Address PR feedback, fix axis button thresholding
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@ -385,51 +385,25 @@ const std::array<GCState, 4>& Adapter::GetPadState() const {
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return state;
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return state;
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}
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}
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int Adapter::GetOriginValue(int port, int axis) {
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int Adapter::GetOriginValue(int port, int axis) const {
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// TODO: perhaps place stick statuses into an array in PadStatus
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const auto& status = origin_status[port];
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const PadAxes padaxis = static_cast<PadAxes>(axis);
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if (padaxis == PadAxes::StickX) {
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return origin_status[port].stick_x;
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}
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if (padaxis == PadAxes::StickY) {
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return origin_status[port].stick_y;
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}
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if (padaxis == PadAxes::SubstickX) {
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return origin_status[port].substick_x;
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}
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if (padaxis == PadAxes::SubstickY) {
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return origin_status[port].substick_x;
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}
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if (padaxis == PadAxes::TriggerLeft) {
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return origin_status[port].trigger_left;
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}
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if (padaxis == PadAxes::TriggerRight) {
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return origin_status[port].trigger_right;
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}
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return 0;
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}
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const int Adapter::GetOriginValue(int port, int axis) const {
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switch (static_cast<PadAxes>(axis)) {
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const PadAxes padaxis = static_cast<PadAxes>(axis);
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case PadAxes::StickX:
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if (padaxis == PadAxes::StickX) {
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return status.stick_x;
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return origin_status[port].stick_x;
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case PadAxes::StickY:
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return status.stick_y;
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case PadAxes::SubstickX:
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return status.substick_x;
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case PadAxes::SubstickY:
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return status.substick_y;
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case PadAxes::TriggerLeft:
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return status.trigger_left;
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case PadAxes::TriggerRight:
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return status.trigger_right;
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default:
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return 0;
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}
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}
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if (padaxis == PadAxes::StickY) {
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return origin_status[port].stick_y;
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}
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if (padaxis == PadAxes::SubstickX) {
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return origin_status[port].substick_x;
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}
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if (padaxis == PadAxes::SubstickY) {
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return origin_status[port].substick_x;
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}
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if (padaxis == PadAxes::TriggerLeft) {
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return origin_status[port].trigger_left;
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}
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if (padaxis == PadAxes::TriggerRight) {
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return origin_status[port].trigger_right;
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}
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return 0;
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}
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}
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} // namespace GCAdapter
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} // namespace GCAdapter
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@ -96,8 +96,7 @@ public:
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std::array<GCState, 4>& GetPadState();
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std::array<GCState, 4>& GetPadState();
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const std::array<GCState, 4>& GetPadState() const;
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const std::array<GCState, 4>& GetPadState() const;
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int GetOriginValue(int port, int axis);
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int GetOriginValue(int port, int axis) const;
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const int GetOriginValue(int port, int axis) const;
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private:
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private:
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GCPadStatus GetPadStatus(int port, const std::array<u8, 37>& adapter_payload);
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GCPadStatus GetPadStatus(int port, const std::array<u8, 37>& adapter_payload);
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@ -34,13 +34,7 @@ public:
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explicit GCAxisButton(int port_, int axis_, float threshold_, bool trigger_if_greater_,
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explicit GCAxisButton(int port_, int axis_, float threshold_, bool trigger_if_greater_,
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GCAdapter::Adapter* adapter)
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GCAdapter::Adapter* adapter)
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: port(port_), axis(axis_), threshold(threshold_), trigger_if_greater(trigger_if_greater_),
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: port(port_), axis(axis_), threshold(threshold_), trigger_if_greater(trigger_if_greater_),
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gcadapter(adapter), origin_value(adapter->GetOriginValue(port_, axis_)) {
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gcadapter(adapter), origin_value(adapter->GetOriginValue(port_, axis_)) {}
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// L/R triggers range is only in positive direction beginning near 0
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// 0.0 threshold equates to near half trigger press, but threshold accounts for variability.
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if (axis > 3) {
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threshold *= -0.5;
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}
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}
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bool GetStatus() const override {
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bool GetStatus() const override {
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const float current_axis_value = gcadapter->GetPadState()[port].axes.at(axis);
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const float current_axis_value = gcadapter->GetPadState()[port].axes.at(axis);
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@ -152,14 +146,11 @@ public:
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float GetAxis(int axis) const {
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float GetAxis(int axis) const {
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std::lock_guard lock{mutex};
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std::lock_guard lock{mutex};
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const auto origin_value = axis % 2 == 0 ? origin_value_x : origin_value_y;
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// division is not by a perfect 128 to account for some variance in center location
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// division is not by a perfect 128 to account for some variance in center location
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// e.g. my device idled at 131 in X, 120 in Y, and full range of motion was in range
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// e.g. my device idled at 131 in X, 120 in Y, and full range of motion was in range
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// [20-230]
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// [20-230]
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if (axis % 2 == 0) {
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return (gcadapter->GetPadState()[port].axes.at(axis) - origin_value) / 95.0f;
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return (gcadapter->GetPadState()[port].axes.at(axis) - origin_value_x) / 95.0f;
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} else {
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return (gcadapter->GetPadState()[port].axes.at(axis) - origin_value_y) / 95.0f;
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}
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}
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}
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std::pair<float, float> GetAnalog(int axis_x, int axis_y) const {
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std::pair<float, float> GetAnalog(int axis_x, int axis_y) const {
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