/** ** Supermodel ** A Sega Model 3 Arcade Emulator. ** Copyright 2011-2019 Bart Trzynadlowski, Nik Henson, Ian Curtis, ** Harry Tuttle, and Spindizzi ** ** This file is part of Supermodel. ** ** Supermodel is free software: you can redistribute it and/or modify it under ** the terms of the GNU General Public License as published by the Free ** Software Foundation, either version 3 of the License, or (at your option) ** any later version. ** ** Supermodel is distributed in the hope that it will be useful, but WITHOUT ** ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or ** FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for ** more details. ** ** You should have received a copy of the GNU General Public License along ** with Supermodel. If not, see . **/ /* * Inputs.cpp * * Input management. Implementation of CInputs, which stores, configures, and * maintains all individual inputs. */ #include "Supermodel.h" #include "Game.h" #include #include #include #include using namespace std; CInputs::CInputs(CInputSystem *system) : m_system(system) { // UI controls are hard coded here, everything else is initialized to NONE so that it can be loaded from // the config file. // UI Controls uiExit = AddSwitchInput("UIExit", "Exit UI", Game::INPUT_UI, "KEY_ESCAPE"); uiReset = AddSwitchInput("UIReset", "Reset", Game::INPUT_UI, "KEY_ALT+KEY_R"); uiPause = AddSwitchInput("UIPause", "Pause", Game::INPUT_UI, "KEY_ALT+KEY_P"); uiFullScreen = AddSwitchInput("UIFullScreen", "Toggle Fullscreen", Game::INPUT_UI, "KEY_ALT+KEY_RETURN"); uiSaveState = AddSwitchInput("UISaveState", "Save State", Game::INPUT_UI, "KEY_F5"); uiChangeSlot = AddSwitchInput("UIChangeSlot", "Change Save Slot", Game::INPUT_UI, "KEY_F6"); uiLoadState = AddSwitchInput("UILoadState", "Load State", Game::INPUT_UI, "KEY_F7"); uiMusicVolUp = AddSwitchInput("UIMusicVolUp", "Increase Music Volume", Game::INPUT_UI, "KEY_F10"); uiMusicVolDown = AddSwitchInput("UIMusicVolDown", "Decrease Music Volume", Game::INPUT_UI, "KEY_F9"); uiSoundVolUp = AddSwitchInput("UISoundVolUp", "Increase Sound Volume", Game::INPUT_UI, "KEY_F12"); uiSoundVolDown = AddSwitchInput("UISoundVolDown", "Decrease Sound Volume", Game::INPUT_UI, "KEY_F11"); uiClearNVRAM = AddSwitchInput("UIClearNVRAM", "Clear NVRAM", Game::INPUT_UI, "KEY_ALT+KEY_N"); uiSelectCrosshairs = AddSwitchInput("UISelectCrosshairs", "Select Crosshairs", Game::INPUT_UI, "KEY_ALT+KEY_I"); uiToggleFrLimit = AddSwitchInput("UIToggleFrameLimit", "Toggle Frame Limiting", Game::INPUT_UI, "KEY_ALT+KEY_T"); uiDumpInpState = AddSwitchInput("UIDumpInputState", "Dump Input State", Game::INPUT_UI, "KEY_ALT+KEY_U"); uiDumpTimings = AddSwitchInput("UIDumpTimings", "Dump Frame Timings", Game::INPUT_UI, "KEY_ALT+KEY_O"); #ifdef SUPERMODEL_DEBUGGER uiEnterDebugger = AddSwitchInput("UIEnterDebugger", "Enter Debugger", Game::INPUT_UI, "KEY_ALT+KEY_B"); #endif // Common Controls start[0] = AddSwitchInput("Start1", "P1 Start", Game::INPUT_COMMON, "NONE"); start[1] = AddSwitchInput("Start2", "P2 Start", Game::INPUT_COMMON, "NONE"); coin[0] = AddSwitchInput("Coin1", "P1 Coin", Game::INPUT_COMMON, "NONE"); coin[1] = AddSwitchInput("Coin2", "P2 Coin", Game::INPUT_COMMON, "NONE"); service[0] = AddSwitchInput("ServiceA", "Service A", Game::INPUT_COMMON, "NONE"); service[1] = AddSwitchInput("ServiceB", "Service B", Game::INPUT_COMMON, "NONE"); test[0] = AddSwitchInput("TestA", "Test A", Game::INPUT_COMMON, "NONE"); test[1] = AddSwitchInput("TestB", "Test B", Game::INPUT_COMMON, "NONE"); // 4-Way Joysticks up[0] = AddSwitchInput("JoyUp", "P1 Joystick Up", Game::INPUT_JOYSTICK1, "NONE"); down[0] = AddSwitchInput("JoyDown", "P1 Joystick Down", Game::INPUT_JOYSTICK1, "NONE"); left[0] = AddSwitchInput("JoyLeft", "P1 Joystick Left", Game::INPUT_JOYSTICK1, "NONE"); right[0] = AddSwitchInput("JoyRight", "P1 Joystick Right", Game::INPUT_JOYSTICK1, "NONE"); up[1] = AddSwitchInput("JoyUp2", "P2 Joystick Up", Game::INPUT_JOYSTICK2, "NONE"); down[1] = AddSwitchInput("JoyDown2", "P2 Joystick