blob: bc511bf40f88a261cfd71dfdda5bacafab4ccf58 [file] [log] [blame]
/*
* Copyright 2018 The Android Open Source Project
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "src/text/GlyphRun.h"
#include "include/core/SkFont.h"
#include "include/core/SkPaint.h"
#include "include/core/SkRSXform.h"
#include "include/core/SkTextBlob.h"
#include "src/base/SkUtils.h"
#include "src/core/SkDevice.h"
#include "src/core/SkFontPriv.h"
#include "src/core/SkStrike.h"
#include "src/core/SkStrikeCache.h"
#include "src/core/SkStrikeSpec.h"
#include "src/core/SkTextBlobPriv.h"
namespace sktext {
// -- GlyphRun -------------------------------------------------------------------------------------
GlyphRun::GlyphRun(const SkFont& font,
SkSpan<const SkPoint> positions,
SkSpan<const SkGlyphID> glyphIDs,
SkSpan<const char> text,
SkSpan<const uint32_t> clusters,
SkSpan<const SkVector> scaledRotations)
: fSource{SkMakeZip(glyphIDs, positions)}
, fText{text}
, fClusters{clusters}
, fScaledRotations{scaledRotations}
, fFont{font} {}
GlyphRun::GlyphRun(const GlyphRun& that, const SkFont& font)
: fSource{that.fSource}
, fText{that.fText}
, fClusters{that.fClusters}
, fFont{font} {}
// -- GlyphRunList ---------------------------------------------------------------------------------
GlyphRunList::GlyphRunList(const SkTextBlob* blob,
SkRect bounds,
SkPoint origin,
SkSpan<const GlyphRun> glyphRunList,
GlyphRunBuilder* builder)
: fGlyphRuns{glyphRunList}
, fOriginalTextBlob{blob}
, fSourceBounds{bounds}
, fOrigin{origin}
, fBuilder{builder} {}
GlyphRunList::GlyphRunList(const GlyphRun& glyphRun,
const SkRect& bounds,
SkPoint origin,
GlyphRunBuilder* builder)
: fGlyphRuns{SkSpan<const GlyphRun>{&glyphRun, 1}}
, fOriginalTextBlob{nullptr}
, fSourceBounds{bounds}
, fOrigin{origin}
, fBuilder{builder} {}
uint64_t GlyphRunList::uniqueID() const {
return fOriginalTextBlob != nullptr ? fOriginalTextBlob->uniqueID()
: SK_InvalidUniqueID;
}
bool GlyphRunList::anyRunsLCD() const {
for (const auto& r : fGlyphRuns) {
if (r.font().getEdging() == SkFont::Edging::kSubpixelAntiAlias) {
return true;
}
}
return false;
}
void GlyphRunList::temporaryShuntBlobNotifyAddedToCache(uint32_t cacheID) const {
SkASSERT(fOriginalTextBlob != nullptr);
fOriginalTextBlob->notifyAddedToCache(cacheID);
}
sk_sp<SkTextBlob> GlyphRunList::makeBlob() const {
SkTextBlobBuilder builder;
for (auto& run : *this) {
SkTextBlobBuilder::RunBuffer buffer;
if (run.scaledRotations().empty()) {
if (run.text().empty()) {
buffer = builder.allocRunPos(run.font(), run.runSize(), nullptr);
} else {
buffer = builder.allocRunTextPos(run.font(), run.runSize(), run.text().size(), nullptr);
auto text = run.text();
memcpy(buffer.utf8text, text.data(), text.size_bytes());
auto clusters = run.clusters();
memcpy(buffer.clusters, clusters.data(), clusters.size_bytes());
}
auto positions = run.positions();
memcpy(buffer.points(), positions.data(), positions.size_bytes());
} else {
buffer = builder.allocRunRSXform(run.font(), run.runSize());
for (auto [xform, pos, sr] : SkMakeZip(buffer.xforms(),
run.positions(),
run.scaledRotations())) {
xform = SkRSXform::Make(sr.x(), sr.y(), pos.x(), pos.y());
}
}
auto glyphIDs = run.glyphsIDs();
memcpy(buffer.glyphs, glyphIDs.data(), glyphIDs.size_bytes());
}
return builder.make();
}
// -- GlyphRunBuilder ------------------------------------------------------------------------------
static SkRect glyphrun_source_bounds(
const SkFont& font,
const SkPaint& paint,
SkZip<const SkGlyphID, const SkPoint> source,
SkSpan<const SkVector> scaledRotations) {
SkASSERT(source.size() > 0);
const SkRect fontBounds = SkFontPriv::GetFontBounds(font);
SkSpan<const SkGlyphID> glyphIDs = source.get<0>();
SkSpan<const SkPoint> positions = source.get<1>();
if (fontBounds.isEmpty()) {
// Empty font bounds are likely a font bug. TightBounds has a better chance of
// producing useful results in this case.
