1
0
mirror of https://github.com/ncblakely/GiantsTools synced 2024-11-05 14:55:38 +01:00
GiantsTools/Sdk/External/DirectXTK/Src/GamePad.cpp
2021-01-23 15:40:09 -08:00

1754 lines
56 KiB
C++

//--------------------------------------------------------------------------------------
// File: GamePad.cpp
//
// Copyright (c) Microsoft Corporation. All rights reserved.
// Licensed under the MIT License.
//
// http://go.microsoft.com/fwlink/?LinkId=248929
// http://go.microsoft.com/fwlink/?LinkID=615561
//--------------------------------------------------------------------------------------
#include "pch.h"
#include "GamePad.h"
#include "PlatformHelpers.h"
using namespace DirectX;
using Microsoft::WRL::ComPtr;
namespace
{
constexpr float c_XboxOneThumbDeadZone = .24f; // Recommended Xbox One controller deadzone
float ApplyLinearDeadZone(float value, float maxValue, float deadZoneSize) noexcept
{
if (value < -deadZoneSize)
{
// Increase negative values to remove the deadzone discontinuity.
value += deadZoneSize;
}
else if (value > deadZoneSize)
{
// Decrease positive values to remove the deadzone discontinuity.
value -= deadZoneSize;
}
else
{
// Values inside the deadzone come out zero.
return 0;
}
// Scale into 0-1 range.
float scaledValue = value / (maxValue - deadZoneSize);
return std::max(-1.f, std::min(scaledValue, 1.f));
}
void ApplyStickDeadZone(
float x,
float y,
GamePad::DeadZone deadZoneMode,
float maxValue,
float deadZoneSize,
_Out_ float& resultX,
_Out_ float& resultY) noexcept
{
switch (deadZoneMode)
{
case GamePad::DEAD_ZONE_INDEPENDENT_AXES:
resultX = ApplyLinearDeadZone(x, maxValue, deadZoneSize);
resultY = ApplyLinearDeadZone(y, maxValue, deadZoneSize);
break;
case GamePad::DEAD_ZONE_CIRCULAR:
{
float dist = sqrtf(x*x + y * y);
float wanted = ApplyLinearDeadZone(dist, maxValue, deadZoneSize);
float scale = (wanted > 0.f) ? (wanted / dist) : 0.f;
resultX = std::max(-1.f, std::min(x * scale, 1.f));
resultY = std::max(-1.f, std::min(y * scale, 1.f));
}
break;
default: // GamePad::DEAD_ZONE_NONE
resultX = ApplyLinearDeadZone(x, maxValue, 0);
resultY = ApplyLinearDeadZone(y, maxValue, 0);
break;
}
}
}
#if defined(WINAPI_FAMILY) && (WINAPI_FAMILY == WINAPI_FAMILY_GAMES)
#include <GameInput.h>
//======================================================================================
// GameInput
//======================================================================================
class GamePad::Impl
{
public:
Impl(GamePad* owner) :
mOwner(owner),
mCtrlChanged(INVALID_HANDLE_VALUE),
mDeviceToken(0),
mMostRecentGamepad(0)
{
if (s_gamePad)
{
throw std::exception("GamePad is a singleton");
}
s_gamePad = this;
ThrowIfFailed(GameInputCreate(mGameInput.GetAddressOf()));
ThrowIfFailed(mGameInput->RegisterDeviceCallback(
nullptr,
GameInputKindGamepad,
GameInputDeviceConnected,
GameInputBlockingEnumeration,
this,
OnGameInputDevice,
&mDeviceToken));
}
Impl(Impl&&) = default;
Impl& operator= (Impl&&) = default;
Impl(Impl const&) = delete;
Impl& operator= (Impl const&) = delete;
~Impl()
{
if (mDeviceToken)
{
if (mGameInput)
{
HRESULT hr = mGameInput->UnregisterCallback(mDeviceToken, UINT64_MAX);
if (FAILED(hr))
{
DebugTrace("ERROR: GameInput::UnregisterCallback [gamepad] failed (%08X)", static_cast<unsigned int>(hr));
}
}
mDeviceToken = 0;
}
s_gamePad = nullptr;
}
void GetState(int player, _Out_ State& state, DeadZone deadZoneMode)
{
memset(&state, 0, sizeof(State));
IGameInputDevice* device = nullptr;
if (player >= 0 && player < MAX_PLAYER_COUNT)
{
device = mInputDevices[player].Get();
if (!device)
return;
}
else if (player == c_MostRecent)
{
player = mMostRecentGamepad;
assert(player >= 0 && player < MAX_PLAYER_COUNT);
device = mInputDevices[player].Get();
if (!device)
return;
}
else if (player != c_MergedInput)
{
return;
}
ComPtr<IGameInputReading> reading;
if (SUCCEEDED(mGameInput->GetCurrentReading(GameInputKindGamepad, device, reading.GetAddressOf())))
{
GameInputGamepadState pad;
if (reading->GetGamepadState(&pad))
{
state.connected = true;
state.packet = reading->GetSequenceNumber(GameInputKindGamepad);
state.buttons.a = (pad.buttons & GameInputGamepadA) != 0;
state.buttons.b = (pad.buttons & GameInputGamepadB) != 0;
state.buttons.x = (pad.buttons & GameInputGamepadX) != 0;
state.buttons.y = (pad.buttons & GameInputGamepadY) != 0;
state.buttons.leftStick = (pad.buttons & GameInputGamepadLeftThumbstick) != 0;
state.buttons.rightStick = (pad.buttons & GameInputGamepadRightThumbstick) != 0;
state.buttons.leftShoulder = (pad.buttons & GameInputGamepadLeftShoulder) != 0;
state.buttons.rightShoulder = (pad.buttons & GameInputGamepadRightShoulder) != 0;
state.buttons.view = (pad.buttons & GameInputGamepadView) != 0;
state.buttons.menu = (pad.buttons & GameInputGamepadMenu) != 0;
state.dpad.up = (pad.buttons & GameInputGamepadDPadUp) != 0;
state.dpad.down = (pad.buttons & GameInputGamepadDPadDown) != 0;
state.dpad.right = (pad.buttons & GameInputGamepadDPadRight) != 0;
state.dpad.left = (pad.buttons & GameInputGamepadDPadLeft) != 0;
ApplyStickDeadZone(pad.leftThumbstickX, pad.leftThumbstickY,
deadZoneMode, 1.f, c_XboxOneThumbDeadZone,
state.thumbSticks.leftX, state.thumbSticks.leftY);
ApplyStickDeadZone(pad.rightThumbstickX, pad.rightThumbstickY,
