media/capture/content/capture_resolution_chooser_unittest.cc - chromium/src - Git at Google

 // Copyright 2015 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "media/capture/content/capture_resolution_chooser.h"

 #include <stddef.h>

 #include "base/location.h"
 #include "base/stl_util.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "ui/gfx/geometry/size.h"

 using base::Location;

 namespace media {

 namespace {

 // 16:9 maximum and minimum frame sizes.
 constexpr int kMaxFrameWidth = 3840;
 constexpr int kMaxFrameHeight = 2160;
 constexpr int kMinFrameWidth = 320;
 constexpr int kMinFrameHeight = 180;

 // Smallest non-empty size for I420 video.
 constexpr int kSmallestNonEmptyWidth = 2;
 constexpr int kSmallestNonEmptyHeight = 2;

 // Checks whether |size| is strictly between (inclusive) |min_size| and
 // |max_size| and has the same aspect ratio as |max_size|.
 void ExpectIsWithinBoundsAndSameAspectRatio(const Location& location,
                                             const gfx::Size& min_size,
                                             const gfx::Size& max_size,
                                             const gfx::Size& size) {
   SCOPED_TRACE(::testing::Message() << "From here: " << location.ToString());
   EXPECT_LE(min_size.width(), size.width());
   EXPECT_LE(min_size.height(), size.height());
   EXPECT_GE(max_size.width(), size.width());
   EXPECT_GE(max_size.height(), size.height());
   EXPECT_NEAR(static_cast<double>(max_size.width()) / max_size.height(),
               static_cast<double>(size.width()) / size.height(), 0.01);
 }

 // Test that the correct snapped frame sizes are computed for a |chooser|
 // configured with either of the variable-resolution change policies, and are
 // correctly found when searched.
 void TestSnappedFrameSizes(CaptureResolutionChooser* chooser,
                            const gfx::Size& smallest_size) {
   const int kSizes[17][2] = {
       {kMaxFrameWidth, kMaxFrameHeight},
       {3520, 1980},
       {3200, 1800},
       {2880, 1620},
       {2560, 1440},
       {2240, 1260},
       {1920, 1080},
       {1760, 990},
       {1600, 900},
       {1440, 810},
       {1280, 720},
       {1120, 630},
       {960, 540},
       {800, 450},
       {640, 360},
       {480, 270},
       {320, 180},
   };

   const gfx::Size largest_size(kMaxFrameWidth, kMaxFrameHeight);
   chooser->SetSourceSize(largest_size);

   // There should be no size larger than the largest size.
   for (int i = 1; i < 4; ++i) {
     EXPECT_EQ(largest_size,
               chooser->FindLargerFrameSize(largest_size.GetArea(), i));
     EXPECT_EQ(largest_size,
               chooser->FindLargerFrameSize(largest_size.GetArea() * 2, +i));
   }

   // There should be no size smaller than the smallest size.
   for (int i = 1; i < 4; ++i) {
     EXPECT_EQ(smallest_size,
               chooser->FindSmallerFrameSize(smallest_size.GetArea(), i));
     EXPECT_EQ(smallest_size,
               chooser->FindSmallerFrameSize(smallest_size.GetArea() / 2, i));
   }

   // Test the "find Nth lower size" logic.
   for (size_t skips = 1; skips < 4; ++skips) {
     for (size_t i = skips; i < base::size(kSizes); ++i) {
       EXPECT_EQ(
           gfx::Size(kSizes[i][0], kSizes[i][1]),
           chooser->FindSmallerFrameSize(
               gfx::Size(kSizes[i - skips][0], kSizes[i - skips][1]).GetArea(),
               skips));
     }
   }

   // Test the "find Nth higher size" logic.
   for (size_t skips = 1; skips < 4; ++skips) {
     for (size_t i = skips; i < base::size(kSizes); ++i) {
       EXPECT_EQ(gfx::Size(kSizes[i - skips][0], kSizes[i - skips][1]),
                 chooser->FindLargerFrameSize(
                     gfx::Size(kSizes[i][0], kSizes[i][1]).GetArea(), skips));
     }
   }

