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// Copyright (c) 2013 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 <stdint.h>
#include <algorithm>
#include <array>
#include <map>
#include <string>
#include <vector>
#include "base/files/file_path.h"
#include "base/memory/ref_counted.h"
#include "ui/display/display.h"
#include "ui/display/manager/display_manager_export.h"
#include "ui/display/types/display_constants.h"
#include "ui/gfx/geometry/insets.h"
#include "ui/gfx/geometry/rect.h"
namespace display {
// A struct that represents all the data required for touch calibration for the
// display.
struct DISPLAY_MANAGER_EXPORT TouchCalibrationData {
// CalibrationPointPair.first -> display point
// CalibrationPointPair.second -> touch point
using CalibrationPointPair = std::pair<gfx::Point, gfx::Point>;
using CalibrationPointPairQuad = std::array<CalibrationPointPair, 4>;
TouchCalibrationData(const CalibrationPointPairQuad& point_pairs,
const gfx::Size& bounds);
TouchCalibrationData(const TouchCalibrationData& calibration_data);
static bool CalibrationPointPairCompare(const CalibrationPointPair& pair_1,
const CalibrationPointPair& pair_2) {
return pair_1.first.y() < pair_2.first.y()
? true
: pair_1.first.x() < pair_2.first.x();
bool operator==(TouchCalibrationData other) const;
// Calibration point pairs used during calibration. Each point pair contains a
// display point and the corresponding touch point.
CalibrationPointPairQuad point_pairs;
// Bounds of the touch display when the calibration was performed.
gfx::Size bounds;
// A class that represents the display's mode info.
class DISPLAY_MANAGER_EXPORT ManagedDisplayMode
: public base::RefCounted<ManagedDisplayMode> {
explicit ManagedDisplayMode(const gfx::Size& size);
ManagedDisplayMode(const gfx::Size& size,
float refresh_rate,
bool is_interlaced,
bool native);
ManagedDisplayMode(const gfx::Size& size,
float refresh_rate,
bool is_interlaced,
bool native,
float ui_scale,
float device_scale_factor);
// Returns the size in DIP which is visible to the user.
gfx::Size GetSizeInDIP(bool is_internal) const;
// Returns true if |other| has same size and scale factors.
bool IsEquivalent(const scoped_refptr<ManagedDisplayMode>& other) const;
const gfx::Size& size() const { return size_; }
bool is_interlaced() const { return is_interlaced_; }
float refresh_rate() const { return refresh_rate_; }
bool native() const { return native_; }
bool is_default() const { return is_default_; }
void set_is_default(bool is_default) { is_default_ = is_default; }
// Missing from ui::ManagedDisplayMode
float ui_scale() const { return ui_scale_; }
float device_scale_factor() const { return device_scale_factor_; }
friend class base::RefCounted<ManagedDisplayMode>;
gfx::Size size_; // Physical pixel size of the display.
float refresh_rate_; // Refresh rate of the display, in Hz.
bool is_interlaced_; // True if mode is interlaced.
bool native_; // True if mode is native mode of the display.
bool is_default_ = false; // True if mode is one with default UI scale.
float ui_scale_; // The UI scale factor of the mode.
float device_scale_factor_; // The device scale factor of the mode.
// ManagedDisplayInfo contains metadata for each display. This is used to create
// |Display| as well as to maintain extra infomation to manage displays in ash
// environment. This class is intentionally made copiable.
class DISPLAY_MANAGER_EXPORT ManagedDisplayInfo {
using ManagedDisplayModeList = std::vector<scoped_refptr<ManagedDisplayMode>>;
// Creates a ManagedDisplayInfo from string spec. 100+200-1440x800 creates
// display
// whose size is 1440x800 at the location (100, 200) in host coordinates.
// The format is
// [origin-]widthxheight[*device_scale_factor][#resolutions list]
// [/<properties>][@ui-scale]
// where [] are optional:
// - |origin| is given in x+y- format.
// - |device_scale_factor| is either 2 or 1 (or empty).
// - properties can combination of 'o', which adds default overscan insets
// (5%), and one rotation property where 'r' is 90 degree clock-wise
// (to the 'r'ight) 'u' is 180 degrees ('u'pside-down) and 'l' is
// 270 degrees (to the 'l'eft).
// - ui-scale is floating value, e.g. @1.5 or @1.25.
// - |resolution list| is the list of size that is given in
// |width x height [% refresh_rate]| separated by '|'.
// A couple of examples:
// "100x100"
// 100x100 window at 0,0 origin. 1x device scale factor. no overscan.
// no rotation. 1.0 ui scale.
// "5+5-300x200*2"
// 300x200 window at 5,5 origin. 2x device scale factor.
// no overscan, no rotation. 1.0 ui scale.
// "300x200/ol"
// 300x200 window at 0,0 origin. 1x device scale factor.
