gecko-dev/gfx/2d/RecordedEvent.cpp
Haik Aftandilian e4b0bb24b7 Bug 1228022 - part 1 - Support replay of Mac print stream, adds NativeFontResourceMac, ScaledFontMac::GetCairoFontFace; r=jfkthame
Adds the necessary plumbing to allow Mac font creation and
referencing during replay of a remote print stream.

MozReview-Commit-ID: 18jpeImPwCI

--HG--
extra : transplant_source : %AE%3A%13%7B%E2VzMM%0F%AD%BF%A0%EC%BD%40%5E%281n
2016-09-15 14:13:57 -07:00

1853 lines
51 KiB
C++

/* -*- 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
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "RecordedEvent.h"
#include "PathRecording.h"
#include "RecordingTypes.h"
#include "Tools.h"
#include "Filters.h"
#include "Logging.h"
#include "ScaledFontBase.h"
#include "SFNTData.h"
namespace mozilla {
namespace gfx {
using namespace std;
static std::string NameFromBackend(BackendType aType)
{
switch (aType) {
case BackendType::NONE:
return "None";
case BackendType::DIRECT2D:
return "Direct2D";
default:
return "Unknown";
}
}
already_AddRefed<DrawTarget>
Translator::CreateDrawTarget(ReferencePtr aRefPtr, const IntSize &aSize,
SurfaceFormat aFormat)
{
RefPtr<DrawTarget> newDT =
GetReferenceDrawTarget()->CreateSimilarDrawTarget(aSize, aFormat);
AddDrawTarget(aRefPtr, newDT);
return newDT.forget();
}
#define LOAD_EVENT_TYPE(_typeenum, _class) \
case _typeenum: return new _class(aStream)
RecordedEvent *
RecordedEvent::LoadEventFromStream(std::istream &aStream, EventType aType)
{
switch (aType) {
LOAD_EVENT_TYPE(DRAWTARGETCREATION, RecordedDrawTargetCreation);
LOAD_EVENT_TYPE(DRAWTARGETDESTRUCTION, RecordedDrawTargetDestruction);
LOAD_EVENT_TYPE(FILLRECT, RecordedFillRect);
LOAD_EVENT_TYPE(STROKERECT, RecordedStrokeRect);
LOAD_EVENT_TYPE(STROKELINE, RecordedStrokeLine);
LOAD_EVENT_TYPE(CLEARRECT, RecordedClearRect);
LOAD_EVENT_TYPE(COPYSURFACE, RecordedCopySurface);
LOAD_EVENT_TYPE(SETTRANSFORM, RecordedSetTransform);
LOAD_EVENT_TYPE(PUSHCLIPRECT, RecordedPushClipRect);
LOAD_EVENT_TYPE(PUSHCLIP, RecordedPushClip);
LOAD_EVENT_TYPE(POPCLIP, RecordedPopClip);
LOAD_EVENT_TYPE(FILL, RecordedFill);
LOAD_EVENT_TYPE(FILLGLYPHS, RecordedFillGlyphs);
LOAD_EVENT_TYPE(MASK, RecordedMask);
LOAD_EVENT_TYPE(STROKE, RecordedStroke);
LOAD_EVENT_TYPE(DRAWSURFACE, RecordedDrawSurface);
LOAD_EVENT_TYPE(DRAWSURFACEWITHSHADOW, RecordedDrawSurfaceWithShadow);
LOAD_EVENT_TYPE(DRAWFILTER, RecordedDrawFilter);
LOAD_EVENT_TYPE(PATHCREATION, RecordedPathCreation);
LOAD_EVENT_TYPE(PATHDESTRUCTION, RecordedPathDestruction);
LOAD_EVENT_TYPE(SOURCESURFACECREATION, RecordedSourceSurfaceCreation);
LOAD_EVENT_TYPE(SOURCESURFACEDESTRUCTION, RecordedSourceSurfaceDestruction);
LOAD_EVENT_TYPE(FILTERNODECREATION, RecordedFilterNodeCreation);
LOAD_EVENT_TYPE(FILTERNODEDESTRUCTION, RecordedFilterNodeDestruction);
LOAD_EVENT_TYPE(GRADIENTSTOPSCREATION, RecordedGradientStopsCreation);
LOAD_EVENT_TYPE(GRADIENTSTOPSDESTRUCTION, RecordedGradientStopsDestruction);
LOAD_EVENT_TYPE(SNAPSHOT, RecordedSnapshot);
LOAD_EVENT_TYPE(SCALEDFONTCREATION, RecordedScaledFontCreation);
LOAD_EVENT_TYPE(SCALEDFONTDESTRUCTION, RecordedScaledFontDestruction);
LOAD_EVENT_TYPE(MASKSURFACE, RecordedMaskSurface);
LOAD_EVENT_TYPE(FILTERNODESETATTRIBUTE, RecordedFilterNodeSetAttribute);
LOAD_EVENT_TYPE(FILTERNODESETINPUT, RecordedFilterNodeSetInput);
LOAD_EVENT_TYPE(CREATESIMILARDRAWTARGET, RecordedCreateSimilarDrawTarget);
LOAD_EVENT_TYPE(FONTDATA, RecordedFontData);
LOAD_EVENT_TYPE(FONTDESC, RecordedFontDescriptor);
LOAD_EVENT_TYPE(PUSHLAYER, RecordedPushLayer);
LOAD_EVENT_TYPE(POPLAYER, RecordedPopLayer);
default:
return nullptr;
}
}
string
RecordedEvent::GetEventName(EventType aType)
{
switch (aType) {
case DRAWTARGETCREATION:
return "DrawTarget Creation";
case DRAWTARGETDESTRUCTION:
return "DrawTarget Destruction";
case FILLRECT:
return "FillRect";
case STROKERECT:
return "StrokeRect";
case STROKELINE:
return "StrokeLine";
case CLEARRECT:
return "ClearRect";
case COPYSURFACE:
return "CopySurface";
case SETTRANSFORM:
return "SetTransform";
case PUSHCLIP:
return "PushClip";
case PUSHCLIPRECT:
return "PushClipRect";
case POPCLIP:
return "PopClip";
case FILL:
return "Fill";
case FILLGLYPHS:
return "FillGlyphs";
case MASK:
return "Mask";
case STROKE:
return "Stroke";
case DRAWSURFACE:
return "DrawSurface";
case DRAWSURFACEWITHSHADOW:
return "DrawSurfaceWithShadow";
case DRAWFILTER:
return "DrawFilter";
case PATHCREATION:
return "PathCreation";
case PATHDESTRUCTION:
return "PathDestruction";
case SOURCESURFACECREATION:
return "SourceSurfaceCreation";
case SOURCESURFACEDESTRUCTION:
return "SourceSurfaceDestruction";
case FILTERNODECREATION:
return "FilterNodeCreation";
case FILTERNODEDESTRUCTION:
