/* this ALWAYS GENERATED file contains the definitions for the interfaces */ /* File created by MIDL compiler version 7.00.0555 */ /* Compiler settings for manipulations.idl: Oicf, W1, Zp8, env=Win32 (32b run), target_arch=X86 7.00.0555 protocol : dce , ms_ext, c_ext, robust error checks: allocation ref bounds_check enum stub_data VC __declspec() decoration level: __declspec(uuid()), __declspec(selectany), __declspec(novtable) DECLSPEC_UUID(), MIDL_INTERFACE() */ /* @@MIDL_FILE_HEADING( ) */ #pragma warning( disable: 4049 ) /* more than 64k source lines */ /* verify that the version is high enough to compile this file*/ #ifndef __REQUIRED_RPCNDR_H_VERSION__ #define __REQUIRED_RPCNDR_H_VERSION__ 500 #endif /* verify that the version is high enough to compile this file*/ #ifndef __REQUIRED_RPCSAL_H_VERSION__ #define __REQUIRED_RPCSAL_H_VERSION__ 100 #endif #include "rpc.h" #include "rpcndr.h" #ifndef __RPCNDR_H_VERSION__ #error this stub requires an updated version of #endif // __RPCNDR_H_VERSION__ #ifndef __manipulations_h__ #define __manipulations_h__ #if defined(_MSC_VER) && (_MSC_VER >= 1020) #pragma once #endif /* Forward Declarations */ #ifndef ___IManipulationEvents_FWD_DEFINED__ #define ___IManipulationEvents_FWD_DEFINED__ typedef interface _IManipulationEvents _IManipulationEvents; #endif /* ___IManipulationEvents_FWD_DEFINED__ */ #ifndef __IInertiaProcessor_FWD_DEFINED__ #define __IInertiaProcessor_FWD_DEFINED__ typedef interface IInertiaProcessor IInertiaProcessor; #endif /* __IInertiaProcessor_FWD_DEFINED__ */ #ifndef __IManipulationProcessor_FWD_DEFINED__ #define __IManipulationProcessor_FWD_DEFINED__ typedef interface IManipulationProcessor IManipulationProcessor; #endif /* __IManipulationProcessor_FWD_DEFINED__ */ #ifndef __InertiaProcessor_FWD_DEFINED__ #define __InertiaProcessor_FWD_DEFINED__ #ifdef __cplusplus typedef class InertiaProcessor InertiaProcessor; #else typedef struct InertiaProcessor InertiaProcessor; #endif /* __cplusplus */ #endif /* __InertiaProcessor_FWD_DEFINED__ */ #ifndef __ManipulationProcessor_FWD_DEFINED__ #define __ManipulationProcessor_FWD_DEFINED__ #ifdef __cplusplus typedef class ManipulationProcessor ManipulationProcessor; #else typedef struct ManipulationProcessor ManipulationProcessor; #endif /* __cplusplus */ #endif /* __ManipulationProcessor_FWD_DEFINED__ */ #ifdef __cplusplus extern "C"{ #endif /* interface __MIDL_itf_manipulations_0000_0000 */ /* [local] */ typedef /* [v1_enum] */ enum MANIPULATION_PROCESSOR_MANIPULATIONS { MANIPULATION_NONE = 0, MANIPULATION_TRANSLATE_X = 0x1, MANIPULATION_TRANSLATE_Y = 0x2, MANIPULATION_SCALE = 0x4, MANIPULATION_ROTATE = 0x8, MANIPULATION_ALL = 0xf } MANIPULATION_PROCESSOR_MANIPULATIONS; DEFINE_ENUM_FLAG_OPERATORS(MANIPULATION_PROCESSOR_MANIPULATIONS) // Floating point constants. DECLSPEC_SELECTANY extern const float POSITIVE_INFINITY = ((float)(1e308 * 10)); DECLSPEC_SELECTANY extern const float NEGATIVE_INFINITY = ((float)(-1e308 * 10)); DECLSPEC_SELECTANY extern const float NaN = ((float)((1e308 * 10)*0.)); typedef unsigned long MANIPULATOR_ID; extern RPC_IF_HANDLE __MIDL_itf_manipulations_0000_0000_v0_0_c_ifspec; extern