// Copyright 2014 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/events/devices/device_data_manager.h" #include "base/at_exit.h" #include "base/bind.h" #include "base/logging.h" #include "ui/display/types/display_constants.h" #include "ui/events/devices/input_device_event_observer.h" #include "ui/events/devices/touch_device_transform.h" #include "ui/gfx/geometry/point3_f.h" // This macro provides the implementation for the observer notification methods. #define NOTIFY_OBSERVERS(method_decl, observer_call) \ void DeviceDataManager::method_decl { \ for (InputDeviceEventObserver& observer : observers_) \ observer.observer_call; \ } namespace ui { namespace { bool InputDeviceEquals(const ui::InputDevice& a, const ui::InputDevice& b) { return a.id == b.id && a.enabled == b.enabled; } } // namespace // static DeviceDataManager* DeviceDataManager::instance_ = nullptr; DeviceDataManager::DeviceDataManager() { InputDeviceManager::SetInstance(this); } DeviceDataManager::~DeviceDataManager() { InputDeviceManager::ClearInstance(); } // static void DeviceDataManager::set_instance(DeviceDataManager* instance) { DCHECK(instance) << "Must reset the DeviceDataManager using DeleteInstance()."; DCHECK(!instance_) << "Can not set multiple instances of DeviceDataManager."; instance_ = instance; } // static void DeviceDataManager::CreateInstance() { if (instance_) return; set_instance(new DeviceDataManager()); // TODO(bruthig): Replace the DeleteInstance callbacks with explicit calls. base::AtExitManager::RegisterTask(base::Bind(DeleteInstance)); } // static void DeviceDataManager::DeleteInstance() { if (instance_) { delete instance_; instance_ = nullptr; } } // static DeviceDataManager* DeviceDataManager::GetInstance() { CHECK(instance_) << "DeviceDataManager was not created."; return instance_; } // static bool DeviceDataManager::HasInstance() { return instance_ != nullptr; } void DeviceDataManager::ConfigureTouchDevices( const std::vector& transforms) { ClearTouchDeviceAssociations(); for (const TouchDeviceTransform& transform : transforms) UpdateTouchInfoFromTransform(transform); are_touchscreen_target_displays_valid_ = true; for (InputDeviceEventObserver& observer : observers_) observer.OnTouchDeviceAssociationChanged(); } void DeviceDataManager::ClearTouchDeviceAssociations() { for (size_t i = 0; i < touch_map_.size(); ++i) touch_map_[i] = TouchDeviceTransform(); for (TouchscreenDevice& touchscreen_device : touchscreen_devices_) touchscreen_device.target_display_id = display::kInvalidDisplayId; } void DeviceDataManager::UpdateTouchInfoFromTransform( const ui::TouchDeviceTransform& touch_device_transform) { if (!IsTouchDeviceIdValid(touch_device_transform.device_id)) return; touch_map_[touch_device_transform.device_id] = touch_device_transform; for (TouchscreenDevice& touchscreen_device : touchscreen_devices_) { if (touchscreen_device.id == touch_device_transform.device_id) { touchscreen_device.target_display_id = touch_device_transform.display_id; return; } } } bool DeviceDataManager::IsTouchDeviceIdValid(int touch_device_id) const { return (touch_device_id > 0 && touch_device_id < kMaxDeviceNum); } void DeviceDataManager::ApplyTouchRadiusScale(int touch_device_id, double* radius) { if (IsTouchDeviceIdValid(touch_device_id)) *radius = (*radius) * touch_map_[touch_device_id].radius_scale; } void DeviceDataManager::ApplyTouchTransformer(int touch_device_id, float* x, float* y) { if (IsTouchDeviceIdValid(touch_device_id)) { gfx::Point3F point(*x, *y, 0.0); const gfx::Transform& trans = touch_map_[touch_device_id].transform; trans.TransformPoint(&point); *x = point.x(); *y = point.y(); } } const std::vector& DeviceDataManager::GetTouchscreenDevices() const { return touchscreen_devices_; } const std::vector& DeviceDataManager::GetKeyboardDevices() const { return keyboard_devices_; } const std::vector& DeviceDataManager::GetMouseDevices() const { return mouse_devices_; } const std::vector& DeviceDataManager::GetTouchpadDevices() const { return touchpad_devices_; } bool DeviceDataManager::AreDeviceListsComplete() const { return device_lists_complete_; } int64_t DeviceDataManager::GetTargetDisplayForTouchDevice( int touch_device_id) const { if (IsTouchDeviceIdValid(touch_device_id)) return touch_map_[touch_device_id].display_id; return display::kInvalidDisplayId; } void DeviceDataManager::OnTouchscreenDevicesUpdated( const std::vector& devices) { if (devices.size() == touchscreen_devices_.size() && std::equal(devices.begin(), devices.end(), touchscreen_devices_.begin(), InputDeviceEquals)) { return; } are_touchscreen_target_displays_valid_ = false; touchscreen_devices_ = devices; for (TouchscreenDevice& touchscreen_device : touchscreen_devices_) { touchscreen_device.target_display_id = GetTargetDisplayForTouchDevice(touchscreen_device.id); } NotifyObserversTouchscreenDeviceConfigurationChanged(); } void DeviceDataManager::OnKeyboardDevicesUpdated( const std::vector& devices) { if (devices.size() == keyboard_devices_.size() && std::equal(devices.begin(), devices.end(), keyboard_devices_.begin(), InputDeviceEquals)) { return; } keyboard_devices_ = devices; NotifyObserversKeyboardDeviceConfigurationChanged(); } void DeviceDataManager::OnMouseDevicesUpdated( const std::vector& devices) { if (devices.size() == mouse_devices_.size() && std::equal(devices.begin(), devices.end(), mouse_devices_.begin(), InputDeviceEquals)) { return; } mouse_devices_ = devices; NotifyObserversMouseDeviceConfigurationChanged(); } void DeviceDataManager::OnTouchpadDevicesUpdated( const std::vector& devices) { if (devices.size() == touchpad_devices_.size() && std::equal(devices.begin(), devices.end(), touchpad_devices_.begin(), InputDeviceEquals)) { return; } touchpad_devices_ = devices; NotifyObserversTouchpadDeviceConfigurationChanged(); } void DeviceDataManager::OnDeviceListsComplete() { if (!device_lists_complete_) { device_lists_complete_ = true; NotifyObserversDeviceListsComplete(); } } void DeviceDataManager::OnStylusStateChanged(StylusState state) { NotifyObserversStylusStateChanged(state); } NOTIFY_OBSERVERS(NotifyObserversTouchscreenDeviceConfigurationChanged(), OnTouchscreenDeviceConfigurationChanged()); NOTIFY_OBSERVERS(NotifyObserversKeyboardDeviceConfigurationChanged(), OnKeyboardDeviceConfigurationChanged()); NOTIFY_OBSERVERS(NotifyObserversMouseDeviceConfigurationChanged(), OnMouseDeviceConfigurationChanged()); NOTIFY_OBSERVERS(NotifyObserversTouchpadDeviceConfigurationChanged(), OnTouchpadDeviceConfigurationChanged()); NOTIFY_OBSERVERS(NotifyObserversDeviceListsComplete(), OnDeviceListsComplete()); NOTIFY_OBSERVERS(NotifyObserversStylusStateChanged(StylusState state), OnStylusStateChanged(state)); void DeviceDataManager::AddObserver(InputDeviceEventObserver* observer) { observers_.AddObserver(observer); } void DeviceDataManager::RemoveObserver(InputDeviceEventObserver* observer) { observers_.RemoveObserver(observer); } void DeviceDataManager::SetTouchscreensEnabled(bool enabled) { touch_screens_enabled_ = enabled; } bool DeviceDataManager::AreTouchscreensEnabled() const { return touch_screens_enabled_; } bool DeviceDataManager::AreTouchscreenTargetDisplaysValid() const { return are_touchscreen_target_displays_valid_; } } // namespace ui