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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 "SkDevice.h"
#include "SkPatchUtils.h"
#include "SkPixelRef.h"
#include "SkRRect.h"
#include "SkTextBlob.h"
#include "SkTSearch.h"
#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 kSaveSize = kUInt32Size;
#ifdef SK_DEBUG
static const uint32_t kSaveLayerNoBoundsSize = 4 * kUInt32Size;
static const uint32_t kSaveLayerWithBoundsSize = 4 * kUInt32Size + sizeof(SkRect);
#endif//SK_DEBUG
SkPictureRecord::SkPictureRecord(const SkISize& dimensions, uint32_t flags)
: INHERITED(dimensions.width(), dimensions.height())
, fFirstSavedLayerIndex(kNoSavedLayerIndex)
, fRecordFlags(flags)
, fInitialSaveCount(kNoInitialSave) {
}
SkPictureRecord::~SkPictureRecord() {
fPictureRefs.unrefAll();
fTextBlobRefs.unrefAll();
}
///////////////////////////////////////////////////////////////////////////////
#ifdef SK_DEBUG
// 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 size_t get_paint_offset(DrawType op, size_t opSize) {
// These offsets are where the paint would be if the op size doesn't overflow
static const uint8_t gPaintOffsets[] = {
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
0, // BEGIN_GROUP - no paint
0, // COMMENT - no paint
0, // END_GROUP - no paint
1, // DRAWDRRECT - right after op code
0, // PUSH_CULL - no paint
0, // POP_CULL - no paint
1, // DRAW_PATCH - right after op code
1, // DRAW_PICTURE_MATRIX_PAINT - right after op code
1, // DRAW_TEXT_BLOB- right after op code
};
SK_COMPILE_ASSERT(sizeof(gPaintOffsets) == LAST_DRAWTYPE_ENUM + 1,
need_to_be_in_sync);
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;
}
#endif//SK_DEBUG
void SkPictureRecord::willSave() {
// record the offset to us, making it non-positive to distinguish a save
// from a clip entry.
fRestoreOffsetStack.push(-(int32_t)fWriter.bytesWritten());
this->recordSave();
this->INHERITED::willSave();
}
void SkPictureRecord::recordSave() {
fContentInfo.onSave();
// op only
size_t size = kSaveSize;
size_t initialOffset = this->addDraw(SAVE, &size);
this->validate(initialOffset, size);
}
SkCanvas::SaveLayerStrategy SkPictureRecord::willSaveLayer(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.bytesWritten());
this->recordSaveLayer(bounds, paint, flags);
if (kNoSavedLayerIndex == fFirstSavedLayerIndex) {
fFirstSavedLayerIndex = fRestoreOffsetStack.count();
}
this->INHERITED::willSaveLayer(bounds, paint, flags);
/* No need for a (potentially very big) layer 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).
*/
return kNoLayer_SaveLayerStrategy;
}
void SkPictureRecord::recordSaveLayer(const SkRect* bounds, const SkPaint* paint,
SaveFlags flags) {
fContentInfo.onSaveLayer();
// op + bool for 'bounds'
size_t size = 2 * kUInt32Size;
if (bounds) {
size += sizeof(*bounds); // + rect
}
// + paint index + flags
size += 2 * kUInt32Size;
SkASSERT(kSaveLayerNoBoundsSize == size || kSaveLayerWithBoundsSize == size);
size_t initialOffset = this->addDraw(SAVE_LAYER, &size);
this->addRectPtr(bounds);
SkASSERT(initialOffset+get_paint_offset(SAVE_LAYER, size) == fWriter.bytesWritten());
this->addPaintPtr(paint);
this->addInt(flags);
this->validate(initialOffset, size);
}
bool SkPictureRecord::isDrawingToLayer() const {
return fFirstSavedLayerIndex != kNoSavedLayerIndex;
}
#ifdef SK_DEBUG
/*
* Read the op code from 'offset' in 'writer' and extract the size too.