deadZoneMode, 1.f, c_XboxOneThumbDeadZone,
state.thumbSticks.rightX, state.thumbSticks.rightY);
state.triggers.left = pad.leftTrigger;
state.triggers.right = pad.rightTrigger;
}
}
}
void GetCapabilities(int player, _Out_ Capabilities& caps)
{
if (player == c_MostRecent)
player = mMostRecentGamepad;
if (player >= 0 && player < MAX_PLAYER_COUNT)
{
IGameInputDevice* device = mInputDevices[player].Get();
if (device)
{
if (device->GetDeviceStatus() & GameInputDeviceConnected)
{
auto deviceInfo = device->GetDeviceInfo();
caps.connected = true;
caps.gamepadType = Capabilities::GAMEPAD;
caps.id = deviceInfo->deviceId;
caps.vid = deviceInfo->vendorId;
caps.pid = deviceInfo->productId;
return;
}
else
{
mInputDevices[player].Reset();
}
}
}
memset(&caps, 0, sizeof(Capabilities));
}
bool SetVibration(int player, float leftMotor, float rightMotor, float leftTrigger, float rightTrigger) noexcept
{
if (player == c_MostRecent)
player = mMostRecentGamepad;
if (player >= 0 && player < MAX_PLAYER_COUNT)
{
IGameInputDevice* device = mInputDevices[player].Get();
if (device)
{
GameInputRumbleParams const params =
{
leftMotor,
rightMotor,
leftTrigger,
rightTrigger
};
device->SetRumbleState(&params);
return true;
}
}
return false;
}
void Suspend() noexcept
{
for (int player = 0; player < MAX_PLAYER_COUNT; ++player)
{
IGameInputDevice* device = mInputDevices[player].Get();
if (device)
{
device->SetRumbleState(nullptr);
}
}
}
void Resume() noexcept
{
for (int player = 0; player < MAX_PLAYER_COUNT; ++player)
{
IGameInputDevice* device = mInputDevices[player].Get();
if (device)
{
if (!(device->GetDeviceStatus() & GameInputDeviceConnected))
{
mInputDevices[player].Reset();
}
}
}
}
void GetDevice(int player, _Outptr_ IGameInputDevice** device) noexcept
{
if (!device)
return;
if (player == c_MostRecent)
player = mMostRecentGamepad;
*device = nullptr;
if (player >= 0 && player < MAX_PLAYER_COUNT)
{
IGameInputDevice* dev = mInputDevices[player].Get();
if (dev)
{
dev->AddRef();
*device = dev;
}
}
}
GamePad* mOwner;
static GamePad::Impl* s_gamePad;
HANDLE mCtrlChanged;
private:
ComPtr<IGameInput> mGameInput;
ComPtr<IGameInputDevice> mInputDevices[MAX_PLAYER_COUNT];
GameInputCallbackToken mDeviceToken;
int mMostRecentGamepad;
static void CALLBACK OnGameInputDevice(
_In_ GameInputCallbackToken,
_In_ void * context,
_In_ IGameInputDevice * device,
_In_ uint64_t,
_In_ GameInputDeviceStatus currentStatus,
_In_ GameInputDeviceStatus) noexcept
{
auto impl = reinterpret_cast<GamePad::Impl*>(context);
if (currentStatus & GameInputDeviceConnected)
{
size_t empty = MAX_PLAYER_COUNT;
size_t k = 0;
for (; k < MAX_PLAYER_COUNT; ++k)
{
if (impl->mInputDevices[k].Get() == device)
{
impl->mMostRecentGamepad = static_cast<int>(k);
break;
}
else if (!impl->mInputDevices[k])
{
if (empty >= MAX_PLAYER_COUNT)
empty = k;
}
}
if (k >= MAX_PLAYER_COUNT)
{
// Silently ignore "extra" gamepads as there's no hard limit
if (empty < MAX_PLAYER_COUNT)
{
impl->mInputDevices[empty] = device;
impl->mMostRecentGamepad = static_cast<int>(empty);
}
}
}
else
{
for (size_t k = 0; k < MAX_PLAYER_COUNT; ++k)
{
if (impl->mInputDevices[k].Get() == device)
{
impl->mInputDevices[k].Reset();
break;
}
}
}
if (impl->mCtrlChanged != INVALID_HANDLE_VALUE)
{
SetEvent(impl->mCtrlChanged);
}
}
};
GamePad::Impl* GamePad::Impl::s_gamePad = nullptr;
#elif (_WIN32_WINNT >= _WIN32_WINNT_WIN10) && !defined(_GAMING_DESKTOP)
//======================================================================================
// Windows::Gaming::Input (Windows 10)
//======================================================================================
#pragma warning(push)
#pragma warning(disable : 4471 5204)
#include <windows.gaming.input.h>
#pragma warning(pop)
class GamePad::Impl
{
public:
Impl(GamePad* owner) :
mOwner(owner),
mCtrlChanged(INVALID_HANDLE_VALUE),
mUserChanged(INVALID_HANDLE_VALUE),
mMostRecentGamepad(0),
mStatics{},
mGamePad{},
mUserChangeToken{},
mAddedToken{},
mRemovedToken{},
mChanged{}
{
using namespace Microsoft::WRL;
using namespace Microsoft::WRL::Wrappers;
using namespace ABI::Windows::Foundation;
if (s_gamePad)
{
throw std::exception("GamePad is a singleton");
}
s_gamePad = this;
mChanged.reset(CreateEventEx(nullptr, nullptr, 0, EVENT_MODIFY_STATE | SYNCHRONIZE));
if (!mChanged)
{
throw std::exception("CreateEventEx");
}
ThrowIfFailed(GetActivationFactory(HStringReference(RuntimeClass_Windows_Gaming_Input_Gamepad).Get(), mStatics.GetAddressOf()));
typedef __FIEventHandler_1_Windows__CGaming__CInput__CGamepad AddedHandler;
ThrowIfFailed(mStatics->add_GamepadAdded(Callback<AddedHandler>(GamepadAdded).Get(), &mAddedToken));
typedef __FIEventHandler_1_Windows__CGaming__CInput__CGamepad RemovedHandler;
ThrowIfFailed(mStatics->add_GamepadRemoved(Callback<RemovedHandler>(GamepadRemoved).Get(), &mRemovedToken));
ScanGamePads();
}
Impl(Impl&&) = default;
Impl& operator= (Impl&&) = default;
Impl(Impl const&) = delete;
Impl& operator= (Impl const&) = delete;
~Impl()
{
using namespace ABI::Windows::Gaming::Input;
for (size_t j = 0; j < MAX_PLAYER_COUNT; ++j)
{
if (mGamePad[j])
{
ComPtr<IGameController> ctrl;
HRESULT hr = mGamePad[j].As(&ctrl);
if (SUCCEEDED(hr) && ctrl)
{
(void)ctrl->remove_UserChanged(mUserChangeToken[j]);
mUserChangeToken[j].value = 0;