   // Test the "find nearest size" logic.
   for (size_t i = 1; i < base::size(kSizes) - 1; ++i) {
     const gfx::Size size(kSizes[i][0], kSizes[i][1]);
     const int a_somewhat_smaller_area =
         gfx::Size((kSizes[i - 1][0] + 3 * kSizes[i][0]) / 4,
                   (kSizes[i - 1][1] + 3 * kSizes[i][1]) / 4).GetArea();
     EXPECT_EQ(size, chooser->FindNearestFrameSize(a_somewhat_smaller_area));

     const int a_smidge_smaller_area = size.GetArea() - 1;
     EXPECT_EQ(size, chooser->FindNearestFrameSize(a_smidge_smaller_area));

     const int a_smidge_larger_area = size.GetArea() + 1;
     EXPECT_EQ(size, chooser->FindNearestFrameSize(a_smidge_larger_area));

     const int a_somewhat_larger_area =
         gfx::Size((kSizes[i + 1][0] + 3 * kSizes[i][0]) / 4,
                   (kSizes[i + 1][1] + 3 * kSizes[i][1]) / 4).GetArea();
     EXPECT_EQ(size, chooser->FindNearestFrameSize(a_somewhat_larger_area));
   }
 }

 // Test that setting the target frame area results in the correct capture sizes
 // being computed for a |chooser| configured with either of the
 // variable-resolution change policies.
 void TestTargetedFrameAreas(CaptureResolutionChooser* chooser,
                             const gfx::Size& smallest_size) {
   chooser->SetSourceSize(gfx::Size(1280, 720));

   // The computed capture size cannot be larger than the source size, even
   // though the |chooser| is configured with a larger max frame size.
   chooser->SetTargetFrameArea(kMaxFrameWidth * kMaxFrameHeight);
   EXPECT_EQ(gfx::Size(1280, 720), chooser->capture_size());

   chooser->SetTargetFrameArea(1280 * 720 + 1);
   EXPECT_EQ(gfx::Size(1280, 720), chooser->capture_size());
   chooser->SetTargetFrameArea(1280 * 720 - 1);
   EXPECT_EQ(gfx::Size(1280, 720), chooser->capture_size());

   chooser->SetTargetFrameArea(1120 * 630 + 1);
   EXPECT_EQ(gfx::Size(1120, 630), chooser->capture_size());
   chooser->SetTargetFrameArea(1120 * 630 - 1);
   EXPECT_EQ(gfx::Size(1120, 630), chooser->capture_size());

   chooser->SetTargetFrameArea(800 * 450 + 1);
   EXPECT_EQ(gfx::Size(800, 450), chooser->capture_size());
   chooser->SetTargetFrameArea(800 * 450 - 1);
   EXPECT_EQ(gfx::Size(800, 450), chooser->capture_size());

   chooser->SetTargetFrameArea(640 * 360 + 1);
   EXPECT_EQ(gfx::Size(640, 360), chooser->capture_size());
   chooser->SetTargetFrameArea(640 * 360 - 1);
   EXPECT_EQ(gfx::Size(640, 360), chooser->capture_size());

   chooser->SetTargetFrameArea(smallest_size.GetArea() + 1);
   EXPECT_EQ(smallest_size, chooser->capture_size());
   chooser->SetTargetFrameArea(smallest_size.GetArea() - 1);
   EXPECT_EQ(smallest_size, chooser->capture_size());

   chooser->SetTargetFrameArea(smallest_size.GetArea() / 2);
   EXPECT_EQ(smallest_size, chooser->capture_size());

   chooser->SetTargetFrameArea(0);
   EXPECT_EQ(smallest_size, chooser->capture_size());

   // If the source size has increased, the |chooser| is now permitted to compute
   // higher capture sizes.
   chooser->SetSourceSize(gfx::Size(kMaxFrameWidth, kMaxFrameHeight));
   chooser->SetTargetFrameArea(kMaxFrameWidth * kMaxFrameHeight);
   EXPECT_EQ(gfx::Size(kMaxFrameWidth, kMaxFrameHeight),
             chooser->capture_size());

   chooser->SetTargetFrameArea(3200 * 1800 + 1);
   EXPECT_EQ(gfx::Size(3200, 1800), chooser->capture_size());
   chooser->SetTargetFrameArea(3200 * 1800 - 1);
   EXPECT_EQ(gfx::Size(3200, 1800), chooser->capture_size());

   chooser->SetTargetFrameArea(640 * 360 + 1);
   EXPECT_EQ(gfx::Size(640, 360), chooser->capture_size());
   chooser->SetTargetFrameArea(640 * 360 - 1);
   EXPECT_EQ(gfx::Size(640, 360), chooser->capture_size());

   chooser->SetTargetFrameArea(0);
   EXPECT_EQ(smallest_size, chooser->capture_size());
 }

 // Determines that there is only one snapped frame size by implication: This
 // function searches for the nearest/larger/smaller frame sizes around
 // |the_one_size| and checks that there is only ever one result.
 void ExpectOnlyOneSnappedFrameSize(const CaptureResolutionChooser& chooser,
                                    const gfx::Size& the_one_size) {
   for (int i = 1; i < 4; ++i) {
     EXPECT_EQ(the_one_size,
               chooser.FindNearestFrameSize(the_one_size.GetArea() * i));
     EXPECT_EQ(the_one_size,
               chooser.FindSmallerFrameSize(the_one_size.GetArea(), i));
     EXPECT_EQ(the_one_size,
               chooser.FindLargerFrameSize(the_one_size.GetArea(), i));
   }
 }

