Port Android relocation packer to chromium build
[chromium-blink-merge.git] / ash / display / display_info.cc
blobe812633bc2a6efeb0ee5f53df8422ff5a83487b8
1 // Copyright (c) 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 <stdio.h>
6 #include <string>
7 #include <vector>
9 #include "ash/display/display_info.h"
10 #include "base/logging.h"
11 #include "base/strings/string_number_conversions.h"
12 #include "base/strings/string_util.h"
13 #include "base/strings/stringprintf.h"
14 #include "ui/gfx/display.h"
15 #include "ui/gfx/geometry/size_conversions.h"
16 #include "ui/gfx/geometry/size_f.h"
18 #if defined(OS_WIN)
19 #include "ui/aura/window_tree_host.h"
20 #include "ui/gfx/win/dpi.h"
21 #endif
23 namespace ash {
24 namespace {
26 bool use_125_dsf_for_ui_scaling = false;
28 // Check the content of |spec| and fill |bounds| and |device_scale_factor|.
29 // Returns true when |bounds| is found.
30 bool GetDisplayBounds(
31 const std::string& spec, gfx::Rect* bounds, float* device_scale_factor) {
32 int width = 0;
33 int height = 0;
34 int x = 0;
35 int y = 0;
36 if (sscanf(spec.c_str(), "%dx%d*%f",
37 &width, &height, device_scale_factor) >= 2 ||
38 sscanf(spec.c_str(), "%d+%d-%dx%d*%f", &x, &y, &width, &height,
39 device_scale_factor) >= 4) {
40 bounds->SetRect(x, y, width, height);
41 return true;
43 return false;
46 // Display mode list is sorted by:
47 // * the area in pixels in ascending order
48 // * refresh rate in descending order
49 struct DisplayModeSorter {
50 explicit DisplayModeSorter(bool is_internal) : is_internal(is_internal) {}
52 bool operator()(const DisplayMode& a, const DisplayMode& b) {
53 gfx::Size size_a_dip = a.GetSizeInDIP(is_internal);
54 gfx::Size size_b_dip = b.GetSizeInDIP(is_internal);
55 if (size_a_dip.GetArea() == size_b_dip.GetArea())
56 return (a.refresh_rate > b.refresh_rate);
57 return (size_a_dip.GetArea() < size_b_dip.GetArea());
60 bool is_internal;
63 } // namespace
65 DisplayMode::DisplayMode()
66 : refresh_rate(0.0f),
67 interlaced(false),
68 native(false),
69 ui_scale(1.0f),
70 device_scale_factor(1.0f) {}
72 DisplayMode::DisplayMode(const gfx::Size& size,
73 float refresh_rate,
74 bool interlaced,
75 bool native)
76 : size(size),
77 refresh_rate(refresh_rate),
78 interlaced(interlaced),
79 native(native),
80 ui_scale(1.0f),
81 device_scale_factor(1.0f) {}
83 gfx::Size DisplayMode::GetSizeInDIP(bool is_internal) const {
84 gfx::SizeF size_dip(size);
85 size_dip.Scale(ui_scale);
86 // DSF=1.25 is special. The screen is drawn with DSF=1.25 in some mode but it
87 // doesn't affect the screen size computation.
88 if (!(use_125_dsf_for_ui_scaling && is_internal) ||
89 device_scale_factor != 1.25f) {
90 size_dip.Scale(1.0f / device_scale_factor);
92 return gfx::ToFlooredSize(size_dip);
95 bool DisplayMode::IsEquivalent(const DisplayMode& other) const {
96 const float kEpsilon = 0.0001f;
97 return size == other.size &&
98 std::abs(ui_scale - other.ui_scale) < kEpsilon &&
99 std::abs(device_scale_factor - other.device_scale_factor) < kEpsilon;
102 // satic
103 DisplayInfo DisplayInfo::CreateFromSpec(const std::string& spec) {
104 return CreateFromSpecWithID(spec, gfx::Display::kInvalidDisplayID);
107 // static
108 void DisplayInfo::SetUse125DSFForUIScaling(bool enable) {
109 use_125_dsf_for_ui_scaling = enable;
112 // static
113 DisplayInfo DisplayInfo::CreateFromSpecWithID(const std::string& spec,
114 int64 id) {
115 // Use larger than max int to catch overflow early.
