/* * 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/GrGLInterface.h" #include "GrGLTestInterface.h" #include "SkMutex.h" #include "SkTDArray.h" // added to suppress 'no previous prototype' warning and because this code is duplicated in // SkNullGLContext.cpp namespace { 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) { *fBuffers.append() = nullptr; // 0 is not a valid GL buffer id. } ~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(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(fFreeListHead); fFreeListHead = reinterpret_cast(fBuffers[id]); buffer = new BufferObj(id); fBuffers[id] = buffer; } return buffer; } void free(BufferObj* buffer) { SkASSERT(buffer); SkASSERT(fBuffers.count() > 0); GrGLuint id = buffer->id(); delete buffer; fBuffers[id] = reinterpret_cast(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 fBuffers; }; /** Null interface implementation */ class NullInterface : public GrGLTestInterface { public: NullInterface() : fCurrArrayBuffer(0) , fCurrElementArrayBuffer(0) , fCurrPixelPackBuffer(0) , fCurrPixelUnpackBuffer(0) , fCurrProgramID(0) , fCurrShaderID(0) , fCurrGenericID(0) , fCurrUniformLocation(0) { this->init(kGL_GrGLStandard); } GrGLenum checkFramebufferStatus(GrGLenum target) override { return GR_GL_FRAMEBUFFER_COMPLETE; } GrGLvoid genBuffers(GrGLsizei n, GrGLuint* ids) override { for (int i = 0; i < n; ++i) { BufferObj* buffer = fBufferManager.create(); ids[i] = buffer->id(); } } GrGLvoid bufferData(GrGLenum target, GrGLsizeiptr size, const GrGLvoid* data, GrGLenum usage) override { GrGLuint id = 0; switch (target) { case GR_GL_ARRAY_BUFFER: id = fCurrArrayBuffer; break; case GR_GL_ELEMENT_ARRAY_BUFFER: id = fCurrElementArrayBuffer; break; case GR_GL_PIXEL_PACK_BUFFER: id = fCurrPixelPackBuffer; break; case GR_GL_PIXEL_UNPACK_BUFFER: id = fCurrPixelUnpackBuffer; break; default: SkFAIL("Unexpected target to nullGLBufferData"); break; } if (id > 0) { BufferObj* buffer = fBufferManager.lookUp(id); buffer->allocate(size, (const GrGLchar*) data); } } GrGLuint createProgram() override { return ++fCurrProgramID; } GrGLuint createShader(GrGLenum type) override { return ++fCurrShaderID; } GrGLvoid bindBuffer(GrGLenum target, GrGLuint buffer) override { switch (target) { case GR_GL_ARRAY_BUFFER: fCurrArrayBuffer = buffer; break; case GR_GL_ELEMENT_ARRAY_BUFFER: fCurrElementArrayBuffer = buffer; break; case GR_GL_PIXEL_PACK_BUFFER: fCurrPixelPackBuffer = buffer; break; case GR_GL_PIXEL_UNPACK_BUFFER: fCurrPixelUnpackBuffer = buffer; break; } } // deleting a bound buffer has the side effect of binding 0 GrGLvoid deleteBuffers(GrGLsizei n, const GrGLuint* ids) override { for (int i = 0; i < n; ++i) { if (ids[i] == fCurrArrayBuffer) { fCurrArrayBuffer = 0; } if (ids[i] == fCurrElementArrayBuffer) { fCurrElementArrayBuffer = 0; } if (ids[i] == fCurrPixelPackBuffer) { fCurrPixelPackBuffer = 0; } if (ids[i] == fCurrPixelUnpackBuffer) { fCurrPixelUnpackBuffer = 0; } if (ids[i] > 0) { BufferObj* buffer = fBufferManager.lookUp(ids[i]); fBufferManager.free(buffer); } } } GrGLvoid genFramebuffers(GrGLsizei