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/*
* Copyright 2007 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 "SkPictureFlat.h"
#include "SkPicturePlayback.h"
#include "SkPictureRecord.h"
#include "SkPictureRecorder.h"
#include "SkBBHFactory.h"
#include "SkBitmapDevice.h"
#include "SkCanvas.h"
#include "SkChunkAlloc.h"
#include "SkDrawPictureCallback.h"
#include "SkPaintPriv.h"
#include "SkPicture.h"
#include "SkRegion.h"
#include "SkStream.h"
#include "SkTDArray.h"
#include "SkTSearch.h"
#include "SkTime.h"
#include "SkReader32.h"
#include "SkWriter32.h"
#include "SkRTree.h"
#include "SkBBoxHierarchyRecord.h"
#if SK_SUPPORT_GPU
#include "GrContext.h"
#endif
#include "SkRecord.h"
#include "SkRecordDraw.h"
#include "SkRecorder.h"
template <typename T> int SafeCount(const T* obj) {
return obj ? obj->count() : 0;
}
#define DUMP_BUFFER_SIZE 65536
//#define ENABLE_TIME_DRAW // dumps milliseconds for each draw
#ifdef SK_DEBUG
// enable SK_DEBUG_TRACE to trace DrawType elements when
// recorded and played back
// #define SK_DEBUG_TRACE
// enable SK_DEBUG_SIZE to see the size of picture components
// #define SK_DEBUG_SIZE
// enable SK_DEBUG_DUMP to see the contents of recorded elements
// #define SK_DEBUG_DUMP
// enable SK_DEBUG_VALIDATE to check internal structures for consistency
// #define SK_DEBUG_VALIDATE
#endif
#if defined SK_DEBUG_TRACE || defined SK_DEBUG_DUMP
const char* DrawTypeToString(DrawType drawType) {
switch (drawType) {
case UNUSED: SkDebugf("DrawType UNUSED\n"); SkASSERT(0); break;
case CLIP_PATH: return "CLIP_PATH";
case CLIP_REGION: return "CLIP_REGION";
case CLIP_RECT: return "CLIP_RECT";
case CLIP_RRECT: return "CLIP_RRECT";
case CONCAT: return "CONCAT";
case DRAW_BITMAP: return "DRAW_BITMAP";
case DRAW_BITMAP_MATRIX: return "DRAW_BITMAP_MATRIX";
case DRAW_BITMAP_NINE: return "DRAW_BITMAP_NINE";
case DRAW_BITMAP_RECT_TO_RECT: return "DRAW_BITMAP_RECT_TO_RECT";
case DRAW_CLEAR: return "DRAW_CLEAR";
case DRAW_DATA: return "DRAW_DATA";
case DRAW_OVAL: return "DRAW_OVAL";
case DRAW_PAINT: return "DRAW_PAINT";
case DRAW_PATH: return "DRAW_PATH";
case DRAW_PICTURE: return "DRAW_PICTURE";
case DRAW_POINTS: return "DRAW_POINTS";
case DRAW_POS_TEXT: return "DRAW_POS_TEXT";
case DRAW_POS_TEXT_TOP_BOTTOM: return "DRAW_POS_TEXT_TOP_BOTTOM";
case DRAW_POS_TEXT_H: return "DRAW_POS_TEXT_H";
case DRAW_POS_TEXT_H_TOP_BOTTOM: return "DRAW_POS_TEXT_H_TOP_BOTTOM";
case DRAW_RECT: return "DRAW_RECT";
case DRAW_RRECT: return "DRAW_RRECT";
case DRAW_SPRITE: return "DRAW_SPRITE";
case DRAW_TEXT: return "DRAW_TEXT";
case DRAW_TEXT_ON_PATH: return "DRAW_TEXT_ON_PATH";
case DRAW_TEXT_TOP_BOTTOM: return "DRAW_TEXT_TOP_BOTTOM";
case DRAW_VERTICES: return "DRAW_VERTICES";
case RESTORE: return "RESTORE";
case ROTATE: return "ROTATE";
case SAVE: return "SAVE";
case SAVE_LAYER: return "SAVE_LAYER";
case SCALE: return "SCALE";
case SET_MATRIX: return "SET_MATRIX";
case SKEW: return "SKEW";
case TRANSLATE: return "TRANSLATE";
case NOOP: return "NOOP";
default:
SkDebugf("DrawType error 0x%08x\n", drawType);
SkASSERT(0);
break;
}
SkASSERT(0);
return NULL;
}
#endif
#ifdef SK_DEBUG_VALIDATE
static void validateMatrix(const SkMatrix* matrix) {
SkScalar scaleX = matrix->getScaleX();
SkScalar scaleY = matrix->getScaleY();
SkScalar skewX = matrix->getSkewX();
SkScalar skewY = matrix->getSkewY();
SkScalar perspX = matrix->getPerspX();
SkScalar perspY = matrix->getPerspY();
if (scaleX != 0 && skewX != 0)
SkDebugf("scaleX != 0 && skewX != 0\n");
SkASSERT(scaleX == 0 || skewX == 0);
SkASSERT(scaleY == 0 || skewY == 0);
SkASSERT(perspX == 0);
SkASSERT(perspY == 0);
}
#endif
///////////////////////////////////////////////////////////////////////////////
// fRecord OK
SkPicture::SkPicture()
: fWidth(0)
, fHeight(0) {
this->needsNewGenID();
}
// fRecord OK
SkPicture::SkPicture(int width, int height,
const SkPictureRecord& record,
bool deepCopyOps)
: fWidth(width)
, fHeight(height) {
this->needsNewGenID();
SkPictInfo info;
this->createHeader(&info);
fPlayback.reset(SkNEW_ARGS(SkPicturePlayback, (record, info, deepCopyOps)));
}
// The simplest / safest way to copy an SkRecord is to replay it into a new one.
