files/unit_test/unit_test.cc - platform/external/libyuv - Git at Google

 /*
  *  Copyright 2011 The LibYuv 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 in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS. All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "../unit_test/unit_test.h"

 #include <stdlib.h>  // For getenv()

 #include <cstring>

 #include "gflags/gflags.h"

 // Change this to 1000 for benchmarking.
 // TODO(fbarchard): Add command line parsing to pass this as option.
 #define BENCHMARK_ITERATIONS 1

 unsigned int fastrand_seed = 0xfb;

 DEFINE_int32(libyuv_width, 0, "width of test image.");
 DEFINE_int32(libyuv_height, 0, "height of test image.");
 DEFINE_int32(libyuv_repeat, 0, "number of times to repeat test.");
 DEFINE_int32(libyuv_flags, 0,
              "cpu flags for reference code. 1 = C, -1 = SIMD");
 DEFINE_int32(libyuv_cpu_info, 0,
              "cpu flags for benchmark code. 1 = C, -1 = SIMD");

 // For quicker unittests, default is 128 x 72.  But when benchmarking,
 // default to 720p.  Allow size to specify.
 // Set flags to -1 for benchmarking to avoid slower C code.

 LibYUVConvertTest::LibYUVConvertTest() :
     benchmark_iterations_(BENCHMARK_ITERATIONS), benchmark_width_(128),
     benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) {
   const char* repeat = getenv("LIBYUV_REPEAT");
   if (repeat) {
     benchmark_iterations_ = atoi(repeat);  // NOLINT
   }
   if (FLAGS_libyuv_repeat) {
     benchmark_iterations_ = FLAGS_libyuv_repeat;
   }
   if (benchmark_iterations_ > 1) {
     benchmark_width_ = 1280;
     benchmark_height_ = 720;
   }
   const char* width = getenv("LIBYUV_WIDTH");
   if (width) {
     benchmark_width_ = atoi(width);  // NOLINT
   }
   if (FLAGS_libyuv_width) {
     benchmark_width_ = FLAGS_libyuv_width;
   }
   const char* height = getenv("LIBYUV_HEIGHT");
   if (height) {
     benchmark_height_ = atoi(height);  // NOLINT
   }
   if (FLAGS_libyuv_height) {
     benchmark_height_ = FLAGS_libyuv_height;
   }
   const char* cpu_flags = getenv("LIBYUV_FLAGS");
   if (cpu_flags) {
     disable_cpu_flags_ = atoi(cpu_flags);  // NOLINT
   }
   if (FLAGS_libyuv_flags) {
     disable_cpu_flags_ = FLAGS_libyuv_flags;
   }
   const char* cpu_info = getenv("LIBYUV_CPU_INFO");
   if (cpu_info) {
     benchmark_cpu_info_ = atoi(cpu_flags);  // NOLINT
   }
   if (FLAGS_libyuv_cpu_info) {
     benchmark_cpu_info_ = FLAGS_libyuv_cpu_info;
   }
   benchmark_pixels_div256_ = static_cast<int>((
       static_cast<double>(Abs(benchmark_width_)) *
       static_cast<double>(Abs(benchmark_height_)) *
       static_cast<double>(benchmark_iterations_)  + 255.0) / 256.0);
   benchmark_pixels_div1280_ = static_cast<int>((
       static_cast<double>(Abs(benchmark_width_)) *
       static_cast<double>(Abs(benchmark_height_)) *
       static_cast<double>(benchmark_iterations_)  + 1279.0) / 1280.0);
 }

