c2e9db30d3
Also added early exit in SkImageFilter's constructor to avoid attempting to deserialize all inputs once a bad input has been found. This avoids hanging if a filter pretends to have 1 billion inputs when that's just an error on the number of inputs read by the filter. BUG=326206,326197,326229 R=senorblanco@chromium.org, senorblanco@google.com, reed@google.com, sugoi@google.com Author: sugoi@chromium.org Review URL: https://codereview.chromium.org/106943002 git-svn-id: http://skia.googlecode.com/svn/trunk@12544 2bbb7eff-a529-9590-31e7-b0007b416f81
248 lines
9.0 KiB
C++
248 lines
9.0 KiB
C++
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/*
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* Copyright 2012 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#ifndef SkFlattenableBuffers_DEFINED
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#define SkFlattenableBuffers_DEFINED
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#include "SkColor.h"
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#include "SkData.h"
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#include "SkPaint.h"
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#include "SkPoint.h"
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class SkBitmap;
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class SkDrawLooper;
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class SkFlattenable;
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struct SkIRect;
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class SkMatrix;
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class SkOrderedReadBuffer;
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class SkOrderedWriteBuffer;
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class SkPath;
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class SkPixelRef;
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struct SkRect;
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class SkRegion;
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class SkStream;
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class SkString;
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class SkTypeface;
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class SkUnitMapper;
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class SkWStream;
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class SkFlattenableReadBuffer {
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public:
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SkFlattenableReadBuffer();
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virtual ~SkFlattenableReadBuffer();
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bool isOrderedBinaryBuffer() { return NULL != getOrderedBinaryBuffer(); }
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virtual SkOrderedReadBuffer* getOrderedBinaryBuffer() { return NULL; }
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enum Flags {
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kCrossProcess_Flag = 1 << 0,
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kScalarIsFloat_Flag = 1 << 1,
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kPtrIs64Bit_Flag = 1 << 2,
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/** The kValidation_Flag is used to force stream validations (by making
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* sure that no operation reads past the end of the stream, for example)
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* and error handling if any reading operation yields an invalid value.
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*/
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kValidation_Flag = 1 << 3,
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};
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void setFlags(uint32_t flags) { fFlags = flags; }
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uint32_t getFlags() const { return fFlags; }
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bool isCrossProcess() const { return SkToBool(fFlags & (kCrossProcess_Flag | kValidation_Flag)); }
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bool isScalarFloat() const { return SkToBool(fFlags & kScalarIsFloat_Flag); }
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bool isPtr64Bit() const { return SkToBool(fFlags & kPtrIs64Bit_Flag); }
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bool isValidating() const { return SkToBool(fFlags & kValidation_Flag); }
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// primitives
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virtual bool readBool() = 0;
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virtual SkColor readColor() = 0;
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virtual SkFixed readFixed() = 0;
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virtual int32_t readInt() = 0;
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virtual SkScalar readScalar() = 0;
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virtual uint32_t readUInt() = 0;
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virtual int32_t read32() = 0;
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// strings -- the caller is responsible for freeing the string contents
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virtual void readString(SkString* string) = 0;
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virtual void* readEncodedString(size_t* length, SkPaint::TextEncoding encoding) = 0;
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/**
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@param type This parameter is only used when using SkValidatingReadBuffer. It will verify
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that the object about to be deserialized is of the given type or early return
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NULL otherwise. The type provided here is the type of the base class of the
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object to deserialize.
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*/
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virtual SkFlattenable* readFlattenable(SkFlattenable::Type type) = 0;
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SkColorFilter* readColorFilter();
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SkDrawLooper* readDrawLooper();
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SkImageFilter* readImageFilter();
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SkMaskFilter* readMaskFilter();
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SkPathEffect* readPathEffect();
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SkPixelRef* readPixelRef();
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SkRasterizer* readRasterizer();
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SkShader* readShader();
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SkUnitMapper* readUnitMapper();
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SkXfermode* readXfermode();
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// common data structures
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virtual void readPoint(SkPoint* point) = 0;
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virtual void readMatrix(SkMatrix* matrix) = 0;
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virtual void readIRect(SkIRect* rect) = 0;
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virtual void readRect(SkRect* rect) = 0;
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virtual void readRegion(SkRegion* region) = 0;
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virtual void readPath(SkPath* path) = 0;
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// binary data and arrays
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/**
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* In the following read.*Array(...) functions, the size parameter specifies the allocation
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* size in number of elements (or in bytes, for void*) of the pointer parameter. If the
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* pointer parameter's size does not match the size to be read, the pointer parameter's memory
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* will then stay uninitialized, the cursor will be moved to the end of the stream and, in the
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* case where isValidating() is true, an error flag will be set internally (see
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* SkValidatingReadBuffer).
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* If the sizes match, then "size" amount of memory will be read.
