kc3-lang/angle/src/tests/perf_tests/ANGLEPerfTestArgs.cpp
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Hash : 9c05f55a
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Date : 2021-07-15T10:58:10
Capture/Replay: Add replay state validation. We can use this to validate traces that have slight differences when retracing. The valdation works by embedding the "expected" JSON into a string at the end of each captured frame. The replay also embeds a callback which fires right before the swap in the replay harness. The harness then gets the "actual" JSON and runs a comparison. On a mismatch it calls "diff" externally. Currently the diff call is hard-coded to work on Linux only. Note that when running validation it's important to replay on SwiftShader since that's what we use to retrace. Bug: angleproject:5133 Change-Id: Icbf0031d07be8bd916607c537dec235f9a512c43 Reviewed-on: https://chromium-review.googlesource.com/c/angle/angle/+/3066008 Commit-Queue: Jamie Madill <jmadill@chromium.org> Reviewed-by: Tim Van Patten <timvp@google.com> Reviewed-by: Cody Northrop <cnorthrop@google.com>
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src/tests/perf_tests/ANGLEPerfTestArgs.cpp
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// // Copyright 2019 The ANGLE Project Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // ANGLEPerfTestArgs.cpp: // Parse command line arguments for angle_perftests. // #include "ANGLEPerfTestArgs.h" #include <string.h> #include <sstream> namespace angle { bool gCalibration = false; int gStepsPerTrial = 0; int gMaxStepsPerformed = 0; bool gEnableTrace = false; const char *gTraceFile = "ANGLETrace.json"; const char *gScreenShotDir = nullptr; int gScreenShotFrame = 1; bool gVerboseLogging = false; double gCalibrationTimeSeconds = 1.0; double gMaxTrialTimeSeconds = 10.0; int gTestTrials = 3; bool gNoFinish = false; bool gEnableAllTraceTests = false; bool gRetraceMode = false; bool gMinimizeGPUWork = false; bool gTraceTestValidation = false; // Default to three warmup loops. There's no science to this. More than two loops was experimentally // helpful on a Windows NVIDIA setup when testing with Vulkan and native trace tests. int gWarmupLoops = 3; } // namespace angle namespace { int ReadIntArgument(const char *arg) { std::stringstream strstr; strstr << arg; int value; strstr >> value; return value; } // The same as --screenshot-dir, but used by Chrome tests. constexpr char kRenderTestDirArg[] = "--render-test-output-dir="; } // namespace using namespace angle; void ANGLEProcessPerfTestArgs(int *argc, char **argv) { for (int argIndex = 0; argIndex < *argc; argIndex++) { if (strcmp("--one-frame-only", argv[argIndex]) == 0) { gStepsPerTrial = 1; gWarmupLoops = 0; } else if (strcmp("--enable-trace", argv[argIndex]) == 0) { gEnableTrace = true; } else if (strcmp("--trace-file", argv[argIndex]) == 0 && argIndex < *argc - 1) { gTraceFile = argv[argIndex + 1]; // Skip an additional argument. argIndex++; } else if (strcmp("--calibration", argv[argIndex]) == 0) { gCalibration = true; gTestTrials = 0; } else if (strcmp("--steps-per-trial", argv[argIndex]) == 0 && argIndex < *argc - 1) { gStepsPerTrial = ReadIntArgument(argv[argIndex + 1]); // Skip an additional argument. argIndex++; } else if (strcmp("--max-steps-performed", argv[argIndex]) == 0 && argIndex < *argc - 1) { gMaxStepsPerformed = ReadIntArgument(argv[argIndex + 1]); gWarmupLoops = 0; gTestTrials = 1; gMaxTrialTimeSeconds = 36000; // Skip an additional argument. argIndex++; } else if (strcmp("--fixed-test-time", argv[argIndex]) == 0 && argIndex < *argc - 1) { gMaxTrialTimeSeconds = ReadIntArgument(argv[argIndex + 1]); gStepsPerTrial = std::numeric_limits<int>::max(); gTestTrials = 1; gWarmupLoops = 0; // Skip an additional argument. argIndex++; } else if (strcmp("--screenshot-dir", argv[argIndex]) == 0 && argIndex < *argc - 1) { gScreenShotDir = argv[argIndex + 1]; argIndex++; } else if (strcmp("--screenshot-frame", argv[argIndex]) == 0 && argIndex < *argc - 1) { gScreenShotFrame = ReadIntArgument(argv[argIndex + 1]); argIndex++; } else if (strcmp("--verbose-logging", argv[argIndex]) == 0 || strcmp("--verbose", argv[argIndex]) == 0 || strcmp("-v", argv[argIndex]) == 0) { gVerboseLogging = true; } else if (strcmp("--warmup-loops", argv[argIndex]) == 0) { gWarmupLoops = ReadIntArgument(argv[argIndex + 1]); // Skip an additional argument. argIndex++; } else if (strcmp("--no-warmup", argv[argIndex]) == 0) { gWarmupLoops = 0; } else if (strncmp(kRenderTestDirArg, argv[argIndex], strlen(kRenderTestDirArg)) == 0) { gScreenShotDir = argv[argIndex] + strlen(kRenderTestDirArg); } else if (strcmp("--calibration-time", argv[argIndex]) == 0) { gCalibrationTimeSeconds = ReadIntArgument(argv[argIndex + 1]); // Skip an additional argument. argIndex++; } else if (strcmp("--max-trial-time", argv[argIndex]) == 0) { gMaxTrialTimeSeconds = ReadIntArgument(argv[argIndex + 1]); // Skip an additional argument. argIndex++; } else if (strcmp("--trials", argv[argIndex]) == 0) { gTestTrials = ReadIntArgument(argv[argIndex + 1]); // Skip an additional argument. argIndex++; } else if (strcmp("--no-finish", argv[argIndex]) == 0) { gNoFinish = true; } else if (strcmp("--enable-all-trace-tests", argv[argIndex]) == 0) { gEnableAllTraceTests = true; } else if (strcmp("--retrace-mode", argv[argIndex]) == 0) { gRetraceMode = true; } else if (strcmp("--minimize-gpu-work", argv[argIndex]) == 0) { gMinimizeGPUWork = true; } else if (strcmp("--validation", argv[argIndex]) == 0) { gTraceTestValidation = true; gWarmupLoops = 0; gTestTrials = 1; gMaxTrialTimeSeconds = 600.0; } } }