// with 5% overscan. rotated to left (90 degree counter clockwise).
// 1.0 ui scale.
// "10+20-300x200/u@1.5"
// 300x200 window at 10,20 origin. 1x device scale factor.
// no overscan. flipped upside-down (180 degree) and 1.5 ui scale.
// "200x100#300x200|200x100%59.0|100x100%60"
// 200x100 window at 0,0 origin, with 3 possible resolutions,
// 300x200, 200x100 at 59 Hz, and 100x100 at 60 Hz.
static ManagedDisplayInfo CreateFromSpec(const std::string& spec);
// Creates a ManagedDisplayInfo from string spec using given |id|.
static ManagedDisplayInfo CreateFromSpecWithID(const std::string& spec,
int64_t id);
// When this is set to true on the device whose internal display has
// 1.25 dsf, Chrome uses 1.0f as a default scale factor, and uses
// dsf 1.25 when UI scaling is set to 0.8f.
static void SetUse125DSFForUIScalingForTest(bool enable);
ManagedDisplayInfo(int64_t id, const std::string& name, bool has_overscan);
ManagedDisplayInfo(const ManagedDisplayInfo& other);
int64_t id() const { return id_; }
// The name of the display.
const std::string& name() const { return name_; }
// The path to the display device in the sysfs filesystem.
void set_sys_path(const base::FilePath& sys_path) { sys_path_ = sys_path; }
const base::FilePath& sys_path() const { return sys_path_; }
// True if the display EDID has the overscan flag. This does not create the
// actual overscan automatically, but used in the message.
bool has_overscan() const { return has_overscan_; }
void set_touch_support(Display::TouchSupport support) {
touch_support_ = support;
Display::TouchSupport touch_support() const { return touch_support_; }
// Associate the input device with identifier |id| with this display.
void AddInputDevice(int id);
// Clear the list of input devices associated with this display.
void ClearInputDevices();
// The input device ids that are associated with this display.
std::vector<int> input_devices() const { return input_devices_; }
// Gets/Sets the device scale factor of the display.
float device_scale_factor() const { return device_scale_factor_; }
void set_device_scale_factor(float scale) { device_scale_factor_ = scale; }
// Gets/Sets the device DPI of the display.
float device_dpi() const { return device_dpi_; }
void set_device_dpi(float dpi) { device_dpi_ = dpi; }
// The native bounds for the display. The size of this can be
// different from the |size_in_pixel| when overscan insets are set
// and/or |configured_ui_scale_| is set.
const gfx::Rect& bounds_in_native() const { return bounds_in_native_; }
// The size for the display in pixels.
const gfx::Size& size_in_pixel() const { return size_in_pixel_; }
// The overscan insets for the display in DIP.
const gfx::Insets& overscan_insets_in_dip() const {
return overscan_insets_in_dip_;
// Sets/gets configured ui scale. This can be different from the ui
// scale actually used when the scale is 2.0 and DSF is 2.0.
// (the effective ui scale is 1.0 in this case).
float configured_ui_scale() const { return configured_ui_scale_; }
void set_configured_ui_scale(float scale) { configured_ui_scale_ = scale; }
// Sets the rotation for the given |source|. Setting a new rotation will also
// have it become the active rotation.
void SetRotation(Display::Rotation rotation, Display::RotationSource source);
// Returns the currently active rotation for this display.
Display::Rotation GetActiveRotation() const;
// Returns the source which set the active rotation for this display.
Display::RotationSource active_rotation_source() const {
return active_rotation_source_;
// Returns the rotation set by a given |source|.
Display::Rotation GetRotation(Display::RotationSource source) const;
// Returns the ui scale and device scale factor actually used to create
// display that chrome sees. This can be different from one obtained
// from dispaly or one specified by a user in following situation.
// 1) DSF is 2.0f and UI scale is 2.0f. (Returns 1.0f and 1.0f respectiely)
// 2) A user specified 0.8x on the device that has 1.25 DSF. 1.25 DSF device
// uses 1.0f DFS unless 0.8x UI scaling is specified.
float GetEffectiveDeviceScaleFactor() const;
// Returns the ui scale used for the device scale factor. This
// return 1.0f if the ui scale and dsf are both set to 2.0.
float GetEffectiveUIScale() const;
// Copy the display info except for fields that can be modified by a
// user (|rotation_| and |configured_ui_scale_|). |rotation_| and
// |configured_ui_scale_| are copied when the |another_info| isn't native one.
void Copy(const ManagedDisplayInfo& another_info);
// Update the |bounds_in_native_| and |size_in_pixel_| using
// given |bounds_in_native|.
void SetBounds(const gfx::Rect& bounds_in_native);
// Update the |bounds_in_native| according to the current overscan
// and rotation settings.
void UpdateDisplaySize();
// Sets/Clears the overscan insets.