 LibYUVColorTest::LibYUVColorTest() :
     benchmark_iterations_(BENCHMARK_ITERATIONS), benchmark_width_(128),
     benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) {
   const char* repeat = getenv("LIBYUV_REPEAT");
   if (repeat) {
     benchmark_iterations_ = atoi(repeat);  // NOLINT
   }
   if (FLAGS_libyuv_repeat) {
     benchmark_iterations_ = FLAGS_libyuv_repeat;
   }
   if (benchmark_iterations_ > 1) {
     benchmark_width_ = 1280;
     benchmark_height_ = 720;
   }
   const char* width = getenv("LIBYUV_WIDTH");
   if (width) {
     benchmark_width_ = atoi(width);  // NOLINT
   }
   if (FLAGS_libyuv_width) {
     benchmark_width_ = FLAGS_libyuv_width;
   }
   const char* height = getenv("LIBYUV_HEIGHT");
   if (height) {
     benchmark_height_ = atoi(height);  // NOLINT
   }
   if (FLAGS_libyuv_height) {
     benchmark_height_ = FLAGS_libyuv_height;
   }
   const char* cpu_flags = getenv("LIBYUV_FLAGS");
   if (cpu_flags) {
     disable_cpu_flags_ = atoi(cpu_flags);  // NOLINT
   }
   if (FLAGS_libyuv_flags) {
     disable_cpu_flags_ = FLAGS_libyuv_flags;
   }
   const char* cpu_info = getenv("LIBYUV_CPU_INFO");
   if (cpu_info) {
     benchmark_cpu_info_ = atoi(cpu_flags);  // NOLINT
   }
   if (FLAGS_libyuv_cpu_info) {
     benchmark_cpu_info_ = FLAGS_libyuv_cpu_info;
   }
   benchmark_pixels_div256_ = static_cast<int>((
       static_cast<double>(Abs(benchmark_width_)) *
       static_cast<double>(Abs(benchmark_height_)) *
       static_cast<double>(benchmark_iterations_)  + 255.0) / 256.0);
   benchmark_pixels_div1280_ = static_cast<int>((
       static_cast<double>(Abs(benchmark_width_)) *
       static_cast<double>(Abs(benchmark_height_)) *
       static_cast<double>(benchmark_iterations_)  + 1279.0) / 1280.0);
 }

 LibYUVScaleTest::LibYUVScaleTest() :
     benchmark_iterations_(BENCHMARK_ITERATIONS), benchmark_width_(128),
     benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) {
   const char* repeat = getenv("LIBYUV_REPEAT");
   if (repeat) {
     benchmark_iterations_ = atoi(repeat);  // NOLINT
   }
   if (FLAGS_libyuv_repeat) {
     benchmark_iterations_ = FLAGS_libyuv_repeat;
   }
   if (benchmark_iterations_ > 1) {
     benchmark_width_ = 1280;
     benchmark_height_ = 720;
   }
   const char* width = getenv("LIBYUV_WIDTH");
   if (width) {
     benchmark_width_ = atoi(width);  // NOLINT
   }
   if (FLAGS_libyuv_width) {
     benchmark_width_ = FLAGS_libyuv_width;
   }
   const char* height = getenv("LIBYUV_HEIGHT");
   if (height) {
     benchmark_height_ = atoi(height);  // NOLINT
   }
   if (FLAGS_libyuv_height) {
     benchmark_height_ = FLAGS_libyuv_height;
   }
   const char* cpu_flags = getenv("LIBYUV_FLAGS");
   if (cpu_flags) {
     disable_cpu_flags_ = atoi(cpu_flags);  // NOLINT
   }
   if (FLAGS_libyuv_flags) {
     disable_cpu_flags_ = FLAGS_libyuv_flags;
   }
   const char* cpu_info = getenv("LIBYUV_CPU_INFO");
   if (cpu_info) {
     benchmark_cpu_info_ = atoi(cpu_flags);  // NOLINT
   }
   if (FLAGS_libyuv_cpu_info) {
     benchmark_cpu_info_ = FLAGS_libyuv_cpu_info;
   }
   benchmark_pixels_div256_ = static_cast<int>((
       static_cast<double>(Abs(benchmark_width_)) *
       static_cast<double>(Abs(benchmark_height_)) *
       static_cast<double>(benchmark_iterations_)  + 255.0) / 256.0);
   benchmark_pixels_div1280_ = static_cast<int>((
       static_cast<double>(Abs(benchmark_width_)) *
       static_cast<double>(Abs(benchmark_height_)) *
       static_cast<double>(benchmark_iterations_)  + 1279.0) / 1280.0);
 }

