/* * Copyright 2015 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkColorSpace_Base.h" #include "SkCommonFlagsConfig.h" #include "SkImageInfo.h" #include #if SK_SUPPORT_GPU using sk_gpu_test::GrContextFactory; #endif static const char defaultConfigs[] = "8888 gpu nonrendering" #if defined(SK_BUILD_FOR_WIN) " angle_d3d11_es2" #endif ; static const struct { const char* predefinedConfig; const char* backend; const char* options; } gPredefinedConfigs[] ={ #if SK_SUPPORT_GPU { "gpu", "gpu", "" }, { "gl", "gpu", "api=gl" }, { "msaa4", "gpu", "samples=4" }, { "glmsaa4", "gpu", "api=gl,samples=4" }, { "msaa16", "gpu", "samples=16" }, { "nvpr4", "gpu", "nvpr=true,samples=4" }, { "glnvpr4", "gpu", "api=gl,nvpr=true,samples=4" }, { "nvpr16", "gpu", "nvpr=true,samples=16" }, { "nvprdit4", "gpu", "nvpr=true,samples=4,dit=true" }, { "glnvprdit4", "gpu", "api=gl,nvpr=true,samples=4,dit=true" }, { "nvprdit16", "gpu", "nvpr=true,samples=16,dit=true" }, { "glinst", "gpu", "api=gl,inst=true" }, { "glinst4", "gpu", "api=gl,inst=true,samples=4" }, { "glinstdit4", "gpu", "api=gl,inst=true,samples=4,dit=true" }, { "glinst16", "gpu", "api=gl,inst=true,samples=16" }, { "glinstdit16", "gpu", "api=gl,inst=true,samples=16,dit=true" }, { "esinst", "gpu", "api=gles,inst=true" }, { "esinst4", "gpu", "api=gles,inst=true,samples=4" }, { "esinstdit4", "gpu", "api=gles,inst=true,samples=4,dit=true" }, { "gpuf16", "gpu", "color=f16" }, { "gpusrgb", "gpu", "color=srgb" }, { "glsrgb", "gpu", "api=gl,color=srgb" }, { "glwide", "gpu", "api=gl,color=f16_wide" }, { "glnarrow", "gpu", "api=gl,color=f16_narrow" }, { "gpudft", "gpu", "dit=true" }, { "gpudebug", "gpu", "api=debug" }, { "gpunull", "gpu", "api=null" }, { "debug", "gpu", "api=debug" }, { "nullgpu", "gpu", "api=null" }, { "angle_d3d11_es2", "gpu", "api=angle_d3d11_es2" }, { "angle_d3d11_es3", "gpu", "api=angle_d3d11_es3" }, { "angle_d3d9_es2", "gpu", "api=angle_d3d9_es2" }, { "angle_d3d11_es2_msaa4", "gpu", "api=angle_d3d11_es2,samples=4" }, { "angle_gl_es2", "gpu", "api=angle_gl_es2" }, { "angle_gl_es3", "gpu", "api=angle_gl_es3" }, { "commandbuffer", "gpu", "api=commandbuffer" } #if SK_MESA ,{ "mesa", "gpu", "api=mesa" } #endif #ifdef SK_VULKAN ,{ "vk", "gpu", "api=vulkan" } ,{ "vksrgb", "gpu", "api=vulkan,color=srgb" } ,{ "vkwide", "gpu", "api=vulkan,color=f16_wide" } ,{ "vkmsaa4", "gpu", "api=vulkan,samples=4" } ,{ "vkmsaa16", "gpu", "api=vulkan,samples=16" } #endif #else { "", "", "" } #endif }; static const char configHelp[] = "Options: 565 8888 srgb f16 nonrendering null pdf pdfa skp pipe svg xps"; static const char* config_help_fn() { static SkString helpString; helpString.set(configHelp); for (const auto& config : gPredefinedConfigs) { helpString.appendf(" %s", config.predefinedConfig); } helpString.append(" or use extended form 'backend[option=value,...]'.\n"); return helpString.c_str(); } static const char configExtendedHelp[] = "Extended form: 'backend(option=value,...)'\n\n" "Possible backends and options:\n" #if SK_SUPPORT_GPU "\n" "gpu[api=string,color=string,dit=bool,nvpr=bool,inst=bool,samples=int]\n" "\tapi\ttype: string\tdefault: native.\n" "\t Select graphics API to use with gpu backend.\n" "\t Options:\n" "\t\tnative\t\t\tUse platform default OpenGL or OpenGL ES backend.\n" "\t\tgl \t\t\tUse OpenGL.\n" "\t\tgles \t\t\tUse OpenGL ES.\n" "\t\tdebug \t\t\tUse debug OpenGL.\n" "\t\tnull \t\t\tUse null OpenGL.\n" "\t\tangle_d3d9_es2\t\t\tUse OpenGL ES2 on the ANGLE Direct3D9 backend.\n" "\t\tangle_d3d11_es2\t\t\tUse OpenGL ES2 on the ANGLE Direct3D11 backend.