dolphin/Source/Core/DolphinQt/HotkeyScheduler.cpp

612 lines
18 KiB
C++

// Copyright 2017 Dolphin Emulator Project
// Licensed under GPLv2+
// Refer to the license.txt file included.
#include "DolphinQt/HotkeyScheduler.h"
#include <algorithm>
#include <cmath>
#include <thread>
#include <QCoreApplication>
#include "AudioCommon/AudioCommon.h"
#include "Common/Config/Config.h"
#include "Common/Thread.h"
#include "Core/Config/FreeLookSettings.h"
#include "Core/Config/GraphicsSettings.h"
#include "Core/Config/UISettings.h"
#include "Core/ConfigManager.h"
#include "Core/Core.h"
#include "Core/FreeLookManager.h"
#include "Core/Host.h"
#include "Core/HotkeyManager.h"
#include "Core/IOS/IOS.h"
#include "Core/IOS/USB/Bluetooth/BTBase.h"
#include "Core/State.h"
#include "DolphinQt/Settings.h"
#include "InputCommon/ControlReference/ControlReference.h"
#include "InputCommon/ControllerInterface/ControllerInterface.h"
#include "VideoCommon/OnScreenDisplay.h"
#include "VideoCommon/RenderBase.h"
#include "VideoCommon/VertexShaderManager.h"
#include "VideoCommon/VideoConfig.h"
constexpr const char* DUBOIS_ALGORITHM_SHADER = "dubois";
HotkeyScheduler::HotkeyScheduler() : m_stop_requested(false)
{
HotkeyManagerEmu::Initialize();
HotkeyManagerEmu::LoadConfig();
HotkeyManagerEmu::Enable(true);
}
HotkeyScheduler::~HotkeyScheduler()
{
Stop();
}
void HotkeyScheduler::Start()
{
m_stop_requested.Set(false);
m_thread = std::thread(&HotkeyScheduler::Run, this);
}
void HotkeyScheduler::Stop()
{
m_stop_requested.Set(true);
if (m_thread.joinable())
m_thread.join();
}
static bool IsHotkey(int id, bool held = false)
{
return HotkeyManagerEmu::IsPressed(id, held);
}
static void HandleFrameStepHotkeys()
{
constexpr int MAX_FRAME_STEP_DELAY = 60;
constexpr int FRAME_STEP_DELAY = 30;
static int frame_step_count = 0;
static int frame_step_delay = 1;
static int frame_step_delay_count = 0;
static bool frame_step_hold = false;
if (IsHotkey(HK_FRAME_ADVANCE_INCREASE_SPEED))
{
frame_step_delay = std::min(frame_step_delay + 1, MAX_FRAME_STEP_DELAY);
return;
}
if (IsHotkey(HK_FRAME_ADVANCE_DECREASE_SPEED))
{
frame_step_delay = std::max(frame_step_delay - 1, 0);
return;
}
if (IsHotkey(HK_FRAME_ADVANCE_RESET_SPEED))
{
frame_step_delay = 1;
return;
}
if (IsHotkey(HK_FRAME_ADVANCE, true))
{
if (frame_step_delay_count < frame_step_delay && frame_step_hold)
frame_step_delay_count++;
if ((frame_step_count == 0 || frame_step_count == FRAME_STEP_DELAY) && !frame_step_hold)
{
Core::DoFrameStep();
frame_step_hold = true;
}
if (frame_step_count < FRAME_STEP_DELAY)
{
frame_step_count++;
frame_step_hold = false;
}
if (frame_step_count == FRAME_STEP_DELAY && frame_step_hold &&
frame_step_delay_count >= frame_step_delay)
{
frame_step_hold = false;
frame_step_delay_count = 0;
}
return;
}
else if (frame_step_count > 0)
{
// Reset frame advance
frame_step_count = 0;
frame_step_hold = false;
frame_step_delay_count = 0;
}
}
void HotkeyScheduler::Run()
{
Common::SetCurrentThreadName("HotkeyScheduler");
while (!m_stop_requested.IsSet())
{
Common::SleepCurrentThread(5);
g_controller_interface.SetCurrentInputChannel(ciface::InputChannel::FreeLook);
g_controller_interface.UpdateInput();
FreeLook::UpdateInput();
g_controller_interface.SetCurrentInputChannel(ciface::InputChannel::Host);
g_controller_interface.UpdateInput();
if (!HotkeyManagerEmu::IsEnabled())
continue;
if (Core::GetState() != Core::State::Stopping)
{
// Obey window focus (config permitting) before checking hotkeys.
