GrContext* GrContextFactory::get(GLContextType type, GrGLStandard forcedGpuAPI) { for (int i = 0; i < fContexts.count(); ++i) { if (forcedGpuAPI != kNone_GrGLStandard && forcedGpuAPI != fContexts[i].fGLContext->gl()->fStandard) continue; if (fContexts[i].fType == type) { fContexts[i].fGLContext->makeCurrent(); return fContexts[i].fGrContext; } } SkAutoTUnref<SkGLContext> glCtx; SkAutoTUnref<GrContext> grCtx; switch (type) { case kNVPR_GLContextType: // fallthru case kNative_GLContextType: glCtx.reset(SkCreatePlatformGLContext(forcedGpuAPI)); break; #ifdef SK_ANGLE case kANGLE_GLContextType: glCtx.reset(SkANGLEGLContext::Create(forcedGpuAPI)); break; #endif #ifdef SK_MESA case kMESA_GLContextType: glCtx.reset(SkMesaGLContext::Create(forcedGpuAPI)); break; #endif case kNull_GLContextType: glCtx.reset(SkNullGLContext::Create(forcedGpuAPI)); break; case kDebug_GLContextType: glCtx.reset(SkDebugGLContext::Create(forcedGpuAPI)); break; } if (NULL == glCtx.get()) { return NULL; } SkASSERT(glCtx->isValid()); // Block NVPR from non-NVPR types. SkAutoTUnref<const GrGLInterface> glInterface(SkRef(glCtx->gl())); if (kNVPR_GLContextType != type) { glInterface.reset(GrGLInterfaceRemoveNVPR(glInterface)); if (!glInterface) { return NULL; } } else { if (!glInterface->hasExtension("GL_NV_path_rendering")) { return NULL; } } glCtx->makeCurrent(); GrBackendContext p3dctx = reinterpret_cast<GrBackendContext>(glInterface.get()); #ifdef SK_VULKAN grCtx.reset(GrContext::Create(kVulkan_GrBackend, p3dctx, fGlobalOptions)); #else grCtx.reset(GrContext::Create(kOpenGL_GrBackend, p3dctx, fGlobalOptions)); #endif if (!grCtx.get()) { return NULL; } // Warn if path rendering support is not available for the NVPR type. if (kNVPR_GLContextType == type) { if (!grCtx->caps()->shaderCaps()->pathRenderingSupport()) { GrGpu* gpu = grCtx->getGpu(); const GrGLContext* ctx = gpu->glContextForTesting(); if (ctx) { const GrGLubyte* verUByte; GR_GL_CALL_RET(ctx->interface(), verUByte, GetString(GR_GL_VERSION)); const char* ver = reinterpret_cast<const char*>(verUByte); SkDebugf("\nWARNING: nvprmsaa config requested, but driver path rendering " "support not available. Maybe update the driver? Your driver version " "string: \"%s\"\n", ver); } else { SkDebugf("\nWARNING: nvprmsaa config requested, but driver path rendering " "support not available.\n"); } } } GPUContext& ctx = fContexts.push_back(); ctx.fGLContext = glCtx.get(); ctx.fGLContext->ref(); ctx.fGrContext = grCtx.get(); ctx.fGrContext->ref(); ctx.fType = type; return ctx.fGrContext; }
GrContextFactory::ContextInfo* GrContextFactory::getContextInfo(GLContextType type, GLContextOptions options) { for (int i = 0; i < fContexts.count(); ++i) { if (fContexts[i]->fType == type && fContexts[i]->fOptions == options) { fContexts[i]->fGLContext->makeCurrent(); return fContexts[i]; } } SkAutoTUnref<SkGLContext> glCtx; SkAutoTUnref<GrContext> grCtx; switch (type) { case kNative_GLContextType: glCtx.reset(SkCreatePlatformGLContext(kNone_GrGLStandard)); break; case kGL_GLContextType: glCtx.reset(SkCreatePlatformGLContext(kGL_GrGLStandard)); break; case kGLES_GLContextType: glCtx.reset(SkCreatePlatformGLContext(kGLES_GrGLStandard)); break; #if SK_ANGLE #ifdef SK_BUILD_FOR_WIN case kANGLE_GLContextType: glCtx.reset(SkANGLEGLContext::CreateDirectX()); break; #endif case kANGLE_GL_GLContextType: glCtx.reset(SkANGLEGLContext::CreateOpenGL()); break; #endif #if SK_COMMAND_BUFFER case kCommandBuffer_GLContextType: glCtx.reset(SkCommandBufferGLContext::Create()); break; #endif #if SK_MESA case kMESA_GLContextType: glCtx.reset(SkMesaGLContext::Create()); break; #endif case kNull_GLContextType: glCtx.reset(SkNullGLContext::Create()); break; case kDebug_GLContextType: glCtx.reset(SkDebugGLContext::Create()); break; } if (nullptr == glCtx.get()) { return nullptr; } SkASSERT(glCtx->isValid()); // Block NVPR from non-NVPR types. SkAutoTUnref<const GrGLInterface> glInterface(SkRef(glCtx->gl())); if (!(kEnableNVPR_GLContextOptions & options)) { glInterface.reset(GrGLInterfaceRemoveNVPR(glInterface)); if (!glInterface) { return nullptr; } } glCtx->makeCurrent(); GrBackendContext p3dctx = reinterpret_cast<GrBackendContext>(glInterface.get()); #ifdef SK_VULKAN grCtx.reset(GrContext::Create(kVulkan_GrBackend, p3dctx, fGlobalOptions)); #else grCtx.reset(GrContext::Create(kOpenGL_GrBackend, p3dctx, fGlobalOptions)); #endif if (!grCtx.get()) { return nullptr; } if (kEnableNVPR_GLContextOptions & options) { if (!grCtx->caps()->shaderCaps()->pathRenderingSupport()) { return nullptr; } } ContextInfo* ctx = fContexts.emplace_back(new ContextInfo); ctx->fGLContext = SkRef(glCtx.get()); ctx->fGrContext = SkRef(grCtx.get()); ctx->fType = type; ctx->fOptions = options; return ctx; }