/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* vim: set ts=8 sts=2 et sw=2 tw=80: */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ #include "nsLineBreaker.h" #include "nsContentUtils.h" #include "nsILineBreaker.h" #include "gfxTextRun.h" // for the gfxTextRun::CompressedGlyph::FLAG_BREAK_TYPE_* values #include "nsHyphenationManager.h" #include "nsHyphenator.h" #include "mozilla/gfx/2D.h" nsLineBreaker::nsLineBreaker() : mCurrentWordLanguage(nullptr), mCurrentWordContainsMixedLang(false), mCurrentWordContainsComplexChar(false), mAfterBreakableSpace(false), mBreakHere(false), mWordBreak(nsILineBreaker::kWordBreak_Normal) { } nsLineBreaker::~nsLineBreaker() { NS_ASSERTION(mCurrentWord.Length() == 0, "Should have Reset() before destruction!"); } static void SetupCapitalization(const char16_t* aWord, uint32_t aLength, bool* aCapitalization) { // Capitalize the first alphanumeric character after a space or start // of the word. // The only space character a word can contain is NBSP. bool capitalizeNextChar = true; for (uint32_t i = 0; i < aLength; ++i) { uint32_t ch = aWord[i]; if (capitalizeNextChar) { if (NS_IS_HIGH_SURROGATE(ch) && i + 1 < aLength && NS_IS_LOW_SURROGATE(aWord[i + 1])) { ch = SURROGATE_TO_UCS4(ch, aWord[i + 1]); } if (nsContentUtils::IsAlphanumeric(ch)) { aCapitalization[i] = true; capitalizeNextChar = false; } if (!IS_IN_BMP(ch)) { ++i; } } if (ch == 0xA0 /*NBSP*/) { capitalizeNextChar = true; } } } nsresult nsLineBreaker::FlushCurrentWord() { uint32_t length = mCurrentWord.Length(); AutoTArray breakState; if (!breakState.AppendElements(length)) return NS_ERROR_OUT_OF_MEMORY; nsTArray capitalizationState; if (!mCurrentWordContainsComplexChar) { // For break-strict set everything internal to "break", otherwise // to "no break"! memset(breakState.Elements(), mWordBreak == nsILineBreaker::kWordBreak_BreakAll ? gfxTextRun::CompressedGlyph::FLAG_BREAK_TYPE_NORMAL : gfxTextRun::CompressedGlyph::FLAG_BREAK_TYPE_NONE, length*sizeof(uint8_t)); } else { nsContentUtils::LineBreaker()-> GetJISx4051Breaks(mCurrentWord.Elements(), length, mWordBreak, breakState.Elements()); } bool autoHyphenate = mCurrentWordLanguage && !mCurrentWordContainsMixedLang; uint32_t i; for (i = 0; autoHyphenate && i < mTextItems.Length(); ++i) { TextItem* ti = &mTextItems[i]; if (!(ti->mFlags & BREAK_USE_AUTO_HYPHENATION)) { autoHyphenate = false; } } if (autoHyphenate) { RefPtr hyphenator = nsHyphenationManager::Instance()->GetHyphenator(mCurrentWordLanguage); if (hyphenator) { FindHyphenationPoints(hyphenator, mCurrentWord.Elements(), mCurrentWord.Elements() + length, breakState.Elements()); } } uint32_t offset = 0; for (i = 0; i < mTextItems.Length(); ++i) { TextItem* ti = &mTextItems[i]; NS_ASSERTION(ti->mLength > 0, "Zero length word contribution?"); if ((ti->mFlags & BREAK_SUPPRESS_INITIAL) && ti->mSinkOffset == 0) { breakState[offset] = gfxTextRun::CompressedGlyph::FLAG_BREAK_TYPE_NONE; } if (ti->mFlags & BREAK_SUPPRESS_INSIDE) { uint32_t exclude = ti->mSinkOffset == 0 ? 1 : 0; memset(breakState.Elements() + offset + exclude, gfxTextRun::CompressedGlyph::FLAG_BREAK_TYPE_NONE, (ti->mLength - exclude)*sizeof(uint8_t)); } // Don't set the break state for the first character of the word, because // it was already set correctly earlier and we don't know what the true // value should be. uint32_t skipSet = i == 0 ? 