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|
/*
* Copyright 2011 Google Inc.
*
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "SkPictureRecord.h"
#include "SkTSearch.h"
#include "SkPixelRef.h"
#include "SkRRect.h"
#include "SkBBoxHierarchy.h"
#include "SkPictureStateTree.h"
#define MIN_WRITER_SIZE 16384
#define HEAP_BLOCK_SIZE 4096
enum {
// just need a value that save or getSaveCount would never return
kNoInitialSave = -1,
};
// A lot of basic types get stored as a uint32_t: bools, ints, paint indices, etc.
static int const kUInt32Size = 4;
static const uint32_t kSaveLayerNoBoundsSize = 4 * kUInt32Size;
static const uint32_t kSaveLayerWithBoundsSize = 4 * kUInt32Size + sizeof(SkRect);
SkPictureRecord::SkPictureRecord(uint32_t flags, SkDevice* device) :
INHERITED(device),
fBoundingHierarchy(NULL),
fStateTree(NULL),
fFlattenableHeap(HEAP_BLOCK_SIZE),
fMatrices(&fFlattenableHeap),
fPaints(&fFlattenableHeap),
fRegions(&fFlattenableHeap),
fWriter(MIN_WRITER_SIZE),
fRecordFlags(flags) {
#ifdef SK_DEBUG_SIZE
fPointBytes = fRectBytes = fTextBytes = 0;
fPointWrites = fRectWrites = fTextWrites = 0;
#endif
fRestoreOffsetStack.setReserve(32);
fBitmapHeap = SkNEW(SkBitmapHeap);
fFlattenableHeap.setBitmapStorage(fBitmapHeap);
fPathHeap = NULL; // lazy allocate
fFirstSavedLayerIndex = kNoSavedLayerIndex;
fInitialSaveCount = kNoInitialSave;
}
SkPictureRecord::~SkPictureRecord() {
SkSafeUnref(fBitmapHeap);
SkSafeUnref(fPathHeap);
SkSafeUnref(fBoundingHierarchy);
SkSafeUnref(fStateTree);
fFlattenableHeap.setBitmapStorage(NULL);
fPictureRefs.unrefAll();
}
///////////////////////////////////////////////////////////////////////////////
// Return the offset of the paint inside a given op's byte stream. A zero
// return value means there is no paint (and you really shouldn't be calling
// this method)
static inline uint32_t getPaintOffset(DrawType op, uint32_t opSize) {
// These offsets are where the paint would be if the op size doesn't overflow
static const uint8_t gPaintOffsets[LAST_DRAWTYPE_ENUM + 1] = {
0, // UNUSED - no paint
0, // CLIP_PATH - no paint
0, // CLIP_REGION - no paint
0, // CLIP_RECT - no paint
0, // CLIP_RRECT - no paint
0, // CONCAT - no paint
1, // DRAW_BITMAP - right after op code
1, // DRAW_BITMAP_MATRIX - right after op code
1, // DRAW_BITMAP_NINE - right after op code
1, // DRAW_BITMAP_RECT_TO_RECT - right after op code
0, // DRAW_CLEAR - no paint
0, // DRAW_DATA - no paint
1, // DRAW_OVAL - right after op code
1, // DRAW_PAINT - right after op code
1, // DRAW_PATH - right after op code
0, // DRAW_PICTURE - no paint
1, // DRAW_POINTS - right after op code
1, // DRAW_POS_TEXT - right after op code
1, // DRAW_POS_TEXT_TOP_BOTTOM - right after op code
1, // DRAW_POS_TEXT_H - right after op code
1, // DRAW_POS_TEXT_H_TOP_BOTTOM - right after op code
1, // DRAW_RECT - right after op code
1, // DRAW_RRECT - right after op code
1, // DRAW_SPRITE - right after op code
1, // DRAW_TEXT - right after op code
1, // DRAW_TEXT_ON_PATH - right after op code
1, // DRAW_TEXT_TOP_BOTTOM - right after op code
1, // DRAW_VERTICES - right after op code
0, // RESTORE - no paint
0, // ROTATE - no paint
0, // SAVE - no paint
0, // SAVE_LAYER - see below - this paint's location varies
0, // SCALE - no paint
0, // SET_MATRIX - no paint
0, // SKEW - no paint
0, // TRANSLATE - no paint
0, // NOOP - no paint
};
SkASSERT(sizeof(gPaintOffsets) == LAST_DRAWTYPE_ENUM + 1);
SkASSERT((unsigned)op <= (unsigned)LAST_DRAWTYPE_ENUM);
int overflow = 0;
if (0 != (opSize & ~MASK_24) || opSize == MASK_24) {
// This op's size overflows so an extra uint32_t will be written
// after the op code
overflow = sizeof(uint32_t);
}
if (SAVE_LAYER == op) {
static const uint32_t kSaveLayerNoBoundsPaintOffset = 2 * kUInt32Size;
static const uint32_t kSaveLayerWithBoundsPaintOffset = 2 * kUInt32Size + sizeof(SkRect);
if (kSaveLayerNoBoundsSize == opSize) {
return kSaveLayerNoBoundsPaintOffset + overflow;
} else {
SkASSERT(kSaveLayerWithBoundsSize == opSize);
return kSaveLayerWithBoundsPaintOffset + overflow;
}
}
SkASSERT(0 != gPaintOffsets[op]); // really shouldn't be calling this method
return gPaintOffsets[op] * sizeof(uint32_t) + overflow;
}
SkDevice* SkPictureRecord::setDevice(SkDevice* device) {
SkASSERT(!"eeek, don't try to change the device on a recording canvas");
return this->INHERITED::setDevice(device);
}
int SkPictureRecord::save(SaveFlags flags) {
// record the offset to us, making it non-positive to distinguish a save
// from a clip entry.
fRestoreOffsetStack.push(-(int32_t)fWriter.size());
// op + flags
uint32_t size = 2 * kUInt32Size;
uint32_t initialOffset = this->addDraw(SAVE, &size);
addInt(flags);
validate(initialOffset, size);
return this->INHERITED::save(flags);
}
int SkPictureRecord::saveLayer(const SkRect* bounds, const SkPaint* paint,
SaveFlags flags) {
// record the offset to us, making it non-positive to distinguish a save
// from a clip entry.
fRestoreOffsetStack.push(-(int32_t)fWriter.size());
// op + bool for 'bounds'
uint32_t size = 2 * kUInt32Size;
if (NULL != bounds) {
size += sizeof(*bounds); // + rect
}
// + paint index + flags
size += 2 * kUInt32Size;
SkASSERT(kSaveLayerNoBoundsSize == size || kSaveLayerWithBoundsSize == size);
uint32_t initialOffset = this->addDraw(SAVE_LAYER, &size);
addRectPtr(bounds);
SkASSERT(initialOffset+getPaintOffset(SAVE_LAYER, size) == fWriter.size());
addPaintPtr(paint);
addInt(flags);
if (kNoSavedLayerIndex == fFirstSavedLayerIndex) {
fFirstSavedLayerIndex = fRestoreOffsetStack.count();
}
validate(initialOffset, size);
/* Don't actually call saveLayer, because that will try to allocate an
offscreen device (potentially very big) which we don't actually need
at this time (and may not be able to afford since during record our
clip starts out the size of the picture, which is often much larger
than the size of the actual device we'll use during playback).