}
mGamePad[j].Reset();
}
}
if (mStatics)
{
(void)mStatics->remove_GamepadAdded(mAddedToken);
mAddedToken.value = 0;
(void)mStatics->remove_GamepadRemoved(mRemovedToken);
mRemovedToken.value = 0;
mStatics.Reset();
}
s_gamePad = nullptr;
}
void GetState(int player, _Out_ State& state, DeadZone deadZoneMode)
{
using namespace Microsoft::WRL;
using namespace ABI::Windows::Gaming::Input;
if (WaitForSingleObjectEx(mChanged.get(), 0, FALSE) == WAIT_OBJECT_0)
{
ScanGamePads();
}
if (player == c_MostRecent)
player = mMostRecentGamepad;
if ((player >= 0) && (player < MAX_PLAYER_COUNT))
{
if (mGamePad[player])
{
GamepadReading reading;
HRESULT hr = mGamePad[player]->GetCurrentReading(&reading);
if (SUCCEEDED(hr))
{
state.connected = true;
state.packet = reading.Timestamp;
state.buttons.a = (reading.Buttons & GamepadButtons::GamepadButtons_A) != 0;
state.buttons.b = (reading.Buttons & GamepadButtons::GamepadButtons_B) != 0;
state.buttons.x = (reading.Buttons & GamepadButtons::GamepadButtons_X) != 0;
state.buttons.y = (reading.Buttons & GamepadButtons::GamepadButtons_Y) != 0;
state.buttons.leftStick = (reading.Buttons & GamepadButtons::GamepadButtons_LeftThumbstick) != 0;
state.buttons.rightStick = (reading.Buttons & GamepadButtons::GamepadButtons_RightThumbstick) != 0;
state.buttons.leftShoulder = (reading.Buttons & GamepadButtons::GamepadButtons_LeftShoulder) != 0;
state.buttons.rightShoulder = (reading.Buttons & GamepadButtons::GamepadButtons_RightShoulder) != 0;
state.buttons.back = (reading.Buttons & GamepadButtons::GamepadButtons_View) != 0;
state.buttons.start = (reading.Buttons & GamepadButtons::GamepadButtons_Menu) != 0;
state.dpad.up = (reading.Buttons & GamepadButtons::GamepadButtons_DPadUp) != 0;
state.dpad.down = (reading.Buttons & GamepadButtons::GamepadButtons_DPadDown) != 0;
state.dpad.right = (reading.Buttons & GamepadButtons::GamepadButtons_DPadRight) != 0;
state.dpad.left = (reading.Buttons & GamepadButtons::GamepadButtons_DPadLeft) != 0;
ApplyStickDeadZone(static_cast<float>(reading.LeftThumbstickX), static_cast<float>(reading.LeftThumbstickY),
deadZoneMode, 1.f, c_XboxOneThumbDeadZone,
state.thumbSticks.leftX, state.thumbSticks.leftY);
ApplyStickDeadZone(static_cast<float>(reading.RightThumbstickX), static_cast<float>(reading.RightThumbstickY),
deadZoneMode, 1.f, c_XboxOneThumbDeadZone,
state.thumbSticks.rightX, state.thumbSticks.rightY);
state.triggers.left = static_cast<float>(reading.LeftTrigger);
state.triggers.right = static_cast<float>(reading.RightTrigger);
return;
}
}
}
memset(&state, 0, sizeof(State));
}
void GetCapabilities(int player, Capabilities& caps)
{
using namespace Microsoft::WRL;
using namespace Microsoft::WRL::Wrappers;
using namespace ABI::Windows::Foundation;
using namespace ABI::Windows::System;
using namespace ABI::Windows::Gaming::Input;
if (WaitForSingleObjectEx(mChanged.get(), 0, FALSE) == WAIT_OBJECT_0)
{
ScanGamePads();
}
if (player == c_MostRecent)
player = mMostRecentGamepad;
if ((player >= 0) && (player < MAX_PLAYER_COUNT))
{
if (mGamePad[player])
{
caps.connected = true;
caps.gamepadType = Capabilities::GAMEPAD;
caps.id.clear();
caps.vid = caps.pid = 0;
ComPtr<IGameController> ctrl;
HRESULT hr = mGamePad[player].As(&ctrl);
if (SUCCEEDED(hr) && ctrl)
{
ComPtr<IUser> user;
hr = ctrl->get_User(user.GetAddressOf());
if (SUCCEEDED(hr) && user != nullptr)
{
HString str;
hr = user->get_NonRoamableId(str.GetAddressOf());
if (SUCCEEDED(hr))
{
caps.id = str.GetRawBuffer(nullptr);
}
}
// Requires the Windows 10 Creators Update SDK (15063)
#if defined(NTDDI_WIN10_RS2) && (NTDDI_VERSION >= NTDDI_WIN10_RS2)
ComPtr<IRawGameControllerStatics> rawStatics;
hr = GetActivationFactory(HStringReference(RuntimeClass_Windows_Gaming_Input_RawGameController).Get(), rawStatics.GetAddressOf());
if (SUCCEEDED(hr))
{
ComPtr<IRawGameController> raw;
hr = rawStatics->FromGameController(ctrl.Get(), raw.GetAddressOf());
if (SUCCEEDED(hr) && raw)
{
if (FAILED(raw->get_HardwareVendorId(&caps.vid)))
caps.vid = 0;
if (FAILED(raw->get_HardwareProductId(&caps.pid)))
caps.pid = 0;
}
}
#endif // NTDDI_WIN10_RS2
}
return;
}
}
caps.id.clear();
caps = {};
}
bool SetVibration(int player, float leftMotor, float rightMotor, float leftTrigger, float rightTrigger) noexcept
{
using namespace ABI::Windows::Gaming::Input;
if (player == c_MostRecent)
player = mMostRecentGamepad;
if ((player >= 0) && (player < MAX_PLAYER_COUNT))
{
if (mGamePad[player])
{
GamepadVibration vib;
vib.LeftMotor = double(leftMotor);
vib.RightMotor = double(rightMotor);
vib.LeftTrigger = double(leftTrigger);
vib.RightTrigger = double(rightTrigger);
HRESULT hr = mGamePad[player]->put_Vibration(vib);
if (SUCCEEDED(hr))
return true;
}
}
return false;
}
void Suspend() noexcept
{
for (size_t j = 0; j < MAX_PLAYER_COUNT; ++j)
{
mGamePad[j].Reset();
}
}
void Resume() noexcept
{
// Make sure we rescan gamepads
SetEvent(mChanged.get());
}
GamePad* mOwner;
static GamePad::Impl* s_gamePad;
HANDLE mCtrlChanged;
HANDLE mUserChanged;
private:
int mMostRecentGamepad;
void ScanGamePads()
{
using namespace Microsoft::WRL;
using namespace ABI::Windows::Foundation::Collections;
using namespace ABI::Windows::Gaming::Input;
ComPtr<IVectorView<Gamepad*>> pads;
ThrowIfFailed(mStatics->get_Gamepads(pads.GetAddressOf()));
