remoting/client/input/touch_input_scaler_unittest.cc - chromium/src.git - 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 "remoting/client/input/touch_input_scaler.h"

 #include <stdint.h>

 #include <cmath>

 #include "base/macros.h"
 #include "remoting/protocol/protocol_mock_objects.h"
 #include "remoting/protocol/test_event_matchers.h"
 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"

 using ::testing::_;
 using ::testing::AllOf;
 using ::testing::PrintToString;

 namespace remoting {

 using protocol::MockInputStub;
 using protocol::TouchEvent;
 using protocol::TouchEventPoint;
 using protocol::test::EqualsTouchPointCoordinates;
 using protocol::test::EqualsTouchPointRadii;

 namespace {

 const float kDefaultRadius = 30.0f;
 const float kDefaultXCoord = 1.0f;
 const float kDefaultYCoord = 1.0f;

 struct PointInfo {
   PointInfo(float x, float y)
       : PointInfo(x, y, kDefaultRadius, kDefaultRadius) {}
   PointInfo(float x, float y, float radius_x, float radius_y)
       : x(x), y(y), radius_x(radius_x), radius_y(radius_y) {}

   float x;
   float y;
   float radius_x;
   float radius_y;
 };

 const PointInfo kDefaultPointInfo = {kDefaultXCoord, kDefaultYCoord,
                                      kDefaultRadius, kDefaultRadius};

 }  // namespace

 class TouchInputScalerTest : public ::testing::Test {
  protected:
   TouchInputScalerTest() : touch_input_scaler_(&mock_stub_) {}

   void AddInputCoordinate(const PointInfo& point_info) {
     point_infos_.push_back(point_info);
   }

   void AddDefaultTestPoint() { point_infos_.push_back(kDefaultPointInfo); }

   void InjectTestTouchEvent() {
     TouchEvent e;
     e.set_event_type(TouchEvent::TOUCH_POINT_MOVE);

     uint32_t id = 1;
     for (const PointInfo& point_info : point_infos_) {
       TouchEventPoint* point = e.add_touch_points();
       point->set_id(id++);
       point->set_x(point_info.x);
       point->set_y(point_info.y);
       point->set_radius_x(point_info.radius_x);
       point->set_radius_y(point_info.radius_y);
     }

     touch_input_scaler_.InjectTouchEvent(e);
   }

   void SetInputDimensions(int width, int height) {
     touch_input_scaler_.set_input_size(webrtc::DesktopSize(width, height));
   }

   void SetOutputDimensions(int width, int height) {
     touch_input_scaler_.set_output_size(webrtc::DesktopSize(width, height));
   }

   MockInputStub mock_stub_;
   TouchInputScaler touch_input_scaler_;

  private:
   std::vector<PointInfo> point_infos_;

   DISALLOW_COPY_AND_ASSIGN(TouchInputScalerTest);
 };

 // TouchInputFilter require both input and output dimensions.
 // These test verify that no events are forwarded to the next InputStub if
 // either dimensions are not set or 0.
 TEST_F(TouchInputScalerTest, NoDimensionsSet) {
   AddDefaultTestPoint();
   EXPECT_CALL(mock_stub_, InjectTouchEvent(_)).Times(0);
   InjectTestTouchEvent();
 }

 TEST_F(TouchInputScalerTest, BothDimensionsZero) {
   SetInputDimensions(0, 0);
   SetOutputDimensions(0, 0);
   AddDefaultTestPoint();
   EXPECT_CALL(mock_stub_, InjectTouchEvent(_)).Times(0);
   InjectTestTouchEvent();
 }

 TEST_F(TouchInputScalerTest, SetOnlyInputDimensions) {
   SetInputDimensions(50, 60);
   AddDefaultTestPoint();
   EXPECT_CALL(mock_stub_, InjectTouchEvent(_)).Times(0);
   InjectTestTouchEvent();
 }

 TEST_F(TouchInputScalerTest, SetOnlyOutputDimensions) {
   SetOutputDimensions(50, 60);
   AddDefaultTestPoint();
   EXPECT_CALL(mock_stub_, InjectTouchEvent(_)).Times(0);
   InjectTestTouchEvent();
 }

 // The x,y coordinate fall in the desktop size.
 TEST_F(TouchInputScalerTest, NoClampingNoScaling) {
   SetInputDimensions(50, 60);
   SetOutputDimensions(50, 60);