auto [strikeSpec, strikeToSourceScale] = SkStrikeSpec::MakeCanonicalized(font, &paint);
SkBulkGlyphMetrics metrics{strikeSpec};
SkSpan<const SkGlyph*> glyphs = metrics.glyphs(glyphIDs);
if (scaledRotations.empty()) {
// No RSXForm data - glyphs x/y aligned.
auto scaleAndTranslateRect =
[scale = strikeToSourceScale](const SkRect& in, const SkPoint& pos) {
return SkRect::MakeLTRB(in.left() * scale + pos.x(),
in.top() * scale + pos.y(),
in.right() * scale + pos.x(),
in.bottom() * scale + pos.y());
};
SkRect bounds = SkRect::MakeEmpty();
for (auto [pos, glyph] : SkMakeZip(positions, glyphs)) {
if (SkRect r = glyph->rect(); !r.isEmpty()) {
bounds.join(scaleAndTranslateRect(r, pos));
}
}
return bounds;
} else {
// RSXForm - glyphs can be any scale or rotation.
SkRect bounds = SkRect::MakeEmpty();
for (auto [pos, scaleRotate, glyph] : SkMakeZip(positions, scaledRotations, glyphs)) {
if (!glyph->rect().isEmpty()) {
SkMatrix xform = SkMatrix().setRSXform(
SkRSXform{pos.x(), pos.y(), scaleRotate.x(), scaleRotate.y()});
xform.preScale(strikeToSourceScale, strikeToSourceScale);
bounds.join(xform.mapRect(glyph->rect()));
}
}
return bounds;
}
}
// Use conservative bounds. All glyph have a box of fontBounds size.
if (scaledRotations.empty()) {
SkRect bounds;
bounds.setBounds(positions.data(), SkCount(positions));
bounds.fLeft += fontBounds.left();
bounds.fTop += fontBounds.top();
bounds.fRight += fontBounds.right();
bounds.fBottom += fontBounds.bottom();
return bounds;
} else {
// RSXForm case glyphs can be any scale or rotation.
SkRect bounds;
bounds.setEmpty();
for (auto [pos, scaleRotate] : SkMakeZip(positions, scaledRotations)) {
const SkRSXform xform{pos.x(), pos.y(), scaleRotate.x(), scaleRotate.y()};
bounds.join(SkMatrix().setRSXform(xform).mapRect(fontBounds));
}
return bounds;
}
}
GlyphRunList GlyphRunBuilder::makeGlyphRunList(
const GlyphRun& run, const SkPaint& paint, SkPoint origin) {
const SkRect bounds =
glyphrun_source_bounds(run.font(), paint, run.source(), run.scaledRotations());
return GlyphRunList{run, bounds, origin, this};
}
static SkSpan<const SkPoint> draw_text_positions(
const SkFont& font, SkSpan<const SkGlyphID> glyphIDs, SkPoint origin, SkPoint* buffer) {
SkStrikeSpec strikeSpec = SkStrikeSpec::MakeWithNoDevice(font);
SkBulkGlyphMetrics storage{strikeSpec};
auto glyphs = storage.glyphs(glyphIDs);
SkPoint* positionCursor = buffer;
SkPoint endOfLastGlyph = origin;
for (auto glyph : glyphs) {
*positionCursor++ = endOfLastGlyph;
endOfLastGlyph += glyph->advanceVector();
}
return SkSpan(buffer, glyphIDs.size());
}
const GlyphRunList& GlyphRunBuilder::textToGlyphRunList(
const SkFont& font, const SkPaint& paint,
const void* bytes, size_t byteLength, SkPoint origin,
SkTextEncoding encoding) {
auto glyphIDs = textToGlyphIDs(font, bytes, byteLength, encoding);
SkRect bounds = SkRect::MakeEmpty();
this->prepareBuffers(glyphIDs.size(), 0);
if (!glyphIDs.empty()) {
SkSpan<const SkPoint> positions = draw_text_positions(font, glyphIDs, {0, 0}, fPositions);
this->makeGlyphRun(font,
glyphIDs,
positions,
SkSpan<const char>{},
SkSpan<const uint32_t>{},
SkSpan<const SkVector>{});
auto run = fGlyphRunListStorage.front();
bounds = glyphrun_source_bounds(run.font(), paint, run.source(), run.scaledRotations());
}
return this->setGlyphRunList(nullptr, bounds, origin);
}
const GlyphRunList& sktext::GlyphRunBuilder::blobToGlyphRunList(
const SkTextBlob& blob, SkPoint origin) {
// Pre-size all the buffers, so they don't move during processing.
this->initialize(blob);
SkPoint* positionCursor = fPositions;
SkVector* scaledRotationsCursor = fScaledRotations;
for (SkTextBlobRunIterator it(&blob); !it.done(); it.next()) {
size_t runSize = it.glyphCount();
if (runSize == 0 || !SkFontPriv::IsFinite(it.font())) {
// If no glyphs or the font is not finite, don't add the run.