unsigned int count = 0;
ThrowIfFailed(pads->get_Size(&count));
// Check for removed gamepads
for (size_t j = 0; j < MAX_PLAYER_COUNT; ++j)
{
if (mGamePad[j])
{
unsigned int k = 0;
for (; k < count; ++k)
{
ComPtr<IGamepad> pad;
HRESULT hr = pads->GetAt(k, pad.GetAddressOf());
if (SUCCEEDED(hr) && (pad == mGamePad[j]))
{
break;
}
}
if (k >= count)
{
ComPtr<IGameController> ctrl;
HRESULT hr = mGamePad[j].As(&ctrl);
if (SUCCEEDED(hr) && ctrl)
{
(void)ctrl->remove_UserChanged(mUserChangeToken[j]);
mUserChangeToken[j].value = 0;
}
mGamePad[j].Reset();
}
}
}
// Check for added gamepads
for (unsigned int j = 0; j < count; ++j)
{
ComPtr<IGamepad> pad;
HRESULT hr = pads->GetAt(j, pad.GetAddressOf());
if (SUCCEEDED(hr))
{
size_t empty = MAX_PLAYER_COUNT;
size_t k = 0;
for (; k < MAX_PLAYER_COUNT; ++k)
{
if (mGamePad[k] == pad)
{
if (j == (count - 1))
mMostRecentGamepad = static_cast<int>(k);
break;
}
else if (!mGamePad[k])
{
if (empty >= MAX_PLAYER_COUNT)
empty = k;
}
}
if (k >= MAX_PLAYER_COUNT)
{
// Silently ignore "extra" gamepads as there's no hard limit
if (empty < MAX_PLAYER_COUNT)
{
mGamePad[empty] = pad;
if (j == (count - 1))
mMostRecentGamepad = static_cast<int>(empty);
ComPtr<IGameController> ctrl;
hr = pad.As(&ctrl);
if (SUCCEEDED(hr) && ctrl)
{
typedef __FITypedEventHandler_2_Windows__CGaming__CInput__CIGameController_Windows__CSystem__CUserChangedEventArgs UserHandler;
ThrowIfFailed(ctrl->add_UserChanged(Callback<UserHandler>(UserChanged).Get(), &mUserChangeToken[empty]));
}
}
}
}
}
}
ComPtr<ABI::Windows::Gaming::Input::IGamepadStatics> mStatics;
ComPtr<ABI::Windows::Gaming::Input::IGamepad> mGamePad[MAX_PLAYER_COUNT];
EventRegistrationToken mUserChangeToken[MAX_PLAYER_COUNT];
EventRegistrationToken mAddedToken;
EventRegistrationToken mRemovedToken;
ScopedHandle mChanged;
static HRESULT GamepadAdded(IInspectable *, ABI::Windows::Gaming::Input::IGamepad*)
{
if (s_gamePad)
{
SetEvent(s_gamePad->mChanged.get());
if (s_gamePad->mCtrlChanged != INVALID_HANDLE_VALUE)
{
SetEvent(s_gamePad->mCtrlChanged);
}
}
return S_OK;
}
static HRESULT GamepadRemoved(IInspectable *, ABI::Windows::Gaming::Input::IGamepad*)
{
if (s_gamePad)
{
SetEvent(s_gamePad->mChanged.get());
if (s_gamePad->mCtrlChanged != INVALID_HANDLE_VALUE)
{
SetEvent(s_gamePad->mCtrlChanged);
}
}
return S_OK;
}
static HRESULT UserChanged(ABI::Windows::Gaming::Input::IGameController*, ABI::Windows::System::IUserChangedEventArgs*)
{
if (s_gamePad)
{
if (s_gamePad->mUserChanged != INVALID_HANDLE_VALUE)
{
SetEvent(s_gamePad->mUserChanged);
}
}
return S_OK;
}
};
GamePad::Impl* GamePad::Impl::s_gamePad = nullptr;
#elif defined(_XBOX_ONE)
//======================================================================================
// Windows::Xbox::Input (Xbox One)
//======================================================================================
#include <Windows.Xbox.Input.h>
#include <Windows.Foundation.Collections.h>
class GamePad::Impl
{
public:
class GamepadAddedListener : public Microsoft::WRL::RuntimeClass<Microsoft::WRL::RuntimeClassFlags<Microsoft::WRL::ClassicCom>,
ABI::Windows::Foundation::IEventHandler<ABI::Windows::Xbox::Input::GamepadAddedEventArgs *>,
Microsoft::WRL::FtmBase>
{
public:
GamepadAddedListener(HANDLE event) : mEvent(event) {}
STDMETHOD(Invoke)(_In_ IInspectable *, _In_ ABI::Windows::Xbox::Input::IGamepadAddedEventArgs *) override
{
SetEvent(mEvent);
auto pad = GamePad::Impl::s_gamePad;
if (pad && pad->mCtrlChanged != INVALID_HANDLE_VALUE)
{
SetEvent(pad->mCtrlChanged);
}
return S_OK;
}
private:
HANDLE mEvent;
};
class GamepadRemovedListener : public Microsoft::WRL::RuntimeClass<Microsoft::WRL::RuntimeClassFlags<Microsoft::WRL::ClassicCom>,
ABI::Windows::Foundation::IEventHandler<ABI::Windows::Xbox::Input::GamepadRemovedEventArgs *>,
Microsoft::WRL::FtmBase>
{
public:
GamepadRemovedListener(HANDLE event) : mEvent(event) {}
STDMETHOD(Invoke)(_In_ IInspectable *, _In_ ABI::Windows::Xbox::Input::IGamepadRemovedEventArgs *) override
{
SetEvent(mEvent);
auto pad = GamePad::Impl::s_gamePad;
if (pad && pad->mCtrlChanged != INVALID_HANDLE_VALUE)
{
SetEvent(pad->mCtrlChanged);
}
return S_OK;
}
private:
HANDLE mEvent;
};
class UserPairingListener : public Microsoft::WRL::RuntimeClass<Microsoft::WRL::RuntimeClassFlags<Microsoft::WRL::ClassicCom>,
ABI::Windows::Foundation::IEventHandler<ABI::Windows::Xbox::Input::ControllerPairingChangedEventArgs *>,
Microsoft::WRL::FtmBase>
{
public:
UserPairingListener() noexcept {}
STDMETHOD(Invoke)(_In_ IInspectable *, _In_ ABI::Windows::Xbox::Input::IControllerPairingChangedEventArgs *) override
{
auto pad = GamePad::Impl::s_gamePad;
if (pad && pad->mUserChanged != INVALID_HANDLE_VALUE)
{
SetEvent(pad->mUserChanged);
}
return S_OK;
}
};
Impl(GamePad *owner) :
mOwner(owner),
mCtrlChanged(INVALID_HANDLE_VALUE),
mUserChanged(INVALID_HANDLE_VALUE),
mMostRecentGamepad(0),
mStatics{},
mStaticsCtrl{},
mGamePad{},
mAddedToken{},
mRemovedToken{},
mUserParingToken{},
mChanged{}
{
using namespace Microsoft::WRL;
using namespace Microsoft::WRL::Wrappers;
using namespace ABI::Windows::Foundation;
if (s_gamePad)
{
throw std::exception("GamePad is a singleton");
}
s_gamePad = this;
mChanged.reset(CreateEventEx(nullptr, nullptr, 0, EVENT_MODIFY_STATE | SYNCHRONIZE));
