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https://github.com/mozilla/gecko-dev.git
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424 lines
14 KiB
C++
424 lines
14 KiB
C++
/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
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/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "gfxGraphiteShaper.h"
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#include "nsString.h"
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#include "gfxContext.h"
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#include "gfxFontConstants.h"
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#include "graphite2/Font.h"
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#include "graphite2/Segment.h"
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#include "harfbuzz/hb.h"
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#define FloatToFixed(f) (65536 * (f))
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#define FixedToFloat(f) ((f) * (1.0 / 65536.0))
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// Right shifts of negative (signed) integers are undefined, as are overflows
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// when converting unsigned to negative signed integers.
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// (If speed were an issue we could make some 2's complement assumptions.)
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#define FixedToIntRound(f) ((f) > 0 ? ((32768 + (f)) >> 16) \
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: -((32767 - (f)) >> 16))
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using namespace mozilla; // for AutoSwap_* types
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/*
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* Creation and destruction; on deletion, release any font tables we're holding
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*/
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gfxGraphiteShaper::gfxGraphiteShaper(gfxFont *aFont)
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: gfxFontShaper(aFont),
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mGrFace(mFont->GetFontEntry()->GetGrFace()),
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mGrFont(nullptr), mFallbackToSmallCaps(false)
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{
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mCallbackData.mFont = aFont;
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mCallbackData.mShaper = this;
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}
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gfxGraphiteShaper::~gfxGraphiteShaper()
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{
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if (mGrFont) {
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gr_font_destroy(mGrFont);
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}
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mFont->GetFontEntry()->ReleaseGrFace(mGrFace);
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}
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/*static*/ float
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gfxGraphiteShaper::GrGetAdvance(const void* appFontHandle, uint16_t glyphid)
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{
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const CallbackData *cb =
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static_cast<const CallbackData*>(appFontHandle);
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return FixedToFloat(cb->mFont->GetGlyphWidth(cb->mContext, glyphid));
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}
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static inline uint32_t
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MakeGraphiteLangTag(uint32_t aTag)
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{
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uint32_t grLangTag = aTag;
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// replace trailing space-padding with NULs for graphite
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uint32_t mask = 0x000000FF;
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while ((grLangTag & mask) == ' ') {
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grLangTag &= ~mask;
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mask <<= 8;
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}
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return grLangTag;
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}
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struct GrFontFeatures {
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gr_face *mFace;
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gr_feature_val *mFeatures;
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};
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static PLDHashOperator
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AddFeature(const uint32_t& aTag, uint32_t& aValue, void *aUserArg)
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{
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GrFontFeatures *f = static_cast<GrFontFeatures*>(aUserArg);
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const gr_feature_ref* fref = gr_face_find_fref(f->mFace, aTag);
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if (fref) {
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gr_fref_set_feature_value(fref, aValue, f->mFeatures);
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}
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return PL_DHASH_NEXT;
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}
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bool
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gfxGraphiteShaper::ShapeText(gfxContext *aContext,
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const char16_t *aText,
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uint32_t aOffset,
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uint32_t aLength,
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int32_t aScript,
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gfxShapedText *aShapedText)
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{
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// some font back-ends require this in order to get proper hinted metrics
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if (!mFont->SetupCairoFont(aContext)) {
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return false;
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}
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mCallbackData.mContext = aContext;
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const gfxFontStyle *style = mFont->GetStyle();
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if (!mGrFont) {
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if (!mGrFace) {
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return false;
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}
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if (mFont->ProvidesGlyphWidths()) {
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gr_font_ops ops = {
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sizeof(gr_font_ops),