*/
int count = this->INHERITED::save(flags);
this->clipRectBounds(bounds, flags, NULL);
return count;
}
bool SkPictureRecord::isDrawingToLayer() const {
return fFirstSavedLayerIndex != kNoSavedLayerIndex;
}
/*
* Read the op code from 'offset' in 'writer' and extract the size too.
*/
static DrawType peek_op_and_size(SkWriter32* writer, int32_t offset, uint32_t* size) {
uint32_t* peek = writer->peek32(offset);
uint32_t op;
UNPACK_8_24(*peek, op, *size);
if (MASK_24 == *size) {
// size required its own slot right after the op code
*size = *writer->peek32(offset+kUInt32Size);
}
return (DrawType) op;
}
#ifdef TRACK_COLLAPSE_STATS
static int gCollapseCount, gCollapseCalls;
#endif
// Is the supplied paint simply a color?
static bool is_simple(const SkPaint& p) {
intptr_t orAccum = (intptr_t)p.getPathEffect() |
(intptr_t)p.getShader() |
(intptr_t)p.getXfermode() |
(intptr_t)p.getMaskFilter() |
(intptr_t)p.getColorFilter() |
(intptr_t)p.getRasterizer() |
(intptr_t)p.getLooper() |
(intptr_t)p.getImageFilter();
return 0 == orAccum;
}
// CommandInfos are fed to the 'match' method and filled in with command
// information.
struct CommandInfo {
DrawType fActualOp;
uint32_t fOffset;
uint32_t fSize;
};
/*
* Attempt to match the provided pattern of commands starting at 'offset'
* in the byte stream and stopping at the end of the stream. Upon success,
* return true with all the pattern information filled out in the result
* array (i.e., actual ops, offsets and sizes).
* Note this method skips any NOOPs seen in the stream
*/
static bool match(SkWriter32* writer, uint32_t offset,
int* pattern, CommandInfo* result, int numCommands) {
SkASSERT(offset < writer->size());
uint32_t curOffset = offset;
uint32_t curSize = 0;
int numMatched;
for (numMatched = 0; numMatched < numCommands && curOffset < writer->size(); ++numMatched) {
DrawType op = peek_op_and_size(writer, curOffset, &curSize);
while (NOOP == op && curOffset < writer->size()) {
curOffset += curSize;
op = peek_op_and_size(writer, curOffset, &curSize);
}
if (curOffset >= writer->size()) {
return false; // ran out of byte stream
}
if (kDRAW_BITMAP_FLAVOR == pattern[numMatched]) {
if (DRAW_BITMAP != op && DRAW_BITMAP_MATRIX != op &&
DRAW_BITMAP_NINE != op && DRAW_BITMAP_RECT_TO_RECT != op) {
return false;
}
} else if (op != pattern[numMatched]) {
return false;
}
result[numMatched].fActualOp = op;
result[numMatched].fOffset = curOffset;
result[numMatched].fSize = curSize;
curOffset += curSize;
}
if (numMatched != numCommands) {
return false;
}
curOffset += curSize;
if (curOffset < writer->size()) {
// Something else between the last command and the end of the stream
return false;
}
return true;
}
// temporarily here to make code review easier
static bool merge_savelayer_paint_into_drawbitmp(SkWriter32* writer,
SkPaintDictionary* paintDict,
const CommandInfo& saveLayerInfo,
const CommandInfo& dbmInfo);
/*
* Restore has just been called (but not recorded), look back at the
* matching save* and see if we are in the configuration:
* SAVE_LAYER
* DRAW_BITMAP|DRAW_BITMAP_MATRIX|DRAW_BITMAP_NINE|DRAW_BITMAP_RECT_TO_RECT
* RESTORE
* where the saveLayer's color can be moved into the drawBitmap*'s paint
*/
static bool remove_save_layer1(SkWriter32* writer, int32_t offset,
SkPaintDictionary* paintDict) {
// back up to the save block
// TODO: add a stack to track save*/restore offsets rather than searching backwards
while (offset > 0) {
offset = *writer->peek32(offset);
}
int pattern[] = { SAVE_LAYER, kDRAW_BITMAP_FLAVOR, /* RESTORE */ };
CommandInfo result[SK_ARRAY_COUNT(pattern)];
if (!match(writer, -offset, pattern, result, SK_ARRAY_COUNT(pattern))) {
return false;
}
if (kSaveLayerWithBoundsSize == result[0].fSize) {
// The saveLayer's bound can offset where the dbm is drawn
return false;
}
return merge_savelayer_paint_into_drawbitmp(writer, paintDict,
result[0], result[1]);
}
/*
* Convert the command code located at 'offset' to a NOOP. Leave the size
* field alone so the NOOP can be skipped later.
*/
static void convert_command_to_noop(SkWriter32* writer, uint32_t offset) {
uint32_t* ptr = writer->peek32(offset);
*ptr = (*ptr & MASK_24) | (NOOP << 24);
}
/*
* Attempt to merge the saveLayer's paint into the drawBitmap*'s paint.
* Return true on success; false otherwise.