\n" "\t\tangle_d3d11_es3\t\t\tUse OpenGL ES3 on the ANGLE Direct3D11 backend.\n" "\t\tangle_gl_es2\t\t\tUse OpenGL ES2 on the ANGLE OpenGL backend.\n" "\t\tangle_gl_es3\t\t\tUse OpenGL ES3 on the ANGLE OpenGL backend.\n" "\t\tcommandbuffer\t\tUse command buffer.\n" #if SK_MESA "\t\tmesa\t\t\tUse MESA.\n" #endif #ifdef SK_VULKAN "\t\tvulkan\t\t\tUse Vulkan.\n" #endif "\tcolor\ttype: string\tdefault: 8888.\n" "\t Select framebuffer color format.\n" "\t Options:\n" "\t\t8888\t\t\tLinear 8888.\n" "\t\tf16{_gamut}\t\tLinear 16-bit floating point.\n" "\t\tsrgb{_gamut}\t\tsRGB 8888.\n" "\t gamut\ttype: string\tdefault: srgb.\n" "\t Select color gamut for f16 or sRGB format buffers.\n" "\t Options:\n" "\t\tsrgb\t\t\tsRGB gamut.\n" "\t\twide\t\t\tWide Gamut RGB.\n" "\tdit\ttype: bool\tdefault: false.\n" "\t Use device independent text.\n" "\tnvpr\ttype: bool\tdefault: false.\n" "\t Use NV_path_rendering OpenGL and OpenGL ES extension.\n" "\tsamples\ttype: int\tdefault: 0.\n" "\t Use multisampling with N samples.\n" "\n" "Predefined configs:\n\n" // Help text for pre-defined configs is auto-generated from gPredefinedConfigs #endif ; static const char* config_extended_help_fn() { static SkString helpString; helpString.set(configExtendedHelp); for (const auto& config : gPredefinedConfigs) { helpString.appendf("\t%-10s\t= gpu(%s)\n", config.predefinedConfig, config.options); } return helpString.c_str(); } DEFINE_extended_string(config, defaultConfigs, config_help_fn(), config_extended_help_fn()); SkCommandLineConfig::SkCommandLineConfig(const SkString& tag, const SkString& backend, const SkTArray& viaParts) : fTag(tag) , fBackend(backend) , fViaParts(viaParts) { } SkCommandLineConfig::~SkCommandLineConfig() { } #if SK_SUPPORT_GPU SkCommandLineConfigGpu::SkCommandLineConfigGpu( const SkString& tag, const SkTArray& viaParts, ContextType contextType, bool useNVPR, bool useInstanced, bool useDIText, int samples, SkColorType colorType, sk_sp colorSpace) : SkCommandLineConfig(tag, SkString("gpu"), viaParts) , fContextType(contextType) , fContextOverrides(ContextOverrides::kNone) , fUseDIText(useDIText) , fSamples(samples) , fColorType(colorType) , fColorSpace(std::move(colorSpace)) { if (useNVPR) { fContextOverrides |= ContextOverrides::kRequireNVPRSupport; } else if (!useInstanced) { // We don't disable NVPR for instanced configs. Otherwise the caps wouldn't use mixed // samples and we couldn't test the mixed samples backend for simple shapes. fContextOverrides |= ContextOverrides::kDisableNVPR; } if (useInstanced) { fContextOverrides |= ContextOverrides::kUseInstanced; } // Subtle logic: If the config has a color space attached, we're going to be rendering to sRGB, // so we need that capability. In addition, to get the widest test coverage, we DO NOT require // that we can disable sRGB decode. (That's for rendering sRGB sources to legacy surfaces). // // If the config doesn't have a color space attached, we're going to be rendering in legacy // mode. In that case, we don't require sRGB capability and we defer to the client to decide on // sRGB decode control. if (fColorSpace) { fContextOverrides |= ContextOverrides::kRequireSRGBSupport; fContextOverrides |= ContextOverrides::kAllowSRGBWithoutDecodeControl; } } static bool parse_option_int(const SkString& value, int* outInt) { if (value.isEmpty()) { return false; } char* endptr = nullptr; long intValue = strtol(value.c_str(), &endptr, 10); if (*endptr != '\0') { return false; } *outInt = static_cast(intValue); return