Core::UpdateInputGate(Config::Get(Config::MAIN_FOCUSED_HOTKEYS));
HotkeyManagerEmu::GetStatus();
// Everything else on the host thread (controller config dialog) should always get input.
ControlReference::SetInputGate(true);
if (!Core::IsRunningAndStarted())
continue;
if (IsHotkey(HK_OPEN))
emit Open();
// Disc
if (IsHotkey(HK_EJECT_DISC))
emit EjectDisc();
if (IsHotkey(HK_CHANGE_DISC))
emit ChangeDisc();
// Fullscreen
if (IsHotkey(HK_FULLSCREEN))
{
emit FullScreenHotkey();
// Prevent fullscreen from getting toggled too often
Common::SleepCurrentThread(100);
}
// Refresh Game List
if (IsHotkey(HK_REFRESH_LIST))
emit RefreshGameListHotkey();
// Pause and Unpause
if (IsHotkey(HK_PLAY_PAUSE))
emit TogglePauseHotkey();
// Stop
if (IsHotkey(HK_STOP))
emit StopHotkey();
// Reset
if (IsHotkey(HK_RESET))
emit ResetHotkey();
// Frame advance
HandleFrameStepHotkeys();
// Screenshot
if (IsHotkey(HK_SCREENSHOT))
emit ScreenShotHotkey();
// Exit
if (IsHotkey(HK_EXIT))
emit ExitHotkey();
auto& settings = Settings::Instance();
// Toggle Chat
if (IsHotkey(HK_ACTIVATE_CHAT))
emit ActivateChat();
if (IsHotkey(HK_REQUEST_GOLF_CONTROL))
emit RequestGolfControl();
// Recording
if (IsHotkey(HK_START_RECORDING))
emit StartRecording();
if (IsHotkey(HK_EXPORT_RECORDING))
emit ExportRecording();
if (IsHotkey(HK_READ_ONLY_MODE))
emit ToggleReadOnlyMode();
// Wiimote
if (SConfig::GetInstance().m_bt_passthrough_enabled)
{
const auto ios = IOS::HLE::GetIOS();
auto device = ios ? ios->GetDeviceByName("/dev/usb/oh1/57e/305") : nullptr;
if (device != nullptr)
std::static_pointer_cast<IOS::HLE::BluetoothBaseDevice>(device)->UpdateSyncButtonState(
IsHotkey(HK_TRIGGER_SYNC_BUTTON, true));
}
if (SConfig::GetInstance().bEnableDebugging)
{
CheckDebuggingHotkeys();
}
// TODO: HK_MBP_ADD
if (SConfig::GetInstance().bWii)
{
int wiimote_id = -1;
if (IsHotkey(HK_WIIMOTE1_CONNECT))
wiimote_id = 0;
if (IsHotkey(HK_WIIMOTE2_CONNECT))
wiimote_id = 1;
if (IsHotkey(HK_WIIMOTE3_CONNECT))
wiimote_id = 2;
if (IsHotkey(HK_WIIMOTE4_CONNECT))
wiimote_id = 3;
if (IsHotkey(HK_BALANCEBOARD_CONNECT))
wiimote_id = 4;
if (wiimote_id > -1)
emit ConnectWiiRemote(wiimote_id);
if (IsHotkey(HK_TOGGLE_SD_CARD))
Settings::Instance().SetSDCardInserted(!Settings::Instance().IsSDCardInserted());
if (IsHotkey(HK_TOGGLE_USB_KEYBOARD))
{
Settings::Instance().SetUSBKeyboardConnected(
!Settings::Instance().IsUSBKeyboardConnected());
}
}
if (IsHotkey(HK_PREV_WIIMOTE_PROFILE_1))
m_profile_cycler.PreviousWiimoteProfile(0);
else if (IsHotkey(HK_NEXT_WIIMOTE_PROFILE_1))
m_profile_cycler.NextWiimoteProfile(0);
if (IsHotkey(HK_PREV_WIIMOTE_PROFILE_2))
m_profile_cycler.PreviousWiimoteProfile(1);
else if (IsHotkey(HK_NEXT_WIIMOTE_PROFILE_2))
m_profile_cycler.NextWiimoteProfile(1);
if (IsHotkey(HK_PREV_WIIMOTE_PROFILE_3))
m_profile_cycler.PreviousWiimoteProfile(2);
