tools/flags/CommonFlagsGpu.cpp - skia - Git at Google

 /*
  * Copyright 2014 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "include/core/SkExecutor.h"
 #include "include/gpu/GrContextOptions.h"
 #include "tools/flags/CommonFlags.h"

 DEFINE_int(gpuThreads,
              2,
              "Create this many extra threads to assist with GPU work, "
              "including software path rendering. Defaults to two.");

 static DEFINE_bool(cachePathMasks, true,
                    "Allows path mask textures to be cached in GPU configs.");
 static DEFINE_bool(allPathsVolatile, false,
                    "Causes all GPU paths to be processed as if 'setIsVolatile' had been called.");

 static DEFINE_bool(gs, true, "Enables support for geometry shaders (if hw allows).");
 static DEFINE_bool(hwtess, false, "Enables support for tessellation shaders (if hw allows.).");

 static DEFINE_int(maxTessellationSegments, 0,
                   "Overrides the max number of tessellation segments supported by the caps.");

 static DEFINE_bool(alwaysHwTess, false,
         "Always try to use hardware tessellation, regardless of how small a path may be.");

 static DEFINE_string(pr, "",
               "Set of enabled gpu path renderers. Defined as a list of: "
               "[~]none [~]dashline [~]aahairline [~]aaconvex [~]aalinearizing [~]small [~]tri "
               "[~]tess [~]all");

 static DEFINE_int(internalSamples, 4, "Number of samples for internal draws that use MSAA.");

 static DEFINE_bool(disableDriverCorrectnessWorkarounds, false,
                    "Disables all GPU driver correctness workarounds");

 static DEFINE_bool(dontReduceOpsTaskSplitting, false,
                    "Don't reorder tasks to reduce render passes");

 static DEFINE_bool(nga, false, "use Ganesh' New Ganesh Architecture");

 static DEFINE_int(gpuResourceCacheLimit, -1,
                   "Maximum number of bytes to use for budgeted GPU resources. "
                   "Default is -1, which means GrResourceCache::kDefaultMaxSize.");

 static GpuPathRenderers get_named_pathrenderers_flags(const char* name) {
     if (!strcmp(name, "none")) {
         return GpuPathRenderers::kNone;
     } else if (!strcmp(name, "dashline")) {
         return GpuPathRenderers::kDashLine;
     } else if (!strcmp(name, "aahairline")) {
         return GpuPathRenderers::kAAHairline;
     } else if (!strcmp(name, "aaconvex")) {
         return GpuPathRenderers::kAAConvex;
     } else if (!strcmp(name, "aalinearizing")) {
         return GpuPathRenderers::kAALinearizing;
     } else if (!strcmp(name, "small")) {
         return GpuPathRenderers::kSmall;
     } else if (!strcmp(name, "tri")) {
         return GpuPathRenderers::kTriangulating;
     } else if (!strcmp(name, "tess")) {
         return GpuPathRenderers::kTessellation;
     } else if (!strcmp(name, "default")) {
         return GpuPathRenderers::kDefault;
     }
     SK_ABORT("error: unknown named path renderer \"%s\"\n", name);
 }

 static GpuPathRenderers collect_gpu_path_renderers_from_flags() {
     if (FLAGS_pr.isEmpty()) {
         return GpuPathRenderers::kDefault;
     }

     GpuPathRenderers gpuPathRenderers = ('~' == FLAGS_pr[0][0])
             ? GpuPathRenderers::kDefault
             : GpuPathRenderers::kNone;

     for (int i = 0; i < FLAGS_pr.count(); ++i) {
         const char* name = FLAGS_pr[i];
         if (name[0] == '~') {
             gpuPathRenderers &= ~get_named_pathrenderers_flags(&name[1]);
         } else {
             gpuPathRenderers |= get_named_pathrenderers_flags(name);
         }
     }
     return gpuPathRenderers;
 }

 void SetCtxOptionsFromCommonFlags(GrContextOptions* ctxOptions) {
     static std::unique_ptr<SkExecutor> gGpuExecutor = (0 != FLAGS_gpuThreads)
         ? SkExecutor::MakeFIFOThreadPool(FLAGS_gpuThreads)
         : nullptr;

     ctxOptions->fExecutor                            = gGpuExecutor.get();
     ctxOptions->fAllowPathMaskCaching                = FLAGS_cachePathMasks;
     ctxOptions->fAllPathsVolatile                    = FLAGS_allPathsVolatile;
     ctxOptions->fSuppressGeometryShaders             = !FLAGS_gs;
     ctxOptions->fEnableExperimentalHardwareTessellation = FLAGS_hwtess;
     ctxOptions->fMaxTessellationSegmentsOverride     = FLAGS_maxTessellationSegments;
     ctxOptions->fAlwaysPreferHardwareTessellation    = FLAGS_alwaysHwTess;
     ctxOptions->fGpuPathRenderers                    = collect_gpu_path_renderers_from_flags();
     ctxOptions->fInternalMultisampleCount            = FLAGS_internalSamples;
     ctxOptions->fDisableDriverCorrectnessWorkarounds = FLAGS_disableDriverCorrectnessWorkarounds;
     ctxOptions->fResourceCacheLimitOverride          = FLAGS_gpuResourceCacheLimit;

     if (FLAGS_dontReduceOpsTaskSplitting) {
         ctxOptions->fReduceOpsTaskSplitting = GrContextOptions::Enable::kNo;
     } else {
         ctxOptions->fReduceOpsTaskSplitting = GrContextOptions::Enable::kYes;
     }

     if (FLAGS_nga) {
         ctxOptions->fUseNGA = GrContextOptions::Enable::kYes;
     }
 }
	/*
	* Copyright 2014 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "include/core/SkExecutor.h"
	#include "include/gpu/GrContextOptions.h"
	#include "tools/flags/CommonFlags.h"

