/* * 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 "gl/SkNullGLContext.h" #include "gl/GrGLInterface.h" #include "GrGLDefines.h" #include "GrGLNoOpInterface.h" #include "SkTDArray.h" #include "SkTLS.h" static SkNullGLContext::ContextState* current_context(); ///////////////////////////////////////////////////////////////////////////////////////////////// class BufferObj { public: BufferObj(GrGLuint id) : fID(id), fDataPtr(nullptr), fSize(0), fMapped(false) {} ~BufferObj() { delete[] fDataPtr; } void allocate(GrGLsizeiptr size, const GrGLchar* dataPtr) { if (fDataPtr) { SkASSERT(0 != fSize); delete[] fDataPtr; } fSize = size; fDataPtr = new char[size]; } GrGLuint id() const { return fID; } GrGLchar* dataPtr() { return fDataPtr; } GrGLsizeiptr size() const { return fSize; } void setMapped(bool mapped) { fMapped = mapped; } bool mapped() const { return fMapped; } private: GrGLuint fID; GrGLchar* fDataPtr; GrGLsizeiptr fSize; // size in bytes bool fMapped; }; // This class maintains a sparsely populated array of buffer pointers. class BufferManager { public: BufferManager() : fFreeListHead(kFreeListEnd) {} ~BufferManager() { // nullptr out the entries that are really free list links rather than ptrs before deleting. intptr_t curr = fFreeListHead; while (kFreeListEnd != curr) { intptr_t next = reinterpret_cast<intptr_t>(fBuffers[SkToS32(curr)]); fBuffers[SkToS32(curr)] = nullptr; curr = next; } fBuffers.deleteAll(); } BufferObj* lookUp(GrGLuint id) { BufferObj* buffer = fBuffers[id]; SkASSERT(buffer && buffer->id() == id); return buffer; } BufferObj* create() { GrGLuint id; BufferObj* buffer; if (kFreeListEnd == fFreeListHead) { // no free slots - create a new one id = fBuffers.count(); buffer = new BufferObj(id); *fBuffers.append() = buffer; } else { // grab the head of the free list and advance the head to the next free slot. id = static_cast<GrGLuint>(fFreeListHead); fFreeListHead = reinterpret_cast<intptr_t>(fBuffers[id]); buffer = new BufferObj(id); fBuffers[id] = buffer; } return buffer; } void free(BufferObj* buffer) { SkASSERT(fBuffers.count() > 0); GrGLuint id = buffer->id(); delete buffer; fBuffers[id] = reinterpret_cast<BufferObj*>(fFreeListHead); fFreeListHead = id; } private: static const intptr_t kFreeListEnd = -1; // Index of the first entry of fBuffers in the free list. Free slots in fBuffers are indices to // the next free slot. The last free slot has a value of kFreeListEnd. intptr_t fFreeListHead; SkTDArray<BufferObj*> fBuffers; }; /** * The state object for the null interface. */ class SkNullGLContext::ContextState : public SkRefCnt { public: BufferManager fBufferManager; GrGLuint fCurrArrayBuffer; GrGLuint fCurrElementArrayBuffer; GrGLuint fCurrPixelPackBuffer; GrGLuint fCurrPixelUnpackBuffer; GrGLuint fCurrProgramID; GrGLuint fCurrShaderID; ContextState() : fCurrArrayBuffer(0) , fCurrElementArrayBuffer(0) , fCurrPixelPackBuffer(0) , fCurrPixelUnpackBuffer(0) , fCurrProgramID(0) , fCurrShaderID(0) {} static ContextState* Get() { return current_context(); } }; typedef SkNullGLContext::ContextState State; // Functions not declared in GrGLBogusInterface.h (not common with the Debug GL interface). namespace { // added to