/* * Copyright 2006 The Android Open Source Project * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #ifndef SkDescriptor_DEFINED #define SkDescriptor_DEFINED #include "SkOpts.h" #include "SkTo.h" #include "SkTypes.h" #include #include class SkDescriptor : SkNoncopyable { public: static size_t ComputeOverhead(int entryCount) { SkASSERT(entryCount >= 0); return sizeof(SkDescriptor) + entryCount * sizeof(Entry); } static std::unique_ptr Alloc(size_t length) { SkASSERT(SkAlign4(length) == length); return std::unique_ptr(static_cast(::operator new (length))); } // Ensure the unsized delete is called. void operator delete(void* p) { ::operator delete(p); } void init() { fLength = sizeof(SkDescriptor); fCount = 0; } uint32_t getLength() const { return fLength; } void* addEntry(uint32_t tag, size_t length, const void* data = nullptr) { SkASSERT(tag); SkASSERT(SkAlign4(length) == length); SkASSERT(this->findEntry(tag, nullptr) == nullptr); Entry* entry = (Entry*)((char*)this + fLength); entry->fTag = tag; entry->fLen = SkToU32(length); if (data) { memcpy(entry + 1, data, length); } fCount += 1; fLength = SkToU32(fLength + sizeof(Entry) + length); return (entry + 1); // return its data } void computeChecksum() { fChecksum = SkDescriptor::ComputeChecksum(this); } #ifdef SK_DEBUG void assertChecksum() const { SkASSERT(SkDescriptor::ComputeChecksum(this) == fChecksum); } #endif const void* findEntry(uint32_t tag, uint32_t* length) const { const Entry* entry = (const Entry*)(this + 1); int count = fCount; while (--count >= 0) { if (entry->fTag == tag) { if (length) { *length = entry->fLen; } return entry + 1; } entry = (const Entry*)((const char*)(entry + 1) + entry->fLen); } return nullptr; } std::unique_ptr copy() const { std::unique_ptr desc = SkDescriptor::Alloc(fLength); memcpy(desc.get(), this, fLength); return desc; } bool operator==(const SkDescriptor& other) const { // probe to see if we have a good checksum algo // SkASSERT(a.fChecksum != b.fChecksum || memcmp(&a, &b, a.fLength) == 0); // the first value we should look at is the checksum, so this loop // should terminate early if they descriptors are different. // NOTE: if we wrote a sentinel value at the end of each, we chould // remove the aa < stop test in the loop... const uint32_t* aa = (const uint32_t*)this; const uint32_t* bb = (const uint32_t*)&other; const uint32_t* stop = (const uint32_t*)((const char*)aa + fLength); do { if (*aa++ != *bb++) return false; } while (aa < stop); return true; } bool operator!=(const SkDescriptor& other) const { return !(*this == other); } uint32_t getChecksum() const { return fChecksum; } struct Entry { uint32_t fTag; uint32_t fLen; }; #ifdef SK_DEBUG uint32_t getCount() const { return fCount; } #endif private: uint32_t fChecksum; // must be first uint32_t fLength; // must be second uint32_t fCount; static uint32_t ComputeChecksum(const SkDescriptor* desc) { const uint32_t* ptr = (const uint32_t*)desc + 1; // skip the checksum field size_t len = desc->fLength - sizeof(uint32_t); return SkOpts::hash(ptr, len); } // private so no one can create one except our factories SkDescriptor() {} }; #include "SkScalerContext.h" class SkAutoDescriptor : SkNoncopyable { public: SkAutoDescriptor() : fDesc(nullptr) {} SkAutoDescriptor(size_t size) : fDesc(nullptr) { this->reset(size); } SkAutoDescriptor(const SkDescriptor& desc) : fDesc(nullptr) { size_t size = desc.getLength(); this->reset(size); memcpy(fDesc, &desc, size); } ~SkAutoDescriptor() { this->free(); } void reset(size_t size) { this->free(); if (size <= sizeof(fStorage)) { fDesc = (SkDescriptor*)(void*)fStorage; } else { fDesc = SkDescriptor::Alloc(size).release(); } } SkDescriptor* getDesc() const { SkASSERT(fDesc); return fDesc; } private: void free() { if (fDesc != (SkDescriptor*)(void*)fStorage) { delete fDesc; } } enum { kStorageSize = sizeof(SkDescriptor) + sizeof(SkDescriptor::Entry) + sizeof(SkScalerContextRec) // for rec + sizeof(SkDescriptor::Entry) + sizeof(void*) // for typeface + 32 // slop for occational small extras }; SkDescriptor* fDesc; uint32_t fStorage[(kStorageSize + 3) >> 2]; }; #define SkAutoDescriptor(...) SK_REQUIRE_LOCAL_VAR(SkAutoDescriptor) #endif