else if (IsHotkey(HK_NEXT_WIIMOTE_PROFILE_3))
m_profile_cycler.NextWiimoteProfile(2);
if (IsHotkey(HK_PREV_WIIMOTE_PROFILE_4))
m_profile_cycler.PreviousWiimoteProfile(3);
else if (IsHotkey(HK_NEXT_WIIMOTE_PROFILE_4))
m_profile_cycler.NextWiimoteProfile(3);
if (IsHotkey(HK_PREV_GAME_WIIMOTE_PROFILE_1))
m_profile_cycler.PreviousWiimoteProfileForGame(0);
else if (IsHotkey(HK_NEXT_GAME_WIIMOTE_PROFILE_1))
m_profile_cycler.NextWiimoteProfileForGame(0);
if (IsHotkey(HK_PREV_GAME_WIIMOTE_PROFILE_2))
m_profile_cycler.PreviousWiimoteProfileForGame(1);
else if (IsHotkey(HK_NEXT_GAME_WIIMOTE_PROFILE_2))
m_profile_cycler.NextWiimoteProfileForGame(1);
if (IsHotkey(HK_PREV_GAME_WIIMOTE_PROFILE_3))
m_profile_cycler.PreviousWiimoteProfileForGame(2);
else if (IsHotkey(HK_NEXT_GAME_WIIMOTE_PROFILE_3))
m_profile_cycler.NextWiimoteProfileForGame(2);
if (IsHotkey(HK_PREV_GAME_WIIMOTE_PROFILE_4))
m_profile_cycler.PreviousWiimoteProfileForGame(3);
else if (IsHotkey(HK_NEXT_GAME_WIIMOTE_PROFILE_4))
m_profile_cycler.NextWiimoteProfileForGame(3);
auto ShowVolume = []() {
OSD::AddMessage(std::string("Volume: ") +
(SConfig::GetInstance().m_IsMuted ?
"Muted" :
std::to_string(SConfig::GetInstance().m_Volume) + "%"));
};
// Volume
if (IsHotkey(HK_VOLUME_DOWN))
{
settings.DecreaseVolume(3);
ShowVolume();
}
if (IsHotkey(HK_VOLUME_UP))
{
settings.IncreaseVolume(3);
ShowVolume();
}
if (IsHotkey(HK_VOLUME_TOGGLE_MUTE))
{
AudioCommon::ToggleMuteVolume();
ShowVolume();
}
// Graphics
const auto efb_scale = Config::Get(Config::GFX_EFB_SCALE);
auto ShowEFBScale = []() {
switch (Config::Get(Config::GFX_EFB_SCALE))
{
case EFB_SCALE_AUTO_INTEGRAL:
OSD::AddMessage("Internal Resolution: Auto (integral)");
break;
case 1:
OSD::AddMessage("Internal Resolution: Native");
break;
default:
OSD::AddMessage(StringFromFormat("Internal Resolution: %dx", g_Config.iEFBScale));
break;
}
};
if (IsHotkey(HK_INCREASE_IR))
{
Config::SetCurrent(Config::GFX_EFB_SCALE, efb_scale + 1);
ShowEFBScale();
}
if (IsHotkey(HK_DECREASE_IR))
{
if (efb_scale > EFB_SCALE_AUTO_INTEGRAL)
{
Config::SetCurrent(Config::GFX_EFB_SCALE, efb_scale - 1);
ShowEFBScale();
}
}
if (IsHotkey(HK_TOGGLE_CROP))
Config::SetCurrent(Config::GFX_CROP, !Config::Get(Config::GFX_CROP));
if (IsHotkey(HK_TOGGLE_AR))
{
const int aspect_ratio = (static_cast<int>(Config::Get(Config::GFX_ASPECT_RATIO)) + 1) & 3;
Config::SetCurrent(Config::GFX_ASPECT_RATIO, static_cast<AspectMode>(aspect_ratio));
switch (static_cast<AspectMode>(aspect_ratio))
{
case AspectMode::Stretch:
OSD::AddMessage("Stretch");
break;
case AspectMode::Analog:
OSD::AddMessage("Force 4:3");
break;
case AspectMode::AnalogWide:
OSD::AddMessage("Force 16:9");
break;
case AspectMode::Auto:
default:
OSD::AddMessage("Auto");
break;
}
}
if (IsHotkey(HK_TOGGLE_SKIP_EFB_ACCESS))
{
const bool new_value = !Config::Get(Config::GFX_HACK_EFB_ACCESS_ENABLE);
