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DolphinQt: Add MotionPlus support to TAS input 

Will manually controlling both an accelerometer and a gyroscope at the
same time be reasonable to do? No idea. Was this easy to implement
thanks to the input override system? Yes.

Fixes https://bugs.dolphin-emu.org/issues/12443.
This commit is contained in:
JosJuice 2022-10-04 21:24:33 +02:00
parent 2f5d2465b9
commit 4d34f86121
12 changed files with 163 additions and 101 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

5
Source/Core/Core/HW/WiimoteEmu/EmuSubroutines.cpp
View File

@ -601,4 +601,9 @@ ExtensionNumber Wiimote::GetActiveExtensionNumber() const
return m_active_extension;
}
bool Wiimote::IsMotionPlusAttached() const
{
return m_is_motion_plus_attached;
}
} // namespace WiimoteEmu

22
Source/Core/Core/HW/WiimoteEmu/MotionPlus.cpp
View File

@ -530,20 +530,6 @@ void MotionPlus::Update(const DesiredExtensionState& target_state)
MotionPlus::DataFormat::Data MotionPlus::GetGyroscopeData(const Common::Vec3& angular_velocity)
{
// Conversion from radians to the calibrated values in degrees.
constexpr float VALUE_SCALE =
(CALIBRATION_SCALE_OFFSET >> (CALIBRATION_BITS - BITS_OF_PRECISION)) / float(MathUtil::TAU) *
360;
constexpr float SLOW_SCALE = VALUE_SCALE / CALIBRATION_SLOW_SCALE_DEGREES;
constexpr float FAST_SCALE = VALUE_SCALE / CALIBRATION_FAST_SCALE_DEGREES;
static_assert(ZERO_VALUE == 1 << (BITS_OF_PRECISION - 1),
"SLOW_MAX_RAD_PER_SEC assumes calibrated zero is at center of sensor values.");
constexpr u16 SENSOR_RANGE = 1 << (BITS_OF_PRECISION - 1);
constexpr float SLOW_MAX_RAD_PER_SEC = SENSOR_RANGE / SLOW_SCALE;
// Slow (high precision) scaling can be used if it fits in the sensor range.
const float yaw = angular_velocity.z;
const bool yaw_slow = (std::abs(yaw) < SLOW_MAX_RAD_PER_SEC);
@ -557,9 +543,11 @@ MotionPlus::DataFormat::Data MotionPlus::GetGyroscopeData(const Common::Vec3& an
const bool pitch_slow = (std::abs(pitch) < SLOW_MAX_RAD_PER_SEC);
const s32 pitch_value = pitch * (pitch_slow ? SLOW_SCALE : FAST_SCALE);
const u16 clamped_yaw_value = u16(std::clamp(yaw_value + ZERO_VALUE, 0, MAX_VALUE));
const u16 clamped_roll_value = u16(std::clamp(roll_value + ZERO_VALUE, 0, MAX_VALUE));
const u16 clamped_pitch_value = u16(std::clamp(pitch_value + ZERO_VALUE, 0, MAX_VALUE));
const u16 clamped_yaw_value = u16(std::llround(std::clamp(yaw_value + ZERO_VALUE, 0, MAX_VALUE)));
const u16 clamped_roll_value =
u16(std::llround(std::clamp(roll_value + ZERO_VALUE, 0, MAX_VALUE)));
const u16 clamped_pitch_value =
u16(std::llround(std::clamp(pitch_value + ZERO_VALUE, 0, MAX_VALUE)));
return MotionPlus::DataFormat::Data{
MotionPlus::DataFormat::GyroRawValue{MotionPlus::DataFormat::GyroType(

