mirror of
https://github.com/RetroDECK/Duckstation.git
synced 2024-11-28 00:25:41 +00:00
151 lines
6 KiB
C++
151 lines
6 KiB
C++
#include "inputbindingmonitor.h"
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#include <cmath>
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ControllerInterface::Hook::CallbackResult
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InputButtonBindingMonitor::operator()(const ControllerInterface::Hook& ei) const
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{
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if (ei.type == ControllerInterface::Hook::Type::Axis)
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{
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// wait until it's at least half pushed so we don't get confused between axises with small movement
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if (std::abs(std::get<float>(ei.value)) < 0.5f)
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return ControllerInterface::Hook::CallbackResult::ContinueMonitoring;
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// TODO: this probably should consider the "last value"
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QMetaObject::invokeMethod(m_parent, "bindToControllerAxis", Q_ARG(int, ei.controller_index),
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Q_ARG(int, ei.button_or_axis_number), Q_ARG(bool, false),
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Q_ARG(std::optional<bool>, std::get<float>(ei.value) > 0));
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return ControllerInterface::Hook::CallbackResult::StopMonitoring;
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}
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else if (ei.type == ControllerInterface::Hook::Type::Button && std::get<float>(ei.value) > 0.0f)
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{
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QMetaObject::invokeMethod(m_parent, "bindToControllerButton", Q_ARG(int, ei.controller_index),
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Q_ARG(int, ei.button_or_axis_number));
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return ControllerInterface::Hook::CallbackResult::StopMonitoring;
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}
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else if (ei.type == ControllerInterface::Hook::Type::Hat)
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{
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const std::string_view hat_position = std::get<std::string_view>(ei.value);
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if (!hat_position.empty())
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{
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QString str = QString::fromLatin1(hat_position.data(), static_cast<int>(hat_position.size()));
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QMetaObject::invokeMethod(m_parent, "bindToControllerHat", Q_ARG(int, ei.controller_index),
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Q_ARG(int, ei.button_or_axis_number), Q_ARG(QString, std::move(str)));
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return ControllerInterface::Hook::CallbackResult::StopMonitoring;
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}
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}
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return ControllerInterface::Hook::CallbackResult::ContinueMonitoring;
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}
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ControllerInterface::Hook::CallbackResult InputAxisBindingMonitor::operator()(const ControllerInterface::Hook& ei) const
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{
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if (ei.type == ControllerInterface::Hook::Type::Axis)
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{
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std::optional<bool> half_axis_positive, inverted;
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if (!ProcessAxisInput(ei, half_axis_positive, inverted))
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return ControllerInterface::Hook::CallbackResult::ContinueMonitoring;
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QMetaObject::invokeMethod(m_parent, "bindToControllerAxis", Q_ARG(int, ei.controller_index),
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Q_ARG(int, ei.button_or_axis_number), Q_ARG(bool, inverted.value_or(false)),
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Q_ARG(std::optional<bool>, half_axis_positive));
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return ControllerInterface::Hook::CallbackResult::StopMonitoring;
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}
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else if (ei.type == ControllerInterface::Hook::Type::Button && m_axis_type == Controller::AxisType::Half &&
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std::get<float>(ei.value) > 0.0f)
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{
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QMetaObject::invokeMethod(m_parent, "bindToControllerButton", Q_ARG(int, ei.controller_index),
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Q_ARG(int, ei.button_or_axis_number));
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return ControllerInterface::Hook::CallbackResult::StopMonitoring;
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}
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return ControllerInterface::Hook::CallbackResult::ContinueMonitoring;
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}
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bool InputAxisBindingMonitor::ProcessAxisInput(const ControllerInterface::Hook& ei,
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std::optional<bool>& half_axis_positive,
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std::optional<bool>& inverted) const
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{
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const float value = std::get<float>(ei.value);
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if (!ei.track_history) // Keyboard, mouse, game controller
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{
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// wait until it's at least half pushed so we don't get confused between axises with small movement
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if (std::abs(value) < 0.5f)
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return false;
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if (m_axis_type == Controller::AxisType::Half)
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half_axis_positive = (value > 0.0f);
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return true;
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}
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else // Joystick
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{
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auto& history = m_context->m_inputs_history;
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// Reject inputs coming from multiple sources
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if (!history.empty())
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{
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const auto& item = history.front();
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if (ei.controller_index != item.controller_index || ei.button_or_axis_number != item.axis_number)
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return false;
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}
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history.push_back({ei.controller_index, ei.button_or_axis_number, value});
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return AnalyzeInputHistory(half_axis_positive, inverted);
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}
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}
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bool InputAxisBindingMonitor::AnalyzeInputHistory(std::optional<bool>& half_axis_positive,
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std::optional<bool>& inverted) const
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{
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const auto& history = m_context->m_inputs_history;
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const auto [min, max] = std::minmax_element(
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history.begin(), history.end(), [](const auto& left, const auto& right) { return left.value < right.value; });
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// Ignore small input magnitudes
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if (std::abs(max->value - min->value) < 0.5f)
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return false;
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// Used heuristics:
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// * If history contains inputs with both - and + sign (ignoring 0), bind a full axis
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// * If history contains only 0 and inputs of the same sign AND maxes out at 1.0/-1.0, bind a half axis
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// * Use the direction of input changes to determine whether the axis is inverted or not
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if (std::signbit(min->value) != std::signbit(max->value))
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{
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if (min->value != 0.0f && max->value != 0.0f)
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{
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// If max value comes before the min value, invert the half axis
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if (m_axis_type == Controller::AxisType::Half)
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{
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inverted = std::distance(min, max) < 0;
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}
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return true;
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}
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}
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else
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{
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if ((std::abs(min->value) > 0.99f || std::abs(max->value) > 0.99f) &&
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(std::abs(min->value) < 0.01f || std::abs(max->value) < 0.01f))
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{
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if (m_axis_type == Controller::AxisType::Half)
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{
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half_axis_positive = max->value > 0.0f;
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}
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return true;
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}
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}
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return false;
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}
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ControllerInterface::Hook::CallbackResult
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InputRumbleBindingMonitor::operator()(const ControllerInterface::Hook& ei) const
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{
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if (ei.type == ControllerInterface::Hook::Type::Button && std::get<float>(ei.value) > 0.0f)
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{
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QMetaObject::invokeMethod(m_parent, "bindToControllerRumble", Q_ARG(int, ei.controller_index));
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return ControllerInterface::Hook::CallbackResult::StopMonitoring;
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}
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return ControllerInterface::Hook::CallbackResult::ContinueMonitoring;
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} |