return "FilterNodeDestruction";
case GRADIENTSTOPSCREATION:
return "GradientStopsCreation";
case GRADIENTSTOPSDESTRUCTION:
return "GradientStopsDestruction";
case SNAPSHOT:
return "Snapshot";
case SCALEDFONTCREATION:
return "ScaledFontCreation";
case SCALEDFONTDESTRUCTION:
return "ScaledFontDestruction";
case MASKSURFACE:
return "MaskSurface";
case FILTERNODESETATTRIBUTE:
return "SetAttribute";
case FILTERNODESETINPUT:
return "SetInput";
case CREATESIMILARDRAWTARGET:
return "CreateSimilarDrawTarget";
case FONTDATA:
return "FontData";
case FONTDESC:
return "FontDescriptor";
case PUSHLAYER:
return "PushLayer";
case POPLAYER:
return "PopLayer";
default:
return "Unknown";
}
}
void
RecordedEvent::RecordPatternData(std::ostream &aStream, const PatternStorage &aPattern) const
{
WriteElement(aStream, aPattern.mType);
switch (aPattern.mType) {
case PatternType::COLOR:
{
WriteElement(aStream, *reinterpret_cast<const ColorPatternStorage*>(&aPattern.mStorage));
return;
}
case PatternType::LINEAR_GRADIENT:
{
WriteElement(aStream, *reinterpret_cast<const LinearGradientPatternStorage*>(&aPattern.mStorage));
return;
}
case PatternType::RADIAL_GRADIENT:
{
WriteElement(aStream, *reinterpret_cast<const RadialGradientPatternStorage*>(&aPattern.mStorage));
return;
}
case PatternType::SURFACE:
{
WriteElement(aStream, *reinterpret_cast<const SurfacePatternStorage*>(&aPattern.mStorage));
return;
}
default:
return;
}
}
void
RecordedEvent::ReadPatternData(std::istream &aStream, PatternStorage &aPattern) const
{
ReadElement(aStream, aPattern.mType);
switch (aPattern.mType) {
case PatternType::COLOR:
{
ReadElement(aStream, *reinterpret_cast<ColorPatternStorage*>(&aPattern.mStorage));
return;
}
case PatternType::LINEAR_GRADIENT:
{
ReadElement(aStream, *reinterpret_cast<LinearGradientPatternStorage*>(&aPattern.mStorage));
return;
}
case PatternType::RADIAL_GRADIENT:
{
ReadElement(aStream, *reinterpret_cast<RadialGradientPatternStorage*>(&aPattern.mStorage));
return;
}
case PatternType::SURFACE:
{
ReadElement(aStream, *reinterpret_cast<SurfacePatternStorage*>(&aPattern.mStorage));
return;
}
default:
return;
}
}
void
RecordedEvent::StorePattern(PatternStorage &aDestination, const Pattern &aSource) const
{
aDestination.mType = aSource.GetType();
switch (aSource.GetType()) {
case PatternType::COLOR:
{
reinterpret_cast<ColorPatternStorage*>(&aDestination.mStorage)->mColor =
static_cast<const ColorPattern*>(&aSource)->mColor;
return;
}
case PatternType::LINEAR_GRADIENT:
{
LinearGradientPatternStorage *store =
reinterpret_cast<LinearGradientPatternStorage*>(&aDestination.mStorage);
const LinearGradientPattern *pat =
static_cast<const LinearGradientPattern*>(&aSource);
store->mBegin = pat->mBegin;
store->mEnd = pat->mEnd;
store->mMatrix = pat->mMatrix;
store->mStops = pat->mStops.get();
return;
}
case PatternType::RADIAL_GRADIENT:
{
RadialGradientPatternStorage *store =
reinterpret_cast<RadialGradientPatternStorage*>(&aDestination.mStorage);
const RadialGradientPattern *pat =
static_cast<const RadialGradientPattern*>(&aSource);
store->mCenter1 = pat->mCenter1;
store->mCenter2 = pat->mCenter2;
store->mRadius1 = pat->mRadius1;
store->mRadius2 = pat->mRadius2;
store->mMatrix = pat->mMatrix;
store->mStops = pat->mStops.get();
return;
}
case PatternType::SURFACE:
{
SurfacePatternStorage *store =
reinterpret_cast<SurfacePatternStorage*>(&aDestination.mStorage);
const SurfacePattern *pat =
static_cast<const SurfacePattern*>(&aSource);
store->mExtend = pat->mExtendMode;
store->mSamplingFilter = pat->mSamplingFilter;
store->mMatrix = pat->mMatrix;
store->mSurface = pat->mSurface;
return;
}
}
}
void
RecordedEvent::RecordStrokeOptions(std::ostream &aStream, const StrokeOptions &aStrokeOptions) const
{
JoinStyle joinStyle = aStrokeOptions.mLineJoin;
CapStyle capStyle = aStrokeOptions.mLineCap;
WriteElement(aStream, uint64_t(aStrokeOptions.mDashLength));
WriteElement(aStream, aStrokeOptions.mDashOffset);
WriteElement(aStream, aStrokeOptions.mLineWidth);
WriteElement(aStream, aStrokeOptions.mMiterLimit);
WriteElement(aStream, joinStyle);
WriteElement(aStream, capStyle);
if (!aStrokeOptions.mDashPattern) {
return;
}
aStream.write((char*)aStrokeOptions.mDashPattern, sizeof(Float) * aStrokeOptions.mDashLength);
}
void
RecordedEvent::ReadStrokeOptions(std::istream &aStream, StrokeOptions &aStrokeOptions)
{
uint64_t dashLength;
JoinStyle joinStyle;
CapStyle capStyle;
ReadElement(aStream, dashLength);
ReadElement(aStream, aStrokeOptions.mDashOffset);
ReadElement(aStream, aStrokeOptions.mLineWidth);
ReadElement(aStream, aStrokeOptions.mMiterLimit);
ReadElement(aStream, joinStyle);
ReadElement(aStream, capStyle);
// On 32 bit we truncate the value of dashLength.