1 : 0; if (ti->mSink) { ti->mSink->SetBreaks(ti->mSinkOffset + skipSet, ti->mLength - skipSet, breakState.Elements() + offset + skipSet); if (ti->mFlags & BREAK_NEED_CAPITALIZATION) { if (capitalizationState.Length() == 0) { if (!capitalizationState.AppendElements(length)) return NS_ERROR_OUT_OF_MEMORY; memset(capitalizationState.Elements(), false, length*sizeof(bool)); SetupCapitalization(mCurrentWord.Elements(), length, capitalizationState.Elements()); } ti->mSink->SetCapitalization(ti->mSinkOffset, ti->mLength, capitalizationState.Elements() + offset); } } offset += ti->mLength; } mCurrentWord.Clear(); mTextItems.Clear(); mCurrentWordContainsComplexChar = false; mCurrentWordContainsMixedLang = false; mCurrentWordLanguage = nullptr; return NS_OK; } // If the aFlags parameter to AppendText has all these bits set, // then we don't need to worry about finding break opportunities // in the appended text. #define NO_BREAKS_NEEDED_FLAGS (BREAK_SUPPRESS_INITIAL | \ BREAK_SUPPRESS_INSIDE | \ BREAK_SKIP_SETTING_NO_BREAKS) nsresult nsLineBreaker::AppendText(nsIAtom* aHyphenationLanguage, const char16_t* aText, uint32_t aLength, uint32_t aFlags, nsILineBreakSink* aSink) { NS_ASSERTION(aLength > 0, "Appending empty text..."); uint32_t offset = 0; // Continue the current word if (mCurrentWord.Length() > 0) { NS_ASSERTION(!mAfterBreakableSpace && !mBreakHere, "These should not be set"); while (offset < aLength && !IsSpace(aText[offset])) { mCurrentWord.AppendElement(aText[offset]); if (!mCurrentWordContainsComplexChar && IsComplexChar(aText[offset])) { mCurrentWordContainsComplexChar = true; } UpdateCurrentWordLanguage(aHyphenationLanguage); ++offset; } if (offset > 0) { mTextItems.AppendElement(TextItem(aSink, 0, offset, aFlags)); } if (offset == aLength) return NS_OK; // We encountered whitespace, so we're done with this word nsresult rv = FlushCurrentWord(); if (NS_FAILED(rv)) return rv; } AutoTArray breakState; if (aSink) { if (!breakState.AppendElements(aLength)) return NS_ERROR_OUT_OF_MEMORY; } bool noCapitalizationNeeded = true; nsTArray capitalizationState; if (aSink && (aFlags & BREAK_NEED_CAPITALIZATION)) { if (!capitalizationState.AppendElements(aLength)) return NS_ERROR_OUT_OF_MEMORY; memset(capitalizationState.Elements(), false, aLength*sizeof(bool)); noCapitalizationNeeded = false; } uint32_t start = offset; bool noBreaksNeeded = !aSink || ((aFlags & NO_BREAKS_NEEDED_FLAGS) == NO_BREAKS_NEEDED_FLAGS && !mBreakHere && !mAfterBreakableSpace); if (noBreaksNeeded && noCapitalizationNeeded) { // Skip to the space before the last word, since either the break data // here is not needed, or no breaks are set in the sink and there cannot // be any breaks in this chunk; and we don't need to do word-initial // capitalization. All we need is the context for the next chunk (if any). offset = aLength; while (offset > start) { --offset; if (IsSpace(aText[offset])) break; } } uint32_t wordStart = offset; bool wordHasComplexChar = false; RefPtr hyphenator; if ((aFlags & BREAK_USE_AUTO_HYPHENATION) && !(aFlags & BREAK_SUPPRESS_INSIDE) && aHyphenationLanguage) { hyphenator = nsHyphenationManager::Instance()->GetHyphenator(aHyphenationLanguage); } for (;;) { char16_t ch = aText[offset]; bool isSpace = IsSpace(ch); bool isBreakableSpace = isSpace && !