*/
static bool merge_savelayer_paint_into_drawbitmp(SkWriter32* writer,
SkPaintDictionary* paintDict,
const CommandInfo& saveLayerInfo,
const CommandInfo& dbmInfo) {
SkASSERT(SAVE_LAYER == saveLayerInfo.fActualOp);
SkASSERT(DRAW_BITMAP == dbmInfo.fActualOp ||
DRAW_BITMAP_MATRIX == dbmInfo.fActualOp ||
DRAW_BITMAP_NINE == dbmInfo.fActualOp ||
DRAW_BITMAP_RECT_TO_RECT == dbmInfo.fActualOp);
uint32_t dbmPaintOffset = getPaintOffset(dbmInfo.fActualOp, dbmInfo.fSize);
uint32_t slPaintOffset = getPaintOffset(SAVE_LAYER, saveLayerInfo.fSize);
// we have a match, now we need to get the paints involved
uint32_t dbmPaintId = *writer->peek32(dbmInfo.fOffset+dbmPaintOffset);
uint32_t saveLayerPaintId = *writer->peek32(saveLayerInfo.fOffset+slPaintOffset);
if (0 == saveLayerPaintId) {
// In this case the saveLayer/restore isn't needed at all - just kill the saveLayer
// and signal the caller (by returning true) to not add the RESTORE op
convert_command_to_noop(writer, saveLayerInfo.fOffset);
return true;
}
if (0 == dbmPaintId) {
// In this case just make the DBM* use the saveLayer's paint, kill the saveLayer
// and signal the caller (by returning true) to not add the RESTORE op
convert_command_to_noop(writer, saveLayerInfo.fOffset);
uint32_t* ptr = writer->peek32(dbmInfo.fOffset+dbmPaintOffset);
SkASSERT(0 == *ptr);
*ptr = saveLayerPaintId;
return true;
}
SkAutoTDelete<SkPaint> saveLayerPaint(paintDict->unflatten(saveLayerPaintId));
if (NULL == saveLayerPaint.get() || !is_simple(*saveLayerPaint)) {
return false;
}
// For this optimization we only fold the saveLayer and drawBitmapRect
// together if the saveLayer's draw is simple (i.e., no fancy effects) and
// and the only difference in the colors is that the saveLayer's can have
// an alpha while the drawBitmapRect's is opaque.
// TODO: it should be possible to fold them together even if they both
// have different non-255 alphas
SkColor layerColor = saveLayerPaint->getColor() | 0xFF000000; // force opaque
SkAutoTDelete<SkPaint> dbmPaint(paintDict->unflatten(dbmPaintId));
if (NULL == dbmPaint.get() || dbmPaint->getColor() != layerColor) {
return false;
}
SkColor newColor = SkColorSetA(dbmPaint->getColor(),
SkColorGetA(saveLayerPaint->getColor()));
dbmPaint->setColor(newColor);
const SkFlatData* data = paintDict->findAndReturnFlat(*dbmPaint);
if (NULL == data) {
return false;
}
// kill the saveLayer and alter the DBMR2R's paint to be the modified one
convert_command_to_noop(writer, saveLayerInfo.fOffset);
uint32_t* ptr = writer->peek32(dbmInfo.fOffset+dbmPaintOffset);
SkASSERT(dbmPaintId == *ptr);
*ptr = data->index();
return true;
}
/*
* Restore has just been called (but not recorded), look back at the
* matching save* and see if we are in the configuration:
* SAVE_LAYER (with NULL == bounds)
* SAVE
* CLIP_RECT
* DRAW_BITMAP|DRAW_BITMAP_MATRIX|DRAW_BITMAP_NINE|DRAW_BITMAP_RECT_TO_RECT
* RESTORE
* RESTORE
* where the saveLayer's color can be moved into the drawBitmap*'s paint
*/
static bool remove_save_layer2(SkWriter32* writer, int32_t offset,
SkPaintDictionary* paintDict) {
// back up to the save block
// TODO: add a stack to track save*/restore offsets rather than searching backwards
while (offset > 0) {
offset = *writer->peek32(offset);
}
int pattern[] = { SAVE_LAYER, SAVE, CLIP_RECT, kDRAW_BITMAP_FLAVOR, RESTORE, /* RESTORE */ };
CommandInfo result[SK_ARRAY_COUNT(pattern)];
if (!match(writer, -offset, pattern, result, SK_ARRAY_COUNT(pattern))) {
return false;
}
if (kSaveLayerWithBoundsSize == result[0].fSize) {
// The saveLayer's bound can offset where the dbm is drawn
return false;
}
return merge_savelayer_paint_into_drawbitmp(writer, paintDict,
result[0], result[3]);
}
/*
* Restore has just been called (but not recorded), so look back at the
* matching save(), and see if we can eliminate the pair of them, due to no
* intervening matrix/clip calls.
*
* If so, update the writer and return true, in which case we won't even record
* the restore() call. If we still need the restore(), return false.
*/
static bool collapse_save_clip_restore(SkWriter32* writer, int32_t offset,
SkPaintDictionary* paintDict) {
#ifdef TRACK_COLLAPSE_STATS
gCollapseCalls += 1;
#endif
int32_t restoreOffset = (int32_t)writer->size();
// back up to the save block
while (offset > 0) {
offset = *writer->peek32(offset);
}
// now offset points to a save
offset = -offset;
uint32_t opSize;
DrawType op = peek_op_and_size(writer, offset, &opSize);
if (SAVE_LAYER == op) {
// not ready to cull these out yet (mrr)
return false;
}
SkASSERT(SAVE == op);
// Walk forward until we get back to either a draw-verb (abort) or we hit
// our restore (success).
int32_t saveOffset = offset;
offset += opSize;
while (offset < restoreOffset) {
op = peek_op_and_size(writer, offset, &opSize);
if ((op > CONCAT && op < ROTATE) || (SAVE_LAYER == op)) {
// drawing verb, abort
return false;
}
offset += opSize;
}
#ifdef TRACK_COLLAPSE_STATS
gCollapseCount += 1;
SkDebugf("Collapse [%d out of %d] %g%spn", gCollapseCount, gCollapseCalls,
(double)gCollapseCount / gCollapseCalls, "%");
#endif
writer->rewindToOffset(saveOffset);
return true;
}
typedef bool (*PictureRecordOptProc)(SkWriter32* writer, int32_t offset,
SkPaintDictionary* paintDict);
enum PictureRecordOptType {
kRewind_OptType, // Optimization rewinds the command stream
kCollapseSaveLayer_OptType, // Optimization eliminates a save/restore pair
};
struct PictureRecordOpt {
PictureRecordOptProc fProc;
PictureRecordOptType fType;
};
/*
* A list of the optimizations that are tried upon seeing a restore
* TODO: add a real API for such optimizations
* Add the ability to fire optimizations on any op (not just RESTORE)
*/
static const PictureRecordOpt gPictureRecordOpts[] = {
{ collapse_save_clip_restore, kRewind_OptType },
{ remove_save_layer1, kCollapseSaveLayer_OptType },
{ remove_save_layer2, kCollapseSaveLayer_OptType }
};
// This is called after an optimization has been applied to the command stream
// in order to adjust the contents and state of the bounding box hierarchy and
// state tree to reflect the optimization.
static void apply_optimization_to_bbh(PictureRecordOptType opt, SkPictureStateTree* stateTree,
SkBBoxHierarchy* boundingHierarchy) {
switch (opt) {
case kCollapseSaveLayer_OptType:
if (NULL != stateTree) {
stateTree->saveCollapsed();
}
break;
case kRewind_OptType:
if (NULL != boundingHierarchy) {
boundingHierarchy->rewindInserts();
}
// Note: No need to touch the state tree for this to work correctly.
