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/* -*- Mode: C++; tab-width: 20; indent-tabs-mode: nil; c-basic-offset: 2 -*-
* 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
#include "gfxPattern.h"
#include "gfxUtils.h"
#include "gfxTypes.h"
#include "gfxPlatform.h"
#include "gfx2DGlue.h"
#include "gfxGradientCache.h"
#include "mozilla/gfx/2D.h"
#include "cairo.h"
#include <vector>
using namespace mozilla::gfx;
gfxPattern::gfxPattern(const DeviceColor& aColor) : mExtend(ExtendMode::CLAMP) {
mGfxPattern.InitColorPattern(aColor);
}
// linear
gfxPattern::gfxPattern(gfxFloat x0, gfxFloat y0, gfxFloat x1, gfxFloat y1)
: mExtend(ExtendMode::CLAMP) {
mGfxPattern.InitLinearGradientPattern(Point(x0, y0), Point(x1, y1), nullptr);
}
// radial
gfxPattern::gfxPattern(gfxFloat cx0, gfxFloat cy0, gfxFloat radius0,
gfxFloat cx1, gfxFloat cy1, gfxFloat radius1)
: mExtend(ExtendMode::CLAMP) {
mGfxPattern.InitRadialGradientPattern(Point(cx0, cy0), Point(cx1, cy1),
radius0, radius1, nullptr);
}
// conic
gfxPattern::gfxPattern(gfxFloat cx, gfxFloat cy, gfxFloat angle,
gfxFloat startOffset, gfxFloat endOffset)
: mExtend(ExtendMode::CLAMP) {
mGfxPattern.InitConicGradientPattern(Point(cx, cy), angle, startOffset,
endOffset, nullptr);
}
// Azure
gfxPattern::gfxPattern(SourceSurface* aSurface,
const Matrix& aPatternToUserSpace)
: mPatternToUserSpace(aPatternToUserSpace), mExtend(ExtendMode::CLAMP) {
mGfxPattern.InitSurfacePattern(
aSurface, mExtend, Matrix(), // matrix is overridden in GetPattern()
mozilla::gfx::SamplingFilter::GOOD);
}
void gfxPattern::AddColorStop(gfxFloat offset, const DeviceColor& c) {
if (mGfxPattern.GetPattern()->GetType() != PatternType::LINEAR_GRADIENT &&
mGfxPattern.GetPattern()->GetType() != PatternType::RADIAL_GRADIENT &&
mGfxPattern.GetPattern()->GetType() != PatternType::CONIC_GRADIENT) {
return;
}
mStops = nullptr;
GradientStop stop;
stop.offset = offset;
stop.color = c;
mStopsList.AppendElement(stop);
}
void gfxPattern::SetColorStops(GradientStops* aStops) { mStops = aStops; }
void gfxPattern::CacheColorStops(const DrawTarget* aDT) {
mStops = gfxGradientCache::GetOrCreateGradientStops(aDT, mStopsList, mExtend);
}
void gfxPattern::SetMatrix(const gfxMatrix& aPatternToUserSpace) {
mPatternToUserSpace = ToMatrix(aPatternToUserSpace);
// Cairo-pattern matrices specify the conversion from DrawTarget to pattern
// space. Azure pattern matrices specify the conversion from pattern to
// DrawTarget space.
mPatternToUserSpace.Invert();
}
gfxMatrix gfxPattern::GetMatrix() const {
// invert at the higher precision of gfxMatrix
// cause we need to convert at some point anyways
gfxMatrix mat = ThebesMatrix(mPatternToUserSpace);
mat.Invert();
return mat;
}
gfxMatrix gfxPattern::GetInverseMatrix() const {
return ThebesMatrix(mPatternToUserSpace);
}
Pattern* gfxPattern::GetPattern(const DrawTarget* aTarget,
const Matrix* aOriginalUserToDevice) {
Matrix patternToUser = mPatternToUserSpace;
if (aOriginalUserToDevice &&
!aOriginalUserToDevice->FuzzyEquals(aTarget->GetTransform())) {
// mPatternToUserSpace maps from pattern space to the original user space,
// but aTarget now has a transform to a different user space. In order for
// the Pattern* that we return to be usable in aTarget's new user space we
// need the Pattern's mMatrix to be the transform from pattern space to
// aTarget's -new- user space. That transform is equivalent to the
// transform from pattern space to original user space (patternToUser),
// multiplied by the transform from original user space to device space,
// multiplied by the transform from device space to current user space.
Matrix deviceToCurrentUser = aTarget->GetTransform();
deviceToCurrentUser.Invert();
patternToUser =
patternToUser * *aOriginalUserToDevice * deviceToCurrentUser;
}
patternToUser.NudgeToIntegers();
if (!mStops && !mStopsList.IsEmpty()) {
mStops = aTarget->CreateGradientStops(mStopsList.Elements(),
mStopsList.Length(), mExtend);
}
switch (mGfxPattern.GetPattern()->GetType()) {
case PatternType::SURFACE: {
SurfacePattern* surfacePattern =
static_cast<SurfacePattern*>(mGfxPattern.GetPattern());
surfacePattern->mMatrix = patternToUser;
surfacePattern->mExtendMode = mExtend;
break;
}
case PatternType::LINEAR_GRADIENT: {
LinearGradientPattern* linearGradientPattern =
static_cast<LinearGradientPattern*>(mGfxPattern.GetPattern());
linearGradientPattern->mMatrix = patternToUser;
linearGradientPattern->mStops = mStops;
break;
}
case PatternType::RADIAL_GRADIENT: {
RadialGradientPattern* radialGradientPattern =
static_cast<RadialGradientPattern*>(mGfxPattern.GetPattern());
radialGradientPattern->mMatrix = patternToUser;
radialGradientPattern->mStops = mStops;
break;
}
case PatternType::CONIC_GRADIENT: {
ConicGradientPattern* conicGradientPattern =
static_cast<ConicGradientPattern*>(mGfxPattern.GetPattern());
conicGradientPattern->mMatrix = patternToUser;
conicGradientPattern->mStops = mStops;
break;
}
default:
/* Reassure the compiler we are handling all the enum values. */
break;
}
return mGfxPattern.GetPattern();
}
void gfxPattern::SetExtend(ExtendMode aExtend) {
mExtend = aExtend;
mStops = nullptr;
}
bool gfxPattern::IsOpaque() {
if (mGfxPattern.GetPattern()->GetType() != PatternType::SURFACE) {
return false;
}
if (static_cast<SurfacePattern*>(mGfxPattern.GetPattern())
->mSurface->GetFormat() == SurfaceFormat::B8G8R8X8) {
return true;
}
return false;
}
void gfxPattern::SetSamplingFilter(mozilla::gfx::SamplingFilter filter) {
if (mGfxPattern.GetPattern()->GetType() != PatternType::SURFACE) {
return;
}
static_cast<SurfacePattern*>(mGfxPattern.GetPattern())->mSamplingFilter =
filter;
}
SamplingFilter gfxPattern::SamplingFilter() const {
if (mGfxPattern.GetPattern()->GetType() != PatternType::SURFACE) {
return mozilla::gfx::SamplingFilter::GOOD;
}
return static_cast<const SurfacePattern*>(mGfxPattern.GetPattern())
->mSamplingFilter;
}
bool gfxPattern::GetSolidColor(DeviceColor& aColorOut) {
if (mGfxPattern.GetPattern()->GetType() == PatternType::COLOR) {
aColorOut = static_cast<ColorPattern*>(mGfxPattern.GetPattern())->mColor;
return true;
}
return false;
}