void SetOverscanInsets(const gfx::Insets& insets_in_dip);
gfx::Insets GetOverscanInsetsInPixel() const;
// Sets/Gets the flag to clear overscan insets.
bool clear_overscan_insets() const { return clear_overscan_insets_; }
void set_clear_overscan_insets(bool clear) { clear_overscan_insets_ = clear; }
void set_native(bool native) { native_ = native; }
bool native() const { return native_; }
const ManagedDisplayModeList& display_modes() const { return display_modes_; }
// Sets the display mode list. The mode list will be sorted for the
// display.
void SetManagedDisplayModes(const ManagedDisplayModeList& display_modes);
// Sets/Gets the touch calibration data for the display.
void SetTouchCalibrationData(const TouchCalibrationData& calibration_data);
GetTouchCalibrationData() const & { return touch_calibration_data_; }
bool has_touch_calibration_data() const
{ return has_touch_calibration_data_; }
void clear_touch_calibration_data() { has_touch_calibration_data_ = false; }
// Returns the native mode size. If a native mode is not present, return an
// empty size.
gfx::Size GetNativeModeSize() const;
ColorCalibrationProfile color_profile() const { return color_profile_; }
// Sets the color profile. It will ignore if the specified |profile| is not in
// |available_color_profiles_|.
void SetColorProfile(ColorCalibrationProfile profile);
// Returns true if |profile| is in |available_color_profiles_|.
bool IsColorProfileAvailable(ColorCalibrationProfile profile) const;
const std::vector<ColorCalibrationProfile>& available_color_profiles() const {
return available_color_profiles_;
void set_available_color_profiles(
const std::vector<ColorCalibrationProfile>& profiles) {
available_color_profiles_ = profiles;
bool is_aspect_preserving_scaling() const {
return is_aspect_preserving_scaling_;
void set_is_aspect_preserving_scaling(bool value) {
is_aspect_preserving_scaling_ = value;
// Maximum cursor size in native pixels.
const gfx::Size& maximum_cursor_size() const { return maximum_cursor_size_; }
void set_maximum_cursor_size(const gfx::Size& size) {
maximum_cursor_size_ = size;
// Returns a string representation of the ManagedDisplayInfo, excluding
// display
// modes.
std::string ToString() const;
// Returns a string representation of the ManagedDisplayInfo, including
// display
// modes.
std::string ToFullString() const;
// Returns true if this display should use DSF=1.25 for UI scaling; i.e.
// SetUse125DSFForUIScaling(true) is called and this is the internal display.
bool Use125DSFForUIScaling() const;
int64_t id_;
std::string name_;
base::FilePath sys_path_;
bool has_overscan_;
std::map<Display::RotationSource, Display::Rotation> rotations_;
Display::RotationSource active_rotation_source_;
Display::TouchSupport touch_support_;
bool has_touch_calibration_data_;
// The set of input devices associated with this display.
std::vector<int> input_devices_;
// This specifies the device's pixel density. (For example, a
// display whose DPI is higher than the threshold is considered to have
// device_scale_factor = 2.0 on Chrome OS). This is used by the
// grapics layer to choose and draw appropriate images and scale
// layers properly.
float device_scale_factor_;
gfx::Rect bounds_in_native_;
// This specifies the device's DPI.
float device_dpi_;
// The size of the display in use. The size can be different from the size
// of |bounds_in_native_| if the display has overscan insets and/or rotation.
gfx::Size size_in_pixel_;
gfx::Insets overscan_insets_in_dip_;
// The pixel scale of the display. This is used to simply expand (or
// shrink) the desktop over the native display resolution (useful in
// HighDPI display). Note that this should not be confused with the
// device scale factor, which specifies the pixel density of the
// display. The actuall scale value to be used depends on the device
// scale factor. See |GetEffectiveScaleFactor()|.
float configured_ui_scale_;
// True if this comes from native platform (DisplayChangeObserver).
bool native_;
// True if the display is configured to preserve the aspect ratio. When the
// display is configured in a non-native mode, only parts of the display will
// be used such that the aspect ratio is preserved.
bool is_aspect_preserving_scaling_;
// True if the displays' overscan inset should be cleared. This is
// to distinguish the empty overscan insets from native display info.
bool clear_overscan_insets_;
// The list of modes supported by this display.
ManagedDisplayModeList display_modes_;
// The current profile of the color calibration.
ColorCalibrationProfile color_profile_;
// The list of available variations for the color calibration.
std::vector<ColorCalibrationProfile> available_color_profiles_;
// Maximum cursor size.
gfx::Size maximum_cursor_size_;
// Information associated to touch calibration for the display.
TouchCalibrationData touch_calibration_data_;
// If you add a new member, you need to update Copy().
// Resets the synthesized display id for testing. This
// is necessary to avoid overflowing the output index.
void DISPLAY_MANAGER_EXPORT ResetDisplayIdForTest();
} // namespace display