116 static int64 synthesized_display_id = 2200000000LL;
118 #if defined(OS_WIN)
119 gfx::Rect bounds_in_native(aura::WindowTreeHost::GetNativeScreenSize());
120 #else
121 // Default bounds for a display.
122 const int kDefaultHostWindowX = 200;
123 const int kDefaultHostWindowY = 200;
124 const int kDefaultHostWindowWidth = 1366;
125 const int kDefaultHostWindowHeight = 768;
126 gfx::Rect bounds_in_native(kDefaultHostWindowX, kDefaultHostWindowY,
127 kDefaultHostWindowWidth, kDefaultHostWindowHeight);
128 #endif
129 std::string main_spec = spec;
131 float ui_scale = 1.0f;
132 std::vector<std::string> parts;
133 if (Tokenize(main_spec, "@", &parts) == 2) {
134 double scale_in_double = 0;
135 if (base::StringToDouble(parts[1], &scale_in_double))
136 ui_scale = scale_in_double;
137 main_spec = parts[0];
140 size_t count = Tokenize(main_spec, "/", &parts);
141 gfx::Display::Rotation rotation(gfx::Display::ROTATE_0);
142 bool has_overscan = false;
143 if (count) {
144 main_spec = parts[0];
145 if (count >= 2) {
146 std::string options = parts[1];
147 for (size_t i = 0; i < options.size(); ++i) {
148 char c = options[i];
149 switch (c) {
150 case 'o':
151 has_overscan = true;
152 break;
153 case 'r': // rotate 90 degrees to 'right'.
154 rotation = gfx::Display::ROTATE_90;
155 break;
156 case 'u': // 180 degrees, 'u'pside-down.
157 rotation = gfx::Display::ROTATE_180;
158 break;
159 case 'l': // rotate 90 degrees to 'left'.
160 rotation = gfx::Display::ROTATE_270;
161 break;
167 float device_scale_factor = 1.0f;
168 if (!GetDisplayBounds(main_spec, &bounds_in_native, &device_scale_factor)) {
169 #if defined(OS_WIN)
170 device_scale_factor = gfx::GetDPIScale();
171 #endif
174 std::vector<DisplayMode> display_modes;
175 if (Tokenize(main_spec, "#", &parts) == 2) {
176 size_t native_mode = 0;
177 int largest_area = -1;
178 float highest_refresh_rate = -1.0f;
179 main_spec = parts[0];
180 std::string resolution_list = parts[1];
181 count = Tokenize(resolution_list, "|", &parts);
182 for (size_t i = 0; i < count; ++i) {
183 DisplayMode mode;
184 gfx::Rect mode_bounds;
185 std::vector<std::string> resolution;
186 Tokenize(parts[i], "%", &resolution);
187 if (GetDisplayBounds(
188 resolution[0], &mode_bounds, &mode.device_scale_factor)) {
189 mode.size = mode_bounds.size();
190 if (resolution.size() > 1)
191 sscanf(resolution[1].c_str(), "%f", &mode.refresh_rate);
192 if (mode.size.GetArea() >= largest_area &&
193 mode.refresh_rate > highest_refresh_rate) {
194 // Use mode with largest area and highest refresh rate as native.
195 largest_area = mode.size.GetArea();
196 highest_refresh_rate = mode.refresh_rate;
197 native_mode = i;
199 display_modes.push_back(mode);
202 display_modes[native_mode].native = true;
205 if (id == gfx::Display::kInvalidDisplayID)
206 id = synthesized_display_id++;
207 DisplayInfo display_info(
208 id, base::StringPrintf("Display-%d", static_cast<int>(id)), has_overscan);
209 display_info.set_device_scale_factor(device_scale_factor);
210 display_info.set_rotation(rotation);
211 display_info.set_configured_ui_scale(ui_scale);
212 display_info.SetBounds(bounds_in_native);
213 display_info.SetDisplayModes(display_modes);
215 // To test the overscan, it creates the default 5% overscan.