if (!mChanged)
{
throw std::exception("CreateEventEx");
}
ThrowIfFailed(GetActivationFactory(HStringReference(RuntimeClass_Windows_Xbox_Input_Gamepad).Get(), mStatics.GetAddressOf()));
ThrowIfFailed(GetActivationFactory(HStringReference(RuntimeClass_Windows_Xbox_Input_Controller).Get(), mStaticsCtrl.GetAddressOf()));
ThrowIfFailed(mStatics->add_GamepadAdded(Make<GamepadAddedListener>(mChanged.get()).Get(), &mAddedToken));
ThrowIfFailed(mStatics->add_GamepadRemoved(Make<GamepadRemovedListener>(mChanged.get()).Get(), &mRemovedToken));
ThrowIfFailed(mStaticsCtrl->add_ControllerPairingChanged(Make<UserPairingListener>().Get(), &mUserParingToken));
ScanGamePads();
}
~Impl()
{
if (mStatics)
{
(void)mStatics->remove_GamepadAdded(mAddedToken);
mAddedToken.value = 0;
(void)mStatics->remove_GamepadRemoved(mRemovedToken);
mRemovedToken.value = 0;
mStatics.Reset();
}
if (mStaticsCtrl)
{
(void)mStaticsCtrl->remove_ControllerPairingChanged(mUserParingToken);
mUserParingToken.value = 0;
mStaticsCtrl.Reset();
}
s_gamePad = nullptr;
}
void GetState(int player, _Out_ State& state, DeadZone deadZoneMode)
{
using namespace Microsoft::WRL;
using namespace ABI::Windows::Xbox::Input;
if (WaitForSingleObjectEx(mChanged.get(), 0, FALSE) == WAIT_OBJECT_0)
{
ScanGamePads();
}
if (player == c_MostRecent)
player = mMostRecentGamepad;
if ((player >= 0) && (player < MAX_PLAYER_COUNT))
{
if (mGamePad[player])
{
RawGamepadReading reading;
HRESULT hr = mGamePad[player]->GetRawCurrentReading(&reading);
if (SUCCEEDED(hr))
{
state.connected = true;
state.packet = reading.Timestamp;
state.buttons.a = (reading.Buttons & GamepadButtons::GamepadButtons_A) != 0;
state.buttons.b = (reading.Buttons & GamepadButtons::GamepadButtons_B) != 0;
state.buttons.x = (reading.Buttons & GamepadButtons::GamepadButtons_X) != 0;
state.buttons.y = (reading.Buttons & GamepadButtons::GamepadButtons_Y) != 0;
state.buttons.leftStick = (reading.Buttons & GamepadButtons::GamepadButtons_LeftThumbstick) != 0;
state.buttons.rightStick = (reading.Buttons & GamepadButtons::GamepadButtons_RightThumbstick) != 0;
state.buttons.leftShoulder = (reading.Buttons & GamepadButtons::GamepadButtons_LeftShoulder) != 0;
state.buttons.rightShoulder = (reading.Buttons & GamepadButtons::GamepadButtons_RightShoulder) != 0;
state.buttons.back = (reading.Buttons & GamepadButtons::GamepadButtons_View) != 0;
state.buttons.start = (reading.Buttons & GamepadButtons::GamepadButtons_Menu) != 0;
state.dpad.up = (reading.Buttons & GamepadButtons::GamepadButtons_DPadUp) != 0;
state.dpad.down = (reading.Buttons & GamepadButtons::GamepadButtons_DPadDown) != 0;
state.dpad.right = (reading.Buttons & GamepadButtons::GamepadButtons_DPadRight) != 0;
state.dpad.left = (reading.Buttons & GamepadButtons::GamepadButtons_DPadLeft) != 0;
ApplyStickDeadZone(reading.LeftThumbstickX, reading.LeftThumbstickY,
deadZoneMode, 1.f, c_XboxOneThumbDeadZone,
state.thumbSticks.leftX, state.thumbSticks.leftY);
ApplyStickDeadZone(reading.RightThumbstickX, reading.RightThumbstickY,
deadZoneMode, 1.f, c_XboxOneThumbDeadZone,
state.thumbSticks.rightX, state.thumbSticks.rightY);
state.triggers.left = reading.LeftTrigger;
state.triggers.right = reading.RightTrigger;
return;
}
}
}
memset(&state, 0, sizeof(State));
}
void GetCapabilities(int player, _Out_ Capabilities& caps)
{
using namespace Microsoft::WRL;
using namespace ABI::Windows::Xbox::Input;
if (WaitForSingleObjectEx(mChanged.get(), 0, FALSE) == WAIT_OBJECT_0)
{
ScanGamePads();
}
if (player == c_MostRecent)
player = mMostRecentGamepad;
if ((player >= 0) && (player < MAX_PLAYER_COUNT))
{
if (mGamePad[player])
{
caps.connected = true;
caps.gamepadType = Capabilities::UNKNOWN;
caps.id = 0;
caps.vid = caps.pid = 0;
ComPtr<IController> ctrl;
HRESULT hr = mGamePad[player].As(&ctrl);
if (SUCCEEDED(hr) && ctrl)
{
hr = ctrl->get_Id(&caps.id);
if (FAILED(hr))
caps.id = 0;
Wrappers::HString str;
hr = ctrl->get_Type(str.GetAddressOf());
if (SUCCEEDED(hr))
{
const wchar_t* typeStr = str.GetRawBuffer(nullptr);
if (_wcsicmp(typeStr, L"Windows.Xbox.Input.Gamepad") == 0)
{
caps.gamepadType = Capabilities::GAMEPAD;
}
else if (_wcsicmp(typeStr, L"Microsoft.Xbox.Input.ArcadeStick") == 0)
{
caps.gamepadType = Capabilities::ARCADE_STICK;
}
else if (_wcsicmp(typeStr, L"Microsoft.Xbox.Input.Wheel") == 0)
{
caps.gamepadType = Capabilities::WHEEL;
}
}
}
#if _XDK_VER >= 0x42ED07E4 /* XDK Edition 180400 */
ComPtr<IController3> ctrl3;
hr = mGamePad[player].As(&ctrl3);
if (SUCCEEDED(hr) && ctrl3)
{
if (FAILED(ctrl3->get_HardwareVendorId(&caps.vid)))
caps.vid = 0;
if (FAILED(ctrl3->get_HardwareProductId(&caps.pid)))
caps.pid = 0;
}
#endif
return;
}
}
memset(&caps, 0, sizeof(Capabilities));
}
bool SetVibration(int player, float leftMotor, float rightMotor, float leftTrigger, float rightTrigger) noexcept
{
using namespace ABI::Windows::Xbox::Input;
if (player == c_MostRecent)
player = mMostRecentGamepad;
if ((player >= 0) && (player < MAX_PLAYER_COUNT))
{
if (mGamePad[player])
{
HRESULT hr;
try
{
GamepadVibration vib;
vib.LeftMotorLevel = leftMotor;
vib.RightMotorLevel = rightMotor;
vib.LeftTriggerLevel = leftTrigger;
vib.RightTriggerLevel = rightTrigger;
hr = mGamePad[player]->SetVibration(vib);
}
catch (...)