// Unused branches do not burden the playback, and pruning the tree
// would be O(N^2), so it is best to leave it alone.
break;
default:
SkASSERT(0);
}
}
void SkPictureRecord::restore() {
// FIXME: SkDeferredCanvas needs to be refactored to respect
// save/restore balancing so that the following test can be
// turned on permanently.
#if 0
SkASSERT(fRestoreOffsetStack.count() > 1);
#endif
// check for underflow
if (fRestoreOffsetStack.count() == 0) {
return;
}
if (fRestoreOffsetStack.count() == fFirstSavedLayerIndex) {
fFirstSavedLayerIndex = kNoSavedLayerIndex;
}
uint32_t initialOffset, size;
size_t opt = 0;
if (!(fRecordFlags & SkPicture::kDisableRecordOptimizations_RecordingFlag)) {
for (opt = 0; opt < SK_ARRAY_COUNT(gPictureRecordOpts); ++opt) {
if ((*gPictureRecordOpts[opt].fProc)(&fWriter, fRestoreOffsetStack.top(), &fPaints)) {
// Some optimization fired so don't add the RESTORE
size = 0;
initialOffset = fWriter.size();
apply_optimization_to_bbh(gPictureRecordOpts[opt].fType,
fStateTree, fBoundingHierarchy);
break;
}
}
}
if ((fRecordFlags & SkPicture::kDisableRecordOptimizations_RecordingFlag) ||
SK_ARRAY_COUNT(gPictureRecordOpts) == opt) {
// No optimization fired so add the RESTORE
fillRestoreOffsetPlaceholdersForCurrentStackLevel((uint32_t)fWriter.size());
size = 1 * kUInt32Size; // RESTORE consists solely of 1 op code
initialOffset = this->addDraw(RESTORE, &size);
}
fRestoreOffsetStack.pop();
validate(initialOffset, size);
return this->INHERITED::restore();
}
bool SkPictureRecord::translate(SkScalar dx, SkScalar dy) {
// op + dx + dy
uint32_t size = 1 * kUInt32Size + 2 * sizeof(SkScalar);
uint32_t initialOffset = this->addDraw(TRANSLATE, &size);
addScalar(dx);
addScalar(dy);
validate(initialOffset, size);
return this->INHERITED::translate(dx, dy);
}
bool SkPictureRecord::scale(SkScalar sx, SkScalar sy) {
// op + sx + sy
uint32_t size = 1 * kUInt32Size + 2 * sizeof(SkScalar);
uint32_t initialOffset = this->addDraw(SCALE, &size);
addScalar(sx);
addScalar(sy);
validate(initialOffset, size);
return this->INHERITED::scale(sx, sy);
}
bool SkPictureRecord::rotate(SkScalar degrees) {
// op + degrees
uint32_t size = 1 * kUInt32Size + sizeof(SkScalar);
uint32_t initialOffset = this->addDraw(ROTATE, &size);
addScalar(degrees);
validate(initialOffset, size);
return this->INHERITED::rotate(degrees);
}
bool SkPictureRecord::skew(SkScalar sx, SkScalar sy) {
// op + sx + sy
uint32_t size = 1 * kUInt32Size + 2 * sizeof(SkScalar);
uint32_t initialOffset = this->addDraw(SKEW, &size);
addScalar(sx);
addScalar(sy);
validate(initialOffset, size);
return this->INHERITED::skew(sx, sy);
}
bool SkPictureRecord::concat(const SkMatrix& matrix) {
validate(fWriter.size(), 0);
// op + matrix index
uint32_t size = 2 * kUInt32Size;
uint32_t initialOffset = this->addDraw(CONCAT, &size);
addMatrix(matrix);
validate(initialOffset, size);
return this->INHERITED::concat(matrix);
}
void SkPictureRecord::setMatrix(const SkMatrix& matrix) {
validate(fWriter.size(), 0);
// op + matrix index
uint32_t size = 2 * kUInt32Size;
uint32_t initialOffset = this->addDraw(SET_MATRIX, &size);
addMatrix(matrix);
validate(initialOffset, size);
this->INHERITED::setMatrix(matrix);
}
static bool regionOpExpands(SkRegion::Op op) {
switch (op) {
case SkRegion::kUnion_Op:
case SkRegion::kXOR_Op:
case SkRegion::kReverseDifference_Op:
case SkRegion::kReplace_Op:
return true;
case SkRegion::kIntersect_Op:
case SkRegion::kDifference_Op:
return false;
default:
SkDEBUGFAIL("unknown region op");
return false;
}
}
void SkPictureRecord::fillRestoreOffsetPlaceholdersForCurrentStackLevel(uint32_t restoreOffset) {
int32_t offset = fRestoreOffsetStack.top();
while (offset > 0) {
uint32_t* peek = fWriter.peek32(offset);
offset = *peek;
*peek = restoreOffset;
}
#ifdef SK_DEBUG
// assert that the final offset value points to a save verb
uint32_t opSize;
DrawType drawOp = peek_op_and_size(&fWriter, -offset, &opSize);
SkASSERT(SAVE == drawOp || SAVE_LAYER == drawOp);
#endif
}
void SkPictureRecord::beginRecording() {
// we have to call this *after* our constructor, to ensure that it gets
// recorded. This is balanced by restoreToCount() call from endRecording,
// which in-turn calls our overridden restore(), so those get recorded too.
fInitialSaveCount = this->save(kMatrixClip_SaveFlag);
}
void SkPictureRecord::endRecording() {
SkASSERT(kNoInitialSave != fInitialSaveCount);
this->restoreToCount(fInitialSaveCount);
}
void SkPictureRecord::recordRestoreOffsetPlaceholder(SkRegion::Op op) {
if (fRestoreOffsetStack.isEmpty()) {
return;
}
if (regionOpExpands(op)) {
// Run back through any previous clip ops, and mark their offset to
// be 0, disabling their ability to trigger a jump-to-restore, otherwise
// they could hide this clips ability to expand the clip (i.e. go from
// empty to non-empty).