 }  // namespace

 // While clients should always strive to set their own constraints before
 // querying the CaptureResolutionChooser, do test that the reasonable "default"
 // behavior is exhibited beforehand.
 TEST(CaptureResolutionChooserTest, DefaultCaptureSizeIfNeverSetConstraints) {
   CaptureResolutionChooser chooser;
   EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
             chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(kMinFrameWidth, kMinFrameHeight));
   EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
             chooser.capture_size());

   chooser.SetSourceSize(gfx::Size());
   EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
             chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(kMaxFrameWidth, kMaxFrameHeight));
   EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
             chooser.capture_size());

   ExpectOnlyOneSnappedFrameSize(chooser,
                                 CaptureResolutionChooser::kDefaultCaptureSize);
 }

 // While clients should always strive to set the source size before querying the
 // CaptureResolutionChooser, do test that the reasonable "default" behavior is
 // exhibited beforehand.
 TEST(CaptureResolutionChooserTest, ReasonableCaptureSizeWhenMissingSourceSize) {
   CaptureResolutionChooser chooser;
   // CaptureResolutionChooser starts out with capture size set to
   // kDefaultCaptureSize.
   EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
             chooser.capture_size());

   // Setting constraints around kDefaultCaptureSize means the capture size
   // should remain as kDefaultCaptureSize.
   chooser.SetConstraints(gfx::Size(kMinFrameWidth, kMinFrameHeight),
                          gfx::Size(kMaxFrameWidth, kMaxFrameHeight), false);
   EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
             chooser.capture_size());

   // Setting constraints to a fixed size less than kDefaultCaptureSize will
   // change the capture size, to meet the required constraints range.
   chooser.SetConstraints(gfx::Size(kMinFrameWidth, kMinFrameHeight),
                          gfx::Size(kMinFrameWidth, kMinFrameHeight), false);
   EXPECT_EQ(gfx::Size(kMinFrameWidth, kMinFrameHeight), chooser.capture_size());

   // Setting the constraints back to the wide range should not change the
   // capture size, since the new range includes the former capture size.
   chooser.SetConstraints(gfx::Size(kMinFrameWidth, kMinFrameHeight),
                          gfx::Size(kMaxFrameWidth, kMaxFrameHeight), false);
   EXPECT_EQ(gfx::Size(kMinFrameWidth, kMinFrameHeight), chooser.capture_size());

   // Finally, updating the source size to be exactly in the middle of the
   // constraints range should result in the capture size being updated to that
   // same size.
   const gfx::Size middle_size((kMinFrameWidth + kMaxFrameWidth) / 2,
                               (kMinFrameHeight + kMaxFrameHeight) / 2);
   chooser.SetSourceSize(middle_size);
   EXPECT_EQ(middle_size, chooser.capture_size());
 }

 TEST(CaptureResolutionChooserTest,
      FixedResolutionPolicy_CaptureSizeAlwaysFixed) {
   const gfx::Size the_one_frame_size(kMaxFrameWidth, kMaxFrameHeight);
   CaptureResolutionChooser chooser;
   chooser.SetConstraints(the_one_frame_size, the_one_frame_size, false);
   EXPECT_EQ(the_one_frame_size, chooser.capture_size());

   chooser.SetSourceSize(the_one_frame_size);
   EXPECT_EQ(the_one_frame_size, chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(kMaxFrameWidth + 424, kMaxFrameHeight - 101));
   EXPECT_EQ(the_one_frame_size, chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(kMaxFrameWidth - 202, kMaxFrameHeight + 56));
   EXPECT_EQ(the_one_frame_size, chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(kMinFrameWidth, kMinFrameHeight));
   EXPECT_EQ(the_one_frame_size, chooser.capture_size());

   ExpectOnlyOneSnappedFrameSize(chooser, the_one_frame_size);

   // Ensure that changing the target frame area does not change the computed
   // frame size.
   chooser.SetTargetFrameArea(0);
   EXPECT_EQ(the_one_frame_size, chooser.capture_size());
   chooser.SetTargetFrameArea(the_one_frame_size.GetArea() / 2);
   EXPECT_EQ(the_one_frame_size, chooser.capture_size());
 }

