// Copyright (c) 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/aura/test/test_screen.h" #include #include "base/logging.h" #include "ui/aura/env.h" #include "ui/aura/window.h" #include "ui/aura/window_event_dispatcher.h" #include "ui/aura/window_tree_host.h" #include "ui/base/ime/input_method.h" #include "ui/gfx/geometry/rect_conversions.h" #include "ui/gfx/geometry/size_conversions.h" #include "ui/gfx/native_widget_types.h" #include "ui/gfx/screen.h" namespace aura { namespace { bool IsRotationPortrait(gfx::Display::Rotation rotation) { return rotation == gfx::Display::ROTATE_90 || rotation == gfx::Display::ROTATE_270; } } // namespace // static TestScreen* TestScreen::Create(const gfx::Size& size) { const gfx::Size kDefaultSize(800, 600); // Use (0,0) because the desktop aura tests are executed in // native environment where the display's origin is (0,0). return new TestScreen(gfx::Rect(size.IsEmpty() ? kDefaultSize : size)); } TestScreen::~TestScreen() { } WindowTreeHost* TestScreen::CreateHostForPrimaryDisplay() { DCHECK(!host_); host_ = WindowTreeHost::Create(gfx::Rect(display_.GetSizeInPixel())); // Some tests don't correctly manage window focus/activation states. // Makes sure InputMethod is default focused so that IME basics can work. host_->GetInputMethod()->OnFocus(); host_->window()->AddObserver(this); host_->InitHost(); return host_; } void TestScreen::SetDeviceScaleFactor(float device_scale_factor) { gfx::Rect bounds_in_pixel(display_.GetSizeInPixel()); display_.SetScaleAndBounds(device_scale_factor, bounds_in_pixel); host_->OnHostResized(bounds_in_pixel.size()); } void TestScreen::SetDisplayRotation(gfx::Display::Rotation rotation) { gfx::Rect bounds_in_pixel(display_.GetSizeInPixel()); gfx::Rect new_bounds(bounds_in_pixel); if (IsRotationPortrait(rotation) != IsRotationPortrait(display_.rotation())) { new_bounds.set_width(bounds_in_pixel.height()); new_bounds.set_height(bounds_in_pixel.width()); } display_.set_rotation(rotation); display_.SetScaleAndBounds(display_.device_scale_factor(), new_bounds); host_->SetRootTransform(GetRotationTransform() * GetUIScaleTransform()); } void TestScreen::SetUIScale(float ui_scale) { ui_scale_ = ui_scale; gfx::Rect bounds_in_pixel(display_.GetSizeInPixel()); gfx::Rect new_bounds = gfx::ToNearestRect( gfx::ScaleRect(gfx::RectF(bounds_in_pixel), 1.0f / ui_scale)); display_.SetScaleAndBounds(display_.device_scale_factor(), new_bounds); host_->SetRootTransform(GetRotationTransform() * GetUIScaleTransform()); } void TestScreen::SetWorkAreaInsets(const gfx::Insets& insets) { display_.UpdateWorkAreaFromInsets(insets); } gfx::Transform TestScreen::GetRotationTransform() const { gfx::Transform rotate; switch (display_.rotation()) { case gfx::Display::ROTATE_0: break; case gfx::Display::ROTATE_90: rotate.Translate(display_.bounds().height(), 0); rotate.Rotate(90); break; case gfx::Display::ROTATE_270: rotate.Translate(0, display_.bounds().width()); rotate.Rotate(270); break; case gfx::Display::ROTATE_180: rotate.Translate(display_.bounds().width(), display_.bounds().height()); rotate.Rotate(180); break; } return rotate; } gfx::Transform TestScreen::GetUIScaleTransform() const { gfx::Transform ui_scale; ui_scale.Scale(1.0f / ui_scale_, 1.0f / ui_scale_); return ui_scale; } void TestScreen::OnWindowBoundsChanged( Window* window, const gfx::Rect& old_bounds, const gfx::Rect& new_bounds) { DCHECK_EQ(host_->window(), window); display_.SetSize(gfx::ScaleToFlooredSize(new_bounds.size(), display_.device_scale_factor())); } void TestScreen::OnWindowDestroying(Window* window) { if (host_->window() == window) host_ = NULL; } gfx::Point TestScreen::GetCursorScreenPoint() { return Env::GetInstance()->last_mouse_location(); } gfx::NativeWindow TestScreen::GetWindowUnderCursor() { return GetWindowAtScreenPoint(GetCursorScreenPoint()); } gfx::NativeWindow TestScreen::GetWindowAtScreenPoint(const gfx::Point& point) { if (!host_ || !host_->window()) return nullptr; return host_->window()->GetTopWindowContainingPoint(point); } int TestScreen::GetNumDisplays() const { return 1; } std::vector TestScreen::GetAllDisplays() const { return std::vector(1, display_); } gfx::Display TestScreen::GetDisplayNearestWindow( gfx::NativeWindow window) const { return display_; } gfx::Display TestScreen::GetDisplayNearestPoint(const gfx::Point& point) const { return display_; } gfx::Display TestScreen::GetDisplayMatching(const gfx::Rect& match_rect) const { return display_; } gfx::Display TestScreen::GetPrimaryDisplay() const { return display_; } void TestScreen::AddObserver(gfx::DisplayObserver* observer) { } void TestScreen::RemoveObserver(gfx::DisplayObserver* observer) { } TestScreen::TestScreen(const gfx::Rect& screen_bounds) : host_(NULL), ui_scale_(1.0f) { static int64_t synthesized_display_id = 2000; display_.set_id(synthesized_display_id++); display_.SetScaleAndBounds(1.0f, screen_bounds); } } // namespace aura