// See also bug 811850 for history.
aStrokeOptions.mDashLength = size_t(dashLength);
aStrokeOptions.mLineJoin = joinStyle;
aStrokeOptions.mLineCap = capStyle;
if (!aStrokeOptions.mDashLength) {
return;
}
mDashPatternStorage.resize(aStrokeOptions.mDashLength);
aStrokeOptions.mDashPattern = &mDashPatternStorage.front();
aStream.read((char*)aStrokeOptions.mDashPattern, sizeof(Float) * aStrokeOptions.mDashLength);
}
void
RecordedEvent::OutputSimplePatternInfo(const PatternStorage &aStorage, std::stringstream &aOutput) const
{
switch (aStorage.mType) {
case PatternType::COLOR:
{
const Color color = reinterpret_cast<const ColorPatternStorage*>(&aStorage.mStorage)->mColor;
aOutput << "Color: (" << color.r << ", " << color.g << ", " << color.b << ", " << color.a << ")";
return;
}
case PatternType::LINEAR_GRADIENT:
{
const LinearGradientPatternStorage *store =
reinterpret_cast<const LinearGradientPatternStorage*>(&aStorage.mStorage);
aOutput << "LinearGradient (" << store->mBegin.x << ", " << store->mBegin.y <<
") - (" << store->mEnd.x << ", " << store->mEnd.y << ") Stops: " << store->mStops;
return;
}
case PatternType::RADIAL_GRADIENT:
{
const RadialGradientPatternStorage *store =
reinterpret_cast<const RadialGradientPatternStorage*>(&aStorage.mStorage);
aOutput << "RadialGradient (Center 1: (" << store->mCenter1.x << ", " <<
store->mCenter2.y << ") Radius 2: " << store->mRadius2;
return;
}
case PatternType::SURFACE:
{
const SurfacePatternStorage *store =
reinterpret_cast<const SurfacePatternStorage*>(&aStorage.mStorage);
aOutput << "Surface (0x" << store->mSurface << ")";
return;
}
}
}
RecordedDrawingEvent::RecordedDrawingEvent(EventType aType, std::istream &aStream)
: RecordedEvent(aType)
{
ReadElement(aStream, mDT);
}
void
RecordedDrawingEvent::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mDT);
}
ReferencePtr
RecordedDrawingEvent::GetObjectRef() const
{
return mDT;
}
bool
RecordedDrawTargetCreation::PlayEvent(Translator *aTranslator) const
{
RefPtr<DrawTarget> newDT =
aTranslator->CreateDrawTarget(mRefPtr, mSize, mFormat);
// If we couldn't create a DrawTarget this will probably cause us to crash
// with nullptr later in the playback, so return false to abort.
if (!newDT) {
return false;
}
if (mHasExistingData) {
Rect dataRect(0, 0, mExistingData->GetSize().width, mExistingData->GetSize().height);
newDT->DrawSurface(mExistingData, dataRect, dataRect);
}
return true;
}
void
RecordedDrawTargetCreation::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
WriteElement(aStream, mBackendType);
WriteElement(aStream, mSize);
WriteElement(aStream, mFormat);
WriteElement(aStream, mHasExistingData);
if (mHasExistingData) {
MOZ_ASSERT(mExistingData);
MOZ_ASSERT(mExistingData->GetSize() == mSize);
RefPtr<DataSourceSurface> dataSurf = mExistingData->GetDataSurface();
for (int y = 0; y < mSize.height; y++) {
aStream.write((const char*)dataSurf->GetData() + y * dataSurf->Stride(),
BytesPerPixel(mFormat) * mSize.width);
}
}
}
RecordedDrawTargetCreation::RecordedDrawTargetCreation(istream &aStream)
: RecordedEvent(DRAWTARGETCREATION)
, mExistingData(nullptr)
{
ReadElement(aStream, mRefPtr);
ReadElement(aStream, mBackendType);
ReadElement(aStream, mSize);
ReadElement(aStream, mFormat);
ReadElement(aStream, mHasExistingData);
if (mHasExistingData) {
RefPtr<DataSourceSurface> dataSurf = Factory::CreateDataSourceSurface(mSize, mFormat);
if (!dataSurf) {
gfxWarning() << "RecordedDrawTargetCreation had to reset mHasExistingData";
mHasExistingData = false;
return;
}
for (int y = 0; y < mSize.height; y++) {
aStream.read((char*)dataSurf->GetData() + y * dataSurf->Stride(),
BytesPerPixel(mFormat) * mSize.width);
}
mExistingData = dataSurf;
}
}
void
RecordedDrawTargetCreation::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] DrawTarget Creation (Type: " << NameFromBackend(mBackendType) << ", Size: " << mSize.width << "x" << mSize.height << ")";
}
bool
RecordedDrawTargetDestruction::PlayEvent(Translator *aTranslator) const
{
aTranslator->RemoveDrawTarget(mRefPtr);
return true;
}
void
RecordedDrawTargetDestruction::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
}
RecordedDrawTargetDestruction::RecordedDrawTargetDestruction(istream &aStream)
: RecordedEvent(DRAWTARGETDESTRUCTION)
{
ReadElement(aStream, mRefPtr);
}
void
RecordedDrawTargetDestruction::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] DrawTarget Destruction";
}
bool
RecordedCreateSimilarDrawTarget::PlayEvent(Translator *aTranslator) const
{
RefPtr<DrawTarget> newDT =
aTranslator->GetReferenceDrawTarget()->CreateSimilarDrawTarget(mSize, mFormat);
// If we couldn't create a DrawTarget this will probably cause us to crash
// with nullptr later in the playback, so return false to abort.
if (!newDT) {
return false;
}
aTranslator->AddDrawTarget(mRefPtr, newDT);
return true;
}
void
RecordedCreateSimilarDrawTarget::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
WriteElement(aStream, mSize);
WriteElement(aStream, mFormat);
}
RecordedCreateSimilarDrawTarget::RecordedCreateSimilarDrawTarget(istream &aStream)
: RecordedEvent(CREATESIMILARDRAWTARGET)
{
ReadElement(aStream, mRefPtr);
ReadElement(aStream, mSize);
ReadElement(aStream, mFormat);
}
void
RecordedCreateSimilarDrawTarget::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] CreateSimilarDrawTarget (Size: " << mSize.width << "x" << mSize.height << ")";
}
struct GenericPattern
{
GenericPattern(const PatternStorage &aStorage, Translator *aTranslator)
: mPattern(nullptr), mTranslator(aTranslator)
{
mStorage = const_cast<PatternStorage*>(&aStorage);
}
~GenericPattern() {
if (mPattern) {
mPattern->~Pattern();
}
}
operator Pattern*()
{
switch(mStorage->mType) {
case PatternType::COLOR:
return new (mColPat) ColorPattern(reinterpret_cast<ColorPatternStorage*>(&mStorage->mStorage)->mColor);
case PatternType::SURFACE:
{
SurfacePatternStorage *storage = reinterpret_cast<SurfacePatternStorage*>(&mStorage->mStorage);
mPattern =
new (mSurfPat) SurfacePattern(mTranslator->LookupSourceSurface(storage->mSurface),
storage->mExtend, storage->mMatrix,
storage->mSamplingFilter);