*/
static DrawType peek_op_and_size(SkWriter32* writer, size_t offset, uint32_t* size) {
uint32_t peek = writer->readTAt<uint32_t>(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->readTAt<uint32_t>(offset + kUInt32Size);
}
return (DrawType) op;
}
#endif//SK_DEBUG
void SkPictureRecord::willRestore() {
// 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;
}
this->recordRestore();
fRestoreOffsetStack.pop();
this->INHERITED::willRestore();
}
void SkPictureRecord::recordRestore(bool fillInSkips) {
fContentInfo.onRestore();
if (fillInSkips) {
this->fillRestoreOffsetPlaceholdersForCurrentStackLevel((uint32_t)fWriter.bytesWritten());
}
size_t size = 1 * kUInt32Size; // RESTORE consists solely of 1 op code
size_t initialOffset = this->addDraw(RESTORE, &size);
this->validate(initialOffset, size);
}
void SkPictureRecord::recordTranslate(const SkMatrix& m) {
SkASSERT(SkMatrix::kTranslate_Mask == m.getType());
// op + dx + dy
size_t size = 1 * kUInt32Size + 2 * sizeof(SkScalar);
size_t initialOffset = this->addDraw(TRANSLATE, &size);
this->addScalar(m.getTranslateX());
this->addScalar(m.getTranslateY());
this->validate(initialOffset, size);
}
void SkPictureRecord::recordScale(const SkMatrix& m) {
SkASSERT(SkMatrix::kScale_Mask == m.getType());
// op + sx + sy
size_t size = 1 * kUInt32Size + 2 * sizeof(SkScalar);
size_t initialOffset = this->addDraw(SCALE, &size);
this->addScalar(m.getScaleX());
this->addScalar(m.getScaleY());
this->validate(initialOffset, size);
}
void SkPictureRecord::didConcat(const SkMatrix& matrix) {
switch (matrix.getType()) {
case SkMatrix::kTranslate_Mask:
this->recordTranslate(matrix);
break;
case SkMatrix::kScale_Mask:
this->recordScale(matrix);
break;
default:
this->recordConcat(matrix);
break;
}
this->INHERITED::didConcat(matrix);
}
void SkPictureRecord::recordConcat(const SkMatrix& matrix) {
this->validate(fWriter.bytesWritten(), 0);
// op + matrix
size_t size = kUInt32Size + matrix.writeToMemory(NULL);
size_t initialOffset = this->addDraw(CONCAT, &size);
this->addMatrix(matrix);
this->validate(initialOffset, size);
}
void SkPictureRecord::didSetMatrix(const SkMatrix& matrix) {
this->validate(fWriter.bytesWritten(), 0);
// op + matrix
size_t size = kUInt32Size + matrix.writeToMemory(NULL);
size_t initialOffset = this->addDraw(SET_MATRIX, &size);
this->addMatrix(matrix);
this->validate(initialOffset, size);
this->INHERITED::didSetMatrix(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.readTAt<uint32_t>(offset);
fWriter.overwriteTAt(offset, restoreOffset);
offset = peek;
}
#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();
}
void SkPictureRecord::endRecording() {
SkASSERT(kNoInitialSave != fInitialSaveCount);
this->restoreToCount(fInitialSaveCount);
}
size_t SkPictureRecord::recordRestoreOffsetPlaceholder(SkRegion::Op op) {
if (fRestoreOffsetStack.isEmpty()) {
return -1;
}
// 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.
int32_t prevOffset = fRestoreOffsetStack.top();
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).
this->fillRestoreOffsetPlaceholdersForCurrentStackLevel(0);
// Reset the pointer back to the previous clip so that subsequent
// restores don't overwrite the offsets we just cleared.