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&GrGetAdvance,
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nullptr // vertical text not yet implemented
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};
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mGrFont = gr_make_font_with_ops(mFont->GetAdjustedSize(),
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&mCallbackData, &ops, mGrFace);
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} else {
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mGrFont = gr_make_font(mFont->GetAdjustedSize(), mGrFace);
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}
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if (!mGrFont) {
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return false;
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}
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// determine whether petite-caps falls back to small-caps
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if (style->variantCaps != NS_FONT_VARIANT_CAPS_NORMAL) {
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switch (style->variantCaps) {
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case NS_FONT_VARIANT_CAPS_ALLPETITE:
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case NS_FONT_VARIANT_CAPS_PETITECAPS:
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bool synLower, synUpper;
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mFont->SupportsVariantCaps(aScript, style->variantCaps,
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mFallbackToSmallCaps, synLower,
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synUpper);
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break;
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default:
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break;
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}
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}
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}
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gfxFontEntry *entry = mFont->GetFontEntry();
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uint32_t grLang = 0;
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if (style->languageOverride) {
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grLang = MakeGraphiteLangTag(style->languageOverride);
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} else if (entry->mLanguageOverride) {
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grLang = MakeGraphiteLangTag(entry->mLanguageOverride);
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} else {
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nsAutoCString langString;
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style->language->ToUTF8String(langString);
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grLang = GetGraphiteTagForLang(langString);
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}
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gr_feature_val *grFeatures = gr_face_featureval_for_lang(mGrFace, grLang);
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// if style contains font-specific features
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nsDataHashtable<nsUint32HashKey,uint32_t> mergedFeatures;
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if (MergeFontFeatures(style,
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mFont->GetFontEntry()->mFeatureSettings,
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aShapedText->DisableLigatures(),
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mFont->GetFontEntry()->FamilyName(),
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mFallbackToSmallCaps,
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mergedFeatures))
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{
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// enumerate result and insert into Graphite feature list
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GrFontFeatures f = {mGrFace, grFeatures};
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mergedFeatures.Enumerate(AddFeature, &f);
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}
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size_t numChars = gr_count_unicode_characters(gr_utf16,
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aText, aText + aLength,
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nullptr);
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gr_segment *seg = gr_make_seg(mGrFont, mGrFace, 0, grFeatures,
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gr_utf16, aText, numChars,
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aShapedText->IsRightToLeft());
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gr_featureval_destroy(grFeatures);
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if (!seg) {
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return false;
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}
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nsresult rv = SetGlyphsFromSegment(aContext, aShapedText, aOffset, aLength,
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aText, seg);
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gr_seg_destroy(seg);
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return NS_SUCCEEDED(rv);
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}
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#define SMALL_GLYPH_RUN 256 // avoid heap allocation of per-glyph data arrays
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// for short (typical) runs up to this length
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struct Cluster {
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uint32_t baseChar; // in UTF16 code units, not Unicode character indices
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uint32_t baseGlyph;
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uint32_t nChars; // UTF16 code units
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uint32_t nGlyphs;
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Cluster() : baseChar(0), baseGlyph(0), nChars(0), nGlyphs(0) { }
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};
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nsresult
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gfxGraphiteShaper::SetGlyphsFromSegment(gfxContext *aContext,
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gfxShapedText *aShapedText,
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uint32_t aOffset,
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uint32_t aLength,
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const char16_t *aText,
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gr_segment *aSegment)
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{
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int32_t dev2appUnits = aShapedText->GetAppUnitsPerDevUnit();
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bool rtl = aShapedText->IsRightToLeft();
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uint32_t glyphCount = gr_seg_n_slots(aSegment);
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// identify clusters; graphite may have reordered/expanded/ligated glyphs.