   AddInputCoordinate({10.0f, 15.0f});
   TouchEvent expected_out;
   TouchEventPoint* point = expected_out.add_touch_points();
   point->set_x(10.0f);
   point->set_y(15.0f);

   EXPECT_CALL(mock_stub_,
               InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
   InjectTestTouchEvent();
 }

 // Make sure clamping works.
 TEST_F(TouchInputScalerTest, ClampingNoScaling) {
   SetInputDimensions(50, 60);
   SetOutputDimensions(50, 60);

   // Note that this could happen if touch started in the chromoting window but
   // the finger moved off the windows.
   AddInputCoordinate({-1.0f, 1.0f});
   TouchEvent expected_out;
   TouchEventPoint* point = expected_out.add_touch_points();
   point->set_x(0.0f);
   point->set_y(1.0f);

   EXPECT_CALL(mock_stub_,
               InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
   InjectTestTouchEvent();
 }

 TEST_F(TouchInputScalerTest, ClampingMultiplePointsNoScaling) {
   SetInputDimensions(50, 60);
   SetOutputDimensions(50, 60);

   AddInputCoordinate({-1.0f, 1.0f});  // Fall off left.
   TouchEvent expected_out;
   TouchEventPoint* point = expected_out.add_touch_points();
   point->set_x(0.0f);
   point->set_y(1.0f);

   AddInputCoordinate({100.0f, 1.0f});  // Fall off right.
   point = expected_out.add_touch_points();
   point->set_x(49.0f);
   point->set_y(1.0f);

   AddInputCoordinate({20.0f, 15.0f});  // Should not be clamped.
   point = expected_out.add_touch_points();
   point->set_x(20.0f);
   point->set_y(15.0f);

   AddInputCoordinate({3.0f, -1.0f});  // Fall off above.
   point = expected_out.add_touch_points();
   point->set_x(3.0f);
   point->set_y(0.0f);

   AddInputCoordinate({10.0f, 200.0f});  // Fall off below.
   point = expected_out.add_touch_points();
   point->set_x(10.0f);
   point->set_y(59.0f);

   EXPECT_CALL(mock_stub_,
               InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
   InjectTestTouchEvent();
 }

 // Verify up-scaling works. All coordinates should fall inside the output
 // dimensions after scaling.
 TEST_F(TouchInputScalerTest, UpScalingNoClamping) {
   SetInputDimensions(20, 20);
   SetOutputDimensions(40, 40);

   AddInputCoordinate({1.0f, 1.0f});
   TouchEvent expected_out;
   TouchEventPoint* point = expected_out.add_touch_points();
   point->set_x(2.0f);
   point->set_y(2.0f);

   AddInputCoordinate({1.2f, 4.2f});
   point = expected_out.add_touch_points();
   point->set_x(2.4f);
   point->set_y(8.4f);

   EXPECT_CALL(mock_stub_,
               InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
   InjectTestTouchEvent();
 }

 // Verify up-scaling works with clamping.
 TEST_F(TouchInputScalerTest, UpScalingWithClamping) {
   SetInputDimensions(20, 20);
   SetOutputDimensions(40, 40);

   AddInputCoordinate({25.0f, 25.0f});
   TouchEvent expected_out;
   TouchEventPoint* point = expected_out.add_touch_points();
   point->set_x(39.0f);
   point->set_y(39.0f);

   EXPECT_CALL(mock_stub_,
               InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
   InjectTestTouchEvent();
 }

 // Verify down scaling works. All coordinates should fall inside the output
 // dimensions after scaling.
 TEST_F(TouchInputScalerTest, DownScalingNoClamping) {
   SetInputDimensions(40, 40);
   SetOutputDimensions(20, 20);

   AddInputCoordinate({2.0f, 2.0f});
   TouchEvent expected_out;
   TouchEventPoint* point = expected_out.add_touch_points();
   point->set_x(1.0f);
   point->set_y(1.0f);

   AddInputCoordinate({6.0f, 3.0f});
   point = expected_out.add_touch_points();
   point->set_x(3.0);
   point->set_y(1.5f);

   EXPECT_CALL(mock_stub_,
               InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
   InjectTestTouchEvent();
 }

 // Verify down scaling works with clamping.
 TEST_F(TouchInputScalerTest, DownScalingWithClamping) {
   SetInputDimensions(40, 40);
   SetOutputDimensions(20, 20);

