// Copyright 2014 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 "ash/touch/touch_transformer_controller.h" #include "ash/shell.h" #include "ash/test/ash_test_base.h" #include "ui/aura/window_tree_host.h" #include "ui/events/device_data_manager.h" #include "ui/events/test/events_test_utils_x11.h" #include "ui/gfx/display.h" namespace ash { namespace { DisplayInfo CreateDisplayInfo(int64 id, unsigned int touch_device_id, const gfx::Rect& bounds) { DisplayInfo info(id, std::string(), false); info.SetBounds(bounds); info.set_touch_device_id(touch_device_id); return info; } } // namespace typedef test::AshTestBase TouchTransformerControllerTest; TEST_F(TouchTransformerControllerTest, TouchTransformerMirrorModeLetterboxing) { // The internal display has native resolution of 2560x1700, and in // mirror mode it is configured as 1920x1200. This is in letterboxing // mode. DisplayInfo internal_display_info = CreateDisplayInfo(1, 10u, gfx::Rect(0, 0, 1920, 1200)); std::vector internal_modes; internal_modes.push_back( DisplayMode(gfx::Size(2560, 1700), 60, false, true)); internal_modes.push_back( DisplayMode(gfx::Size(1920, 1200), 60, false, false)); internal_display_info.set_display_modes(internal_modes); DisplayInfo external_display_info = CreateDisplayInfo(2, 11u, gfx::Rect(0, 0, 1920, 1200)); TouchTransformerController* tt_controller = Shell::GetInstance()->touch_transformer_controller(); ui::DeviceDataManager* device_manager = ui::DeviceDataManager::GetInstance(); tt_controller->force_compute_mirror_mode_touch_transformer_ = true; device_manager->UpdateTouchInfoForDisplay( internal_display_info.id(), internal_display_info.touch_device_id(), tt_controller->GetMirrorModeTouchTransformer(internal_display_info)); tt_controller->force_compute_mirror_mode_touch_transformer_ = false; device_manager->UpdateTouchInfoForDisplay( external_display_info.id(), external_display_info.touch_device_id(), tt_controller->GetMirrorModeTouchTransformer(external_display_info)); EXPECT_EQ(1, device_manager->GetDisplayForTouchDevice(10)); EXPECT_EQ(2, device_manager->GetDisplayForTouchDevice(11)); // External touch display has the default TouchTransformer. float x = 100.0; float y = 100.0; device_manager->ApplyTouchTransformer(11, &x, &y); EXPECT_EQ(100, x); EXPECT_EQ(100, y); // In letterboxing, there is (1-2560*(1200/1920)/1700)/2 = 2.95% of the // height on both the top & bottom region of the screen is blank. // When touch events coming at Y range [0, 1200), the mapping should be // [0, ~35] ---> < 0 // [~35, ~1165] ---> [0, 1200) // [~1165, 1200] ---> >= 1200 x = 100.0; y = 35.0; device_manager->ApplyTouchTransformer(10, &x, &y); EXPECT_EQ(100, static_cast(x)); EXPECT_EQ(0, static_cast(y)); x = 100.0; y = 1165.0; device_manager->ApplyTouchTransformer(10, &x, &y); EXPECT_EQ(100, static_cast(x)); EXPECT_EQ(1200, static_cast(y)); } TEST_F(TouchTransformerControllerTest, TouchTransformerMirrorModePillarboxing) { // The internal display has native resolution of 1366x768, and in // mirror mode it is configured as 1024x768. This is in pillarboxing // mode. DisplayInfo internal_display_info = CreateDisplayInfo(1, 10, gfx::Rect(0, 0, 1024, 768)); std::vector internal_modes; internal_modes.push_back( DisplayMode(gfx::Size(1366, 768), 60, false, true)); internal_modes.push_back( DisplayMode(gfx::Size(1024, 768), 60, false, false)); internal_display_info.set_display_modes(internal_modes); DisplayInfo external_display_info = CreateDisplayInfo(2, 11, gfx::Rect(0, 0, 1024, 768)); TouchTransformerController* tt_controller = Shell::GetInstance()->touch_transformer_controller(); ui::DeviceDataManager* device_manager = ui::DeviceDataManager::GetInstance(); tt_controller->force_compute_mirror_mode_touch_transformer_ = true; device_manager->UpdateTouchInfoForDisplay( internal_display_info.id(), internal_display_info.touch_device_id(), tt_controller->GetMirrorModeTouchTransformer(internal_display_info)); tt_controller->force_compute_mirror_mode_touch_transformer_ = false; device_manager->UpdateTouchInfoForDisplay( external_display_info.id(), external_display_info.touch_device_id(), tt_controller->GetMirrorModeTouchTransformer(external_display_info)); EXPECT_EQ(1, device_manager->GetDisplayForTouchDevice(10)); EXPECT_EQ(2, device_manager->GetDisplayForTouchDevice(11)); // External touch display has the default TouchTransformer. float x = 100.0; float y = 100.0; device_manager->ApplyTouchTransformer(11, &x, &y); EXPECT_EQ(100, x); EXPECT_EQ(100, y); // In pillarboxing, there is (1-768*(1024/768)/1366)/2 = 12.5% of the // width on both the left & rigth region of the screen is blank. // When touch events coming at X range [0, 1024), the mapping should be // [0, ~128] ---> < 0 // [~128, ~896] ---> [0, 1024) // [~896, 1024] ---> >= 1024 x = 128.0; y = 100.0; device_manager->ApplyTouchTransformer(10, &x, &y); EXPECT_EQ(0, static_cast(x)); EXPECT_EQ(100, static_cast(y)); x = 896.0; y = 100.0; device_manager->ApplyTouchTransformer(10, &x, &y); EXPECT_EQ(1024, static_cast(x)); EXPECT_EQ(100, static_cast(y)); } TEST_F(TouchTransformerControllerTest, TouchTransformerExtendedMode) { // The internal display has size 1366 x 768. The external display has // size 2560x1600. The total frame buffer is 2560x2428, // where 2428 = 768 + 60 (hidden gap) + 1600 // and the sceond monitor is translated to Point (0, 828) in the // framebuffer. DisplayInfo display1 = CreateDisplayInfo(1, 5u, gfx::Rect(0, 0, 1366, 768)); DisplayInfo display2 = CreateDisplayInfo(2, 6u, gfx::Rect(0, 828, 2560, 1600)); gfx::Size fb_size(2560, 2428); TouchTransformerController* tt_controller = Shell::GetInstance()->touch_transformer_controller(); ui::DeviceDataManager* device_manager = ui::DeviceDataManager::GetInstance(); device_manager->UpdateTouchInfoForDisplay( display1.id(), display1.touch_device_id(), tt_controller->GetExtendedModeTouchTransformer(display1, fb_size)); device_manager->UpdateTouchInfoForDisplay( display2.id(), display2.touch_device_id(), tt_controller->GetExtendedModeTouchTransformer(display2, fb_size)); EXPECT_EQ(1, device_manager->GetDisplayForTouchDevice(5)); EXPECT_EQ(2, device_manager->GetDisplayForTouchDevice(6)); // Mapping for touch events from internal touch display: // [0, 2560) x [0, 2428) -> [0, 1366) x [0, 768) float x = 0.0; float y = 0.0; device_manager->ApplyTouchTransformer(5, &x, &y); EXPECT_EQ(0, static_cast(x)); EXPECT_EQ(0, static_cast(y)); x = 2559.0; y = 2427.0; device_manager->ApplyTouchTransformer(5, &x, &y); EXPECT_EQ(1365, static_cast(x)); EXPECT_EQ(767, static_cast(y)); // Mapping for touch events from external touch display: // [0, 2560) x [0, 2428) -> [0, 2560) x [0, 1600) x = 0.0; y = 0.0; device_manager->ApplyTouchTransformer(6, &x, &y); EXPECT_EQ(0, static_cast(x)); EXPECT_EQ(0, static_cast(y)); x = 2559.0; y = 2427.0; device_manager->ApplyTouchTransformer(6, &x, &y); EXPECT_EQ(2559, static_cast(x)); EXPECT_EQ(1599, static_cast(y)); } TEST_F(TouchTransformerControllerTest, TouchRadiusScale) { DisplayInfo display = CreateDisplayInfo(1, 5u, gfx::Rect(0, 0, 2560, 1600)); std::vector devices; devices.push_back(5); ui::SetUpTouchDevicesForTest(devices); TouchTransformerController* tt_controller = Shell::GetInstance()->touch_transformer_controller(); // Default touchscreen position range is 1001x1001; EXPECT_EQ(sqrt((2560.0 * 1600.0) / (1001.0 * 1001.0)), tt_controller->GetTouchResolutionScale(display)); } } // namespace ash