src/core/SkReadBuffer.h - skia - Git at Google

 /*
  * Copyright 2011 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #ifndef SkReadBuffer_DEFINED
 #define SkReadBuffer_DEFINED

 #include "include/core/SkFont.h"
 #include "include/core/SkImageFilter.h"
 #include "include/core/SkPath.h"
 #include "include/core/SkPathEffect.h"
 #include "include/core/SkPicture.h"
 #include "include/core/SkRefCnt.h"
 #include "include/core/SkScalar.h"
 #include "include/core/SkSerialProcs.h"
 #include "src/core/SkColorFilterBase.h"
 #include "src/core/SkMaskFilterBase.h"
 #include "src/core/SkPaintPriv.h"
 #include "src/core/SkPicturePriv.h"
 #include "src/core/SkWriteBuffer.h"
 #include "src/shaders/SkShaderBase.h"

 #ifdef SK_SUPPORT_LEGACY_DRAWLOOPER
 #include "include/core/SkDrawLooper.h"
 #endif

 class SkData;
 class SkImage;

 class SkReadBuffer {
 public:
     SkReadBuffer() = default;
     SkReadBuffer(const void* data, size_t size) {
         this->setMemory(data, size);
     }

     void setMemory(const void*, size_t);

     /**
      *  Returns true IFF the version is older than the specified version.
      */
     bool isVersionLT(SkPicturePriv::Version targetVersion) const {
         SkASSERT(targetVersion > 0);
         return fVersion > 0 && fVersion < targetVersion;
     }

     uint32_t getVersion() const { return fVersion; }

     /** This may be called at most once; most clients of SkReadBuffer should not mess with it. */
     void setVersion(int version) {
         SkASSERT(0 == fVersion || version == fVersion);
         fVersion = version;
     }

     size_t size() const { return fStop - fBase; }
     size_t offset() const { return fCurr - fBase; }
     bool eof() { return fCurr >= fStop; }
     const void* skip(size_t size);
     const void* skip(size_t count, size_t size);    // does safe multiply
     size_t available() const { return fStop - fCurr; }

     template <typename T> const T* skipT() {
         return static_cast<const T*>(this->skip(sizeof(T)));
     }
     template <typename T> const T* skipT(size_t count) {
         return static_cast<const T*>(this->skip(count, sizeof(T)));
     }

     // primitives
     bool readBool();
     SkColor readColor();
     int32_t readInt();
     SkScalar readScalar();
     uint32_t readUInt();
     int32_t read32();

     template <typename T> T read32LE(T max) {
         uint32_t value = this->readUInt();
         if (!this->validate(value <= static_cast<uint32_t>(max))) {
             value = 0;
         }
         return static_cast<T>(value);
     }

     // peek
     uint8_t peekByte();

     void readString(SkString* string);

     // common data structures
     void readColor4f(SkColor4f* color);
     void readPoint(SkPoint* point);
     SkPoint readPoint() { SkPoint p; this->readPoint(&p); return p; }
     void readPoint3(SkPoint3* point);
     void read(SkM44*);
     void readMatrix(SkMatrix* matrix);
     void readIRect(SkIRect* rect);
     void readRect(SkRect* rect);
     SkRect readRect();
     void readRRect(SkRRect* rrect);
     void readRegion(SkRegion* region);

     void readPath(SkPath* path);

     SkReadPaintResult readPaint(SkPaint* paint, SkFont* font) {
         return SkPaintPriv::Unflatten(paint, *this, font);
     }

     SkFlattenable* readFlattenable(SkFlattenable::Type);
     template <typename T> sk_sp<T> readFlattenable() {
         return sk_sp<T>((T*)this->readFlattenable(T::GetFlattenableType()));
     }
     sk_sp<SkColorFilter> readColorFilter() { return this->readFlattenable<SkColorFilterBase>(); }
 #ifdef SK_SUPPORT_LEGACY_DRAWLOOPER
     sk_sp<SkDrawLooper> readDrawLooper() { return this->readFlattenable<SkDrawLooper>(); }
 #endif
     sk_sp<SkImageFilter> readImageFilter() { return this->readFlattenable<SkImageFilter>(); }
     sk_sp<SkMaskFilter> readMaskFilter() { return this->readFlattenable<SkMaskFilterBase>(); }
     sk_sp<SkPathEffect> readPathEffect() { return this->readFlattenable<SkPathEffect>(); }
     sk_sp<SkShader> readShader() { return this->readFlattenable<SkShaderBase>(); }