   AddInputCoordinate({-20.0f, 10.0f});
   TouchEvent expected_out;
   TouchEventPoint* point = expected_out.add_touch_points();
   point->set_x(0.0f);
   point->set_y(5.0f);

   AddInputCoordinate({10.0f, -20.0f});
   point = expected_out.add_touch_points();
   point->set_x(5.0f);
   point->set_y(0.0f);

   AddInputCoordinate({6.0f, 80.0f});
   point = expected_out.add_touch_points();
   point->set_x(3.0f);
   point->set_y(19.0f);

   AddInputCoordinate({80.0f, 6.0f});
   point = expected_out.add_touch_points();
   point->set_x(19.0f);
   point->set_y(3.0f);

   EXPECT_CALL(mock_stub_,
               InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
   InjectTestTouchEvent();
 }

 // Verify that the radii are up-scaled.
 TEST_F(TouchInputScalerTest, UpScaleRadii) {
   SetInputDimensions(20, 20);
   SetOutputDimensions(40, 40);

   AddInputCoordinate({0.0f, 0.0f, 1.0f, 2.0f});
   TouchEvent expected_out;
   TouchEventPoint* point = expected_out.add_touch_points();
   point->set_radius_x(2.0f);
   point->set_radius_y(4.0f);

   EXPECT_CALL(mock_stub_,
               InjectTouchEvent(EqualsTouchPointRadii(expected_out)));
   InjectTestTouchEvent();
 }

 // Verify that the radii are down-scaled.
 TEST_F(TouchInputScalerTest, DownScaleRadii) {
   SetInputDimensions(20, 20);
   SetOutputDimensions(10, 10);

   AddInputCoordinate({0.0f, 0.0f, 5.0f, 4.0f});
   TouchEvent expected_out;
   TouchEventPoint* point = expected_out.add_touch_points();
   point->set_radius_x(2.5f);
   point->set_radius_y(2.0f);

   EXPECT_CALL(mock_stub_,
               InjectTouchEvent(EqualsTouchPointRadii(expected_out)));
   InjectTestTouchEvent();
 }

 // Verify that up-scaling with clamping works for x,y coordinates and radii all
 // work together.
 TEST_F(TouchInputScalerTest, UpScaleCoordinatesAndRadii) {
   SetInputDimensions(20, 20);
   SetOutputDimensions(40, 40);

   AddInputCoordinate({5.0f, 12.0f, 3.0f, 2.0f});
   TouchEvent expected_out;
   TouchEventPoint* point = expected_out.add_touch_points();
   point->set_x(10.0f);
   point->set_y(24.0f);
   point->set_radius_x(6.0f);
   point->set_radius_y(4.0f);

   // Make sure clamping and scaling all work.
   AddInputCoordinate({22.0f, -1.0f, 8.0f, 3.0f});
   point = expected_out.add_touch_points();
   point->set_x(39.0f);
   point->set_y(0.0f);
   point->set_radius_x(16.0f);
   point->set_radius_y(6.0f);

   EXPECT_CALL(mock_stub_,
               InjectTouchEvent(AllOf(EqualsTouchPointCoordinates(expected_out),
                                      EqualsTouchPointRadii(expected_out))));
   InjectTestTouchEvent();
 }

 // Verify that down-scaling with clamping works for x,y coordinates and radii
 // all work together.
 TEST_F(TouchInputScalerTest, DownScaleCoordinatesAndRadii) {
   SetInputDimensions(60, 60);
   SetOutputDimensions(20, 20);

   AddInputCoordinate({50.0f, 24.0f, 10.0f, 9.0f});
   TouchEvent expected_out;
   TouchEventPoint* point = expected_out.add_touch_points();
   point->set_x(16.666f);
   point->set_y(8.0f);
   point->set_radius_x(3.333f);
   point->set_radius_y(3.0f);

   // Make sure clamping and scaling all work.
   AddInputCoordinate({70.0f, 82.0f, 8.0f, 3.0f});
   point = expected_out.add_touch_points();
   point->set_x(19.0f);
   point->set_y(19.0f);
   point->set_radius_x(2.666f);
   point->set_radius_y(1.0f);

   EXPECT_CALL(mock_stub_,
               InjectTouchEvent(AllOf(EqualsTouchPointCoordinates(expected_out),
                                      EqualsTouchPointRadii(expected_out))));
   InjectTestTouchEvent();
 }