prevOffset = 0;
}
size_t offset = fWriter.bytesWritten();
this->addInt(prevOffset);
fRestoreOffsetStack.top() = SkToU32(offset);
return offset;
}
void SkPictureRecord::onClipRect(const SkRect& rect, SkRegion::Op op, ClipEdgeStyle edgeStyle) {
this->recordClipRect(rect, op, kSoft_ClipEdgeStyle == edgeStyle);
this->INHERITED::onClipRect(rect, op, edgeStyle);
}
size_t SkPictureRecord::recordClipRect(const SkRect& rect, SkRegion::Op op, bool doAA) {
// id + rect + clip params
size_t size = 1 * kUInt32Size + sizeof(rect) + 1 * kUInt32Size;
// recordRestoreOffsetPlaceholder doesn't always write an offset
if (!fRestoreOffsetStack.isEmpty()) {
// + restore offset
size += kUInt32Size;
}
size_t initialOffset = this->addDraw(CLIP_RECT, &size);
this->addRect(rect);
this->addInt(ClipParams_pack(op, doAA));
size_t offset = this->recordRestoreOffsetPlaceholder(op);
this->validate(initialOffset, size);
return offset;
}
void SkPictureRecord::onClipRRect(const SkRRect& rrect, SkRegion::Op op, ClipEdgeStyle edgeStyle) {
this->recordClipRRect(rrect, op, kSoft_ClipEdgeStyle == edgeStyle);
this->INHERITED::onClipRRect(rrect, op, edgeStyle);
}
size_t SkPictureRecord::recordClipRRect(const SkRRect& rrect, SkRegion::Op op, bool doAA) {
// op + rrect + clip params
size_t size = 1 * kUInt32Size + SkRRect::kSizeInMemory + 1 * kUInt32Size;
// recordRestoreOffsetPlaceholder doesn't always write an offset
if (!fRestoreOffsetStack.isEmpty()) {
// + restore offset
size += kUInt32Size;
}
size_t initialOffset = this->addDraw(CLIP_RRECT, &size);
this->addRRect(rrect);
this->addInt(ClipParams_pack(op, doAA));
size_t offset = recordRestoreOffsetPlaceholder(op);
this->validate(initialOffset, size);
return offset;
}
void SkPictureRecord::onClipPath(const SkPath& path, SkRegion::Op op, ClipEdgeStyle edgeStyle) {
int pathID = this->addPathToHeap(path);
this->recordClipPath(pathID, op, kSoft_ClipEdgeStyle == edgeStyle);
this->INHERITED::onClipPath(path, op, edgeStyle);
}
size_t SkPictureRecord::recordClipPath(int pathID, SkRegion::Op op, bool doAA) {
// op + path index + clip params
size_t size = 3 * kUInt32Size;
// recordRestoreOffsetPlaceholder doesn't always write an offset
if (!fRestoreOffsetStack.isEmpty()) {
// + restore offset
size += kUInt32Size;
}
size_t initialOffset = this->addDraw(CLIP_PATH, &size);
this->addInt(pathID);
this->addInt(ClipParams_pack(op, doAA));
size_t offset = recordRestoreOffsetPlaceholder(op);
this->validate(initialOffset, size);
return offset;
}
void SkPictureRecord::onClipRegion(const SkRegion& region, SkRegion::Op op) {
this->recordClipRegion(region, op);
this->INHERITED::onClipRegion(region, op);
}
size_t SkPictureRecord::recordClipRegion(const SkRegion& region, SkRegion::Op op) {
// op + clip params + region
size_t size = 2 * kUInt32Size + region.writeToMemory(NULL);
// recordRestoreOffsetPlaceholder doesn't always write an offset
if (!fRestoreOffsetStack.isEmpty()) {
// + restore offset
size += kUInt32Size;
}
size_t initialOffset = this->addDraw(CLIP_REGION, &size);
this->addRegion(region);
this->addInt(ClipParams_pack(op, false));
size_t offset = this->recordRestoreOffsetPlaceholder(op);
this->validate(initialOffset, size);
return offset;
}
void SkPictureRecord::clear(SkColor color) {
// op + color
size_t size = 2 * kUInt32Size;
size_t initialOffset = this->addDraw(DRAW_CLEAR, &size);
this->addInt(color);
this->validate(initialOffset, size);
}
void SkPictureRecord::drawPaint(const SkPaint& paint) {
// op + paint index
size_t size = 2 * kUInt32Size;