 TEST(CaptureResolutionChooserTest,
      FixedAspectRatioPolicy_CaptureSizeHasSameAspectRatio) {
   const gfx::Size min_size(kMinFrameWidth, kMinFrameHeight);
   const gfx::Size max_size(kMaxFrameWidth, kMaxFrameHeight);
   CaptureResolutionChooser chooser;
   chooser.SetConstraints(min_size, max_size, true);

   // Starting condition.
   ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
                                          chooser.capture_size());

   // Max size in --> max size out.
   chooser.SetSourceSize(gfx::Size(kMaxFrameWidth, kMaxFrameHeight));
   ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
                                          chooser.capture_size());

   // Various source sizes within bounds.
   chooser.SetSourceSize(gfx::Size(640, 480));
   ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
                                          chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(480, 640));
   ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
                                          chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(640, 640));
   ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
                                          chooser.capture_size());

   // Bad source size results in no update.
   const gfx::Size unchanged_size = chooser.capture_size();
   chooser.SetSourceSize(gfx::Size(0, 0));
   EXPECT_EQ(unchanged_size, chooser.capture_size());

   // Downscaling size (preserving aspect ratio) when source size exceeds the
   // upper bounds.
   chooser.SetSourceSize(gfx::Size(kMaxFrameWidth * 2, kMaxFrameHeight * 2));
   ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
                                          chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(kMaxFrameWidth * 2, kMaxFrameHeight));
   ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
                                          chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(kMaxFrameWidth, kMaxFrameHeight * 2));
   ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
                                          chooser.capture_size());

   // Upscaling size (preserving aspect ratio) when source size is under the
   // lower bounds.
   chooser.SetSourceSize(gfx::Size(kMinFrameWidth / 2, kMinFrameHeight / 2));
   ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
                                          chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(kMinFrameWidth / 2, kMaxFrameHeight));
   ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
                                          chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(kMinFrameWidth, kMinFrameHeight / 2));
   ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
                                          chooser.capture_size());

   // For a chooser configured with the "fixed aspect ratio" policy, the smallest
   // possible computed size is the one with 180 lines of resolution and the same
   // aspect ratio.
   const gfx::Size smallest_size(180 * kMaxFrameWidth / kMaxFrameHeight, 180);

   TestSnappedFrameSizes(&chooser, smallest_size);
   TestTargetedFrameAreas(&chooser, smallest_size);
 }

 TEST(CaptureResolutionChooserTest,
      AnyWithinLimitPolicy_CaptureSizeIsAnythingWithinLimits) {
   const gfx::Size min_size(kSmallestNonEmptyWidth, kSmallestNonEmptyHeight);
   const gfx::Size max_size(kMaxFrameWidth, kMaxFrameHeight);
   CaptureResolutionChooser chooser;
   chooser.SetConstraints(min_size, max_size, false);

   // Starting condition.
   EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
             chooser.capture_size());

   // Max size in --> max size out.
   chooser.SetSourceSize(max_size);
   EXPECT_EQ(max_size, chooser.capture_size());

   // Various source sizes within bounds.
   chooser.SetSourceSize(gfx::Size(640, 480));
   EXPECT_EQ(gfx::Size(640, 480), chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(480, 640));
   EXPECT_EQ(gfx::Size(480, 640), chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(640, 640));
   EXPECT_EQ(gfx::Size(640, 640), chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(2, 2));
   EXPECT_EQ(gfx::Size(2, 2), chooser.capture_size());

   // Bad source size results in no update.
   const gfx::Size unchanged_size = chooser.capture_size();
   chooser.SetSourceSize(gfx::Size(0, 0));
   EXPECT_EQ(unchanged_size, chooser.capture_size());

   // Downscaling size (preserving aspect ratio) when source size exceeds the
   // upper bounds.
   chooser.SetSourceSize(gfx::Size(kMaxFrameWidth * 2, kMaxFrameHeight * 2));
   EXPECT_EQ(max_size, chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(kMaxFrameWidth * 2, kMaxFrameHeight));
   EXPECT_EQ(gfx::Size(kMaxFrameWidth, kMaxFrameHeight / 2),
             chooser.capture_size());

   chooser.SetSourceSize(gfx::Size(kMaxFrameWidth, kMaxFrameHeight * 2));
   EXPECT_EQ(gfx::Size(kMaxFrameWidth / 2, kMaxFrameHeight),
             chooser.capture_size());

   // For a chooser configured with the "any within limit" policy, the smallest
   // possible computed size is smallest non-empty snapped size (which is 90
   // lines of resolution) with the same aspect ratio as the maximum size.
   const gfx::Size smallest_size(90 * kMaxFrameWidth / kMaxFrameHeight, 90);

   TestSnappedFrameSizes(&chooser, smallest_size);
   TestTargetedFrameAreas(&chooser, smallest_size);
 }

