/* * 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 "SkMallocPixelRef.h" #include "SkBitmap.h" #include "SkReadBuffer.h" #include "SkWriteBuffer.h" // assumes ptr was allocated via sk_malloc static void sk_free_releaseproc(void* ptr, void*) { sk_free(ptr); } static bool is_valid(const SkImageInfo& info, SkColorTable* ctable) { if (info.width() < 0 || info.height() < 0 || (unsigned)info.colorType() > (unsigned)kLastEnum_SkColorType || (unsigned)info.alphaType() > (unsigned)kLastEnum_SkAlphaType) { return false; } // these seem like good checks, but currently we have (at least) tests // that expect the pixelref to succeed even when there is a mismatch // with colortables. fix? #if 0 if (kIndex8_SkColorType == info.fColorType && nullptr == ctable) { return false; } if (kIndex8_SkColorType != info.fColorType && ctable) { return false; } #endif return true; } SkMallocPixelRef* SkMallocPixelRef::NewDirect(const SkImageInfo& info, void* addr, size_t rowBytes, SkColorTable* ctable) { if (!is_valid(info, ctable)) { return nullptr; } return new SkMallocPixelRef(info, addr, rowBytes, ctable, nullptr, nullptr); } SkMallocPixelRef* SkMallocPixelRef::NewUsing(void*(*alloc)(size_t), const SkImageInfo& info, size_t requestedRowBytes, SkColorTable* ctable) { if (!is_valid(info, ctable)) { return nullptr; } // only want to permit 31bits of rowBytes int64_t minRB = (int64_t)info.minRowBytes64(); if (minRB < 0 || !sk_64_isS32(minRB)) { return nullptr; // allocation will be too large } if (requestedRowBytes > 0 && (int32_t)requestedRowBytes < minRB) { return nullptr; // cannot meet requested rowbytes } int32_t rowBytes; if (requestedRowBytes) { rowBytes = SkToS32(requestedRowBytes); } else { rowBytes = minRB; } int64_t bigSize = (int64_t)info.height() * rowBytes; if (!sk_64_isS32(bigSize)) { return nullptr; } size_t size = sk_64_asS32(bigSize); SkASSERT(size >= info.getSafeSize(rowBytes)); void* addr = alloc(size); if (nullptr == addr) { return nullptr; } return new SkMallocPixelRef(info, addr, rowBytes, ctable, sk_free_releaseproc, nullptr); } SkMallocPixelRef* SkMallocPixelRef::NewAllocate(const SkImageInfo& info, size_t rowBytes, SkColorTable* ctable) { auto sk_malloc_nothrow = [](size_t size) { return sk_malloc_flags(size, 0); }; return NewUsing(sk_malloc_nothrow, info, rowBytes, ctable); } SkMallocPixelRef* SkMallocPixelRef::NewZeroed(const SkImageInfo& info, size_t rowBytes, SkColorTable* ctable) { return NewUsing(sk_calloc, info, rowBytes, ctable); } SkMallocPixelRef* SkMallocPixelRef::NewWithProc(const SkImageInfo& info, size_t rowBytes, SkColorTable* ctable, void* addr, SkMallocPixelRef::ReleaseProc proc, void* context) { if (!is_valid(info, ctable)) { if (proc) { proc(addr, context); } return nullptr; } return new SkMallocPixelRef(info, addr, rowBytes, ctable, proc, context); } static void sk_data_releaseproc(void*, void* dataPtr) { (static_cast(dataPtr))->unref(); } SkMallocPixelRef* SkMallocPixelRef::NewWithData(const SkImageInfo& info, size_t rowBytes, SkColorTable* ctable, SkData* data) { SkASSERT(data != nullptr); if (!is_valid(info, ctable)) { return nullptr; } if ((rowBytes < info.minRowBytes()) || (data->size() < info.getSafeSize(rowBytes))) { return nullptr; } data->ref(); SkMallocPixelRef* pr = new SkMallocPixelRef(info, const_cast(data->data()), rowBytes, ctable, sk_data_releaseproc, static_cast(data)); SkASSERT(pr != nullptr); // We rely on the immutability of the pixels to make the // const_cast okay. pr->setImmutable(); return pr; } /////////////////////////////////////////////////////////////////////////////// SkMallocPixelRef::SkMallocPixelRef(const SkImageInfo& info, void* storage, size_t rowBytes, SkColorTable* ctable, bool ownsPixels) : INHERITED(info) , fReleaseProc(ownsPixels ? sk_free_releaseproc : nullptr) , fReleaseProcContext(nullptr) { // This constructor is now DEPRICATED. SkASSERT(is_valid(info, ctable)); SkASSERT(rowBytes >= info.minRowBytes()); if (kIndex_8_SkColorType != info.colorType()) { ctable = nullptr; } fStorage = storage; fCTable = ctable; fRB = rowBytes; SkSafeRef(ctable); this->setPreLocked(fStorage, rowBytes, fCTable); } SkMallocPixelRef::SkMallocPixelRef(const SkImageInfo& info, void* storage, size_t rowBytes, SkColorTable* ctable, SkMallocPixelRef::ReleaseProc proc, void* context) : INHERITED(info) , fReleaseProc(proc) , fReleaseProcContext(context) { SkASSERT(is_valid(info, ctable)); SkASSERT(rowBytes >= info.minRowBytes()); if (kIndex_8_SkColorType != info.colorType()) { ctable = nullptr; } fStorage = storage; fCTable = ctable; fRB = rowBytes; SkSafeRef(ctable); this->setPreLocked(fStorage, rowBytes, fCTable); } SkMallocPixelRef::~SkMallocPixelRef() { SkSafeUnref(fCTable); if (fReleaseProc != nullptr) { fReleaseProc(fStorage, fReleaseProcContext); } } bool SkMallocPixelRef::onNewLockPixels(LockRec* rec) { rec->fPixels = fStorage; rec->fRowBytes = fRB; rec->fColorTable = fCTable; return true; } void SkMallocPixelRef::onUnlockPixels() { // nothing to do } size_t SkMallocPixelRef::getAllocatedSizeInBytes() const { return this->info().getSafeSize(fRB); } /////////////////////////////////////////////////////////////////////////////// SkPixelRef* SkMallocPixelRef::PRFactory::create(const SkImageInfo& info, size_t rowBytes, SkColorTable* ctable) { return SkMallocPixelRef::NewAllocate(info, rowBytes, ctable); } SkPixelRef* SkMallocPixelRef::ZeroedPRFactory::create(const SkImageInfo& info, size_t rowBytes, SkColorTable* ctable) { return SkMallocPixelRef::NewZeroed(info, rowBytes, ctable); }