// Copyright 2012 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 "ui/display/screen.h" #include #include "base/check.h" #include "base/containers/contains.h" #include "base/memory/ptr_util.h" #include "base/notreached.h" #include "base/time/time.h" #include "build/build_config.h" #include "ui/display/display.h" #include "ui/display/display_util.h" #include "ui/display/types/display_constants.h" #include "ui/gfx/geometry/rect.h" namespace display { namespace { Screen* g_screen = nullptr; } // namespace Screen::Screen() : display_id_for_new_windows_(kInvalidDisplayId) {} Screen::~Screen() = default; // static Screen* Screen::GetScreen() { #if BUILDFLAG(IS_APPLE) // TODO(scottmg): https://crbug.com/558054 if (!g_screen) g_screen = CreateNativeScreen(); #endif return g_screen; } // static Screen* Screen::SetScreenInstance(Screen* instance) { return std::exchange(g_screen, instance); } void Screen::SetCursorScreenPointForTesting(const gfx::Point& point) { NOTIMPLEMENTED_LOG_ONCE(); } Display Screen::GetDisplayNearestView(gfx::NativeView view) const { return GetDisplayNearestWindow(GetWindowForView(view)); } Display Screen::GetDisplayForNewWindows() const { Display display; // Scoped value can override if it is set. if (scoped_display_id_for_new_windows_ != kInvalidDisplayId && GetDisplayWithDisplayId(scoped_display_id_for_new_windows_, &display)) { return display; } if (GetDisplayWithDisplayId(display_id_for_new_windows_, &display)) return display; // Fallback to primary display. return GetPrimaryDisplay(); } void Screen::SetDisplayForNewWindows(int64_t display_id) { // GetDisplayForNewWindows() handles invalid display ids. display_id_for_new_windows_ = display_id; } #if BUILDFLAG(IS_CHROMEOS_LACROS) || BUILDFLAG(IS_LINUX) std::unique_ptr Screen::SuspendScreenSaver() { SetScreenSaverSuspended(true); screen_saver_suspension_count_++; return base::WrapUnique(new Screen::ScreenSaverSuspender(this)); } Screen::ScreenSaverSuspender::~ScreenSaverSuspender() { // Check that this suspender still refers to the active screen. Particularly // in tests, the screen might be destructed before the suspender. if (screen_ == GetScreen()) { screen_->screen_saver_suspension_count_--; if (screen_->screen_saver_suspension_count_ == 0) { screen_->SetScreenSaverSuspended(false); } } } bool Screen::SetScreenSaverSuspended(bool suspend) { NOTIMPLEMENTED_LOG_ONCE(); return false; } #endif // BUILDFLAG(IS_CHROMEOS_LACROS) || BUILDFLAG(IS_LINUX) bool Screen::IsScreenSaverActive() const { NOTIMPLEMENTED_LOG_ONCE(); return false; } base::TimeDelta Screen::CalculateIdleTime() const { NOTIMPLEMENTED_LOG_ONCE(); return base::Seconds(0); } gfx::Rect Screen::ScreenToDIPRectInWindow(gfx::NativeWindow window, const gfx::Rect& screen_rect) const { float scale = GetDisplayNearestWindow(window).device_scale_factor(); return ScaleToEnclosingRect(screen_rect, 1.0f / scale); } gfx::Rect Screen::DIPToScreenRectInWindow(gfx::NativeWindow window, const gfx::Rect& dip_rect) const { float scale = GetDisplayNearestWindow(window).device_scale_factor(); return ScaleToEnclosingRect(dip_rect, scale); } bool Screen::GetDisplayWithDisplayId(int64_t display_id, Display* display) const { for (const Display& display_in_list : GetAllDisplays()) { if (display_in_list.id() == display_id) { *display = display_in_list; return true; } } return false; } void Screen::SetPanelRotationForTesting(int64_t display_id, Display::Rotation rotation) { // Not implemented. DCHECK(false); } std::string Screen::GetCurrentWorkspace() { NOTIMPLEMENTED_LOG_ONCE(); return {}; } std::vector Screen::GetGpuExtraInfo( const gfx::GpuExtraInfo& gpu_extra_info) { return std::vector(); } void Screen::SetScopedDisplayForNewWindows(int64_t display_id) { if (display_id == scoped_display_id_for_new_windows_) return; // Only allow set and clear, not switch. DCHECK(display_id == kInvalidDisplayId ^ scoped_display_id_for_new_windows_ == kInvalidDisplayId) << "display_id=" << display_id << ", scoped_display_id_for_new_windows_=" << scoped_display_id_for_new_windows_; scoped_display_id_for_new_windows_ = display_id; } ScreenInfos Screen::GetScreenInfosNearestDisplay(int64_t nearest_id) const { ScreenInfos result; // Determine the current and primary display ids. std::vector displays = GetAllDisplays(); Display primary = GetPrimaryDisplay(); // Note: displays being empty can happen in Fuchsia unit tests. if (displays.empty()) { if (primary.id() == kInvalidDisplayId) { // If we are in a situation where we have no displays and so the primary // display is invalid, then it's a logic error (elsewhere) to pass in a // valid id, because where would it come from? DCHECK_EQ(nearest_id, kInvalidDisplayId); primary.set_id(kDefaultDisplayId); } displays = {primary}; } // Use the primary and nearest displays as fallbacks for each other, if the // counterpart exists in `displays`. Otherwise, use `display[0]` for both. int64_t primary_id = primary.id(); int64_t current_id = nearest_id; const bool has_primary = base::Contains(displays, primary_id, &Display::id); const bool has_nearest = base::Contains(displays, nearest_id, &Display::id); if (!has_primary) primary_id = has_nearest ? nearest_id : displays[0].id(); if (!has_nearest) current_id = primary_id; // Build ScreenInfos from discovered ids and set of all displays. bool current_display_exists = false; bool primary_display_exists = false; for (const auto& display : displays) { ScreenInfo screen_info; DisplayUtil::DisplayToScreenInfo(&screen_info, display); if (display.id() == current_id) { result.current_display_id = display.id(); current_display_exists = true; } // TODO(enne): move DisplayToScreenInfo to be a private function here, // so that we don't need to overwrite this. screen_info.is_primary = display.id() == primary_id; if (display.id() == primary_id) primary_display_exists = true; result.screen_infos.push_back(screen_info); } // This is a bit overkill, but verify that the logic above is correct // because it will cause crashes elsewhere to not have a current display. CHECK(current_display_exists); CHECK(primary_display_exists); return result; } } // namespace display