 }  // namespace remoting
	// 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 "remoting/client/input/touch_input_scaler.h"

	#include <stdint.h>

	#include <cmath>

	#include "base/macros.h"
	#include "remoting/protocol/protocol_mock_objects.h"
	#include "remoting/protocol/test_event_matchers.h"
	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"

	using ::testing::_;
	using ::testing::AllOf;
	using ::testing::PrintToString;

	namespace remoting {

	using protocol::MockInputStub;
	using protocol::TouchEvent;
	using protocol::TouchEventPoint;
	using protocol::test::EqualsTouchPointCoordinates;
	using protocol::test::EqualsTouchPointRadii;

	namespace {

	const float kDefaultRadius = 30.0f;
	const float kDefaultXCoord = 1.0f;
	const float kDefaultYCoord = 1.0f;

	struct PointInfo {
	PointInfo(float x, float y)
	: PointInfo(x, y, kDefaultRadius, kDefaultRadius) {}
	PointInfo(float x, float y, float radius_x, float radius_y)
	: x(x), y(y), radius_x(radius_x), radius_y(radius_y) {}

	float x;
	float y;
	float radius_x;
	float radius_y;
	};

	const PointInfo kDefaultPointInfo = {kDefaultXCoord, kDefaultYCoord,
	kDefaultRadius, kDefaultRadius};

	} // namespace

	class TouchInputScalerTest : public ::testing::Test {
	protected:
	TouchInputScalerTest() : touch_input_scaler_(&mock_stub_) {}

	void AddInputCoordinate(const PointInfo& point_info) {
	point_infos_.push_back(point_info);
	}

	void AddDefaultTestPoint() { point_infos_.push_back(kDefaultPointInfo); }

	void InjectTestTouchEvent() {
	TouchEvent e;
	e.set_event_type(TouchEvent::TOUCH_POINT_MOVE);

	uint32_t id = 1;
	for (const PointInfo& point_info : point_infos_) {
	TouchEventPoint* point = e.add_touch_points();
	point->set_id(id++);
	point->set_x(point_info.x);
	point->set_y(point_info.y);
	point->set_radius_x(point_info.radius_x);
	point->set_radius_y(point_info.radius_y);
	}

	touch_input_scaler_.InjectTouchEvent(e);
	}

	void SetInputDimensions(int width, int height) {
	touch_input_scaler_.set_input_size(webrtc::DesktopSize(width, height));
	}

	void SetOutputDimensions(int width, int height) {
	touch_input_scaler_.set_output_size(webrtc::DesktopSize(width, height));
	}

	MockInputStub mock_stub_;
	TouchInputScaler touch_input_scaler_;

	private:
	std::vector<PointInfo> point_infos_;

	DISALLOW_COPY_AND_ASSIGN(TouchInputScalerTest);
	};

	// TouchInputFilter require both input and output dimensions.
	// These test verify that no events are forwarded to the next InputStub if
	// either dimensions are not set or 0.
	TEST_F(TouchInputScalerTest, NoDimensionsSet) {
	AddDefaultTestPoint();
	EXPECT_CALL(mock_stub_, InjectTouchEvent(_)).Times(0);
	InjectTestTouchEvent();
	}

	TEST_F(TouchInputScalerTest, BothDimensionsZero) {
	SetInputDimensions(0, 0);
	SetOutputDimensions(0, 0);
	AddDefaultTestPoint();
	EXPECT_CALL(mock_stub_, InjectTouchEvent(_)).Times(0);
	InjectTestTouchEvent();
	}

	TEST_F(TouchInputScalerTest, SetOnlyInputDimensions) {
	SetInputDimensions(50, 60);
	AddDefaultTestPoint();
	EXPECT_CALL(mock_stub_, InjectTouchEvent(_)).Times(0);
	InjectTestTouchEvent();
	}

	TEST_F(TouchInputScalerTest, SetOnlyOutputDimensions) {
	SetOutputDimensions(50, 60);
	AddDefaultTestPoint();
	EXPECT_CALL(mock_stub_, InjectTouchEvent(_)).Times(0);
	InjectTestTouchEvent();
	}

	// The x,y coordinate fall in the desktop size.
	TEST_F(TouchInputScalerTest, NoClampingNoScaling) {
	SetInputDimensions(50, 60);
	SetOutputDimensions(50, 60);

