#define SIMULATE_ATTITUDE_FROM_GRAVITY 1 #import "iPhone_Sensors.h" #if UNITY_USES_LOCATION #import #endif #if !PLATFORM_TVOS #import #endif #import #include "OrientationSupport.h" #include "Unity/UnityInterface.h" #include "Vector3.h" #include "Quaternion4.h" typedef void (^ControllerPausedHandler)(GCController *controller); static NSArray* QueryControllerCollection(); #if PLATFORM_TVOS static bool gTVRemoteTouchesEnabled = true; static bool gTVRemoteAllowRotationInitialValue = false; static bool gTVRemoteReportsAbsoluteDpadValuesInitialValue = false; #endif static bool gCompensateSensors = true; bool gEnableGyroscope = false; extern "C" void UnityEnableGyroscope(bool value) { gEnableGyroscope = value; } static bool gJoysticksInited = false; #define MAX_JOYSTICKS 4 static bool gPausedJoysticks[MAX_JOYSTICKS] = {false, false, false, false}; static id gGameControllerClass = nil; // This defines the number of maximum acceleration events Unity will queue internally for scripts to access. extern "C" int UnityMaxQueuedAccelerationEvents() { return 2 * 60; } // 120 events or 2 seconds at 60Hz reporting. static NSMutableSet *pressedButtons = nil; static ControllerPausedHandler gControllerHandler = ^(GCController *controller) { NSArray* list = QueryControllerCollection(); if (list != nil) { NSUInteger idx = [list indexOfObject: controller]; if (idx < MAX_JOYSTICKS) { gPausedJoysticks[idx] = !gPausedJoysticks[idx]; } } }; extern "C" bool IsCompensatingSensors() { return gCompensateSensors; } extern "C" void SetCompensatingSensors(bool val) { gCompensateSensors = val; } inline float UnityReorientHeading(float heading) { if (IsCompensatingSensors()) { float rotateBy = 0.f; switch (UnityCurrentOrientation()) { case portraitUpsideDown: rotateBy = -180.f; break; case landscapeLeft: rotateBy = -270.f; break; case landscapeRight: rotateBy = -90.f; break; default: break; } return fmodf((360.f + heading + rotateBy), 360.f); } else { return heading; } } inline Vector3f UnityReorientVector3(float x, float y, float z) { if (IsCompensatingSensors()) { Vector3f res; switch (UnityCurrentOrientation()) { case portraitUpsideDown: { res = (Vector3f) {-x, -y, z}; } break; case landscapeLeft: { res = (Vector3f) {-y, x, z}; } break; case landscapeRight: { res = (Vector3f) {y, -x, z}; } break; default: { res = (Vector3f) {x, y, z}; } } return res; } else { return (Vector3f) {x, y, z}; } } inline Quaternion4f UnityReorientQuaternion(float x, float y, float z, float w) { if (IsCompensatingSensors()) { Quaternion4f res, inp = {x, y, z, w}; switch (UnityCurrentOrientation()) { case landscapeLeft: QuatMultiply(res, inp, gQuatRot[1]); break; case portraitUpsideDown: QuatMultiply(res, inp, gQuatRot[2]); break; case landscapeRight: QuatMultiply(res, inp, gQuatRot[3]); break; default: res = inp; } return res; } else { return (Quaternion4f) {x, y, z, w}; } } #if PLATFORM_TVOS static bool sGCMotionForwardingEnabled = false; static bool sGCMotionForwardedForCurrentFrame = false; #else static CMMotionManager* sMotionManager = nil; static NSOperationQueue* sMotionQueue = nil; #endif // Current update interval or 0.0f if not initialized. This is returned // to the user as current update interval and this value is set to 0.0f when // gyroscope is disabled. static float sUpdateInterval = 0.0f; // Update interval set by the user. Core motion will be set-up to use // this update interval after disabling and re-enabling gyroscope // so users can set update interval, disable gyroscope, enable gyroscope and // after that gyroscope will be updated at this previously set interval. #if !PLATFORM_TVOS static float sUserUpdateInterval = 1.0f / 30.0f; #endif void SensorsCleanup() { #if !PLATFORM_TVOS if (sMotionManager != nil) { [sMotionManager stopGyroUpdates]; [sMotionManager stopDeviceMotionUpdates]; [sMotionManager