return mPattern;
}
case PatternType::LINEAR_GRADIENT:
{
LinearGradientPatternStorage *storage = reinterpret_cast<LinearGradientPatternStorage*>(&mStorage->mStorage);
mPattern =
new (mLinGradPat) LinearGradientPattern(storage->mBegin, storage->mEnd,
mTranslator->LookupGradientStops(storage->mStops),
storage->mMatrix);
return mPattern;
}
case PatternType::RADIAL_GRADIENT:
{
RadialGradientPatternStorage *storage = reinterpret_cast<RadialGradientPatternStorage*>(&mStorage->mStorage);
mPattern =
new (mRadGradPat) RadialGradientPattern(storage->mCenter1, storage->mCenter2,
storage->mRadius1, storage->mRadius2,
mTranslator->LookupGradientStops(storage->mStops),
storage->mMatrix);
return mPattern;
}
default:
return new (mColPat) ColorPattern(Color());
}
return mPattern;
}
union {
char mColPat[sizeof(ColorPattern)];
char mLinGradPat[sizeof(LinearGradientPattern)];
char mRadGradPat[sizeof(RadialGradientPattern)];
char mSurfPat[sizeof(SurfacePattern)];
};
PatternStorage *mStorage;
Pattern *mPattern;
Translator *mTranslator;
};
bool
RecordedFillRect::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->FillRect(mRect, *GenericPattern(mPattern, aTranslator), mOptions);
return true;
}
void
RecordedFillRect::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mRect);
WriteElement(aStream, mOptions);
RecordPatternData(aStream, mPattern);
}
RecordedFillRect::RecordedFillRect(istream &aStream)
: RecordedDrawingEvent(FILLRECT, aStream)
{
ReadElement(aStream, mRect);
ReadElement(aStream, mOptions);
ReadPatternData(aStream, mPattern);
}
void
RecordedFillRect::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] FillRect (" << mRect.x << ", " << mRect.y << " - " << mRect.width << " x " << mRect.height << ") ";
OutputSimplePatternInfo(mPattern, aStringStream);
}
bool
RecordedStrokeRect::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->StrokeRect(mRect, *GenericPattern(mPattern, aTranslator), mStrokeOptions, mOptions);
return true;
}
void
RecordedStrokeRect::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mRect);
WriteElement(aStream, mOptions);
RecordPatternData(aStream, mPattern);
RecordStrokeOptions(aStream, mStrokeOptions);
}
RecordedStrokeRect::RecordedStrokeRect(istream &aStream)
: RecordedDrawingEvent(STROKERECT, aStream)
{
ReadElement(aStream, mRect);
ReadElement(aStream, mOptions);
ReadPatternData(aStream, mPattern);
ReadStrokeOptions(aStream, mStrokeOptions);
}
void
RecordedStrokeRect::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] StrokeRect (" << mRect.x << ", " << mRect.y << " - " << mRect.width << " x " << mRect.height
<< ") LineWidth: " << mStrokeOptions.mLineWidth << "px ";
OutputSimplePatternInfo(mPattern, aStringStream);
}
bool
RecordedStrokeLine::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->StrokeLine(mBegin, mEnd, *GenericPattern(mPattern, aTranslator), mStrokeOptions, mOptions);
return true;
}
void
RecordedStrokeLine::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mBegin);
WriteElement(aStream, mEnd);
WriteElement(aStream, mOptions);
RecordPatternData(aStream, mPattern);
RecordStrokeOptions(aStream, mStrokeOptions);
}
RecordedStrokeLine::RecordedStrokeLine(istream &aStream)
: RecordedDrawingEvent(STROKELINE, aStream)
{
ReadElement(aStream, mBegin);
ReadElement(aStream, mEnd);
ReadElement(aStream, mOptions);
ReadPatternData(aStream, mPattern);
ReadStrokeOptions(aStream, mStrokeOptions);
}
void
RecordedStrokeLine::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] StrokeLine (" << mBegin.x << ", " << mBegin.y << " - " << mEnd.x << ", " << mEnd.y
<< ") LineWidth: " << mStrokeOptions.mLineWidth << "px ";
OutputSimplePatternInfo(mPattern, aStringStream);
}
bool
RecordedFill::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->Fill(aTranslator->LookupPath(mPath), *GenericPattern(mPattern, aTranslator), mOptions);
return true;
}
RecordedFill::RecordedFill(istream &aStream)
: RecordedDrawingEvent(FILL, aStream)
{
ReadElement(aStream, mPath);
ReadElement(aStream, mOptions);
ReadPatternData(aStream, mPattern);
}
void
RecordedFill::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mPath);
WriteElement(aStream, mOptions);
RecordPatternData(aStream, mPattern);
}
void
RecordedFill::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] Fill (" << mPath << ") ";
OutputSimplePatternInfo(mPattern, aStringStream);
}
RecordedFillGlyphs::~RecordedFillGlyphs()
{
delete [] mGlyphs;
}
bool
RecordedFillGlyphs::PlayEvent(Translator *aTranslator) const
{
GlyphBuffer buffer;
buffer.mGlyphs = mGlyphs;
buffer.mNumGlyphs = mNumGlyphs;
aTranslator->LookupDrawTarget(mDT)->FillGlyphs(aTranslator->LookupScaledFont(mScaledFont), buffer, *GenericPattern(mPattern, aTranslator), mOptions);
return true;
}
RecordedFillGlyphs::RecordedFillGlyphs(istream &aStream)
: RecordedDrawingEvent(FILLGLYPHS, aStream)
{
ReadElement(aStream, mScaledFont);
ReadElement(aStream, mOptions);
ReadPatternData(aStream, mPattern);
ReadElement(aStream, mNumGlyphs);
mGlyphs = new Glyph[mNumGlyphs];
aStream.read((char*)mGlyphs, sizeof(Glyph) * mNumGlyphs);
}
void
RecordedFillGlyphs::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mScaledFont);
WriteElement(aStream, mOptions);
RecordPatternData(aStream, mPattern);
WriteElement(aStream, mNumGlyphs);
aStream.write((char*)mGlyphs, sizeof(Glyph) * mNumGlyphs);
}
void
RecordedFillGlyphs::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] FillGlyphs (" << mScaledFont << ") ";
OutputSimplePatternInfo(mPattern, aStringStream);
}
bool
RecordedMask::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->Mask(*GenericPattern(mSource, aTranslator), *GenericPattern(mMask, aTranslator), mOptions);
return true;
}
RecordedMask::RecordedMask(istream &aStream)
: RecordedDrawingEvent(MASK, aStream)
{
ReadElement(aStream, mOptions);
ReadPatternData(aStream, mSource);
ReadPatternData(aStream, mMask);
}
void
RecordedMask::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mOptions);
RecordPatternData(aStream, mSource);
RecordPatternData(aStream, mMask);
}
void
RecordedMask::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] Mask (Source: ";