	AddInputCoordinate({10.0f, 15.0f});
	TouchEvent expected_out;
	TouchEventPoint* point = expected_out.add_touch_points();
	point->set_x(10.0f);
	point->set_y(15.0f);

	EXPECT_CALL(mock_stub_,
	InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
	InjectTestTouchEvent();
	}

	// Make sure clamping works.
	TEST_F(TouchInputScalerTest, ClampingNoScaling) {
	SetInputDimensions(50, 60);
	SetOutputDimensions(50, 60);

	// Note that this could happen if touch started in the chromoting window but
	// the finger moved off the windows.
	AddInputCoordinate({-1.0f, 1.0f});
	TouchEvent expected_out;
	TouchEventPoint* point = expected_out.add_touch_points();
	point->set_x(0.0f);
	point->set_y(1.0f);

	EXPECT_CALL(mock_stub_,
	InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
	InjectTestTouchEvent();
	}

	TEST_F(TouchInputScalerTest, ClampingMultiplePointsNoScaling) {
	SetInputDimensions(50, 60);
	SetOutputDimensions(50, 60);

	AddInputCoordinate({-1.0f, 1.0f}); // Fall off left.
	TouchEvent expected_out;
	TouchEventPoint* point = expected_out.add_touch_points();
	point->set_x(0.0f);
	point->set_y(1.0f);

	AddInputCoordinate({100.0f, 1.0f}); // Fall off right.
	point = expected_out.add_touch_points();
	point->set_x(49.0f);
	point->set_y(1.0f);

	AddInputCoordinate({20.0f, 15.0f}); // Should not be clamped.
	point = expected_out.add_touch_points();
	point->set_x(20.0f);
	point->set_y(15.0f);

	AddInputCoordinate({3.0f, -1.0f}); // Fall off above.
	point = expected_out.add_touch_points();
	point->set_x(3.0f);
	point->set_y(0.0f);

	AddInputCoordinate({10.0f, 200.0f}); // Fall off below.
	point = expected_out.add_touch_points();
	point->set_x(10.0f);
	point->set_y(59.0f);

	EXPECT_CALL(mock_stub_,
	InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
	InjectTestTouchEvent();
	}

	// Verify up-scaling works. All coordinates should fall inside the output
	// dimensions after scaling.
	TEST_F(TouchInputScalerTest, UpScalingNoClamping) {
	SetInputDimensions(20, 20);
	SetOutputDimensions(40, 40);

	AddInputCoordinate({1.0f, 1.0f});
	TouchEvent expected_out;
	TouchEventPoint* point = expected_out.add_touch_points();
	point->set_x(2.0f);
	point->set_y(2.0f);

	AddInputCoordinate({1.2f, 4.2f});
	point = expected_out.add_touch_points();
	point->set_x(2.4f);
	point->set_y(8.4f);

	EXPECT_CALL(mock_stub_,
	InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
	InjectTestTouchEvent();
	}

	// Verify up-scaling works with clamping.
	TEST_F(TouchInputScalerTest, UpScalingWithClamping) {
	SetInputDimensions(20, 20);
	SetOutputDimensions(40, 40);

	AddInputCoordinate({25.0f, 25.0f});
	TouchEvent expected_out;
	TouchEventPoint* point = expected_out.add_touch_points();
	point->set_x(39.0f);
	point->set_y(39.0f);

	EXPECT_CALL(mock_stub_,
	InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
	InjectTestTouchEvent();
	}

	// Verify down scaling works. All coordinates should fall inside the output
	// dimensions after scaling.
	TEST_F(TouchInputScalerTest, DownScalingNoClamping) {
	SetInputDimensions(40, 40);
	SetOutputDimensions(20, 20);

	AddInputCoordinate({2.0f, 2.0f});
	TouchEvent expected_out;
	TouchEventPoint* point = expected_out.add_touch_points();
	point->set_x(1.0f);
	point->set_y(1.0f);

	AddInputCoordinate({6.0f, 3.0f});
	point = expected_out.add_touch_points();
	point->set_x(3.0);
	point->set_y(1.5f);

	EXPECT_CALL(mock_stub_,
	InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
	InjectTestTouchEvent();
	}

	// Verify down scaling works with clamping.
	TEST_F(TouchInputScalerTest, DownScalingWithClamping) {
	SetInputDimensions(40, 40);
	SetOutputDimensions(20, 20);