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AutoFallibleTArray<Cluster,SMALL_GLYPH_RUN> clusters;
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AutoFallibleTArray<uint16_t,SMALL_GLYPH_RUN> gids;
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AutoFallibleTArray<float,SMALL_GLYPH_RUN> xLocs;
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AutoFallibleTArray<float,SMALL_GLYPH_RUN> yLocs;
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if (!clusters.SetLength(aLength) ||
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!gids.SetLength(glyphCount) ||
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!xLocs.SetLength(glyphCount) ||
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!yLocs.SetLength(glyphCount))
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{
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return NS_ERROR_OUT_OF_MEMORY;
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}
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// walk through the glyph slots and check which original character
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// each is associated with
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uint32_t gIndex = 0; // glyph slot index
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uint32_t cIndex = 0; // current cluster index
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for (const gr_slot *slot = gr_seg_first_slot(aSegment);
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slot != nullptr;
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slot = gr_slot_next_in_segment(slot), gIndex++)
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{
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uint32_t before =
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gr_cinfo_base(gr_seg_cinfo(aSegment, gr_slot_before(slot)));
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uint32_t after =
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gr_cinfo_base(gr_seg_cinfo(aSegment, gr_slot_after(slot)));
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gids[gIndex] = gr_slot_gid(slot);
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xLocs[gIndex] = gr_slot_origin_X(slot);
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yLocs[gIndex] = gr_slot_origin_Y(slot);
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// if this glyph has a "before" character index that precedes the
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// current cluster's char index, we need to merge preceding
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// clusters until it gets included
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while (before < clusters[cIndex].baseChar && cIndex > 0) {
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clusters[cIndex-1].nChars += clusters[cIndex].nChars;
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clusters[cIndex-1].nGlyphs += clusters[cIndex].nGlyphs;
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--cIndex;
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}
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// if there's a gap between the current cluster's base character and
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// this glyph's, extend the cluster to include the intervening chars
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if (gr_slot_can_insert_before(slot) && clusters[cIndex].nChars &&
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before >= clusters[cIndex].baseChar + clusters[cIndex].nChars)
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{
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NS_ASSERTION(cIndex < aLength - 1, "cIndex at end of word");
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Cluster& c = clusters[cIndex + 1];
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c.baseChar = clusters[cIndex].baseChar + clusters[cIndex].nChars;
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c.nChars = before - c.baseChar;
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c.baseGlyph = gIndex;
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c.nGlyphs = 0;
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++cIndex;
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}
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// increment cluster's glyph count to include current slot
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NS_ASSERTION(cIndex < aLength, "cIndex beyond word length");
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++clusters[cIndex].nGlyphs;
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// extend cluster if necessary to reach the glyph's "after" index
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if (clusters[cIndex].baseChar + clusters[cIndex].nChars < after + 1) {
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clusters[cIndex].nChars = after + 1 - clusters[cIndex].baseChar;
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}
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}
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bool roundX;
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bool roundY;
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aContext->GetRoundOffsetsToPixels(&roundX, &roundY);
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gfxShapedText::CompressedGlyph *charGlyphs =
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aShapedText->GetCharacterGlyphs() + aOffset;
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// now put glyphs into the textrun, one cluster at a time
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for (uint32_t i = 0; i <= cIndex; ++i) {
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const Cluster& c = clusters[i];
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float adv; // total advance of the cluster
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if (rtl) {
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if (i == 0) {
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adv = gr_seg_advance_X(aSegment) - xLocs[c.baseGlyph];
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} else {
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adv = xLocs[clusters[i-1].baseGlyph] - xLocs[c.baseGlyph];
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}
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} else {
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if (i == cIndex) {
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adv = gr_seg_advance_X(aSegment) - xLocs[c.baseGlyph];
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} else {
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adv = xLocs[clusters[i+1].baseGlyph] - xLocs[c.baseGlyph];
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}
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}
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// Check for default-ignorable char that didn't get filtered, combined,
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// etc by the shaping process, and skip it.