     // Reads SkAlign4(bytes), but will only copy bytes into the buffer.
     bool readPad32(void* buffer, size_t bytes);

     // binary data and arrays
     bool readByteArray(void* value, size_t size);
     bool readColorArray(SkColor* colors, size_t size);
     bool readColor4fArray(SkColor4f* colors, size_t size);
     bool readIntArray(int32_t* values, size_t size);
     bool readPointArray(SkPoint* points, size_t size);
     bool readScalarArray(SkScalar* values, size_t size);

     const void* skipByteArray(size_t* size);

     sk_sp<SkData> readByteArrayAsData();

     // helpers to get info about arrays and binary data
     uint32_t getArrayCount();

     // If there is a real error (e.g. data is corrupted) this returns null. If the image cannot
     // be created (e.g. it was not originally encoded) then this returns an image that doesn't
     // draw.
     sk_sp<SkImage> readImage();
     sk_sp<SkTypeface> readTypeface();

     void setTypefaceArray(sk_sp<SkTypeface> array[], int count) {
         fTFArray = array;
         fTFCount = count;
     }

     /**
      *  Call this with a pre-loaded array of Factories, in the same order as
      *  were created/written by the writer. SkPicture uses this.
      */
     void setFactoryPlayback(SkFlattenable::Factory array[], int count) {
         fFactoryArray = array;
         fFactoryCount = count;
     }

     void setDeserialProcs(const SkDeserialProcs& procs);
     const SkDeserialProcs& getDeserialProcs() const { return fProcs; }

     /**
      *  If isValid is false, sets the buffer to be "invalid". Returns true if the buffer
      *  is still valid.
      */
     bool validate(bool isValid) {
         if (!isValid) {
             this->setInvalid();
         }
         return !fError;
     }

     /**
      * Helper function to do a preflight check before a large allocation or read.
      * Returns true if there is enough bytes in the buffer to read n elements of T.
      * If not, the buffer will be "invalid" and false will be returned.
      */
     template <typename T>
     bool validateCanReadN(size_t n) {
         return this->validate(n <= (this->available() / sizeof(T)));
     }

     bool isValid() const { return !fError; }
     bool validateIndex(int index, int count) {
         return this->validate(index >= 0 && index < count);
     }

     // Utilities that mark the buffer invalid if the requested value is out-of-range

     // If the read value is outside of the range, validate(false) is called, and min
     // is returned, else the value is returned.
     int32_t checkInt(int min, int max);

     template <typename T> T checkRange(T min, T max) {
         return static_cast<T>(this->checkInt(static_cast<int32_t>(min),
                                              static_cast<int32_t>(max)));
     }

     SkFilterQuality checkFilterQuality();

     SkSamplingOptions readSampling();

 private:
     const char* readString(size_t* length);

     void setInvalid();
     bool readArray(void* value, size_t size, size_t elementSize);
     bool isAvailable(size_t size) const { return size <= this->available(); }

     sk_sp<SkImage> readImage_preV78();

     // These are always 4-byte aligned
     const char* fCurr = nullptr;  // current position within buffer
     const char* fStop = nullptr;  // end of buffer
     const char* fBase = nullptr;  // beginning of buffer

     // Only used if we do not have an fFactoryArray.
     SkTHashMap<uint32_t, SkFlattenable::Factory> fFlattenableDict;

     int fVersion = 0;

     sk_sp<SkTypeface>* fTFArray = nullptr;
     int                fTFCount = 0;

     SkFlattenable::Factory* fFactoryArray = nullptr;
     int                     fFactoryCount = 0;

     SkDeserialProcs fProcs;

     static bool IsPtrAlign4(const void* ptr) {
         return SkIsAlign4((uintptr_t)ptr);
     }

     bool fError = false;
 };