	AddInputCoordinate({-20.0f, 10.0f});
	TouchEvent expected_out;
	TouchEventPoint* point = expected_out.add_touch_points();
	point->set_x(0.0f);
	point->set_y(5.0f);

	AddInputCoordinate({10.0f, -20.0f});
	point = expected_out.add_touch_points();
	point->set_x(5.0f);
	point->set_y(0.0f);

	AddInputCoordinate({6.0f, 80.0f});
	point = expected_out.add_touch_points();
	point->set_x(3.0f);
	point->set_y(19.0f);

	AddInputCoordinate({80.0f, 6.0f});
	point = expected_out.add_touch_points();
	point->set_x(19.0f);
	point->set_y(3.0f);

	EXPECT_CALL(mock_stub_,
	InjectTouchEvent(EqualsTouchPointCoordinates(expected_out)));
	InjectTestTouchEvent();
	}

	// Verify that the radii are up-scaled.
	TEST_F(TouchInputScalerTest, UpScaleRadii) {
	SetInputDimensions(20, 20);
	SetOutputDimensions(40, 40);

	AddInputCoordinate({0.0f, 0.0f, 1.0f, 2.0f});
	TouchEvent expected_out;
	TouchEventPoint* point = expected_out.add_touch_points();
	point->set_radius_x(2.0f);
	point->set_radius_y(4.0f);

	EXPECT_CALL(mock_stub_,
	InjectTouchEvent(EqualsTouchPointRadii(expected_out)));
	InjectTestTouchEvent();
	}

	// Verify that the radii are down-scaled.
	TEST_F(TouchInputScalerTest, DownScaleRadii) {
	SetInputDimensions(20, 20);
	SetOutputDimensions(10, 10);

	AddInputCoordinate({0.0f, 0.0f, 5.0f, 4.0f});
	TouchEvent expected_out;
	TouchEventPoint* point = expected_out.add_touch_points();
	point->set_radius_x(2.5f);
	point->set_radius_y(2.0f);

	EXPECT_CALL(mock_stub_,
	InjectTouchEvent(EqualsTouchPointRadii(expected_out)));
	InjectTestTouchEvent();
	}

	// Verify that up-scaling with clamping works for x,y coordinates and radii all
	// work together.
	TEST_F(TouchInputScalerTest, UpScaleCoordinatesAndRadii) {
	SetInputDimensions(20, 20);
	SetOutputDimensions(40, 40);

	AddInputCoordinate({5.0f, 12.0f, 3.0f, 2.0f});
	TouchEvent expected_out;
	TouchEventPoint* point = expected_out.add_touch_points();
	point->set_x(10.0f);
	point->set_y(24.0f);
	point->set_radius_x(6.0f);
	point->set_radius_y(4.0f);

	// Make sure clamping and scaling all work.
	AddInputCoordinate({22.0f, -1.0f, 8.0f, 3.0f});
	point = expected_out.add_touch_points();
	point->set_x(39.0f);
	point->set_y(0.0f);
	point->set_radius_x(16.0f);
	point->set_radius_y(6.0f);

	EXPECT_CALL(mock_stub_,
	InjectTouchEvent(AllOf(EqualsTouchPointCoordinates(expected_out),
	EqualsTouchPointRadii(expected_out))));
	InjectTestTouchEvent();
	}

	// Verify that down-scaling with clamping works for x,y coordinates and radii
	// all work together.
	TEST_F(TouchInputScalerTest, DownScaleCoordinatesAndRadii) {
	SetInputDimensions(60, 60);
	SetOutputDimensions(20, 20);

	AddInputCoordinate({50.0f, 24.0f, 10.0f, 9.0f});
	TouchEvent expected_out;
	TouchEventPoint* point = expected_out.add_touch_points();
	point->set_x(16.666f);
	point->set_y(8.0f);
	point->set_radius_x(3.333f);
	point->set_radius_y(3.0f);

	// Make sure clamping and scaling all work.
	AddInputCoordinate({70.0f, 82.0f, 8.0f, 3.0f});
	point = expected_out.add_touch_points();
	point->set_x(19.0f);
	point->set_y(19.0f);
	point->set_radius_x(2.666f);
	point->set_radius_y(1.0f);

	EXPECT_CALL(mock_stub_,
	InjectTouchEvent(AllOf(EqualsTouchPointCoordinates(expected_out),
	EqualsTouchPointRadii(expected_out))));
	InjectTestTouchEvent();
	}

	} // namespace remoting