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uint32_t offs = c.baseChar;
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NS_ASSERTION(offs < aLength, "unexpected offset");
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if (c.nGlyphs == 1 && c.nChars == 1 &&
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aShapedText->FilterIfIgnorable(aOffset + offs, aText[offs])) {
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continue;
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}
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uint32_t appAdvance = roundX ? NSToIntRound(adv) * dev2appUnits :
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NSToIntRound(adv * dev2appUnits);
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if (c.nGlyphs == 1 &&
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gfxShapedText::CompressedGlyph::IsSimpleGlyphID(gids[c.baseGlyph]) &&
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gfxShapedText::CompressedGlyph::IsSimpleAdvance(appAdvance) &&
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charGlyphs[offs].IsClusterStart() &&
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yLocs[c.baseGlyph] == 0)
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{
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charGlyphs[offs].SetSimpleGlyph(appAdvance, gids[c.baseGlyph]);
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} else {
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// not a one-to-one mapping with simple metrics: use DetailedGlyph
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nsAutoTArray<gfxShapedText::DetailedGlyph,8> details;
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float clusterLoc;
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for (uint32_t j = c.baseGlyph; j < c.baseGlyph + c.nGlyphs; ++j) {
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gfxShapedText::DetailedGlyph* d = details.AppendElement();
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d->mGlyphID = gids[j];
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d->mYOffset = roundY ? NSToIntRound(-yLocs[j]) * dev2appUnits :
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-yLocs[j] * dev2appUnits;
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if (j == c.baseGlyph) {
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d->mXOffset = 0;
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d->mAdvance = appAdvance;
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clusterLoc = xLocs[j];
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} else {
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float dx = rtl ? (xLocs[j] - clusterLoc) :
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(xLocs[j] - clusterLoc - adv);
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d->mXOffset = roundX ? NSToIntRound(dx) * dev2appUnits :
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dx * dev2appUnits;
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d->mAdvance = 0;
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}
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}
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gfxShapedText::CompressedGlyph g;
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g.SetComplex(charGlyphs[offs].IsClusterStart(),
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true, details.Length());
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aShapedText->SetGlyphs(aOffset + offs, g, details.Elements());
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}
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for (uint32_t j = c.baseChar + 1; j < c.baseChar + c.nChars; ++j) {
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NS_ASSERTION(j < aLength, "unexpected offset");
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gfxShapedText::CompressedGlyph &g = charGlyphs[j];
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NS_ASSERTION(!g.IsSimpleGlyph(), "overwriting a simple glyph");
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g.SetComplex(g.IsClusterStart(), false, 0);
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}
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}
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return NS_OK;
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}
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#undef SMALL_GLYPH_RUN
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// for language tag validation - include list of tags from the IANA registry
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#include "gfxLanguageTagList.cpp"
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nsTHashtable<nsUint32HashKey> *gfxGraphiteShaper::sLanguageTags;
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/*static*/ uint32_t
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gfxGraphiteShaper::GetGraphiteTagForLang(const nsCString& aLang)
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{
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int len = aLang.Length();
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if (len < 2) {
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return 0;
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}
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// convert primary language subtag to a left-packed, NUL-padded integer
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// for the Graphite API
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uint32_t grLang = 0;
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for (int i = 0; i < 4; ++i) {
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grLang <<= 8;
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if (i < len) {
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uint8_t ch = aLang[i];
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if (ch == '-') {
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// found end of primary language subtag, truncate here
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len = i;
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continue;
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}
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if (ch < 'a' || ch > 'z') {
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// invalid character in tag, so ignore it completely
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return 0;
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}
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grLang += ch;
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}
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}
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// valid tags must have length = 2 or 3
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if (len < 2 || len > 3) {
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return 0;
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}
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if (!sLanguageTags) {
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// store the registered IANA tags in a hash for convenient validation
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sLanguageTags = new nsTHashtable<nsUint32HashKey>(ArrayLength(sLanguageTagList));
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for (const uint32_t *tag = sLanguageTagList; *tag != 0; ++tag) {
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sLanguageTags->PutEntry(*tag);
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}
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}
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// only accept tags known in the IANA registry
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if (sLanguageTags->GetEntry(grLang)) {
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return grLang;
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}
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return 0;
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}
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/*static*/ void
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gfxGraphiteShaper::Shutdown()
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{
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#ifdef NS_FREE_PERMANENT_DATA
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if (sLanguageTags) {
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sLanguageTags->Clear();
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delete sLanguageTags;
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sLanguageTags = nullptr;
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}
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#endif
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}
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