remoting/client/empty_cursor_filter_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 "remoting/client/empty_cursor_filter.h"

 #include <ostream>

 #include "remoting/proto/control.pb.h"
 #include "remoting/protocol/cursor_shape_stub.h"
 #include "remoting/protocol/protocol_mock_objects.h"
 #include "testing/gmock/include/gmock/gmock.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace remoting {

 namespace {

 // Chromoting cursors are always RGBA.
 const int kBytesPerPixel = 4;

 const int kTestCursorWidth = 100;
 const int kTestCursorHeight = 64;
 const int kTestCursorHotspotX = 10;
 const int kTestCursorHotspotY = 30;
 const int kTestCursorDataSize =
     kTestCursorWidth * kTestCursorHeight * kBytesPerPixel;

 protocol::CursorShapeInfo CreateTransparentCursorShape() {
   protocol::CursorShapeInfo transparent_cursor;
   transparent_cursor.set_width(kTestCursorWidth);
   transparent_cursor.set_height(kTestCursorHeight);
   transparent_cursor.set_hotspot_x(kTestCursorHotspotX);
   transparent_cursor.set_hotspot_y(kTestCursorHotspotY);
   transparent_cursor.mutable_data()->resize(kTestCursorDataSize, 0);
   return transparent_cursor;
 }

 protocol::CursorShapeInfo CreateOpaqueCursorShape() {
   protocol::CursorShapeInfo cursor = CreateTransparentCursorShape();
   cursor.mutable_data()->assign(kTestCursorDataSize, 0x01);
   return cursor;
 }

 MATCHER_P(EqualsCursorShape, cursor_shape, "") {
   // TODO(wez): Should not assume that all fields were set.
   return arg.data() == cursor_shape.data() &&
          arg.width() == cursor_shape.width() &&
          arg.height() == cursor_shape.height() &&
          arg.hotspot_x() == cursor_shape.hotspot_x() &&
          arg.hotspot_y() == cursor_shape.hotspot_y();
 }

 }  // namespace

 namespace protocol {

 // This pretty-printer must be defined under remoting::protocol to be used.
 ::std::ostream& operator<<(::std::ostream& os, const CursorShapeInfo& cursor) {
   return os << "[w:" << cursor.width() << ", h:" << cursor.height()
             << ", h.x:" << cursor.hotspot_x() << ", h.y:" << cursor.hotspot_y()
             << ", data.size:" << cursor.data().size() << "]";
 }

 } // namespace protocol

 // Verify that EmptyCursorShape() generates a normalized empty cursor.
 TEST(EmptyCursorFilterTest, EmptyCursorShape) {
   const protocol::CursorShapeInfo& empty_cursor = EmptyCursorShape();

   // TODO(wez): Replace these individual asserts with IsCursorShapeValid()?
   ASSERT_TRUE(empty_cursor.has_data());
   ASSERT_TRUE(empty_cursor.has_width());
   ASSERT_TRUE(empty_cursor.has_height());
   ASSERT_TRUE(empty_cursor.has_hotspot_x());
   ASSERT_TRUE(empty_cursor.has_hotspot_y());

   EXPECT_EQ(0, empty_cursor.width());
   EXPECT_EQ(0, empty_cursor.height());
   EXPECT_EQ(0, empty_cursor.hotspot_x());
   EXPECT_EQ(0, empty_cursor.hotspot_y());
   EXPECT_TRUE(empty_cursor.data().empty());
 }

 // Verify that IsCursorShapeEmpty returns true only for normalized empty
 // cursors, not for opaque or transparent non-empty cursors.
 TEST(EmptyCursorFilterTest, IsCursorShapeEmpty) {
   const protocol::CursorShapeInfo& kEmptyCursor = EmptyCursorShape();
   EXPECT_TRUE(IsCursorShapeEmpty(kEmptyCursor));

   const protocol::CursorShapeInfo& kOpaqueCursor = CreateOpaqueCursorShape();
   EXPECT_FALSE(IsCursorShapeEmpty(kOpaqueCursor));

   const protocol::CursorShapeInfo& kTransparentCursor =
       CreateTransparentCursorShape();
   EXPECT_FALSE(IsCursorShapeEmpty(kTransparentCursor));
 }