fillRestoreOffsetPlaceholdersForCurrentStackLevel(0);
}
size_t offset = fWriter.size();
// The RestoreOffset field is initially filled with a placeholder
// value that points to the offset of the previous RestoreOffset
// in the current stack level, thus forming a linked list so that
// the restore offsets can be filled in when the corresponding
// restore command is recorded.
addInt(fRestoreOffsetStack.top());
fRestoreOffsetStack.top() = offset;
}
bool SkPictureRecord::clipRect(const SkRect& rect, SkRegion::Op op, bool doAA) {
// id + rect + clip params
uint32_t size = 1 * kUInt32Size + sizeof(rect) + 1 * kUInt32Size;
// recordRestoreOffsetPlaceholder doesn't always write an offset
if (!fRestoreOffsetStack.isEmpty()) {
// + restore offset
size += kUInt32Size;
}
uint32_t initialOffset = this->addDraw(CLIP_RECT, &size);
addRect(rect);
addInt(ClipParams_pack(op, doAA));
recordRestoreOffsetPlaceholder(op);
validate(initialOffset, size);
return this->INHERITED::clipRect(rect, op, doAA);
}
bool SkPictureRecord::clipRRect(const SkRRect& rrect, SkRegion::Op op, bool doAA) {
if (rrect.isRect()) {
return this->SkPictureRecord::clipRect(rrect.getBounds(), op, doAA);
}
// op + rrect + clip params
uint32_t size = 1 * kUInt32Size + SkRRect::kSizeInMemory + 1 * kUInt32Size;
// recordRestoreOffsetPlaceholder doesn't always write an offset
if (!fRestoreOffsetStack.isEmpty()) {
// + restore offset
size += kUInt32Size;
}
uint32_t initialOffset = this->addDraw(CLIP_RRECT, &size);
addRRect(rrect);
addInt(ClipParams_pack(op, doAA));
recordRestoreOffsetPlaceholder(op);
validate(initialOffset, size);
if (fRecordFlags & SkPicture::kUsePathBoundsForClip_RecordingFlag) {
return this->INHERITED::clipRect(rrect.getBounds(), op, doAA);
} else {
return this->INHERITED::clipRRect(rrect, op, doAA);
}
}
bool SkPictureRecord::clipPath(const SkPath& path, SkRegion::Op op, bool doAA) {
SkRect r;
if (!path.isInverseFillType() && path.isRect(&r)) {
return this->clipRect(r, op, doAA);
}
// op + path index + clip params
uint32_t size = 3 * kUInt32Size;
// recordRestoreOffsetPlaceholder doesn't always write an offset
if (!fRestoreOffsetStack.isEmpty()) {
// + restore offset
size += kUInt32Size;
}
uint32_t initialOffset = this->addDraw(CLIP_PATH, &size);
addPath(path);
addInt(ClipParams_pack(op, doAA));
recordRestoreOffsetPlaceholder(op);
validate(initialOffset, size);
if (fRecordFlags & SkPicture::kUsePathBoundsForClip_RecordingFlag) {
return this->INHERITED::clipRect(path.getBounds(), op, doAA);
} else {
return this->INHERITED::clipPath(path, op, doAA);
}
}
bool SkPictureRecord::clipRegion(const SkRegion& region, SkRegion::Op op) {
// op + region index + clip params
uint32_t size = 3 * kUInt32Size;
// recordRestoreOffsetPlaceholder doesn't always write an offset
if (!fRestoreOffsetStack.isEmpty()) {
// + restore offset
size += kUInt32Size;
}
uint32_t initialOffset = this->addDraw(CLIP_REGION, &size);
addRegion(region);
addInt(ClipParams_pack(op, false));
recordRestoreOffsetPlaceholder(op);
validate(initialOffset, size);
return this->INHERITED::clipRegion(region, op);
}
void SkPictureRecord::clear(SkColor color) {
// op + color
uint32_t size = 2 * kUInt32Size;
uint32_t initialOffset = this->addDraw(DRAW_CLEAR, &size);
addInt(color);
validate(initialOffset, size);
}
void SkPictureRecord::drawPaint(const SkPaint& paint) {
// op + paint index
uint32_t size = 2 * kUInt32Size;
uint32_t initialOffset = this->addDraw(DRAW_PAINT, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_PAINT, size) == fWriter.size());
addPaint(paint);
validate(initialOffset, size);
}
void SkPictureRecord::drawPoints(PointMode mode, size_t count, const SkPoint pts[],
const SkPaint& paint) {
// op + paint index + mode + count + point data
uint32_t size = 4 * kUInt32Size + count * sizeof(SkPoint);
uint32_t initialOffset = this->addDraw(DRAW_POINTS, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_POINTS, size) == fWriter.size());
addPaint(paint);
addInt(mode);
addInt(count);
fWriter.writeMul4(pts, count * sizeof(SkPoint));
validate(initialOffset, size);
}
void SkPictureRecord::drawOval(const SkRect& oval, const SkPaint& paint) {
// op + paint index + rect
uint32_t size = 2 * kUInt32Size + sizeof(oval);
uint32_t initialOffset = this->addDraw(DRAW_OVAL, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_OVAL, size) == fWriter.size());
addPaint(paint);
addRect(oval);
validate(initialOffset, size);
}
void SkPictureRecord::drawRect(const SkRect& rect, const SkPaint& paint) {
// op + paint index + rect
uint32_t size = 2 * kUInt32Size + sizeof(rect);
uint32_t initialOffset = this->addDraw(DRAW_RECT, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_RECT, size) == fWriter.size());
addPaint(paint);
addRect(rect);
validate(initialOffset, size);
}
void SkPictureRecord::drawRRect(const SkRRect& rrect, const SkPaint& paint) {
uint32_t initialOffset, size;
if (rrect.isRect()) {
// op + paint index + rect
size = 2 * kUInt32Size + sizeof(SkRect);
initialOffset = this->addDraw(DRAW_RECT, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_RECT, size) == fWriter.size());
addPaint(paint);
addRect(rrect.getBounds());
} else if (rrect.isOval()) {
// op + paint index + rect
size = 2 * kUInt32Size + sizeof(SkRect);
initialOffset = this->addDraw(DRAW_OVAL, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_OVAL, size) == fWriter.size());
addPaint(paint);
addRect(rrect.getBounds());
} else {
// op + paint index + rrect