 }  // namespace media
	// Copyright 2015 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "media/capture/content/capture_resolution_chooser.h"

	#include <stddef.h>

	#include "base/location.h"
	#include "base/stl_util.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "ui/gfx/geometry/size.h"

	using base::Location;

	namespace media {

	namespace {

	// 16:9 maximum and minimum frame sizes.
	constexpr int kMaxFrameWidth = 3840;
	constexpr int kMaxFrameHeight = 2160;
	constexpr int kMinFrameWidth = 320;
	constexpr int kMinFrameHeight = 180;

	// Smallest non-empty size for I420 video.
	constexpr int kSmallestNonEmptyWidth = 2;
	constexpr int kSmallestNonEmptyHeight = 2;

	// Checks whether \|size\| is strictly between (inclusive) \|min_size\| and
	// \|max_size\| and has the same aspect ratio as \|max_size\|.
	void ExpectIsWithinBoundsAndSameAspectRatio(const Location& location,
	const gfx::Size& min_size,
	const gfx::Size& max_size,
	const gfx::Size& size) {
	SCOPED_TRACE(::testing::Message() << "From here: " << location.ToString());
	EXPECT_LE(min_size.width(), size.width());
	EXPECT_LE(min_size.height(), size.height());
	EXPECT_GE(max_size.width(), size.width());
	EXPECT_GE(max_size.height(), size.height());
	EXPECT_NEAR(static_cast<double>(max_size.width()) / max_size.height(),
	static_cast<double>(size.width()) / size.height(), 0.01);
	}

	// Test that the correct snapped frame sizes are computed for a \|chooser\|
	// configured with either of the variable-resolution change policies, and are
	// correctly found when searched.
	void TestSnappedFrameSizes(CaptureResolutionChooser* chooser,
	const gfx::Size& smallest_size) {
	const int kSizes[17][2] = {
	{kMaxFrameWidth, kMaxFrameHeight},
	{3520, 1980},
	{3200, 1800},
	{2880, 1620},
	{2560, 1440},
	{2240, 1260},
	{1920, 1080},
	{1760, 990},
	{1600, 900},
	{1440, 810},
	{1280, 720},
	{1120, 630},
	{960, 540},
	{800, 450},
	{640, 360},
	{480, 270},
	{320, 180},
	};

	const gfx::Size largest_size(kMaxFrameWidth, kMaxFrameHeight);
	chooser->SetSourceSize(largest_size);

	// There should be no size larger than the largest size.
	for (int i = 1; i < 4; ++i) {
	EXPECT_EQ(largest_size,
	chooser->FindLargerFrameSize(largest_size.GetArea(), i));
	EXPECT_EQ(largest_size,
	chooser->FindLargerFrameSize(largest_size.GetArea() * 2, +i));
	}

	// There should be no size smaller than the smallest size.
	for (int i = 1; i < 4; ++i) {
	EXPECT_EQ(smallest_size,
	chooser->FindSmallerFrameSize(smallest_size.GetArea(), i));
	EXPECT_EQ(smallest_size,
	chooser->FindSmallerFrameSize(smallest_size.GetArea() / 2, i));
	}

	// Test the "find Nth lower size" logic.
	for (size_t skips = 1; skips < 4; ++skips) {
	for (size_t i = skips; i < base::size(kSizes); ++i) {
	EXPECT_EQ(
	gfx::Size(kSizes[i][0], kSizes[i][1]),
	chooser->FindSmallerFrameSize(
	gfx::Size(kSizes[i - skips][0], kSizes[i - skips][1]).GetArea(),
	skips));
	}
	}

	// Test the "find Nth higher size" logic.
	for (size_t skips = 1; skips < 4; ++skips) {
	for (size_t i = skips; i < base::size(kSizes); ++i) {
	EXPECT_EQ(gfx::Size(kSizes[i - skips][0], kSizes[i - skips][1]),
	chooser->FindLargerFrameSize(
	gfx::Size(kSizes[i][0], kSizes[i][1]).GetArea(), skips));
	}
	}

	// Test the "find nearest size" logic.
	for (size_t i = 1; i < base::size(kSizes) - 1; ++i) {
	const gfx::Size size(kSizes[i][0], kSizes[i][1]);
	const int a_somewhat_smaller_area =
	gfx::Size((kSizes[i - 1][0] + 3 * kSizes[i][0]) / 4,
	(kSizes[i - 1][1] + 3 * kSizes[i][1]) / 4).GetArea();
	EXPECT_EQ(size, chooser->FindNearestFrameSize(a_somewhat_smaller_area));

	const int a_smidge_smaller_area = size.GetArea() - 1;
	EXPECT_EQ(size, chooser->FindNearestFrameSize(a_smidge_smaller_area));

	const int a_smidge_larger_area = size.GetArea() + 1;
	EXPECT_EQ(size, chooser->FindNearestFrameSize(a_smidge_larger_area));

	const int a_somewhat_larger_area =
	gfx::Size((kSizes[i + 1][0] + 3 * kSizes[i][0]) / 4,
	(kSizes[i + 1][1] + 3 * kSizes[i][1]) / 4).GetArea();
	EXPECT_EQ(size, chooser->FindNearestFrameSize(a_somewhat_larger_area));
	}
	}