stopAccelerometerUpdates]; sMotionManager = nil; } sMotionQueue = nil; #endif } extern "C" void UnityCoreMotionStart() { #if PLATFORM_TVOS sGCMotionForwardingEnabled = true; #else if (sMotionQueue == nil) sMotionQueue = [[NSOperationQueue alloc] init]; bool initMotionManager = (sMotionManager == nil); if (initMotionManager) sMotionManager = [[CMMotionManager alloc] init]; if (gEnableGyroscope && sMotionManager.gyroAvailable) { [sMotionManager startGyroUpdates]; [sMotionManager setGyroUpdateInterval: sUpdateInterval]; } if (gEnableGyroscope && sMotionManager.deviceMotionAvailable) { [sMotionManager startDeviceMotionUpdates]; [sMotionManager setDeviceMotionUpdateInterval: sUpdateInterval]; } if (initMotionManager && sMotionManager.accelerometerAvailable) { const int frequency = UnityGetAccelerometerFrequency(); if (frequency > 0) { sMotionManager.accelerometerUpdateInterval = 1.0f / frequency; [sMotionManager startAccelerometerUpdates]; } } #endif } extern "C" void UnityCoreMotionStop() { #if PLATFORM_TVOS sGCMotionForwardingEnabled = false; #else if (sMotionManager != nil) { [sMotionManager stopGyroUpdates]; [sMotionManager stopDeviceMotionUpdates]; [sMotionManager stopAccelerometerUpdates]; } #endif } extern "C" void UnityUpdateAccelerometerData() { #if !PLATFORM_TVOS if (sMotionManager) { CMAccelerometerData* data = sMotionManager.accelerometerData; if (data != nil) { Vector3f res = UnityReorientVector3(data.acceleration.x, data.acceleration.y, data.acceleration.z); UnityDidAccelerate(res.x, res.y, res.z, data.timestamp); } } #endif } extern "C" void UnitySetGyroUpdateInterval(int idx, float interval) { #if !PLATFORM_TVOS static const float _MinUpdateInterval = 1.0f / 60.0f; static const float _MaxUpdateInterval = 1.0f; if (interval < _MinUpdateInterval) interval = _MinUpdateInterval; else if (interval > _MaxUpdateInterval) interval = _MaxUpdateInterval; sUserUpdateInterval = interval; if (sMotionManager) { sUpdateInterval = interval; [sMotionManager setGyroUpdateInterval: interval]; [sMotionManager setDeviceMotionUpdateInterval: interval]; } #endif } extern "C" float UnityGetGyroUpdateInterval(int idx) { return sUpdateInterval; } extern "C" void UnityUpdateGyroData() { #if !PLATFORM_TVOS CMRotationRate rotationRate = { 0.0, 0.0, 0.0 }; CMRotationRate rotationRateUnbiased = { 0.0, 0.0, 0.0 }; CMAcceleration userAcceleration = { 0.0, 0.0, 0.0 }; CMAcceleration gravity = { 0.0, 0.0, 0.0 }; CMQuaternion attitude = { 0.0, 0.0, 0.0, 1.0 }; if (sMotionManager != nil) { CMGyroData *gyroData = sMotionManager.gyroData; CMDeviceMotion *motionData = sMotionManager.deviceMotion; if (gyroData != nil) { rotationRate = gyroData.rotationRate; } if (motionData != nil) { CMAttitude *att = motionData.attitude; attitude = att.quaternion; rotationRateUnbiased = motionData.rotationRate; userAcceleration = motionData.userAcceleration; gravity = motionData.gravity; } } Vector3f reorientedRotRate = UnityReorientVector3(rotationRate.x, rotationRate.y, rotationRate.z); UnitySensorsSetGyroRotationRate(0, reorientedRotRate.x, reorientedRotRate.y, reorientedRotRate.z); Vector3f reorientedRotRateUnbiased = UnityReorientVector3(rotationRateUnbiased.x, rotationRateUnbiased.y, rotationRateUnbiased.z); UnitySensorsSetGyroRotationRateUnbiased(0, reorientedRotRateUnbiased.x, reorientedRotRateUnbiased.y, reorientedRotRateUnbiased.z); Vector3f reorientedUserAcc = UnityReorientVector3(userAcceleration.x, userAcceleration.y, userAcceleration.z); UnitySensorsSetUserAcceleration(0, reorientedUserAcc.x, reorientedUserAcc.y, reorientedUserAcc.z); Vector3f reorientedG = UnityReorientVector3(gravity.x, gravity.y, gravity.z); UnitySensorsSetGravity(0, reorientedG.x, reorientedG.y, reorientedG.z); Quaternion4f reorientedAtt = UnityReorientQuaternion(attitude.x, attitude.y, attitude.z, attitude.w); UnitySensorsSetAttitude(0, reorientedAtt.x, reorientedAtt.y, reorientedAtt.z, reorientedAtt.w); #endif } extern "C" int UnityIsGyroEnabled(int idx) { #if PLATFORM_TVOS return sGCMotionForwardingEnabled; #else if (sMotionManager == nil) return 0; return sMotionManager.gyroAvailable && sMotionManager.gyroActive; #endif } extern "C" int UnityIsGyroAvailable() { #if PLATFORM_TVOS return true; #else if (sMotionManager != nil) return sMotionManager.gyroAvailable; #endif return 0; } // -- Joystick stuff -- #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wobjc-method-access" enum JoystickButtonNumbers { BTN_PAUSE = 0, BTN_DPAD_UP = 4, BTN_DPAD_RIGHT = 5, BTN_DPAD_DOWN = 6, BTN_DPAD_LEFT = 7, BTN_Y = 12, BTN_B = 13, BTN_A = 14, BTN_X = 15, BTN_L1 = 8, BTN_L2 = 10, BTN_R1 = 9, BTN_R2 = 11, BTN_MENU = 16, BTN_COUNT }; typedef struct { int buttonCode; bool state; } JoystickButtonState; JoystickButtonState gAggregatedJoystickState[BTN_COUNT]; static float GetAxisValue(GCControllerAxisInput* axis) { return axis.value; } static float GetButtonValue(GCControllerButtonInput* button) { return button.value; } static BOOL GetButtonPressed(GCControllerButtonInput* button) { return button.pressed; } extern "C" void UnityInitJoysticks() { if (!gJoysticksInited) { NSBundle* bundle = [NSBundle bundleWithPath: @"/System/Library/Frameworks/GameController.framework"]; if (bundle) { [bundle load]; gGameControllerClass = [bundle classNamed: @"GCController"]; //Apply settings that could have been set by user scripts before controller initialization #if PLATFORM_TVOS UnitySetAppleTVRemoteAllowRotation(gTVRemoteAllowRotationInitialValue); UnitySetAppleTVRemoteReportAbsoluteDpadValues(gTVRemoteReportsAbsoluteDpadValuesInitialValue); #endif } for (int i = 0; i < BTN_COUNT; i++) { char buf[128]; sprintf(buf, "joystick button %d", i); gAggregatedJoystickState[i].buttonCode = UnityStringToKey(buf); gAggregatedJoystickState[i].state = false; } pressedButtons = [[NSMutableSet alloc] init]; gJoysticksInited = true; } } static NSArray* QueryControllerCollection() { return gGameControllerClass != nil ? (NSArray*)[gGameControllerClass performSelector: @selector(controllers)] : nil; } static void ResetAggregatedJoystickState() { for (int i = 0; i < BTN_COUNT; i++) { if ([pressedButtons containsObject: [NSNumber numberWithInteger: gAggregatedJoystickState[i].buttonCode]]) { gAggregatedJoystickState[i].state = false; } } for (NSNumber *code in pressedButtons) { UnitySetKeyState((int)[code integerValue], false); } [pressedButtons removeAllObjects]; } static void SetAggregatedJoystickState() { for (int i = 0; i < BTN_COUNT; i++) { if (gAggregatedJoystickState[i].state) { UnitySetKeyState(gAggregatedJoystickState[i].buttonCode, gAggregatedJoystickState[i].state); [pressedButtons addObject: [NSNumber numberWithInteger: gAggregatedJoystickState[i].buttonCode]]; } } } // Mirror button input into virtual joystick 0 static void ReportAggregatedJoystickButton(int buttonNum, int state) { assert(buttonNum < BTN_COUNT); gAggregatedJoystickState[buttonNum].state |= (bool)state; } static void SetJoystickButtonState(int joyNum, int buttonNum, int state) { if (state) { char buf[128]; sprintf(buf, "joystick %d button %d", joyNum, buttonNum); int code = UnityStringToKey(buf); [pressedButtons addObject: [NSNumber numberWithInteger: code]]; UnitySetKeyState(code, state); } ReportAggregatedJoystickButton(buttonNum, state); } static void ReportJoystickButton(int idx, JoystickButtonNumbers num, GCControllerButtonInput* button) { SetJoystickButtonState(idx + 1, num, GetButtonPressed(button)); UnitySetJoystickPosition(idx + 1, num, GetButtonValue(button)); } template static void ReportJoystickXYZAxes(int idx, int xaxis, int yaxis, int zaxis, const ClassXYZ& xyz) { UnitySetJoystickPosition(idx + 1, xaxis, xyz.x); UnitySetJoystickPosition(idx + 1, yaxis, xyz.y); UnitySetJoystickPosition(idx + 1, zaxis, xyz.z); } template static void ReportJoystickXYZWAxes(int idx, int xaxis, int yaxis, int zaxis, int waxis, const ClassXYZW& xyzw) { UnitySetJoystickPosition(idx + 1, xaxis, xyzw.x); UnitySetJoystickPosition(idx + 1, yaxis, xyzw.y); UnitySetJoystickPosition(idx + 1, zaxis, xyzw.z); UnitySetJoystickPosition(idx + 1, waxis, xyzw.w); } #if PLATFORM_TVOS static void ReportJoystickMicro(int idx, GCMicroGamepad* gamepad) { GCControllerDirectionPad* dpad = [gamepad dpad]; UnitySetJoystickPosition(idx + 1, 0, GetAxisValue([dpad xAxis])); UnitySetJoystickPosition(idx + 1, 1, -GetAxisValue([dpad yAxis])); ReportJoystickButton(idx, BTN_DPAD_UP, [dpad up]); ReportJoystickButton(idx, BTN_DPAD_RIGHT, [dpad right]); ReportJoystickButton(idx, BTN_DPAD_DOWN, [dpad down]); ReportJoystickButton(idx, BTN_DPAD_LEFT, [dpad left]); ReportJoystickButton(idx, BTN_A, [gamepad buttonA]); ReportJoystickButton(idx, BTN_X, [gamepad buttonX]); } #endif static void ReportJoystickBasic(int idx, GCGamepad* gamepad) { GCControllerDirectionPad* dpad = [gamepad dpad]; UnitySetJoystickPosition(idx + 1, 0, GetAxisValue([dpad xAxis])); UnitySetJoystickPosition(idx + 1, 1, -GetAxisValue([dpad yAxis])); ReportJoystickButton(idx, BTN_DPAD_UP, [dpad up]); ReportJoystickButton(idx, BTN_DPAD_RIGHT, [dpad right]); ReportJoystickButton(idx, BTN_DPAD_DOWN, [dpad down]); ReportJoystickButton(idx, BTN_DPAD_LEFT, [dpad left]); ReportJoystickButton(idx, BTN_A, [gamepad buttonA]); ReportJoystickButton(idx, BTN_B, [gamepad buttonB]); ReportJoystickButton(idx, BTN_Y, [gamepad buttonY]); ReportJoystickButton(idx, BTN_X, [gamepad buttonX]); ReportJoystickButton(idx, BTN_L1, [gamepad leftShoulder]); ReportJoystickButton(idx, BTN_R1, [gamepad rightShoulder]); } static void ReportJoystickExtended(int idx, GCExtendedGamepad* gamepad) { GCControllerDirectionPad* dpad = [gamepad dpad]; GCControllerDirectionPad* leftStick = [gamepad leftThumbstick]; GCControllerDirectionPad* rightStick = [gamepad rightThumbstick]; UnitySetJoystickPosition(idx + 1, 0, GetAxisValue([leftStick xAxis])); UnitySetJoystickPosition(idx + 1, 1, -GetAxisValue([leftStick yAxis])); UnitySetJoystickPosition(idx + 1, 2, GetAxisValue([rightStick xAxis])); UnitySetJoystickPosition(idx + 1, 3, -GetAxisValue([rightStick yAxis])); ReportJoystickButton(idx, BTN_DPAD_UP, [dpad up]); ReportJoystickButton(idx, BTN_DPAD_RIGHT, [dpad right]); ReportJoystickButton(idx, BTN_DPAD_DOWN, [dpad down]); ReportJoystickButton(idx, BTN_DPAD_LEFT, [dpad left]); ReportJoystickButton(idx, BTN_A, [gamepad buttonA]); ReportJoystickButton(idx, BTN_B, [gamepad buttonB]); ReportJoystickButton(idx, BTN_Y, [gamepad buttonY]); ReportJoystickButton(idx, BTN_X, [gamepad buttonX]); ReportJoystickButton(idx, BTN_L1, [gamepad leftShoulder]); ReportJoystickButton(idx, BTN_R1, [gamepad rightShoulder]); ReportJoystickButton(idx, BTN_L2, [gamepad leftTrigger]); ReportJoystickButton(idx, BTN_R2, [gamepad rightTrigger]); } static void SimulateAttitudeViaGravityVector(const Vector3f& gravity, Quaternion4f& currentAttitude, Vector3f& rotationRate) { static Quaternion4f lastAttitude = QuatIdentity(); static double lastTime = 0.0; double currentTime = [NSDate timeIntervalSinceReferenceDate]; double deltaTime = lastTime - currentTime; currentAttitude = QuatRotationFromTo(gravity, VecMake(0.0f, 0.0f, -1.0f)); rotationRate = VecScale(1.0f / deltaTime, QuatToEuler(QuatDifference(currentAttitude, lastAttitude))); lastAttitude = currentAttitude; lastTime = currentTime; } // Note that joystick axis numbers in documentation are shifted // by one. 1st axis is referred to by index 0, 16th by 15, etc. static void ReportJoystickMotion(int idx, GCMotion* motion) { Vector3f rotationRate = VecMake(0.0f, 0.0f, 0.0f); Quaternion4f attitude = QuatMake(0.0f, 0.0f, 0.0f, 1.0f); bool gotRotationData = false; if ([motion respondsToSelector: @selector(hasAttitudeAndRotationRate)]) { #if UNITY_HAS_IOSSDK_11_0 || UNITY_HAS_TVOSSDK_11_0 if (motion.hasAttitudeAndRotationRate) { rotationRate = {(float)motion.rotationRate.x, (float)motion.rotationRate.y, (float)motion.rotationRate.z}; attitude = {(float)motion.attitude.x, (float)motion.attitude.y, (float)motion.attitude.z, (float)motion.attitude.w}; gotRotationData = true; } #endif } else { #if PLATFORM_IOS // on iOS we assume that rotationRate and attitude is correct, unless // hasAttitudeAndRotationRate tells us otherwise. // on tvOS, rotationRate and attitude are unavailable if hasAttitudeAndRotationRate is unavailable. rotationRate = {(float)motion.rotationRate.x, (float)motion.rotationRate.y, (float)motion.rotationRate.z}; attitude = {(float)motion.attitude.x, (float)motion.attitude.y, (float)motion.attitude.z, (float)motion.attitude.w}; gotRotationData = true; #endif } #if SIMULATE_ATTITUDE_FROM_GRAVITY if (!gotRotationData) SimulateAttitudeViaGravityVector(VecMake((float)motion.gravity.x, (float)motion.gravity.y, (float)motion.gravity.z), attitude, rotationRate); #endif // From docs: // gravity (x,y,z) : 16, 17, 18 // user acceleration: 19, 20, 21 // rotation rate: 22, 23, 24 // attitude quaternion (x,y,z,w): 25, 26, 27, 28 ReportJoystickXYZAxes(idx, 15, 16, 17, motion.gravity); ReportJoystickXYZAxes(idx, 18, 19, 20, motion.userAcceleration); ReportJoystickXYZAxes(idx, 21, 22, 23, rotationRate); ReportJoystickXYZWAxes(idx, 24, 25, 26, 27, attitude); #if PLATFORM_TVOS if (sGCMotionForwardingEnabled && !sGCMotionForwardedForCurrentFrame) { UnitySensorsSetGravity(0, motion.gravity.x, motion.gravity.y, motion.gravity.z); UnitySensorsSetUserAcceleration(0, motion.userAcceleration.x, motion.userAcceleration.y, motion.userAcceleration.z); UnitySensorsSetGyroRotationRate(0, rotationRate.y, rotationRate.x, rotationRate.z); UnitySensorsSetAttitude(0, attitude.x, attitude.y, attitude.z, attitude.w); UnityDidAccelerate(motion.userAcceleration.x + motion.gravity.x, motion.userAcceleration.y + motion.gravity.y, motion.userAcceleration.z + motion.gravity.z, [[NSDate date] timeIntervalSince1970]); sGCMotionForwardedForCurrentFrame = true; } #endif } static void ReportJoystick(GCController* controller, int idx) { if (controller.controllerPausedHandler == nil) controller.controllerPausedHandler = gControllerHandler; if ([controller extendedGamepad] != nil) ReportJoystickExtended(idx, [controller extendedGamepad]); else if ([controller gamepad] != nil) ReportJoystickBasic(idx, [controller gamepad]); #if PLATFORM_TVOS else if ([controller microGamepad] != nil) ReportJoystickMicro(idx, [controller microGamepad]); #endif else { // TODO: do something with not supported gamepad profiles } if (controller.motion != nil) ReportJoystickMotion(idx, controller.motion); // Map pause button SetJoystickButtonState(idx + 1, BTN_PAUSE, gPausedJoysticks[idx]); // Reset pause button gPausedJoysticks[idx] = false; } // On tvOS simulator we implement a fake remote as tvOS simulator // does not support controllers (yet) #if UNITY_TVOS_SIMULATOR_FAKE_REMOTE struct FakeRemoteState { bool pressedX, pressedA; bool pressedUp, pressedDown, pressedLeft, pressedRight; float xAxis, yAxis; FakeRemoteState() : pressedX(false), pressedA(false), pressedUp(false), pressedDown(false), pressedLeft(false), pressedRight(false), xAxis(0), yAxis(0) {} }; static FakeRemoteState gFakeRemoteState; static void ReportFakeRemoteButton(int idx, JoystickButtonNumbers num, bool pressed) { SetJoystickButtonState(idx + 1, num, pressed); UnitySetJoystickPosition(idx + 1, num, pressed); } void ReportFakeRemote(int idx) { UnitySetJoystickPosition(idx + 1, 0, gFakeRemoteState.xAxis); UnitySetJoystickPosition(idx + 1, 