true; } static bool parse_option_bool(const SkString& value, bool* outBool) { if (value.equals("true")) { *outBool = true; return true; } if (value.equals("false")) { *outBool = false; return true; } return false; } static bool parse_option_gpu_api(const SkString& value, SkCommandLineConfigGpu::ContextType* outContextType) { if (value.equals("gl")) { *outContextType = GrContextFactory::kGL_ContextType; return true; } if (value.equals("gles")) { *outContextType = GrContextFactory::kGLES_ContextType; return true; } if (value.equals("debug")) { *outContextType = GrContextFactory::kDebugGL_ContextType; return true; } if (value.equals("null")) { *outContextType = GrContextFactory::kNullGL_ContextType; return true; } if (value.equals("angle_d3d9_es2")) { *outContextType = GrContextFactory::kANGLE_D3D9_ES2_ContextType; return true; } if (value.equals("angle_d3d11_es2")) { *outContextType = GrContextFactory::kANGLE_D3D11_ES2_ContextType; return true; } if (value.equals("angle_d3d11_es3")) { *outContextType = GrContextFactory::kANGLE_D3D11_ES3_ContextType; return true; } if (value.equals("angle_gl_es2")) { *outContextType = GrContextFactory::kANGLE_GL_ES2_ContextType; return true; } if (value.equals("angle_gl_es3")) { *outContextType = GrContextFactory::kANGLE_GL_ES3_ContextType; return true; } if (value.equals("commandbuffer")) { *outContextType = GrContextFactory::kCommandBuffer_ContextType; return true; } #if SK_MESA if (value.equals("mesa")) { *outContextType = GrContextFactory::kMESA_ContextType; return true; } #endif #ifdef SK_VULKAN if (value.equals("vulkan")) { *outContextType = GrContextFactory::kVulkan_ContextType; return true; } #endif return false; } static bool parse_option_gpu_color(const SkString& value, SkColorType* outColorType, sk_sp* outColorSpace) { if (value.equals("8888")) { *outColorType = kRGBA_8888_SkColorType; *outColorSpace = nullptr; return true; } SkTArray commands; SkStrSplit(value.c_str(), "_", &commands); if (commands.count() < 1 || commands.count() > 2) { return false; } // First, figure out color gamut that we'll work in (default to sRGB) const bool linearGamma = commands[0].equals("f16"); *outColorSpace = linearGamma ? SkColorSpace::MakeSRGBLinear() : SkColorSpace::MakeSRGB(); if (commands.count() == 2) { if (commands[1].equals("srgb")) { // sRGB gamut (which is our default) } else if (commands[1].equals("wide")) { // WideGamut RGB const float gWideGamutRGB_toXYZD50[]{ 0.7161046f, 0.1009296f, 0.1471858f, // -> X 0.2581874f, 0.7249378f, 0.0168748f, // -> Y 0.0000000f, 0.0517813f, 0.7734287f, // -> Z }; SkMatrix44 wideGamutRGBMatrix(SkMatrix44::kUninitialized_Constructor); wideGamutRGBMatrix.set3x3RowMajorf(gWideGamutRGB_toXYZD50); *outColorSpace = SkColorSpace::MakeRGB(linearGamma ? SkColorSpace::kLinear_RenderTargetGamma : SkColorSpace::kSRGB_RenderTargetGamma, wideGamutRGBMatrix); } else if (commands[1].equals("narrow")) { // NarrowGamut RGB (an artifically smaller than sRGB gamut) SkColorSpacePrimaries primaries ={ 0.54f, 0.33f, // Rx, Ry 0.33f, 0.50f, // Gx, Gy 0.25f, 0.20f, // Bx, By 0.3127f, 0.3290f, // Wx, Wy }; SkMatrix44 narrowGamutRGBMatrix(SkMatrix44::kUninitialized_Constructor); primaries.toXYZD50(&narrowGamutRGBMatrix); *outColorSpace = SkColorSpace::MakeRGB(linearGamma ? SkColorSpace::kLinear_RenderTargetGamma : SkColorSpace::kSRGB_RenderTargetGamma, narrowGamutRGBMatrix); } else { // Unknown color gamut return false; } } // Now pick a color type if (commands[0].equals("f16")) { *outColorType = kRGBA_F16_SkColorType; return