Updating XTBs based on .GRDs from branch master
[chromium-blink-merge.git] / ash / display / display_change_observer_chromeos_unittest.cc
blobbbf01fc9fae8f2446b0b1cb99bc12f29cd602cac
1 // Copyright 2013 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "ash/display/display_change_observer_chromeos.h"
7 #include "ash/display/display_info.h"
8 #include "base/memory/scoped_vector.h"
9 #include "testing/gtest/include/gtest/gtest.h"
10 #include "ui/display/chromeos/display_configurator.h"
11 #include "ui/display/chromeos/test/test_display_snapshot.h"
12 #include "ui/display/types/display_mode.h"
14 using ui::DisplayConfigurator;
16 typedef testing::Test DisplayChangeObserverTest;
18 namespace ash {
20 TEST_F(DisplayChangeObserverTest, GetExternalDisplayModeList) {
21 ScopedVector<const ui::DisplayMode> modes;
22 modes.push_back(new ui::DisplayMode(gfx::Size(1920, 1200), false, 60));
24 // All non-interlaced (as would be seen with different refresh rates).
25 modes.push_back(new ui::DisplayMode(gfx::Size(1920, 1080), false, 80));
26 modes.push_back(new ui::DisplayMode(gfx::Size(1920, 1080), false, 70));
27 modes.push_back(new ui::DisplayMode(gfx::Size(1920, 1080), false, 60));
29 // Interlaced vs non-interlaced.
30 modes.push_back(new ui::DisplayMode(gfx::Size(1280, 720), true, 60));
31 modes.push_back(new ui::DisplayMode(gfx::Size(1280, 720), false, 60));
33 // Interlaced only.
34 modes.push_back(new ui::DisplayMode(gfx::Size(1024, 768), true, 70));
35 modes.push_back(new ui::DisplayMode(gfx::Size(1024, 768), true, 60));
37 // Mixed.
38 modes.push_back(new ui::DisplayMode(gfx::Size(1024, 600), true, 60));
39 modes.push_back(new ui::DisplayMode(gfx::Size(1024, 600), false, 70));
40 modes.push_back(new ui::DisplayMode(gfx::Size(1024, 600), false, 60));
42 // Just one interlaced mode.
43 modes.push_back(new ui::DisplayMode(gfx::Size(640, 480), true, 60));
45 ui::TestDisplaySnapshot display_snapshot;
46 display_snapshot.set_modes(modes.get());
48 std::vector<DisplayMode> display_modes =
49 DisplayChangeObserver::GetExternalDisplayModeList(display_snapshot);
50 ASSERT_EQ(6u, display_modes.size());
51 EXPECT_EQ("640x480", display_modes[0].size.ToString());
52 EXPECT_TRUE(display_modes[0].interlaced);
53 EXPECT_EQ(display_modes[0].refresh_rate, 60);
55 EXPECT_EQ("1024x600", display_modes[1].size.ToString());
56 EXPECT_FALSE(display_modes[1].interlaced);
57 EXPECT_EQ(display_modes[1].refresh_rate, 70);
59 EXPECT_EQ("1024x768", display_modes[2].size.ToString());
60 EXPECT_TRUE(display_modes[2].interlaced);
61 EXPECT_EQ(display_modes[2].refresh_rate, 70);
63 EXPECT_EQ("1280x720", display_modes[3].size.ToString());
64 EXPECT_FALSE(display_modes[3].interlaced);
65 EXPECT_EQ(display_modes[3].refresh_rate, 60);
67 EXPECT_EQ("1920x1080", display_modes[4].size.ToString());
68 EXPECT_FALSE(display_modes[4].interlaced);
69 EXPECT_EQ(display_modes[4].refresh_rate, 80);
71 EXPECT_EQ("1920x1200", display_modes[5].size.ToString());
72 EXPECT_FALSE(display_modes[5].interlaced);
73 EXPECT_EQ(display_modes[5].refresh_rate, 60);
75 // Outputs without any modes shouldn't cause a crash.
76 modes.clear();
77 display_snapshot.set_modes(modes.get());
79 display_modes =
80 DisplayChangeObserver::GetExternalDisplayModeList(display_snapshot);
81 EXPECT_EQ(0u, display_modes.size());
84 TEST_F(DisplayChangeObserverTest, GetInternalDisplayModeList) {
85 ScopedVector<const ui::DisplayMode> modes;
86 // Data picked from peppy.
