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Added multi-input support and controller assignment at any port

This commit is contained in:
David Marcec 2018-10-18 14:11:15 +11:00 committed by Zach Hilman
parent f02b125ac8
commit beab38601b
2 changed files with 181 additions and 122 deletions

View File

@ -164,6 +164,57 @@ void Controller_NPad::OnLoadInputDevices() {
void Controller_NPad::OnRelease() {} void Controller_NPad::OnRelease() {}
void Controller_NPad::RequestPadStateUpdate(u32 npad_id) {
const auto controller_idx = NPadIdToIndex(npad_id);
const auto controller_type = connected_controllers[controller_idx].type;
if (!connected_controllers[controller_idx].is_connected) {
return;
}
auto& pad_state = npad_pad_states[controller_idx].pad_states;
auto& lstick_entry = npad_pad_states[controller_idx].l_stick;
auto& rstick_entry = npad_pad_states[controller_idx].r_stick;
using namespace Settings::NativeButton;
pad_state.a.Assign(buttons[A - BUTTON_HID_BEGIN]->GetStatus());
pad_state.b.Assign(buttons[B - BUTTON_HID_BEGIN]->GetStatus());
pad_state.x.Assign(buttons[X - BUTTON_HID_BEGIN]->GetStatus());
pad_state.y.Assign(buttons[Y - BUTTON_HID_BEGIN]->GetStatus());
pad_state.l_stick.Assign(buttons[LStick - BUTTON_HID_BEGIN]->GetStatus());
pad_state.r_stick.Assign(buttons[RStick - BUTTON_HID_BEGIN]->GetStatus());
pad_state.l.Assign(buttons[L - BUTTON_HID_BEGIN]->GetStatus());
pad_state.r.Assign(buttons[R - BUTTON_HID_BEGIN]->GetStatus());
pad_state.zl.Assign(buttons[ZL - BUTTON_HID_BEGIN]->GetStatus());
pad_state.zr.Assign(buttons[ZR - BUTTON_HID_BEGIN]->GetStatus());
pad_state.plus.Assign(buttons[Plus - BUTTON_HID_BEGIN]->GetStatus());
pad_state.minus.Assign(buttons[Minus - BUTTON_HID_BEGIN]->GetStatus());
pad_state.d_left.Assign(buttons[DLeft - BUTTON_HID_BEGIN]->GetStatus());
pad_state.d_up.Assign(buttons[DUp - BUTTON_HID_BEGIN]->GetStatus());
pad_state.d_right.Assign(buttons[DRight - BUTTON_HID_BEGIN]->GetStatus());
pad_state.d_down.Assign(buttons[DDown - BUTTON_HID_BEGIN]->GetStatus());
pad_state.l_stick_left.Assign(buttons[LStick_Left - BUTTON_HID_BEGIN]->GetStatus());
pad_state.l_stick_up.Assign(buttons[LStick_Up - BUTTON_HID_BEGIN]->GetStatus());
pad_state.l_stick_right.Assign(buttons[LStick_Right - BUTTON_HID_BEGIN]->GetStatus());
pad_state.l_stick_down.Assign(buttons[LStick_Down - BUTTON_HID_BEGIN]->GetStatus());
pad_state.r_stick_left.Assign(buttons[RStick_Left - BUTTON_HID_BEGIN]->GetStatus());
pad_state.r_stick_up.Assign(buttons[RStick_Up - BUTTON_HID_BEGIN]->GetStatus());
pad_state.r_stick_right.Assign(buttons[RStick_Right - BUTTON_HID_BEGIN]->GetStatus());
pad_state.r_stick_down.Assign(buttons[RStick_Down - BUTTON_HID_BEGIN]->GetStatus());
pad_state.sl.Assign(buttons[SL - BUTTON_HID_BEGIN]->GetStatus());
pad_state.sr.Assign(buttons[SR - BUTTON_HID_BEGIN]->GetStatus());
const auto [stick_l_x_f, stick_l_y_f] =
sticks[static_cast<std::size_t>(JoystickId::Joystick_Left)]->GetStatus();
const auto [stick_r_x_f, stick_r_y_f] =
sticks[static_cast<std::size_t>(JoystickId::Joystick_Right)]->GetStatus();
lstick_entry.x = static_cast<s32>(stick_l_x_f * HID_JOYSTICK_MAX);
lstick_entry.y = static_cast<s32>(stick_l_y_f * HID_JOYSTICK_MAX);