{
// Handle case where gamepad might be invalid
hr = E_FAIL;
}
if (SUCCEEDED(hr))
return true;
}
}
return false;
}
void Suspend() noexcept
{
for (size_t j = 0; j < MAX_PLAYER_COUNT; ++j)
{
mGamePad[j].Reset();
}
}
void Resume() noexcept
{
// Make sure we rescan gamepads
SetEvent(mChanged.get());
}
GamePad* mOwner;
static GamePad::Impl* s_gamePad;
HANDLE mCtrlChanged;
HANDLE mUserChanged;
private:
int mMostRecentGamepad;
void ScanGamePads()
{
using namespace ABI::Windows::Foundation::Collections;
using namespace ABI::Windows::Xbox::Input;
ComPtr<IVectorView<IGamepad*>> pads;
ThrowIfFailed(mStatics->get_Gamepads(pads.GetAddressOf()));
unsigned int count = 0;
ThrowIfFailed(pads->get_Size(&count));
// Check for removed gamepads
for (size_t j = 0; j < MAX_PLAYER_COUNT; ++j)
{
if (mGamePad[j])
{
unsigned int k = 0;
for (; k < count; ++k)
{
ComPtr<IGamepad> pad;
HRESULT hr = pads->GetAt(k, pad.GetAddressOf());
if (SUCCEEDED(hr) && (pad == mGamePad[j]))
{
break;
}
}
if (k >= count)
{
mGamePad[j].Reset();
}
}
}
// Check for added gamepads
for (unsigned int j = 0; j < count; ++j)
{
ComPtr<IGamepad> pad;
HRESULT hr = pads->GetAt(j, pad.GetAddressOf());
if (SUCCEEDED(hr))
{
size_t empty = MAX_PLAYER_COUNT;
size_t k = 0;
for (; k < MAX_PLAYER_COUNT; ++k)
{
if (mGamePad[k] == pad)
{
if (!j)
mMostRecentGamepad = static_cast<int>(k);
break;
}
else if (!mGamePad[k])
{
if (empty >= MAX_PLAYER_COUNT)
empty = k;
}
}
if (k >= MAX_PLAYER_COUNT)
{
if (empty >= MAX_PLAYER_COUNT)
{
throw std::exception("Too many gamepads found");
}
mGamePad[empty] = pad;
if (!j)
mMostRecentGamepad = static_cast<int>(empty);
}
}
}
}
ComPtr<ABI::Windows::Xbox::Input::IGamepadStatics> mStatics;
ComPtr<ABI::Windows::Xbox::Input::IControllerStatics> mStaticsCtrl;
ComPtr<ABI::Windows::Xbox::Input::IGamepad> mGamePad[MAX_PLAYER_COUNT];
EventRegistrationToken mAddedToken;
EventRegistrationToken mRemovedToken;
EventRegistrationToken mUserParingToken;
ScopedHandle mChanged;
};
GamePad::Impl* GamePad::Impl::s_gamePad = nullptr;
#else
//======================================================================================
// XInput
//======================================================================================
#include <Xinput.h>
static_assert(GamePad::MAX_PLAYER_COUNT == XUSER_MAX_COUNT, "xinput.h mismatch");
class GamePad::Impl
{
public:
Impl(GamePad* owner) :
mOwner(owner),
mConnected{},
mLastReadTime{}
#if (_WIN32_WINNT < _WIN32_WINNT_WIN8)
, mLeftMotor{}
, mRightMotor{}
, mSuspended(false)
#endif
{
for (int j = 0; j < XUSER_MAX_COUNT; ++j)
{
ClearSlot(j, 0);
}
if (s_gamePad)
{
throw std::exception("GamePad is a singleton");
}
s_gamePad = this;
}
~Impl()
{
s_gamePad = nullptr;
}
void GetState(int player, _Out_ State& state, DeadZone deadZoneMode)
{
if (player == c_MostRecent)
player = GetMostRecent();
ULONGLONG time = GetTickCount64();
if (!ThrottleRetry(player, time))
{
#if (_WIN32_WINNT < _WIN32_WINNT_WIN8)
if (mSuspended)
{
memset(&state, 0, sizeof(State));
state.connected = mConnected[player];
return;
}
#endif
XINPUT_STATE xstate;
DWORD result = XInputGetState(DWORD(player), &xstate);
if (result == ERROR_DEVICE_NOT_CONNECTED)
{
ClearSlot(player, time);
}
else
{
if (!mConnected[player])
mLastReadTime[player] = time;
mConnected[player] = true;
state.connected = true;
state.packet = xstate.dwPacketNumber;
WORD xbuttons = xstate.Gamepad.wButtons;
state.buttons.a = (xbuttons & XINPUT_GAMEPAD_A) != 0;
state.buttons.b = (xbuttons & XINPUT_GAMEPAD_B) != 0;
state.buttons.x = (xbuttons & XINPUT_GAMEPAD_X) != 0;
state.buttons.y = (xbuttons & XINPUT_GAMEPAD_Y) != 0;
state.buttons.leftStick = (xbuttons & XINPUT_GAMEPAD_LEFT_THUMB) != 0;
state.buttons.rightStick = (xbuttons & XINPUT_GAMEPAD_RIGHT_THUMB) != 0;
state.buttons.leftShoulder = (xbuttons & XINPUT_GAMEPAD_LEFT_SHOULDER) != 0;
state.buttons.rightShoulder = (xbuttons & XINPUT_GAMEPAD_RIGHT_SHOULDER) != 0;
state.buttons.back = (xbuttons & XINPUT_GAMEPAD_BACK) != 0;
state.buttons.start = (xbuttons & XINPUT_GAMEPAD_START) != 0;
state.dpad.up = (xbuttons & XINPUT_GAMEPAD_DPAD_UP) != 0;
state.dpad.down = (xbuttons & XINPUT_GAMEPAD_DPAD_DOWN) != 0;
state.dpad.right = (xbuttons & XINPUT_GAMEPAD_DPAD_RIGHT) != 0;
state.dpad.left = (xbuttons & XINPUT_GAMEPAD_DPAD_LEFT) != 0;
if (deadZoneMode == DEAD_ZONE_NONE)
{
state.triggers.left = ApplyLinearDeadZone(float(xstate.Gamepad.bLeftTrigger), 255.f, 0.f);
state.triggers.right = ApplyLinearDeadZone(float(xstate.Gamepad.bRightTrigger), 255.f, 0.f);
}
else
{
state.triggers.left = ApplyLinearDeadZone(float(xstate.Gamepad.bLeftTrigger), 255.f, float(XINPUT_GAMEPAD_TRIGGER_THRESHOLD));
state.triggers.right = ApplyLinearDeadZone(float(xstate.Gamepad.bRightTrigger), 255.f, float(XINPUT_GAMEPAD_TRIGGER_THRESHOLD));
}
ApplyStickDeadZone(float(xstate.Gamepad.sThumbLX), float(xstate.Gamepad.sThumbLY),
deadZoneMode, 32767.f, float(XINPUT_GAMEPAD_LEFT_THUMB_DEADZONE),
state.thumbSticks.leftX, state.thumbSticks.leftY);
ApplyStickDeadZone(float(xstate.Gamepad.sThumbRX), float(xstate.Gamepad.sThumbRY),
deadZoneMode, 32767.f, float(XINPUT_GAMEPAD_RIGHT_THUMB_DEADZONE),
state.thumbSticks.rightX, state.thumbSticks.rightY);
return;
}
}
memset(&state, 0, sizeof(State));
}
void GetCapabilities(int player, _Out_ Capabilities& caps)
{
if (player == c_MostRecent)
player = GetMostRecent();
ULONGLONG time = GetTickCount64();
if (!ThrottleRetry(player, time))
{
XINPUT_CAPABILITIES xcaps;