87 modes.push_back(new ui::DisplayMode(gfx::Size(1366, 768), false, 60));
88 modes.push_back(new ui::DisplayMode(gfx::Size(1024, 768), false, 60));
89 modes.push_back(new ui::DisplayMode(gfx::Size(800, 600), false, 60));
90 modes.push_back(new ui::DisplayMode(gfx::Size(600, 600), false, 56.2));
91 modes.push_back(new ui::DisplayMode(gfx::Size(640, 480), false, 59.9));
93 ui::TestDisplaySnapshot display_snapshot;
94 display_snapshot.set_modes(modes.get());
95 display_snapshot.set_native_mode(modes[0]);
97 DisplayInfo info(1, "", false);
98 info.SetBounds(gfx::Rect(0, 0, 1366, 768));
100 std::vector<DisplayMode> display_modes =
101 DisplayChangeObserver::GetInternalDisplayModeList(info, display_snapshot);
102 ASSERT_EQ(5u, display_modes.size());
103 EXPECT_EQ("1366x768", display_modes[0].size.ToString());
104 EXPECT_FALSE(display_modes[0].native);
105 EXPECT_NEAR(display_modes[0].ui_scale, 0.5, 0.01);
106 EXPECT_EQ(display_modes[0].refresh_rate, 60);
108 EXPECT_EQ("1366x768", display_modes[1].size.ToString());
109 EXPECT_FALSE(display_modes[1].native);
110 EXPECT_NEAR(display_modes[1].ui_scale, 0.6, 0.01);
111 EXPECT_EQ(display_modes[1].refresh_rate, 60);
113 EXPECT_EQ("1366x768", display_modes[2].size.ToString());
114 EXPECT_FALSE(display_modes[2].native);
115 EXPECT_NEAR(display_modes[2].ui_scale, 0.75, 0.01);
116 EXPECT_EQ(display_modes[2].refresh_rate, 60);
118 EXPECT_EQ("1366x768", display_modes[3].size.ToString());
119 EXPECT_TRUE(display_modes[3].native);
120 EXPECT_NEAR(display_modes[3].ui_scale, 1.0, 0.01);
121 EXPECT_EQ(display_modes[3].refresh_rate, 60);
123 EXPECT_EQ("1366x768", display_modes[4].size.ToString());
124 EXPECT_FALSE(display_modes[4].native);
125 EXPECT_NEAR(display_modes[4].ui_scale, 1.125, 0.01);
126 EXPECT_EQ(display_modes[4].refresh_rate, 60);
129 TEST_F(DisplayChangeObserverTest, GetInternalHiDPIDisplayModeList) {
130 ScopedVector<const ui::DisplayMode> modes;
131 // Data picked from peppy.
132 modes.push_back(new ui::DisplayMode(gfx::Size(2560, 1700), false, 60));
133 modes.push_back(new ui::DisplayMode(gfx::Size(2048, 1536), false, 60));
134 modes.push_back(new ui::DisplayMode(gfx::Size(1920, 1440), false, 60));
136 ui::TestDisplaySnapshot display_snapshot;
137 display_snapshot.set_modes(modes.get());
138 display_snapshot.set_native_mode(modes[0]);
140 DisplayInfo info(1, "", false);
141 info.SetBounds(gfx::Rect(0, 0, 2560, 1700));
142 info.set_device_scale_factor(2.0f);
144 std::vector<DisplayMode> display_modes =
145 DisplayChangeObserver::GetInternalDisplayModeList(info, display_snapshot);
146 ASSERT_EQ(8u, display_modes.size());
147 EXPECT_EQ("2560x1700", display_modes[0].size.ToString());
148 EXPECT_FALSE(display_modes[0].native);
149 EXPECT_NEAR(display_modes[0].ui_scale, 0.5, 0.01);
150 EXPECT_EQ(display_modes[0].refresh_rate, 60);
152 EXPECT_EQ("2560x1700", display_modes[1].size.ToString());
153 EXPECT_FALSE(display_modes[1].native);
154 EXPECT_NEAR(display_modes[1].ui_scale, 0.625, 0.01);
155 EXPECT_EQ(display_modes[1].refresh_rate, 60);
157 EXPECT_EQ("2560x1700", display_modes[2].size.ToString());
158 EXPECT_FALSE(display_modes[2].native);
159 EXPECT_NEAR(display_modes[2].ui_scale, 0.8, 0.01);