Config::SetCurrent(Config::GFX_HACK_EFB_ACCESS_ENABLE, new_value);
OSD::AddMessage(
StringFromFormat("%s EFB Access from CPU", new_value ? "Skip" : "Don't skip"));
}
if (IsHotkey(HK_TOGGLE_EFBCOPIES))
{
const bool new_value = !Config::Get(Config::GFX_HACK_SKIP_EFB_COPY_TO_RAM);
Config::SetCurrent(Config::GFX_HACK_SKIP_EFB_COPY_TO_RAM, new_value);
OSD::AddMessage(StringFromFormat("Copy EFB: %s", new_value ? "to Texture" : "to RAM"));
}
auto ShowXFBCopies = []() {
OSD::AddMessage(StringFromFormat(
"Copy XFB: %s%s", Config::Get(Config::GFX_HACK_IMMEDIATE_XFB) ? " (Immediate)" : "",
Config::Get(Config::GFX_HACK_SKIP_XFB_COPY_TO_RAM) ? "to Texture" : "to RAM"));
};
if (IsHotkey(HK_TOGGLE_XFBCOPIES))
{
Config::SetCurrent(Config::GFX_HACK_SKIP_XFB_COPY_TO_RAM,
!Config::Get(Config::GFX_HACK_SKIP_XFB_COPY_TO_RAM));
ShowXFBCopies();
}
if (IsHotkey(HK_TOGGLE_IMMEDIATE_XFB))
{
Config::SetCurrent(Config::GFX_HACK_IMMEDIATE_XFB,
!Config::Get(Config::GFX_HACK_IMMEDIATE_XFB));
ShowXFBCopies();
}
if (IsHotkey(HK_TOGGLE_FOG))
{
const bool new_value = !Config::Get(Config::GFX_DISABLE_FOG);
Config::SetCurrent(Config::GFX_DISABLE_FOG, new_value);
OSD::AddMessage(StringFromFormat("Fog: %s", new_value ? "Enabled" : "Disabled"));
}
if (IsHotkey(HK_TOGGLE_DUMPTEXTURES))
Config::SetCurrent(Config::GFX_DUMP_TEXTURES, !Config::Get(Config::GFX_DUMP_TEXTURES));
if (IsHotkey(HK_TOGGLE_TEXTURES))
Config::SetCurrent(Config::GFX_HIRES_TEXTURES, !Config::Get(Config::GFX_HIRES_TEXTURES));
Core::SetIsThrottlerTempDisabled(IsHotkey(HK_TOGGLE_THROTTLE, true));
auto ShowEmulationSpeed = []() {
OSD::AddMessage(
SConfig::GetInstance().m_EmulationSpeed <= 0 ?
"Speed Limit: Unlimited" :
StringFromFormat("Speed Limit: %li%%",
std::lround(SConfig::GetInstance().m_EmulationSpeed * 100.f)));
};
if (IsHotkey(HK_DECREASE_EMULATION_SPEED))
{
auto speed = SConfig::GetInstance().m_EmulationSpeed - 0.1;
speed = (speed <= 0 || (speed >= 0.95 && speed <= 1.05)) ? 1.0 : speed;
SConfig::GetInstance().m_EmulationSpeed = speed;
ShowEmulationSpeed();
}
if (IsHotkey(HK_INCREASE_EMULATION_SPEED))
{
auto speed = SConfig::GetInstance().m_EmulationSpeed + 0.1;
speed = (speed >= 0.95 && speed <= 1.05) ? 1.0 : speed;
SConfig::GetInstance().m_EmulationSpeed = speed;
ShowEmulationSpeed();
}
// Slot Saving / Loading
if (IsHotkey(HK_SAVE_STATE_SLOT_SELECTED))
emit StateSaveSlotHotkey();
if (IsHotkey(HK_LOAD_STATE_SLOT_SELECTED))
emit StateLoadSlotHotkey();
// Stereoscopy
if (IsHotkey(HK_TOGGLE_STEREO_SBS))
{
if (Config::Get(Config::GFX_STEREO_MODE) != StereoMode::SBS)
{
// Disable post-processing shader, as stereoscopy itself is currently a shader
if (Config::Get(Config::GFX_ENHANCE_POST_SHADER) == DUBOIS_ALGORITHM_SHADER)
Config::SetCurrent(Config::GFX_ENHANCE_POST_SHADER, "");
Config::SetCurrent(Config::GFX_STEREO_MODE, StereoMode::SBS);
}
else
{
Config::SetCurrent(Config::GFX_STEREO_MODE, StereoMode::Off);