n, GrGLuint *framebuffers) override { this->genGenericIds(n, framebuffers); } GrGLvoid genQueries(GrGLsizei n, GrGLuint *ids) override { this->genGenericIds(n, ids); } GrGLvoid genRenderbuffers(GrGLsizei n, GrGLuint *renderbuffers) override { this->genGenericIds(n, renderbuffers); } GrGLvoid genTextures(GrGLsizei n, GrGLuint *textures) override { this->genGenericIds(n, textures); } GrGLvoid genVertexArrays(GrGLsizei n, GrGLuint *arrays) override { this->genGenericIds(n, arrays); } GrGLenum getError() override { return GR_GL_NO_ERROR; } GrGLvoid getIntegerv(GrGLenum pname, GrGLint* params) override { // TODO: remove from Ganesh the #defines for gets we don't use. // We would like to minimize gets overall due to performance issues switch (pname) { case GR_GL_CONTEXT_PROFILE_MASK: *params = GR_GL_CONTEXT_COMPATIBILITY_PROFILE_BIT; break; case GR_GL_STENCIL_BITS: *params = 8; break; case GR_GL_SAMPLES: *params = 1; break; case GR_GL_FRAMEBUFFER_BINDING: *params = 0; break; case GR_GL_VIEWPORT: params[0] = 0; params[1] = 0; params[2] = 800; params[3] = 600; break; case GR_GL_MAX_VERTEX_TEXTURE_IMAGE_UNITS: case GR_GL_MAX_GEOMETRY_TEXTURE_IMAGE_UNITS: case GR_GL_MAX_TEXTURE_IMAGE_UNITS: case GR_GL_MAX_COMBINED_TEXTURE_IMAGE_UNITS: *params = 8; break; case GR_GL_MAX_TEXTURE_COORDS: *params = 8; break; case GR_GL_MAX_VERTEX_UNIFORM_VECTORS: *params = kDefaultMaxVertexUniformVectors; break; case GR_GL_MAX_FRAGMENT_UNIFORM_VECTORS: *params = kDefaultMaxFragmentUniformVectors; break; case GR_GL_MAX_FRAGMENT_UNIFORM_COMPONENTS: *params = 16 * 4; break; case GR_GL_NUM_COMPRESSED_TEXTURE_FORMATS: *params = 0; break; case GR_GL_COMPRESSED_TEXTURE_FORMATS: break; case GR_GL_MAX_TEXTURE_SIZE: *params = 8192; break; case GR_GL_MAX_RENDERBUFFER_SIZE: *params = 8192; break; case GR_GL_MAX_SAMPLES: *params = 32; break; case GR_GL_MAX_VERTEX_ATTRIBS: *params = kDefaultMaxVertexAttribs; break; case GR_GL_MAX_VARYING_VECTORS: *params = kDefaultMaxVaryingVectors; break; case GR_GL_NUM_EXTENSIONS: { GrGLint i = 0; while (kExtensions[i++]); *params = i; break; } default: SkFAIL("Unexpected pname to GetIntegerv"); } } GrGLvoid getProgramiv(GrGLuint program, GrGLenum pname, GrGLint* params) override { this->getShaderOrProgramiv(program, pname, params); } GrGLvoid getProgramInfoLog(GrGLuint program, GrGLsizei bufsize, GrGLsizei* length, char* infolog) override { this->getInfoLog(program, bufsize, length, infolog); } GrGLvoid getMultisamplefv(GrGLenum pname, GrGLuint index, GrGLfloat* val) override { val[0] = val[1] = 0.5f; } GrGLvoid getQueryiv(GrGLenum GLtarget, GrGLenum pname, GrGLint *params) override { switch (pname) { case GR_GL_CURRENT_QUERY: *params = 0; break; case GR_GL_QUERY_COUNTER_BITS: *params = 32; break; default: SkFAIL("Unexpected pname passed GetQueryiv."); } } GrGLvoid getQueryObjecti64v(GrGLuint id, GrGLenum pname, GrGLint64 *params) override { this->queryResult(id, pname, params); } GrGLvoid getQueryObjectiv(GrGLuint id, GrGLenum pname, GrGLint *params) override { this->queryResult(id, pname, params); } GrGLvoid