OutputSimplePatternInfo(mSource, aStringStream);
aStringStream << " Mask: ";
OutputSimplePatternInfo(mMask, aStringStream);
}
bool
RecordedStroke::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->Stroke(aTranslator->LookupPath(mPath), *GenericPattern(mPattern, aTranslator), mStrokeOptions, mOptions);
return true;
}
void
RecordedStroke::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mPath);
WriteElement(aStream, mOptions);
RecordPatternData(aStream, mPattern);
RecordStrokeOptions(aStream, mStrokeOptions);
}
RecordedStroke::RecordedStroke(istream &aStream)
: RecordedDrawingEvent(STROKE, aStream)
{
ReadElement(aStream, mPath);
ReadElement(aStream, mOptions);
ReadPatternData(aStream, mPattern);
ReadStrokeOptions(aStream, mStrokeOptions);
}
void
RecordedStroke::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] Stroke ("<< mPath << ") LineWidth: " << mStrokeOptions.mLineWidth << "px ";
OutputSimplePatternInfo(mPattern, aStringStream);
}
bool
RecordedClearRect::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->ClearRect(mRect);
return true;
}
void
RecordedClearRect::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mRect);
}
RecordedClearRect::RecordedClearRect(istream &aStream)
: RecordedDrawingEvent(CLEARRECT, aStream)
{
ReadElement(aStream, mRect);
}
void
RecordedClearRect::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT<< "] ClearRect (" << mRect.x << ", " << mRect.y << " - " << mRect.width << " x " << mRect.height << ") ";
}
bool
RecordedCopySurface::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->CopySurface(aTranslator->LookupSourceSurface(mSourceSurface),
mSourceRect, mDest);
return true;
}
void
RecordedCopySurface::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mSourceSurface);
WriteElement(aStream, mSourceRect);
WriteElement(aStream, mDest);
}
RecordedCopySurface::RecordedCopySurface(istream &aStream)
: RecordedDrawingEvent(COPYSURFACE, aStream)
{
ReadElement(aStream, mSourceSurface);
ReadElement(aStream, mSourceRect);
ReadElement(aStream, mDest);
}
void
RecordedCopySurface::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT<< "] CopySurface (" << mSourceSurface << ")";
}
bool
RecordedPushClip::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->PushClip(aTranslator->LookupPath(mPath));
return true;
}
void
RecordedPushClip::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mPath);
}
RecordedPushClip::RecordedPushClip(istream &aStream)
: RecordedDrawingEvent(PUSHCLIP, aStream)
{
ReadElement(aStream, mPath);
}
void
RecordedPushClip::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] PushClip (" << mPath << ") ";
}
bool
RecordedPushClipRect::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->PushClipRect(mRect);
return true;
}
void
RecordedPushClipRect::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mRect);
}
RecordedPushClipRect::RecordedPushClipRect(istream &aStream)
: RecordedDrawingEvent(PUSHCLIPRECT, aStream)
{
ReadElement(aStream, mRect);
}
void
RecordedPushClipRect::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] PushClipRect (" << mRect.x << ", " << mRect.y << " - " << mRect.width << " x " << mRect.height << ") ";
}
bool
RecordedPopClip::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->PopClip();
return true;
}
void
RecordedPopClip::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
}
RecordedPopClip::RecordedPopClip(istream &aStream)
: RecordedDrawingEvent(POPCLIP, aStream)
{
}
void
RecordedPopClip::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] PopClip";
}
bool
RecordedPushLayer::PlayEvent(Translator *aTranslator) const
{
SourceSurface* mask = mMask ? aTranslator->LookupSourceSurface(mMask)
: nullptr;
aTranslator->LookupDrawTarget(mDT)->
PushLayer(mOpaque, mOpacity, mask, mMaskTransform, mBounds, mCopyBackground);
return true;
}
void
RecordedPushLayer::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mOpaque);
WriteElement(aStream, mOpacity);
WriteElement(aStream, mMask);
WriteElement(aStream, mMaskTransform);
WriteElement(aStream, mBounds);
WriteElement(aStream, mCopyBackground);
}
RecordedPushLayer::RecordedPushLayer(istream &aStream)
: RecordedDrawingEvent(PUSHLAYER, aStream)
{
ReadElement(aStream, mOpaque);
ReadElement(aStream, mOpacity);
ReadElement(aStream, mMask);
ReadElement(aStream, mMaskTransform);
ReadElement(aStream, mBounds);
ReadElement(aStream, mCopyBackground);
}
void
RecordedPushLayer::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] PushPLayer (Opaque=" << mOpaque <<
", Opacity=" << mOpacity << ", Mask Ref=" << mMask << ") ";
}
bool
RecordedPopLayer::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->PopLayer();
return true;
}
void
RecordedPopLayer::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
}
RecordedPopLayer::RecordedPopLayer(istream &aStream)
: RecordedDrawingEvent(POPLAYER, aStream)
{
}
void
RecordedPopLayer::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] PopLayer";
}
bool
RecordedSetTransform::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->SetTransform(mTransform);
return true;
}
void
RecordedSetTransform::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mTransform);
}
RecordedSetTransform::RecordedSetTransform(istream &aStream)
: RecordedDrawingEvent(SETTRANSFORM, aStream)
{
ReadElement(aStream, mTransform);
}
void
RecordedSetTransform::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] SetTransform [ " << mTransform._11 << " " << mTransform._12 << " ; " <<
mTransform._21 << " " << mTransform._22 << " ; " << mTransform._31 << " " << mTransform._32 << " ]";
}
bool
RecordedDrawSurface::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->
DrawSurface(aTranslator->LookupSourceSurface(mRefSource), mDest, mSource,
mDSOptions, mOptions);
return true;
}
void
RecordedDrawSurface::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mRefSource);
WriteElement(aStream, mDest);
WriteElement(aStream, mSource);
WriteElement(aStream, mDSOptions);
WriteElement(aStream, mOptions);
}
RecordedDrawSurface::RecordedDrawSurface(istream &aStream)
: RecordedDrawingEvent(DRAWSURFACE, aStream)
{
ReadElement(aStream, mRefSource);
