#pragma once #include #include #include "UnityForwardDecls.h" #include "UnityRendering.h" // unity plugin functions // audio plugin api typedef int (*UnityPluginGetAudioEffectDefinitionsFunc)(struct UnityAudioEffectDefinition*** descptr); // OLD rendering plugin api (will become obsolete soon) typedef void (*UnityPluginSetGraphicsDeviceFunc)(void* device, int deviceType, int eventType); typedef void (*UnityPluginRenderMarkerFunc)(int marker); // new rendering plugin api typedef void (*UnityPluginLoadFunc)(struct IUnityInterfaces* unityInterfaces); typedef void (*UnityPluginUnloadFunc)(); // log handler function #ifdef __cplusplus typedef bool (*LogEntryHandler)(LogType logType, const char* log, va_list list); #endif // // these are functions referenced in trampoline and implemented in unity player lib // #ifdef __cplusplus extern "C" { #endif // life cycle management void UnityInitStartupTime(); void UnityInitRuntime(int argc, char* argv[]); void UnityInitApplicationNoGraphics(const char* appPathName); void UnityInitApplicationGraphics(int forceDirectRendering); void UnityCleanup(); void UnityLoadApplication(); void UnityPlayerLoop(); // normal player loop void UnityBatchPlayerLoop(); // batch mode like player loop, without rendering (usable for background processing) void UnitySetPlayerFocus(int focused); // send OnApplicationFocus() message to scripts void UnityLowMemory(); void UnityPause(int pause); int UnityIsPaused(); // 0 if player is running, 1 if paused void UnityWillPause(); // send the message that app will pause void UnityWillResume(); // send the message that app will resume void UnityInputProcess(); void UnityDeliverUIEvents(); // unity processing impacting UI will be called in there // rendering int UnityGetRenderingAPIs(int capacity, int* outAPIs); void UnityFinishRendering(); // OpenGL ES. int UnityHasRenderingAPIExtension(const char* extension); void UnityOnSetCurrentGLContext(EAGLContext* context); // This must match the one in ApiEnumsGLES.h typedef enum UnityFramebufferTarget { kDrawFramebuffer = 0, kReadFramebuffer, kFramebufferTargetCount } UnityFramebufferTarget; void UnityBindFramebuffer(UnityFramebufferTarget target, int fbo); void UnityRegisterFBO(UnityRenderBufferHandle color, UnityRenderBufferHandle depth, unsigned fbo); // controling player internals // TODO: needs some cleanup void UnitySetAudioSessionActive(int active); void UnityGLInvalidateState(); void UnityReloadResources(); int UnityIsCaptureScreenshotRequested(); void UnityCaptureScreenshot(); void UnitySendMessage(const char* obj, const char* method, const char* msg); EAGLContext* UnityGetDataContextGLES(); #ifdef __cplusplus void UnitySetLogEntryHandler(LogEntryHandler newHandler); #endif // plugins support // WARNING: old UnityRegisterRenderingPlugin will become obsolete soon void UnityRegisterRenderingPlugin(UnityPluginSetGraphicsDeviceFunc setDevice, UnityPluginRenderMarkerFunc renderMarker); void UnityRegisterRenderingPluginV5(UnityPluginLoadFunc loadPlugin, UnityPluginUnloadFunc unloadPlugin); void UnityRegisterAudioPlugin(UnityPluginGetAudioEffectDefinitionsFunc getAudioEffectDefinitions); // resolution/orientation handling void UnityGetRenderingResolution(unsigned* w, unsigned* h); void UnityGetSystemResolution(unsigned* w, unsigned* h); void UnityRequestRenderingResolution(unsigned w, unsigned h); int UnityIsOrientationEnabled(unsigned /*ScreenOrientation*/ orientation); int UnityHasOrientationRequest(); int UnityShouldAutorotate(); int UnityRequestedScreenOrientation(); // returns ScreenOrientation void UnityOrientationRequestWasCommitted(); int UnityReportResizeView(unsigned w, unsigned h, unsigned /*ScreenOrientation*/ contentOrientation); // returns ScreenOrientation void UnityReportBackbufferChange(UnityRenderBufferHandle colorBB, UnityRenderBufferHandle depthBB); // player settings int UnityDisableDepthAndStencilBuffers(); int UnityUseAnimatedAutorotation(); int