 // Verify that EmptyCursorFilter behaves correctly for normalized empty cursors.
 TEST(EmptyCursorFilterTest, EmptyCursor) {
   const protocol::CursorShapeInfo& kEmptyCursor = EmptyCursorShape();
   protocol::MockCursorShapeStub cursor_stub;
   EmptyCursorFilter cursor_filter(&cursor_stub);

   EXPECT_CALL(cursor_stub, SetCursorShape(EqualsCursorShape(kEmptyCursor)));

   cursor_filter.SetCursorShape(kEmptyCursor);
 }

 // Verify that EmptyCursorFilter turns transparent cursors into empty ones.
 TEST(EmptyCursorFilterTest, TransparentCursor) {
   const protocol::CursorShapeInfo& kEmptyCursor = EmptyCursorShape();
   protocol::MockCursorShapeStub cursor_stub;
   EmptyCursorFilter cursor_filter(&cursor_stub);

   EXPECT_CALL(cursor_stub, SetCursorShape(EqualsCursorShape(kEmptyCursor)));

   cursor_filter.SetCursorShape(CreateTransparentCursorShape());
 }

 // Verify that EmptyCursorFilter leaves non-transparent cursors alone.
 TEST(EmptyCursorFilterTest, NonTransparentCursor) {
   const protocol::CursorShapeInfo& kOpaqueCursor = CreateOpaqueCursorShape();
   protocol::MockCursorShapeStub cursor_stub;
   EmptyCursorFilter cursor_filter(&cursor_stub);

   EXPECT_CALL(cursor_stub, SetCursorShape(EqualsCursorShape(kOpaqueCursor)));

   cursor_filter.SetCursorShape(kOpaqueCursor);
 }

 }  // 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/empty_cursor_filter.h"

	#include <ostream>

	#include "remoting/proto/control.pb.h"
	#include "remoting/protocol/cursor_shape_stub.h"
	#include "remoting/protocol/protocol_mock_objects.h"
	#include "testing/gmock/include/gmock/gmock.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace remoting {

	namespace {

	// Chromoting cursors are always RGBA.
	const int kBytesPerPixel = 4;

	const int kTestCursorWidth = 100;
	const int kTestCursorHeight = 64;
	const int kTestCursorHotspotX = 10;
	const int kTestCursorHotspotY = 30;
	const int kTestCursorDataSize =
	kTestCursorWidth * kTestCursorHeight * kBytesPerPixel;

	protocol::CursorShapeInfo CreateTransparentCursorShape() {
	protocol::CursorShapeInfo transparent_cursor;
	transparent_cursor.set_width(kTestCursorWidth);
	transparent_cursor.set_height(kTestCursorHeight);
	transparent_cursor.set_hotspot_x(kTestCursorHotspotX);
	transparent_cursor.set_hotspot_y(kTestCursorHotspotY);
	transparent_cursor.mutable_data()->resize(kTestCursorDataSize, 0);
	return transparent_cursor;
	}

	protocol::CursorShapeInfo CreateOpaqueCursorShape() {
	protocol::CursorShapeInfo cursor = CreateTransparentCursorShape();
	cursor.mutable_data()->assign(kTestCursorDataSize, 0x01);
	return cursor;
	}

	MATCHER_P(EqualsCursorShape, cursor_shape, "") {
	// TODO(wez): Should not assume that all fields were set.
	return arg.data() == cursor_shape.data() &&
	arg.width() == cursor_shape.width() &&
	arg.height() == cursor_shape.height() &&
	arg.hotspot_x() == cursor_shape.hotspot_x() &&
	arg.hotspot_y() == cursor_shape.hotspot_y();
	}