160 EXPECT_EQ(display_modes[2].refresh_rate, 60);
162 EXPECT_EQ("2560x1700", display_modes[3].size.ToString());
163 EXPECT_FALSE(display_modes[3].native);
164 EXPECT_NEAR(display_modes[3].ui_scale, 1.0, 0.01);
165 EXPECT_EQ(display_modes[3].refresh_rate, 60);
167 EXPECT_EQ("2560x1700", display_modes[4].size.ToString());
168 EXPECT_FALSE(display_modes[4].native);
169 EXPECT_NEAR(display_modes[4].ui_scale, 1.125, 0.01);
170 EXPECT_EQ(display_modes[4].refresh_rate, 60);
172 EXPECT_EQ("2560x1700", display_modes[5].size.ToString());
173 EXPECT_FALSE(display_modes[5].native);
174 EXPECT_NEAR(display_modes[5].ui_scale, 1.25, 0.01);
175 EXPECT_EQ(display_modes[5].refresh_rate, 60);
177 EXPECT_EQ("2560x1700", display_modes[6].size.ToString());
178 EXPECT_FALSE(display_modes[6].native);
179 EXPECT_NEAR(display_modes[6].ui_scale, 1.5, 0.01);
180 EXPECT_EQ(display_modes[6].refresh_rate, 60);
182 EXPECT_EQ("2560x1700", display_modes[7].size.ToString());
183 EXPECT_TRUE(display_modes[7].native);
184 EXPECT_NEAR(display_modes[7].ui_scale, 2.0, 0.01);
185 EXPECT_EQ(display_modes[7].refresh_rate, 60);
188 TEST_F(DisplayChangeObserverTest, GetInternalDisplayModeList1_25) {
189 ScopedVector<const ui::DisplayMode> modes;
190 // Data picked from peppy.
191 modes.push_back(new ui::DisplayMode(gfx::Size(1920, 1080), false, 60));
193 ui::TestDisplaySnapshot display_snapshot;
194 display_snapshot.set_modes(modes.get());
195 display_snapshot.set_native_mode(modes[0]);
197 DisplayInfo info(1, "", false);
198 info.SetBounds(gfx::Rect(0, 0, 1920, 1080));
199 info.set_device_scale_factor(1.25);
201 std::vector<DisplayMode> display_modes =
202 DisplayChangeObserver::GetInternalDisplayModeList(info, display_snapshot);
203 ASSERT_EQ(5u, display_modes.size());
204 EXPECT_EQ("1920x1080", display_modes[0].size.ToString());
205 EXPECT_FALSE(display_modes[0].native);
206 EXPECT_NEAR(display_modes[0].ui_scale, 0.5, 0.01);
207 EXPECT_EQ(display_modes[0].refresh_rate, 60);
209 EXPECT_EQ("1920x1080", display_modes[1].size.ToString());
210 EXPECT_FALSE(display_modes[1].native);
211 EXPECT_NEAR(display_modes[1].ui_scale, 0.625, 0.01);
212 EXPECT_EQ(display_modes[1].refresh_rate, 60);
214 EXPECT_EQ("1920x1080", display_modes[2].size.ToString());
215 EXPECT_FALSE(display_modes[2].native);
216 EXPECT_NEAR(display_modes[2].ui_scale, 0.8, 0.01);
217 EXPECT_EQ(display_modes[2].refresh_rate, 60);
219 EXPECT_EQ("1920x1080", display_modes[3].size.ToString());
220 EXPECT_TRUE(display_modes[3].native);
221 EXPECT_NEAR(display_modes[3].ui_scale, 1.0, 0.01);
222 EXPECT_EQ(display_modes[3].refresh_rate, 60);
224 EXPECT_EQ("1920x1080", display_modes[4].size.ToString());
225 EXPECT_FALSE(display_modes[4].native);
226 EXPECT_NEAR(display_modes[4].ui_scale, 1.25, 0.01);
227 EXPECT_EQ(display_modes[4].refresh_rate, 60);
230 TEST_F(DisplayChangeObserverTest, GetExternalDisplayModeList4K) {
231 ScopedVector<const ui::DisplayMode> modes;
232 modes.push_back(new ui::DisplayMode(gfx::Size(3840, 2160), false, 30));
233 modes.push_back(new ui::DisplayMode(gfx::Size(1920, 1200), false, 60));
235 // All non-interlaced (as would be seen with different refresh rates).