39
Source/Core/Core/HW/WiimoteEmu/MotionPlus.h
View File

@ -6,6 +6,7 @@
#include <array>
#include "Common/CommonTypes.h"
#include "Common/MathUtil.h"
#include "Common/Swap.h"
#include "Core/HW/WiimoteEmu/Dynamics.h"
#include "Core/HW/WiimoteEmu/ExtensionPort.h"
@ -116,6 +117,32 @@ public:
static constexpr u8 ACTIVE_DEVICE_ADDR = 0x52;
static constexpr u8 PASSTHROUGH_MODE_OFFSET = 0xfe;
static constexpr int CALIBRATION_BITS = 16;
static constexpr u16 CALIBRATION_ZERO = 1 << (CALIBRATION_BITS - 1);
// Values are similar to that of a typical real M+.
static constexpr u16 CALIBRATION_SCALE_OFFSET = 0x4400;
static constexpr u16 CALIBRATION_FAST_SCALE_DEGREES = 0x4b0;
static constexpr u16 CALIBRATION_SLOW_SCALE_DEGREES = 0x10e;
static constexpr int BITS_OF_PRECISION = 14;
static constexpr s32 ZERO_VALUE = CALIBRATION_ZERO >> (CALIBRATION_BITS - BITS_OF_PRECISION);
static constexpr s32 MAX_VALUE = (1 << BITS_OF_PRECISION) - 1;
static constexpr u16 VALUE_SCALE =
(CALIBRATION_SCALE_OFFSET >> (CALIBRATION_BITS - BITS_OF_PRECISION));
static constexpr float VALUE_SCALE_DEGREES = VALUE_SCALE / float(MathUtil::TAU) * 360;
static constexpr float SLOW_SCALE = VALUE_SCALE_DEGREES / CALIBRATION_SLOW_SCALE_DEGREES;
static constexpr float FAST_SCALE = VALUE_SCALE_DEGREES / CALIBRATION_FAST_SCALE_DEGREES;
static_assert(ZERO_VALUE == 1 << (BITS_OF_PRECISION - 1),
"SLOW_MAX_RAD_PER_SEC assumes calibrated zero is at center of sensor values.");
static constexpr u16 SENSOR_RANGE = 1 << (BITS_OF_PRECISION - 1);
static constexpr float SLOW_MAX_RAD_PER_SEC = SENSOR_RANGE / SLOW_SCALE;
static constexpr float FAST_MAX_RAD_PER_SEC = SENSOR_RANGE / FAST_SCALE;
MotionPlus();
void BuildDesiredExtensionState(DesiredExtensionState* target_state) override;
@ -214,18 +241,6 @@ private:
#pragma pack(pop)
static_assert(0x100 == sizeof(Register), "Wrong size");
static constexpr int CALIBRATION_BITS = 16;
static constexpr u16 CALIBRATION_ZERO = 1 << (CALIBRATION_BITS - 1);
// Values are similar to that of a typical real M+.
static constexpr u16 CALIBRATION_SCALE_OFFSET = 0x4400;
static constexpr u16 CALIBRATION_FAST_SCALE_DEGREES = 0x4b0;
static constexpr u16 CALIBRATION_SLOW_SCALE_DEGREES = 0x10e;
static constexpr int BITS_OF_PRECISION = 14;
static constexpr s32 ZERO_VALUE = CALIBRATION_ZERO >> (CALIBRATION_BITS - BITS_OF_PRECISION);
static constexpr s32 MAX_VALUE = (1 << BITS_OF_PRECISION) - 1;
void Activate();
void Deactivate();
void OnPassthroughModeWrite();

1
Source/Core/Core/HW/WiimoteEmu/WiimoteEmu.h
View File

@ -162,6 +162,7 @@ public:
// Active extension number is exposed for TAS.
ExtensionNumber GetActiveExtensionNumber() const;
bool IsMotionPlusAttached() const;
static Common::Vec3
OverrideVec3(const ControllerEmu::ControlGroup* control_group, Common::Vec3 vec,

2
Source/Core/DolphinQt/TAS/TASCheckBox.cpp
View File

@ -58,7 +58,7 @@ void TASCheckBox::mousePressEvent(QMouseEvent* event)
void TASCheckBox::OnUIValueChanged(int new_value)
{
m_state.OnUIValueChanged(static_cast<u16>(new_value));
m_state.OnUIValueChanged(new_value);
}
void TASCheckBox::ApplyControllerValueChange()