size = 2 * kUInt32Size + SkRRect::kSizeInMemory;
initialOffset = this->addDraw(DRAW_RRECT, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_RRECT, size) == fWriter.size());
addPaint(paint);
addRRect(rrect);
}
validate(initialOffset, size);
}
void SkPictureRecord::drawPath(const SkPath& path, const SkPaint& paint) {
// op + paint index + path index
uint32_t size = 3 * kUInt32Size;
uint32_t initialOffset = this->addDraw(DRAW_PATH, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_PATH, size) == fWriter.size());
addPaint(paint);
addPath(path);
validate(initialOffset, size);
}
void SkPictureRecord::drawBitmap(const SkBitmap& bitmap, SkScalar left, SkScalar top,
const SkPaint* paint = NULL) {
// op + paint index + bitmap index + left + top
uint32_t size = 3 * kUInt32Size + 2 * sizeof(SkScalar);
uint32_t initialOffset = this->addDraw(DRAW_BITMAP, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_BITMAP, size) == fWriter.size());
addPaintPtr(paint);
addBitmap(bitmap);
addScalar(left);
addScalar(top);
validate(initialOffset, size);
}
void SkPictureRecord::drawBitmapRectToRect(const SkBitmap& bitmap, const SkRect* src,
const SkRect& dst, const SkPaint* paint) {
// id + paint index + bitmap index + bool for 'src'
uint32_t size = 4 * kUInt32Size;
if (NULL != src) {
size += sizeof(*src); // + rect
}
size += sizeof(dst); // + rect
uint32_t initialOffset = this->addDraw(DRAW_BITMAP_RECT_TO_RECT, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_BITMAP_RECT_TO_RECT, size) == fWriter.size());
addPaintPtr(paint);
addBitmap(bitmap);
addRectPtr(src); // may be null
addRect(dst);
validate(initialOffset, size);
}
void SkPictureRecord::drawBitmapMatrix(const SkBitmap& bitmap, const SkMatrix& matrix,
const SkPaint* paint) {
// id + paint index + bitmap index + matrix index
uint32_t size = 4 * kUInt32Size;
uint32_t initialOffset = this->addDraw(DRAW_BITMAP_MATRIX, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_BITMAP_MATRIX, size) == fWriter.size());
addPaintPtr(paint);
addBitmap(bitmap);
addMatrix(matrix);
validate(initialOffset, size);
}
void SkPictureRecord::drawBitmapNine(const SkBitmap& bitmap, const SkIRect& center,
const SkRect& dst, const SkPaint* paint) {
// op + paint index + bitmap id + center + dst rect
uint32_t size = 3 * kUInt32Size + sizeof(center) + sizeof(dst);
uint32_t initialOffset = this->addDraw(DRAW_BITMAP_NINE, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_BITMAP_NINE, size) == fWriter.size());
addPaintPtr(paint);
addBitmap(bitmap);
addIRect(center);
addRect(dst);
validate(initialOffset, size);
}
void SkPictureRecord::drawSprite(const SkBitmap& bitmap, int left, int top,
const SkPaint* paint = NULL) {
// op + paint index + bitmap index + left + top
uint32_t size = 5 * kUInt32Size;
uint32_t initialOffset = this->addDraw(DRAW_SPRITE, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_SPRITE, size) == fWriter.size());
addPaintPtr(paint);
addBitmap(bitmap);
addInt(left);
addInt(top);
validate(initialOffset, size);
}
// Return fontmetrics.fTop,fBottom in topbot[0,1], after they have been
// tweaked by paint.computeFastBounds().
//
static void computeFontMetricsTopBottom(const SkPaint& paint, SkScalar topbot[2]) {
SkPaint::FontMetrics metrics;
paint.getFontMetrics(&metrics);
SkRect bounds;
// construct a rect so we can see any adjustments from the paint.
// we use 0,1 for left,right, just so the rect isn't empty
bounds.set(0, metrics.fTop, SK_Scalar1, metrics.fBottom);
(void)paint.computeFastBounds(bounds, &bounds);
topbot[0] = bounds.fTop;
topbot[1] = bounds.fBottom;
}
void SkPictureRecord::addFontMetricsTopBottom(const SkPaint& paint, const SkFlatData& flat,
SkScalar minY, SkScalar maxY) {
if (!flat.isTopBotWritten()) {
computeFontMetricsTopBottom(paint, flat.writableTopBot());
SkASSERT(flat.isTopBotWritten());
}
addScalar(flat.topBot()[0] + minY);
addScalar(flat.topBot()[1] + maxY);
}
void SkPictureRecord::drawText(const void* text, size_t byteLength, SkScalar x,
SkScalar y, const SkPaint& paint) {
bool fast = !paint.isVerticalText() && paint.canComputeFastBounds();
// op + paint index + length + 'length' worth of chars + x + y
uint32_t size = 3 * kUInt32Size + SkAlign4(byteLength) + 2 * sizeof(SkScalar);
if (fast) {
size += 2 * sizeof(SkScalar); // + top & bottom
}
DrawType op = fast ? DRAW_TEXT_TOP_BOTTOM : DRAW_TEXT;
uint32_t initialOffset = this->addDraw(op, &size);
SkASSERT(initialOffset+getPaintOffset(op, size) == fWriter.size());
const SkFlatData* flatPaintData = addPaint(paint);
SkASSERT(flatPaintData);
addText(text, byteLength);
addScalar(x);
addScalar(y);
if (fast) {
addFontMetricsTopBottom(paint, *flatPaintData, y, y);
}
validate(initialOffset, size);
}
void SkPictureRecord::drawPosText(const void* text, size_t byteLength,
const SkPoint pos[], const SkPaint& paint) {
size_t points = paint.countText(text, byteLength);
if (0 == points)
return;
bool canUseDrawH = true;
SkScalar minY = pos[0].fY;
SkScalar maxY = pos[0].fY;
// check if the caller really should have used drawPosTextH()
{
const SkScalar firstY = pos[0].fY;
for (size_t index = 1; index < points; index++) {
if (pos[index].fY != firstY) {
canUseDrawH = false;
if (pos[index].fY < minY) {
minY = pos[index].fY;
} else if (pos[index].fY > maxY) {
maxY = pos[index].fY;
}
}
}
}
bool fastBounds = !paint.isVerticalText() && paint.canComputeFastBounds();
bool fast = canUseDrawH && fastBounds;
// op + paint index + length + 'length' worth of data + num points
