mozilla
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gecko-dev
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gecko-dev/gfx/2d/DrawTargetTiled.cpp

434 строки
17 KiB
C++
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/* -*- 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 "DrawTargetTiled.h"
#include "Logging.h"
#include "PathHelpers.h"
namespace mozilla {
namespace gfx {
DrawTargetTiled::DrawTargetTiled() {}
bool DrawTargetTiled::Init(const TileSet& aTiles) {
if (!aTiles.mTileCount) {
return false;
}
mTiles.reserve(aTiles.mTileCount);
for (size_t i = 0; i < aTiles.mTileCount; ++i) {
mTiles.push_back(TileInternal(aTiles.mTiles[i]));
if (!aTiles.mTiles[i].mDrawTarget) {
return false;
}
if (mTiles[0].mDrawTarget->GetFormat() !=
mTiles.back().mDrawTarget->GetFormat() ||
mTiles[0].mDrawTarget->GetBackendType() !=
mTiles.back().mDrawTarget->GetBackendType()) {
return false;
}
uint32_t newXMost =
std::max(mRect.XMost(), mTiles[i].mTileOrigin.x +
mTiles[i].mDrawTarget->GetSize().width);
uint32_t newYMost =
std::max(mRect.YMost(), mTiles[i].mTileOrigin.y +
mTiles[i].mDrawTarget->GetSize().height);
if (i == 0) {
mRect.MoveTo(mTiles[0].mTileOrigin.x, mTiles[0].mTileOrigin.y);
} else {
mRect.MoveTo(std::min(mRect.X(), mTiles[i].mTileOrigin.x),
std::min(mRect.Y(), mTiles[i].mTileOrigin.y));
}
mRect.SetRightEdge(newXMost);
mRect.SetBottomEdge(newYMost);
mTiles[i].mDrawTarget->SetTransform(Matrix::Translation(
-mTiles[i].mTileOrigin.x, -mTiles[i].mTileOrigin.y));
}
mFormat = mTiles[0].mDrawTarget->GetFormat();
SetPermitSubpixelAA(IsOpaque(mFormat));
return true;
}
already_AddRefed<SourceSurface> DrawTargetTiled::Snapshot() {
return MakeAndAddRef<SnapshotTiled>(mTiles, mRect);
}
void DrawTargetTiled::DetachAllSnapshots() {}
// Skip the mClippedOut check since this is only used for Flush() which
// should happen even if we're clipped.
#define TILED_COMMAND(command) \
void DrawTargetTiled::command() { \
for (size_t i = 0; i < mTiles.size(); i++) { \
mTiles[i].mDrawTarget->command(); \
} \
}
#define TILED_COMMAND1(command, type1) \
void DrawTargetTiled::command(type1 arg1) { \
for (size_t i = 0; i < mTiles.size(); i++) { \
if (!mTiles[i].mClippedOut) mTiles[i].mDrawTarget->command(arg1); \
} \
}
#define TILED_COMMAND3(command, type1, type2, type3) \
void DrawTargetTiled::command(type1 arg1, type2 arg2, type3 arg3) { \
for (size_t i = 0; i < mTiles.size(); i++) { \
if (!mTiles[i].mClippedOut) \
mTiles[i].mDrawTarget->command(arg1, arg2, arg3); \
} \
}
#define TILED_COMMAND4(command, type1, type2, type3, type4) \
void DrawTargetTiled::command(type1 arg1, type2 arg2, type3 arg3, \
type4 arg4) { \
for (size_t i = 0; i < mTiles.size(); i++) { \
if (!mTiles[i].mClippedOut) \
mTiles[i].mDrawTarget->command(arg1, arg2, arg3, arg4); \
} \
}
#define TILED_COMMAND5(command, type1, type2, type3, type4, type5) \
void DrawTargetTiled::command(type1 arg1, type2 arg2, type3 arg3, \
type4 arg4, type5 arg5) { \
for (size_t i = 0; i < mTiles.size(); i++) { \
if (!mTiles[i].mClippedOut) \
mTiles[i].mDrawTarget->command(arg1, arg2, arg3, arg4, arg5); \
} \
}
TILED_COMMAND(Flush)
TILED_COMMAND4(DrawFilter, FilterNode*, const Rect&, const Point&,
const DrawOptions&)
TILED_COMMAND1(ClearRect, const Rect&)
TILED_COMMAND4(MaskSurface, const Pattern&, SourceSurface*, Point,
const DrawOptions&)
TILED_COMMAND4(FillGlyphs, ScaledFont*, const GlyphBuffer&, const Pattern&,
const DrawOptions&)