 #endif // SkReadBuffer_DEFINED
	/*
	* Copyright 2011 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#ifndef SkReadBuffer_DEFINED
	#define SkReadBuffer_DEFINED

	#include "include/core/SkFont.h"
	#include "include/core/SkImageFilter.h"
	#include "include/core/SkPath.h"
	#include "include/core/SkPathEffect.h"
	#include "include/core/SkPicture.h"
	#include "include/core/SkRefCnt.h"
	#include "include/core/SkScalar.h"
	#include "include/core/SkSerialProcs.h"
	#include "src/core/SkColorFilterBase.h"
	#include "src/core/SkMaskFilterBase.h"
	#include "src/core/SkPaintPriv.h"
	#include "src/core/SkPicturePriv.h"
	#include "src/core/SkWriteBuffer.h"
	#include "src/shaders/SkShaderBase.h"

	#ifdef SK_SUPPORT_LEGACY_DRAWLOOPER
	#include "include/core/SkDrawLooper.h"
	#endif

	class SkData;
	class SkImage;

	class SkReadBuffer {
	public:
	SkReadBuffer() = default;
	SkReadBuffer(const void* data, size_t size) {
	this->setMemory(data, size);
	}

	void setMemory(const void*, size_t);

	/**
	* Returns true IFF the version is older than the specified version.
	*/
	bool isVersionLT(SkPicturePriv::Version targetVersion) const {
	SkASSERT(targetVersion > 0);
	return fVersion > 0 && fVersion < targetVersion;
	}

	uint32_t getVersion() const { return fVersion; }

	/** This may be called at most once; most clients of SkReadBuffer should not mess with it. */
	void setVersion(int version) {
	SkASSERT(0 == fVersion \|\| version == fVersion);
	fVersion = version;
	}

	size_t size() const { return fStop - fBase; }
	size_t offset() const { return fCurr - fBase; }
	bool eof() { return fCurr >= fStop; }
	const void* skip(size_t size);
	const void* skip(size_t count, size_t size); // does safe multiply
	size_t available() const { return fStop - fCurr; }

	template <typename T> const T* skipT() {
	return static_cast<const T*>(this->skip(sizeof(T)));
	}
	template <typename T> const T* skipT(size_t count) {
	return static_cast<const T*>(this->skip(count, sizeof(T)));
	}

	// primitives
	bool readBool();
	SkColor readColor();
	int32_t readInt();
	SkScalar readScalar();
	uint32_t readUInt();
	int32_t read32();

	template <typename T> T read32LE(T max) {
	uint32_t value = this->readUInt();
	if (!this->validate(value <= static_cast<uint32_t>(max))) {
	value = 0;
	}
	return static_cast<T>(value);
	}

	// peek
	uint8_t peekByte();

	void readString(SkString* string);

	// common data structures
	void readColor4f(SkColor4f* color);
	void readPoint(SkPoint* point);
	SkPoint readPoint() { SkPoint p; this->readPoint(&p); return p; }
	void readPoint3(SkPoint3* point);
	void read(SkM44*);
	void readMatrix(SkMatrix* matrix);
	void readIRect(SkIRect* rect);
	void readRect(SkRect* rect);
	SkRect readRect();
	void readRRect(SkRRect* rrect);
	void readRegion(SkRegion* region);

	void readPath(SkPath* path);

	SkReadPaintResult readPaint(SkPaint* paint, SkFont* font) {
	return SkPaintPriv::Unflatten(paint, *this, font);
	}

	SkFlattenable* readFlattenable(SkFlattenable::Type);
	template <typename T> sk_sp<T> readFlattenable() {
	return sk_sp<T>((T*)this->readFlattenable(T::GetFlattenableType()));
	}
	sk_sp<SkColorFilter> readColorFilter() { return this->readFlattenable<SkColorFilterBase>(); }
	#ifdef SK_SUPPORT_LEGACY_DRAWLOOPER
	sk_sp<SkDrawLooper> readDrawLooper() { return this->readFlattenable<SkDrawLooper>(); }
	#endif
	sk_sp<SkImageFilter> readImageFilter() { return this->readFlattenable<SkImageFilter>(); }
	sk_sp<SkMaskFilter> readMaskFilter() { return this->readFlattenable<SkMaskFilterBase>(); }
	sk_sp<SkPathEffect> readPathEffect() { return this->readFlattenable<SkPathEffect>(); }
	sk_sp<SkShader> readShader() { return this->readFlattenable<SkShaderBase>(); }