1, -gFakeRemoteState.yAxis); ReportFakeRemoteButton(idx, BTN_DPAD_UP, gFakeRemoteState.pressedUp); ReportFakeRemoteButton(idx, BTN_DPAD_RIGHT, gFakeRemoteState.pressedRight); ReportFakeRemoteButton(idx, BTN_DPAD_DOWN, gFakeRemoteState.pressedDown); ReportFakeRemoteButton(idx, BTN_DPAD_LEFT, gFakeRemoteState.pressedLeft); ReportFakeRemoteButton(idx, BTN_A, gFakeRemoteState.pressedA); ReportFakeRemoteButton(idx, BTN_X, gFakeRemoteState.pressedX); } #endif extern "C" void UnityUpdateJoystickData() { UnityInitJoysticks(); NSArray* list = QueryControllerCollection(); #if PLATFORM_TVOS sGCMotionForwardedForCurrentFrame = false; #endif // Clear aggregated joystick state ResetAggregatedJoystickState(); if (list != nil) { for (int i = 0; i < [list count]; i++) { id controller = [list objectAtIndex: i]; ReportJoystick(controller, i); } } #if UNITY_TVOS_SIMULATOR_FAKE_REMOTE int remoteIndex = list != nil ? (int)[list count] : 0; ReportFakeRemote(remoteIndex); #endif // Report all aggregated joystick button in bulk SetAggregatedJoystickState(); } extern "C" int UnityGetJoystickCount() { NSArray* list = QueryControllerCollection(); int count = list != nil ? (int)[list count] : 0; #if UNITY_TVOS_SIMULATOR_FAKE_REMOTE count++; #endif return count; } static void FormatJoystickIdentifier(int idx, char* buffer, int maxLen, const char* typeString, const char* attachment, const char* vendorName) { snprintf(buffer, maxLen, "[%s,%s] joystick %d by %s", typeString, attachment, idx + 1, vendorName); } extern "C" void UnityGetJoystickName(int idx, char* buffer, int maxLen) { GCController* controller = [QueryControllerCollection() objectAtIndex: idx]; if (controller != nil) { // iOS 8 has bug, which is encountered when controller is being attached // while app is still running. It creates two instances of controller object: // one original and one "Forwarded", accesing later properties are causing crashes const char* attached = "unknown"; // Controller is good one if ([[controller vendorName] rangeOfString: @"Forwarded"].location == NSNotFound) attached = (controller.attachedToDevice ? "wired" : "wireless"); const char* typeString = [controller extendedGamepad] != nil ? "extended" : "basic"; FormatJoystickIdentifier(idx, buffer, maxLen, typeString, attached, [[controller vendorName] UTF8String]); } else { #if UNITY_TVOS_SIMULATOR_FAKE_REMOTE if (idx == [QueryControllerCollection() count]) { FormatJoystickIdentifier(idx, buffer, maxLen, "basic", "wireless", "Unity"); return; } #endif strncpy(buffer, "unknown", maxLen); } } extern "C" void UnityGetJoystickAxisName(int idx, int axis, char* buffer, int maxLen) { } extern "C" void UnityGetNiceKeyname(int key, char* buffer, int maxLen) { } #pragma clang diagnostic pop #if UNITY_USES_LOCATION @interface LocationServiceDelegate : NSObject @end #endif extern "C" void UnitySetLastLocation(double timestamp, float latitude, float longitude, float altitude, float horizontalAccuracy, float verticalAccuracy); extern "C" void UnitySetLastHeading(float magneticHeading, float trueHeading, float rawX, float rawY, float rawZ, double timestamp); #if UNITY_USES_LOCATION struct LocationServiceInfo { private: LocationServiceDelegate* delegate; CLLocationManager* locationManager; public: LocationServiceStatus locationStatus; LocationServiceStatus headingStatus; float desiredAccuracy; float distanceFilter; LocationServiceInfo(); CLLocationManager* GetLocationManager(); }; LocationServiceInfo::LocationServiceInfo() { locationStatus = kLocationServiceStopped; desiredAccuracy = kCLLocationAccuracyKilometer; distanceFilter = 500; headingStatus = kLocationServiceStopped; } static LocationServiceInfo gLocationServiceStatus; CLLocationManager* LocationServiceInfo::GetLocationManager() { if (locationManager == nil) { locationManager = [[CLLocationManager