// Copyright 2010 Dolphin Emulator Project // Licensed under GPLv2+ // Refer to the license.txt file included. #include "Common/Common.h" #include "Core/Host.h" #include "Core/HW/GCPadEmu.h" static const u16 button_bitmasks[] = { PAD_BUTTON_A, PAD_BUTTON_B, PAD_BUTTON_X, PAD_BUTTON_Y, PAD_TRIGGER_Z, PAD_BUTTON_START, 0 // MIC HAX }; static const u16 trigger_bitmasks[] = { PAD_TRIGGER_L, PAD_TRIGGER_R, }; static const u16 dpad_bitmasks[] = { PAD_BUTTON_UP, PAD_BUTTON_DOWN, PAD_BUTTON_LEFT, PAD_BUTTON_RIGHT }; static const char* const named_buttons[] = { "A", "B", "X", "Y", "Z", _trans("Start"), _trans("Mic") }; static const char* const named_triggers[] = { // i18n: Left _trans("L"), // i18n: Right _trans("R"), // i18n: Left-Analog _trans("L-Analog"), // i18n: Right-Analog _trans("R-Analog") }; GCPad::GCPad(const unsigned int index) : m_index(index) { int const mic_hax = index > 1; // buttons groups.emplace_back(m_buttons = new Buttons(_trans("Buttons"))); for (unsigned int i=0; i < sizeof(named_buttons)/sizeof(*named_buttons) - mic_hax; ++i) m_buttons->controls.emplace_back(new ControlGroup::Input(named_buttons[i])); // sticks groups.emplace_back(m_main_stick = new AnalogStick("Main Stick", _trans("Control Stick"), DEFAULT_PAD_STICK_RADIUS)); groups.emplace_back(m_c_stick = new AnalogStick("C-Stick", _trans("C Stick"), DEFAULT_PAD_STICK_RADIUS)); // triggers groups.emplace_back(m_triggers = new MixedTriggers(_trans("Triggers"))); for (auto& named_trigger : named_triggers) m_triggers->controls.emplace_back(new ControlGroup::Input(named_trigger)); // rumble groups.emplace_back(m_rumble = new ControlGroup(_trans("Rumble"))); m_rumble->controls.emplace_back(new ControlGroup::Output(_trans("Motor"))); // dpad groups.emplace_back(m_dpad = new Buttons(_trans("D-Pad"))); for (auto& named_direction : named_directions) m_dpad->controls.emplace_back(new ControlGroup::Input(named_direction)); // options groups.emplace_back(m_options = new ControlGroup(_trans("Options"))); m_options->settings.emplace_back(new ControlGroup::BackgroundInputSetting(_trans("Background Input"))); m_options->settings.emplace_back(new ControlGroup::IterateUI(_trans("Iterative Input"))); } std::string GCPad::GetName() const { return std::string("GCPad") + char('1'+m_index); } void GCPad::GetInput(GCPadStatus* const pad) { ControlState x, y, triggers[2]; // buttons m_buttons->GetState(&pad->button, button_bitmasks); // set analog A/B analog to full or w/e, prolly not needed if (pad->button & PAD_BUTTON_A) pad->analogA = 0xFF; if (pad->button & PAD_BUTTON_B) pad->analogB = 0xFF; // dpad m_dpad->GetState(&pad->button, dpad_bitmasks); // sticks m_main_stick->GetState(&x, &y); pad->stickX = static_cast(GCPadStatus::MAIN_STICK_CENTER_X + (x * GCPadStatus::MAIN_STICK_RADIUS)); pad->stickY = static_cast(GCPadStatus::MAIN_STICK_CENTER_Y + (y * GCPadStatus::MAIN_STICK_RADIUS)); m_c_stick->GetState(&x, &y); pad->substickX = static_cast(GCPadStatus::C_STICK_CENTER_X + (x * GCPadStatus::C_STICK_RADIUS)); pad->substickY = static_cast(GCPadStatus::C_STICK_CENTER_Y + (y * GCPadStatus::C_STICK_RADIUS)); // triggers m_triggers->GetState(&pad->button, trigger_bitmasks, triggers); pad->triggerLeft = static_cast(triggers[0] * 0xFF); pad->triggerRight = static_cast(triggers[1] * 0xFF); } void GCPad::SetOutput(const ControlState strength) { m_rumble->controls[0]->control_ref->State(strength); } void GCPad::LoadDefaults(const ControllerInterface& ciface) { ControllerEmu::LoadDefaults(ciface); // Buttons m_buttons->SetControlExpression(0, "X"); // A m_buttons->SetControlExpression(1, "Z"); // B m_buttons->SetControlExpression(2, "C"); // X m_buttons->SetControlExpression(3, "S"); // Y m_buttons->SetControlExpression(4, "D"); // Z #ifdef _WIN32 m_buttons->SetControlExpression(5, "!LMENU & RETURN"); // Start #else // OS X/Linux m_buttons->SetControlExpression(5, "!`Alt_L` & Return"); // Start #endif // stick modifiers to 50 % m_main_stick->controls[4]->control_ref->range = 0.5f; m_c_stick->controls[4]->control_ref->range = 0.5f; // D-Pad m_dpad->SetControlExpression(0, "T"); // Up m_dpad->SetControlExpression(1, "G"); // Down m_dpad->SetControlExpression(2, "F"); // Left m_dpad->SetControlExpression(3, "H"); // Right // C Stick m_c_stick->SetControlExpression(0, "I"); // Up m_c_stick->SetControlExpression(1, "K"); // Down m_c_stick->SetControlExpression(2, "J"); // Left m_c_stick->SetControlExpression(3, "L"); // Right #ifdef _WIN32 m_c_stick->SetControlExpression(4, "LCONTROL"); // Modifier // Control Stick m_main_stick->SetControlExpression(0, "UP"); // Up m_main_stick->SetControlExpression(1, "DOWN"); // Down m_main_stick->SetControlExpression(2, "LEFT"); // Left m_main_stick->SetControlExpression(3, "RIGHT"); // Right m_main_stick->SetControlExpression(4, "LSHIFT"); // Modifier #elif __APPLE__ m_c_stick->SetControlExpression(4, "Left Control"); // Modifier // Control Stick m_main_stick->SetControlExpression(0, "Up Arrow"); // Up m_main_stick->SetControlExpression(1, "Down Arrow"); // Down m_main_stick->SetControlExpression(2, "Left Arrow"); // Left m_main_stick->SetControlExpression(3, "Right Arrow"); // Right m_main_stick->SetControlExpression(4, "Left Shift"); // Modifier #else // not sure if these are right m_c_stick->SetControlExpression(4, "Control_L"); // Modifier // Control Stick m_main_stick->SetControlExpression(0, "Up"); // Up m_main_stick->SetControlExpression(1, "Down"); // Down m_main_stick->SetControlExpression(2, "Left"); // Left m_main_stick->SetControlExpression(3, "Right"); // Right m_main_stick->SetControlExpression(4, "Shift_L"); // Modifier #endif // Triggers m_triggers->SetControlExpression(0, "Q"); // L m_triggers->SetControlExpression(1, "W"); // R } bool GCPad::GetMicButton() const { return (0.0f != m_buttons->controls.back()->control_ref->State()); }