RPC_IF_HANDLE __MIDL_itf_manipulations_0000_0000_v0_0_s_ifspec; #ifndef __ManipulationsLib_LIBRARY_DEFINED__ #define __ManipulationsLib_LIBRARY_DEFINED__ /* library ManipulationsLib */ /* [helpstring][version][uuid] */ EXTERN_C const IID LIBID_ManipulationsLib; #ifndef ___IManipulationEvents_INTERFACE_DEFINED__ #define ___IManipulationEvents_INTERFACE_DEFINED__ /* interface _IManipulationEvents */ /* [unique][helpstring][uuid][object] */ EXTERN_C const IID IID__IManipulationEvents; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("4f62c8da-9c53-4b22-93df-927a862bbb03") _IManipulationEvents : public IUnknown { public: virtual /* [helpstring] */ HRESULT STDMETHODCALLTYPE ManipulationStarted( /* [in] */ FLOAT x, /* [in] */ FLOAT y) = 0; virtual /* [helpstring] */ HRESULT STDMETHODCALLTYPE ManipulationDelta( /* [in] */ FLOAT x, /* [in] */ FLOAT y, /* [in] */ FLOAT translationDeltaX, /* [in] */ FLOAT translationDeltaY, /* [in] */ FLOAT scaleDelta, /* [in] */ FLOAT expansionDelta, /* [in] */ FLOAT rotationDelta, /* [in] */ FLOAT cumulativeTranslationX, /* [in] */ FLOAT cumulativeTranslationY, /* [in] */ FLOAT cumulativeScale, /* [in] */ FLOAT cumulativeExpansion, /* [in] */ FLOAT cumulativeRotation) = 0; virtual /* [helpstring] */ HRESULT STDMETHODCALLTYPE ManipulationCompleted( /* [in] */ FLOAT x, /* [in] */ FLOAT y, /* [in] */ FLOAT cumulativeTranslationX, /* [in] */ FLOAT cumulativeTranslationY, /* [in] */ FLOAT cumulativeScale, /* [in] */ FLOAT cumulativeExpansion, /* [in] */ FLOAT cumulativeRotation) = 0; }; #else /* C style interface */ typedef struct _IManipulationEventsVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in _IManipulationEvents * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in _IManipulationEvents * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in _IManipulationEvents * This); /* [helpstring] */ HRESULT ( STDMETHODCALLTYPE *ManipulationStarted )( __RPC__in _IManipulationEvents * This, /* [in] */ FLOAT x, /* [in] */ FLOAT y); /* [helpstring] */ HRESULT ( STDMETHODCALLTYPE *ManipulationDelta )( __RPC__in _IManipulationEvents * This, /* [in] */ FLOAT x, /* [in] */ FLOAT y, /* [in] */ FLOAT translationDeltaX, /* [in] */ FLOAT translationDeltaY, /* [in] */ FLOAT scaleDelta, /* [in] */ FLOAT expansionDelta, /* [in] */ FLOAT rotationDelta, /* [in] */ FLOAT cumulativeTranslationX, /* [in] */ FLOAT cumulativeTranslationY, /* [in] */ FLOAT cumulativeScale, /* [in] */ FLOAT cumulativeExpansion, /* [in] */ FLOAT cumulativeRotation); /* [helpstring] */ HRESULT ( STDMETHODCALLTYPE *ManipulationCompleted )( __RPC__in _IManipulationEvents * This, /* [in] */ FLOAT x, /* [in] */ FLOAT y, /* [in] */ FLOAT cumulativeTranslationX, /* [in] */ FLOAT cumulativeTranslationY, /* [in] */ FLOAT cumulativeScale, /* [in] */ FLOAT cumulativeExpansion, /* [in] */ FLOAT cumulativeRotation); END_INTERFACE } _IManipulationEventsVtbl; interface _IManipulationEvents { CONST_VTBL struct _IManipulationEventsVtbl *lpVtbl; }; #ifdef COBJMACROS #define _IManipulationEvents_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define _IManipulationEvents_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define _IManipulationEvents_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define _IManipulationEvents_ManipulationStarted(This,x,y) \ ( (This)->lpVtbl -> ManipulationStarted(This,x,y) ) #define _IManipulationEvents_ManipulationDelta(This,x,y,translationDeltaX,translationDeltaY,scaleDelta,expansionDelta,rotationDelta,cumulativeTranslationX,cumulativeTranslationY,cumulativeScale,cumulativeExpansion,cumulativeRotation) \ ( (This)->lpVtbl -> ManipulationDelta(This,x,y,translationDeltaX,translationDeltaY,scaleDelta,expansionDelta,rotationDelta,cumulativeTranslationX,cumulativeTranslationY,cumulativeScale,cumulativeExpansion,cumulativeRotation) ) #define _IManipulationEvents_ManipulationCompleted(This,x,y,cumulativeTranslationX,cumulativeTranslationY,cumulativeScale,cumulativeExpansion,cumulativeRotation) \ ( (This)->lpVtbl -> ManipulationCompleted(This,x,y,cumulativeTranslationX,cumulativeTranslationY,cumulativeScale,cumulativeExpansion,cumulativeRotation) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* ___IManipulationEvents_INTERFACE_DEFINED__ */ #ifndef __IInertiaProcessor_INTERFACE_DEFINED__ #define __IInertiaProcessor_INTERFACE_DEFINED__ /* interface IInertiaProcessor */ /* [unique][helpstring][uuid][object] */ EXTERN_C const IID IID_IInertiaProcessor; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("18b00c6d-c5ee-41b1-90a9-9d4a929095ad") IInertiaProcessor : public IUnknown { public: virtual HRESULT STDMETHODCALLTYPE get_InitialOriginX( /* [out] */ __RPC__out FLOAT *x) = 0; virtual HRESULT STDMETHODCALLTYPE put_InitialOriginX( /* [in] */ FLOAT x) = 0; virtual HRESULT STDMETHODCALLTYPE get_InitialOriginY( /* [out] */ __RPC__out FLOAT *y) = 0; virtual HRESULT STDMETHODCALLTYPE put_InitialOriginY( /* [in] */ FLOAT y) = 0; virtual HRESULT STDMETHODCALLTYPE get_InitialVelocityX( /* [out] */ __RPC__out FLOAT *x) = 0; virtual HRESULT STDMETHODCALLTYPE put_InitialVelocityX( /* [in] */ FLOAT x) = 0; virtual HRESULT STDMETHODCALLTYPE get_InitialVelocityY( /* [out] */ __RPC__out FLOAT *y) = 0; virtual HRESULT STDMETHODCALLTYPE put_InitialVelocityY( /* [in] */ FLOAT y) = 0; virtual HRESULT STDMETHODCALLTYPE get_InitialAngularVelocity( /* [out] */ __RPC__out FLOAT *velocity) = 0; virtual HRESULT STDMETHODCALLTYPE put_InitialAngularVelocity( /* [in] */ FLOAT velocity) = 0; virtual HRESULT STDMETHODCALLTYPE get_InitialExpansionVelocity( /* [out] */ __RPC__out FLOAT *velocity) = 0; virtual HRESULT STDMETHODCALLTYPE put_InitialExpansionVelocity( /* [in] */ FLOAT velocity) = 0; virtual HRESULT STDMETHODCALLTYPE get_InitialRadius( /* [out] */ __RPC__out FLOAT *radius) = 0; virtual HRESULT STDMETHODCALLTYPE put_InitialRadius( /* [in] */ FLOAT radius) = 0; virtual HRESULT STDMETHODCALLTYPE get_BoundaryLeft( /* [out] */ __RPC__out FLOAT *left) = 0; virtual HRESULT STDMETHODCALLTYPE put_BoundaryLeft( /* [in] */ FLOAT left) = 0; virtual HRESULT STDMETHODCALLTYPE get_BoundaryTop( /* [out] */ __RPC__out FLOAT *top) = 0; virtual HRESULT STDMETHODCALLTYPE put_BoundaryTop( /* [in] */ FLOAT top) = 0; virtual HRESULT STDMETHODCALLTYPE get_BoundaryRight( /* [out] */ __RPC__out FLOAT *right) = 0; virtual