216 if (has_overscan) {
217 int width = bounds_in_native.width() / device_scale_factor / 40;
218 int height = bounds_in_native.height() / device_scale_factor / 40;
219 display_info.SetOverscanInsets(gfx::Insets(height, width, height, width));
220 display_info.UpdateDisplaySize();
223 DVLOG(1) << "DisplayInfoFromSpec info=" << display_info.ToString()
224 << ", spec=" << spec;
225 return display_info;
228 DisplayInfo::DisplayInfo()
229 : id_(gfx::Display::kInvalidDisplayID),
230 has_overscan_(false),
231 rotation_(gfx::Display::ROTATE_0),
232 touch_support_(gfx::Display::TOUCH_SUPPORT_UNKNOWN),
233 touch_device_id_(0),
234 device_scale_factor_(1.0f),
235 overscan_insets_in_dip_(0, 0, 0, 0),
236 configured_ui_scale_(1.0f),
237 native_(false),
238 is_aspect_preserving_scaling_(false),
239 clear_overscan_insets_(false),
240 color_profile_(ui::COLOR_PROFILE_STANDARD) {
243 DisplayInfo::DisplayInfo(int64 id,
244 const std::string& name,
245 bool has_overscan)
246 : id_(id),
247 name_(name),
248 has_overscan_(has_overscan),
249 rotation_(gfx::Display::ROTATE_0),
250 touch_support_(gfx::Display::TOUCH_SUPPORT_UNKNOWN),
251 touch_device_id_(0),
252 device_scale_factor_(1.0f),
253 overscan_insets_in_dip_(0, 0, 0, 0),
254 configured_ui_scale_(1.0f),
255 native_(false),
256 is_aspect_preserving_scaling_(false),
257 clear_overscan_insets_(false),
258 color_profile_(ui::COLOR_PROFILE_STANDARD) {
261 DisplayInfo::~DisplayInfo() {
264 void DisplayInfo::Copy(const DisplayInfo& native_info) {
265 DCHECK(id_ == native_info.id_);
266 name_ = native_info.name_;
267 has_overscan_ = native_info.has_overscan_;
269 touch_support_ = native_info.touch_support_;
270 touch_device_id_ = native_info.touch_device_id_;
271 device_scale_factor_ = native_info.device_scale_factor_;
272 DCHECK(!native_info.bounds_in_native_.IsEmpty());
273 bounds_in_native_ = native_info.bounds_in_native_;
274 size_in_pixel_ = native_info.size_in_pixel_;
275 is_aspect_preserving_scaling_ = native_info.is_aspect_preserving_scaling_;
276 display_modes_ = native_info.display_modes_;
277 available_color_profiles_ = native_info.available_color_profiles_;
279 // Rotation, ui_scale, color_profile and overscan are given by preference,
280 // or unit tests. Don't copy if this native_info came from
281 // DisplayChangeObserver.
282 if (!native_info.native()) {
283 // Update the overscan_insets_in_dip_ either if the inset should be
284 // cleared, or has non empty insts.
285 if (native_info.clear_overscan_insets())
286 overscan_insets_in_dip_.Set(0, 0, 0, 0);
287 else if (!native_info.overscan_insets_in_dip_.empty())
288 overscan_insets_in_dip_ = native_info.overscan_insets_in_dip_;
290 rotation_ = native_info.rotation_;
291 configured_ui_scale_ = native_info.configured_ui_scale_;
292 color_profile_ = native_info.color_profile();
296 void DisplayInfo::SetBounds(const gfx::Rect& new_bounds_in_native) {
297 bounds_in_native_ = new_bounds_in_native;
298 size_in_pixel_ = new_bounds_in_native.size();
299 UpdateDisplaySize();
302 float DisplayInfo::GetEffectiveDeviceScaleFactor() const {
303 if (Use125DSFRorUIScaling() && device_scale_factor_ == 1.25f)
304 return (configured_ui_scale_ == 0.8f) ? 1.25f : 1.0f;
305 if (device_scale_factor_ == configured_ui_scale_)
306 return 1.0f;
307 return device_scale_factor_;
310 float DisplayInfo::GetEffectiveUIScale() const {
311 if (Use125DSFRorUIScaling() && device_scale_factor_ == 1.25f)