10
Source/Core/DolphinQt/TAS/TASControlState.cpp
View File

@ -7,7 +7,7 @@
#include "Common/CommonTypes.h"
u16 TASControlState::GetValue() const
int TASControlState::GetValue() const
{
const State ui_thread_state = m_ui_thread_state.load(std::memory_order_relaxed);
const State cpu_thread_state = m_cpu_thread_state.load(std::memory_order_relaxed);
@ -16,7 +16,7 @@ u16 TASControlState::GetValue() const
.value;
}
bool TASControlState::OnControllerValueChanged(u16 new_value)
bool TASControlState::OnControllerValueChanged(int new_value)
{
const State cpu_thread_state = m_cpu_thread_state.load(std::memory_order_relaxed);
@ -26,13 +26,13 @@ bool TASControlState::OnControllerValueChanged(u16 new_value)
return false;
}
const State new_state{static_cast<u16>(cpu_thread_state.version + 1), new_value};
const State new_state{static_cast<int>(cpu_thread_state.version + 1), new_value};
m_cpu_thread_state.store(new_state, std::memory_order_relaxed);
return true;
}
void TASControlState::OnUIValueChanged(u16 new_value)
void TASControlState::OnUIValueChanged(int new_value)
{
const State ui_thread_state = m_ui_thread_state.load(std::memory_order_relaxed);
@ -40,7 +40,7 @@ void TASControlState::OnUIValueChanged(u16 new_value)
m_ui_thread_state.store(new_state, std::memory_order_relaxed);
}
u16 TASControlState::ApplyControllerValueChange()
int TASControlState::ApplyControllerValueChange()
{
const State ui_thread_state = m_ui_thread_state.load(std::memory_order_relaxed);
const State cpu_thread_state = m_cpu_thread_state.load(std::memory_order_relaxed);

12
Source/Core/DolphinQt/TAS/TASControlState.h
View File

@ -12,15 +12,15 @@ class TASControlState
public:
// Call this from the CPU thread to get the current value. (This function can also safely be
// called from the UI thread, but you're effectively just getting the value the UI control has.)
u16 GetValue() const;
int GetValue() const;
// Call this from the CPU thread when the controller state changes.
// If the return value is true, queue up a call to ApplyControllerChangeValue on the UI thread.
bool OnControllerValueChanged(u16 new_value);
bool OnControllerValueChanged(int new_value);
// Call this from the UI thread when the user changes the value using the UI.
void OnUIValueChanged(u16 new_value);
void OnUIValueChanged(int new_value);
// Call this from the UI thread after OnControllerValueChanged returns true,
// and set the state of the UI control to the return value.
u16 ApplyControllerValueChange();
int ApplyControllerValueChange();
private:
// A description of how threading is handled: The UI thread can update its copy of the state
@ -34,8 +34,8 @@ private:
struct State
{
u16 version = 0;
u16 value = 0;
int version = 0;
int value = 0;
};
std::atomic<State> m_ui_thread_state;

22
Source/Core/DolphinQt/TAS/TASInputWindow.cpp
View File

@ -94,8 +94,8 @@ TASCheckBox* TASInputWindow::CreateButton(const QString& text, std::string_view
}
QGroupBox* TASInputWindow::CreateStickInputs(const QString& text, std::string_view group_name,
InputOverrider* overrider, u16 min_x, u16 min_y,
u16 max_x, u16 max_y, Qt::Key x_shortcut_key,
InputOverrider* overrider, int min_x, int min_y,
int max_x, int max_y, Qt::Key x_shortcut_key,
Qt::Key y_shortcut_key)
{
const QKeySequence x_shortcut_key_sequence = QKeySequence(Qt::ALT | x_shortcut_key);
@ -153,7 +153,7 @@ QGroupBox* TASInputWindow::CreateStickInputs(const QString& text, std::string_vi
QBoxLayout* TASInputWindow::CreateSliderValuePairLayout(
const QString& text, std::string_view group_name, std::string_view control_name,
InputOverrider* overrider, u16 zero, int default_, u16 min, u16 max, Qt::Key shortcut_key,
InputOverrider* overrider, int zero, int default_, int min, int max, Qt::Key shortcut_key,
QWidget* shortcut_widget, std::optional<ControlState> scale)
{
const QKeySequence shortcut_key_sequence = QKeySequence(Qt::ALT | shortcut_key);
@ -172,7 +172,7 @@ QBoxLayout* TASInputWindow::CreateSliderValuePairLayout(
TASSpinBox* TASInputWindow::CreateSliderValuePair(
std::string_view group_name, std::string_view control_name, InputOverrider* overrider,
QBoxLayout* layout, u16 zero, int default_, u16 min, u16 max,
QBoxLayout* layout, int zero, int default_, int min, int max,
QKeySequence shortcut_key_sequence, Qt::Orientation orientation, QWidget* shortcut_widget,
std::optional<ControlState> scale)
{
@ -200,7 +200,7 @@ TASSpinBox* TASInputWindow::CreateSliderValuePair(
// The shortcut_widget argument needs to specify the container widget that will be hidden/shown.
// This is done to avoid ambigous shortcuts
TASSpinBox* TASInputWindow::CreateSliderValuePair(QBoxLayout* layout, int default_, u16 max,
TASSpinBox* TASInputWindow::CreateSliderValuePair(QBoxLayout* layout, int default_, int max,
QKeySequence shortcut_key_sequence,
Qt::Orientation orientation,
QWidget* shortcut_widget)
@ -244,24 +244,24 @@ std::optional<ControlState> TASInputWindow::GetButton(TASCheckBox* checkbox,
return checkbox->GetValue() ? 1.0 : 0.0;
}
std::optional<ControlState> TASInputWindow::GetSpinBox(TASSpinBox* spin, u16 zero, u16 min, u16 max,
std::optional<ControlState> TASInputWindow::GetSpinBox(TASSpinBox* spin, int zero, int min, int max,
ControlState controller_state)
{
const u16 controller_value =
ControllerEmu::EmulatedController::MapFloat<u16>(controller_state, zero, 0, max);
const int controller_value =
ControllerEmu::EmulatedController::MapFloat<int>(controller_state, zero, 0, max);
if (m_use_controller->isChecked())
spin->OnControllerValueChanged(controller_value);
return ControllerEmu::EmulatedController::MapToFloat<ControlState, u16>(spin->GetValue(), zero,
return ControllerEmu::EmulatedController::MapToFloat<ControlState, int>(spin->GetValue(), zero,
min, max);
}
std::optional<ControlState> TASInputWindow::GetSpinBox(TASSpinBox* spin, u16 zero,
std::optional<ControlState> TASInputWindow::GetSpinBox(TASSpinBox* spin, int zero,
ControlState controller_state,
ControlState scale)
{
const u16 controller_value = static_cast<u16>(std::llround(controller_state * scale + zero));
const int controller_value = static_cast<int>(std::llround(controller_state * scale + zero));
if (m_use_controller->isChecked())
spin->OnControllerValueChanged(controller_value);