uint32_t size = 3 * kUInt32Size + SkAlign4(byteLength) + 1 * kUInt32Size;
if (canUseDrawH) {
if (fast) {
size += 2 * sizeof(SkScalar); // + top & bottom
}
// + y-pos + actual x-point data
size += sizeof(SkScalar) + points * sizeof(SkScalar);
} else {
// + x&y point data
size += points * sizeof(SkPoint);
if (fastBounds) {
size += 2 * sizeof(SkScalar); // + top & bottom
}
}
DrawType op;
if (fast) {
op = DRAW_POS_TEXT_H_TOP_BOTTOM;
} else if (canUseDrawH) {
op = DRAW_POS_TEXT_H;
} else if (fastBounds) {
op = DRAW_POS_TEXT_TOP_BOTTOM;
} else {
op = DRAW_POS_TEXT;
}
uint32_t initialOffset = this->addDraw(op, &size);
SkASSERT(initialOffset+getPaintOffset(op, size) == fWriter.size());
const SkFlatData* flatPaintData = addPaint(paint);
SkASSERT(flatPaintData);
addText(text, byteLength);
addInt(points);
#ifdef SK_DEBUG_SIZE
size_t start = fWriter.size();
#endif
if (canUseDrawH) {
if (fast) {
addFontMetricsTopBottom(paint, *flatPaintData, pos[0].fY, pos[0].fY);
}
addScalar(pos[0].fY);
SkScalar* xptr = (SkScalar*)fWriter.reserve(points * sizeof(SkScalar));
for (size_t index = 0; index < points; index++)
*xptr++ = pos[index].fX;
} else {
fWriter.writeMul4(pos, points * sizeof(SkPoint));
if (fastBounds) {
addFontMetricsTopBottom(paint, *flatPaintData, minY, maxY);
}
}
#ifdef SK_DEBUG_SIZE
fPointBytes += fWriter.size() - start;
fPointWrites += points;
#endif
validate(initialOffset, size);
}
void SkPictureRecord::drawPosTextH(const void* text, size_t byteLength,
const SkScalar xpos[], SkScalar constY,
const SkPaint& paint) {
size_t points = paint.countText(text, byteLength);
if (0 == points)
return;
bool fast = !paint.isVerticalText() && paint.canComputeFastBounds();
// op + paint index + length + 'length' worth of data + num points
uint32_t size = 3 * kUInt32Size + SkAlign4(byteLength) + 1 * kUInt32Size;
if (fast) {
size += 2 * sizeof(SkScalar); // + top & bottom
}
// + y + the actual points
size += 1 * kUInt32Size + points * sizeof(SkScalar);
uint32_t initialOffset = this->addDraw(fast ? DRAW_POS_TEXT_H_TOP_BOTTOM : DRAW_POS_TEXT_H,
&size);
const SkFlatData* flatPaintData = addPaint(paint);
SkASSERT(flatPaintData);
addText(text, byteLength);
addInt(points);
#ifdef SK_DEBUG_SIZE
size_t start = fWriter.size();
#endif
if (fast) {
addFontMetricsTopBottom(paint, *flatPaintData, constY, constY);
}
addScalar(constY);
fWriter.writeMul4(xpos, points * sizeof(SkScalar));
#ifdef SK_DEBUG_SIZE
fPointBytes += fWriter.size() - start;
fPointWrites += points;
#endif
validate(initialOffset, size);
}
void SkPictureRecord::drawTextOnPath(const void* text, size_t byteLength,
const SkPath& path, const SkMatrix* matrix,
const SkPaint& paint) {
// op + paint index + length + 'length' worth of data + path index + matrix index
uint32_t size = 3 * kUInt32Size + SkAlign4(byteLength) + 2 * kUInt32Size;
uint32_t initialOffset = this->addDraw(DRAW_TEXT_ON_PATH, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_TEXT_ON_PATH, size) == fWriter.size());
addPaint(paint);
addText(text, byteLength);
addPath(path);
addMatrixPtr(matrix);
validate(initialOffset, size);
}
void SkPictureRecord::drawPicture(SkPicture& picture) {
// op + picture index
uint32_t size = 2 * kUInt32Size;
uint32_t initialOffset = this->addDraw(DRAW_PICTURE, &size);
addPicture(picture);
validate(initialOffset, size);
}
void SkPictureRecord::drawVertices(VertexMode vmode, int vertexCount,
const SkPoint vertices[], const SkPoint texs[],
const SkColor colors[], SkXfermode*,
const uint16_t indices[], int indexCount,
const SkPaint& paint) {
uint32_t flags = 0;
if (texs) {
flags |= DRAW_VERTICES_HAS_TEXS;
}
if (colors) {
flags |= DRAW_VERTICES_HAS_COLORS;
}
if (indexCount > 0) {
flags |= DRAW_VERTICES_HAS_INDICES;
}
// op + paint index + flags + vmode + vCount + vertices
uint32_t size = 5 * kUInt32Size + vertexCount * sizeof(SkPoint);
if (flags & DRAW_VERTICES_HAS_TEXS) {
size += vertexCount * sizeof(SkPoint); // + uvs
}
if (flags & DRAW_VERTICES_HAS_COLORS) {
size += vertexCount * sizeof(SkColor); // + vert colors
}
if (flags & DRAW_VERTICES_HAS_INDICES) {
// + num indices + indices
size += 1 * kUInt32Size + SkAlign4(indexCount * sizeof(uint16_t));
}
uint32_t initialOffset = this->addDraw(DRAW_VERTICES, &size);
SkASSERT(initialOffset+getPaintOffset(DRAW_VERTICES, size) == fWriter.size());
addPaint(paint);
addInt(flags);
addInt(vmode);
addInt(vertexCount);
addPoints(vertices, vertexCount);
if (flags & DRAW_VERTICES_HAS_TEXS) {
addPoints(texs, vertexCount);
}
if (flags & DRAW_VERTICES_HAS_COLORS) {
fWriter.writeMul4(colors, vertexCount * sizeof(SkColor));
}
if (flags & DRAW_VERTICES_HAS_INDICES) {
addInt(indexCount);
fWriter.writePad(indices, indexCount * sizeof(uint16_t));
}
validate(initialOffset, size);
}
void SkPictureRecord::drawData(const void* data, size_t length) {
// op + length + 'length' worth of data
uint32_t size = 2 * kUInt32Size + SkAlign4(length);
uint32_t initialOffset = this->addDraw(DRAW_DATA, &size);
addInt(length);
fWriter.writePad(data, length);
validate(initialOffset, size);
}
///////////////////////////////////////////////////////////////////////////////
void SkPictureRecord::addBitmap(const SkBitmap& bitmap) {
const int index = fBitmapHeap->insert(bitmap);
// In debug builds, a bad return value from insert() will crash, allowing for debugging. In
// release builds, the invalid value will be recorded so that the reader will know that there
// was a problem.