ReadElement(aStream, mDest);
ReadElement(aStream, mSource);
ReadElement(aStream, mDSOptions);
ReadElement(aStream, mOptions);
}
void
RecordedDrawSurface::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] DrawSurface (" << mRefSource << ")";
}
bool
RecordedDrawFilter::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->
DrawFilter(aTranslator->LookupFilterNode(mNode), mSourceRect,
mDestPoint, mOptions);
return true;
}
void
RecordedDrawFilter::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mNode);
WriteElement(aStream, mSourceRect);
WriteElement(aStream, mDestPoint);
WriteElement(aStream, mOptions);
}
RecordedDrawFilter::RecordedDrawFilter(istream &aStream)
: RecordedDrawingEvent(DRAWFILTER, aStream)
{
ReadElement(aStream, mNode);
ReadElement(aStream, mSourceRect);
ReadElement(aStream, mDestPoint);
ReadElement(aStream, mOptions);
}
void
RecordedDrawFilter::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] DrawFilter (" << mNode << ")";
}
bool
RecordedDrawSurfaceWithShadow::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->
DrawSurfaceWithShadow(aTranslator->LookupSourceSurface(mRefSource),
mDest, mColor, mOffset, mSigma, mOp);
return true;
}
void
RecordedDrawSurfaceWithShadow::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
WriteElement(aStream, mRefSource);
WriteElement(aStream, mDest);
WriteElement(aStream, mColor);
WriteElement(aStream, mOffset);
WriteElement(aStream, mSigma);
WriteElement(aStream, mOp);
}
RecordedDrawSurfaceWithShadow::RecordedDrawSurfaceWithShadow(istream &aStream)
: RecordedDrawingEvent(DRAWSURFACEWITHSHADOW, aStream)
{
ReadElement(aStream, mRefSource);
ReadElement(aStream, mDest);
ReadElement(aStream, mColor);
ReadElement(aStream, mOffset);
ReadElement(aStream, mSigma);
ReadElement(aStream, mOp);
}
void
RecordedDrawSurfaceWithShadow::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] DrawSurfaceWithShadow (" << mRefSource << ") Color: (" <<
mColor.r << ", " << mColor.g << ", " << mColor.b << ", " << mColor.a << ")";
}
RecordedPathCreation::RecordedPathCreation(PathRecording *aPath)
: RecordedEvent(PATHCREATION), mRefPtr(aPath), mFillRule(aPath->mFillRule), mPathOps(aPath->mPathOps)
{
}
RecordedPathCreation::~RecordedPathCreation()
{
}
bool
RecordedPathCreation::PlayEvent(Translator *aTranslator) const
{
RefPtr<PathBuilder> builder =
aTranslator->GetReferenceDrawTarget()->CreatePathBuilder(mFillRule);
for (size_t i = 0; i < mPathOps.size(); i++) {
const PathOp &op = mPathOps[i];
switch (op.mType) {
case PathOp::OP_MOVETO:
builder->MoveTo(op.mP1);
break;
case PathOp::OP_LINETO:
builder->LineTo(op.mP1);
break;
case PathOp::OP_BEZIERTO:
builder->BezierTo(op.mP1, op.mP2, op.mP3);
break;
case PathOp::OP_QUADRATICBEZIERTO:
builder->QuadraticBezierTo(op.mP1, op.mP2);
break;
case PathOp::OP_CLOSE:
builder->Close();
break;
}
}
RefPtr<Path> path = builder->Finish();
aTranslator->AddPath(mRefPtr, path);
return true;
}
void
RecordedPathCreation::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
WriteElement(aStream, uint64_t(mPathOps.size()));
WriteElement(aStream, mFillRule);
typedef std::vector<PathOp> pathOpVec;
for (pathOpVec::const_iterator iter = mPathOps.begin(); iter != mPathOps.end(); iter++) {
WriteElement(aStream, iter->mType);
if (sPointCount[iter->mType] >= 1) {
WriteElement(aStream, iter->mP1);
}
if (sPointCount[iter->mType] >= 2) {
WriteElement(aStream, iter->mP2);
}
if (sPointCount[iter->mType] >= 3) {
WriteElement(aStream, iter->mP3);
}
}
}
RecordedPathCreation::RecordedPathCreation(istream &aStream)
: RecordedEvent(PATHCREATION)
{
uint64_t size;
ReadElement(aStream, mRefPtr);
ReadElement(aStream, size);
ReadElement(aStream, mFillRule);
for (uint64_t i = 0; i < size; i++) {
PathOp newPathOp;
ReadElement(aStream, newPathOp.mType);
if (sPointCount[newPathOp.mType] >= 1) {
ReadElement(aStream, newPathOp.mP1);
}
if (sPointCount[newPathOp.mType] >= 2) {
ReadElement(aStream, newPathOp.mP2);
}
if (sPointCount[newPathOp.mType] >= 3) {
ReadElement(aStream, newPathOp.mP3);
}
mPathOps.push_back(newPathOp);
}
}
void
RecordedPathCreation::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] Path created (OpCount: " << mPathOps.size() << ")";
}
bool
RecordedPathDestruction::PlayEvent(Translator *aTranslator) const
{
aTranslator->RemovePath(mRefPtr);
return true;
}
void
RecordedPathDestruction::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
}
RecordedPathDestruction::RecordedPathDestruction(istream &aStream)
: RecordedEvent(PATHDESTRUCTION)
{
ReadElement(aStream, mRefPtr);
}
void
RecordedPathDestruction::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] Path Destroyed";
}
RecordedSourceSurfaceCreation::~RecordedSourceSurfaceCreation()
{
if (mDataOwned) {
delete [] mData;
}
}
bool
RecordedSourceSurfaceCreation::PlayEvent(Translator *aTranslator) const
{
RefPtr<SourceSurface> src = aTranslator->GetReferenceDrawTarget()->
CreateSourceSurfaceFromData(mData, mSize, mSize.width * BytesPerPixel(mFormat), mFormat);
aTranslator->AddSourceSurface(mRefPtr, src);
return true;
}
void
RecordedSourceSurfaceCreation::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
WriteElement(aStream, mSize);
WriteElement(aStream, mFormat);
for (int y = 0; y < mSize.height; y++) {
aStream.write((const char*)mData + y * mStride, BytesPerPixel(mFormat) * mSize.width);
}
}
RecordedSourceSurfaceCreation::RecordedSourceSurfaceCreation(istream &aStream)
: RecordedEvent(SOURCESURFACECREATION), mDataOwned(true)
{
ReadElement(aStream, mRefPtr);
ReadElement(aStream, mSize);
ReadElement(aStream, mFormat);
mData = (uint8_t*)new char[mSize.width * mSize.height * BytesPerPixel(mFormat)];
aStream.read((char*)mData, mSize.width * mSize.height * BytesPerPixel(mFormat));
}
void
RecordedSourceSurfaceCreation::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] SourceSurface created (Size: " << mSize.width << "x" << mSize.height << ")";
}
bool
RecordedSourceSurfaceDestruction::PlayEvent(Translator *aTranslator) const
{
aTranslator->RemoveSourceSurface(mRefPtr);
return true;
}
void
RecordedSourceSurfaceDestruction::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