312 return (configured_ui_scale_ == 0.8f) ? 1.0f : configured_ui_scale_;
313 if (device_scale_factor_ == configured_ui_scale_)
314 return 1.0f;
315 return configured_ui_scale_;
318 void DisplayInfo::UpdateDisplaySize() {
319 size_in_pixel_ = bounds_in_native_.size();
320 if (!overscan_insets_in_dip_.empty()) {
321 gfx::Insets insets_in_pixel =
322 overscan_insets_in_dip_.Scale(device_scale_factor_);
323 size_in_pixel_.Enlarge(-insets_in_pixel.width(), -insets_in_pixel.height());
324 } else {
325 overscan_insets_in_dip_.Set(0, 0, 0, 0);
328 if (rotation_ == gfx::Display::ROTATE_90 ||
329 rotation_ == gfx::Display::ROTATE_270)
330 size_in_pixel_.SetSize(size_in_pixel_.height(), size_in_pixel_.width());
331 gfx::SizeF size_f(size_in_pixel_);
332 size_f.Scale(GetEffectiveUIScale());
333 size_in_pixel_ = gfx::ToFlooredSize(size_f);
336 void DisplayInfo::SetOverscanInsets(const gfx::Insets& insets_in_dip) {
337 overscan_insets_in_dip_ = insets_in_dip;
340 gfx::Insets DisplayInfo::GetOverscanInsetsInPixel() const {
341 return overscan_insets_in_dip_.Scale(device_scale_factor_);
344 void DisplayInfo::SetDisplayModes(
345 const std::vector<DisplayMode>& display_modes) {
346 display_modes_ = display_modes;
347 std::sort(display_modes_.begin(), display_modes_.end(),
348 DisplayModeSorter(id_ == gfx::Display::InternalDisplayId()));
351 gfx::Size DisplayInfo::GetNativeModeSize() const {
352 for (size_t i = 0; i < display_modes_.size(); ++i) {
353 if (display_modes_[i].native)
354 return display_modes_[i].size;
357 return gfx::Size();
360 std::string DisplayInfo::ToString() const {
361 int rotation_degree = static_cast<int>(rotation_) * 90;
362 return base::StringPrintf(
363 "DisplayInfo[%lld] native bounds=%s, size=%s, scale=%f, "
364 "overscan=%s, rotation=%d, ui-scale=%f, touchscreen=%s, "
365 "touch-device-id=%d",
366 static_cast<long long int>(id_),
367 bounds_in_native_.ToString().c_str(),
368 size_in_pixel_.ToString().c_str(),
369 device_scale_factor_,
370 overscan_insets_in_dip_.ToString().c_str(),
371 rotation_degree,
372 configured_ui_scale_,
373 touch_support_ == gfx::Display::TOUCH_SUPPORT_AVAILABLE
374 ? "yes"
375 : touch_support_ == gfx::Display::TOUCH_SUPPORT_UNAVAILABLE
376 ? "no"
377 : "unknown",
378 touch_device_id_);
381 std::string DisplayInfo::ToFullString() const {
382 std::string display_modes_str;
383 std::vector<DisplayMode>::const_iterator iter = display_modes_.begin();
384 for (; iter != display_modes_.end(); ++iter) {
385 if (!display_modes_str.empty())
386 display_modes_str += ",";
387 base::StringAppendF(&display_modes_str,
388 "(%dx%d@%f%c%s)",
389 iter->size.width(),
390 iter->size.height(),
391 iter->refresh_rate,
392 iter->interlaced ? 'I' : 'P',
393 iter->native ? "(N)" : "");
395 return ToString() + ", display_modes==" + display_modes_str;
398 void DisplayInfo::SetColorProfile(ui::ColorCalibrationProfile profile) {
399 if (IsColorProfileAvailable(profile))
400 color_profile_ = profile;
403 bool DisplayInfo::IsColorProfileAvailable(
404 ui::ColorCalibrationProfile profile) const {
405 return std::find(available_color_profiles_.begin(),
406 available_color_profiles_.end(),
407 profile) != available_color_profiles_.end();
410 bool DisplayInfo::Use125DSFRorUIScaling() const {
411 return use_125_dsf_for_ui_scaling && id_ == gfx::Display::InternalDisplayId();
414 } // namespace ash