}
}
if (IsHotkey(HK_TOGGLE_STEREO_TAB))
{
if (Config::Get(Config::GFX_STEREO_MODE) != StereoMode::TAB)
{
// Disable post-processing shader, as stereoscopy itself is currently a shader
if (Config::Get(Config::GFX_ENHANCE_POST_SHADER) == DUBOIS_ALGORITHM_SHADER)
Config::SetCurrent(Config::GFX_ENHANCE_POST_SHADER, "");
Config::SetCurrent(Config::GFX_STEREO_MODE, StereoMode::TAB);
}
else
{
Config::SetCurrent(Config::GFX_STEREO_MODE, StereoMode::Off);
}
}
if (IsHotkey(HK_TOGGLE_STEREO_ANAGLYPH))
{
if (Config::Get(Config::GFX_STEREO_MODE) != StereoMode::Anaglyph)
{
Config::SetCurrent(Config::GFX_STEREO_MODE, StereoMode::Anaglyph);
Config::SetCurrent(Config::GFX_ENHANCE_POST_SHADER, DUBOIS_ALGORITHM_SHADER);
}
else
{
Config::SetCurrent(Config::GFX_STEREO_MODE, StereoMode::Off);
Config::SetCurrent(Config::GFX_ENHANCE_POST_SHADER, "");
}
}
}
const auto stereo_depth = Config::Get(Config::GFX_STEREO_DEPTH);
if (IsHotkey(HK_DECREASE_DEPTH, true))
Config::SetCurrent(Config::GFX_STEREO_DEPTH, std::max(stereo_depth - 1, 0));
if (IsHotkey(HK_INCREASE_DEPTH, true))
Config::SetCurrent(Config::GFX_STEREO_DEPTH,
std::min(stereo_depth + 1, Config::GFX_STEREO_DEPTH_MAXIMUM));
const auto stereo_convergence = Config::Get(Config::GFX_STEREO_CONVERGENCE);
if (IsHotkey(HK_DECREASE_CONVERGENCE, true))
Config::SetCurrent(Config::GFX_STEREO_CONVERGENCE, std::max(stereo_convergence - 5, 0));
if (IsHotkey(HK_INCREASE_CONVERGENCE, true))
Config::SetCurrent(Config::GFX_STEREO_CONVERGENCE,
std::min(stereo_convergence + 5, Config::GFX_STEREO_CONVERGENCE_MAXIMUM));
// Free Look
if (IsHotkey(HK_FREELOOK_TOGGLE))
{
const bool new_value = !Config::Get(Config::FREE_LOOK_ENABLED);
Config::SetCurrent(Config::FREE_LOOK_ENABLED, new_value);
OSD::AddMessage(StringFromFormat("Free Look: %s", new_value ? "Enabled" : "Disabled"));
}
// Savestates
for (u32 i = 0; i < State::NUM_STATES; i++)
{
if (IsHotkey(HK_LOAD_STATE_SLOT_1 + i))
emit StateLoadSlot(i + 1);
if (IsHotkey(HK_SAVE_STATE_SLOT_1 + i))
emit StateSaveSlot(i + 1);
if (IsHotkey(HK_LOAD_LAST_STATE_1 + i))
emit StateLoadLastSaved(i + 1);
if (IsHotkey(HK_SELECT_STATE_SLOT_1 + i))
emit SetStateSlotHotkey(i + 1);
}
if (IsHotkey(HK_SAVE_FIRST_STATE))
emit StateSaveOldest();
if (IsHotkey(HK_UNDO_LOAD_STATE))
emit StateLoadUndo();
if (IsHotkey(HK_UNDO_SAVE_STATE))
emit StateSaveUndo();
if (IsHotkey(HK_LOAD_STATE_FILE))
emit StateLoadFile();
if (IsHotkey(HK_SAVE_STATE_FILE))
emit StateSaveFile();
}
}
void HotkeyScheduler::CheckDebuggingHotkeys()
{
if (IsHotkey(HK_STEP))
emit Step();
if (IsHotkey(HK_STEP_OVER))
emit StepOver();
if (IsHotkey(HK_STEP_OUT))
emit StepOut();
if (IsHotkey(HK_SKIP))
emit Skip();
if (IsHotkey(HK_SHOW_PC))
emit ShowPC();
if (IsHotkey(HK_SET_PC))
emit Skip();
if (IsHotkey(HK_BP_TOGGLE))
emit ToggleBreakpoint();
if (IsHotkey(HK_BP_ADD))
emit AddBreakpoint();
}