	// Test that setting the target frame area results in the correct capture sizes
	// being computed for a \|chooser\| configured with either of the
	// variable-resolution change policies.
	void TestTargetedFrameAreas(CaptureResolutionChooser* chooser,
	const gfx::Size& smallest_size) {
	chooser->SetSourceSize(gfx::Size(1280, 720));

	// The computed capture size cannot be larger than the source size, even
	// though the \|chooser\| is configured with a larger max frame size.
	chooser->SetTargetFrameArea(kMaxFrameWidth * kMaxFrameHeight);
	EXPECT_EQ(gfx::Size(1280, 720), chooser->capture_size());

	chooser->SetTargetFrameArea(1280 * 720 + 1);
	EXPECT_EQ(gfx::Size(1280, 720), chooser->capture_size());
	chooser->SetTargetFrameArea(1280 * 720 - 1);
	EXPECT_EQ(gfx::Size(1280, 720), chooser->capture_size());

	chooser->SetTargetFrameArea(1120 * 630 + 1);
	EXPECT_EQ(gfx::Size(1120, 630), chooser->capture_size());
	chooser->SetTargetFrameArea(1120 * 630 - 1);
	EXPECT_EQ(gfx::Size(1120, 630), chooser->capture_size());

	chooser->SetTargetFrameArea(800 * 450 + 1);
	EXPECT_EQ(gfx::Size(800, 450), chooser->capture_size());
	chooser->SetTargetFrameArea(800 * 450 - 1);
	EXPECT_EQ(gfx::Size(800, 450), chooser->capture_size());

	chooser->SetTargetFrameArea(640 * 360 + 1);
	EXPECT_EQ(gfx::Size(640, 360), chooser->capture_size());
	chooser->SetTargetFrameArea(640 * 360 - 1);
	EXPECT_EQ(gfx::Size(640, 360), chooser->capture_size());

	chooser->SetTargetFrameArea(smallest_size.GetArea() + 1);
	EXPECT_EQ(smallest_size, chooser->capture_size());
	chooser->SetTargetFrameArea(smallest_size.GetArea() - 1);
	EXPECT_EQ(smallest_size, chooser->capture_size());

	chooser->SetTargetFrameArea(smallest_size.GetArea() / 2);
	EXPECT_EQ(smallest_size, chooser->capture_size());

	chooser->SetTargetFrameArea(0);
	EXPECT_EQ(smallest_size, chooser->capture_size());

	// If the source size has increased, the \|chooser\| is now permitted to compute
	// higher capture sizes.
	chooser->SetSourceSize(gfx::Size(kMaxFrameWidth, kMaxFrameHeight));
	chooser->SetTargetFrameArea(kMaxFrameWidth * kMaxFrameHeight);
	EXPECT_EQ(gfx::Size(kMaxFrameWidth, kMaxFrameHeight),
	chooser->capture_size());

	chooser->SetTargetFrameArea(3200 * 1800 + 1);
	EXPECT_EQ(gfx::Size(3200, 1800), chooser->capture_size());
	chooser->SetTargetFrameArea(3200 * 1800 - 1);
	EXPECT_EQ(gfx::Size(3200, 1800), chooser->capture_size());

	chooser->SetTargetFrameArea(640 * 360 + 1);
	EXPECT_EQ(gfx::Size(640, 360), chooser->capture_size());
	chooser->SetTargetFrameArea(640 * 360 - 1);
	EXPECT_EQ(gfx::Size(640, 360), chooser->capture_size());

	chooser->SetTargetFrameArea(0);
	EXPECT_EQ(smallest_size, chooser->capture_size());
	}

	// Determines that there is only one snapped frame size by implication: This
	// function searches for the nearest/larger/smaller frame sizes around
	// \|the_one_size\| and checks that there is only ever one result.
	void ExpectOnlyOneSnappedFrameSize(const CaptureResolutionChooser& chooser,
	const gfx::Size& the_one_size) {
	for (int i = 1; i < 4; ++i) {
	EXPECT_EQ(the_one_size,
	chooser.FindNearestFrameSize(the_one_size.GetArea() * i));
	EXPECT_EQ(the_one_size,
	chooser.FindSmallerFrameSize(the_one_size.GetArea(), i));
	EXPECT_EQ(the_one_size,
	chooser.FindLargerFrameSize(the_one_size.GetArea(), i));
	}
	}