TILED_COMMAND3(Mask, const Pattern&, const Pattern&, const DrawOptions&)
void DrawTargetTiled::PushClip(const Path* aPath) {
if (!mClippedOutTilesStack.append(std::vector<bool>(mTiles.size()))) {
MOZ_CRASH("out of memory");
}
std::vector<bool>& clippedTiles = mClippedOutTilesStack.back();
Rect deviceRect = aPath->GetBounds(mTransform);
for (size_t i = 0; i < mTiles.size(); i++) {
if (!mTiles[i].mClippedOut) {
if (deviceRect.Intersects(
Rect(mTiles[i].mTileOrigin.x, mTiles[i].mTileOrigin.y,
mTiles[i].mDrawTarget->GetSize().width,
mTiles[i].mDrawTarget->GetSize().height))) {
mTiles[i].mDrawTarget->PushClip(aPath);
} else {
mTiles[i].mClippedOut = true;
clippedTiles[i] = true;
}
}
}
}
void DrawTargetTiled::PushClipRect(const Rect& aRect) {
if (!mClippedOutTilesStack.append(std::vector<bool>(mTiles.size()))) {
MOZ_CRASH("out of memory");
}
std::vector<bool>& clippedTiles = mClippedOutTilesStack.back();
Rect deviceRect = mTransform.TransformBounds(aRect);
for (size_t i = 0; i < mTiles.size(); i++) {
if (!mTiles[i].mClippedOut) {
if (deviceRect.Intersects(
Rect(mTiles[i].mTileOrigin.x, mTiles[i].mTileOrigin.y,
mTiles[i].mDrawTarget->GetSize().width,
mTiles[i].mDrawTarget->GetSize().height))) {
mTiles[i].mDrawTarget->PushClipRect(aRect);
} else {
mTiles[i].mClippedOut = true;
clippedTiles[i] = true;
}
}
}
}
void DrawTargetTiled::PopClip() {
std::vector<bool>& clippedTiles = mClippedOutTilesStack.back();
MOZ_ASSERT(clippedTiles.size() == mTiles.size());
for (size_t i = 0; i < mTiles.size(); i++) {
if (!mTiles[i].mClippedOut) {
mTiles[i].mDrawTarget->PopClip();
} else if (clippedTiles[i]) {
mTiles[i].mClippedOut = false;
}
}
mClippedOutTilesStack.popBack();
}
void DrawTargetTiled::CopySurface(SourceSurface* aSurface,
const IntRect& aSourceRect,
const IntPoint& aDestination) {
for (size_t i = 0; i < mTiles.size(); i++) {
IntPoint tileOrigin = mTiles[i].mTileOrigin;
IntSize tileSize = mTiles[i].mDrawTarget->GetSize();
if (!IntRect(aDestination, aSourceRect.Size())
.Intersects(IntRect(tileOrigin, tileSize))) {
continue;
}
// CopySurface ignores the transform, account for that here.
mTiles[i].mDrawTarget->CopySurface(aSurface, aSourceRect,
aDestination - tileOrigin);
}
}
void DrawTargetTiled::SetTransform(const Matrix& aTransform) {
for (size_t i = 0; i < mTiles.size(); i++) {
Matrix mat = aTransform;
mat.PostTranslate(Float(-mTiles[i].mTileOrigin.x),
Float(-mTiles[i].mTileOrigin.y));
mTiles[i].mDrawTarget->SetTransform(mat);
}
DrawTarget::SetTransform(aTransform);
}
void DrawTargetTiled::SetPermitSubpixelAA(bool aPermitSubpixelAA) {
DrawTarget::SetPermitSubpixelAA(aPermitSubpixelAA);
for (size_t i = 0; i < mTiles.size(); i++) {
mTiles[i].mDrawTarget->SetPermitSubpixelAA(aPermitSubpixelAA);
}
}
void DrawTargetTiled::DrawSurface(SourceSurface* aSurface, const Rect& aDest,
const Rect& aSource,
const DrawSurfaceOptions& aSurfaceOptions,
const DrawOptions& aDrawOptions) {
Rect deviceRect = mTransform.TransformBounds(aDest);
for (size_t i = 0; i < mTiles.size(); i++) {
if (!mTiles[i].mClippedOut &&
deviceRect.Intersects(Rect(mTiles[i].mTileOrigin.x,
mTiles[i].mTileOrigin.y,
mTiles[i].mDrawTarget->GetSize().width,
mTiles[i].mDrawTarget->GetSize().height))) {
mTiles[i].mDrawTarget->DrawSurface(aSurface, aDest, aSource,
aSurfaceOptions, aDrawOptions);
}
}
}
void DrawTargetTiled::FillRect(const Rect& aRect, const Pattern& aPattern,
const DrawOptions& aDrawOptions) {