(aFlags & BREAK_SUPPRESS_INSIDE); if (aSink && !noBreaksNeeded) { breakState[offset] = mBreakHere || (mAfterBreakableSpace && !isBreakableSpace) || (mWordBreak == nsILineBreaker::kWordBreak_BreakAll) ? gfxTextRun::CompressedGlyph::FLAG_BREAK_TYPE_NORMAL : gfxTextRun::CompressedGlyph::FLAG_BREAK_TYPE_NONE; } mBreakHere = false; mAfterBreakableSpace = isBreakableSpace; if (isSpace) { if (offset > wordStart && aSink) { if (!(aFlags & BREAK_SUPPRESS_INSIDE)) { if (wordHasComplexChar) { // Save current start-of-word state because GetJISx4051Breaks will // set it to false uint8_t currentStart = breakState[wordStart]; nsContentUtils::LineBreaker()-> GetJISx4051Breaks(aText + wordStart, offset - wordStart, mWordBreak, breakState.Elements() + wordStart); breakState[wordStart] = currentStart; } if (hyphenator) { FindHyphenationPoints(hyphenator, aText + wordStart, aText + offset, breakState.Elements() + wordStart); } } if (!noCapitalizationNeeded) { SetupCapitalization(aText + wordStart, offset - wordStart, capitalizationState.Elements() + wordStart); } } wordHasComplexChar = false; ++offset; if (offset >= aLength) break; wordStart = offset; } else { if (!wordHasComplexChar && IsComplexChar(ch)) { wordHasComplexChar = true; } ++offset; if (offset >= aLength) { // Save this word mCurrentWordContainsComplexChar = wordHasComplexChar; uint32_t len = offset - wordStart; char16_t* elems = mCurrentWord.AppendElements(len); if (!elems) return NS_ERROR_OUT_OF_MEMORY; memcpy(elems, aText + wordStart, sizeof(char16_t)*len); mTextItems.AppendElement(TextItem(aSink, wordStart, len, aFlags)); // Ensure that the break-before for this word is written out offset = wordStart + 1; UpdateCurrentWordLanguage(aHyphenationLanguage); break; } } } if (aSink) { if (!noBreaksNeeded) { aSink->SetBreaks(start, offset - start, breakState.Elements() + start); } if (!noCapitalizationNeeded) { aSink->SetCapitalization(start, offset - start, capitalizationState.Elements() + start); } } return NS_OK; } void nsLineBreaker::FindHyphenationPoints(nsHyphenator *aHyphenator, const char16_t *aTextStart, const char16_t *aTextLimit, uint8_t *aBreakState) { nsDependentSubstring string(aTextStart, aTextLimit); AutoTArray hyphens; if (NS_SUCCEEDED(aHyphenator->Hyphenate(string, hyphens))) { for (uint32_t i = 0; i + 1 < string.Length(); ++i) { if (hyphens[i]) { aBreakState[i + 1] = gfxTextRun::CompressedGlyph::FLAG_BREAK_TYPE_HYPHEN; } } } } nsresult nsLineBreaker::AppendText(nsIAtom* aHyphenationLanguage, const uint8_t* aText, uint32_t aLength, uint32_t aFlags, nsILineBreakSink* aSink) { NS_ASSERTION(aLength > 0, "Appending empty text..."); if (aFlags & (BREAK_NEED_CAPITALIZATION | BREAK_USE_AUTO_HYPHENATION)) { // Defer to the Unicode path if capitalization or hyphenation is required nsAutoString str; const char* cp = reinterpret_cast(aText); CopyASCIItoUTF16(nsDependentCSubstring(cp, cp + aLength), str); return AppendText(aHyphenationLanguage, str.get(), aLength, aFlags, aSink); } uint32_t offset = 0; // Continue the current word if (mCurrentWord.Length() > 0) { NS_ASSERTION(!mAfterBreakableSpace && !mBreakHere, "These should not be set"); while (offset < aLength && !IsSpace(aText[offset])) { mCurrentWord.AppendElement(aText[offset]); if (!mCurrentWordContainsComplexChar && IsComplexASCIIChar(aText[offset])) { mCurrentWordContainsComplexChar = true; } ++offset; } if (offset > 0) { mTextItems.AppendElement(TextItem(aSink, 0, offset, aFlags)); } if (offset == aLength) { // We did not encounter whitespace so the word hasn't finished yet. return NS_OK; } // We