size_t initialOffset = this->addDraw(DRAW_PAINT, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_PAINT, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->validate(initialOffset, size);
}
void SkPictureRecord::drawPoints(PointMode mode, size_t count, const SkPoint pts[],
const SkPaint& paint) {
fContentInfo.onDrawPoints(count, paint);
// op + paint index + mode + count + point data
size_t size = 4 * kUInt32Size + count * sizeof(SkPoint);
size_t initialOffset = this->addDraw(DRAW_POINTS, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_POINTS, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->addInt(mode);
this->addInt(SkToInt(count));
fWriter.writeMul4(pts, count * sizeof(SkPoint));
this->validate(initialOffset, size);
}
void SkPictureRecord::drawOval(const SkRect& oval, const SkPaint& paint) {
// op + paint index + rect
size_t size = 2 * kUInt32Size + sizeof(oval);
size_t initialOffset = this->addDraw(DRAW_OVAL, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_OVAL, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->addRect(oval);
this->validate(initialOffset, size);
}
void SkPictureRecord::drawRect(const SkRect& rect, const SkPaint& paint) {
// op + paint index + rect
size_t size = 2 * kUInt32Size + sizeof(rect);
size_t initialOffset = this->addDraw(DRAW_RECT, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_RECT, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->addRect(rect);
this->validate(initialOffset, size);
}
void SkPictureRecord::drawRRect(const SkRRect& rrect, const SkPaint& paint) {
// op + paint index + rrect
size_t size = 2 * kUInt32Size + SkRRect::kSizeInMemory;
size_t initialOffset = this->addDraw(DRAW_RRECT, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_RRECT, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->addRRect(rrect);
this->validate(initialOffset, size);
}
void SkPictureRecord::onDrawDRRect(const SkRRect& outer, const SkRRect& inner,
const SkPaint& paint) {
// op + paint index + rrects
size_t size = 2 * kUInt32Size + SkRRect::kSizeInMemory * 2;
size_t initialOffset = this->addDraw(DRAW_DRRECT, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_DRRECT, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->addRRect(outer);
this->addRRect(inner);
this->validate(initialOffset, size);
}
void SkPictureRecord::drawPath(const SkPath& path, const SkPaint& paint) {
fContentInfo.onDrawPath(path, paint);
// op + paint index + path index
size_t size = 3 * kUInt32Size;
size_t initialOffset = this->addDraw(DRAW_PATH, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_PATH, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->addPath(path);
this->validate(initialOffset, size);
}
void SkPictureRecord::drawBitmap(const SkBitmap& bitmap, SkScalar left, SkScalar top,
const SkPaint* paint = NULL) {
// op + paint index + bitmap index + left + top
size_t size = 3 * kUInt32Size + 2 * sizeof(SkScalar);
size_t initialOffset = this->addDraw(DRAW_BITMAP, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_BITMAP, size) == fWriter.bytesWritten());
this->addPaintPtr(paint);
this->addBitmap(bitmap);
this->addScalar(left);
this->addScalar(top);
this->validate(initialOffset, size);
}
void SkPictureRecord::drawBitmapRectToRect(const SkBitmap& bitmap, const SkRect* src,
const SkRect& dst, const SkPaint* paint,
DrawBitmapRectFlags flags) {
// id + paint index + bitmap index + bool for 'src' + flags
size_t size = 5 * kUInt32Size;
if (src) {
size += sizeof(*src); // + rect
}
size += sizeof(dst); // + rect
size_t initialOffset = this->addDraw(DRAW_BITMAP_RECT_TO_RECT, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_BITMAP_RECT_TO_RECT, size)
== fWriter.bytesWritten());