 LibYUVRotateTest::LibYUVRotateTest() :
     benchmark_iterations_(BENCHMARK_ITERATIONS), benchmark_width_(128),
     benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) {
   const char* repeat = getenv("LIBYUV_REPEAT");
   if (repeat) {
     benchmark_iterations_ = atoi(repeat);  // NOLINT
   }
   if (FLAGS_libyuv_repeat) {
     benchmark_iterations_ = FLAGS_libyuv_repeat;
   }
   if (benchmark_iterations_ > 1) {
     benchmark_width_ = 1280;
     benchmark_height_ = 720;
   }
   const char* width = getenv("LIBYUV_WIDTH");
   if (width) {
     benchmark_width_ = atoi(width);  // NOLINT
   }
   if (FLAGS_libyuv_width) {
     benchmark_width_ = FLAGS_libyuv_width;
   }
   const char* height = getenv("LIBYUV_HEIGHT");
   if (height) {
     benchmark_height_ = atoi(height);  // NOLINT
   }
   if (FLAGS_libyuv_height) {
     benchmark_height_ = FLAGS_libyuv_height;
   }
   const char* cpu_flags = getenv("LIBYUV_FLAGS");
   if (cpu_flags) {
     disable_cpu_flags_ = atoi(cpu_flags);  // NOLINT
   }
   if (FLAGS_libyuv_flags) {
     disable_cpu_flags_ = FLAGS_libyuv_flags;
   }
   const char* cpu_info = getenv("LIBYUV_CPU_INFO");
   if (cpu_info) {
     benchmark_cpu_info_ = atoi(cpu_flags);  // NOLINT
   }
   if (FLAGS_libyuv_cpu_info) {
     benchmark_cpu_info_ = FLAGS_libyuv_cpu_info;
   }
   benchmark_pixels_div256_ = static_cast<int>((
       static_cast<double>(Abs(benchmark_width_)) *
       static_cast<double>(Abs(benchmark_height_)) *
       static_cast<double>(benchmark_iterations_)  + 255.0) / 256.0);
   benchmark_pixels_div1280_ = static_cast<int>((
       static_cast<double>(Abs(benchmark_width_)) *
       static_cast<double>(Abs(benchmark_height_)) *
       static_cast<double>(benchmark_iterations_)  + 1279.0) / 1280.0);
 }

 LibYUVPlanarTest::LibYUVPlanarTest() :
     benchmark_iterations_(BENCHMARK_ITERATIONS), benchmark_width_(128),
     benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) {
   const char* repeat = getenv("LIBYUV_REPEAT");
   if (repeat) {
     benchmark_iterations_ = atoi(repeat);  // NOLINT
   }
   if (FLAGS_libyuv_repeat) {
     benchmark_iterations_ = FLAGS_libyuv_repeat;
   }
   if (benchmark_iterations_ > 1) {
     benchmark_width_ = 1280;
     benchmark_height_ = 720;
   }
   const char* width = getenv("LIBYUV_WIDTH");
   if (width) {
     benchmark_width_ = atoi(width);  // NOLINT
   }
   if (FLAGS_libyuv_width) {
     benchmark_width_ = FLAGS_libyuv_width;
   }
   const char* height = getenv("LIBYUV_HEIGHT");
   if (height) {
     benchmark_height_ = atoi(height);  // NOLINT
   }
   if (FLAGS_libyuv_height) {
     benchmark_height_ = FLAGS_libyuv_height;
   }
   const char* cpu_flags = getenv("LIBYUV_FLAGS");
   if (cpu_flags) {
     disable_cpu_flags_ = atoi(cpu_flags);  // NOLINT
   }
   if (FLAGS_libyuv_flags) {
     disable_cpu_flags_ = FLAGS_libyuv_flags;
   }
   const char* cpu_info = getenv("LIBYUV_CPU_INFO");
   if (cpu_info) {
     benchmark_cpu_info_ = atoi(cpu_flags);  // NOLINT
   }
   if (FLAGS_libyuv_cpu_info) {
     benchmark_cpu_info_ = FLAGS_libyuv_cpu_info;
   }
   benchmark_pixels_div256_ = static_cast<int>((
       static_cast<double>(Abs(benchmark_width_)) *
       static_cast<double>(Abs(benchmark_height_)) *
       static_cast<double>(benchmark_iterations_)  + 255.0) / 256.0);
   benchmark_pixels_div1280_ = static_cast<int>((
       static_cast<double>(Abs(benchmark_width_)) *
       static_cast<double>(Abs(benchmark_height_)) *
       static_cast<double>(benchmark_iterations_)  + 1279.0) / 1280.0);
 }