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*
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* @param size amount of memory expected to be read
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* @return true if the size parameter matches the size to be read, false otherwise
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*/
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virtual bool readByteArray(void* value, size_t size) = 0;
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virtual bool readColorArray(SkColor* colors, size_t size) = 0;
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virtual bool readIntArray(int32_t* values, size_t size) = 0;
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virtual bool readPointArray(SkPoint* points, size_t size) = 0;
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virtual bool readScalarArray(SkScalar* values, size_t size) = 0;
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/** This helper peeks into the buffer and reports back the length of the next array in
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* the buffer but does not change the state of the buffer.
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*/
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virtual uint32_t getArrayCount() = 0;
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// helper functions
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virtual void* readFunctionPtr();
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virtual void readPaint(SkPaint* paint);
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virtual void readBitmap(SkBitmap* bitmap) = 0;
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virtual SkTypeface* readTypeface() = 0;
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// helper function for classes with const SkPoint members
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SkPoint readPoint() {
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SkPoint point;
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this->readPoint(&point);
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return point;
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}
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SkData* readByteArrayAsData() {
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size_t len = this->getArrayCount();
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void* buffer = sk_malloc_throw(len);
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(void)this->readByteArray(buffer, len);
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return SkData::NewFromMalloc(buffer, len);
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}
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/** This function validates that the isValid input parameter is true
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* If isValidating() is false, then true is always returned
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* If isValidating() is true, then true is returned until validate() is called with isValid
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* set to false. When isValid is false, an error flag will be set internally and, from that
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* point on, validate() will return false. The error flag cannot be unset.
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*
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* @param isValid result of a test that is expected to be true
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*/
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virtual bool validate(bool isValid);
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/** This function returns true by default
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* If isValidating() is true, it will return false if the internal error flag is set.
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* Otherwise, it will return true.
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*/
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virtual bool isValid() const { return true; }
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private:
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template <typename T> T* readFlattenableT();
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uint32_t fFlags;
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};
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///////////////////////////////////////////////////////////////////////////////
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class SkFlattenableWriteBuffer {
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public:
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SkFlattenableWriteBuffer();
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virtual ~SkFlattenableWriteBuffer();
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virtual bool isOrderedBinaryBuffer() { return false; }
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virtual SkOrderedWriteBuffer* getOrderedBinaryBuffer() { sk_throw(); return NULL; }
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// primitives
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virtual void writeByteArray(const void* data, size_t size) = 0;
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virtual void writeBool(bool value) = 0;
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virtual void writeFixed(SkFixed value) = 0;
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virtual void writeScalar(SkScalar value) = 0;
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virtual void writeScalarArray(const SkScalar* value, uint32_t count) = 0;
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virtual void writeInt(int32_t value) = 0;
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virtual void writeIntArray(const int32_t* value, uint32_t count) = 0;
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virtual void writeUInt(uint32_t value) = 0;
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virtual void write32(int32_t value) = 0; // printf in hex
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virtual void writeString(const char* value) = 0;
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virtual void writeEncodedString(const void* value, size_t byteLength,
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SkPaint::TextEncoding encoding) = 0;
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// common data structures
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virtual void writeFlattenable(const SkFlattenable* flattenable) = 0;
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virtual void writeColor(const SkColor& color) = 0;
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virtual void writeColorArray(const SkColor* color, uint32_t count) = 0;
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virtual void writePoint(const SkPoint& point) = 0;
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virtual void writePointArray(const SkPoint* points, uint32_t count) = 0;
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virtual void writeMatrix(const SkMatrix& matrix) = 0;
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virtual void writeIRect(const SkIRect& rect) = 0;
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virtual void writeRect(const SkRect& rect) = 0;
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virtual void writeRegion(const SkRegion& region) = 0;
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virtual void writePath(const SkPath& path) = 0;
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virtual size_t writeStream(SkStream* stream, size_t length) = 0;
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// helper functions
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virtual void writeFunctionPtr(void* ptr);
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virtual void writePaint(const SkPaint& paint);
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virtual void writeBitmap(const SkBitmap& bitmap) = 0;
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virtual void writeTypeface(SkTypeface* typeface) = 0;
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virtual bool writeToStream(SkWStream*) = 0;
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enum Flags {
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kCrossProcess_Flag = 0x01,
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/** The kValidation_Flag is used here to make sure the write operation
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* is symmetric with the read operation using the equivalent flag
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* SkFlattenableReadBuffer::kValidation_Flag.
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*/
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kValidation_Flag = 0x02,
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};
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uint32_t getFlags() const { return fFlags; }
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void setFlags(uint32_t flags) { fFlags = flags; }
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bool isCrossProcess() const {
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return SkToBool(fFlags & (kCrossProcess_Flag | kValidation_Flag));
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}
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bool isValidating() const {
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return SkToBool(fFlags & kValidation_Flag);
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}
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bool persistTypeface() const { return (fFlags & kCrossProcess_Flag) != 0; }
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void writeDataAsByteArray(SkData* data) {
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this->writeByteArray(data->data(), data->size());
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}
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protected:
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// A helper function so that each subclass does not have to be a friend of SkFlattenable
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void flattenObject(const SkFlattenable* obj, SkFlattenableWriteBuffer& buffer);
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uint32_t fFlags;
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};
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#endif
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