encountered whitespace, so we're done with this word nsresult rv = FlushCurrentWord(); if (NS_FAILED(rv)) return rv; } AutoTArray breakState; if (aSink) { if (!breakState.AppendElements(aLength)) return NS_ERROR_OUT_OF_MEMORY; } uint32_t start = offset; bool noBreaksNeeded = !aSink || ((aFlags & NO_BREAKS_NEEDED_FLAGS) == NO_BREAKS_NEEDED_FLAGS && !mBreakHere && !mAfterBreakableSpace); if (noBreaksNeeded) { // Skip to the space before the last word, since either the break data // here is not needed, or no breaks are set in the sink and there cannot // be any breaks in this chunk; all we need is the context for the next // chunk (if any) offset = aLength; while (offset > start) { --offset; if (IsSpace(aText[offset])) break; } } uint32_t wordStart = offset; bool wordHasComplexChar = false; for (;;) { uint8_t ch = aText[offset]; bool isSpace = IsSpace(ch); bool isBreakableSpace = isSpace && !(aFlags & BREAK_SUPPRESS_INSIDE); if (aSink) { // Consider word-break style. Since the break position of CJK scripts // will be set by nsILineBreaker, we don't consider CJK at this point. breakState[offset] = mBreakHere || (mAfterBreakableSpace && !isBreakableSpace) || (mWordBreak == nsILineBreaker::kWordBreak_BreakAll) ? gfxTextRun::CompressedGlyph::FLAG_BREAK_TYPE_NORMAL : gfxTextRun::CompressedGlyph::FLAG_BREAK_TYPE_NONE; } mBreakHere = false; mAfterBreakableSpace = isBreakableSpace; if (isSpace) { if (offset > wordStart && wordHasComplexChar) { if (aSink && !(aFlags & BREAK_SUPPRESS_INSIDE)) { // Save current start-of-word state because GetJISx4051Breaks will // set it to false uint8_t currentStart = breakState[wordStart]; nsContentUtils::LineBreaker()-> GetJISx4051Breaks(aText + wordStart, offset - wordStart, mWordBreak, breakState.Elements() + wordStart); breakState[wordStart] = currentStart; } wordHasComplexChar = false; } ++offset; if (offset >= aLength) break; wordStart = offset; } else { if (!wordHasComplexChar && IsComplexASCIIChar(ch)) { wordHasComplexChar = true; } ++offset; if (offset >= aLength) { // Save this word mCurrentWordContainsComplexChar = wordHasComplexChar; uint32_t len = offset - wordStart; char16_t* elems = mCurrentWord.AppendElements(len); if (!elems) return NS_ERROR_OUT_OF_MEMORY; uint32_t i; for (i = wordStart; i < offset; ++i) { elems[i - wordStart] = aText[i]; } mTextItems.AppendElement(TextItem(aSink, wordStart, len, aFlags)); // Ensure that the break-before for this word is written out offset = wordStart + 1; break; } } } if (!noBreaksNeeded) { aSink->SetBreaks(start, offset - start, breakState.Elements() + start); } return NS_OK; } void nsLineBreaker::UpdateCurrentWordLanguage(nsIAtom *aHyphenationLanguage) { if (mCurrentWordLanguage && mCurrentWordLanguage != aHyphenationLanguage) { mCurrentWordContainsMixedLang = true; } else { mCurrentWordLanguage = aHyphenationLanguage; } } nsresult nsLineBreaker::AppendInvisibleWhitespace(uint32_t aFlags) { nsresult rv = FlushCurrentWord(); if (NS_FAILED(rv)) return rv; bool isBreakableSpace = !(aFlags & BREAK_SUPPRESS_INSIDE); if (mAfterBreakableSpace && !isBreakableSpace) { mBreakHere = true; } mAfterBreakableSpace = isBreakableSpace; return NS_OK; } nsresult nsLineBreaker::Reset(bool* aTrailingBreak) { nsresult rv = FlushCurrentWord(); if (NS_FAILED(rv)) return rv; *aTrailingBreak = mBreakHere || mAfterBreakableSpace; mBreakHere = false; mAfterBreakableSpace = false; return NS_OK; }