SkASSERT(index != SkBitmapHeap::INVALID_SLOT);
addInt(index);
}
void SkPictureRecord::addMatrix(const SkMatrix& matrix) {
addMatrixPtr(&matrix);
}
void SkPictureRecord::addMatrixPtr(const SkMatrix* matrix) {
this->addInt(matrix ? fMatrices.find(*matrix) : 0);
}
const SkFlatData* SkPictureRecord::addPaintPtr(const SkPaint* paint) {
const SkFlatData* data = paint ? fPaints.findAndReturnFlat(*paint) : NULL;
int index = data ? data->index() : 0;
this->addInt(index);
return data;
}
void SkPictureRecord::addPath(const SkPath& path) {
if (NULL == fPathHeap) {
fPathHeap = SkNEW(SkPathHeap);
}
addInt(fPathHeap->append(path));
}
void SkPictureRecord::addPicture(SkPicture& picture) {
int index = fPictureRefs.find(&picture);
if (index < 0) { // not found
index = fPictureRefs.count();
*fPictureRefs.append() = &picture;
picture.ref();
}
// follow the convention of recording a 1-based index
addInt(index + 1);
}
void SkPictureRecord::addPoint(const SkPoint& point) {
#ifdef SK_DEBUG_SIZE
size_t start = fWriter.size();
#endif
fWriter.writePoint(point);
#ifdef SK_DEBUG_SIZE
fPointBytes += fWriter.size() - start;
fPointWrites++;
#endif
}
void SkPictureRecord::addPoints(const SkPoint pts[], int count) {
fWriter.writeMul4(pts, count * sizeof(SkPoint));
#ifdef SK_DEBUG_SIZE
fPointBytes += count * sizeof(SkPoint);
fPointWrites++;
#endif
}
void SkPictureRecord::addRect(const SkRect& rect) {
#ifdef SK_DEBUG_SIZE
size_t start = fWriter.size();
#endif
fWriter.writeRect(rect);
#ifdef SK_DEBUG_SIZE
fRectBytes += fWriter.size() - start;
fRectWrites++;
#endif
}
void SkPictureRecord::addRectPtr(const SkRect* rect) {
if (fWriter.writeBool(rect != NULL)) {
fWriter.writeRect(*rect);
}
}
void SkPictureRecord::addIRect(const SkIRect& rect) {
fWriter.write(&rect, sizeof(rect));
}
void SkPictureRecord::addIRectPtr(const SkIRect* rect) {
if (fWriter.writeBool(rect != NULL)) {
*(SkIRect*)fWriter.reserve(sizeof(SkIRect)) = *rect;
}
}
void SkPictureRecord::addRRect(const SkRRect& rrect) {
fWriter.writeRRect(rrect);
}
void SkPictureRecord::addRegion(const SkRegion& region) {
addInt(fRegions.find(region));
}
void SkPictureRecord::addText(const void* text, size_t byteLength) {
#ifdef SK_DEBUG_SIZE
size_t start = fWriter.size();
#endif
addInt(byteLength);
fWriter.writePad(text, byteLength);
#ifdef SK_DEBUG_SIZE
fTextBytes += fWriter.size() - start;
fTextWrites++;
#endif
}
///////////////////////////////////////////////////////////////////////////////
#ifdef SK_DEBUG_SIZE
size_t SkPictureRecord::size() const {
size_t result = 0;
size_t sizeData;
bitmaps(&sizeData);
result += sizeData;
matrices(&sizeData);
result += sizeData;
paints(&sizeData);
result += sizeData;
paths(&sizeData);
result += sizeData;
pictures(&sizeData);
result += sizeData;
regions(&sizeData);
result += sizeData;
result += streamlen();
return result;
}
int SkPictureRecord::bitmaps(size_t* size) const {
size_t result = 0;
int count = fBitmaps.count();
for (int index = 0; index < count; index++)
result += sizeof(fBitmaps[index]) + fBitmaps[index]->size();
*size = result;
return count;
}
int SkPictureRecord::matrices(size_t* size) const {
int count = fMatrices.count();
*size = sizeof(fMatrices[0]) * count;
return count;
}
int SkPictureRecord::paints(size_t* size) const {
size_t result = 0;
int count = fPaints.count();
for (int index = 0; index < count; index++)
result += sizeof(fPaints[index]) + fPaints[index]->size();
*size = result;
return count;
}
int SkPictureRecord::paths(size_t* size) const {
size_t result = 0;
int count = fPaths.count();
for (int index = 0; index < count; index++)
result += sizeof(fPaths[index]) + fPaths[index]->size();
*size = result;
return count;
}
int SkPictureRecord::regions(size_t* size) const {
size_t result = 0;
int count = fRegions.count();
for (int index = 0; index < count; index++)
result += sizeof(fRegions[index]) + fRegions[index]->size();
*size = result;
return count;
}
size_t SkPictureRecord::streamlen() const {
return fWriter.size();
}
#endif
#ifdef SK_DEBUG_VALIDATE
void SkPictureRecord::validate(uint32_t initialOffset, uint32_t size) const {
SkASSERT(fWriter.size() == initialOffset + size);
validateBitmaps();
validateMatrices();
validatePaints();
validatePaths();
validateRegions();
}
void SkPictureRecord::validateBitmaps() const {
int count = fBitmapHeap->count();
SkASSERT((unsigned) count < 0x1000);
for (int index = 0; index < count; index++) {
const SkBitmap* bitPtr = fBitmapHeap->getBitmap(index);
SkASSERT(bitPtr);
bitPtr->validate();
}
}
void SkPictureRecord::validateMatrices() const {
int count = fMatrices.count();
SkASSERT((unsigned) count < 0x1000);
for (int index = 0; index < count; index++) {
const SkFlatData* matrix = fMatrices[index];
SkASSERT(matrix);
// matrix->validate();
}
}
void SkPictureRecord::validatePaints() const {
int count = fPaints.count();
SkASSERT((unsigned) count < 0x1000);
for (int index = 0; index < count; index++) {
const SkFlatData* paint = fPaints[index];
SkASSERT(paint);
// paint->validate();
}
}
void SkPictureRecord::validatePaths() const {
if (NULL == fPathHeap) {
return;
}
int count = fPathHeap->count();
SkASSERT((unsigned) count < 0x1000);
for (int index = 0; index < count; index++) {
const SkPath& path = (*fPathHeap)[index];
path.validate();
}
}
void SkPictureRecord::validateRegions() const {
int count = fRegions.count();
SkASSERT((unsigned) count < 0x1000);
for (int index = 0; index < count; index++) {
const SkFlatData* region = fRegions[index];
SkASSERT(region);
// region->validate();
}
}
#endif
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