getQueryObjectui64v(GrGLuint id, GrGLenum pname, GrGLuint64 *params) override { this->queryResult(id, pname, params); } GrGLvoid getQueryObjectuiv(GrGLuint id, GrGLenum pname, GrGLuint *params) override { this->queryResult(id, pname, params); } GrGLvoid getShaderiv(GrGLuint shader, GrGLenum pname, GrGLint* params) override { this->getShaderOrProgramiv(shader, pname, params); } GrGLvoid getShaderInfoLog(GrGLuint shader, GrGLsizei bufsize, GrGLsizei* length, char* infolog) override { this->getInfoLog(shader, bufsize, length, infolog); } const GrGLubyte* getString(GrGLenum name) override { switch (name) { case GR_GL_EXTENSIONS: return CombinedExtensionString(); case GR_GL_VERSION: return (const GrGLubyte*)"4.0 Null GL"; case GR_GL_SHADING_LANGUAGE_VERSION: return (const GrGLubyte*)"4.20.8 Null GLSL"; case GR_GL_VENDOR: return (const GrGLubyte*)"Null Vendor"; case GR_GL_RENDERER: return (const GrGLubyte*)"The Null (Non-)Renderer"; default: SkFAIL("Unexpected name passed to GetString"); return nullptr; } } const GrGLubyte* getStringi(GrGLenum name, GrGLuint i) override { switch (name) { case GR_GL_EXTENSIONS: { GrGLint count; this->getIntegerv(GR_GL_NUM_EXTENSIONS, &count); if ((GrGLint)i <= count) { return (const GrGLubyte*) kExtensions[i]; } else { return nullptr; } } default: SkFAIL("Unexpected name passed to GetStringi"); return nullptr; } } GrGLint getUniformLocation(GrGLuint program, const char* name) override { return ++fCurrUniformLocation; } GrGLvoid* mapBufferRange(GrGLenum target, GrGLintptr offset, GrGLsizeiptr length, GrGLbitfield access) override { GrGLuint id = 0; switch (target) { case GR_GL_ARRAY_BUFFER: id = fCurrArrayBuffer; break; case GR_GL_ELEMENT_ARRAY_BUFFER: id = fCurrElementArrayBuffer; break; case GR_GL_PIXEL_PACK_BUFFER: id = fCurrPixelPackBuffer; break; case GR_GL_PIXEL_UNPACK_BUFFER: id = fCurrPixelUnpackBuffer; break; } if (id > 0) { // We just ignore the offset and length here. BufferObj* buffer = fBufferManager.lookUp(id); SkASSERT(!buffer->mapped()); buffer->setMapped(true); return buffer->dataPtr(); } return nullptr; } GrGLvoid* mapBuffer(GrGLenum target, GrGLenum access) override { GrGLuint id = 0; switch (target) { case GR_GL_ARRAY_BUFFER: id = fCurrArrayBuffer; break; case GR_GL_ELEMENT_ARRAY_BUFFER: id = fCurrElementArrayBuffer; break; case GR_GL_PIXEL_PACK_BUFFER: id = fCurrPixelPackBuffer; break; case GR_GL_PIXEL_UNPACK_BUFFER: id = fCurrPixelUnpackBuffer; break; } if (id > 0) { BufferObj* buffer = fBufferManager.lookUp(id); SkASSERT(!buffer->mapped()); buffer->setMapped(true); return buffer->dataPtr(); } SkASSERT(false); return nullptr; // no buffer bound to target } GrGLboolean unmapBuffer(GrGLenum target) override { GrGLuint id = 0; switch (target) { case GR_GL_ARRAY_BUFFER: id = fCurrArrayBuffer; break; case GR_GL_ELEMENT_ARRAY_BUFFER: id = fCurrElementArrayBuffer; break; case GR_GL_PIXEL_PACK_BUFFER: id = fCurrPixelPackBuffer; break; case GR_GL_PIXEL_UNPACK_BUFFER: id = fCurrPixelUnpackBuffer; break; } if (id > 0) { BufferObj* buffer = fBufferManager.lookUp(id); SkASSERT(buffer->mapped()); buffer->setMapped(false); return