}
RecordedSourceSurfaceDestruction::RecordedSourceSurfaceDestruction(istream &aStream)
: RecordedEvent(SOURCESURFACEDESTRUCTION)
{
ReadElement(aStream, mRefPtr);
}
void
RecordedSourceSurfaceDestruction::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] SourceSurface Destroyed";
}
RecordedFilterNodeCreation::~RecordedFilterNodeCreation()
{
}
bool
RecordedFilterNodeCreation::PlayEvent(Translator *aTranslator) const
{
RefPtr<FilterNode> node = aTranslator->GetReferenceDrawTarget()->
CreateFilter(mType);
aTranslator->AddFilterNode(mRefPtr, node);
return true;
}
void
RecordedFilterNodeCreation::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
WriteElement(aStream, mType);
}
RecordedFilterNodeCreation::RecordedFilterNodeCreation(istream &aStream)
: RecordedEvent(FILTERNODECREATION)
{
ReadElement(aStream, mRefPtr);
ReadElement(aStream, mType);
}
void
RecordedFilterNodeCreation::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] FilterNode created (Type: " << int(mType) << ")";
}
bool
RecordedFilterNodeDestruction::PlayEvent(Translator *aTranslator) const
{
aTranslator->RemoveFilterNode(mRefPtr);
return true;
}
void
RecordedFilterNodeDestruction::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
}
RecordedFilterNodeDestruction::RecordedFilterNodeDestruction(istream &aStream)
: RecordedEvent(FILTERNODEDESTRUCTION)
{
ReadElement(aStream, mRefPtr);
}
void
RecordedFilterNodeDestruction::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] FilterNode Destroyed";
}
RecordedGradientStopsCreation::~RecordedGradientStopsCreation()
{
if (mDataOwned) {
delete [] mStops;
}
}
bool
RecordedGradientStopsCreation::PlayEvent(Translator *aTranslator) const
{
RefPtr<GradientStops> src = aTranslator->GetReferenceDrawTarget()->
CreateGradientStops(mStops, mNumStops, mExtendMode);
aTranslator->AddGradientStops(mRefPtr, src);
return true;
}
void
RecordedGradientStopsCreation::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
WriteElement(aStream, mExtendMode);
WriteElement(aStream, mNumStops);
aStream.write((const char*)mStops, mNumStops * sizeof(GradientStop));
}
RecordedGradientStopsCreation::RecordedGradientStopsCreation(istream &aStream)
: RecordedEvent(GRADIENTSTOPSCREATION), mDataOwned(true)
{
ReadElement(aStream, mRefPtr);
ReadElement(aStream, mExtendMode);
ReadElement(aStream, mNumStops);
mStops = new GradientStop[mNumStops];
aStream.read((char*)mStops, mNumStops * sizeof(GradientStop));
}
void
RecordedGradientStopsCreation::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] GradientStops created (Stops: " << mNumStops << ")";
}
bool
RecordedGradientStopsDestruction::PlayEvent(Translator *aTranslator) const
{
aTranslator->RemoveGradientStops(mRefPtr);
return true;
}
void
RecordedGradientStopsDestruction::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
}
RecordedGradientStopsDestruction::RecordedGradientStopsDestruction(istream &aStream)
: RecordedEvent(GRADIENTSTOPSDESTRUCTION)
{
ReadElement(aStream, mRefPtr);
}
void
RecordedGradientStopsDestruction::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] GradientStops Destroyed";
}
bool
RecordedSnapshot::PlayEvent(Translator *aTranslator) const
{
RefPtr<SourceSurface> src = aTranslator->LookupDrawTarget(mDT)->Snapshot();
aTranslator->AddSourceSurface(mRefPtr, src);
return true;
}
void
RecordedSnapshot::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
WriteElement(aStream, mDT);
}
RecordedSnapshot::RecordedSnapshot(istream &aStream)
: RecordedEvent(SNAPSHOT)
{
ReadElement(aStream, mRefPtr);
ReadElement(aStream, mDT);
}
void
RecordedSnapshot::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] Snapshot Created (DT: " << mDT << ")";
}
RecordedFontData::~RecordedFontData()
{
delete[] mData;
}
bool
RecordedFontData::PlayEvent(Translator *aTranslator) const
{
RefPtr<NativeFontResource> fontResource =
Factory::CreateNativeFontResource(mData, mFontDetails.size,
aTranslator->GetDesiredFontType());
if (!fontResource) {
return false;
}
aTranslator->AddNativeFontResource(mFontDetails.fontDataKey, fontResource);
return true;
}
void
RecordedFontData::RecordToStream(std::ostream &aStream) const
{
MOZ_ASSERT(mGetFontFileDataSucceeded);
WriteElement(aStream, mFontDetails.fontDataKey);
WriteElement(aStream, mFontDetails.size);
aStream.write((const char*)mData, mFontDetails.size);
}
void
RecordedFontData::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "Font Data of size " << mFontDetails.size;
}
void
RecordedFontData::SetFontData(const uint8_t *aData, uint32_t aSize, uint32_t aIndex, Float aGlyphSize)
{
mData = new uint8_t[aSize];
memcpy(mData, aData, aSize);
mFontDetails.fontDataKey = SFNTData::GetUniqueKey(aData, aSize);
mFontDetails.size = aSize;
mFontDetails.index = aIndex;
mFontDetails.glyphSize = aGlyphSize;
}
bool
RecordedFontData::GetFontDetails(RecordedFontDetails& fontDetails)
{
if (!mGetFontFileDataSucceeded) {
return false;
}
fontDetails.fontDataKey = mFontDetails.fontDataKey;
fontDetails.size = mFontDetails.size;
fontDetails.glyphSize = mFontDetails.glyphSize;
fontDetails.index = mFontDetails.index;
return true;
}
RecordedFontData::RecordedFontData(istream &aStream)
: RecordedEvent(FONTDATA)
{
ReadElement(aStream, mFontDetails.fontDataKey);
ReadElement(aStream, mFontDetails.size);
mData = new uint8_t[mFontDetails.size];
aStream.read((char*)mData, mFontDetails.size);
}
RecordedFontDescriptor::~RecordedFontDescriptor()
{
}
bool
RecordedFontDescriptor::PlayEvent(Translator *aTranslator) const
{
MOZ_ASSERT(mType == FontType::GDI);
NativeFont nativeFont;
nativeFont.mType = (NativeFontType)mType;
nativeFont.mFont = (void*)&mData[0];
RefPtr<ScaledFont> font =
Factory::CreateScaledFontForNativeFont(nativeFont, mFontSize);
#ifdef USE_CAIRO_SCALED_FONT
static_cast<ScaledFontBase*>(font.get())->PopulateCairoScaledFont();
#endif
aTranslator->AddScaledFont(mRefPtr, font);
return true;
}
void
RecordedFontDescriptor::RecordToStream(std::ostream &aStream) const
{
MOZ_ASSERT(mHasDesc);
WriteElement(aStream, mType);
WriteElement(aStream, mFontSize);
WriteElement(aStream, mRefPtr);
