mirror of https://github.com/AxioDL/metaforce.git
171 lines
5.9 KiB
C++
171 lines
5.9 KiB
C++
#include "Runtime/Input/CDolphinController.hpp"
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namespace metaforce {
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CDolphinController::CDolphinController() {
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static bool sIsInitialized = false;
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if (!sIsInitialized) {
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PADSetSpec(5);
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PADInit();
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sIsInitialized = true;
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}
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}
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void CDolphinController::Poll() {
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ReadDevices();
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ProcessInputData();
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}
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void CDolphinController::SetMotorState(EIOPort port, EMotorState state) { x194_motorStates[u32(port)] = state; }
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float CDolphinController::GetAnalogStickMaxValue(EJoyAxis axis) {
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if (axis >= EJoyAxis::LeftX && axis <= EJoyAxis::LeftY) {
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return 72.f;
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}
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if (axis >= EJoyAxis::RightX && axis <= EJoyAxis::RightY) {
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return 59.f;
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}
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return 0.f;
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}
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void CDolphinController::ReadDevices() {
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std::array<PADStatus, 4> status{};
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PADRead(status.data());
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if (status[0].xa_err == PAD::ERR_NONE) {
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PADClamp(status.data());
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x4_status = status;
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} else {
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x4_status[0].xa_err = status[0].xa_err;
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x4_status[1].xa_err = status[1].xa_err;
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x4_status[2].xa_err = status[2].xa_err;
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x4_status[3].xa_err = status[3].xa_err;
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}
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for (u32 i = 0; i < 4; ++i) {
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if (x4_status[i].xa_err != PAD::ERR_NOT_READY) {
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if (x4_status[i].xa_err == PAD::ERR_NONE) {
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x34_gamepadStates[i].SetDeviceIsPresent(true);
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} else if (x4_status[i].xa_err == PAD::ERR_NO_CONTROLLER) {
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x1c8_invalidControllers |= PAD::CHAN0_BIT >> i;
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x34_gamepadStates[i].SetDeviceIsPresent(false);
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}
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}
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if (x1b4_controllerTypePollTime[i] == 0) {
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const auto type = SIProbe(i);
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if ((type & (SI::ERROR_NO_RESPONSE | SI::ERROR_UNKNOWN | SI::ERROR_BUSY)) == 0) {
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x1b4_controllerTypePollTime[i] = 0x3c;
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if (type == SI::GC_WIRELESS) {
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x1a4_controllerTypes[i] = skTypeWavebird;
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} else if (type == SI::GBA) { /* here for completeness, the GameCube adapter does not support GBA */
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x1a4_controllerTypes[i] = skTypeGBA;
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} else if (type == SI::GC_STANDARD) {
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x1a4_controllerTypes[i] = skTypeStandard;
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}
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} else {
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x1a4_controllerTypes[i] = skTypeUnknown;
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}
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} else {
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--x1b4_controllerTypePollTime[i];
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}
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}
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if (x1c8_invalidControllers != 0 && PADReset(x1c8_invalidControllers)) {
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x1c8_invalidControllers = 0;
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}
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}
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void CDolphinController::ProcessInputData() {
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for (u32 i = 0; i < 4; ++i) {
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if (!x34_gamepadStates[i].DeviceIsPresent()) {
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continue;
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}
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ProcessAxis(i, EJoyAxis::LeftX);
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ProcessAxis(i, EJoyAxis::LeftY);
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ProcessAxis(i, EJoyAxis::RightX);
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ProcessAxis(i, EJoyAxis::RightY);
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ProcessButtons(i);
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}
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}
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void CDolphinController::ProcessAxis(u32 controller, EJoyAxis axis) {
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const auto maxAxisValue = GetAnalogStickMaxValue(axis);
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auto& data = x34_gamepadStates[controller].GetAxis(axis);