rstick_entry.x = static_cast<s32>(stick_r_x_f * HID_JOYSTICK_MAX);
rstick_entry.y = static_cast<s32>(stick_r_y_f * HID_JOYSTICK_MAX);
}
void Controller_NPad::OnUpdate(u8* data, std::size_t data_len) { void Controller_NPad::OnUpdate(u8* data, std::size_t data_len) {
if (!IsControllerActivated()) if (!IsControllerActivated())
return; return;
@ -199,97 +250,9 @@ void Controller_NPad::OnUpdate(u8* data, std::size_t data_len) {
if (controller_type == NPadControllerType::None || !connected_controllers[i].is_connected) { if (controller_type == NPadControllerType::None || !connected_controllers[i].is_connected) {
continue; continue;
} }
const u32 npad_index = static_cast<u32>(i);
// Pad states RequestPadStateUpdate(npad_index);
ControllerPadState pad_state{}; auto& pad_state = npad_pad_states[npad_index];
using namespace Settings::NativeButton;
pad_state.a.Assign(buttons[A - BUTTON_HID_BEGIN]->GetStatus());
pad_state.b.Assign(buttons[B - BUTTON_HID_BEGIN]->GetStatus());
pad_state.x.Assign(buttons[X - BUTTON_HID_BEGIN]->GetStatus());
pad_state.y.Assign(buttons[Y - BUTTON_HID_BEGIN]->GetStatus());
pad_state.l_stick.Assign(buttons[LStick - BUTTON_HID_BEGIN]->GetStatus());
pad_state.r_stick.Assign(buttons[RStick - BUTTON_HID_BEGIN]->GetStatus());
pad_state.l.Assign(buttons[L - BUTTON_HID_BEGIN]->GetStatus());
pad_state.r.Assign(buttons[R - BUTTON_HID_BEGIN]->GetStatus());
pad_state.zl.Assign(buttons[ZL - BUTTON_HID_BEGIN]->GetStatus());
pad_state.zr.Assign(buttons[ZR - BUTTON_HID_BEGIN]->GetStatus());
pad_state.plus.Assign(buttons[Plus - BUTTON_HID_BEGIN]->GetStatus());
pad_state.minus.Assign(buttons[Minus - BUTTON_HID_BEGIN]->GetStatus());
pad_state.d_left.Assign(buttons[DLeft - BUTTON_HID_BEGIN]->GetStatus());
pad_state.d_up.Assign(buttons[DUp - BUTTON_HID_BEGIN]->GetStatus());
pad_state.d_right.Assign(buttons[DRight - BUTTON_HID_BEGIN]->GetStatus());
pad_state.d_down.Assign(buttons[DDown - BUTTON_HID_BEGIN]->GetStatus());
pad_state.l_stick_left.Assign(buttons[LStick_Left - BUTTON_HID_BEGIN]->GetStatus());
pad_state.l_stick_up.Assign(buttons[LStick_Up - BUTTON_HID_BEGIN]->GetStatus());
pad_state.l_stick_right.Assign(buttons[LStick_Right - BUTTON_HID_BEGIN]->GetStatus());
pad_state.l_stick_down.Assign(buttons[LStick_Down - BUTTON_HID_BEGIN]->GetStatus());
pad_state.r_stick_left.Assign(buttons[RStick_Left - BUTTON_HID_BEGIN]->GetStatus());
pad_state.r_stick_up.Assign(buttons[RStick_Up - BUTTON_HID_BEGIN]->GetStatus());
pad_state.r_stick_right.Assign(buttons[RStick_Right - BUTTON_HID_BEGIN]->GetStatus());
pad_state.r_stick_down.Assign(buttons[RStick_Down - BUTTON_HID_BEGIN]->GetStatus());
pad_state.sl.Assign(buttons[SL - BUTTON_HID_BEGIN]->GetStatus());
pad_state.sr.Assign(buttons[SR - BUTTON_HID_BEGIN]->GetStatus());
AnalogPosition lstick_entry{};
AnalogPosition rstick_entry{};
const auto [stick_l_x_f, stick_l_y_f] =
sticks[static_cast<std::size_t>(JoystickId::Joystick_Left)]->GetStatus();
const auto [stick_r_x_f, stick_r_y_f] =
sticks[static_cast<std::size_t>(JoystickId::Joystick_Right)]->GetStatus();
lstick_entry.x = static_cast<s32>(stick_l_x_f * HID_JOYSTICK_MAX);
lstick_entry.y = static_cast<s32>(stick_l_y_f * HID_JOYSTICK_MAX);
rstick_entry.x = static_cast<s32>(stick_r_x_f * HID_JOYSTICK_MAX);