Down", Game::INPUT_JOYSTICK2, "NONE"); left[1] = AddSwitchInput("JoyLeft2", "P2 Joystick Left", Game::INPUT_JOYSTICK2, "NONE"); right[1] = AddSwitchInput("JoyRight2", "P2 Joystick Right", Game::INPUT_JOYSTICK2, "NONE"); // Fighting Game Buttons punch[0] = AddSwitchInput("Punch", "P1 Punch", Game::INPUT_FIGHTING, "NONE"); kick[0] = AddSwitchInput("Kick", "P1 Kick", Game::INPUT_FIGHTING, "NONE"); guard[0] = AddSwitchInput("Guard", "P1 Guard", Game::INPUT_FIGHTING, "NONE"); escape[0] = AddSwitchInput("Escape", "P1 Escape", Game::INPUT_FIGHTING, "NONE"); punch[1] = AddSwitchInput("Punch2", "P2 Punch", Game::INPUT_FIGHTING, "NONE"); kick[1] = AddSwitchInput("Kick2", "P2 Kick", Game::INPUT_FIGHTING, "NONE"); guard[1] = AddSwitchInput("Guard2", "P2 Guard", Game::INPUT_FIGHTING, "NONE"); escape[1] = AddSwitchInput("Escape2", "P2 Escape", Game::INPUT_FIGHTING, "NONE"); // Spikeout Buttons shift = AddSwitchInput("Shift", "Shift", Game::INPUT_SPIKEOUT, "NONE"); beat = AddSwitchInput("Beat", "Beat", Game::INPUT_SPIKEOUT, "NONE"); charge = AddSwitchInput("Charge", "Charge",Game::INPUT_SPIKEOUT, "NONE"); jump = AddSwitchInput("Jump", "Jump", Game::INPUT_SPIKEOUT, "NONE"); // Virtua Striker Buttons shortPass[0] = AddSwitchInput("ShortPass", "P1 Short Pass", Game::INPUT_SOCCER, "NONE"); longPass[0] = AddSwitchInput("LongPass", "P1 Long Pass", Game::INPUT_SOCCER, "NONE"); shoot[0] = AddSwitchInput("Shoot", "P1 Shoot", Game::INPUT_SOCCER, "NONE"); shortPass[1] = AddSwitchInput("ShortPass2", "P2 Short Pass", Game::INPUT_SOCCER, "NONE"); longPass[1] = AddSwitchInput("LongPass2", "P2 Long Pass", Game::INPUT_SOCCER, "NONE"); shoot[1] = AddSwitchInput("Shoot2", "P2 Shoot", Game::INPUT_SOCCER, "NONE"); // Racing Game Steering Controls CAnalogInput *steeringLeft = AddAnalogInput("SteeringLeft", "Steer Left", Game::INPUT_VEHICLE, "NONE"); CAnalogInput *steeringRight = AddAnalogInput("SteeringRight", "Steer Right", Game::INPUT_VEHICLE, "NONE"); steering = AddAxisInput ("Steering", "Full Steering", Game::INPUT_VEHICLE, "NONE", steeringLeft, steeringRight); accelerator = AddAnalogInput("Accelerator", "Accelerator Pedal", Game::INPUT_VEHICLE, "NONE"); brake = AddAnalogInput("Brake", "Brake Pedal/Front Brake", Game::INPUT_VEHICLE, "NONE"); gearShiftUp = AddSwitchInput("GearShiftUp", "Shift Up", Game::INPUT_VEHICLE, "NONE"); gearShiftDown = AddSwitchInput("GearShiftDown", "Shift Down", Game::INPUT_VEHICLE, "NONE"); // Racing Game Gear Shift CSwitchInput *shift1 = AddSwitchInput("GearShift1", "Shift 1", Game::INPUT_SHIFT4, "NONE"); CSwitchInput *shift2 = AddSwitchInput("GearShift2", "Shift 2", Game::INPUT_SHIFT4, "NONE"); CSwitchInput *shift3 = AddSwitchInput("GearShift3", "Shift 3", Game::INPUT_SHIFT4, "NONE"); CSwitchInput *shift4 = AddSwitchInput("GearShift4", "Shift 4", Game::INPUT_SHIFT4, "NONE"); CSwitchInput *shiftN = AddSwitchInput("GearShiftN", "Shift Neutral", Game::INPUT_SHIFT4, "NONE"); gearShift4 = AddGearShift4Input("GearShift", "Gear Shift", Game::INPUT_SHIFT4, shift1, shift2, shift3, shift4, shiftN, gearShiftUp, gearShiftDown); // Racing Game 4 VR View Buttons vr[0] = AddSwitchInput("VR1", "VR1", Game::INPUT_VR4, "NONE"); vr[1] = AddSwitchInput("VR2", "VR2", Game::INPUT_VR4, "NONE"); vr[2] = AddSwitchInput("VR3", "VR3", Game::INPUT_VR4, "NONE"); vr[3] = AddSwitchInput("VR4", "VR4", Game::INPUT_VR4, "NONE"); // Racing Game Single View Change Button viewChange = AddSwitchInput("ViewChange", "View Change", Game::INPUT_VIEWCHANGE, "NONE"); // Racing Game Handbrake handBrake = AddSwitchInput("HandBrake", "Hand Brake", Game::INPUT_HANDBRAKE, "NONE"); // Harley Davidson Controls rearBrake = AddAnalogInput("RearBrake", "Rear Brake", Game::INPUT_HARLEY, "NONE"); musicSelect = AddSwitchInput("MusicSelect", "Music Selection", Game::INPUT_HARLEY, "NONE"); // Virtual On Controls twinJoyTurnLeft = AddSwitchInput("TwinJoyTurnLeft", "Macro Turn Left", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyTurnRight = AddSwitchInput("TwinJoyTurnRight", "Macro Turn