 LibYUVBaseTest::LibYUVBaseTest() :
     benchmark_iterations_(BENCHMARK_ITERATIONS), benchmark_width_(128),
     benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) {
   const char* repeat = getenv("LIBYUV_REPEAT");
   if (repeat) {
     benchmark_iterations_ = atoi(repeat);  // NOLINT
   }
   if (FLAGS_libyuv_repeat) {
     benchmark_iterations_ = FLAGS_libyuv_repeat;
   }
   if (benchmark_iterations_ > 1) {
     benchmark_width_ = 1280;
     benchmark_height_ = 720;
   }
   const char* width = getenv("LIBYUV_WIDTH");
   if (width) {
     benchmark_width_ = atoi(width);  // NOLINT
   }
   if (FLAGS_libyuv_width) {
     benchmark_width_ = FLAGS_libyuv_width;
   }
   const char* height = getenv("LIBYUV_HEIGHT");
   if (height) {
     benchmark_height_ = atoi(height);  // NOLINT
   }
   if (FLAGS_libyuv_height) {
     benchmark_height_ = FLAGS_libyuv_height;
   }
   const char* cpu_flags = getenv("LIBYUV_FLAGS");
   if (cpu_flags) {
     disable_cpu_flags_ = atoi(cpu_flags);  // NOLINT
   }
   if (FLAGS_libyuv_flags) {
     disable_cpu_flags_ = FLAGS_libyuv_flags;
   }
   const char* cpu_info = getenv("LIBYUV_CPU_INFO");
   if (cpu_info) {
     benchmark_cpu_info_ = atoi(cpu_flags);  // NOLINT
   }
   if (FLAGS_libyuv_cpu_info) {
     benchmark_cpu_info_ = FLAGS_libyuv_cpu_info;
   }
   benchmark_pixels_div256_ = static_cast<int>((
       static_cast<double>(Abs(benchmark_width_)) *
       static_cast<double>(Abs(benchmark_height_)) *
       static_cast<double>(benchmark_iterations_)  + 255.0) / 256.0);
   benchmark_pixels_div1280_ = static_cast<int>((
       static_cast<double>(Abs(benchmark_width_)) *
       static_cast<double>(Abs(benchmark_height_)) *
       static_cast<double>(benchmark_iterations_)  + 1279.0) / 1280.0);
 }

 int main(int argc, char** argv) {
   ::testing::InitGoogleTest(&argc, argv);
   // AllowCommandLineParsing allows us to ignore flags passed on to us by
   // Chromium build bots without having to explicitly disable them.
   google::AllowCommandLineReparsing();
   google::ParseCommandLineFlags(&argc, &argv, true);
   return RUN_ALL_TESTS();
 }
	/*
	* Copyright 2011 The LibYuv 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 in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "../unit_test/unit_test.h"

	#include <stdlib.h> // For getenv()

	#include <cstring>

	#include "gflags/gflags.h"

	// Change this to 1000 for benchmarking.
	// TODO(fbarchard): Add command line parsing to pass this as option.
	#define BENCHMARK_ITERATIONS 1

	unsigned int fastrand_seed = 0xfb;

	DEFINE_int32(libyuv_width, 0, "width of test image.");
	DEFINE_int32(libyuv_height, 0, "height of test image.");
	DEFINE_int32(libyuv_repeat, 0, "number of times to repeat test.");
	DEFINE_int32(libyuv_flags, 0,
	"cpu flags for reference code. 1 = C, -1 = SIMD");
	DEFINE_int32(libyuv_cpu_info, 0,
	"cpu flags for benchmark code. 1 = C, -1 = SIMD");

	// For quicker unittests, default is 128 x 72. But when benchmarking,
	// default to 720p. Allow size to specify.
	// Set flags to -1 for benchmarking to avoid slower C code.