alloc] init]; delegate = [LocationServiceDelegate alloc]; locationManager.delegate = delegate; } return locationManager; } #endif bool LocationService::IsServiceEnabledByUser() { #if UNITY_USES_LOCATION return [CLLocationManager locationServicesEnabled]; #else return false; #endif } void LocationService::SetDesiredAccuracy(float val) { #if UNITY_USES_LOCATION gLocationServiceStatus.desiredAccuracy = val; #endif } float LocationService::GetDesiredAccuracy() { #if UNITY_USES_LOCATION return gLocationServiceStatus.desiredAccuracy; #else return NAN; #endif } void LocationService::SetDistanceFilter(float val) { #if UNITY_USES_LOCATION gLocationServiceStatus.distanceFilter = val; #endif } float LocationService::GetDistanceFilter() { #if UNITY_USES_LOCATION return gLocationServiceStatus.distanceFilter; #else return NAN; #endif } void LocationService::StartUpdatingLocation() { #if UNITY_USES_LOCATION if (gLocationServiceStatus.locationStatus != kLocationServiceRunning) { CLLocationManager* locationManager = gLocationServiceStatus.GetLocationManager(); [locationManager requestWhenInUseAuthorization]; locationManager.desiredAccuracy = gLocationServiceStatus.desiredAccuracy; // Set a movement threshold for new events locationManager.distanceFilter = gLocationServiceStatus.distanceFilter; #if PLATFORM_IOS [locationManager startUpdatingLocation]; #else [locationManager requestLocation]; #endif gLocationServiceStatus.locationStatus = kLocationServiceInitializing; } #endif } void LocationService::StopUpdatingLocation() { #if UNITY_USES_LOCATION if (gLocationServiceStatus.locationStatus != kLocationServiceStopped) { [gLocationServiceStatus.GetLocationManager() stopUpdatingLocation]; gLocationServiceStatus.locationStatus = kLocationServiceStopped; } #endif } void LocationService::SetHeadingUpdatesEnabled(bool enabled) { #if PLATFORM_IOS && UNITY_USES_LOCATION if (enabled) { if (gLocationServiceStatus.headingStatus != kLocationServiceRunning && IsHeadingAvailable()) { CLLocationManager* locationManager = gLocationServiceStatus.GetLocationManager(); [locationManager startUpdatingHeading]; gLocationServiceStatus.headingStatus = kLocationServiceInitializing; } } else { if (gLocationServiceStatus.headingStatus != kLocationServiceStopped) { [gLocationServiceStatus.GetLocationManager() stopUpdatingHeading]; gLocationServiceStatus.headingStatus = kLocationServiceStopped; } } #endif } bool LocationService::IsHeadingUpdatesEnabled() { #if UNITY_USES_LOCATION return (gLocationServiceStatus.headingStatus == kLocationServiceRunning); #else return false; #endif } LocationServiceStatus LocationService::GetLocationStatus() { #if UNITY_USES_LOCATION return (LocationServiceStatus)gLocationServiceStatus.locationStatus; #else return kLocationServiceFailed; #endif } LocationServiceStatus LocationService::GetHeadingStatus() { #if UNITY_USES_LOCATION return (LocationServiceStatus)gLocationServiceStatus.headingStatus; #else return kLocationServiceFailed; #endif } bool LocationService::IsHeadingAvailable() { #if PLATFORM_IOS && UNITY_USES_LOCATION return [CLLocationManager headingAvailable]; #else return false; #endif } #if UNITY_USES_LOCATION @implementation LocationServiceDelegate - (void)locationManager:(CLLocationManager*)manager didUpdateLocations:(NSArray*)locations { CLLocation* lastLocation = locations.lastObject; gLocationServiceStatus.locationStatus = kLocationServiceRunning; UnitySetLastLocation([lastLocation.timestamp timeIntervalSince1970], lastLocation.coordinate.latitude, lastLocation.coordinate.longitude, lastLocation.altitude, lastLocation.horizontalAccuracy, lastLocation.verticalAccuracy ); } #if PLATFORM_IOS - (void)locationManager:(CLLocationManager*)manager didUpdateHeading:(CLHeading*)newHeading { gLocationServiceStatus.headingStatus = kLocationServiceRunning; Vector3f reorientedRawHeading = UnityReorientVector3(newHeading.x, newHeading.y, newHeading.z); UnitySetLastHeading(UnityReorientHeading(newHeading.magneticHeading), UnityReorientHeading(newHeading.trueHeading), reorientedRawHeading.x, reorientedRawHeading.y, reorientedRawHeading.z, [newHeading.timestamp timeIntervalSince1970]); } #endif - (BOOL)locationManagerShouldDisplayHeadingCalibration:(CLLocationManager*)manager { return NO; } - (void)locationManager:(CLLocationManager*)manager didFailWithError:(NSError*)error; { gLocationServiceStatus.locationStatus = kLocationServiceFailed; gLocationServiceStatus.headingStatus = kLocationServiceFailed; } @end #endif #if PLATFORM_TVOS GCMicroGamepad* QueryMicroController() { NSArray* list = QueryControllerCollection(); for (GCController* controller in list) { if (controller.microGamepad != nil) return controller.microGamepad; } return nil; } extern "C" int UnityGetAppleTVRemoteTouchesEnabled() { return gTVRemoteTouchesEnabled; } extern "C" void UnitySetAppleTVRemoteTouchesEnabled(int val) { gTVRemoteTouchesEnabled = val; } extern "C" int UnityGetAppleTVRemoteAllowExitToMenu() { return ((GCEventViewController*)UnityGetGLViewController()).controllerUserInteractionEnabled; } extern "C" void UnitySetAppleTVRemoteAllowExitToMenu(int val) { ((GCEventViewController*)UnityGetGLViewController()).controllerUserInteractionEnabled = val; } extern "C" int UnityGetAppleTVRemoteAllowRotation() { GCMicroGamepad* controller = QueryMicroController(); if (controller != nil) return controller.allowsRotation; else return false; } extern "C" void UnitySetAppleTVRemoteAllowRotation(int val) { GCMicroGamepad* controller = QueryMicroController(); if (controller != nil) controller.allowsRotation = val; else gTVRemoteAllowRotationInitialValue = val; } extern "C" int UnityGetAppleTVRemoteReportAbsoluteDpadValues() { GCMicroGamepad* controller = QueryMicroController(); if (controller != nil) return controller.reportsAbsoluteDpadValues; else return false; } extern "C" void UnitySetAppleTVRemoteReportAbsoluteDpadValues(int val) { NSArray* list = QueryControllerCollection(); for (GCController* controller in list) { if (controller.microGamepad != nil) controller.microGamepad.reportsAbsoluteDpadValues = val; else gTVRemoteReportsAbsoluteDpadValuesInitialValue = val; } } #endif #if UNITY_TVOS_SIMULATOR_FAKE_REMOTE static void FakeRemoteStateSetButton(UIPressType type, bool state) { switch (type) { case UIPressTypeUpArrow: gFakeRemoteState.pressedUp = state; return; case UIPressTypeDownArrow: gFakeRemoteState.pressedDown = state; return; case UIPressTypeLeftArrow: gFakeRemoteState.pressedLeft = state; return; case UIPressTypeRightArrow: gFakeRemoteState.pressedRight = state; return; case UIPressTypeSelect: gFakeRemoteState.pressedA = state; return; case UIPressTypePlayPause: gFakeRemoteState.pressedX = state; return; } } void ReportSimulatedRemoteButtonPress(UIPressType type) { FakeRemoteStateSetButton(type, true); } void ReportSimulatedRemoteButtonRelease(UIPressType type) { FakeRemoteStateSetButton(type, false); } static float FakeRemoteMapTouchToAxis(float pos, float bounds) { float halfRange = bounds / 2; return (pos - halfRange) / halfRange; } void ReportSimulatedRemoteTouchesBegan(UIView* view, NSSet* touches) { ReportSimulatedRemoteTouchesMoved(view, touches); } void ReportSimulatedRemoteTouchesMoved(UIView* view, NSSet* touches) { for (UITouch* touch in touches) { gFakeRemoteState.xAxis = FakeRemoteMapTouchToAxis([touch locationInView: view].x, view.bounds.size.width); gFakeRemoteState.yAxis = FakeRemoteMapTouchToAxis([touch locationInView: view].y, view.bounds.size.height); // We assume that at most single touch is received. break; } } void ReportSimulatedRemoteTouchesEnded(UIView* view, NSSet* touches) { gFakeRemoteState.xAxis = 0; gFakeRemoteState.yAxis = 0; } #endif