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float axisValue = 0.f;
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if (axis == EJoyAxis::LeftX) {
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axisValue = x4_status[controller].x2_stickX;
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} else if (axis == EJoyAxis::LeftY) {
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axisValue = x4_status[controller].x3_stickY;
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} else if (axis == EJoyAxis::RightX) {
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axisValue = x4_status[controller].x4_substickX;
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} else if (axis == EJoyAxis::RightY) {
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axisValue = x4_status[controller].x5_substickY;
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}
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axisValue *= 1.f / maxAxisValue;
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float absolute = zeus::clamp(kAbsoluteMinimum, axisValue, kAbsoluteMaximum);
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float relativeValue = zeus::clamp(kRelativeMinimum, absolute - data.GetAbsoluteValue(), kRelativeMaximum);
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data.SetAbsoluteValue(absolute);
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data.SetRelativeValue(relativeValue);
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}
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static constexpr std::array<u16, size_t(EButton::MAX)> mButtonMapping{
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PAD::BUTTON_A, PAD::BUTTON_B, PAD::BUTTON_X, PAD::BUTTON_Y, PAD::BUTTON_START, PAD::TRIGGER_Z,
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PAD::BUTTON_UP, PAD::BUTTON_RIGHT, PAD::BUTTON_DOWN, PAD::BUTTON_LEFT, PAD::TRIGGER_L, PAD::TRIGGER_R,
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};
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void CDolphinController::ProcessButtons(u32 controller) {
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for (u32 i = 0; i < u32(EButton::MAX); ++i) {
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ProcessDigitalButton(controller, x34_gamepadStates[controller].GetButton(EButton(i)), mButtonMapping[i]);
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}
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ProcessAnalogButton(x4_status[controller].x6_triggerL,
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x34_gamepadStates[controller].GetAnalogButton(EAnalogButton::Left));
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ProcessAnalogButton(x4_status[controller].x7_triggerR,
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x34_gamepadStates[controller].GetAnalogButton(EAnalogButton::Right));
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}
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void CDolphinController::ProcessDigitalButton(u32 controller, CControllerButton& button, u16 mapping) {
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bool btnPressed = (x4_status[controller].x0_buttons & mapping) != 0;
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button.SetPressEvent(PADButtonDown(button.GetIsPressed(), btnPressed));
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button.SetReleaseEvent(PADButtonUp(button.GetIsPressed(), btnPressed));
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button.SetIsPressed(btnPressed);
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}
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void CDolphinController::ProcessAnalogButton(float value, CControllerAxis& axis) {
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float absolute = value * (1 / 150.f);
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if (value * (1 / 150.f) > kAbsoluteMaximum) {
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absolute = kAbsoluteMaximum;
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}
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float relative = absolute - axis.GetAbsoluteValue();
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if (relative > kRelativeMaximum) {
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relative = kRelativeMaximum;
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}
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axis.SetRelativeValue(relative);
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axis.SetAbsoluteValue(absolute);
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}
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bool CDolphinController::Initialize() {
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// GBAInit();
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memset(x4_status.data(), 0, sizeof(PADStatus) * x4_status.size());
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x34_gamepadStates[0].SetDeviceIsPresent(false);
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x194_motorStates[0] = EMotorState::StopHard;
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x1b4_controllerTypePollTime[0] = 0;
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x1a4_controllerTypes[0] = skTypeUnknown;
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x34_gamepadStates[1].SetDeviceIsPresent(false);
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x194_motorStates[1] = EMotorState::StopHard;
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x1b4_controllerTypePollTime[1] = 0;
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x1a4_controllerTypes[0] = skTypeUnknown;
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x34_gamepadStates[2].SetDeviceIsPresent(false);
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x194_motorStates[2] = EMotorState::StopHard;
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x1b4_controllerTypePollTime[2] = 0;
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x1a4_controllerTypes[0] = skTypeUnknown;
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x34_gamepadStates[3].SetDeviceIsPresent(false);
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x194_motorStates[3] = EMotorState::StopHard;
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x1b4_controllerTypePollTime[3] = 0;
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x1a4_controllerTypes[0] = skTypeUnknown;
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PADControlAllMotors(reinterpret_cast<const u32*>(x194_motorStates.data()));
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Poll();
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return true;
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}
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} // namespace metaforce
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