Rect deviceRect = mTransform.TransformBounds(aRect);
for (size_t i = 0; i < mTiles.size(); i++) {
if (!mTiles[i].mClippedOut &&
deviceRect.Intersects(Rect(mTiles[i].mTileOrigin.x,
mTiles[i].mTileOrigin.y,
mTiles[i].mDrawTarget->GetSize().width,
mTiles[i].mDrawTarget->GetSize().height))) {
mTiles[i].mDrawTarget->FillRect(aRect, aPattern, aDrawOptions);
}
}
}
void DrawTargetTiled::Stroke(const Path* aPath, const Pattern& aPattern,
const StrokeOptions& aStrokeOptions,
const DrawOptions& aDrawOptions) {
// Approximate the stroke extents, since Path::GetStrokeExtents can be slow
Rect deviceRect = aPath->GetBounds(mTransform);
deviceRect.Inflate(MaxStrokeExtents(aStrokeOptions, mTransform));
for (size_t i = 0; i < mTiles.size(); i++) {
if (!mTiles[i].mClippedOut &&
deviceRect.Intersects(Rect(mTiles[i].mTileOrigin.x,
mTiles[i].mTileOrigin.y,
mTiles[i].mDrawTarget->GetSize().width,
mTiles[i].mDrawTarget->GetSize().height))) {
mTiles[i].mDrawTarget->Stroke(aPath, aPattern, aStrokeOptions,
aDrawOptions);
}
}
}
void DrawTargetTiled::StrokeRect(const Rect& aRect, const Pattern& aPattern,
const StrokeOptions& aStrokeOptions,
const DrawOptions& aDrawOptions) {
Rect deviceRect = mTransform.TransformBounds(aRect);
Margin strokeMargin = MaxStrokeExtents(aStrokeOptions, mTransform);
Rect outerRect = deviceRect;
outerRect.Inflate(strokeMargin);
Rect innerRect;
if (mTransform.IsRectilinear()) {
// If rects are mapped to rects, we can compute the inner rect
// of the stroked rect.
innerRect = deviceRect;
innerRect.Deflate(strokeMargin);
}
for (size_t i = 0; i < mTiles.size(); i++) {
if (mTiles[i].mClippedOut) {
continue;
}
Rect tileRect(mTiles[i].mTileOrigin.x, mTiles[i].mTileOrigin.y,
mTiles[i].mDrawTarget->GetSize().width,
mTiles[i].mDrawTarget->GetSize().height);
if (outerRect.Intersects(tileRect) && !innerRect.Contains(tileRect)) {
mTiles[i].mDrawTarget->StrokeRect(aRect, aPattern, aStrokeOptions,
aDrawOptions);
}
}
}
void DrawTargetTiled::StrokeLine(const Point& aStart, const Point& aEnd,
const Pattern& aPattern,
const StrokeOptions& aStrokeOptions,
const DrawOptions& aDrawOptions) {
Rect lineBounds = Rect(aStart, Size()).UnionEdges(Rect(aEnd, Size()));
Rect deviceRect = mTransform.TransformBounds(lineBounds);
deviceRect.Inflate(MaxStrokeExtents(aStrokeOptions, mTransform));
for (size_t i = 0; i < mTiles.size(); i++) {
if (!mTiles[i].mClippedOut &&
deviceRect.Intersects(Rect(mTiles[i].mTileOrigin.x,
mTiles[i].mTileOrigin.y,
mTiles[i].mDrawTarget->GetSize().width,
mTiles[i].mDrawTarget->GetSize().height))) {
mTiles[i].mDrawTarget->StrokeLine(aStart, aEnd, aPattern, aStrokeOptions,
aDrawOptions);
}
}
}
void DrawTargetTiled::Fill(const Path* aPath, const Pattern& aPattern,
const DrawOptions& aDrawOptions) {
Rect deviceRect = aPath->GetBounds(mTransform);
for (size_t i = 0; i < mTiles.size(); i++) {
if (!mTiles[i].mClippedOut &&
deviceRect.Intersects(Rect(mTiles[i].mTileOrigin.x,
mTiles[i].mTileOrigin.y,
mTiles[i].mDrawTarget->GetSize().width,
mTiles[i].mDrawTarget->GetSize().height))) {
mTiles[i].mDrawTarget->Fill(aPath, aPattern, aDrawOptions);
}
}
}
void DrawTargetTiled::PushLayer(bool aOpaque, Float aOpacity,
SourceSurface* aMask,
const Matrix& aMaskTransform,
const IntRect& aBounds, bool aCopyBackground) {
// XXX - not sure this is what we want or whether we want to continue drawing
// to a larger intermediate surface, that would require tweaking the code in
// here a little though.