static SkRecord* copy(const SkRecord& src, int width, int height) {
SkRecord* dst = SkNEW(SkRecord);
SkRecorder recorder(dst, width, height);
SkRecordDraw(src, &recorder);
return dst;
}
// Create an SkPicturePlayback-backed SkPicture from an SkRecord.
// This for compatibility with serialization code only. This is not cheap.
static SkPicture* backport(const SkRecord& src, int width, int height) {
SkPictureRecorder recorder;
SkRecordDraw(src, recorder.beginRecording(width, height));
return recorder.endRecording();
}
// fRecord OK
SkPicture::SkPicture(const SkPicture& src) : INHERITED() {
this->needsNewGenID();
fWidth = src.fWidth;
fHeight = src.fHeight;
if (NULL != src.fPlayback.get()) {
fPlayback.reset(SkNEW_ARGS(SkPicturePlayback, (*src.fPlayback)));
fUniqueID = src.uniqueID(); // need to call method to ensure != 0
}
if (NULL != src.fRecord.get()) {
fRecord.reset(copy(*src.fRecord, fWidth, fHeight));
fUniqueID = src.uniqueID(); // need to call method to ensure != 0
}
}
// fRecord OK
SkPicture::~SkPicture() {}
#ifdef SK_SUPPORT_LEGACY_PICTURE_CLONE
// fRecord TODO, fix by deleting this method
SkPicture* SkPicture::clone() const {
SkPicture* clonedPicture = SkNEW(SkPicture);
this->clone(clonedPicture, 1);
return clonedPicture;
}
// fRecord TODO, fix by deleting this method
void SkPicture::clone(SkPicture* pictures, int count) const {
SkPictCopyInfo copyInfo;
for (int i = 0; i < count; i++) {
SkPicture* clone = &pictures[i];
clone->needsNewGenID();
clone->fWidth = fWidth;
clone->fHeight = fHeight;
clone->fPlayback.reset(NULL);
/* We want to copy the src's playback. However, if that hasn't been built
yet, we need to fake a call to endRecording() without actually calling
it (since it is destructive, and we don't want to change src).
*/
if (fPlayback.get()) {
if (!copyInfo.initialized) {
int paintCount = SafeCount(fPlayback->fPaints);
/* The alternative to doing this is to have a clone method on the paint and have it
* make the deep copy of its internal structures as needed. The holdup to doing
* that is at this point we would need to pass the SkBitmapHeap so that we don't
* unnecessarily flatten the pixels in a bitmap shader.
*/
copyInfo.paintData.setCount(paintCount);
/* Use an SkBitmapHeap to avoid flattening bitmaps in shaders. If there already is
* one, use it. If this SkPicturePlayback was created from a stream, fBitmapHeap
* will be NULL, so create a new one.
*/
if (fPlayback->fBitmapHeap.get() == NULL) {
// FIXME: Put this on the stack inside SkPicture::clone.