UnityGetDesiredMSAASampleCount(int defaultSampleCount); int UnityGetSRGBRequested(); int UnityGetShowActivityIndicatorOnLoading(); int UnityGetAccelerometerFrequency(); int UnityGetTargetFPS(); int UnityGetAppBackgroundBehavior(); // push notifications #if !UNITY_TVOS void UnitySendLocalNotification(UILocalNotification* notification); #endif void UnitySendRemoteNotification(NSDictionary* notification); void UnitySendDeviceToken(NSData* deviceToken); void UnitySendRemoteNotificationError(NSError* error); // native events void UnityInvalidateDisplayDataCache(void* screen); void UnityUpdateDisplayList(void** screens, int screenCount); // profiler void* UnityCreateProfilerCounter(const char*); void UnityDestroyProfilerCounter(void*); void UnityStartProfilerCounter(void*); void UnityEndProfilerCounter(void*); // sensors void UnitySensorsSetGyroRotationRate(int idx, float x, float y, float z); void UnitySensorsSetGyroRotationRateUnbiased(int idx, float x, float y, float z); void UnitySensorsSetGravity(int idx, float x, float y, float z); void UnitySensorsSetUserAcceleration(int idx, float x, float y, float z); void UnitySensorsSetAttitude(int idx, float x, float y, float z, float w); void UnityDidAccelerate(float x, float y, float z, double timestamp); void UnitySetJoystickPosition(int joyNum, int axis, float pos); int UnityStringToKey(const char *name); void UnitySetKeyState(int key, int /*bool*/ state); // WWW connection handling void UnityReportWWWStatusError(void* udata, int status, const char* error); void UnityReportWWWReceivedResponse(void* udata, int status, unsigned expectedDataLength, const char* respHeader); void UnityReportWWWReceivedData(void* udata, const void* buffer, unsigned totalRead, unsigned expectedTotal); void UnityReportWWWFinishedLoadingData(void* udata); void UnityReportWWWSentData(void* udata, unsigned totalWritten, unsigned expectedTotal); // AVCapture void UnityReportAVCapturePermission(); void UnityDidCaptureVideoFrame(intptr_t tex, void* udata); // logging override #ifdef __cplusplus } // extern "C" #endif // touches processing #ifdef __cplusplus extern "C" { #endif void UnitySetViewTouchProcessing(UIView* view, int /*ViewTouchProcessing*/ processingPolicy); void UnityDropViewTouchProcessing(UIView* view); void UnitySendTouchesBegin(NSSet* touches, UIEvent* event); void UnitySendTouchesEnded(NSSet* touches, UIEvent* event); void UnitySendTouchesCancelled(NSSet* touches, UIEvent* event); void UnitySendTouchesMoved(NSSet* touches, UIEvent* event); void UnityCancelTouches(); #ifdef __cplusplus } // extern "C" #endif // // these are functions referenced and implemented in trampoline // #ifdef __cplusplus extern "C" { #endif // UnityAppController.mm UIViewController* UnityGetGLViewController(); UIView* UnityGetGLView(); UIWindow* UnityGetMainWindow(); enum ScreenOrientation UnityCurrentOrientation(); // Unity/DisplayManager.mm float UnityScreenScaleFactor(UIScreen* screen); #ifdef __cplusplus } // extern "C" #endif // // these are functions referenced in unity player lib and implemented in trampoline // #ifdef __cplusplus extern "C" { #endif // iPhone_Sensors.mm void UnityInitJoysticks(); void UnityCoreMotionStart(); void UnityCoreMotionStop(); int UnityIsGyroEnabled(int idx); int UnityIsGyroAvailable(); void UnityUpdateGyroData(); void UnitySetGyroUpdateInterval(int idx, float interval); float UnityGetGyroUpdateInterval(int idx); void UnityUpdateJoystickData(); int UnityGetJoystickCount(); void UnityGetJoystickName(int idx, char* buffer, int maxLen); void UnityGetJoystickAxisName(int idx, int axis, char* buffer, int maxLen); void UnityGetNiceKeyname(int key, char* buffer, int maxLen); // UnityAppController+Rendering.mm void UnityInitMainScreenRenderingCallback(); void UnityGfxInitedCallback(); void UnityPresentContextCallback(struct UnityFrameStats const* frameStats); void UnityFramerateChangeCallback(int targetFPS); int