rstick_entry.y = static_cast<s32>(stick_r_y_f * HID_JOYSTICK_MAX);
if (controller_type == NPadControllerType::JoyLeft ||
controller_type == NPadControllerType::JoyRight) {
if (npad.properties.is_horizontal) {
ControllerPadState state{};
AnalogPosition temp_lstick_entry{};
AnalogPosition temp_rstick_entry{};
if (controller_type == NPadControllerType::JoyLeft) {
state.d_down.Assign(pad_state.d_left.Value());
state.d_left.Assign(pad_state.d_up.Value());
state.d_right.Assign(pad_state.d_down.Value());
state.d_up.Assign(pad_state.d_right.Value());
state.l.Assign(pad_state.l.Value() | pad_state.sl.Value());
state.r.Assign(pad_state.r.Value() | pad_state.sr.Value());
state.zl.Assign(pad_state.zl.Value());
state.plus.Assign(pad_state.minus.Value());
temp_lstick_entry = lstick_entry;
temp_rstick_entry = rstick_entry;
std::swap(temp_lstick_entry.x, temp_lstick_entry.y);
std::swap(temp_rstick_entry.x, temp_rstick_entry.y);
temp_lstick_entry.y *= -1;
} else if (controller_type == NPadControllerType::JoyRight) {
state.x.Assign(pad_state.a.Value());
state.a.Assign(pad_state.b.Value());
state.b.Assign(pad_state.y.Value());
state.y.Assign(pad_state.b.Value());
state.l.Assign(pad_state.l.Value() | pad_state.sl.Value());
state.r.Assign(pad_state.r.Value() | pad_state.sr.Value());
state.zr.Assign(pad_state.zr.Value());
state.plus.Assign(pad_state.plus.Value());
temp_lstick_entry = lstick_entry;
temp_rstick_entry = rstick_entry;
std::swap(temp_lstick_entry.x, temp_lstick_entry.y);
std::swap(temp_rstick_entry.x, temp_rstick_entry.y);
temp_rstick_entry.x *= -1;
}
pad_state.raw = state.raw;
lstick_entry = temp_lstick_entry;
rstick_entry = temp_rstick_entry;
}
}
auto& main_controller = auto& main_controller =
npad.main_controller_states.npad[npad.main_controller_states.common.last_entry_index]; npad.main_controller_states.npad[npad.main_controller_states.common.last_entry_index];
@ -304,7 +267,45 @@ void Controller_NPad::OnUpdate(u8* data, std::size_t data_len) {
auto& libnx_entry = npad.libnx.npad[npad.libnx.common.last_entry_index]; auto& libnx_entry = npad.libnx.npad[npad.libnx.common.last_entry_index];
if (hold_type == NpadHoldType::Horizontal) { if (hold_type == NpadHoldType::Horizontal) {
// TODO(ogniK): Remap buttons for different orientations ControllerPadState state{};
AnalogPosition temp_lstick_entry{};
AnalogPosition temp_rstick_entry{};
if (controller_type == NPadControllerType::JoyLeft) {
state.d_down.Assign(pad_state.pad_states.d_left.Value());
state.d_left.Assign(pad_state.pad_states.d_up.Value());
state.d_right.Assign(pad_state.pad_states.d_down.Value());
state.d_up.Assign(pad_state.pad_states.d_right.Value());
state.l.Assign(pad_state.pad_states.l.Value() | pad_state.pad_states.sl.Value());
state.r.Assign(pad_state.pad_states.r.Value() | pad_state.pad_states.sr.Value());
state.zl.Assign(pad_state.pad_states.zl.Value());
state.plus.Assign(pad_state.pad_states.minus.Value());
temp_lstick_entry = pad_state.l_stick;
temp_rstick_entry = pad_state.r_stick;
std::swap(temp_lstick_entry.x, temp_lstick_entry.y);
std::swap(temp_rstick_entry.x, temp_rstick_entry.y);
temp_lstick_entry.y *= -1;
} else if (controller_type == NPadControllerType::JoyRight) {
state.x.Assign(pad_state.pad_states.a.Value());