this->addPaintPtr(paint);
this->addBitmap(bitmap);
this->addRectPtr(src); // may be null
this->addRect(dst);
this->addInt(flags);
this->validate(initialOffset, size);
}
void SkPictureRecord::drawBitmapMatrix(const SkBitmap& bitmap, const SkMatrix& matrix,
const SkPaint* paint) {
// id + paint index + bitmap index + matrix
size_t size = 3 * kUInt32Size + matrix.writeToMemory(NULL);
size_t initialOffset = this->addDraw(DRAW_BITMAP_MATRIX, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_BITMAP_MATRIX, size) == fWriter.bytesWritten());
this->addPaintPtr(paint);
this->addBitmap(bitmap);
this->addMatrix(matrix);
this->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
size_t size = 3 * kUInt32Size + sizeof(center) + sizeof(dst);
size_t initialOffset = this->addDraw(DRAW_BITMAP_NINE, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_BITMAP_NINE, size) == fWriter.bytesWritten());
this->addPaintPtr(paint);
this->addBitmap(bitmap);
this->addIRect(center);
this->addRect(dst);
this->validate(initialOffset, size);
}
void SkPictureRecord::drawSprite(const SkBitmap& bitmap, int left, int top,
const SkPaint* paint = NULL) {
// op + paint index + bitmap index + left + top
size_t size = 5 * kUInt32Size;
size_t initialOffset = this->addDraw(DRAW_SPRITE, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_SPRITE, size) == fWriter.bytesWritten());
this->addPaintPtr(paint);
this->addBitmap(bitmap);
this->addInt(left);
this->addInt(top);
this->validate(initialOffset, size);
}
void SkPictureRecord::onDrawText(const void* text, size_t byteLength, SkScalar x, SkScalar y,
const SkPaint& paint) {
// op + paint index + length + 'length' worth of chars + x + y
size_t size = 3 * kUInt32Size + SkAlign4(byteLength) + 2 * sizeof(SkScalar);
DrawType op = DRAW_TEXT;
size_t initialOffset = this->addDraw(op, &size);
SkASSERT(initialOffset+get_paint_offset(op, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->addText(text, byteLength);
this->addScalar(x);
this->addScalar(y);
this->validate(initialOffset, size);
}
void SkPictureRecord::onDrawPosText(const void* text, size_t byteLength, const SkPoint pos[],
const SkPaint& paint) {
int points = paint.countText(text, byteLength);
// op + paint index + length + 'length' worth of data + num points + x&y point data
size_t size = 3 * kUInt32Size + SkAlign4(byteLength) + kUInt32Size + points * sizeof(SkPoint);
DrawType op = DRAW_POS_TEXT;
size_t initialOffset = this->addDraw(op, &size);
SkASSERT(initialOffset+get_paint_offset(op, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->addText(text, byteLength);
this->addInt(points);
fWriter.writeMul4(pos, points * sizeof(SkPoint));
this->validate(initialOffset, size);
}
void SkPictureRecord::onDrawPosTextH(const void* text, size_t byteLength, const SkScalar xpos[],
SkScalar constY, const SkPaint& paint) {
int points = paint.countText(text, byteLength);
// op + paint index + length + 'length' worth of data + num points
size_t size = 3 * kUInt32Size + SkAlign4(byteLength) + 1 * kUInt32Size;
// + y + the actual points
size += 1 * kUInt32Size + points * sizeof(SkScalar);
size_t initialOffset = this->addDraw(DRAW_POS_TEXT_H, &size);
this->addPaint(paint);
this->addText(text, byteLength);
this->addInt(points);
this->addScalar(constY);
fWriter.writeMul4(xpos, points * sizeof(SkScalar));
this->validate(initialOffset, size);
}
void SkPictureRecord::onDrawTextOnPath(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
const SkMatrix& m = matrix ? *matrix : SkMatrix::I();
size_t size = 3 * kUInt32Size + SkAlign4(byteLength) + kUInt32Size + m.writeToMemory(NULL);