	DEFINE_int(gpuThreads,
	2,
	"Create this many extra threads to assist with GPU work, "
	"including software path rendering. Defaults to two.");

	static DEFINE_bool(cachePathMasks, true,
	"Allows path mask textures to be cached in GPU configs.");
	static DEFINE_bool(allPathsVolatile, false,
	"Causes all GPU paths to be processed as if 'setIsVolatile' had been called.");

	static DEFINE_bool(gs, true, "Enables support for geometry shaders (if hw allows).");
	static DEFINE_bool(hwtess, false, "Enables support for tessellation shaders (if hw allows.).");

	static DEFINE_int(maxTessellationSegments, 0,
	"Overrides the max number of tessellation segments supported by the caps.");

	static DEFINE_bool(alwaysHwTess, false,
	"Always try to use hardware tessellation, regardless of how small a path may be.");

	static DEFINE_string(pr, "",
	"Set of enabled gpu path renderers. Defined as a list of: "
	"[~]none [~]dashline [~]aahairline [~]aaconvex [~]aalinearizing [~]small [~]tri "
	"[~]tess [~]all");

	static DEFINE_int(internalSamples, 4, "Number of samples for internal draws that use MSAA.");

	static DEFINE_bool(disableDriverCorrectnessWorkarounds, false,
	"Disables all GPU driver correctness workarounds");

	static DEFINE_bool(dontReduceOpsTaskSplitting, false,
	"Don't reorder tasks to reduce render passes");

	static DEFINE_bool(nga, false, "use Ganesh' New Ganesh Architecture");

	static DEFINE_int(gpuResourceCacheLimit, -1,
	"Maximum number of bytes to use for budgeted GPU resources. "
	"Default is -1, which means GrResourceCache::kDefaultMaxSize.");

	static GpuPathRenderers get_named_pathrenderers_flags(const char* name) {
	if (!strcmp(name, "none")) {
	return GpuPathRenderers::kNone;
	} else if (!strcmp(name, "dashline")) {
	return GpuPathRenderers::kDashLine;
	} else if (!strcmp(name, "aahairline")) {
	return GpuPathRenderers::kAAHairline;
	} else if (!strcmp(name, "aaconvex")) {
	return GpuPathRenderers::kAAConvex;
	} else if (!strcmp(name, "aalinearizing")) {
	return GpuPathRenderers::kAALinearizing;
	} else if (!strcmp(name, "small")) {
	return GpuPathRenderers::kSmall;
	} else if (!strcmp(name, "tri")) {
	return GpuPathRenderers::kTriangulating;
	} else if (!strcmp(name, "tess")) {
	return GpuPathRenderers::kTessellation;
	} else if (!strcmp(name, "default")) {
	return GpuPathRenderers::kDefault;
	}
	SK_ABORT("error: unknown named path renderer \"%s\"\n", name);
	}

	static GpuPathRenderers collect_gpu_path_renderers_from_flags() {
	if (FLAGS_pr.isEmpty()) {
	return GpuPathRenderers::kDefault;
	}

	GpuPathRenderers gpuPathRenderers = ('~' == FLAGS_pr[0][0])
	? GpuPathRenderers::kDefault
	: GpuPathRenderers::kNone;

	for (int i = 0; i < FLAGS_pr.count(); ++i) {
	const char* name = FLAGS_pr[i];
	if (name[0] == '~') {
	gpuPathRenderers &= ~get_named_pathrenderers_flags(&name[1]);
	} else {
	gpuPathRenderers \|= get_named_pathrenderers_flags(name);
	}
	}
	return gpuPathRenderers;
	}

	void SetCtxOptionsFromCommonFlags(GrContextOptions* ctxOptions) {
	static std::unique_ptr<SkExecutor> gGpuExecutor = (0 != FLAGS_gpuThreads)
	? SkExecutor::MakeFIFOThreadPool(FLAGS_gpuThreads)
	: nullptr;

	ctxOptions->fExecutor = gGpuExecutor.get();
	ctxOptions->fAllowPathMaskCaching = FLAGS_cachePathMasks;
	ctxOptions->fAllPathsVolatile = FLAGS_allPathsVolatile;
	ctxOptions->fSuppressGeometryShaders = !FLAGS_gs;
	ctxOptions->fEnableExperimentalHardwareTessellation = FLAGS_hwtess;
	ctxOptions->fMaxTessellationSegmentsOverride = FLAGS_maxTessellationSegments;
	ctxOptions->fAlwaysPreferHardwareTessellation = FLAGS_alwaysHwTess;
	ctxOptions->fGpuPathRenderers = collect_gpu_path_renderers_from_flags();
	ctxOptions->fInternalMultisampleCount = FLAGS_internalSamples;
	ctxOptions->fDisableDriverCorrectnessWorkarounds = FLAGS_disableDriverCorrectnessWorkarounds;
	ctxOptions->fResourceCacheLimitOverride = FLAGS_gpuResourceCacheLimit;

	if (FLAGS_dontReduceOpsTaskSplitting) {
	ctxOptions->fReduceOpsTaskSplitting = GrContextOptions::Enable::kNo;
	} else {
	ctxOptions->fReduceOpsTaskSplitting = GrContextOptions::Enable::kYes;
	}

	if (FLAGS_nga) {
	ctxOptions->fUseNGA = GrContextOptions::Enable::kYes;
	}
	}