state.a.Assign(pad_state.pad_states.b.Value());
state.b.Assign(pad_state.pad_states.y.Value());
state.y.Assign(pad_state.pad_states.b.Value());
state.l.Assign(pad_state.pad_states.l.Value() | pad_state.pad_states.sl.Value());
state.r.Assign(pad_state.pad_states.r.Value() | pad_state.pad_states.sr.Value());
state.zr.Assign(pad_state.pad_states.zr.Value());
state.plus.Assign(pad_state.pad_states.plus.Value());
temp_lstick_entry = pad_state.l_stick;
temp_rstick_entry = pad_state.r_stick;
std::swap(temp_lstick_entry.x, temp_lstick_entry.y);
std::swap(temp_rstick_entry.x, temp_rstick_entry.y);
temp_rstick_entry.x *= -1;
}
pad_state.pad_states.raw = state.raw;
pad_state.l_stick = temp_lstick_entry;
pad_state.r_stick = temp_rstick_entry;
} }
libnx_entry.connection_status.raw = 0; libnx_entry.connection_status.raw = 0;
@ -316,9 +317,9 @@ void Controller_NPad::OnUpdate(u8* data, std::size_t data_len) {
handheld_entry.connection_status.IsRightJoyConnected.Assign(1); handheld_entry.connection_status.IsRightJoyConnected.Assign(1);
handheld_entry.connection_status.IsLeftJoyWired.Assign(1); handheld_entry.connection_status.IsLeftJoyWired.Assign(1);
handheld_entry.connection_status.IsRightJoyWired.Assign(1); handheld_entry.connection_status.IsRightJoyWired.Assign(1);
handheld_entry.pad_states.raw = pad_state.raw; handheld_entry.pad.pad_states.raw = pad_state.pad_states.raw;
handheld_entry.l_stick = lstick_entry; handheld_entry.pad.l_stick = pad_state.l_stick;
handheld_entry.r_stick = rstick_entry; handheld_entry.pad.r_stick = pad_state.r_stick;
break; break;
case NPadControllerType::JoyDual: case NPadControllerType::JoyDual:
dual_entry.connection_status.raw = 0; dual_entry.connection_status.raw = 0;
@ -339,17 +340,17 @@ void Controller_NPad::OnUpdate(u8* data, std::size_t data_len) {
left_entry.connection_status.raw = 0; left_entry.connection_status.raw = 0;
left_entry.connection_status.IsConnected.Assign(1); left_entry.connection_status.IsConnected.Assign(1);
left_entry.pad_states.raw = pad_state.raw; left_entry.pad.pad_states.raw = pad_state.pad_states.raw;
left_entry.l_stick = lstick_entry; left_entry.pad.l_stick = pad_state.l_stick;
left_entry.r_stick = rstick_entry; left_entry.pad.r_stick = pad_state.r_stick;
break; break;
case NPadControllerType::JoyRight: case NPadControllerType::JoyRight:
right_entry.connection_status.raw = 0; right_entry.connection_status.raw = 0;
right_entry.connection_status.IsConnected.Assign(1); right_entry.connection_status.IsConnected.Assign(1);
right_entry.pad_states.raw = pad_state.raw; right_entry.pad.pad_states.raw = pad_state.pad_states.raw;
right_entry.l_stick = lstick_entry; right_entry.pad.l_stick = pad_state.l_stick;
right_entry.r_stick = rstick_entry; right_entry.pad.r_stick = pad_state.r_stick;
break; break;
case NPadControllerType::Pokeball: case NPadControllerType::Pokeball:
pokeball_entry.connection_status.raw = 0; pokeball_entry.connection_status.raw = 0;
@ -357,26 +358,26 @@ void Controller_NPad::OnUpdate(u8* data, std::size_t data_len) {
pokeball_entry.connection_status.IsConnected.Assign(1); pokeball_entry.connection_status.IsConnected.Assign(1);
pokeball_entry.connection_status.IsWired.Assign(1); pokeball_entry.connection_status.IsWired.Assign(1);