236 modes.push_back(new ui::DisplayMode(gfx::Size(1920, 1080), false, 80));
237 modes.push_back(new ui::DisplayMode(gfx::Size(1920, 1080), false, 70));
238 modes.push_back(new ui::DisplayMode(gfx::Size(1920, 1080), false, 60));
240 // Interlaced vs non-interlaced.
241 modes.push_back(new ui::DisplayMode(gfx::Size(1280, 720), true, 60));
242 modes.push_back(new ui::DisplayMode(gfx::Size(1280, 720), false, 60));
244 // Interlaced only.
245 modes.push_back(new ui::DisplayMode(gfx::Size(1024, 768), true, 70));
246 modes.push_back(new ui::DisplayMode(gfx::Size(1024, 768), true, 60));
248 // Mixed.
249 modes.push_back(new ui::DisplayMode(gfx::Size(1024, 600), true, 60));
250 modes.push_back(new ui::DisplayMode(gfx::Size(1024, 600), false, 70));
251 modes.push_back(new ui::DisplayMode(gfx::Size(1024, 600), false, 60));
253 // Just one interlaced mode.
254 modes.push_back(new ui::DisplayMode(gfx::Size(640, 480), true, 60));
256 ui::TestDisplaySnapshot display_snapshot;
257 display_snapshot.set_modes(modes.get());
258 display_snapshot.set_native_mode(modes[0]);
260 std::vector<DisplayMode> display_modes =
261 DisplayChangeObserver::GetExternalDisplayModeList(display_snapshot);
262 DisplayInfo info(1, "", false);
263 info.SetDisplayModes(display_modes); // Sort as external display.
264 display_modes = info.display_modes();
266 ASSERT_EQ(9u, display_modes.size());
267 EXPECT_EQ("640x480", display_modes[0].size.ToString());
268 EXPECT_TRUE(display_modes[0].interlaced);
269 EXPECT_EQ(display_modes[0].refresh_rate, 60);
271 EXPECT_EQ("1024x600", display_modes[1].size.ToString());
272 EXPECT_FALSE(display_modes[1].interlaced);
273 EXPECT_EQ(display_modes[1].refresh_rate, 70);
275 EXPECT_EQ("1024x768", display_modes[2].size.ToString());
276 EXPECT_TRUE(display_modes[2].interlaced);
277 EXPECT_EQ(display_modes[2].refresh_rate, 70);
279 EXPECT_EQ("1280x720", display_modes[3].size.ToString());
280 EXPECT_FALSE(display_modes[3].interlaced);
281 EXPECT_EQ(display_modes[3].refresh_rate, 60);
283 EXPECT_EQ("1920x1080", display_modes[4].size.ToString());
284 EXPECT_FALSE(display_modes[4].interlaced);
285 EXPECT_EQ(display_modes[4].refresh_rate, 80);
287 EXPECT_EQ("3840x2160", display_modes[5].size.ToString());
288 EXPECT_FALSE(display_modes[5].interlaced);
289 EXPECT_FALSE(display_modes[5].native);
290 EXPECT_EQ(display_modes[5].refresh_rate, 30);
291 EXPECT_EQ(display_modes[5].device_scale_factor, 2.0);
293 EXPECT_EQ("1920x1200", display_modes[6].size.ToString());
294 EXPECT_FALSE(display_modes[6].interlaced);
295 EXPECT_EQ(display_modes[6].refresh_rate, 60);
297 EXPECT_EQ("3840x2160", display_modes[7].size.ToString());
298 EXPECT_FALSE(display_modes[7].interlaced);
299 EXPECT_FALSE(display_modes[7].native);
300 EXPECT_EQ(display_modes[7].refresh_rate, 30);
301 EXPECT_EQ(display_modes[7].device_scale_factor, 1.25);
303 EXPECT_EQ("3840x2160", display_modes[8].size.ToString());
304 EXPECT_FALSE(display_modes[8].interlaced);
305 EXPECT_TRUE(display_modes[8].native);
306 EXPECT_EQ(display_modes[8].refresh_rate, 30);
308 // Outputs without any modes shouldn't cause a crash.