size_t initialOffset = this->addDraw(DRAW_TEXT_ON_PATH, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_TEXT_ON_PATH, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->addText(text, byteLength);
this->addPath(path);
this->addMatrix(m);
this->validate(initialOffset, size);
}
void SkPictureRecord::onDrawTextBlob(const SkTextBlob* blob, SkScalar x, SkScalar y,
const SkPaint& paint) {
// op + paint index + blob index + x/y
size_t size = 3 * kUInt32Size + 2 * sizeof(SkScalar);
size_t initialOffset = this->addDraw(DRAW_TEXT_BLOB, &size);
SkASSERT(initialOffset + get_paint_offset(DRAW_TEXT_BLOB, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->addTextBlob(blob);
this->addScalar(x);
this->addScalar(y);
this->validate(initialOffset, size);
}
void SkPictureRecord::onDrawPicture(const SkPicture* picture, const SkMatrix* matrix,
const SkPaint* paint) {
// op + picture index
size_t size = 2 * kUInt32Size;
size_t initialOffset;
if (NULL == matrix && NULL == paint) {
initialOffset = this->addDraw(DRAW_PICTURE, &size);
this->addPicture(picture);
} else {
const SkMatrix& m = matrix ? *matrix : SkMatrix::I();
size += m.writeToMemory(NULL) + kUInt32Size; // matrix + paint
initialOffset = this->addDraw(DRAW_PICTURE_MATRIX_PAINT, &size);
SkASSERT(initialOffset + get_paint_offset(DRAW_PICTURE_MATRIX_PAINT, size)
== fWriter.bytesWritten());
this->addPaintPtr(paint);
this->addMatrix(m);
this->addPicture(picture);
}
this->validate(initialOffset, size);
}
void SkPictureRecord::drawVertices(VertexMode vmode, int vertexCount,
const SkPoint vertices[], const SkPoint texs[],
const SkColor colors[], SkXfermode* xfer,
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;
}
if (xfer) {
SkXfermode::Mode mode;
if (xfer->asMode(&mode) && SkXfermode::kModulate_Mode != mode) {
flags |= DRAW_VERTICES_HAS_XFER;
}
}
// op + paint index + flags + vmode + vCount + vertices
size_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));
}
if (flags & DRAW_VERTICES_HAS_XFER) {
size += kUInt32Size; // mode enum
}
size_t initialOffset = this->addDraw(DRAW_VERTICES, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_VERTICES, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->addInt(flags);
this->addInt(vmode);
this->addInt(vertexCount);
this->addPoints(vertices, vertexCount);
if (flags & DRAW_VERTICES_HAS_TEXS) {
this->addPoints(texs, vertexCount);
}
if (flags & DRAW_VERTICES_HAS_COLORS) {
fWriter.writeMul4(colors, vertexCount * sizeof(SkColor));
}
if (flags & DRAW_VERTICES_HAS_INDICES) {
this->addInt(indexCount);
fWriter.writePad(indices, indexCount * sizeof(uint16_t));
}
if (flags & DRAW_VERTICES_HAS_XFER) {
SkXfermode::Mode mode = SkXfermode::kModulate_Mode;
(void)xfer->asMode(&mode);
this->addInt(mode);
}
this->validate(initialOffset, size);
}
void SkPictureRecord::onDrawPatch(const SkPoint cubics[12], const SkColor colors[4],
const SkPoint texCoords[4], SkXfermode* xmode,
const SkPaint& paint) {
// op + paint index + patch 12 control points + flag + patch 4 colors + 4 texture coordinates
size_t size = 2 * kUInt32Size + SkPatchUtils::kNumCtrlPts * sizeof(SkPoint) + kUInt32Size;
uint32_t flag = 0;
if (colors) {
flag |= DRAW_VERTICES_HAS_COLORS;
size += SkPatchUtils::kNumCorners * sizeof(SkColor);
}
if (texCoords) {
flag |= DRAW_VERTICES_HAS_TEXS;
size += SkPatchUtils::kNumCorners * sizeof(SkPoint);
}
if (xmode) {
SkXfermode::Mode mode;
if (xmode->asMode(&mode) && SkXfermode::kModulate_Mode != mode) {
flag |= DRAW_VERTICES_HAS_XFER;
size += kUInt32Size;
}
}
size_t initialOffset = this->addDraw(DRAW_PATCH, &size);