continue;
}
const SkFont& font = it.font();
auto glyphIDs = SkSpan<const SkGlyphID>{it.glyphs(), runSize};
SkSpan<const SkPoint> positions;
SkSpan<const SkVector> scaledRotations;
switch (it.positioning()) {
case SkTextBlobRunIterator::kDefault_Positioning: {
positions = draw_text_positions(font, glyphIDs, it.offset(), positionCursor);
positionCursor += positions.size();
break;
}
case SkTextBlobRunIterator::kHorizontal_Positioning: {
positions = SkSpan(positionCursor, runSize);
for (auto x : SkSpan<const SkScalar>{it.pos(), glyphIDs.size()}) {
*positionCursor++ = SkPoint::Make(x, it.offset().y());
}
break;
}
case SkTextBlobRunIterator::kFull_Positioning: {
positions = SkSpan(it.points(), runSize);
break;
}
case SkTextBlobRunIterator::kRSXform_Positioning: {
positions = SkSpan(positionCursor, runSize);
scaledRotations = SkSpan(scaledRotationsCursor, runSize);
for (const SkRSXform& xform : SkSpan(it.xforms(), runSize)) {
*positionCursor++ = {xform.fTx, xform.fTy};
*scaledRotationsCursor++ = {xform.fSCos, xform.fSSin};
}
break;
}
}
const uint32_t* clusters = it.clusters();
this->makeGlyphRun(
font,
glyphIDs,
positions,
SkSpan<const char>(it.text(), it.textSize()),
SkSpan<const uint32_t>(clusters, clusters ? runSize : 0),
scaledRotations);
}
return this->setGlyphRunList(&blob, blob.bounds(), origin);
}
std::tuple<SkSpan<const SkPoint>, SkSpan<const SkVector>>
GlyphRunBuilder::convertRSXForm(SkSpan<const SkRSXform> xforms) {
const int count = SkCount(xforms);
this->prepareBuffers(count, count);
auto positions = SkSpan(fPositions.get(), count);
auto scaledRotations = SkSpan(fScaledRotations.get(), count);
for (auto [pos, sr, xform] : SkMakeZip(positions, scaledRotations, xforms)) {
auto [scos, ssin, tx, ty] = xform;
pos = {tx, ty};
sr = {scos, ssin};
}
return {positions, scaledRotations};
}
void GlyphRunBuilder::initialize(const SkTextBlob& blob) {
int positionCount = 0;
int rsxFormCount = 0;
for (SkTextBlobRunIterator it(&blob); !it.done(); it.next()) {
if (it.positioning() != SkTextBlobRunIterator::kFull_Positioning) {
positionCount += it.glyphCount();
}
if (it.positioning() == SkTextBlobRunIterator::kRSXform_Positioning) {
rsxFormCount += it.glyphCount();
}
}
prepareBuffers(positionCount, rsxFormCount);
}
void GlyphRunBuilder::prepareBuffers(int positionCount, int RSXFormCount) {
if (positionCount > fMaxTotalRunSize) {
fMaxTotalRunSize = positionCount;
fPositions.reset(fMaxTotalRunSize);
}
if (RSXFormCount > fMaxScaledRotations) {
fMaxScaledRotations = RSXFormCount;
fScaledRotations.reset(RSXFormCount);
}
fGlyphRunListStorage.clear();
}
SkSpan<const SkGlyphID> GlyphRunBuilder::textToGlyphIDs(
const SkFont& font, const void* bytes, size_t byteLength, SkTextEncoding encoding) {
if (encoding != SkTextEncoding::kGlyphID) {
int count = font.countText(bytes, byteLength, encoding);
if (count > 0) {
fScratchGlyphIDs.resize(count);
font.textToGlyphs(bytes, byteLength, encoding, fScratchGlyphIDs.data(), count);
return SkSpan(fScratchGlyphIDs);
} else {
return SkSpan<const SkGlyphID>();
}
} else {
return SkSpan<const SkGlyphID>((const SkGlyphID*)bytes, byteLength / 2);
}
}
void GlyphRunBuilder::makeGlyphRun(
const SkFont& font,
SkSpan<const SkGlyphID> glyphIDs,
SkSpan<const SkPoint> positions,
SkSpan<const char> text,
SkSpan<const uint32_t> clusters,
SkSpan<const SkVector> scaledRotations) {
// Ignore empty runs.
if (!glyphIDs.empty()) {
fGlyphRunListStorage.emplace_back(
font,
positions,
glyphIDs,
text,
clusters,
scaledRotations);
}
}
const GlyphRunList& sktext::GlyphRunBuilder::setGlyphRunList(
const SkTextBlob* blob, const SkRect& bounds, SkPoint origin) {
fGlyphRunList.emplace(blob, bounds, origin, SkSpan(fGlyphRunListStorage), this);
return fGlyphRunList.value();
}
} // namespace sktext