Right", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyForward = AddSwitchInput("TwinJoyForward", "Macro Forward", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyReverse = AddSwitchInput("TwinJoyReverse", "Macro Reverse", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyStrafeLeft = AddSwitchInput("TwinJoyStrafeLeft", "Macro Strafe Left", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyStrafeRight = AddSwitchInput("TwinJoyStrafeRight", "Macro Strafe Right", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyJump = AddSwitchInput("TwinJoyJump", "Macro Jump", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyCrouch = AddSwitchInput("TwinJoyCrouch", "Macro Crouch", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyLeft1 = AddSwitchInput("TwinJoyLeft1", "Left Joystick Left", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyLeft2 = AddSwitchInput("TwinJoyLeft2", "Right Joystick Left", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyRight1 = AddSwitchInput("TwinJoyRight1", "Left Joystick Right", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyRight2 = AddSwitchInput("TwinJoyRight2", "Right Joystick Right", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyUp1 = AddSwitchInput("TwinJoyUp1", "Left Joystick Up", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyUp2 = AddSwitchInput("TwinJoyUp2", "Right Joystick Up", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyDown1 = AddSwitchInput("TwinJoyDown1", "Left Joystick Down", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyDown2 = AddSwitchInput("TwinJoyDown2", "Right Joystick Down", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyShot1 = AddSwitchInput("TwinJoyShot1", "Left Shot Trigger", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyShot2 = AddSwitchInput("TwinJoyShot2", "Right Shot Trigger", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyTurbo1 = AddSwitchInput("TwinJoyTurbo1", "Left Turbo", Game::INPUT_TWIN_JOYSTICKS, "NONE"); twinJoyTurbo2 = AddSwitchInput("TwinJoyTurbo2", "Right Turbo", Game::INPUT_TWIN_JOYSTICKS, "NONE"); // Analog Joystick CAnalogInput *analogJoyLeft = AddAnalogInput("AnalogJoyLeft", "Analog Left", Game::INPUT_ANALOG_JOYSTICK, "NONE"); CAnalogInput *analogJoyRight = AddAnalogInput("AnalogJoyRight", "Analog Right", Game::INPUT_ANALOG_JOYSTICK, "NONE"); CAnalogInput *analogJoyUp = AddAnalogInput("AnalogJoyUp", "Analog Up", Game::INPUT_ANALOG_JOYSTICK, "NONE"); CAnalogInput *analogJoyDown = AddAnalogInput("AnalogJoyDown", "Analog Down", Game::INPUT_ANALOG_JOYSTICK, "NONE"); analogJoyX = AddAxisInput ("AnalogJoyX", "Analog X-Axis", Game::INPUT_ANALOG_JOYSTICK, "NONE", analogJoyLeft, analogJoyRight); analogJoyY = AddAxisInput ("AnalogJoyY", "Analog Y-Axis", Game::INPUT_ANALOG_JOYSTICK, "NONE", analogJoyUp, analogJoyDown); analogJoyTrigger1 = AddSwitchInput("AnalogJoyTrigger", "Trigger Button 1", Game::INPUT_ANALOG_JOYSTICK, "NONE"); analogJoyTrigger2 = AddSwitchInput("AnalogJoyTrigger2", "Trigger Button 2", Game::INPUT_ANALOG_JOYSTICK, "NONE"); analogJoyEvent1 = AddSwitchInput("AnalogJoyEvent", "Event Button 1", Game::INPUT_ANALOG_JOYSTICK, "NONE"); analogJoyEvent2 = AddSwitchInput("AnalogJoyEvent2", "Event Button 2", Game::INPUT_ANALOG_JOYSTICK, "NONE"); // Light guns CAnalogInput *gun1Left = AddAnalogInput("GunLeft", "P1 Gun Left", Game::INPUT_GUN1, "NONE"); CAnalogInput *gun1Right = AddAnalogInput("GunRight", "P1 Gun Right", Game::INPUT_GUN1, "NONE"); CAnalogInput *gun1Up = AddAnalogInput("GunUp", "P1 Gun Up", Game::INPUT_GUN1, "NONE"); CAnalogInput *gun1Down = AddAnalogInput("GunDown", "P1 Gun Down", Game::INPUT_GUN1, "NONE"); gunX[0] = AddAxisInput("GunX", "P1 Gun X-Axis", Game::INPUT_GUN1, "NONE", gun1Left, gun1Right, 150, 400, 651); // normalize to [150,651] gunY[0] = AddAxisInput("GunY", "P1 Gun Y-Axis", Game::INPUT_GUN1, "NONE", gun1Up, gun1Down, 80, 272, 465); // normalize to [80,465] CSwitchInput *gun1Trigger = AddSwitchInput("Trigger", "P1 Trigger", Game::INPUT_GUN1, "NONE"); CSwitchInput *gun1Offscreen = AddSwitchInput("Offscreen", "P1 