UnitySelectedRenderingAPI(); NSBundle* UnityGetMetalBundle(); MTLDeviceRef UnityGetMetalDevice(); MTLCommandQueueRef UnityGetMetalCommandQueue(); EAGLContext* UnityGetDataContextEAGL(); UnityRenderBufferHandle UnityBackbufferColor(); UnityRenderBufferHandle UnityBackbufferDepth(); // UI/ActivityIndicator.mm void UnityStartActivityIndicator(); void UnityStopActivityIndicator(); // UI/Keyboard.mm void UnityKeyboard_Create(unsigned keyboardType, int autocorrection, int multiline, int secure, int alert, const char* text, const char* placeholder); void UnityKeyboard_Show(); void UnityKeyboard_Hide(); void UnityKeyboard_GetRect(float* x, float* y, float* w, float* h); void UnityKeyboard_SetText(const char* text); NSString* UnityKeyboard_GetText(); int UnityKeyboard_IsActive(); int UnityKeyboard_IsDone(); int UnityKeyboard_WasCanceled(); void UnityKeyboard_SetInputHidden(int hidden); int UnityKeyboard_IsInputHidden(); int UnityKeyboard_CanGetSelection(); void UnityKeyboard_GetSelection(int* location, int* range); // UI/UnityViewControllerBase.mm void UnityNotifyAutoOrientationChange(); // Unity/AVCapture.mm int UnityGetAVCapturePermission(int captureTypes); void UnityRequestAVCapturePermission(int captureTypes); // Unity/CameraCapture.mm void UnityEnumVideoCaptureDevices(void* udata, void(*callback)(void* udata, const char* name, int frontFacing)); void* UnityInitCameraCapture(int device, int w, int h, int fps, void* udata); void UnityStartCameraCapture(void* capture); void UnityPauseCameraCapture(void* capture); void UnityStopCameraCapture(void* capture); void UnityCameraCaptureExtents(void* capture, int* w, int* h); void UnityCameraCaptureReadToMemory(void* capture, void* dst, int w, int h); int UnityCameraCaptureVideoRotationDeg(void* capture); int UnityCameraCaptureVerticallyMirrored(void* capture); // Unity/DeviceSettings.mm const char* UnityDeviceUniqueIdentifier(); const char* UnityVendorIdentifier(); const char* UnityAdvertisingIdentifier(); int UnityAdvertisingTrackingEnabled(); const char* UnityDeviceName(); const char* UnitySystemName(); const char* UnitySystemVersion(); const char* UnityDeviceModel(); int UnityDeviceCPUCount(); int UnityDeviceGeneration(); float UnityDeviceDPI(); const char* UnitySystemLanguage(); // Unity/DisplayManager.mm EAGLContext* UnityGetMainScreenContextGLES(); EAGLContext* UnityGetContextEAGL(); void UnityStartFrameRendering(); void UnityDestroyUnityRenderSurfaces(); // Unity/Filesystem.mm const char* UnityApplicationDir(); const char* UnityDocumentsDir(); const char* UnityLibraryDir(); const char* UnityCachesDir(); int UnityUpdateNoBackupFlag(const char* path, int setFlag); // Returns 1 if successful, otherwise 0 // Unity/WWWConnection.mm void* UnityStartWWWConnectionGet(void* udata, const void* headerDict, const char* url); void* UnityStartWWWConnectionPost(void* udata, const void* headerDict, const char* url, const void* data, unsigned length); void UnityDestroyWWWConnection(void* connection); void UnityShouldCancelWWW(const void* connection); //Apple TV Remote int UnityGetAppleTVRemoteAllowExitToMenu(); void UnitySetAppleTVRemoteAllowExitToMenu(int val); int UnityGetAppleTVRemoteAllowRotation(); void UnitySetAppleTVRemoteAllowRotation(int val); int UnityGetAppleTVRemoteReportAbsoluteDpadValues(); void UnitySetAppleTVRemoteReportAbsoluteDpadValues(int val); int UnityGetAppleTVRemoteTouchesEnabled(); void UnitySetAppleTVRemoteTouchesEnabled(int val); #ifdef __cplusplus } // extern "C" #endif #ifdef __OBJC__ // This is basically a wrapper for [NSString UTF8String] with additional strdup. // // Apparently multiple calls on UTF8String will leak memory (NSData objects) that are collected // only when @autoreleasepool is exited. This function serves as documentation for this and as a // handy wrapper. inline char* AllocCString(NSString* value) { if (value == nil) return 0; const char* str = [value UTF8String]; return str ? strdup(str) : 0; } #endif