for (size_t i = 0; i < mTiles.size(); i++) {
if (!mTiles[i].mClippedOut) {
IntRect bounds = aBounds;
bounds.MoveBy(-mTiles[i].mTileOrigin);
mTiles[i].mDrawTarget->PushLayer(aOpaque, aOpacity, aMask, aMaskTransform,
bounds, aCopyBackground);
}
}
PushedLayer layer(GetPermitSubpixelAA());
mPushedLayers.push_back(layer);
SetPermitSubpixelAA(aOpaque);
}
void DrawTargetTiled::PushLayerWithBlend(bool aOpaque, Float aOpacity,
SourceSurface* aMask,
const Matrix& aMaskTransform,
const IntRect& aBounds,
bool aCopyBackground,
CompositionOp aOp) {
// XXX - not sure this is what we want or whether we want to continue drawing
// to a larger intermediate surface, that would require tweaking the code in
// here a little though.
for (size_t i = 0; i < mTiles.size(); i++) {
if (!mTiles[i].mClippedOut) {
IntRect bounds = aBounds;
bounds.MoveBy(-mTiles[i].mTileOrigin);
mTiles[i].mDrawTarget->PushLayerWithBlend(aOpaque, aOpacity, aMask,
aMaskTransform, bounds,
aCopyBackground, aOp);
}
}
PushedLayer layer(GetPermitSubpixelAA());
mPushedLayers.push_back(layer);
SetPermitSubpixelAA(aOpaque);
}
void DrawTargetTiled::PopLayer() {
// XXX - not sure this is what we want or whether we want to continue drawing
// to a larger intermediate surface, that would require tweaking the code in
// here a little though.
for (size_t i = 0; i < mTiles.size(); i++) {
if (!mTiles[i].mClippedOut) {
mTiles[i].mDrawTarget->PopLayer();
}
}
MOZ_ASSERT(mPushedLayers.size());
const PushedLayer& layer = mPushedLayers.back();
SetPermitSubpixelAA(layer.mOldPermitSubpixelAA);
mPushedLayers.pop_back();
}
RefPtr<DrawTarget> DrawTargetTiled::CreateClippedDrawTarget(
const Rect& aBounds, SurfaceFormat aFormat) {
Rect deviceRect = mTransform.TransformBounds(aBounds);
// Build up an approximation of the current clip rect by unioning
// the tiles that are not clipped
Rect clipRectApproximation;
for (size_t i = 0; i < mTiles.size(); i++) {
if (!mTiles[i].mClippedOut) {
clipRectApproximation = clipRectApproximation.Union(
Rect(mTiles[i].mTileOrigin.x, mTiles[i].mTileOrigin.y,
mTiles[i].mDrawTarget->GetSize().width,
mTiles[i].mDrawTarget->GetSize().height));
}
}
IntRect clipBounds;
if (!aBounds.IsEmpty()) {
clipBounds = IntRect::RoundOut(deviceRect.Intersect(clipRectApproximation));
} else {
clipBounds = IntRect::RoundOut(clipRectApproximation);
}
RefPtr<DrawTarget> result;
if (!clipBounds.IsEmpty()) {
RefPtr<DrawTarget> dt = CreateSimilarDrawTarget(
IntSize(clipBounds.width, clipBounds.height), aFormat);
result = gfx::Factory::CreateOffsetDrawTarget(
dt, IntPoint(clipBounds.x, clipBounds.y));
result->SetTransform(mTransform);
} else {
// Everything is clipped but we still want some kind of surface
result = CreateSimilarDrawTarget(IntSize(1, 1), aFormat);
}
return result;
}
void DrawTargetTiled::PadEdges(const IntRegion& aRegion) {
for (size_t i = 0; i < mTiles.size(); i++) {
if (mTiles[i].mClippedOut) {
continue;
}
auto tileRect =
RoundedOut(Rect(mTiles[i].mTileOrigin.x, mTiles[i].mTileOrigin.y,
mTiles[i].mDrawTarget->GetSize().width,
mTiles[i].mDrawTarget->GetSize().height));
// We only need to pad edges on tiles that intersect the edge of the region
if (aRegion.Intersects(tileRect) && !aRegion.Contains(tileRect)) {
IntRegion padRegion = aRegion;
padRegion.MoveBy(-mTiles[i].mTileOrigin);
padRegion.AndWith(IntRect(0, 0, mTiles[i].mDrawTarget->GetSize().width,
mTiles[i].mDrawTarget->GetSize().height));
mTiles[i].mDrawTarget->PadEdges(padRegion);
}
}
}
} // namespace gfx
} // namespace mozilla
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