/* * 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 SkData_DEFINED #define SkData_DEFINED #include "SkRefCnt.h" /** * SkData holds an immutable data buffer. Not only is the data immutable, * but the actual ptr that is returned (by data() or bytes()) is guaranteed * to always be the same for the life of this instance. */ class SkData : public SkRefCnt { public: SK_DECLARE_INST_COUNT(SkData) /** * Returns the number of bytes stored. */ size_t size() const { return fSize; } bool isEmpty() const { return 0 == fSize; } /** * Returns the ptr to the data. */ const void* data() const { return fPtr; } /** * Like data(), returns a read-only ptr into the data, but in this case * it is cast to uint8_t*, to make it easy to add an offset to it. */ const uint8_t* bytes() const { return reinterpret_cast(fPtr); } /** * Helper to copy a range of the data into a caller-provided buffer. * Returns the actual number of bytes copied, after clamping offset and * length to the size of the data. If buffer is NULL, it is ignored, and * only the computed number of bytes is returned. */ size_t copyRange(size_t offset, size_t length, void* buffer) const; /** * Returns true if these two objects have the same length and contents, * effectively returning 0 == memcmp(...) */ bool equals(const SkData* other) const; /** * Function that, if provided, will be called when the SkData goes out * of scope, allowing for custom allocation/freeing of the data. */ typedef void (*ReleaseProc)(const void* ptr, size_t length, void* context); /** * Create a new dataref by copying the specified data */ static SkData* NewWithCopy(const void* data, size_t length); /** * Create a new dataref by copying the specified c-string * (a null-terminated array of bytes). The returned SkData will have size() * equal to strlen(cstr) + 1. If cstr is NULL, it will be treated the same * as "". */ static SkData* NewWithCString(const char cstr[]); /** * Create a new dataref, taking the data ptr as is, and using the * releaseproc to free it. The proc may be NULL. */ static SkData* NewWithProc(const void* data, size_t length, ReleaseProc proc, void* context); /** * Create a new dataref from a pointer allocated by malloc. The Data object * takes ownership of that allocation, and will handling calling sk_free. */ static SkData* NewFromMalloc(const void* data, size_t length); /** * Create a new dataref using a subset of the data in the specified * src dataref. */ static SkData* NewSubset(const SkData* src, size_t offset, size_t length); /** * Returns a new empty dataref (or a reference to a shared empty dataref). * New or shared, the caller must see that unref() is eventually called. */ static SkData* NewEmpty(); private: ReleaseProc fReleaseProc; void* fReleaseProcContext; const void* fPtr; size_t fSize; SkData(const void* ptr, size_t size, ReleaseProc, void* context); virtual ~SkData(); // This is here because SkAutoTUnref creates an internal helper class // that derives from SkData (i.e., BlockRef) to prevent refs\unrefs. // This helper class generates a compiler warning on Windows since the // SkData's destructor is private. This friending gives the helper class // access to the destructor. friend class SkAutoTUnref::BlockRef; typedef SkRefCnt INHERITED; }; /** * Specialized version of SkAutoTUnref for automatically unref-ing a * SkData. If the SkData is null, data(), bytes() and size() will return 0. */ class SkAutoDataUnref : SkNoncopyable { public: SkAutoDataUnref(SkData* data) : fRef(data) {} ~SkAutoDataUnref() { SkSafeUnref(fRef); } SkData* get() const { return fRef; } void release() { if (fRef) { fRef->unref(); fRef = NULL; } } SkData *operator->() const { return fRef; } operator SkData*() { return fRef; } private: SkData* fRef; }; #endif