pokeball_entry.pad_states.raw = pad_state.raw; pokeball_entry.pad.pad_states.raw = pad_state.pad_states.raw;
pokeball_entry.l_stick = lstick_entry; pokeball_entry.pad.l_stick = pad_state.l_stick;
pokeball_entry.r_stick = rstick_entry; pokeball_entry.pad.r_stick = pad_state.r_stick;
break; break;
case NPadControllerType::ProController: case NPadControllerType::ProController:
main_controller.connection_status.raw = 0; main_controller.connection_status.raw = 0;
main_controller.connection_status.IsConnected.Assign(1); main_controller.connection_status.IsConnected.Assign(1);
main_controller.connection_status.IsWired.Assign(1); main_controller.connection_status.IsWired.Assign(1);
main_controller.pad_states.raw = pad_state.raw; main_controller.pad.pad_states.raw = pad_state.pad_states.raw;
main_controller.l_stick = lstick_entry; main_controller.pad.l_stick = pad_state.l_stick;
main_controller.r_stick = rstick_entry; main_controller.pad.r_stick = pad_state.r_stick;
break; break;
} }
// LibNX exclusively uses this section, so we always update it since LibNX doesn't activate // LibNX exclusively uses this section, so we always update it since LibNX doesn't activate
// any controllers. // any controllers.
libnx_entry.pad_states.raw = pad_state.raw; libnx_entry.pad.pad_states.raw = pad_state.pad_states.raw;
libnx_entry.l_stick = lstick_entry; libnx_entry.pad.l_stick = pad_state.l_stick;
libnx_entry.r_stick = rstick_entry; libnx_entry.pad.r_stick = pad_state.r_stick;
} }
std::memcpy(data + NPAD_OFFSET, shared_memory_entries.data(), std::memcpy(data + NPAD_OFFSET, shared_memory_entries.data(),
shared_memory_entries.size() * sizeof(NPadEntry)); shared_memory_entries.size() * sizeof(NPadEntry));
@ -450,15 +451,7 @@ void Controller_NPad::VibrateController(const std::vector<u32>& controller_ids,
return; return;
} }
for (std::size_t i = 0; i < controller_ids.size(); i++) { for (std::size_t i = 0; i < controller_ids.size(); i++) {
std::size_t controller_pos = i; std::size_t controller_pos = NPadIdToIndex(static_cast<u32>(i));
// Handheld controller conversion
if (controller_pos == NPAD_HANDHELD) {
controller_pos = 8;
}
// Unknown controller conversion
if (controller_pos == NPAD_UNKNOWN) {
controller_pos = 9;
}
if (connected_controllers[controller_pos].is_connected) { if (connected_controllers[controller_pos].is_connected) {
// TODO(ogniK): Vibrate the physical controller // TODO(ogniK): Vibrate the physical controller
} }
@ -477,6 +470,51 @@ Kernel::SharedPtr<Kernel::Event> Controller_NPad::GetStyleSetChangedEvent() cons
Controller_NPad::Vibration Controller_NPad::GetLastVibration() const { Controller_NPad::Vibration Controller_NPad::GetLastVibration() const {
return last_processed_vibration; return last_processed_vibration;
} }
std::size_t Controller_NPad::NPadIdToIndex(u32 npad_id) {
switch (npad_id) {
case 0:
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
return static_cast<std::size_t>(npad_id);
case 8:
case 32:
return 8;
case 9:
case 16:
return 9;
default:
UNIMPLEMENTED_MSG("Unknown npad id {}", npad_id);
return 0;
}
}
u32 Controller_NPad::IndexToNPad(std::size_t index) {
switch (index) {
case 0:
case 1:
case 2:
case 3:
case 4:
case 5:
case 6:
case 7:
return static_cast<u32>(index);
case 8:
return 32;
case 9:
return 16;
default:
UNIMPLEMENTED_MSG("Unknown npad index {}", index);
return 0;
};
}
void Controller_NPad::AddNewController(NPadControllerType controller) { void Controller_NPad::AddNewController(NPadControllerType controller) {
if (controller == NPadControllerType::Handheld) { if (controller == NPadControllerType::Handheld) {
connected_controllers[8] = {controller, true}; connected_controllers[8] = {controller, true};
@ -495,6 +533,17 @@ void Controller_NPad::AddNewController(NPadControllerType controller) {
InitNewlyAddedControler(controller_id); InitNewlyAddedControler(controller_id);
} }
void Controller_NPad::AddNewControllerAt(NPadControllerType controller, u32 npad_id) {
if (controller == NPadControllerType::Handheld) {
connected_controllers[8] = {controller, true};
InitNewlyAddedControler(8);
return;
}
const size_t controller_id = static_cast<std::size_t>(npad_id);
connected_controllers[controller_id] = {controller, true};
InitNewlyAddedControler(controller_id);
}
void Controller_NPad::ConnectNPad(u32 npad_id) { void Controller_NPad::ConnectNPad(u32 npad_id) {
connected_controllers[NPadIdToIndex(npad_id)].is_connected = true; connected_controllers[NPadIdToIndex(npad_id)].is_connected = true;
} }

View File

@ -107,6 +107,7 @@ public:
Vibration GetLastVibration() const; Vibration GetLastVibration() const;
void AddNewController(NPadControllerType controller); void AddNewController(NPadControllerType controller);
void AddNewControllerAt(NPadControllerType controller, u32 npad_id);
void ConnectNPad(u32 npad_id); void ConnectNPad(u32 npad_id);
void DisconnectNPad(u32 npad_id); void DisconnectNPad(u32 npad_id);
@ -189,12 +190,17 @@ private:
}; };
static_assert(sizeof(ConnectionState) == 4, "ConnectionState is an invalid size"); static_assert(sizeof(ConnectionState) == 4, "ConnectionState is an invalid size");
struct GenericStates { struct ControllerPad {
s64_le timestamp;
s64_le timestamp2;
ControllerPadState pad_states; ControllerPadState pad_states;
AnalogPosition l_stick; AnalogPosition l_stick;
AnalogPosition r_stick; AnalogPosition r_stick;
};
static_assert(sizeof(ControllerPad) == 0x18, "ControllerPad is an invalid size");
struct GenericStates {
s64_le timestamp;
s64_le timestamp2;
ControllerPad pad;
ConnectionState connection_status; ConnectionState connection_status;
}; };
static_assert(sizeof(GenericStates) == 0x30, "NPadGenericStates is an invalid size"); static_assert(sizeof(GenericStates) == 0x30, "NPadGenericStates is an invalid size");
@ -285,5 +291,9 @@ private:
void InitNewlyAddedControler(std::size_t controller_idx); void InitNewlyAddedControler(std::size_t controller_idx);
bool IsControllerSupported(NPadControllerType controller) const; bool IsControllerSupported(NPadControllerType controller) const;
NPadControllerType DecideBestController(NPadControllerType priority) const; NPadControllerType DecideBestController(NPadControllerType priority) const;
void RequestPadStateUpdate(u32 npad_id);
std::size_t NPadIdToIndex(u32 npad_id);
u32 IndexToNPad(std::size_t index);
std::array<ControllerPad, 10> npad_pad_states{};
}; };
} // namespace Service::HID } // namespace Service::HID