SkBitmapHeap* heap = SkNEW(SkBitmapHeap);
copyInfo.controller.setBitmapStorage(heap);
heap->unref();
} else {
copyInfo.controller.setBitmapStorage(fPlayback->fBitmapHeap);
}
SkDEBUGCODE(int heapSize = SafeCount(fPlayback->fBitmapHeap.get());)
for (int i = 0; i < paintCount; i++) {
if (NeedsDeepCopy(fPlayback->fPaints->at(i))) {
copyInfo.paintData[i] =
SkFlatData::Create<SkPaint::FlatteningTraits>(©Info.controller,
fPlayback->fPaints->at(i), 0);
} else {
// this is our sentinel, which we use in the unflatten loop
copyInfo.paintData[i] = NULL;
}
}
SkASSERT(SafeCount(fPlayback->fBitmapHeap.get()) == heapSize);
// needed to create typeface playback
copyInfo.controller.setupPlaybacks();
copyInfo.initialized = true;
}
clone->fPlayback.reset(SkNEW_ARGS(SkPicturePlayback, (*fPlayback, ©Info)));
clone->fUniqueID = this->uniqueID(); // need to call method to ensure != 0
}
}
}
#endif//SK_SUPPORT_LEGACY_PICTURE_CLONE
// fRecord OK
void SkPicture::EXPERIMENTAL_addAccelData(const SkPicture::AccelData* data) const {
fAccelData.reset(SkRef(data));
}
// fRecord OK
const SkPicture::AccelData* SkPicture::EXPERIMENTAL_getAccelData(
SkPicture::AccelData::Key key) const {
if (NULL != fAccelData.get() && fAccelData->getKey() == key) {
return fAccelData.get();
}
return NULL;
}
// fRecord OK
SkPicture::AccelData::Domain SkPicture::AccelData::GenerateDomain() {
static int32_t gNextID = 0;
int32_t id = sk_atomic_inc(&gNextID);
if (id >= 1 << (8 * sizeof(Domain))) {
SK_CRASH();
}
return static_cast<Domain>(id);
}
///////////////////////////////////////////////////////////////////////////////
// fRecord OK
const SkPicture::OperationList& SkPicture::OperationList::InvalidList() {
static OperationList gInvalid;
return gInvalid;
}
// fRecord TODO
const SkPicture::OperationList& SkPicture::EXPERIMENTAL_getActiveOps(const SkIRect& queryRect) const {
SkASSERT(NULL != fPlayback.get());
if (NULL != fPlayback.get()) {
return fPlayback->getActiveOps(queryRect);
}
return OperationList::InvalidList();
}
// fRecord TODO
size_t SkPicture::EXPERIMENTAL_curOpID() const {
if (NULL != fPlayback.get()) {
return fPlayback->curOpID();
}
return 0;
}
// fRecord OK
void SkPicture::draw(SkCanvas* canvas, SkDrawPictureCallback* callback) const {
SkASSERT(NULL != canvas);
SkASSERT(NULL != fPlayback.get() || NULL != fRecord.get());
if (NULL != fPlayback.get()) {
fPlayback->draw(*canvas, callback);
}
if (NULL != fRecord.get()) {
SkRecordDraw(*fRecord, canvas, callback);
}
}
///////////////////////////////////////////////////////////////////////////////
#include "SkStream.h"
static const char kMagic[] = { 's', 'k', 'i', 'a', 'p', 'i', 'c', 't' };
// fRecord OK
bool SkPicture::IsValidPictInfo(const SkPictInfo& info) {
if (0 != memcmp(info.fMagic, kMagic, sizeof(kMagic))) {
return false;
}
if (info.fVersion < MIN_PICTURE_VERSION ||
info.fVersion > CURRENT_PICTURE_VERSION) {
return false;
}
return true;
}
// fRecord OK
bool SkPicture::InternalOnly_StreamIsSKP(SkStream* stream, SkPictInfo* pInfo) {
if (NULL == stream) {
return false;
}
// Check magic bytes.
SkPictInfo info;
SkASSERT(sizeof(kMagic) == sizeof(info.fMagic));
if (!stream->read(&info, sizeof(info)) || !IsValidPictInfo(info)) {
return false;
}
if (pInfo != NULL) {
*pInfo = info;
}
return true;
}
// fRecord OK
bool SkPicture::InternalOnly_BufferIsSKP(SkReadBuffer& buffer, SkPictInfo* pInfo) {
// Check magic bytes.
SkPictInfo info;
SkASSERT(sizeof(kMagic) == sizeof(info.fMagic));
if (!buffer.readByteArray(&info, sizeof(info)) || !IsValidPictInfo(info)) {
return false;
}
if (pInfo != NULL) {
*pInfo = info;
}
return true;
}
// fRecord OK
SkPicture::SkPicture(SkPicturePlayback* playback, int width, int height)
: fPlayback(playback)
, fWidth(width)
, fHeight(height) {
this->needsNewGenID();
}
// fRecord OK
SkPicture* SkPicture::CreateFromStream(SkStream* stream, InstallPixelRefProc proc) {
SkPictInfo info;
if (!InternalOnly_StreamIsSKP(stream, &info)) {
return NULL;
}
// Check to see if there is a playback to recreate.
if (stream->readBool()) {
SkPicturePlayback* playback = SkPicturePlayback::CreateFromStream(stream, info, proc);
if (NULL == playback) {
return NULL;
}
return SkNEW_ARGS(SkPicture, (playback, info.fWidth, info.fHeight));
}
return NULL;
}
// fRecord OK
SkPicture* SkPicture::CreateFromBuffer(SkReadBuffer& buffer) {
SkPictInfo info;
if (!InternalOnly_BufferIsSKP(buffer, &info)) {
return NULL;
}
// Check to see if there is a playback to recreate.