SkASSERT(initialOffset+get_paint_offset(DRAW_PATCH, size) == fWriter.bytesWritten());
this->addPaint(paint);
this->addPatch(cubics);
this->addInt(flag);
// write optional parameters
if (colors) {
fWriter.write(colors, SkPatchUtils::kNumCorners * sizeof(SkColor));
}
if (texCoords) {
fWriter.write(texCoords, SkPatchUtils::kNumCorners * sizeof(SkPoint));
}
if (flag & DRAW_VERTICES_HAS_XFER) {
SkXfermode::Mode mode = SkXfermode::kModulate_Mode;
xmode->asMode(&mode);
this->addInt(mode);
}
this->validate(initialOffset, size);
}
void SkPictureRecord::drawData(const void* data, size_t length) {
// op + length + 'length' worth of data
size_t size = 2 * kUInt32Size + SkAlign4(length);
size_t initialOffset = this->addDraw(DRAW_DATA, &size);
this->addInt(SkToInt(length));
fWriter.writePad(data, length);
this->validate(initialOffset, size);
}
void SkPictureRecord::beginCommentGroup(const char* description) {
// op/size + length of string + \0 terminated chars
size_t length = strlen(description);
size_t size = 2 * kUInt32Size + SkAlign4(length + 1);
size_t initialOffset = this->addDraw(BEGIN_COMMENT_GROUP, &size);
fWriter.writeString(description, length);
this->validate(initialOffset, size);
}
void SkPictureRecord::addComment(const char* kywd, const char* value) {
// op/size + 2x length of string + 2x \0 terminated chars
size_t kywdLen = strlen(kywd);
size_t valueLen = strlen(value);
size_t size = 3 * kUInt32Size + SkAlign4(kywdLen + 1) + SkAlign4(valueLen + 1);
size_t initialOffset = this->addDraw(COMMENT, &size);
fWriter.writeString(kywd, kywdLen);
fWriter.writeString(value, valueLen);
this->validate(initialOffset, size);
}
void SkPictureRecord::endCommentGroup() {
// op/size
size_t size = 1 * kUInt32Size;
size_t initialOffset = this->addDraw(END_COMMENT_GROUP, &size);
this->validate(initialOffset, size);
}
// [op/size] [rect] [skip offset]
static const uint32_t kPushCullOpSize = 2 * kUInt32Size + sizeof(SkRect);
void SkPictureRecord::onPushCull(const SkRect& cullRect) {
size_t size = kPushCullOpSize;
size_t initialOffset = this->addDraw(PUSH_CULL, &size);
// PUSH_CULL's size should stay constant (used to rewind).
SkASSERT(size == kPushCullOpSize);
this->addRect(cullRect);
fCullOffsetStack.push(SkToU32(fWriter.bytesWritten()));
this->addInt(0);
this->validate(initialOffset, size);
}
void SkPictureRecord::onPopCull() {
SkASSERT(!fCullOffsetStack.isEmpty());
uint32_t cullSkipOffset = fCullOffsetStack.top();
fCullOffsetStack.pop();
// op only
size_t size = kUInt32Size;
size_t initialOffset = this->addDraw(POP_CULL, &size);
// update the cull skip offset to point past this op.
fWriter.overwriteTAt<uint32_t>(cullSkipOffset, SkToU32(fWriter.bytesWritten()));
this->validate(initialOffset, size);
}
///////////////////////////////////////////////////////////////////////////////
SkSurface* SkPictureRecord::onNewSurface(const SkImageInfo& info, const SkSurfaceProps&) {
return NULL;
}
// If we already have a stored, can we reuse it instead of also storing b?
static bool equivalent(const SkBitmap& a, const SkBitmap& b) {
if (a.info() != b.info() || a.pixelRefOrigin() != b.pixelRefOrigin()) {
// Requiring a.info() == b.info() may be overkill in some cases (alphatype mismatch),
// but it sure makes things easier to reason about below.
return false;
}
if (a.pixelRef() == b.pixelRef()) {
return true; // Same shape and same pixels -> same bitmap.
}
// From here down we're going to have to look at the bitmap data, so we require pixelRefs().
if (!a.pixelRef() || !b.pixelRef()) {
return false;
}
// If the bitmaps have encoded data, check first before locking pixels so they don't decode.