	LibYUVConvertTest::LibYUVConvertTest() :
	benchmark_iterations_(BENCHMARK_ITERATIONS), benchmark_width_(128),
	benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) {
	const char* repeat = getenv("LIBYUV_REPEAT");
	if (repeat) {
	benchmark_iterations_ = atoi(repeat); // NOLINT
	}
	if (FLAGS_libyuv_repeat) {
	benchmark_iterations_ = FLAGS_libyuv_repeat;
	}
	if (benchmark_iterations_ > 1) {
	benchmark_width_ = 1280;
	benchmark_height_ = 720;
	}
	const char* width = getenv("LIBYUV_WIDTH");
	if (width) {
	benchmark_width_ = atoi(width); // NOLINT
	}
	if (FLAGS_libyuv_width) {
	benchmark_width_ = FLAGS_libyuv_width;
	}
	const char* height = getenv("LIBYUV_HEIGHT");
	if (height) {
	benchmark_height_ = atoi(height); // NOLINT
	}
	if (FLAGS_libyuv_height) {
	benchmark_height_ = FLAGS_libyuv_height;
	}
	const char* cpu_flags = getenv("LIBYUV_FLAGS");
	if (cpu_flags) {
	disable_cpu_flags_ = atoi(cpu_flags); // NOLINT
	}
	if (FLAGS_libyuv_flags) {
	disable_cpu_flags_ = FLAGS_libyuv_flags;
	}
	const char* cpu_info = getenv("LIBYUV_CPU_INFO");
	if (cpu_info) {
	benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT
	}
	if (FLAGS_libyuv_cpu_info) {
	benchmark_cpu_info_ = FLAGS_libyuv_cpu_info;
	}
	benchmark_pixels_div256_ = static_cast<int>((
	static_cast<double>(Abs(benchmark_width_)) *
	static_cast<double>(Abs(benchmark_height_)) *
	static_cast<double>(benchmark_iterations_) + 255.0) / 256.0);
	benchmark_pixels_div1280_ = static_cast<int>((
	static_cast<double>(Abs(benchmark_width_)) *
	static_cast<double>(Abs(benchmark_height_)) *
	static_cast<double>(benchmark_iterations_) + 1279.0) / 1280.0);
	}

	LibYUVColorTest::LibYUVColorTest() :
	benchmark_iterations_(BENCHMARK_ITERATIONS), benchmark_width_(128),
	benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) {
	const char* repeat = getenv("LIBYUV_REPEAT");
	if (repeat) {
	benchmark_iterations_ = atoi(repeat); // NOLINT
	}
	if (FLAGS_libyuv_repeat) {
	benchmark_iterations_ = FLAGS_libyuv_repeat;
	}
	if (benchmark_iterations_ > 1) {
	benchmark_width_ = 1280;
	benchmark_height_ = 720;
	}
	const char* width = getenv("LIBYUV_WIDTH");
	if (width) {
	benchmark_width_ = atoi(width); // NOLINT
	}
	if (FLAGS_libyuv_width) {
	benchmark_width_ = FLAGS_libyuv_width;
	}
	const char* height = getenv("LIBYUV_HEIGHT");
	if (height) {
	benchmark_height_ = atoi(height); // NOLINT
	}
	if (FLAGS_libyuv_height) {
	benchmark_height_ = FLAGS_libyuv_height;
	}
	const char* cpu_flags = getenv("LIBYUV_FLAGS");
	if (cpu_flags) {
	disable_cpu_flags_ = atoi(cpu_flags); // NOLINT
	}
	if (FLAGS_libyuv_flags) {
	disable_cpu_flags_ = FLAGS_libyuv_flags;
	}
	const char* cpu_info = getenv("LIBYUV_CPU_INFO");
	if (cpu_info) {
	benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT
	}
	if (FLAGS_libyuv_cpu_info) {
	benchmark_cpu_info_ = FLAGS_libyuv_cpu_info;
	}
	benchmark_pixels_div256_ = static_cast<int>((
	static_cast<double>(Abs(benchmark_width_)) *
	static_cast<double>(Abs(benchmark_height_)) *
	static_cast<double>(benchmark_iterations_) + 255.0) / 256.0);
	benchmark_pixels_div1280_ = static_cast<int>((
	static_cast<double>(Abs(benchmark_width_)) *
	static_cast<double>(Abs(benchmark_height_)) *
	static_cast<double>(benchmark_iterations_) + 1279.0) / 1280.0);
	}