Point Off-screen", Game::INPUT_GUN1, "NONE"); trigger[0] = AddTriggerInput("AutoTrigger", "P1 Auto Trigger", Game::INPUT_GUN1, gun1Trigger, gun1Offscreen); CAnalogInput *gun2Left = AddAnalogInput("GunLeft2", "P2 Gun Left", Game::INPUT_GUN2, "NONE"); CAnalogInput *gun2Right = AddAnalogInput("GunRight2", "P2 Gun Right", Game::INPUT_GUN2, "NONE"); CAnalogInput *gun2Up = AddAnalogInput("GunUp2", "P2 Gun Up", Game::INPUT_GUN2, "NONE"); CAnalogInput *gun2Down = AddAnalogInput("GunDown2", "P2 Gun Down", Game::INPUT_GUN2, "NONE"); gunX[1] = AddAxisInput("GunX2", "P2 Gun X-Axis", Game::INPUT_GUN2, "NONE", gun2Left, gun2Right, 150, 400, 651); // normalize to [150,651] gunY[1] = AddAxisInput("GunY2", "P2 Gun Y-Axis", Game::INPUT_GUN2, "NONE", gun2Up, gun2Down, 80, 272, 465); // normalize to [80,465] CSwitchInput *gun2Trigger = AddSwitchInput("Trigger2", "P2 Trigger", Game::INPUT_GUN2, "NONE"); CSwitchInput *gun2Offscreen = AddSwitchInput("Offscreen2", "P2 Point Off-screen", Game::INPUT_GUN2, "NONE"); trigger[1] = AddTriggerInput("AutoTrigger2", "P2 Auto Trigger", Game::INPUT_GUN2, gun2Trigger, gun2Offscreen); // Analog guns CAnalogInput *analogGun1Left = AddAnalogInput("AnalogGunLeft", "P1 Analog Gun Left", Game::INPUT_ANALOG_GUN1, "NONE"); CAnalogInput *analogGun1Right = AddAnalogInput("AnalogGunRight", "P1 Analog Gun Right", Game::INPUT_ANALOG_GUN1, "NONE"); CAnalogInput *analogGun1Up = AddAnalogInput("AnalogGunUp", "P1 Analog Gun Up", Game::INPUT_ANALOG_GUN1, "NONE"); CAnalogInput *analogGun1Down = AddAnalogInput("AnalogGunDown", "P1 Analog Gun Down", Game::INPUT_ANALOG_GUN1, "NONE"); analogGunX[0] = AddAxisInput("AnalogGunX", "P1 Analog Gun X-Axis", Game::INPUT_ANALOG_GUN1, "NONE", analogGun1Left, analogGun1Right, 0, 0x80, 0xFF); analogGunY[0] = AddAxisInput("AnalogGunY", "P1 Analog Gun Y-Axis", Game::INPUT_ANALOG_GUN1, "NONE", analogGun1Up, analogGun1Down, 0xFF, 0x80, 0); analogTriggerLeft[0] = AddSwitchInput("AnalogTriggerLeft", "P1 Analog Gun Left Trigger", Game::INPUT_ANALOG_GUN1, "NONE"); analogTriggerRight[0] = AddSwitchInput("AnalogTriggerRight", "P1 Analog Gun Right Trigger", Game::INPUT_ANALOG_GUN1, "NONE"); CAnalogInput *analogGun2Left = AddAnalogInput("AnalogGunLeft2", "P2 Analog Gun Left", Game::INPUT_ANALOG_GUN2, "NONE"); CAnalogInput *analogGun2Right = AddAnalogInput("AnalogGunRight2", "P2 Analog Gun Right", Game::INPUT_ANALOG_GUN2, "NONE"); CAnalogInput *analogGun2Up = AddAnalogInput("AnalogGunUp2", "P2 Analog Gun Up", Game::INPUT_ANALOG_GUN2, "NONE"); CAnalogInput *analogGun2Down = AddAnalogInput("AnalogGunDown2", "P2 Analog Gun Down", Game::INPUT_ANALOG_GUN2, "NONE"); analogGunX[1] = AddAxisInput("AnalogGunX2", "P2 Analog Gun X-Axis", Game::INPUT_ANALOG_GUN2, "NONE", analogGun2Left, analogGun2Right, 0, 0x80, 0xFF); analogGunY[1] = AddAxisInput("AnalogGunY2", "P2 Analog Gun Y-Axis", Game::INPUT_ANALOG_GUN2, "NONE", analogGun2Up, analogGun2Down, 0xFF, 0x80, 0); analogTriggerLeft[1] = AddSwitchInput("AnalogTriggerLeft2", "P2 Analog Gun Left Trigger", Game::INPUT_ANALOG_GUN2, "NONE"); analogTriggerRight[1] = AddSwitchInput("AnalogTriggerRight2", "P2 Analog Gun Right Trigger", Game::INPUT_ANALOG_GUN2, "NONE"); // Ski controls CAnalogInput *skiLeft = AddAnalogInput("SkiLeft", "Ski Champ Left", Game::INPUT_SKI, "NONE"); CAnalogInput *skiRight = AddAnalogInput("SkiRight", "Ski Champ Right", Game::INPUT_SKI, "NONE"); CAnalogInput *skiUp = AddAnalogInput("SkiUp", "Ski Champ Up", Game::INPUT_SKI, "NONE"); CAnalogInput *skiDown = AddAnalogInput("SkiDown", "Ski Champ Down", Game::INPUT_SKI, "NONE"); skiX = AddAxisInput ("SkiX", "Ski Champ X-Axis", Game::INPUT_SKI, "NONE", skiLeft, skiRight, 0xFF, 0x80, 0); skiY = AddAxisInput ("SkiY", "Ski Champ Y-Axis", Game::INPUT_SKI, "NONE", skiUp, skiDown); skiPollLeft = AddSwitchInput("SkiPollLeft", "Ski Champ Poll Left", Game::INPUT_SKI, "NONE"); skiPollRight = AddSwitchInput("SkiPollRight", "Ski Champ Poll Right", Game::INPUT_SKI, "NONE"); skiSelect1 = AddSwitchInput("SkiSelect1", "Ski Champ Select 