16
Source/Core/DolphinQt/TAS/TASInputWindow.h
View File

@ -51,20 +51,20 @@ protected:
TASCheckBox* CreateButton(const QString& text, std::string_view group_name,
std::string_view control_name, InputOverrider* overrider);
QGroupBox* CreateStickInputs(const QString& text, std::string_view group_name,
InputOverrider* overrider, u16 min_x, u16 min_y, u16 max_x,
u16 max_y, Qt::Key x_shortcut_key, Qt::Key y_shortcut_key);
InputOverrider* overrider, int min_x, int min_y, int max_x,
int max_y, Qt::Key x_shortcut_key, Qt::Key y_shortcut_key);
QBoxLayout* CreateSliderValuePairLayout(const QString& text, std::string_view group_name,
std::string_view control_name, InputOverrider* overrider,
u16 zero, int default_, u16 min, u16 max,
int zero, int default_, int min, int max,
Qt::Key shortcut_key, QWidget* shortcut_widget,
std::optional<ControlState> scale = {});
TASSpinBox* CreateSliderValuePair(std::string_view group_name, std::string_view control_name,
InputOverrider* overrider, QBoxLayout* layout, u16 zero,
int default_, u16 min, u16 max,
InputOverrider* overrider, QBoxLayout* layout, int zero,
int default_, int min, int max,
QKeySequence shortcut_key_sequence, Qt::Orientation orientation,
QWidget* shortcut_widget,
std::optional<ControlState> scale = {});
TASSpinBox* CreateSliderValuePair(QBoxLayout* layout, int default_, u16 max,
TASSpinBox* CreateSliderValuePair(QBoxLayout* layout, int default_, int max,
QKeySequence shortcut_key_sequence, Qt::Orientation orientation,
QWidget* shortcut_widget);
@ -75,8 +75,8 @@ protected:
private:
std::optional<ControlState> GetButton(TASCheckBox* checkbox, ControlState controller_state);
std::optional<ControlState> GetSpinBox(TASSpinBox* spin, u16 zero, u16 min, u16 max,
std::optional<ControlState> GetSpinBox(TASSpinBox* spin, int zero, int min, int max,
ControlState controller_state);
std::optional<ControlState> GetSpinBox(TASSpinBox* spin, u16 zero, ControlState controller_state,
std::optional<ControlState> GetSpinBox(TASSpinBox* spin, int zero, ControlState controller_state,
ControlState scale);
};