	} // namespace

	// While clients should always strive to set their own constraints before
	// querying the CaptureResolutionChooser, do test that the reasonable "default"
	// behavior is exhibited beforehand.
	TEST(CaptureResolutionChooserTest, DefaultCaptureSizeIfNeverSetConstraints) {
	CaptureResolutionChooser chooser;
	EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
	chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(kMinFrameWidth, kMinFrameHeight));
	EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
	chooser.capture_size());

	chooser.SetSourceSize(gfx::Size());
	EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
	chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(kMaxFrameWidth, kMaxFrameHeight));
	EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
	chooser.capture_size());

	ExpectOnlyOneSnappedFrameSize(chooser,
	CaptureResolutionChooser::kDefaultCaptureSize);
	}

	// While clients should always strive to set the source size before querying the
	// CaptureResolutionChooser, do test that the reasonable "default" behavior is
	// exhibited beforehand.
	TEST(CaptureResolutionChooserTest, ReasonableCaptureSizeWhenMissingSourceSize) {
	CaptureResolutionChooser chooser;
	// CaptureResolutionChooser starts out with capture size set to
	// kDefaultCaptureSize.
	EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
	chooser.capture_size());

	// Setting constraints around kDefaultCaptureSize means the capture size
	// should remain as kDefaultCaptureSize.
	chooser.SetConstraints(gfx::Size(kMinFrameWidth, kMinFrameHeight),
	gfx::Size(kMaxFrameWidth, kMaxFrameHeight), false);
	EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
	chooser.capture_size());

	// Setting constraints to a fixed size less than kDefaultCaptureSize will
	// change the capture size, to meet the required constraints range.
	chooser.SetConstraints(gfx::Size(kMinFrameWidth, kMinFrameHeight),
	gfx::Size(kMinFrameWidth, kMinFrameHeight), false);
	EXPECT_EQ(gfx::Size(kMinFrameWidth, kMinFrameHeight), chooser.capture_size());

	// Setting the constraints back to the wide range should not change the
	// capture size, since the new range includes the former capture size.
	chooser.SetConstraints(gfx::Size(kMinFrameWidth, kMinFrameHeight),
	gfx::Size(kMaxFrameWidth, kMaxFrameHeight), false);
	EXPECT_EQ(gfx::Size(kMinFrameWidth, kMinFrameHeight), chooser.capture_size());

	// Finally, updating the source size to be exactly in the middle of the
	// constraints range should result in the capture size being updated to that
	// same size.
	const gfx::Size middle_size((kMinFrameWidth + kMaxFrameWidth) / 2,
	(kMinFrameHeight + kMaxFrameHeight) / 2);
	chooser.SetSourceSize(middle_size);
	EXPECT_EQ(middle_size, chooser.capture_size());
	}

	TEST(CaptureResolutionChooserTest,
	FixedResolutionPolicy_CaptureSizeAlwaysFixed) {
	const gfx::Size the_one_frame_size(kMaxFrameWidth, kMaxFrameHeight);
	CaptureResolutionChooser chooser;
	chooser.SetConstraints(the_one_frame_size, the_one_frame_size, false);
	EXPECT_EQ(the_one_frame_size, chooser.capture_size());

	chooser.SetSourceSize(the_one_frame_size);
	EXPECT_EQ(the_one_frame_size, chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(kMaxFrameWidth + 424, kMaxFrameHeight - 101));
	EXPECT_EQ(the_one_frame_size, chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(kMaxFrameWidth - 202, kMaxFrameHeight + 56));
	EXPECT_EQ(the_one_frame_size, chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(kMinFrameWidth, kMinFrameHeight));
	EXPECT_EQ(the_one_frame_size, chooser.capture_size());

	ExpectOnlyOneSnappedFrameSize(chooser, the_one_frame_size);

	// Ensure that changing the target frame area does not change the computed
	// frame size.
	chooser.SetTargetFrameArea(0);
	EXPECT_EQ(the_one_frame_size, chooser.capture_size());
	chooser.SetTargetFrameArea(the_one_frame_size.GetArea() / 2);
	EXPECT_EQ(the_one_frame_size, chooser.capture_size());
	}

	TEST(CaptureResolutionChooserTest,
	FixedAspectRatioPolicy_CaptureSizeHasSameAspectRatio) {
	const gfx::Size min_size(kMinFrameWidth, kMinFrameHeight);
	const gfx::Size max_size(kMaxFrameWidth, kMaxFrameHeight);
	CaptureResolutionChooser chooser;
	chooser.SetConstraints(min_size, max_size, true);