GR_GL_TRUE; } GrAlwaysAssert(false); return GR_GL_FALSE; // GR_GL_INVALID_OPERATION; } GrGLvoid getBufferParameteriv(GrGLenum target, GrGLenum pname, GrGLint* params) override { switch (pname) { case GR_GL_BUFFER_MAPPED: { *params = GR_GL_FALSE; GrGLuint id = 0; switch (target) { case GR_GL_ARRAY_BUFFER: id = fCurrArrayBuffer; break; case GR_GL_ELEMENT_ARRAY_BUFFER: id = fCurrElementArrayBuffer; break; case GR_GL_PIXEL_PACK_BUFFER: id = fCurrPixelPackBuffer; break; case GR_GL_PIXEL_UNPACK_BUFFER: id = fCurrPixelUnpackBuffer; break; } if (id > 0) { BufferObj* buffer = fBufferManager.lookUp(id); if (buffer->mapped()) { *params = GR_GL_TRUE; } } break; } default: SkFAIL("Unexpected pname to GetBufferParamateriv"); break; } }; private: BufferManager fBufferManager; GrGLuint fCurrArrayBuffer; GrGLuint fCurrElementArrayBuffer; GrGLuint fCurrPixelPackBuffer; GrGLuint fCurrPixelUnpackBuffer; GrGLuint fCurrProgramID; GrGLuint fCurrShaderID; GrGLuint fCurrGenericID; GrGLuint fCurrUniformLocation; // the OpenGLES 2.0 spec says this must be >= 128 static const GrGLint kDefaultMaxVertexUniformVectors = 128; // the OpenGLES 2.0 spec says this must be >=16 static const GrGLint kDefaultMaxFragmentUniformVectors = 16; // the OpenGLES 2.0 spec says this must be >= 8 static const GrGLint kDefaultMaxVertexAttribs = 8; // the OpenGLES 2.0 spec says this must be >= 8 static const GrGLint kDefaultMaxVaryingVectors = 8; static const char* kExtensions[]; static const GrGLubyte* CombinedExtensionString() { static SkString gExtString; static SkMutex gMutex; gMutex.acquire(); if (0 == gExtString.size()) { int i = 0; while (kExtensions[i]) { if (i > 0) { gExtString.append(" "); } gExtString.append(kExtensions[i]); ++i; } } gMutex.release(); return (const GrGLubyte*) gExtString.c_str(); } GrGLvoid genGenericIds(GrGLsizei n, GrGLuint* ids) { for (int i = 0; i < n; ++i) { ids[i] = ++fCurrGenericID; } } GrGLvoid getInfoLog(GrGLuint object, GrGLsizei bufsize, GrGLsizei* length, char* infolog) { if (length) { *length = 0; } if (bufsize > 0) { *infolog = 0; } } GrGLvoid getShaderOrProgramiv(GrGLuint object, GrGLenum pname, GrGLint* params) { switch (pname) { case GR_GL_LINK_STATUS: // fallthru case GR_GL_COMPILE_STATUS: *params = GR_GL_TRUE; break; case GR_GL_INFO_LOG_LENGTH: *params = 0; break; // we don't expect any other pnames default: SkFAIL("Unexpected pname to GetProgramiv"); break; } } template void queryResult(GrGLenum GLtarget, GrGLenum pname, T *params) { switch (pname) { case GR_GL_QUERY_RESULT_AVAILABLE: *params = GR_GL_TRUE; break; case GR_GL_QUERY_RESULT: *params = 0; break; default: SkFAIL("Unexpected pname passed to GetQueryObject."); break; } } typedef GrGLTestInterface INHERITED; }; const char* NullInterface::kExtensions[] = { "GL_ARB_framebuffer_object", "GL_ARB_blend_func_extended", "GL_ARB_timer_query", "GL_ARB_draw_buffers", "GL_ARB_occlusion_query", "GL_EXT_stencil_wrap", nullptr, // signifies the end of the array. }; } // anonymous namespace const GrGLInterface* GrGLCreateNullInterface() { return new NullInterface; }