	LibYUVScaleTest::LibYUVScaleTest() :
	benchmark_iterations_(BENCHMARK_ITERATIONS), benchmark_width_(128),
	benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) {
	const char* repeat = getenv("LIBYUV_REPEAT");
	if (repeat) {
	benchmark_iterations_ = atoi(repeat); // NOLINT
	}
	if (FLAGS_libyuv_repeat) {
	benchmark_iterations_ = FLAGS_libyuv_repeat;
	}
	if (benchmark_iterations_ > 1) {
	benchmark_width_ = 1280;
	benchmark_height_ = 720;
	}
	const char* width = getenv("LIBYUV_WIDTH");
	if (width) {
	benchmark_width_ = atoi(width); // NOLINT
	}
	if (FLAGS_libyuv_width) {
	benchmark_width_ = FLAGS_libyuv_width;
	}
	const char* height = getenv("LIBYUV_HEIGHT");
	if (height) {
	benchmark_height_ = atoi(height); // NOLINT
	}
	if (FLAGS_libyuv_height) {
	benchmark_height_ = FLAGS_libyuv_height;
	}
	const char* cpu_flags = getenv("LIBYUV_FLAGS");
	if (cpu_flags) {
	disable_cpu_flags_ = atoi(cpu_flags); // NOLINT
	}
	if (FLAGS_libyuv_flags) {
	disable_cpu_flags_ = FLAGS_libyuv_flags;
	}
	const char* cpu_info = getenv("LIBYUV_CPU_INFO");
	if (cpu_info) {
	benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT
	}
	if (FLAGS_libyuv_cpu_info) {
	benchmark_cpu_info_ = FLAGS_libyuv_cpu_info;
	}
	benchmark_pixels_div256_ = static_cast<int>((
	static_cast<double>(Abs(benchmark_width_)) *
	static_cast<double>(Abs(benchmark_height_)) *
	static_cast<double>(benchmark_iterations_) + 255.0) / 256.0);
	benchmark_pixels_div1280_ = static_cast<int>((
	static_cast<double>(Abs(benchmark_width_)) *
	static_cast<double>(Abs(benchmark_height_)) *
	static_cast<double>(benchmark_iterations_) + 1279.0) / 1280.0);
	}

	LibYUVRotateTest::LibYUVRotateTest() :
	benchmark_iterations_(BENCHMARK_ITERATIONS), benchmark_width_(128),
	benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) {
	const char* repeat = getenv("LIBYUV_REPEAT");
	if (repeat) {
	benchmark_iterations_ = atoi(repeat); // NOLINT
	}
	if (FLAGS_libyuv_repeat) {
	benchmark_iterations_ = FLAGS_libyuv_repeat;
	}
	if (benchmark_iterations_ > 1) {
	benchmark_width_ = 1280;
	benchmark_height_ = 720;
	}
	const char* width = getenv("LIBYUV_WIDTH");
	if (width) {
	benchmark_width_ = atoi(width); // NOLINT
	}
	if (FLAGS_libyuv_width) {
	benchmark_width_ = FLAGS_libyuv_width;
	}
	const char* height = getenv("LIBYUV_HEIGHT");
	if (height) {
	benchmark_height_ = atoi(height); // NOLINT
	}
	if (FLAGS_libyuv_height) {
	benchmark_height_ = FLAGS_libyuv_height;
	}
	const char* cpu_flags = getenv("LIBYUV_FLAGS");
	if (cpu_flags) {
	disable_cpu_flags_ = atoi(cpu_flags); // NOLINT
	}
	if (FLAGS_libyuv_flags) {
	disable_cpu_flags_ = FLAGS_libyuv_flags;
	}
	const char* cpu_info = getenv("LIBYUV_CPU_INFO");
	if (cpu_info) {
	benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT
	}
	if (FLAGS_libyuv_cpu_info) {
	benchmark_cpu_info_ = FLAGS_libyuv_cpu_info;
	}
	benchmark_pixels_div256_ = static_cast<int>((
	static_cast<double>(Abs(benchmark_width_)) *
	static_cast<double>(Abs(benchmark_height_)) *
	static_cast<double>(benchmark_iterations_) + 255.0) / 256.0);
	benchmark_pixels_div1280_ = static_cast<int>((
	static_cast<double>(Abs(benchmark_width_)) *
	static_cast<double>(Abs(benchmark_height_)) *
	static_cast<double>(benchmark_iterations_) + 1279.0) / 1280.0);
	}

