bool HarfBuzzShaper::shapeHarfBuzzRuns(bool shouldSetDirection)
{
HarfBuzzScopedPtr<hb_buffer_t> harfBuzzBuffer(hb_buffer_create(), hb_buffer_destroy);
hb_buffer_set_unicode_funcs(harfBuzzBuffer.get(), hb_icu_get_unicode_funcs());
for (unsigned i = 0; i < m_harfBuzzRuns.size(); ++i) {
unsigned runIndex = m_run.rtl() ? m_harfBuzzRuns.size() - i - 1 : i;
HarfBuzzRun* currentRun = m_harfBuzzRuns[runIndex].get();
const SimpleFontData* currentFontData = currentRun->fontData();
if (currentFontData->isSVGFont())
return false;
hb_buffer_set_script(harfBuzzBuffer.get(), currentRun->script());
if (shouldSetDirection)
hb_buffer_set_direction(harfBuzzBuffer.get(), currentRun->rtl() ? HB_DIRECTION_RTL : HB_DIRECTION_LTR);
else
// Leaving direction to HarfBuzz to guess is *really* bad, but will do for now.
hb_buffer_guess_segment_properties(harfBuzzBuffer.get());
// Add a space as pre-context to the buffer. This prevents showing dotted-circle
// for combining marks at the beginning of runs.
static const uint16_t preContext = ' ';
hb_buffer_add_utf16(harfBuzzBuffer.get(), &preContext, 1, 1, 0);
if (m_font->isSmallCaps() && u_islower(m_normalizedBuffer[currentRun->startIndex()])) {
String upperText = String(m_normalizedBuffer.get() + currentRun->startIndex(), currentRun->numCharacters());
upperText.makeUpper();
currentFontData = m_font->glyphDataForCharacter(upperText[0], false, SmallCapsVariant).fontData;
hb_buffer_add_utf16(harfBuzzBuffer.get(), upperText.characters(), currentRun->numCharacters(), 0, currentRun->numCharacters());
} else
hb_buffer_add_utf16(harfBuzzBuffer.get(), m_normalizedBuffer.get() + currentRun->startIndex(), currentRun->numCharacters(), 0, currentRun->numCharacters());
FontPlatformData* platformData = const_cast<FontPlatformData*>(¤tFontData->platformData());
HarfBuzzFace* face = platformData->harfBuzzFace();
if (!face)
return false;
if (m_font->fontDescription().orientation() == Vertical)
face->setScriptForVerticalGlyphSubstitution(harfBuzzBuffer.get());
HarfBuzzScopedPtr<hb_font_t> harfBuzzFont(face->createFont(), hb_font_destroy);
hb_shape(harfBuzzFont.get(), harfBuzzBuffer.get(), m_features.isEmpty() ? 0 : m_features.data(), m_features.size());
currentRun->applyShapeResult(harfBuzzBuffer.get());
setGlyphPositionsForHarfBuzzRun(currentRun, harfBuzzBuffer.get());
hb_buffer_reset(harfBuzzBuffer.get());
}
return true;
}
bool HarfBuzzShaper::shape(GlyphBuffer* glyphBuffer)
{
m_totalWidth = 0;
while (setupHarfBuzzRun()) {
if (!shapeHarfBuzzRun())
return false;
setGlyphPositionsForHarfBuzzRun(glyphBuffer);
}
if (!m_harfbuzzRuns.size())
return false;
return true;
}
bool HarfBuzzShaper::shapeHarfBuzzRuns()
{
HarfBuzzScopedPtr<hb_buffer_t> harfbuzzBuffer(hb_buffer_create(), hb_buffer_destroy);
hb_buffer_set_unicode_funcs(harfbuzzBuffer.get(), hb_icu_get_unicode_funcs());
if (m_run.rtl() || m_run.directionalOverride())
hb_buffer_set_direction(harfbuzzBuffer.get(), m_run.rtl() ? HB_DIRECTION_RTL : HB_DIRECTION_LTR);
for (unsigned i = 0; i < m_harfbuzzRuns.size(); ++i) {
unsigned runIndex = m_run.rtl() ? m_harfbuzzRuns.size() - i - 1 : i;
HarfBuzzRun* currentRun = m_harfbuzzRuns[runIndex].get();
const SimpleFontData* currentFontData = currentRun->fontData();
if (m_font->isSmallCaps() && u_islower(m_normalizedBuffer[currentRun->startIndex()])) {
String upperText = String(m_normalizedBuffer.get() + currentRun->startIndex(), currentRun->numCharacters());
upperText.makeUpper();
currentFontData = m_font->glyphDataForCharacter(upperText[0], false, SmallCapsVariant).fontData;
hb_buffer_add_utf16(harfbuzzBuffer.get(), upperText.characters(), currentRun->numCharacters(), 0, currentRun->numCharacters());
} else
hb_buffer_add_utf16(harfbuzzBuffer.get(), m_normalizedBuffer.get() + currentRun->startIndex(), currentRun->numCharacters(), 0, currentRun->numCharacters());
FontPlatformData* platformData = const_cast<FontPlatformData*>(¤tFontData->platformData());
HarfBuzzNGFace* face = platformData->harfbuzzFace();
if (!face)
return false;
HarfBuzzScopedPtr<hb_font_t> harfbuzzFont(face->createFont(), hb_font_destroy);
hb_shape(harfbuzzFont.get(), harfbuzzBuffer.get(), m_features.isEmpty() ? 0 : m_features.data(), m_features.size());
currentRun->applyShapeResult(harfbuzzBuffer.get());
setGlyphPositionsForHarfBuzzRun(currentRun, harfbuzzBuffer.get());
hb_buffer_reset(harfbuzzBuffer.get());
if (m_run.rtl() || m_run.directionalOverride())
hb_buffer_set_direction(harfbuzzBuffer.get(), m_run.rtl() ? HB_DIRECTION_RTL : HB_DIRECTION_LTR);
}
return true;
}