	// Reads SkAlign4(bytes), but will only copy bytes into the buffer.
	bool readPad32(void* buffer, size_t bytes);

	// binary data and arrays
	bool readByteArray(void* value, size_t size);
	bool readColorArray(SkColor* colors, size_t size);
	bool readColor4fArray(SkColor4f* colors, size_t size);
	bool readIntArray(int32_t* values, size_t size);
	bool readPointArray(SkPoint* points, size_t size);
	bool readScalarArray(SkScalar* values, size_t size);

	const void* skipByteArray(size_t* size);

	sk_sp<SkData> readByteArrayAsData();

	// helpers to get info about arrays and binary data
	uint32_t getArrayCount();

	// If there is a real error (e.g. data is corrupted) this returns null. If the image cannot
	// be created (e.g. it was not originally encoded) then this returns an image that doesn't
	// draw.
	sk_sp<SkImage> readImage();
	sk_sp<SkTypeface> readTypeface();

	void setTypefaceArray(sk_sp<SkTypeface> array[], int count) {
	fTFArray = array;
	fTFCount = count;
	}

	/**
	* Call this with a pre-loaded array of Factories, in the same order as
	* were created/written by the writer. SkPicture uses this.
	*/
	void setFactoryPlayback(SkFlattenable::Factory array[], int count) {
	fFactoryArray = array;
	fFactoryCount = count;
	}

	void setDeserialProcs(const SkDeserialProcs& procs);
	const SkDeserialProcs& getDeserialProcs() const { return fProcs; }

	/**
	* If isValid is false, sets the buffer to be "invalid". Returns true if the buffer
	* is still valid.
	*/
	bool validate(bool isValid) {
	if (!isValid) {
	this->setInvalid();
	}
	return !fError;
	}

	/**
	* Helper function to do a preflight check before a large allocation or read.
	* Returns true if there is enough bytes in the buffer to read n elements of T.
	* If not, the buffer will be "invalid" and false will be returned.
	*/
	template <typename T>
	bool validateCanReadN(size_t n) {
	return this->validate(n <= (this->available() / sizeof(T)));
	}

	bool isValid() const { return !fError; }
	bool validateIndex(int index, int count) {
	return this->validate(index >= 0 && index < count);
	}

	// Utilities that mark the buffer invalid if the requested value is out-of-range

	// If the read value is outside of the range, validate(false) is called, and min
	// is returned, else the value is returned.
	int32_t checkInt(int min, int max);

	template <typename T> T checkRange(T min, T max) {
	return static_cast<T>(this->checkInt(static_cast<int32_t>(min),
	static_cast<int32_t>(max)));
	}

	SkFilterQuality checkFilterQuality();

	SkSamplingOptions readSampling();

	private:
	const char* readString(size_t* length);

	void setInvalid();
	bool readArray(void* value, size_t size, size_t elementSize);
	bool isAvailable(size_t size) const { return size <= this->available(); }

	sk_sp<SkImage> readImage_preV78();

	// These are always 4-byte aligned
	const char* fCurr = nullptr; // current position within buffer
	const char* fStop = nullptr; // end of buffer
	const char* fBase = nullptr; // beginning of buffer

	// Only used if we do not have an fFactoryArray.
	SkTHashMap<uint32_t, SkFlattenable::Factory> fFlattenableDict;

	int fVersion = 0;

	sk_sp<SkTypeface>* fTFArray = nullptr;
	int fTFCount = 0;

	SkFlattenable::Factory* fFactoryArray = nullptr;
	int fFactoryCount = 0;

	SkDeserialProcs fProcs;

	static bool IsPtrAlign4(const void* ptr) {
	return SkIsAlign4((uintptr_t)ptr);
	}

	bool fError = false;
	};

	#endif // SkReadBuffer_DEFINED