	LibYUVPlanarTest::LibYUVPlanarTest() :
	benchmark_iterations_(BENCHMARK_ITERATIONS), benchmark_width_(128),
	benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) {
	const char* repeat = getenv("LIBYUV_REPEAT");
	if (repeat) {
	benchmark_iterations_ = atoi(repeat); // NOLINT
	}
	if (FLAGS_libyuv_repeat) {
	benchmark_iterations_ = FLAGS_libyuv_repeat;
	}
	if (benchmark_iterations_ > 1) {
	benchmark_width_ = 1280;
	benchmark_height_ = 720;
	}
	const char* width = getenv("LIBYUV_WIDTH");
	if (width) {
	benchmark_width_ = atoi(width); // NOLINT
	}
	if (FLAGS_libyuv_width) {
	benchmark_width_ = FLAGS_libyuv_width;
	}
	const char* height = getenv("LIBYUV_HEIGHT");
	if (height) {
	benchmark_height_ = atoi(height); // NOLINT
	}
	if (FLAGS_libyuv_height) {
	benchmark_height_ = FLAGS_libyuv_height;
	}
	const char* cpu_flags = getenv("LIBYUV_FLAGS");
	if (cpu_flags) {
	disable_cpu_flags_ = atoi(cpu_flags); // NOLINT
	}
	if (FLAGS_libyuv_flags) {
	disable_cpu_flags_ = FLAGS_libyuv_flags;
	}
	const char* cpu_info = getenv("LIBYUV_CPU_INFO");
	if (cpu_info) {
	benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT
	}
	if (FLAGS_libyuv_cpu_info) {
	benchmark_cpu_info_ = FLAGS_libyuv_cpu_info;
	}
	benchmark_pixels_div256_ = static_cast<int>((
	static_cast<double>(Abs(benchmark_width_)) *
	static_cast<double>(Abs(benchmark_height_)) *
	static_cast<double>(benchmark_iterations_) + 255.0) / 256.0);
	benchmark_pixels_div1280_ = static_cast<int>((
	static_cast<double>(Abs(benchmark_width_)) *
	static_cast<double>(Abs(benchmark_height_)) *
	static_cast<double>(benchmark_iterations_) + 1279.0) / 1280.0);
	}

	LibYUVBaseTest::LibYUVBaseTest() :
	benchmark_iterations_(BENCHMARK_ITERATIONS), benchmark_width_(128),
	benchmark_height_(72), disable_cpu_flags_(1), benchmark_cpu_info_(-1) {
	const char* repeat = getenv("LIBYUV_REPEAT");
	if (repeat) {
	benchmark_iterations_ = atoi(repeat); // NOLINT
	}
	if (FLAGS_libyuv_repeat) {
	benchmark_iterations_ = FLAGS_libyuv_repeat;
	}
	if (benchmark_iterations_ > 1) {
	benchmark_width_ = 1280;
	benchmark_height_ = 720;
	}
	const char* width = getenv("LIBYUV_WIDTH");
	if (width) {
	benchmark_width_ = atoi(width); // NOLINT
	}
	if (FLAGS_libyuv_width) {
	benchmark_width_ = FLAGS_libyuv_width;
	}
	const char* height = getenv("LIBYUV_HEIGHT");
	if (height) {
	benchmark_height_ = atoi(height); // NOLINT
	}
	if (FLAGS_libyuv_height) {
	benchmark_height_ = FLAGS_libyuv_height;
	}
	const char* cpu_flags = getenv("LIBYUV_FLAGS");
	if (cpu_flags) {
	disable_cpu_flags_ = atoi(cpu_flags); // NOLINT
	}
	if (FLAGS_libyuv_flags) {
	disable_cpu_flags_ = FLAGS_libyuv_flags;
	}
	const char* cpu_info = getenv("LIBYUV_CPU_INFO");
	if (cpu_info) {
	benchmark_cpu_info_ = atoi(cpu_flags); // NOLINT
	}
	if (FLAGS_libyuv_cpu_info) {
	benchmark_cpu_info_ = FLAGS_libyuv_cpu_info;
	}
	benchmark_pixels_div256_ = static_cast<int>((
	static_cast<double>(Abs(benchmark_width_)) *
	static_cast<double>(Abs(benchmark_height_)) *
	static_cast<double>(benchmark_iterations_) + 255.0) / 256.0);
	benchmark_pixels_div1280_ = static_cast<int>((
	static_cast<double>(Abs(benchmark_width_)) *
	static_cast<double>(Abs(benchmark_height_)) *
	static_cast<double>(benchmark_iterations_) + 1279.0) / 1280.0);
	}

	int main(int argc, char** argv) {
	::testing::InitGoogleTest(&argc, argv);
	// AllowCommandLineParsing allows us to ignore flags passed on to us by
	// Chromium build bots without having to explicitly disable them.
	google::AllowCommandLineReparsing();
	google::ParseCommandLineFlags(&argc, &argv, true);
	return RUN_ALL_TESTS();
	}