaping with the fallback fonts.
1202 for (const auto& family : fallback_families) {
1203 if (family == primary_family)
1204 continue;
1205 #if defined(OS_WIN)
1206 if (family == uniscribe_family)
1207 continue;
1208 #endif
1209 FontRenderParamsQuery query(false);
1210 query.families.push_back(family);
1211 query.pixel_size = run->font_size;
1212 query.style = run->font_style;
1213 FontRenderParams fallback_render_params = GetFontRenderParams(query, NULL);
1214 if (CompareFamily(run, family, fallback_render_params, &best_family,
1215 &best_render_params, &best_missing_glyphs))
1216 return;
1219 if (!best_family.empty() &&
1220 (best_family == run->family ||
1221 ShapeRunWithFont(run, best_family, best_render_params)))
1222 return;
1224 run->glyph_count = 0;
1225 run->width = 0.0f;
1228 bool RenderTextHarfBuzz::ShapeRunWithFont(internal::TextRunHarfBuzz* run,
1229 const std::string& font_family,
1230 const FontRenderParams& params) {
1231 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
1232 tracked_objects::ScopedTracker tracking_profile0(
1233 FROM_HERE_WITH_EXPLICIT_FUNCTION(
1234 "431326 RenderTextHarfBuzz::ShapeRunWithFont0"));
1236 const base::string16& text = GetLayoutText();
1237 skia::RefPtr<SkTypeface> skia_face =
1238 internal::CreateSkiaTypeface(font_family, run->font_style);
1239 if (skia_face == NULL)
1240 return false;
1241 run->skia_face = skia_face;
1242 run->family = font_family;
1243 run->render_params = params;
1245 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
1246 tracked_objects::ScopedTracker tracking_profile01(
1247 FROM_HERE_WITH_EXPLICIT_FUNCTION(
1248 "431326 RenderTextHarfBuzz::ShapeRunWithFont01"));
1250 hb_font_t* harfbuzz_font = CreateHarfBuzzFont(
1251 run->skia_face.get(), SkIntToScalar(run->font_size), run->render_params,
1252 background_is_transparent());
1254 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
1255 tracked_objects::ScopedTracker tracking_profile1(
1256 FROM_HERE_WITH_EXPLICIT_FUNCTION(
1257 "431326 RenderTextHarfBuzz::ShapeRunWithFont1"));
1259 // Create a HarfBuzz buffer and add the string to be shaped. The HarfBuzz
1260 // buffer holds our text, run information to be used by the shaping engine,
1261 // and the resulting glyph data.
1262 hb_buffer_t* buffer = hb_buffer_create();
1264 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
1265 tracked_objects::ScopedTracker tracking_profile1q(
1266 FROM_HERE_WITH_EXPLICIT_FUNCTION(
1267 "431326 RenderTextHarfBuzz::ShapeRunWithFont11"));
1269 hb_buffer_add_utf16(buffer, reinterpret_cast<const uint16*>(text.c_str()),
1270 text.length(), run->range.start(), run->range.length());
1272 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
1273 tracked_objects::ScopedTracker tracking_profile12(
1274 FROM_HERE_WITH_EXPLICIT_FUNCTION(
1275 "431326 RenderTextHarfBuzz::ShapeRunWithFont12"));
1277 hb_buffer_set_script(buffer, ICUScriptToHBScript(run->script));
1279 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
1280 tracked_objects::ScopedTracker tracking_profile13(
1281 FROM_HERE_WITH_EXPLICIT_FUNCTION(
1282 "431326 RenderTextHarfBuzz::ShapeRunWithFont13"));
1284 hb_buffer_set_direction(buffer,
1285 run->is_rtl ? HB_DIRECTION_RTL : HB_DIRECTION_LTR);
1287 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
1288 tracked_objects::ScopedTracker tracking_profile14(
1289 FROM_HERE_WITH_EXPLICIT_FUNCTION(
1290 "431326 RenderTextHarfBuzz::ShapeRunWithFont14"));
1292 // TODO(ckocagil): Should we determine the actual language?
1293 hb_buffer_set_language(buffer, hb_language_get_default());
1295 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
1296 tracked_objects::ScopedTracker tracking_profile15(
1297 FROM_HERE_WITH_EXPLICIT_FUNCTION(
1298 "431326 RenderTextHarfBuzz::ShapeRunWithFont15"));
1300 // Shape the text.
1301 hb_shape(harfbuzz_font, buffer, NULL, 0);
1303 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
1304 tracked_objects::ScopedTracker tracking_profile2(
1305 FROM_HERE_WITH_EXPLICIT_FUNCTION(
1306 "431326 RenderTextHarfBuzz::ShapeRunWithFont2"));
1308 // Populate the run fields with the resulting glyph data in the buffer.
1309 unsigned int glyph_count = 0;
1310 hb_glyph_info_t* infos = hb_buffer_get_glyph_infos(buffer, &glyph_count);
1311 run->glyph_count = glyph_count;
1312 hb_glyph_position_t* hb_positions =
1313 hb_buffer_get_glyph_positions(buffer, NULL);
1314 run->glyphs.reset(new uint16[run->glyph_count]);
1315 run->glyph_to_char.resize(run->glyph_count);
1316 run->positions.reset(new SkPoint[run->glyph_count]);
1317 run->width = 0.0f;
1319 // TODO(vadimt): Remove ScopedTracker below once crbug.com/431326 is fixed.
1320 tracked_objects::ScopedTracker tracking_profile3(
1321 FROM_HERE_WITH_EXPLICIT_FUNCTION(
1322 "431326 RenderTextHarfBuzz::ShapeRunWithFont3"));
1324 for (size_t i = 0; i < run->glyph_count; ++i) {
1325 DCHECK_LE(infos[i].codepoint, std::numeric_limits<uint16>::max());
1326 run->glyphs[i] = static_cast<uint16>(infos[i].codepoint);
1327 run->glyph_to_char[i] = infos[i].cluster;
1328 const SkScalar x_offset = SkFixedToScalar(hb_positions[i].x_offset);
1329 const SkScalar y_offset = SkFixedToScalar(hb_positions[i].y_offset);
1330 run->positions[i].set(run->width + x_offset, -y_offset);
1331 run->width += SkFixedToScalar(hb_positions[i].x_advance);
1332 // Round run widths if subpixel positioning is off to match native behavior.
1333 if (!run->render_params.subpixel_positioning)
1334 run->width = std::floor(run->width + 0.5f);
1337 hb_buffer_destroy(buffer);
1338 hb_font_destroy(harfbuzz_font);
1339 return true;
1342 } // namespace gfx