	// Starting condition.
	ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
	chooser.capture_size());

	// Max size in --> max size out.
	chooser.SetSourceSize(gfx::Size(kMaxFrameWidth, kMaxFrameHeight));
	ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
	chooser.capture_size());

	// Various source sizes within bounds.
	chooser.SetSourceSize(gfx::Size(640, 480));
	ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
	chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(480, 640));
	ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
	chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(640, 640));
	ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
	chooser.capture_size());

	// Bad source size results in no update.
	const gfx::Size unchanged_size = chooser.capture_size();
	chooser.SetSourceSize(gfx::Size(0, 0));
	EXPECT_EQ(unchanged_size, chooser.capture_size());

	// Downscaling size (preserving aspect ratio) when source size exceeds the
	// upper bounds.
	chooser.SetSourceSize(gfx::Size(kMaxFrameWidth * 2, kMaxFrameHeight * 2));
	ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
	chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(kMaxFrameWidth * 2, kMaxFrameHeight));
	ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
	chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(kMaxFrameWidth, kMaxFrameHeight * 2));
	ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
	chooser.capture_size());

	// Upscaling size (preserving aspect ratio) when source size is under the
	// lower bounds.
	chooser.SetSourceSize(gfx::Size(kMinFrameWidth / 2, kMinFrameHeight / 2));
	ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
	chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(kMinFrameWidth / 2, kMaxFrameHeight));
	ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
	chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(kMinFrameWidth, kMinFrameHeight / 2));
	ExpectIsWithinBoundsAndSameAspectRatio(FROM_HERE, min_size, max_size,
	chooser.capture_size());

	// For a chooser configured with the "fixed aspect ratio" policy, the smallest
	// possible computed size is the one with 180 lines of resolution and the same
	// aspect ratio.
	const gfx::Size smallest_size(180 * kMaxFrameWidth / kMaxFrameHeight, 180);

	TestSnappedFrameSizes(&chooser, smallest_size);
	TestTargetedFrameAreas(&chooser, smallest_size);
	}

	TEST(CaptureResolutionChooserTest,
	AnyWithinLimitPolicy_CaptureSizeIsAnythingWithinLimits) {
	const gfx::Size min_size(kSmallestNonEmptyWidth, kSmallestNonEmptyHeight);
	const gfx::Size max_size(kMaxFrameWidth, kMaxFrameHeight);
	CaptureResolutionChooser chooser;
	chooser.SetConstraints(min_size, max_size, false);

	// Starting condition.
	EXPECT_EQ(CaptureResolutionChooser::kDefaultCaptureSize,
	chooser.capture_size());

	// Max size in --> max size out.
	chooser.SetSourceSize(max_size);
	EXPECT_EQ(max_size, chooser.capture_size());

	// Various source sizes within bounds.
	chooser.SetSourceSize(gfx::Size(640, 480));
	EXPECT_EQ(gfx::Size(640, 480), chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(480, 640));
	EXPECT_EQ(gfx::Size(480, 640), chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(640, 640));
	EXPECT_EQ(gfx::Size(640, 640), chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(2, 2));
	EXPECT_EQ(gfx::Size(2, 2), chooser.capture_size());

	// Bad source size results in no update.
	const gfx::Size unchanged_size = chooser.capture_size();
	chooser.SetSourceSize(gfx::Size(0, 0));
	EXPECT_EQ(unchanged_size, chooser.capture_size());

	// Downscaling size (preserving aspect ratio) when source size exceeds the
	// upper bounds.
	chooser.SetSourceSize(gfx::Size(kMaxFrameWidth * 2, kMaxFrameHeight * 2));
	EXPECT_EQ(max_size, chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(kMaxFrameWidth * 2, kMaxFrameHeight));
	EXPECT_EQ(gfx::Size(kMaxFrameWidth, kMaxFrameHeight / 2),
	chooser.capture_size());

	chooser.SetSourceSize(gfx::Size(kMaxFrameWidth, kMaxFrameHeight * 2));
	EXPECT_EQ(gfx::Size(kMaxFrameWidth / 2, kMaxFrameHeight),
	chooser.capture_size());

	// For a chooser configured with the "any within limit" policy, the smallest
	// possible computed size is smallest non-empty snapped size (which is 90
	// lines of resolution) with the same aspect ratio as the maximum size.
	const gfx::Size smallest_size(90 * kMaxFrameWidth / kMaxFrameHeight, 90);

	TestSnappedFrameSizes(&chooser, smallest_size);
	TestTargetedFrameAreas(&chooser, smallest_size);
	}

	} // namespace media