DWORD result = XInputGetCapabilities(DWORD(player), 0, &xcaps);
if (result == ERROR_DEVICE_NOT_CONNECTED)
{
ClearSlot(player, time);
}
else
{
if (!mConnected[player])
mLastReadTime[player] = time;
mConnected[player] = true;
caps.connected = true;
caps.id = uint64_t(player);
if (xcaps.Type == XINPUT_DEVTYPE_GAMEPAD)
{
static_assert(Capabilities::GAMEPAD == XINPUT_DEVSUBTYPE_GAMEPAD, "xinput.h mismatch");
#if (_WIN32_WINNT >= _WIN32_WINNT_WIN8)
static_assert(XINPUT_DEVSUBTYPE_WHEEL == Capabilities::WHEEL, "xinput.h mismatch");
static_assert(XINPUT_DEVSUBTYPE_ARCADE_STICK == Capabilities::ARCADE_STICK, "xinput.h mismatch");
static_assert(XINPUT_DEVSUBTYPE_FLIGHT_STICK == Capabilities::FLIGHT_STICK, "xinput.h mismatch");
static_assert(XINPUT_DEVSUBTYPE_DANCE_PAD == Capabilities::DANCE_PAD, "xinput.h mismatch");
static_assert(XINPUT_DEVSUBTYPE_GUITAR == Capabilities::GUITAR, "xinput.h mismatch");
static_assert(XINPUT_DEVSUBTYPE_GUITAR_ALTERNATE == Capabilities::GUITAR_ALTERNATE, "xinput.h mismatch");
static_assert(XINPUT_DEVSUBTYPE_DRUM_KIT == Capabilities::DRUM_KIT, "xinput.h mismatch");
static_assert(XINPUT_DEVSUBTYPE_GUITAR_BASS == Capabilities::GUITAR_BASS, "xinput.h mismatch");
static_assert(XINPUT_DEVSUBTYPE_ARCADE_PAD == Capabilities::ARCADE_PAD, "xinput.h mismatch");
#endif
caps.gamepadType = Capabilities::Type(xcaps.SubType);
}
// Hard-coded VID/PID
caps.vid = 0x045E;
#if (_WIN32_WINNT >= _WIN32_WINNT_WIN8)
caps.pid = (xcaps.Flags & XINPUT_CAPS_WIRELESS) ? 0x0719 : 0;
#else
caps.pid = 0;
#endif
return;
}
}
memset(&caps, 0, sizeof(Capabilities));
}
bool SetVibration(int player, float leftMotor, float rightMotor, float leftTrigger, float rightTrigger) noexcept
{
if (player == c_MostRecent)
player = GetMostRecent();
ULONGLONG time = GetTickCount64();
if (ThrottleRetry(player, time))
{
return false;
}
// XInput does not provide a way to set the left/right trigger impulse motors on the Xbox One Controller,
// and these motors are not present on the Xbox 360 Common Controller
UNREFERENCED_PARAMETER(leftTrigger);
UNREFERENCED_PARAMETER(rightTrigger);
#if (_WIN32_WINNT < _WIN32_WINNT_WIN8)
mLeftMotor[player] = leftMotor;
mRightMotor[player] = rightMotor;
if (mSuspended)
return mConnected[player];
#endif
XINPUT_VIBRATION xvibration;
xvibration.wLeftMotorSpeed = WORD(leftMotor * 0xFFFF);
xvibration.wRightMotorSpeed = WORD(rightMotor * 0xFFFF);
DWORD result = XInputSetState(DWORD(player), &xvibration);
if (result == ERROR_DEVICE_NOT_CONNECTED)
{
ClearSlot(player, time);
return false;
}
else
{
if (!mConnected[player])
mLastReadTime[player] = time;
mConnected[player] = true;
return (result == ERROR_SUCCESS);
}
}
void Suspend() noexcept
{
#if (_WIN32_WINNT >= _WIN32_WINNT_WIN10)
// XInput focus is handled automatically on Windows 10
#elif (_WIN32_WINNT >= _WIN32_WINNT_WIN8)
XInputEnable(FALSE);
#else
// For XInput 9.1.0, we have to emulate the behavior of XInputEnable( FALSE )
if (!mSuspended)
{
for (size_t j = 0; j < XUSER_MAX_COUNT; ++j)
{
if (mConnected[j])
{
XINPUT_VIBRATION xvibration;
xvibration.wLeftMotorSpeed = xvibration.wRightMotorSpeed = 0;
(void)XInputSetState(DWORD(j), &xvibration);
}
}
mSuspended = true;
}
#endif
}
void Resume() noexcept
{
#if (_WIN32_WINNT >= _WIN32_WINNT_WIN10)
// XInput focus is handled automatically on Windows 10
#elif (_WIN32_WINNT >= _WIN32_WINNT_WIN8)
XInputEnable(TRUE);
#else
// For XInput 9.1.0, we have to emulate the behavior of XInputEnable( TRUE )
if (mSuspended)
{
ULONGLONG time = GetTickCount64();
for (int j = 0; j < XUSER_MAX_COUNT; ++j)
{
if (mConnected[j])
{
XINPUT_VIBRATION xvibration;
xvibration.wLeftMotorSpeed = WORD(mLeftMotor[j] * 0xFFFF);
xvibration.wRightMotorSpeed = WORD(mRightMotor[j] * 0xFFFF);
DWORD result = XInputSetState(DWORD(j), &xvibration);
if (result == ERROR_DEVICE_NOT_CONNECTED)
{
ClearSlot(j, time);
}
}
}
mSuspended = false;
}
#endif
}
GamePad* mOwner;
static GamePad::Impl* s_gamePad;
private:
bool mConnected[XUSER_MAX_COUNT];
ULONGLONG mLastReadTime[XUSER_MAX_COUNT];
#if (_WIN32_WINNT < _WIN32_WINNT_WIN8)
// Variables for emulating XInputEnable on XInput 9.1.0
float mLeftMotor[XUSER_MAX_COUNT];
float mRightMotor[XUSER_MAX_COUNT];
bool mSuspended;
#endif
bool ThrottleRetry(int player, ULONGLONG time)
{
// This function minimizes a potential performance issue with XInput on Windows when
// checking a disconnected controller slot which requires device enumeration.
// This throttling keeps checks for newly connected gamepads to about once a second
if ((player < 0) || (player >= XUSER_MAX_COUNT))
return true;
if (mConnected[player])
return false;
for (int j = 0; j < XUSER_MAX_COUNT; ++j)
{
if (!mConnected[j])
{
LONGLONG delta = LONGLONG(time) - LONGLONG(mLastReadTime[j]);
LONGLONG interval = 1000;
if (j != player)
interval /= 4;
if ((delta >= 0) && (delta < interval))
return true;
}
}
return false;
}
void ClearSlot(int player, ULONGLONG time)
{
mConnected[player] = false;
mLastReadTime[player] = time;
#if (_WIN32_WINNT < _WIN32_WINNT_WIN8)
mLeftMotor[player] = mRightMotor[player] = 0.f;
#endif
}
int GetMostRecent()
{
int player = -1;
ULONGLONG time = 0;
for (size_t j = 0; j < XUSER_MAX_COUNT; ++j)
{
if (mConnected[j] && (mLastReadTime[j] > time))
{
time = mLastReadTime[j];
player = static_cast<int>(j);
}
}
return player;
}
};
GamePad::Impl* GamePad::Impl::s_gamePad = nullptr;
#endif
#pragma warning( disable : 4355 )
// Public constructor.