	} // namespace

	namespace protocol {

	// This pretty-printer must be defined under remoting::protocol to be used.
	::std::ostream& operator<<(::std::ostream& os, const CursorShapeInfo& cursor) {
	return os << "[w:" << cursor.width() << ", h:" << cursor.height()
	<< ", h.x:" << cursor.hotspot_x() << ", h.y:" << cursor.hotspot_y()
	<< ", data.size:" << cursor.data().size() << "]";
	}

	} // namespace protocol

	// Verify that EmptyCursorShape() generates a normalized empty cursor.
	TEST(EmptyCursorFilterTest, EmptyCursorShape) {
	const protocol::CursorShapeInfo& empty_cursor = EmptyCursorShape();

	// TODO(wez): Replace these individual asserts with IsCursorShapeValid()?
	ASSERT_TRUE(empty_cursor.has_data());
	ASSERT_TRUE(empty_cursor.has_width());
	ASSERT_TRUE(empty_cursor.has_height());
	ASSERT_TRUE(empty_cursor.has_hotspot_x());
	ASSERT_TRUE(empty_cursor.has_hotspot_y());

	EXPECT_EQ(0, empty_cursor.width());
	EXPECT_EQ(0, empty_cursor.height());
	EXPECT_EQ(0, empty_cursor.hotspot_x());
	EXPECT_EQ(0, empty_cursor.hotspot_y());
	EXPECT_TRUE(empty_cursor.data().empty());
	}

	// Verify that IsCursorShapeEmpty returns true only for normalized empty
	// cursors, not for opaque or transparent non-empty cursors.
	TEST(EmptyCursorFilterTest, IsCursorShapeEmpty) {
	const protocol::CursorShapeInfo& kEmptyCursor = EmptyCursorShape();
	EXPECT_TRUE(IsCursorShapeEmpty(kEmptyCursor));

	const protocol::CursorShapeInfo& kOpaqueCursor = CreateOpaqueCursorShape();
	EXPECT_FALSE(IsCursorShapeEmpty(kOpaqueCursor));

	const protocol::CursorShapeInfo& kTransparentCursor =
	CreateTransparentCursorShape();
	EXPECT_FALSE(IsCursorShapeEmpty(kTransparentCursor));
	}

	// Verify that EmptyCursorFilter behaves correctly for normalized empty cursors.
	TEST(EmptyCursorFilterTest, EmptyCursor) {
	const protocol::CursorShapeInfo& kEmptyCursor = EmptyCursorShape();
	protocol::MockCursorShapeStub cursor_stub;
	EmptyCursorFilter cursor_filter(&cursor_stub);

	EXPECT_CALL(cursor_stub, SetCursorShape(EqualsCursorShape(kEmptyCursor)));

	cursor_filter.SetCursorShape(kEmptyCursor);
	}

	// Verify that EmptyCursorFilter turns transparent cursors into empty ones.
	TEST(EmptyCursorFilterTest, TransparentCursor) {
	const protocol::CursorShapeInfo& kEmptyCursor = EmptyCursorShape();
	protocol::MockCursorShapeStub cursor_stub;
	EmptyCursorFilter cursor_filter(&cursor_stub);

	EXPECT_CALL(cursor_stub, SetCursorShape(EqualsCursorShape(kEmptyCursor)));

	cursor_filter.SetCursorShape(CreateTransparentCursorShape());
	}

	// Verify that EmptyCursorFilter leaves non-transparent cursors alone.
	TEST(EmptyCursorFilterTest, NonTransparentCursor) {
	const protocol::CursorShapeInfo& kOpaqueCursor = CreateOpaqueCursorShape();
	protocol::MockCursorShapeStub cursor_stub;
	EmptyCursorFilter cursor_filter(&cursor_stub);

	EXPECT_CALL(cursor_stub, SetCursorShape(EqualsCursorShape(kOpaqueCursor)));

	cursor_filter.SetCursorShape(kOpaqueCursor);
	}

	} // namespace remoting