suppress 'no previous prototype' warning GrGLvoid GR_GL_FUNCTION_TYPE nullGLActiveTexture(GrGLenum texture) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLAttachShader(GrGLuint program, GrGLuint shader) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLBeginQuery(GrGLenum target, GrGLuint id) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLBindAttribLocation(GrGLuint program, GrGLuint index, const char* name) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLBindTexture(GrGLenum target, GrGLuint texture) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLBindVertexArray(GrGLuint id) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLGenBuffers(GrGLsizei n, GrGLuint* ids) { State* state = State::Get(); for (int i = 0; i < n; ++i) { BufferObj* buffer = state->fBufferManager.create(); ids[i] = buffer->id(); } } GrGLvoid GR_GL_FUNCTION_TYPE nullGLGenerateMipmap(GrGLenum target) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLBufferData(GrGLenum target, GrGLsizeiptr size, const GrGLvoid* data, GrGLenum usage) { State* state = State::Get(); GrGLuint id = 0; switch (target) { case GR_GL_ARRAY_BUFFER: id = state->fCurrArrayBuffer; break; case GR_GL_ELEMENT_ARRAY_BUFFER: id = state->fCurrElementArrayBuffer; break; case GR_GL_PIXEL_PACK_BUFFER: id = state->fCurrPixelPackBuffer; break; case GR_GL_PIXEL_UNPACK_BUFFER: id = state->fCurrPixelUnpackBuffer; break; default: SkFAIL("Unexpected target to nullGLBufferData"); break; } if (id > 0) { BufferObj* buffer = state->fBufferManager.lookUp(id); buffer->allocate(size, (const GrGLchar*) data); } } GrGLvoid GR_GL_FUNCTION_TYPE nullGLPixelStorei(GrGLenum pname, GrGLint param) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLReadPixels(GrGLint x, GrGLint y, GrGLsizei width, GrGLsizei height, GrGLenum format, GrGLenum type, GrGLvoid* pixels) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLUseProgram(GrGLuint program) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLViewport(GrGLint x, GrGLint y, GrGLsizei width, GrGLsizei height) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLBindFramebuffer(GrGLenum target, GrGLuint framebuffer) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLBindRenderbuffer(GrGLenum target, GrGLuint renderbuffer) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLDeleteFramebuffers(GrGLsizei n, const GrGLuint *framebuffers) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLDeleteRenderbuffers(GrGLsizei n, const GrGLuint *renderbuffers) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLFramebufferRenderbuffer(GrGLenum target, GrGLenum attachment, GrGLenum renderbuffertarget, GrGLuint renderbuffer) {} GrGLvoid GR_GL_FUNCTION_TYPE nullGLFramebufferTexture2D(GrGLenum target, GrGLenum attachment, GrGLenum textarget, GrGLuint texture, GrGLint level) {} GrGLuint GR_GL_FUNCTION_TYPE nullGLCreateProgram() { return ++State::Get()->fCurrProgramID; } GrGLuint GR_GL_FUNCTION_TYPE nullGLCreateShader(GrGLenum type) { return ++State::Get()->fCurrShaderID; } // same delete used for shaders and programs GrGLvoid GR_GL_FUNCTION_TYPE nullGLDelete(GrGLuint program) { } GrGLvoid GR_GL_FUNCTION_TYPE nullGLBindBuffer(GrGLenum target, GrGLuint buffer) { State* state = State::Get(); switch (target) { case GR_GL_ARRAY_BUFFER: state->fCurrArrayBuffer = buffer; break; case GR_GL_ELEMENT_ARRAY_BUFFER: state->fCurrElementArrayBuffer = buffer; break; case GR_GL_PIXEL_PACK_BUFFER: state->fCurrPixelPackBuffer = buffer; break; case GR_GL_PIXEL_UNPACK_BUFFER: state->fCurrPixelUnpackBuffer = buffer; break; } } // deleting a bound buffer has the side effect of binding 0 GrGLvoid GR_GL_FUNCTION_TYPE nullGLDeleteBuffers(GrGLsizei n, const GrGLuint* ids) { State* state = State::Get(); for (int i = 0; i < n; ++i) { if (ids[i] == state->fCurrArrayBuffer) { state->fCurrArrayBuffer = 0; } if (ids[i] == state->fCurrElementArrayBuffer) { state->fCurrElementArrayBuffer = 0; } if (ids[i] == state->fCurrPixelPackBuffer) { state->fCurrPixelPackBuffer = 0; } if (ids[i] == state->fCurrPixelUnpackBuffer) { state->fCurrPixelUnpackBuffer = 0; } BufferObj* buffer = state->fBufferManager.lookUp(ids[i]); state->fBufferManager.free(buffer); } } GrGLvoid* GR_GL_FUNCTION_TYPE nullGLMapBufferRange(GrGLenum target, GrGLintptr offset, GrGLsizeiptr length, GrGLbitfield access) { State* state = State::Get(); GrGLuint id = 0; switch (target) { case GR_GL_ARRAY_BUFFER: id = state->fCurrArrayBuffer; break; case GR_GL_ELEMENT_ARRAY_BUFFER: id = state->fCurrElementArrayBuffer; break; case GR_GL_PIXEL_PACK_BUFFER: id = state->fCurrPixelPackBuffer; break; case GR_GL_PIXEL_UNPACK_BUFFER: id = state->fCurrPixelUnpackBuffer; break; } if (id > 0) { // We just ignore the offset and length here. BufferObj* buffer = state->fBufferManager.lookUp(id); SkASSERT(!buffer->mapped()); buffer->setMapped(true); return buffer->dataPtr(); } return nullptr; } GrGLvoid* GR_GL_FUNCTION_TYPE nullGLMapBuffer(GrGLenum target, GrGLenum access) { State* state = State::Get(); GrGLuint id = 0; switch (target) { case GR_GL_ARRAY_BUFFER: id = state->fCurrArrayBuffer; break; case GR_GL_ELEMENT_ARRAY_BUFFER: id = state->fCurrElementArrayBuffer; break; case GR_GL_PIXEL_PACK_BUFFER: id = state->fCurrPixelPackBuffer; break; case GR_GL_PIXEL_UNPACK_BUFFER: id = state->fCurrPixelUnpackBuffer; break; } if (id > 0) { BufferObj* buffer = state->fBufferManager.lookUp(id); SkASSERT(!buffer->mapped()); buffer->setMapped(true); return buffer->dataPtr(); } SkASSERT(false); return nullptr; // no buffer bound to target } GrGLvoid GR_GL_FUNCTION_TYPE nullGLFlushMappedBufferRange(GrGLenum target, GrGLintptr offset, GrGLsizeiptr length) {} GrGLboolean GR_GL_FUNCTION_TYPE nullGLUnmapBuffer(GrGLenum target) { State* state = State::Get(); GrGLuint id = 0; switch (target) { case GR_GL_ARRAY_BUFFER: id = state->fCurrArrayBuffer; break; case GR_GL_ELEMENT_ARRAY_BUFFER: id = state->fCurrElementArrayBuffer; break; case GR_GL_PIXEL_PACK_BUFFER: id = state->fCurrPixelPackBuffer; break; case GR_GL_PIXEL_UNPACK_BUFFER: id = state->fCurrPixelUnpackBuffer; break; } if (id > 0) { BufferObj* buffer = state->fBufferManager.lookUp(id); SkASSERT(buffer->mapped()); buffer->setMapped(false); return GR_GL_TRUE; } GrAlwaysAssert(false); return GR_GL_FALSE; // GR_GL_INVALID_OPERATION; } GrGLvoid GR_GL_FUNCTION_TYPE nullGLGetBufferParameteriv(GrGLenum target, GrGLenum pname, GrGLint* params) { State* state = State::Get(); switch (pname) { case GR_GL_BUFFER_MAPPED: { *params = GR_GL_FALSE; GrGLuint id = 0; switch (target) { case GR_GL_ARRAY_BUFFER: id = state->fCurrArrayBuffer; break; case GR_GL_ELEMENT_ARRAY_BUFFER: id = state->fCurrElementArrayBuffer; break; case GR_GL_PIXEL_PACK_BUFFER: id = state->fCurrPixelPackBuffer; break; case GR_GL_PIXEL_UNPACK_BUFFER: id = state->fCurrPixelUnpackBuffer; break; } if (id > 0) { BufferObj* buffer = state->fBufferManager.lookUp(id); if (buffer->mapped()) { *params = GR_GL_TRUE; } } break; } default: SkFAIL("Unexpected pname to GetBufferParamateriv"); break; } }; class NullInterface : public GrGLInterface { public: NullInterface(State* state) : fState(SkRef(state)) {} ~NullInterface() override { fState->unref(); } State* fState; }; } // end anonymous namespace static GrGLInterface* create_null_interface(State* state) { GrGLInterface* interface = new NullInterface(state); interface->fStandard = kGL_GrGLStandard; GrGLInterface::Functions* functions = &interface->fFunctions; functions->fActiveTexture = nullGLActiveTexture; functions->fAttachShader = nullGLAttachShader; functions->fBeginQuery = nullGLBeginQuery; functions->fBindAttribLocation = nullGLBindAttribLocation; functions->fBindBuffer = nullGLBindBuffer; functions->fBindFragDataLocation = noOpGLBindFragDataLocation; functions->fBindTexture = nullGLBindTexture; functions->fBindVertexArray = nullGLBindVertexArray; functions->fBlendColor = noOpGLBlendColor; functions->fBlendEquation = noOpGLBlendEquation; functions->fBlendFunc = noOpGLBlendFunc; functions->fBufferData = nullGLBufferData; functions->fBufferSubData = noOpGLBufferSubData; functions->fClear = noOpGLClear; functions->fClearColor = noOpGLClearColor; functions->fClearStencil = noOpGLClearStencil; functions->fColorMask = noOpGLColorMask; functions->fCompileShader = noOpGLCompileShader; functions->fCompressedTexImage2D = noOpGLCompressedTexImage2D; functions->fCompressedTexSubImage2D = noOpGLCompressedTexSubImage2D; functions->fCopyTexSubImage2D = noOpGLCopyTexSubImage2D; functions->fCreateProgram = nullGLCreateProgram; functions->fCreateShader = nullGLCreateShader; functions->fCullFace = noOpGLCullFace; functions->fDeleteBuffers = nullGLDeleteBuffers; functions->fDeleteProgram = nullGLDelete; functions->fDeleteQueries = noOpGLDeleteIds; functions->fDeleteShader = nullGLDelete; functions->fDeleteTextures = noOpGLDeleteIds; functions->fDeleteVertexArrays = noOpGLDeleteIds; functions->fDepthMask = noOpGLDepthMask; functions->fDisable = noOpGLDisable; functions->fDisableVertexAttribArray = noOpGLDisableVertexAttribArray; functions->fDrawArrays = noOpGLDrawArrays; functions->fDrawArraysInstanced = noOpGLDrawArraysInstanced; functions->fDrawBuffer = noOpGLDrawBuffer; functions->fDrawBuffers = noOpGLDrawBuffers; functions->fDrawElements = noOpGLDrawElements; functions->fDrawElementsInstanced = noOpGLDrawElementsInstanced; functions->fEnable = noOpGLEnable; functions->fEnableVertexAttribArray = noOpGLEnableVertexAttribArray; functions->fEndQuery = noOpGLEndQuery; functions->fFinish = noOpGLFinish; functions->fFlush = noOpGLFlush; functions->fFlushMappedBufferRange = nullGLFlushMappedBufferRange; functions->fFrontFace = noOpGLFrontFace; functions->fGenBuffers = nullGLGenBuffers; functions->fGenerateMipmap = nullGLGenerateMipmap; functions->fGenQueries = noOpGLGenIds; functions->fGenTextures = noOpGLGenIds; functions->fGenVertexArrays = noOpGLGenIds; functions->fGetBufferParameteriv = nullGLGetBufferParameteriv; functions->fGetError = noOpGLGetError; functions->fGetIntegerv = noOpGLGetIntegerv; functions->fGetQueryObjecti64v = noOpGLGetQueryObjecti64v; functions->fGetQueryObjectiv = noOpGLGetQueryObjectiv; functions->fGetQueryObjectui64v = noOpGLGetQueryObjectui64v; functions->fGetQueryObjectuiv = noOpGLGetQueryObjectuiv; functions->fGetQueryiv = noOpGLGetQueryiv; functions->fGetProgramInfoLog = noOpGLGetInfoLog; functions->fGetProgramiv = noOpGLGetShaderOrProgramiv; functions->fGetShaderInfoLog = noOpGLGetInfoLog; functions->fGetShaderiv = noOpGLGetShaderOrProgramiv; functions->fGetString = noOpGLGetString; functions->fGetStringi = noOpGLGetStringi; functions->fGetTexLevelParameteriv = noOpGLGetTexLevelParameteriv; functions->fGetUniformLocation = noOpGLGetUniformLocation; functions->fInsertEventMarker = noOpGLInsertEventMarker; functions->fLineWidth = noOpGLLineWidth; functions->fLinkProgram = noOpGLLinkProgram; functions->fMapBuffer = nullGLMapBuffer; functions->fMapBufferRange = nullGLMapBufferRange; functions->fPixelStorei = nullGLPixelStorei; functions->fPopGroupMarker = noOpGLPopGroupMarker; functions->fPushGroupMarker = noOpGLPushGroupMarker; functions->fQueryCounter = noOpGLQueryCounter; functions->fReadBuffer = noOpGLReadBuffer; functions->fReadPixels = nullGLReadPixels; functions->fScissor = noOpGLScissor; functions->fShaderSource = noOpGLShaderSource; functions->fStencilFunc = noOpGLStencilFunc; functions->fStencilFuncSeparate = noOpGLStencilFuncSeparate; functions->fStencilMask = noOpGLStencilMask; functions->fStencilMaskSeparate = noOpGLStencilMaskSeparate; functions->fStencilOp = noOpGLStencilOp; functions->fStencilOpSeparate = noOpGLStencilOpSeparate; functions->fTexImage2D = noOpGLTexImage2D; functions->fTexParameteri = noOpGLTexParameteri; functions->fTexParameteriv = noOpGLTexParameteriv; functions->fTexSubImage2D = noOpGLTexSubImage2D; functions->fTexStorage2D = noOpGLTexStorage2D; functions->fDiscardFramebuffer = noOpGLDiscardFramebuffer; functions->fUniform1f = noOpGLUniform1f; functions->fUniform1i = noOpGLUniform1i; functions->fUniform1fv = noOpGLUniform1fv; functions->fUniform1iv = noOpGLUniform1iv; functions->fUniform2f = noOpGLUniform2f; functions->fUniform2i = noOpGLUniform2i; functions->fUniform2fv = noOpGLUniform2fv; functions->fUniform2iv = noOpGLUniform2iv; functions->fUniform3f = noOpGLUniform3f; functions->fUniform3i = noOpGLUniform3i; functions->fUniform3fv = noOpGLUniform3fv; functions->fUniform3iv = noOpGLUniform3iv; functions->fUniform4f = noOpGLUniform4f; functions->fUniform4i = noOpGLUniform4i; functions->fUniform4fv = noOpGLUniform4fv; functions->fUniform4iv = noOpGLUniform4iv; functions->fUniformMatrix2fv = noOpGLUniformMatrix2fv; functions->fUniformMatrix3fv = noOpGLUniformMatrix3fv; functions->fUniformMatrix4fv = noOpGLUniformMatrix4fv; functions->fUnmapBuffer = nullGLUnmapBuffer; functions->fUseProgram = nullGLUseProgram; functions->fVertexAttrib1f = noOpGLVertexAttrib1f; functions->fVertexAttrib2fv = noOpGLVertexAttrib2fv; functions->fVertexAttrib3fv = noOpGLVertexAttrib3fv; functions->fVertexAttrib4fv = noOpGLVertexAttrib4fv; functions->fVertexAttribDivisor = noOpGLVertexAttribDivisor; functions->fVertexAttribIPointer = noOpGLVertexAttribIPointer; functions->fVertexAttribPointer = noOpGLVertexAttribPointer; functions->fViewport = nullGLViewport; functions->fBindFramebuffer = nullGLBindFramebuffer; functions->fBindRenderbuffer = nullGLBindRenderbuffer; functions->fCheckFramebufferStatus = noOpGLCheckFramebufferStatus; functions->fDeleteFramebuffers = nullGLDeleteFramebuffers; functions->fDeleteRenderbuffers = nullGLDeleteRenderbuffers; functions->fFramebufferRenderbuffer = nullGLFramebufferRenderbuffer; functions->fFramebufferTexture2D = nullGLFramebufferTexture2D; functions->fGenFramebuffers = noOpGLGenIds; functions->fGenRenderbuffers = noOpGLGenIds; functions->fGetFramebufferAttachmentParameteriv = noOpGLGetFramebufferAttachmentParameteriv; functions->fGetRenderbufferParameteriv = noOpGLGetRenderbufferParameteriv; functions->fRenderbufferStorage = noOpGLRenderbufferStorage; functions->fRenderbufferStorageMultisample = noOpGLRenderbufferStorageMultisample; functions->fBlitFramebuffer = noOpGLBlitFramebuffer; functions->fResolveMultisampleFramebuffer = noOpGLResolveMultisampleFramebuffer; functions->fMatrixLoadf = noOpGLMatrixLoadf; functions->fMatrixLoadIdentity = noOpGLMatrixLoadIdentity; functions->fBindFragDataLocationIndexed = noOpGLBindFragDataLocationIndexed; interface->fExtensions.init(kGL_GrGLStandard, functions->fGetString, functions->fGetStringi, functions->fGetIntegerv, nullptr, GR_EGL_NO_DISPLAY); return interface; } ////////////////////////////////////////////////////////////////////////////// static void* create_tls() { State** current = new State*; *current = nullptr; return current; } static void delete_tls(void* ctx) { State** current = static_cast<State**>(ctx); if (*current) { (*current)->unref(); } delete current; } static State* current_context() { return *static_cast<State**>(SkTLS::Get(create_tls, delete_tls)); } static void set_current_context(State* state) { State** current = static_cast<State**>(SkTLS::Get(create_tls, delete_tls)); if (*current) { (*current)->unref(); } *current = state; if (state) { state->ref(); } } #if GR_GL_PER_GL_FUNC_CALLBACK static void set_current_context_from_interface(const GrGLInterface* interface) { set_current_context(reinterpret_cast<State*>(interface->fCallbackData)); } #endif SkNullGLContext* SkNullGLContext::Create() { SkNullGLContext* ctx = new SkNullGLContext; if (!ctx->isValid()) { delete ctx; return nullptr; } return ctx; } SkNullGLContext::SkNullGLContext() { fState = new ContextState; GrGLInterface* interface = create_null_interface(fState); this->init(interface); #if GR_GL_PER_GL_FUNC_CALLBACK interface->fCallback = set_current_context_from_interface; interface->fCallbackData = reinterpret_cast<GrGLInterfaceCallbackData>(fState); #endif } SkNullGLContext::~SkNullGLContext() { this->teardown(); fState->unref(); } void SkNullGLContext::onPlatformMakeCurrent() const { set_current_context(fState); }