GamePad::GamePad() noexcept(false)
: pImpl(std::make_unique<Impl>(this))
{
}
// Move constructor.
GamePad::GamePad(GamePad&& moveFrom) noexcept
: pImpl(std::move(moveFrom.pImpl))
{
pImpl->mOwner = this;
}
// Move assignment.
GamePad& GamePad::operator= (GamePad&& moveFrom) noexcept
{
pImpl = std::move(moveFrom.pImpl);
pImpl->mOwner = this;
return *this;
}
// Public destructor.
GamePad::~GamePad()
{
}
GamePad::State GamePad::GetState(int player, DeadZone deadZoneMode)
{
State state;
pImpl->GetState(player, state, deadZoneMode);
return state;
}
GamePad::Capabilities GamePad::GetCapabilities(int player)
{
Capabilities caps;
pImpl->GetCapabilities(player, caps);
return caps;
}
bool GamePad::SetVibration(int player, float leftMotor, float rightMotor, float leftTrigger, float rightTrigger) noexcept
{
return pImpl->SetVibration(player, leftMotor, rightMotor, leftTrigger, rightTrigger);
}
void GamePad::Suspend() noexcept
{
pImpl->Suspend();
}
void GamePad::Resume() noexcept
{
pImpl->Resume();
}
#if defined(WINAPI_FAMILY) && (WINAPI_FAMILY == WINAPI_FAMILY_GAMES)
void GamePad::RegisterEvents(HANDLE ctrlChanged) noexcept
{
pImpl->mCtrlChanged = (!ctrlChanged) ? INVALID_HANDLE_VALUE : ctrlChanged;
}
void GamePad::GetDevice(int player, _Outptr_ IGameInputDevice** device) noexcept
{
pImpl->GetDevice(player, device);
}
#elif ((_WIN32_WINNT >= _WIN32_WINNT_WIN10) && !defined(_GAMING_DESKTOP)) || defined(_XBOX_ONE)
void GamePad::RegisterEvents(HANDLE ctrlChanged, HANDLE userChanged) noexcept
{
pImpl->mCtrlChanged = (!ctrlChanged) ? INVALID_HANDLE_VALUE : ctrlChanged;
pImpl->mUserChanged = (!userChanged) ? INVALID_HANDLE_VALUE : userChanged;
}
#endif
GamePad& GamePad::Get()
{
if (!Impl::s_gamePad || !Impl::s_gamePad->mOwner)
throw std::exception("GamePad is a singleton");
return *Impl::s_gamePad->mOwner;
}
//======================================================================================
// ButtonStateTracker
//======================================================================================
#define UPDATE_BUTTON_STATE(field) field = static_cast<ButtonState>( ( !!state.buttons.field ) | ( ( !!state.buttons.field ^ !!lastState.buttons.field ) << 1 ) );
void GamePad::ButtonStateTracker::Update(const GamePad::State& state) noexcept
{
UPDATE_BUTTON_STATE(a)
assert((!state.buttons.a && !lastState.buttons.a) == (a == UP));
assert((state.buttons.a && lastState.buttons.a) == (a == HELD));
assert((!state.buttons.a && lastState.buttons.a) == (a == RELEASED));
assert((state.buttons.a && !lastState.buttons.a) == (a == PRESSED));
UPDATE_BUTTON_STATE(b)
UPDATE_BUTTON_STATE(x)
UPDATE_BUTTON_STATE(y)
UPDATE_BUTTON_STATE(leftStick)
UPDATE_BUTTON_STATE(rightStick)
UPDATE_BUTTON_STATE(leftShoulder)
UPDATE_BUTTON_STATE(rightShoulder)
UPDATE_BUTTON_STATE(back)
UPDATE_BUTTON_STATE(start)
dpadUp = static_cast<ButtonState>((!!state.dpad.up) | ((!!state.dpad.up ^ !!lastState.dpad.up) << 1));
dpadDown = static_cast<ButtonState>((!!state.dpad.down) | ((!!state.dpad.down ^ !!lastState.dpad.down) << 1));
dpadLeft = static_cast<ButtonState>((!!state.dpad.left) | ((!!state.dpad.left ^ !!lastState.dpad.left) << 1));
dpadRight = static_cast<ButtonState>((!!state.dpad.right) | ((!!state.dpad.right ^ !!lastState.dpad.right) << 1));
assert((!state.dpad.up && !lastState.dpad.up) == (dpadUp == UP));
assert((state.dpad.up && lastState.dpad.up) == (dpadUp == HELD));
assert((!state.dpad.up && lastState.dpad.up) == (dpadUp == RELEASED));
assert((state.dpad.up && !lastState.dpad.up) == (dpadUp == PRESSED));
// Handle 'threshold' tests which emulate buttons
bool threshold = state.IsLeftThumbStickUp();
leftStickUp = static_cast<ButtonState>((!!threshold) | ((!!threshold ^ !!lastState.IsLeftThumbStickUp()) << 1));
threshold = state.IsLeftThumbStickDown();
leftStickDown = static_cast<ButtonState>((!!threshold) | ((!!threshold ^ !!lastState.IsLeftThumbStickDown()) << 1));
threshold = state.IsLeftThumbStickLeft();
leftStickLeft = static_cast<ButtonState>((!!threshold) | ((!!threshold ^ !!lastState.IsLeftThumbStickLeft()) << 1));
threshold = state.IsLeftThumbStickRight();
leftStickRight = static_cast<ButtonState>((!!threshold) | ((!!threshold ^ !!lastState.IsLeftThumbStickRight()) << 1));
threshold = state.IsRightThumbStickUp();
rightStickUp = static_cast<ButtonState>((!!threshold) | ((!!threshold ^ !!lastState.IsRightThumbStickUp()) << 1));
threshold = state.IsRightThumbStickDown();
rightStickDown = static_cast<ButtonState>((!!threshold) | ((!!threshold ^ !!lastState.IsRightThumbStickDown()) << 1));
threshold = state.IsRightThumbStickLeft();
rightStickLeft = static_cast<ButtonState>((!!threshold) | ((!!threshold ^ !!lastState.IsRightThumbStickLeft()) << 1));
threshold = state.IsRightThumbStickRight();
rightStickRight = static_cast<ButtonState>((!!threshold) | ((!!threshold ^ !!lastState.IsRightThumbStickRight()) << 1));
threshold = state.IsLeftTriggerPressed();
leftTrigger = static_cast<ButtonState>((!!threshold) | ((!!threshold ^ !!lastState.IsLeftTriggerPressed()) << 1));
threshold = state.IsRightTriggerPressed();
rightTrigger = static_cast<ButtonState>((!!threshold) | ((!!threshold ^ !!lastState.IsRightTriggerPressed()) << 1));
lastState = state;
}
#undef UPDATE_BUTTON_STATE
void GamePad::ButtonStateTracker::Reset() noexcept
{
memset(this, 0, sizeof(ButtonStateTracker));
}