1", Game::INPUT_SKI, "NONE"); skiSelect2 = AddSwitchInput("SkiSelect2", "Ski Champ Select 2", Game::INPUT_SKI, "NONE"); skiSelect3 = AddSwitchInput("SkiSelect3", "Ski Champ Select 3", Game::INPUT_SKI, "NONE"); // Magical truck controls CAnalogInput *magicalLeverUp1 = AddAnalogInput("MagicalLeverUp1", "P1 Magical Lever Up", Game::INPUT_MAGTRUCK, "NONE"); CAnalogInput *magicalLeverDown1 = AddAnalogInput("MagicalLeverDown1", "P1 Magical Lever Down", Game::INPUT_MAGTRUCK, "NONE"); CAnalogInput *magicalLeverUp2 = AddAnalogInput("MagicalLeverUp2", "P2 Magical Lever Up", Game::INPUT_MAGTRUCK, "NONE"); CAnalogInput *magicalLeverDown2 = AddAnalogInput("MagicalLeverDown2", "P2 Magical Lever Down", Game::INPUT_MAGTRUCK, "NONE"); magicalLever1 = AddAxisInput( "MagicalLever1", "P1 Magical Lever", Game::INPUT_MAGTRUCK, "NONE", magicalLeverUp1, magicalLeverDown1, 0xFF, 0x80, 0); magicalLever2 = AddAxisInput( "MagicalLever2", "P2 Magical Lever", Game::INPUT_MAGTRUCK, "NONE", magicalLeverUp2, magicalLeverDown2, 0xFF, 0x80, 0); magicalPedal1 = AddSwitchInput( "MagicalPedal1", "P1 Magical Pedal", Game::INPUT_MAGTRUCK, "NONE"); magicalPedal2 = AddSwitchInput( "MagicalPedal2", "P2 Magical Pedal", Game::INPUT_MAGTRUCK, "NONE"); // Sega Bass Fishing controls CAnalogInput *fishingRodLeft = AddAnalogInput("FishingRodLeft", "Rod Left", Game::INPUT_FISHING, "NONE"); CAnalogInput *fishingRodRight = AddAnalogInput("FishingRodRight", "Rod Right", Game::INPUT_FISHING, "NONE"); CAnalogInput *fishingRodUp = AddAnalogInput("FishingRodUp", "Rod Up", Game::INPUT_FISHING, "NONE"); CAnalogInput *fishingRodDown = AddAnalogInput("FishingRodDown", "Rod Down", Game::INPUT_FISHING, "NONE"); CAnalogInput *fishingStickLeft = AddAnalogInput("FishingStickLeft", "Stick Left", Game::INPUT_FISHING, "NONE"); CAnalogInput *fishingStickRight = AddAnalogInput("FishingStickRight", "Stick Right", Game::INPUT_FISHING, "NONE"); CAnalogInput *fishingStickUp = AddAnalogInput("FishingStickUp", "Stick Up", Game::INPUT_FISHING, "NONE"); CAnalogInput *fishingStickDown = AddAnalogInput("FishingStickDown", "Stick Down", Game::INPUT_FISHING, "NONE"); fishingRodX = AddAxisInput( "FishingRodX", "Rod X-Axis", Game::INPUT_FISHING, "NONE", fishingRodLeft, fishingRodRight, 0, 0x80, 0xFF); fishingRodY = AddAxisInput( "FishingRodY", "Rod Y-Axis", Game::INPUT_FISHING, "NONE", fishingRodUp, fishingRodDown, 0, 0x80, 0xFF); fishingReel = AddAnalogInput( "FishingReel", "Reel Speed", Game::INPUT_FISHING, "NONE"); fishingStickX = AddAxisInput( "FishingStickX", "Stick X-Axis", Game::INPUT_FISHING, "NONE", fishingStickLeft, fishingStickRight, 0, 0x80, 0xFF); fishingStickY = AddAxisInput( "FishingStickY", "Stick Y-Axis", Game::INPUT_FISHING, "NONE", fishingStickUp, fishingStickDown, 0, 0x80, 0xFF); fishingCast = AddSwitchInput( "FishingCast", "Cast", Game::INPUT_FISHING, "NONE"); fishingSelect = AddSwitchInput( "FishingSelect", "Select", Game::INPUT_FISHING, "NONE"); fishingTension = AddAnalogInput("FishingTension", "Tension", Game::INPUT_FISHING, "NONE"); // getbass only } CInputs::~CInputs() { for (vector::iterator it = m_inputs.begin(); it != m_inputs.end(); it++) delete *it; m_inputs.clear(); } CSwitchInput *CInputs::AddSwitchInput(const char *id, const char *label, unsigned gameFlags, const char *defaultMapping, UINT16 offVal, UINT16 onVal) { CSwitchInput *input = new CSwitchInput(id, label, gameFlags, defaultMapping, offVal, onVal); m_inputs.push_back(input); return input; } CAnalogInput *CInputs::AddAnalogInput(const char *id, const char *label, unsigned gameFlags, const char *defaultMapping, UINT16 minVal, UINT16 maxVal) { CAnalogInput *input = new CAnalogInput(id, label, gameFlags, defaultMapping, minVal, maxVal); m_inputs.push_back(input); return input; } CAxisInput *CInputs::AddAxisInput(const char *id, const char *label, unsigned gameFlags, const char *defaultMapping, CAnalogInput *axisNeg, CAnalogInput *axisPos, UINT16 minVal, UINT16 offVal, UINT16 maxVal) { CAxisInput *input = new