4
Source/Core/DolphinQt/TAS/TASSpinBox.cpp
View File

@ -17,13 +17,13 @@ int TASSpinBox::GetValue() const
void TASSpinBox::OnControllerValueChanged(int new_value)
{
if (m_state.OnControllerValueChanged(static_cast<u16>(new_value)))
if (m_state.OnControllerValueChanged(new_value))
QueueOnObject(this, &TASSpinBox::ApplyControllerValueChange);
}
void TASSpinBox::OnUIValueChanged(int new_value)
{
m_state.OnUIValueChanged(static_cast<u16>(new_value));
m_state.OnUIValueChanged(new_value);
}
void TASSpinBox::ApplyControllerValueChange()

125
Source/Core/DolphinQt/TAS/WiiTASInputWindow.cpp
View File

@ -22,6 +22,7 @@
#include "Core/HW/WiimoteEmu/Extension/Classic.h"
#include "Core/HW/WiimoteEmu/Extension/Extension.h"
#include "Core/HW/WiimoteEmu/Extension/Nunchuk.h"
#include "Core/HW/WiimoteEmu/MotionPlus.h"
#include "Core/HW/WiimoteEmu/WiimoteEmu.h"
#include "Core/HW/WiimoteReal/WiimoteReal.h"
@ -40,8 +41,8 @@ using namespace WiimoteCommon;
WiiTASInputWindow::WiiTASInputWindow(QWidget* parent, int num) : TASInputWindow(parent), m_num(num)
{
const QKeySequence ir_x_shortcut_key_sequence = QKeySequence(Qt::ALT | Qt::Key_F);
const QKeySequence ir_y_shortcut_key_sequence = QKeySequence(Qt::ALT | Qt::Key_G);
const QKeySequence ir_x_shortcut_key_sequence = QKeySequence(Qt::ALT | Qt::Key_X);
const QKeySequence ir_y_shortcut_key_sequence = QKeySequence(Qt::ALT | Qt::Key_C);
m_ir_box = new QGroupBox(QStringLiteral("%1 (%2/%3)")
.arg(tr("IR"),
@ -86,7 +87,7 @@ WiiTASInputWindow::WiiTASInputWindow(QWidget* parent, int num) : TASInputWindow(
m_nunchuk_stick_box =
CreateStickInputs(tr("Nunchuk Stick"), WiimoteEmu::Nunchuk::STICK_GROUP, &m_nunchuk_overrider,
0, 0, 255, 255, Qt::Key_X, Qt::Key_Y);
0, 0, 255, 255, Qt::Key_F, Qt::Key_G);
m_classic_left_stick_box =
CreateStickInputs(tr("Left Stick"), WiimoteEmu::Classic::LEFT_STICK_GROUP,
@ -101,71 +102,111 @@ WiiTASInputWindow::WiiTASInputWindow(QWidget* parent, int num) : TASInputWindow(
m_ir_box->setMinimumWidth(20);
m_nunchuk_stick_box->setMinimumWidth(20);
m_remote_orientation_box = new QGroupBox(tr("Wii Remote Orientation"));
auto* top_layout = new QHBoxLayout;
top_layout->addWidget(m_ir_box);
top_layout->addWidget(m_nunchuk_stick_box);
top_layout->addWidget(m_classic_left_stick_box);
top_layout->addWidget(m_classic_right_stick_box);
m_remote_accelerometer_box = new QGroupBox(tr("Wii Remote Accelerometer"));
constexpr u16 ACCEL_ZERO_G = WiimoteEmu::Wiimote::ACCEL_ZERO_G << 2;
constexpr u16 ACCEL_ONE_G = WiimoteEmu::Wiimote::ACCEL_ONE_G << 2;
constexpr u16 ACCEL_MIN = 0;
constexpr u16 ACCEL_MAX = (1 << 10) - 1;
constexpr double ACCEL_SCALE = (ACCEL_ONE_G - ACCEL_ZERO_G) / MathUtil::GRAVITY_ACCELERATION;
auto* remote_orientation_x_layout =
auto* remote_accelerometer_x_layout =
// i18n: Refers to a 3D axis (used when mapping motion controls)
CreateSliderValuePairLayout(tr("X"), WiimoteEmu::Wiimote::ACCELEROMETER_GROUP,
ControllerEmu::ReshapableInput::X_INPUT_OVERRIDE,
&m_wiimote_overrider, ACCEL_ZERO_G, ACCEL_ZERO_G, ACCEL_MIN,
ACCEL_MAX, Qt::Key_Q, m_remote_orientation_box, ACCEL_SCALE);
auto* remote_orientation_y_layout =