WriteElement(aStream, (size_t)mData.size());
aStream.write((char*)&mData[0], mData.size());
}
void
RecordedFontDescriptor::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] Font Descriptor";
}
void
RecordedFontDescriptor::SetFontDescriptor(const uint8_t* aData, uint32_t aSize, Float aFontSize)
{
mData.assign(aData, aData + aSize);
mFontSize = aFontSize;
}
RecordedFontDescriptor::RecordedFontDescriptor(istream &aStream)
: RecordedEvent(FONTDATA)
{
ReadElement(aStream, mType);
ReadElement(aStream, mFontSize);
ReadElement(aStream, mRefPtr);
size_t size;
ReadElement(aStream, size);
mData.resize(size);
aStream.read((char*)&mData[0], size);
}
bool
RecordedScaledFontCreation::PlayEvent(Translator *aTranslator) const
{
NativeFontResource *fontResource = aTranslator->LookupNativeFontResource(mFontDataKey);
RefPtr<ScaledFont> scaledFont = fontResource->CreateScaledFont(mIndex, mGlyphSize);
aTranslator->AddScaledFont(mRefPtr, scaledFont);
return true;
}
void
RecordedScaledFontCreation::RecordToStream(std::ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
WriteElement(aStream, mFontDataKey);
WriteElement(aStream, mIndex);
WriteElement(aStream, mGlyphSize);
}
void
RecordedScaledFontCreation::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] ScaledFont Created";
}
RecordedScaledFontCreation::RecordedScaledFontCreation(istream &aStream)
: RecordedEvent(SCALEDFONTCREATION)
{
ReadElement(aStream, mRefPtr);
ReadElement(aStream, mFontDataKey);
ReadElement(aStream, mIndex);
ReadElement(aStream, mGlyphSize);
}
bool
RecordedScaledFontDestruction::PlayEvent(Translator *aTranslator) const
{
aTranslator->RemoveScaledFont(mRefPtr);
return true;
}
void
RecordedScaledFontDestruction::RecordToStream(ostream &aStream) const
{
WriteElement(aStream, mRefPtr);
}
RecordedScaledFontDestruction::RecordedScaledFontDestruction(istream &aStream)
: RecordedEvent(SCALEDFONTDESTRUCTION)
{
ReadElement(aStream, mRefPtr);
}
void
RecordedScaledFontDestruction::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mRefPtr << "] ScaledFont Destroyed";
}
bool
RecordedMaskSurface::PlayEvent(Translator *aTranslator) const
{
aTranslator->LookupDrawTarget(mDT)->
MaskSurface(*GenericPattern(mPattern, aTranslator),
aTranslator->LookupSourceSurface(mRefMask),
mOffset, mOptions);
return true;
}
void
RecordedMaskSurface::RecordToStream(ostream &aStream) const
{
RecordedDrawingEvent::RecordToStream(aStream);
RecordPatternData(aStream, mPattern);
WriteElement(aStream, mRefMask);
WriteElement(aStream, mOffset);
WriteElement(aStream, mOptions);
}
RecordedMaskSurface::RecordedMaskSurface(istream &aStream)
: RecordedDrawingEvent(MASKSURFACE, aStream)
{
ReadPatternData(aStream, mPattern);
ReadElement(aStream, mRefMask);
ReadElement(aStream, mOffset);
ReadElement(aStream, mOptions);
}
void
RecordedMaskSurface::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mDT << "] MaskSurface (" << mRefMask << ") Offset: (" << mOffset.x << "x" << mOffset.y << ") Pattern: ";
OutputSimplePatternInfo(mPattern, aStringStream);
}
template<typename T>
void
ReplaySetAttribute(FilterNode *aNode, uint32_t aIndex, T aValue)
{
aNode->SetAttribute(aIndex, aValue);
}
bool
RecordedFilterNodeSetAttribute::PlayEvent(Translator *aTranslator) const
{
#define REPLAY_SET_ATTRIBUTE(type, argtype) \
case ARGTYPE_##argtype: \
ReplaySetAttribute(aTranslator->LookupFilterNode(mNode), mIndex, *(type*)&mPayload.front()); \
break
switch (mArgType) {
REPLAY_SET_ATTRIBUTE(bool, BOOL);
REPLAY_SET_ATTRIBUTE(uint32_t, UINT32);
REPLAY_SET_ATTRIBUTE(Float, FLOAT);
REPLAY_SET_ATTRIBUTE(Size, SIZE);
REPLAY_SET_ATTRIBUTE(IntSize, INTSIZE);
REPLAY_SET_ATTRIBUTE(IntPoint, INTPOINT);
REPLAY_SET_ATTRIBUTE(Rect, RECT);
REPLAY_SET_ATTRIBUTE(IntRect, INTRECT);
REPLAY_SET_ATTRIBUTE(Point, POINT);
REPLAY_SET_ATTRIBUTE(Matrix, MATRIX);
REPLAY_SET_ATTRIBUTE(Matrix5x4, MATRIX5X4);
REPLAY_SET_ATTRIBUTE(Point3D, POINT3D);
REPLAY_SET_ATTRIBUTE(Color, COLOR);
case ARGTYPE_FLOAT_ARRAY:
aTranslator->LookupFilterNode(mNode)->SetAttribute(
mIndex,
reinterpret_cast<const Float*>(&mPayload.front()),
mPayload.size() / sizeof(Float));
break;
}
return true;
}
void
RecordedFilterNodeSetAttribute::RecordToStream(ostream &aStream) const
{
RecordedEvent::RecordToStream(aStream);
WriteElement(aStream, mNode);
WriteElement(aStream, mIndex);
WriteElement(aStream, mArgType);
WriteElement(aStream, uint64_t(mPayload.size()));
aStream.write((const char*)&mPayload.front(), mPayload.size());
}
RecordedFilterNodeSetAttribute::RecordedFilterNodeSetAttribute(istream &aStream)
: RecordedEvent(FILTERNODESETATTRIBUTE)
{
ReadElement(aStream, mNode);
ReadElement(aStream, mIndex);
ReadElement(aStream, mArgType);
uint64_t size;
ReadElement(aStream, size);
mPayload.resize(size_t(size));
aStream.read((char*)&mPayload.front(), size);
}
void
RecordedFilterNodeSetAttribute::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mNode << "] SetAttribute (" << mIndex << ")";
}
bool
RecordedFilterNodeSetInput::PlayEvent(Translator *aTranslator) const
{
if (mInputFilter) {
aTranslator->LookupFilterNode(mNode)->SetInput(
mIndex, aTranslator->LookupFilterNode(mInputFilter));
} else {
aTranslator->LookupFilterNode(mNode)->SetInput(
mIndex, aTranslator->LookupSourceSurface(mInputSurface));
}
return true;
}
void
RecordedFilterNodeSetInput::RecordToStream(ostream &aStream) const
{
RecordedEvent::RecordToStream(aStream);
WriteElement(aStream, mNode);
WriteElement(aStream, mIndex);
WriteElement(aStream, mInputFilter);
WriteElement(aStream, mInputSurface);
}
RecordedFilterNodeSetInput::RecordedFilterNodeSetInput(istream &aStream)
: RecordedEvent(FILTERNODESETINPUT)
{
ReadElement(aStream, mNode);
ReadElement(aStream, mIndex);
ReadElement(aStream, mInputFilter);
ReadElement(aStream, mInputSurface);
}
void
RecordedFilterNodeSetInput::OutputSimpleEventInfo(stringstream &aStringStream) const
{
aStringStream << "[" << mNode << "] SetAttribute (" << mIndex << ", ";
if (mInputFilter) {
aStringStream << "Filter: " << mInputFilter;
} else {
aStringStream << "Surface: " << mInputSurface;
}
aStringStream << ")";
}
} // namespace gfx
} // namespace mozilla