CAxisInput(id, label, gameFlags, defaultMapping, axisNeg, axisPos, minVal, offVal, maxVal); m_inputs.push_back(input); return input; } CGearShift4Input *CInputs::AddGearShift4Input(const char *id, const char *label, unsigned gameFlags, CSwitchInput *shift1, CSwitchInput *shift2, CSwitchInput *shift3, CSwitchInput *shift4, CSwitchInput *shiftN, CSwitchInput *shiftUp, CSwitchInput *shiftDown) { CGearShift4Input *input = new CGearShift4Input(id, label, gameFlags, shift1, shift2, shift3, shift4, shiftN, shiftUp, shiftDown); m_inputs.push_back(input); return input; } CTriggerInput *CInputs::AddTriggerInput(const char *id, const char *label, unsigned gameFlags, CSwitchInput *trigger, CSwitchInput *offscreen, UINT16 offVal, UINT16 onVal) { CTriggerInput *input = new CTriggerInput(id, label, gameFlags, trigger, offscreen, offVal, onVal); m_inputs.push_back(input); return input; } void CInputs::PrintHeader(const char *fmt, ...) { char header[1024]; va_list vl; va_start(vl, fmt); vsprintf(header, fmt, vl); va_end(vl); puts(header); for (size_t i = 0; i < strlen(header); i++) putchar('-'); printf("\n\n"); } void CInputs::PrintConfigureInputsHelp() { puts("For each control, use the following keys to map the inputs:"); puts(""); puts(" Return Set current input mapping and move to next control"); puts(" c Clear current input mapping and remain there"); puts(" s Set the current input mapping and remain there"); puts(" a Append to current input mapping (for multiple assignments)"); puts(" and remain there"); puts(" r Reset current input mapping to default and remain there"); puts(" Down Move onto next control"); puts(" Up Go back to previous control"); puts(" b Calibrate joystick axes"); puts(" i Display information about input system and attached devices"); puts(" h Display this help again"); puts(" q Finish and save all changes"); puts(" Esc Finish without saving any changes"); puts(""); puts("To assign input(s), simply press the appropriate key(s), mouse button(s),"); puts("joystick button(s), or move the mouse along one or more axes, or move a"); puts("joystick's axis or POV hat controller(s). The input(s) will be accepted"); puts("as soon as all pressed keys and buttons are released and all moved mouse"); puts("and joystick controllers are returned to their rest positions."); puts(""); puts("Notes:"); puts(" - In order to assign keys the configuration window must on top."); puts(" - In order to assign mouse buttons the mouse must be clicked within the"); puts(" window."); puts(" - In order to assign mouse axes, the cursor must first be placed in the"); puts(" center of the window and then moved in the corresponding direction to the"); puts(" window's edge and then returned to the center."); puts(""); } unsigned CInputs::Count() { return (unsigned)m_inputs.size(); } CInput *CInputs::operator[](const unsigned index) { return m_inputs[index]; } CInput *CInputs::operator[](const char *idOrLabel) { for (vector::iterator it = m_inputs.begin(); it != m_inputs.end(); it++) { if (stricmp((*it)->id, idOrLabel) == 0 || stricmp((*it)->label, idOrLabel) == 0) return *it; } return NULL; } CInputSystem *CInputs::GetInputSystem() { return m_system; } bool CInputs::Initialize() { // Make sure the input system is initialized too if (!m_system->Initialize()) return false; // Initialize all the inputs for (vector::iterator it = m_inputs.begin(); it != m_inputs.end(); it++) (*it)->Initialize(m_system); return true; } void CInputs::LoadFromConfig(const Util::Config::Node &config) { m_system->LoadFromConfig(config); for (vector::iterator it = m_inputs.begin(); it != m_inputs.end(); it++) (*it)->LoadFromConfig(config); } void CInputs::StoreToConfig(Util::Config::Node *config) { m_system->StoreToConfig(config); for (vector::iterator it = m_inputs.begin(); it != m_inputs.end(); it++) (*it)->StoreToConfig(config); } bool CInputs::ConfigureInputs(const Game &game) { m_system->UngrabMouse(); // Print header and help message uint32_t gameFlags; if (!game.name.empty()) { PrintHeader("Configure Inputs for '%s'", game.title.c_str()); gameFlags = game.inputs; } else { PrintHeader("Configure Inputs"); gameFlags = Game::INPUT_ALL; } PrintConfigureInputsHelp(); // Get all inputs to be configured vector toConfigure; vector::iterator it; for (it = m_inputs.begin(); it != m_inputs.end(); it++) { if ((*it)->IsConfigurable() && ((*it)->gameFlags & gameFlags)) toConfigure.push_back(*it); } // Remember current mappings for each input in case changes need to be undone later vector oldMappings(toConfigure.size()); size_t index = 0; for (it = toConfigure.begin(); it != toConfigure.end(); it++) oldMappings[index++] = (*it)->GetMapping(); const char *groupLabel = NULL; bool cancelled = false; // Loop through all the inputs to be configured index = 0; while (index < toConfigure.size()) { // Get the current input CInput *input = toConfigure[index]; // If have moved to a new input group, print the group heading const char *itGroupLabel = input->GetInputGroup(); if (groupLabel == NULL || stricmp(groupLabel, itGroupLabel) != 0) { groupLabel = itGroupLabel; printf("%s:\n", groupLabel); } Redisplay: // Print the input label, current input mapping and available options if (index > 0) printf(" %s [%s]: Ret/c/s/a/r/Up/Down/b/h/q/Esc? ", input->label, input->GetMapping()); else printf(" %s [%s]: Ret/c/s/a/r/Down/h/b/q/Esc? ", input->label, input->GetMapping()); fflush(stdout); // required on terminals that use buffering // Loop until user has selected a valid option bool done = false; char mapping[50]; while (!done) { // Wait for input from user if (!m_system->ReadMapping(mapping, 50, false, READ_KEYBOARD|READ_MERGE, uiExit->GetMapping())) { // If user pressed aborted input, then undo all changes and finish configuration index = 0; for (it = toConfigure.begin(); it != toConfigure.end(); it++) { (*it)->SetMapping(oldMappings[index].c_str()); index++; } cancelled = true; goto Finish; } if (stricmp(mapping, "KEY_RETURN") == 0 || stricmp(mapping, "KEY_S") == 0) { // Set the input mapping printf("Setting... "); fflush(stdout); // required on terminals that use buffering if (input->Configure(false, uiExit->GetMapping())) { puts(input->GetMapping()); if (stricmp(mapping, "KEY_RETURN") == 0) index++; done = true; } else { puts("[Cancelled]"); goto Redisplay; } } else if (stricmp(mapping, "KEY_A") == 0) { // Append to the input mapping(s) printf("Appending... "); fflush(stdout); // required on terminals that use buffering if (input->Configure(true, uiExit->GetMapping())) puts(input->GetMapping()); else puts("[Cancelled]"); goto Redisplay; } else if (stricmp(mapping, "KEY_C") == 0) { // Clear the input mapping(s) input->SetMapping("NONE"); puts("Cleared"); goto Redisplay; } else if (stricmp(mapping, "KEY_R") == 0) { // Reset the input mapping(s) to the default input->ResetToDefaultMapping(); puts("Reset"); goto Redisplay; } else if (stricmp(mapping, "KEY_DOWN") == 0) { // Move forward to the next mapping puts(""); index++; done = true; } else if (stricmp(mapping, "KEY_UP") == 0) { // Move back to the previous mapping if (index > 0) { puts(""); index--; done = true; } } else if (stricmp(mapping, "KEY_HOME") == 0) { // Move to first input puts(""); index = 0; done = true; } else if (stricmp(mapping, "KEY_B") == 0) { // Calibrate joysticks printf("\n\n"); CalibrateJoysticks(); puts(""); goto Redisplay; } else if (stricmp(mapping, "KEY_I") == 0) { // Print info about input system printf("\n\n"); m_system->PrintSettings(); goto Redisplay; } else if (stricmp(mapping, "KEY_H") == 0) { // Print the help message again printf("\n\n"); PrintConfigureInputsHelp(); goto Redisplay; } else if (stricmp(mapping, "KEY_Q") == 0) goto Finish; } } Finish: printf("\n\n"); m_system->GrabMouse(); return !cancelled; } bool CInputs::ConfigureInputs(const Game &game, unsigned dispX, unsigned dispY, unsigned dispW, unsigned dispH) { // Let the input system know the display geometry m_system->SetDisplayGeom(dispX, dispY, dispW, dispH); return ConfigureInputs(game); } void CInputs::CalibrateJoysticks() { int numJoys = m_system->GetNumJoysticks(); if (numJoys == 0 || numJoys == ANY_JOYSTICK) puts("No joysticks attached to calibrate!"); else { puts("Choose joystick to calibrate (or press Esc to cancel):"); if (numJoys > 10) numJoys = 10; for (int i = 0; i < numJoys; i++) { const JoyDetails *joyDetails = m_system->GetJoyDetails(i); unsigned dispNum = (i == 9 ? 