ACCEL_MAX, Qt::Key_Q, m_remote_accelerometer_box, ACCEL_SCALE);
auto* remote_accelerometer_y_layout =
// i18n: Refers to a 3D axis (used when mapping motion controls)
CreateSliderValuePairLayout(tr("Y"), WiimoteEmu::Wiimote::ACCELEROMETER_GROUP,
ControllerEmu::ReshapableInput::Y_INPUT_OVERRIDE,
&m_wiimote_overrider, ACCEL_ZERO_G, ACCEL_ZERO_G, ACCEL_MIN,
ACCEL_MAX, Qt::Key_W, m_remote_orientation_box, ACCEL_SCALE);
auto* remote_orientation_z_layout =
ACCEL_MAX, Qt::Key_W, m_remote_accelerometer_box, ACCEL_SCALE);
auto* remote_accelerometer_z_layout =
// i18n: Refers to a 3D axis (used when mapping motion controls)
CreateSliderValuePairLayout(tr("Z"), WiimoteEmu::Wiimote::ACCELEROMETER_GROUP,
ControllerEmu::ReshapableInput::Z_INPUT_OVERRIDE,
&m_wiimote_overrider, ACCEL_ZERO_G, ACCEL_ONE_G, ACCEL_MIN,
ACCEL_MAX, Qt::Key_E, m_remote_orientation_box, ACCEL_SCALE);
ACCEL_MAX, Qt::Key_E, m_remote_accelerometer_box, ACCEL_SCALE);
auto* remote_orientation_layout = new QVBoxLayout;
remote_orientation_layout->addLayout(remote_orientation_x_layout);
remote_orientation_layout->addLayout(remote_orientation_y_layout);
remote_orientation_layout->addLayout(remote_orientation_z_layout);
m_remote_orientation_box->setLayout(remote_orientation_layout);
auto* remote_accelerometer_layout = new QVBoxLayout;
remote_accelerometer_layout->addLayout(remote_accelerometer_x_layout);
remote_accelerometer_layout->addLayout(remote_accelerometer_y_layout);
remote_accelerometer_layout->addLayout(remote_accelerometer_z_layout);
m_remote_accelerometer_box->setLayout(remote_accelerometer_layout);
m_nunchuk_orientation_box = new QGroupBox(tr("Nunchuk Orientation"));
m_remote_gyroscope_box = new QGroupBox(tr("Wii Remote Gyroscope"));
auto* nunchuk_orientation_x_layout =
// MotionPlus can report values using either a slow scale (greater precision) or a fast scale
// (greater range). To ensure the user can select every possible value, TAS input uses the
// precision of the slow scale and the range of the fast scale. This does mean TAS input has more
// selectable values than MotionPlus has reportable values, but that's not too big of a problem.
constexpr double GYRO_STRETCH =
static_cast<double>(WiimoteEmu::MotionPlus::CALIBRATION_FAST_SCALE_DEGREES) /
WiimoteEmu::MotionPlus::CALIBRATION_SLOW_SCALE_DEGREES;
constexpr u32 GYRO_MIN = 0;
constexpr u32 GYRO_MAX = WiimoteEmu::MotionPlus::MAX_VALUE * GYRO_STRETCH;
constexpr u32 GYRO_ZERO = WiimoteEmu::MotionPlus::ZERO_VALUE * GYRO_STRETCH;
constexpr double GYRO_SCALE = GYRO_MAX / 2 / WiimoteEmu::MotionPlus::FAST_MAX_RAD_PER_SEC;
auto* remote_gyroscope_x_layout =
// i18n: Refers to a 3D axis (used when mapping motion controls)
CreateSliderValuePairLayout(tr("X"), WiimoteEmu::Wiimote::GYROSCOPE_GROUP,
ControllerEmu::ReshapableInput::X_INPUT_OVERRIDE,
&m_wiimote_overrider, GYRO_ZERO, GYRO_ZERO, GYRO_MIN, GYRO_MAX,
Qt::Key_R, m_remote_gyroscope_box, GYRO_SCALE);
auto* remote_gyroscope_y_layout =
// i18n: Refers to a 3D axis (used when mapping motion controls)
CreateSliderValuePairLayout(tr("Y"), WiimoteEmu::Wiimote::GYROSCOPE_GROUP,
ControllerEmu::ReshapableInput::Y_INPUT_OVERRIDE,