if (buffer.readBool()) {
SkPicturePlayback* playback = SkPicturePlayback::CreateFromBuffer(buffer, info);
if (NULL == playback) {
return NULL;
}
return SkNEW_ARGS(SkPicture, (playback, info.fWidth, info.fHeight));
}
return NULL;
}
// fRecord OK
void SkPicture::createHeader(SkPictInfo* info) const {
// Copy magic bytes at the beginning of the header
SkASSERT(sizeof(kMagic) == 8);
SkASSERT(sizeof(kMagic) == sizeof(info->fMagic));
memcpy(info->fMagic, kMagic, sizeof(kMagic));
// Set picture info after magic bytes in the header
info->fVersion = CURRENT_PICTURE_VERSION;
info->fWidth = fWidth;
info->fHeight = fHeight;
info->fFlags = SkPictInfo::kCrossProcess_Flag;
// TODO: remove this flag, since we're always float (now)
info->fFlags |= SkPictInfo::kScalarIsFloat_Flag;
if (8 == sizeof(void*)) {
info->fFlags |= SkPictInfo::kPtrIs64Bit_Flag;
}
}
// fRecord OK
void SkPicture::serialize(SkWStream* stream, EncodeBitmap encoder) const {
const SkPicturePlayback* playback = fPlayback.get();
// If we're a new-format picture, backport to old format for serialization.
SkAutoTDelete<SkPicture> oldFormat;
if (NULL == playback && NULL != fRecord.get()) {
oldFormat.reset(backport(*fRecord, fWidth, fHeight));
playback = oldFormat->fPlayback.get();
SkASSERT(NULL != playback);
}
SkPictInfo info;
this->createHeader(&info);
stream->write(&info, sizeof(info));
if (NULL != playback) {
stream->writeBool(true);
playback->serialize(stream, encoder);
} else {
stream->writeBool(false);
}
}
// fRecord OK
void SkPicture::WriteTagSize(SkWriteBuffer& buffer, uint32_t tag, size_t size) {
buffer.writeUInt(tag);
buffer.writeUInt(SkToU32(size));
}
// fRecord OK
void SkPicture::WriteTagSize(SkWStream* stream, uint32_t tag, size_t size) {
stream->write32(tag);
stream->write32(SkToU32(size));
}
// fRecord OK
void SkPicture::flatten(SkWriteBuffer& buffer) const {
const SkPicturePlayback* playback = fPlayback.get();
// If we're a new-format picture, backport to old format for serialization.
SkAutoTDelete<SkPicture> oldFormat;
if (NULL == playback && NULL != fRecord.get()) {
oldFormat.reset(backport(*fRecord, fWidth, fHeight));
playback = oldFormat->fPlayback.get();
SkASSERT(NULL != playback);
}
SkPictInfo info;
this->createHeader(&info);
buffer.writeByteArray(&info, sizeof(info));
if (NULL != playback) {
buffer.writeBool(true);
playback->flatten(buffer);
} else {
buffer.writeBool(false);
}
}
#if SK_SUPPORT_GPU
// fRecord TODO
bool SkPicture::suitableForGpuRasterization(GrContext* context, const char **reason) const {
if (NULL == fPlayback.get()) {
if (NULL != reason) {
*reason = "Missing playback object.";
}
return false;
}
return fPlayback->suitableForGpuRasterization(context, reason);
}
#endif
// fRecord TODO
bool SkPicture::willPlayBackBitmaps() const {
if (!fPlayback.get()) {
return false;
}
return fPlayback->containsBitmaps();
}
#ifdef SK_BUILD_FOR_ANDROID
// fRecord TODO, fix by switching Android to SkDrawPictureCallback, then deleting this method
void SkPicture::abortPlayback() {
if (NULL == fPlayback.get()) {
return;
}
fPlayback->abort();
}
#endif
// fRecord OK
static int32_t next_picture_generation_id() {
static int32_t gPictureGenerationID = 0;
// do a loop in case our global wraps around, as we never want to
// return a 0
int32_t genID;
do {
genID = sk_atomic_inc(&gPictureGenerationID) + 1;
} while (SK_InvalidGenID == genID);
return genID;
}
// fRecord OK
uint32_t SkPicture::uniqueID() const {
if (SK_InvalidGenID == fUniqueID) {
fUniqueID = next_picture_generation_id();
}
return fUniqueID;
}
// fRecord OK
SkPicture::SkPicture(int width, int height, SkRecord* record)
: fWidth(width)
, fHeight(height)
, fRecord(record) {
this->needsNewGenID();
}
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