0 : i + 1); printf(" %u: %s\n", dispNum, joyDetails->name); } char mapping[50]; while (m_system->ReadMapping(mapping, 50, false, READ_KEYBOARD|READ_MERGE, uiExit->GetMapping())) { if (strlen(mapping) != 5 || strncmp(mapping, "KEY_", 4) != 0) continue; char c = mapping[4]; if (!isdigit(c)) continue; int joyNum = c - '0'; joyNum = (joyNum == 0 ? 9 : joyNum - 1); if (joyNum >= numJoys) continue; puts(""); CalibrateJoystick(joyNum); return; } } } void CInputs::CalibrateJoystick(int joyNum) { const JoyDetails *joyDetails = m_system->GetJoyDetails(joyNum); if (joyDetails == NULL || joyDetails->numAxes == 0) { puts("No axes available to calibrate on joystick!"); return; } printf("Calibrating joystick '%s'.\n\n", joyDetails->name); puts("Choose axis to calibrate (or press Esc to cancel):"); vector axisNumList; for (unsigned axisNum = 0; axisNum < NUM_JOY_AXES; axisNum++) { if (!joyDetails->hasAxis[axisNum]) continue; axisNumList.push_back(axisNum); printf(" %u: %s\n", (unsigned) axisNumList.size(), joyDetails->axisName[axisNum]); } printf(" 0: Unsure - help me choose...\n"); char mapping[50]; while (m_system->ReadMapping(mapping, 50, false, READ_KEYBOARD|READ_MERGE, uiExit->GetMapping())) { unsigned axisNum; if (stricmp(mapping, "KEY_0") == 0) { puts(""); if (!m_system->DetectJoystickAxis(joyNum, axisNum)) return; } else { if (strlen(mapping) != 5 || strncmp(mapping, "KEY_", 4) != 0) continue; char c = mapping[4]; if (!isdigit(c)) continue; unsigned optNum = c - '0'; if (optNum == 0 || optNum > axisNumList.size()) continue; axisNum = axisNumList[optNum - 1]; } puts(""); if (m_system->CalibrateJoystickAxis(joyNum, axisNum)) { for (vector::iterator it = m_inputs.begin(); it != m_inputs.end(); it++) (*it)->InputSystemChanged(); } return; } } void CInputs::PrintInputs(const Game *game) { // Print header int gameFlags; if (game != NULL) { PrintHeader("Input Assignments for %s", game->title.c_str()); gameFlags = game->inputs; } else { PrintHeader("Input Assignments"); gameFlags = Game::INPUT_ALL; } const char *groupLabel = NULL; for (vector::iterator it = m_inputs.begin(); it != m_inputs.end(); it++) { if (!(*it)->IsConfigurable() || !((*it)->gameFlags & gameFlags)) continue; const char *itGroupLabel = (*it)->GetInputGroup(); if (groupLabel == NULL || stricmp(groupLabel, itGroupLabel) != 0) { groupLabel = itGroupLabel; printf("%s:\n", groupLabel); } printf(" %s = %s\n", (*it)->label, (*it)->GetMapping()); } puts(""); } bool CInputs::Poll(const Game *game, unsigned dispX, unsigned dispY, unsigned dispW, unsigned dispH) { // Update the input system with the current display geometry m_system->SetDisplayGeom(dispX, dispY, dispW, dispH); // Poll the input system if (!m_system->Poll()) return false; // Poll all UI inputs and all the inputs used by the current game, or all inputs if game is NULL uint32_t gameFlags = game ? game->inputs : Game::INPUT_ALL; for (vector::iterator it = m_inputs.begin(); it != m_inputs.end(); it++) { if ((*it)->IsUIInput() || ((*it)->gameFlags & gameFlags)) (*it)->Poll(); } return true; } void CInputs::DumpState(const Game *game) { // Print header int gameFlags; if (game != NULL) { PrintHeader("Input States for %s", game->title.c_str()); gameFlags = game->inputs; } else { PrintHeader("Input States"); gameFlags = Game::INPUT_ALL; } // Loop through the inputs used by the current game, or all inputs if game is NULL, and dump their values to stdout for (vector::iterator it = m_inputs.begin(); it != m_inputs.end(); it++) { if (!(*it)->IsUIInput() && !((*it)->gameFlags & gameFlags)) continue; if ((*it)->IsVirtual()) printf("%s = (%d)\n", (*it)->id, (*it)->value); else printf("%s [%s] = (%d)\n", (*it)->id, (*it)->GetMapping(), (*it)->value); } }