&m_wiimote_overrider, GYRO_ZERO, GYRO_ZERO, GYRO_MIN, GYRO_MAX,
Qt::Key_T, m_remote_gyroscope_box, GYRO_SCALE);
auto* remote_gyroscope_z_layout =
// i18n: Refers to a 3D axis (used when mapping motion controls)
CreateSliderValuePairLayout(tr("Z"), WiimoteEmu::Wiimote::GYROSCOPE_GROUP,
ControllerEmu::ReshapableInput::Z_INPUT_OVERRIDE,
&m_wiimote_overrider, GYRO_ZERO, GYRO_ZERO, GYRO_MIN, GYRO_MAX,
Qt::Key_Y, m_remote_gyroscope_box, GYRO_SCALE);
auto* remote_gyroscope_layout = new QVBoxLayout;
remote_gyroscope_layout->addLayout(remote_gyroscope_x_layout);
remote_gyroscope_layout->addLayout(remote_gyroscope_y_layout);
remote_gyroscope_layout->addLayout(remote_gyroscope_z_layout);
m_remote_gyroscope_box->setLayout(remote_gyroscope_layout);
m_nunchuk_accelerometer_box = new QGroupBox(tr("Nunchuk Accelerometer"));
auto* nunchuk_accelerometer_x_layout =
// i18n: Refers to a 3D axis (used when mapping motion controls)
CreateSliderValuePairLayout(tr("X"), WiimoteEmu::Nunchuk::ACCELEROMETER_GROUP,
ControllerEmu::ReshapableInput::X_INPUT_OVERRIDE,
&m_nunchuk_overrider, ACCEL_ZERO_G, ACCEL_ZERO_G, ACCEL_MIN,
ACCEL_MAX, Qt::Key_I, m_nunchuk_orientation_box);
auto* nunchuk_orientation_y_layout =
ACCEL_MAX, Qt::Key_I, m_nunchuk_accelerometer_box);
auto* nunchuk_accelerometer_y_layout =
// i18n: Refers to a 3D axis (used when mapping motion controls)
CreateSliderValuePairLayout(tr("Y"), WiimoteEmu::Nunchuk::ACCELEROMETER_GROUP,
ControllerEmu::ReshapableInput::Y_INPUT_OVERRIDE,
&m_nunchuk_overrider, ACCEL_ZERO_G, ACCEL_ZERO_G, ACCEL_MIN,
ACCEL_MAX, Qt::Key_O, m_nunchuk_orientation_box);
auto* nunchuk_orientation_z_layout =
ACCEL_MAX, Qt::Key_O, m_nunchuk_accelerometer_box);
auto* nunchuk_accelerometer_z_layout =
// i18n: Refers to a 3D axis (used when mapping motion controls)
CreateSliderValuePairLayout(tr("Z"), WiimoteEmu::Nunchuk::ACCELEROMETER_GROUP,
ControllerEmu::ReshapableInput::Z_INPUT_OVERRIDE,
&m_nunchuk_overrider, ACCEL_ZERO_G, ACCEL_ONE_G, ACCEL_MIN,
ACCEL_MAX, Qt::Key_P, m_nunchuk_orientation_box);
ACCEL_MAX, Qt::Key_P, m_nunchuk_accelerometer_box);
auto* nunchuk_orientation_layout = new QVBoxLayout;
nunchuk_orientation_layout->addLayout(nunchuk_orientation_x_layout);
nunchuk_orientation_layout->addLayout(nunchuk_orientation_y_layout);
nunchuk_orientation_layout->addLayout(nunchuk_orientation_z_layout);
m_nunchuk_orientation_box->setLayout(nunchuk_orientation_layout);
auto* nunchuk_accelerometer_layout = new QVBoxLayout;
nunchuk_accelerometer_layout->addLayout(nunchuk_accelerometer_x_layout);
nunchuk_accelerometer_layout->addLayout(nunchuk_accelerometer_y_layout);
nunchuk_accelerometer_layout->addLayout(nunchuk_accelerometer_z_layout);
m_nunchuk_accelerometer_box->setLayout(nunchuk_accelerometer_layout);
m_triggers_box = new QGroupBox(tr("Triggers"));
auto* l_trigger_layout = CreateSliderValuePairLayout(
@ -294,8 +335,9 @@ WiiTASInputWindow::WiiTASInputWindow(QWidget* parent, int num) : TASInputWindow(
auto* layout = new QVBoxLayout;
layout->addLayout(top_layout);
layout->addWidget(m_remote_orientation_box);
layout->addWidget(m_nunchuk_orientation_box);
layout->addWidget(m_remote_accelerometer_box);