SkAutoTUnref<SkData> encA(a.pixelRef()->refEncodedData()),
encB(b.pixelRef()->refEncodedData());
if (encA && encB) {
return encA->equals(encB);
} else if (encA || encB) {
return false; // One has encoded data but the other does not.
}
// As a last resort, we have to look at the pixels. This will read back textures.
SkAutoLockPixels al(a), bl(b);
const char* ap = (const char*)a.getPixels();
const char* bp = (const char*)b.getPixels();
if (ap && bp) {
// We check row by row; row bytes might differ.
SkASSERT(a.info() == b.info()); // We checked this above.
SkASSERT(a.info().bytesPerPixel() > 0); // If we have pixelRefs, this better be true.
const SkImageInfo info = a.info();
const size_t bytesToCompare = info.width() * info.bytesPerPixel();
for (int row = 0; row < info.height(); row++) {
if (0 != memcmp(ap, bp, bytesToCompare)) {
return false;
}
ap += a.rowBytes();
bp += b.rowBytes();
}
return true;
}
return false; // Couldn't get pixels for both bitmaps.
}
void SkPictureRecord::addBitmap(const SkBitmap& bitmap) {
// First see if we already have this bitmap. This deduplication should really
// only be important for our tests, where bitmaps tend not to be tagged immutable.
// In Chrome (and hopefully Android?) they're typically immutable.
for (int i = 0; i < fBitmaps.count(); i++) {
if (equivalent(fBitmaps[i], bitmap)) {
this->addInt(i); // Unlike the rest, bitmap indices are 0-based.
return;
}
}
// Don't have it. We'll add it to our list, making sure it's tagged as immutable.
if (bitmap.isImmutable()) {
// Shallow copies of bitmaps are cheap, so immutable == fast.
fBitmaps.push_back(bitmap);
} else {
// If you see this block on a memory profile, it's a good opportunity to reduce RAM usage.
SkBitmap copy;
bitmap.copyTo(©);
copy.setImmutable();
fBitmaps.push_back(copy);
}
this->addInt(fBitmaps.count()-1); // Remember, 0-based.
}
void SkPictureRecord::addMatrix(const SkMatrix& matrix) {
fWriter.writeMatrix(matrix);
}
void SkPictureRecord::addPaintPtr(const SkPaint* paint) {
fContentInfo.onAddPaintPtr(paint);
if (paint) {
fPaints.push_back(*paint);
this->addInt(fPaints.count());
} else {
this->addInt(0);
}
}
int SkPictureRecord::addPathToHeap(const SkPath& path) {
fPaths.push_back(path);
return fPaths.count();
}
void SkPictureRecord::addPath(const SkPath& path) {
this->addInt(this->addPathToHeap(path));
}
void SkPictureRecord::addPatch(const SkPoint cubics[12]) {
fWriter.write(cubics, SkPatchUtils::kNumCtrlPts * sizeof(SkPoint));
}
void SkPictureRecord::addPicture(const 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
this->addInt(index + 1);
}
void SkPictureRecord::addPoint(const SkPoint& point) {
fWriter.writePoint(point);
}
void SkPictureRecord::addPoints(const SkPoint pts[], int count) {
fWriter.writeMul4(pts, count * sizeof(SkPoint));
}
void SkPictureRecord::addNoOp() {
size_t size = kUInt32Size; // op
this->addDraw(NOOP, &size);
}
void SkPictureRecord::addRect(const SkRect& rect) {
fWriter.writeRect(rect);
}
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) {
fWriter.writeRegion(region);
}
void SkPictureRecord::addText(const void* text, size_t byteLength) {
fContentInfo.onDrawText();
addInt(SkToInt(byteLength));
fWriter.writePad(text, byteLength);
}
void SkPictureRecord::addTextBlob(const SkTextBlob *blob) {
int index = fTextBlobRefs.count();
*fTextBlobRefs.append() = blob;
blob->ref();
// follow the convention of recording a 1-based index
this->addInt(index + 1);
}
///////////////////////////////////////////////////////////////////////////////
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