true; } if (commands[0].equals("srgb")) { *outColorType = kRGBA_8888_SkColorType; return true; } return false; } SkCommandLineConfigGpu* parse_command_line_config_gpu(const SkString& tag, const SkTArray& vias, const SkString& options) { // Defaults for GPU backend. bool seenAPI = false; SkCommandLineConfigGpu::ContextType contextType = GrContextFactory::kNativeGL_ContextType; bool seenUseNVPR = false; bool useNVPR = false; bool seenUseInstanced = false; bool useInstanced = false; bool seenUseDIText =false; bool useDIText = false; bool seenSamples = false; int samples = 0; bool seenColor = false; SkColorType colorType = kRGBA_8888_SkColorType; sk_sp colorSpace = nullptr; SkTArray optionParts; SkStrSplit(options.c_str(), ",", kStrict_SkStrSplitMode, &optionParts); for (int i = 0; i < optionParts.count(); ++i) { SkTArray keyValueParts; SkStrSplit(optionParts[i].c_str(), "=", kStrict_SkStrSplitMode, &keyValueParts); if (keyValueParts.count() != 2) { return nullptr; } const SkString& key = keyValueParts[0]; const SkString& value = keyValueParts[1]; bool valueOk = false; if (key.equals("api") && !seenAPI) { valueOk = parse_option_gpu_api(value, &contextType); seenAPI = true; } else if (key.equals("nvpr") && !seenUseNVPR) { valueOk = parse_option_bool(value, &useNVPR); seenUseNVPR = true; } else if (key.equals("inst") && !seenUseInstanced) { valueOk = parse_option_bool(value, &useInstanced); seenUseInstanced = true; } else if (key.equals("dit") && !seenUseDIText) { valueOk = parse_option_bool(value, &useDIText); seenUseDIText = true; } else if (key.equals("samples") && !seenSamples) { valueOk = parse_option_int(value, &samples); seenSamples = true; } else if (key.equals("color") && !seenColor) { valueOk = parse_option_gpu_color(value, &colorType, &colorSpace); seenColor = true; } if (!valueOk) { return nullptr; } } return new SkCommandLineConfigGpu(tag, vias, contextType, useNVPR, useInstanced, useDIText, samples, colorType, colorSpace); } #endif void ParseConfigs(const SkCommandLineFlags::StringArray& configs, SkCommandLineConfigArray* outResult) { outResult->reset(); for (int i = 0; i < configs.count(); ++i) { SkString extendedBackend; SkString extendedOptions; SkString simpleBackend; SkTArray vias; SkString tag(configs[i]); SkTArray parts; SkStrSplit(tag.c_str(), "[", kStrict_SkStrSplitMode, &parts); if (parts.count() == 2) { SkTArray parts2; SkStrSplit(parts[1].c_str(), "]", kStrict_SkStrSplitMode, &parts2); if (parts2.count() == 2 && parts2[1].isEmpty()) { SkStrSplit(parts[0].c_str(), "-", kStrict_SkStrSplitMode, &vias); if (vias.count()) { extendedBackend = vias[vias.count() - 1]; vias.pop_back(); } else { extendedBackend = parts[0]; } extendedOptions = parts2[0]; simpleBackend.printf("%s[%s]", extendedBackend.c_str(), extendedOptions.c_str()); } } if (extendedBackend.isEmpty()) { simpleBackend = tag; SkStrSplit(tag.c_str(), "-", kStrict_SkStrSplitMode, &vias); if (vias.count()) { simpleBackend = vias[vias.count() - 1]; vias.pop_back(); } for (auto& predefinedConfig : gPredefinedConfigs) { if (simpleBackend.equals(predefinedConfig.predefinedConfig)) { extendedBackend = predefinedConfig.backend; extendedOptions = predefinedConfig.options; break; } } } SkCommandLineConfig* parsedConfig = nullptr; #if SK_SUPPORT_GPU if (extendedBackend.equals("gpu")) { parsedConfig = parse_command_line_config_gpu(tag, vias, extendedOptions); } #endif if (!parsedConfig) { parsedConfig = new SkCommandLineConfig(tag, simpleBackend, vias); } outResult->emplace_back(parsedConfig); } }