layout->addWidget(m_remote_gyroscope_box);
layout->addWidget(m_nunchuk_accelerometer_box);
layout->addWidget(m_triggers_box);
layout->addWidget(m_remote_buttons_box);
layout->addWidget(m_nunchuk_buttons_box);
@ -307,13 +349,16 @@ WiiTASInputWindow::WiiTASInputWindow(QWidget* parent, int num) : TASInputWindow(
if (Core::IsRunning())
{
m_active_extension = GetWiimote()->GetActiveExtensionNumber();
m_is_motion_plus_attached = GetWiimote()->IsMotionPlusAttached();
}
else
{
IniFile ini;
ini.Load(File::GetUserPath(D_CONFIG_IDX) + "WiimoteNew.ini");
const std::string section_name = "Wiimote" + std::to_string(num + 1);
std::string extension;
ini.GetIfExists("Wiimote" + std::to_string(num + 1), "Extension", &extension);
ini.GetIfExists(section_name, "Extension", &extension);
if (extension == "Nunchuk")
m_active_extension = WiimoteEmu::ExtensionNumber::NUNCHUK;
@ -321,6 +366,9 @@ WiiTASInputWindow::WiiTASInputWindow(QWidget* parent, int num) : TASInputWindow(
m_active_extension = WiimoteEmu::ExtensionNumber::CLASSIC;
else
m_active_extension = WiimoteEmu::ExtensionNumber::NONE;
m_is_motion_plus_attached = true;
ini.GetIfExists(section_name, "Extension/Attach MotionPlus", &m_is_motion_plus_attached);
}
UpdateExt();
}
@ -351,8 +399,9 @@ void WiiTASInputWindow::UpdateExt()
m_nunchuk_stick_box->show();
m_classic_right_stick_box->hide();
m_classic_left_stick_box->hide();
m_remote_orientation_box->show();
m_nunchuk_orientation_box->show();
m_remote_accelerometer_box->show();
m_remote_gyroscope_box->setVisible(m_is_motion_plus_attached);
m_nunchuk_accelerometer_box->show();
m_triggers_box->hide();
m_nunchuk_buttons_box->show();
m_remote_buttons_box->show();
@ -365,8 +414,9 @@ void WiiTASInputWindow::UpdateExt()
m_nunchuk_stick_box->hide();
m_classic_right_stick_box->show();
m_classic_left_stick_box->show();
m_remote_orientation_box->hide();
m_nunchuk_orientation_box->hide();
m_remote_accelerometer_box->hide();
m_remote_gyroscope_box->hide();
m_nunchuk_accelerometer_box->hide();
m_triggers_box->show();
m_remote_buttons_box->hide();
m_nunchuk_buttons_box->hide();
@ -379,8 +429,9 @@ void WiiTASInputWindow::UpdateExt()
m_nunchuk_stick_box->hide();
m_classic_right_stick_box->hide();
m_classic_left_stick_box->hide();
m_remote_orientation_box->show();
m_nunchuk_orientation_box->hide();
m_remote_accelerometer_box->show();
m_remote_gyroscope_box->setVisible(m_is_motion_plus_attached);
m_nunchuk_accelerometer_box->hide();
m_triggers_box->hide();
m_remote_buttons_box->show();
m_nunchuk_buttons_box->hide();

6
Source/Core/DolphinQt/TAS/WiiTASInputWindow.h
View File

@ -42,6 +42,7 @@ private:
void UpdateExt();
WiimoteEmu::ExtensionNumber m_active_extension;
bool m_is_motion_plus_attached;
int m_num;
InputOverrider m_wiimote_overrider;
@ -78,8 +79,9 @@ private:
TASCheckBox* m_classic_right_button;
TASSpinBox* m_ir_x_value;
TASSpinBox* m_ir_y_value;
QGroupBox* m_remote_orientation_box;
QGroupBox* m_nunchuk_orientation_box;
QGroupBox* m_remote_accelerometer_box;
QGroupBox* m_remote_gyroscope_box;
QGroupBox* m_nunchuk_accelerometer_box;
QGroupBox* m_ir_box;
QGroupBox* m_nunchuk_stick_box;
QGroupBox* m_classic_left_stick_box;