309 modes.clear();
310 display_snapshot.set_modes(modes.get());
311 display_snapshot.set_native_mode(NULL);
313 display_modes =
314 DisplayChangeObserver::GetExternalDisplayModeList(display_snapshot);
315 EXPECT_EQ(0u, display_modes.size());
318 namespace {
320 float ComputeDeviceScaleFactor(float diagonal_inch,
321 const gfx::Rect& resolution) {
322 // We assume that displays have square pixel.
323 float diagonal_pixel = std::sqrt(std::pow(resolution.width(), 2) +
324 std::pow(resolution.height(), 2));
325 float dpi = diagonal_pixel / diagonal_inch;
326 return DisplayChangeObserver::FindDeviceScaleFactor(dpi);
329 } // namespace
331 TEST_F(DisplayChangeObserverTest, FindDeviceScaleFactor) {
332 EXPECT_EQ(1.0f, ComputeDeviceScaleFactor(19.5f, gfx::Rect(1600, 900)));
334 // 21.5" 1920x1080
335 EXPECT_EQ(1.0f, ComputeDeviceScaleFactor(21.5f, gfx::Rect(1920, 1080)));
337 // 12.1" 1280x800
338 EXPECT_EQ(1.0f, ComputeDeviceScaleFactor(12.1f, gfx::Rect(1280, 800)));
340 // 11.6" 1920x1080
341 EXPECT_EQ(1.25f, ComputeDeviceScaleFactor(11.6f, gfx::Rect(1920, 1080)));
343 // 13.3" 1920x1080
344 EXPECT_EQ(1.25f, ComputeDeviceScaleFactor(13.3f, gfx::Rect(1920, 1080)));
346 // 14" 1920x1080
347 EXPECT_EQ(1.25f, ComputeDeviceScaleFactor(14.0f, gfx::Rect(1920, 1080)));
349 // 12.85" 2560x1700
350 EXPECT_EQ(2.0f, ComputeDeviceScaleFactor(12.85f, gfx::Rect(2560, 1700)));
352 // Erroneous values should still work.
353 EXPECT_EQ(1.0f, DisplayChangeObserver::FindDeviceScaleFactor(-100.0f));
354 EXPECT_EQ(1.0f, DisplayChangeObserver::FindDeviceScaleFactor(0.0f));
355 EXPECT_EQ(2.0f, DisplayChangeObserver::FindDeviceScaleFactor(10000.0f));
358 TEST_F(DisplayChangeObserverTest,
359 FindExternalDisplayNativeModeWhenOverwritten) {
360 ScopedVector<const ui::DisplayMode> modes;
361 modes.push_back(new ui::DisplayMode(gfx::Size(1920, 1080), true, 60));
362 modes.push_back(new ui::DisplayMode(gfx::Size(1920, 1080), false, 60));
364 ui::TestDisplaySnapshot display_snapshot;
365 display_snapshot.set_modes(modes.get());
366 display_snapshot.set_native_mode(modes[0]);
368 std::vector<DisplayMode> display_modes =
369 DisplayChangeObserver::GetExternalDisplayModeList(display_snapshot);
370 ASSERT_EQ(2u, display_modes.size());
371 EXPECT_EQ("1920x1080", display_modes[0].size.ToString());
372 EXPECT_FALSE(display_modes[0].interlaced);
373 EXPECT_FALSE(display_modes[0].native);
374 EXPECT_EQ(display_modes[0].refresh_rate, 60);
376 EXPECT_EQ("1920x1080", display_modes[1].size.ToString());
377 EXPECT_TRUE(display_modes[1].interlaced);
378 EXPECT_TRUE(display_modes[1].native);
379 EXPECT_EQ(display_modes[1].refresh_rate, 60);
382 } // namespace ash