HRESULT STDMETHODCALLTYPE put_BoundaryRight( /* [in] */ FLOAT right) = 0; virtual HRESULT STDMETHODCALLTYPE get_BoundaryBottom( /* [out] */ __RPC__out FLOAT *bottom) = 0; virtual HRESULT STDMETHODCALLTYPE put_BoundaryBottom( /* [in] */ FLOAT bottom) = 0; virtual HRESULT STDMETHODCALLTYPE get_ElasticMarginLeft( /* [out] */ __RPC__out FLOAT *left) = 0; virtual HRESULT STDMETHODCALLTYPE put_ElasticMarginLeft( /* [in] */ FLOAT left) = 0; virtual HRESULT STDMETHODCALLTYPE get_ElasticMarginTop( /* [out] */ __RPC__out FLOAT *top) = 0; virtual HRESULT STDMETHODCALLTYPE put_ElasticMarginTop( /* [in] */ FLOAT top) = 0; virtual HRESULT STDMETHODCALLTYPE get_ElasticMarginRight( /* [out] */ __RPC__out FLOAT *right) = 0; virtual HRESULT STDMETHODCALLTYPE put_ElasticMarginRight( /* [in] */ FLOAT right) = 0; virtual HRESULT STDMETHODCALLTYPE get_ElasticMarginBottom( /* [out] */ __RPC__out FLOAT *bottom) = 0; virtual HRESULT STDMETHODCALLTYPE put_ElasticMarginBottom( /* [in] */ FLOAT bottom) = 0; virtual HRESULT STDMETHODCALLTYPE get_DesiredDisplacement( /* [out] */ __RPC__out FLOAT *displacement) = 0; virtual HRESULT STDMETHODCALLTYPE put_DesiredDisplacement( /* [in] */ FLOAT displacement) = 0; virtual HRESULT STDMETHODCALLTYPE get_DesiredRotation( /* [out] */ __RPC__out FLOAT *rotation) = 0; virtual HRESULT STDMETHODCALLTYPE put_DesiredRotation( /* [in] */ FLOAT rotation) = 0; virtual HRESULT STDMETHODCALLTYPE get_DesiredExpansion( /* [out] */ __RPC__out FLOAT *expansion) = 0; virtual HRESULT STDMETHODCALLTYPE put_DesiredExpansion( /* [in] */ FLOAT expansion) = 0; virtual HRESULT STDMETHODCALLTYPE get_DesiredDeceleration( /* [out] */ __RPC__out FLOAT *deceleration) = 0; virtual HRESULT STDMETHODCALLTYPE put_DesiredDeceleration( /* [in] */ FLOAT deceleration) = 0; virtual HRESULT STDMETHODCALLTYPE get_DesiredAngularDeceleration( /* [out] */ __RPC__out FLOAT *deceleration) = 0; virtual HRESULT STDMETHODCALLTYPE put_DesiredAngularDeceleration( /* [in] */ FLOAT deceleration) = 0; virtual HRESULT STDMETHODCALLTYPE get_DesiredExpansionDeceleration( /* [out] */ __RPC__out FLOAT *deceleration) = 0; virtual HRESULT STDMETHODCALLTYPE put_DesiredExpansionDeceleration( /* [in] */ FLOAT deceleration) = 0; virtual HRESULT STDMETHODCALLTYPE get_InitialTimestamp( /* [out] */ __RPC__out DWORD *timestamp) = 0; virtual HRESULT STDMETHODCALLTYPE put_InitialTimestamp( /* [in] */ DWORD timestamp) = 0; virtual HRESULT STDMETHODCALLTYPE Reset( void) = 0; virtual HRESULT STDMETHODCALLTYPE Process( /* [out] */ __RPC__out BOOL *completed) = 0; virtual HRESULT STDMETHODCALLTYPE ProcessTime( /* [in] */ DWORD timestamp, /* [out] */ __RPC__out BOOL *completed) = 0; virtual HRESULT STDMETHODCALLTYPE Complete( void) = 0; virtual HRESULT STDMETHODCALLTYPE CompleteTime( /* [in] */ DWORD timestamp) = 0; }; #else /* C style interface */ typedef struct IInertiaProcessorVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IInertiaProcessor * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IInertiaProcessor * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IInertiaProcessor * This); HRESULT ( STDMETHODCALLTYPE *get_InitialOriginX )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *x); HRESULT ( STDMETHODCALLTYPE *put_InitialOriginX )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT x); HRESULT ( STDMETHODCALLTYPE *get_InitialOriginY )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *y); HRESULT ( STDMETHODCALLTYPE *put_InitialOriginY )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT y); HRESULT ( STDMETHODCALLTYPE *get_InitialVelocityX )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *x); HRESULT ( STDMETHODCALLTYPE *put_InitialVelocityX )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT x); HRESULT ( STDMETHODCALLTYPE *get_InitialVelocityY )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *y); HRESULT ( STDMETHODCALLTYPE *put_InitialVelocityY )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT y); HRESULT ( STDMETHODCALLTYPE *get_InitialAngularVelocity )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *velocity); HRESULT ( STDMETHODCALLTYPE *put_InitialAngularVelocity )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT velocity); HRESULT ( STDMETHODCALLTYPE *get_InitialExpansionVelocity )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *velocity); HRESULT ( STDMETHODCALLTYPE *put_InitialExpansionVelocity )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT velocity); HRESULT ( STDMETHODCALLTYPE *get_InitialRadius )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *radius); HRESULT ( STDMETHODCALLTYPE *put_InitialRadius )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT radius); HRESULT ( STDMETHODCALLTYPE *get_BoundaryLeft )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *left); HRESULT ( STDMETHODCALLTYPE *put_BoundaryLeft )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT left); HRESULT ( STDMETHODCALLTYPE *get_BoundaryTop )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *top); HRESULT ( STDMETHODCALLTYPE *put_BoundaryTop )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT top); HRESULT ( STDMETHODCALLTYPE *get_BoundaryRight )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *right); HRESULT ( STDMETHODCALLTYPE *put_BoundaryRight )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT right); HRESULT ( STDMETHODCALLTYPE *get_BoundaryBottom )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *bottom); HRESULT ( STDMETHODCALLTYPE *put_BoundaryBottom )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT bottom); HRESULT ( STDMETHODCALLTYPE *get_ElasticMarginLeft )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *left); HRESULT ( STDMETHODCALLTYPE *put_ElasticMarginLeft )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT left); HRESULT ( STDMETHODCALLTYPE *get_ElasticMarginTop )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *top); HRESULT ( STDMETHODCALLTYPE *put_ElasticMarginTop )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT top); HRESULT ( STDMETHODCALLTYPE *get_ElasticMarginRight )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *right); HRESULT ( STDMETHODCALLTYPE *put_ElasticMarginRight )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT right); HRESULT ( STDMETHODCALLTYPE *get_ElasticMarginBottom )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *bottom); HRESULT ( STDMETHODCALLTYPE *put_ElasticMarginBottom )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT bottom); HRESULT ( STDMETHODCALLTYPE *get_DesiredDisplacement )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *displacement); HRESULT ( STDMETHODCALLTYPE *put_DesiredDisplacement )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT displacement); HRESULT ( STDMETHODCALLTYPE *get_DesiredRotation )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *rotation); HRESULT ( STDMETHODCALLTYPE *put_DesiredRotation )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT rotation); HRESULT ( STDMETHODCALLTYPE *get_DesiredExpansion )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *expansion); HRESULT ( STDMETHODCALLTYPE *put_DesiredExpansion )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT expansion); HRESULT ( STDMETHODCALLTYPE *get_DesiredDeceleration )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *deceleration); HRESULT ( STDMETHODCALLTYPE *put_DesiredDeceleration )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT deceleration); HRESULT ( STDMETHODCALLTYPE *get_DesiredAngularDeceleration )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *deceleration); HRESULT ( STDMETHODCALLTYPE *put_DesiredAngularDeceleration )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT deceleration); HRESULT ( STDMETHODCALLTYPE *get_DesiredExpansionDeceleration )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out FLOAT *deceleration); HRESULT ( STDMETHODCALLTYPE *put_DesiredExpansionDeceleration )( __RPC__in IInertiaProcessor * This, /* [in] */ FLOAT deceleration); HRESULT ( STDMETHODCALLTYPE *get_InitialTimestamp )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out DWORD *timestamp); HRESULT ( STDMETHODCALLTYPE *put_InitialTimestamp )( __RPC__in IInertiaProcessor * This, /* [in] */ DWORD timestamp); HRESULT ( STDMETHODCALLTYPE *Reset )( __RPC__in IInertiaProcessor * This); HRESULT ( STDMETHODCALLTYPE *Process )( __RPC__in IInertiaProcessor * This, /* [out] */ __RPC__out BOOL *completed); HRESULT ( STDMETHODCALLTYPE *ProcessTime )( __RPC__in IInertiaProcessor * This, /* [in] */ DWORD timestamp, /* [out] */ __RPC__out BOOL *completed); HRESULT ( STDMETHODCALLTYPE *Complete )( __RPC__in IInertiaProcessor * This); HRESULT ( STDMETHODCALLTYPE *CompleteTime )( __RPC__in IInertiaProcessor * This, /* [in] */ DWORD timestamp); END_INTERFACE } IInertiaProcessorVtbl; interface IInertiaProcessor { CONST_VTBL struct IInertiaProcessorVtbl *lpVtbl; }; #ifdef COBJMACROS #define IInertiaProcessor_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IInertiaProcessor_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IInertiaProcessor_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IInertiaProcessor_get_InitialOriginX(This,x) \ ( (This)->lpVtbl -> get_InitialOriginX(This,x) ) #define IInertiaProcessor_put_InitialOriginX(This,x) \ ( (This)->lpVtbl -> put_InitialOriginX(This,x) ) #define IInertiaProcessor_get_InitialOriginY(This,y) \ ( (This)->lpVtbl -> get_InitialOriginY(This,y) ) #define IInertiaProcessor_put_InitialOriginY(This,y) \ ( (This)->lpVtbl -> put_InitialOriginY(This,y) ) #define IInertiaProcessor_get_InitialVelocityX(This,x) \ ( (This)->lpVtbl -> get_InitialVelocityX(This,x) ) #define IInertiaProcessor_put_InitialVelocityX(This,x) \ ( (This)->lpVtbl -> put_InitialVelocityX(This,x) ) #define IInertiaProcessor_get_InitialVelocityY(This,y) \ ( (This)->lpVtbl -> get_InitialVelocityY(This,y) ) #define IInertiaProcessor_put_InitialVelocityY(This,y) \ ( (This)->lpVtbl -> put_InitialVelocityY(This,y) ) #define IInertiaProcessor_get_InitialAngularVelocity(This,velocity) \ ( (This)->lpVtbl -> get_InitialAngularVelocity(This,velocity) ) #define IInertiaProcessor_put_InitialAngularVelocity(This,velocity) \ ( (This)->lpVtbl -> put_InitialAngularVelocity(This,velocity) ) #define IInertiaProcessor_get_InitialExpansionVelocity(This,velocity) \ ( (This)->lpVtbl -> get_InitialExpansionVelocity(This,velocity) ) #define IInertiaProcessor_put_InitialExpansionVelocity(This,velocity) \ ( (This)->lpVtbl -> put_InitialExpansionVelocity(This,velocity) ) #define IInertiaProcessor_get_InitialRadius(This,radius) \ ( (This)->lpVtbl -> get_InitialRadius(This,radius) ) #define IInertiaProcessor_put_InitialRadius(This,radius) \ ( (This)->lpVtbl -> put_InitialRadius(This,radius) ) #define IInertiaProcessor_get_BoundaryLeft(This,left) \ ( (This)->lpVtbl -> get_BoundaryLeft(This,left) ) #define IInertiaProcessor_put_BoundaryLeft(This,left) \ ( (This)->lpVtbl -> put_BoundaryLeft(This,left) ) #define IInertiaProcessor_get_BoundaryTop(This,top) \ ( (This)->lpVtbl -> get_BoundaryTop(This,top) ) #define IInertiaProcessor_put_BoundaryTop(This,top) \ ( (This)->lpVtbl -> put_BoundaryTop(This,top) ) #define IInertiaProcessor_get_BoundaryRight(This,right) \ ( (This)->lpVtbl -> get_BoundaryRight(This,right) ) #define IInertiaProcessor_put_BoundaryRight(This,right) \ ( (This)->lpVtbl -> put_BoundaryRight(This,right) ) #define IInertiaProcessor_get_BoundaryBottom(This,bottom) \ ( (This)->lpVtbl -> get_BoundaryBottom(This,bottom) ) #define IInertiaProcessor_put_BoundaryBottom(This,bottom) \ ( (This)->lpVtbl -> put_BoundaryBottom(This,bottom) ) #define IInertiaProcessor_get_ElasticMarginLeft(This,left) \ ( (This)->lpVtbl -> get_ElasticMarginLeft(This,left) ) #define IInertiaProcessor_put_ElasticMarginLeft(This,left) \ ( (This)->lpVtbl -> put_ElasticMarginLeft(This,left) ) #define IInertiaProcessor_get_ElasticMarginTop(This,top) \ ( (This)->lpVtbl -> get_ElasticMarginTop(This,top) ) #define IInertiaProcessor_put_ElasticMarginTop(This,top) \ ( (This)->lpVtbl -> put_ElasticMarginTop(This,top) ) #define IInertiaProcessor_get_ElasticMarginRight(This,right) \ ( (This)->lpVtbl -> get_ElasticMarginRight(This,right) ) #define IInertiaProcessor_put_ElasticMarginRight(This,right) \ ( (This)->lpVtbl -> put_ElasticMarginRight(This,right) ) #define IInertiaProcessor_get_ElasticMarginBottom(This,bottom) \ ( (This)->lpVtbl -> get_ElasticMarginBottom(This,bottom) ) #define IInertiaProcessor_put_ElasticMarginBottom(This,bottom) \ ( (This)->lpVtbl -> put_ElasticMarginBottom(This,bottom) ) #define IInertiaProcessor_get_DesiredDisplacement(This,displacement) \ ( (This)->lpVtbl -> get_DesiredDisplacement(This,displacement) ) #define IInertiaProcessor_put_DesiredDisplacement(This,displacement) \ ( (This)->lpVtbl -> put_DesiredDisplacement(This,displacement) ) #define IInertiaProcessor_get_DesiredRotation(This,rotation) \ ( (This)->lpVtbl -> get_DesiredRotation(This,rotation) ) #define IInertiaProcessor_put_DesiredRotation(This,rotation) \ ( (This)->lpVtbl -> put_DesiredRotation(This,rotation) ) #define IInertiaProcessor_get_DesiredExpansion(This,expansion) \ ( (This)->lpVtbl -> get_DesiredExpansion(This,expansion) ) #define IInertiaProcessor_put_DesiredExpansion(This,expansion) \ ( (This)->lpVtbl -> put_DesiredExpansion(This,expansion) ) #define IInertiaProcessor_get_DesiredDeceleration(This,deceleration) \ ( (This)->lpVtbl -> get_DesiredDeceleration(This,deceleration) ) #define IInertiaProcessor_put_DesiredDeceleration(This,deceleration) \ ( (This)->lpVtbl -> put_DesiredDeceleration(This,deceleration) ) #define IInertiaProcessor_get_DesiredAngularDeceleration(This,deceleration) \ ( (This)->lpVtbl -> get_DesiredAngularDeceleration(This,deceleration) ) #define IInertiaProcessor_put_DesiredAngularDeceleration(This,deceleration) \ ( (This)->lpVtbl -> put_DesiredAngularDeceleration(This,deceleration) ) #define IInertiaProcessor_get_DesiredExpansionDeceleration(This,deceleration) \ ( (This)->lpVtbl -> get_DesiredExpansionDeceleration(This,deceleration) ) #define IInertiaProcessor_put_DesiredExpansionDeceleration(This,deceleration) \ ( (This)->lpVtbl -> put_DesiredExpansionDeceleration(This,deceleration) ) #define IInertiaProcessor_get_InitialTimestamp(This,timestamp) \ ( (This)->lpVtbl -> get_InitialTimestamp(This,timestamp) ) #define IInertiaProcessor_put_InitialTimestamp(This,timestamp) \ ( (This)->lpVtbl -> put_InitialTimestamp(This,timestamp) ) #define IInertiaProcessor_Reset(This) \ ( (This)->lpVtbl -> Reset(This) ) #define IInertiaProcessor_Process(This,completed) \ ( (This)->lpVtbl -> Process(This,completed) ) #define IInertiaProcessor_ProcessTime(This,timestamp,completed) \ ( (This)->lpVtbl -> ProcessTime(This,timestamp,completed) ) #define IInertiaProcessor_Complete(This) \ ( (This)->lpVtbl -> Complete(This) ) #define IInertiaProcessor_CompleteTime(This,timestamp) \ ( (This)->lpVtbl -> CompleteTime(This,timestamp) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IInertiaProcessor_INTERFACE_DEFINED__ */ #ifndef __IManipulationProcessor_INTERFACE_DEFINED__ #define __IManipulationProcessor_INTERFACE_DEFINED__ /* interface IManipulationProcessor */ /* [unique][helpstring][uuid][object] */ EXTERN_C const IID IID_IManipulationProcessor; #if defined(__cplusplus) && !defined(CINTERFACE) MIDL_INTERFACE("A22AC519-8300-48a0-BEF4-F1BE8737DBA4") IManipulationProcessor : public IUnknown { public: virtual HRESULT STDMETHODCALLTYPE get_SupportedManipulations( /* [out] */ __RPC__out MANIPULATION_PROCESSOR_MANIPULATIONS *manipulations) = 0; virtual HRESULT STDMETHODCALLTYPE put_SupportedManipulations( /* [in] */ MANIPULATION_PROCESSOR_MANIPULATIONS manipulations) = 0; virtual HRESULT STDMETHODCALLTYPE get_PivotPointX( /* [out] */ __RPC__out FLOAT *pivotPointX) = 0; virtual HRESULT STDMETHODCALLTYPE put_PivotPointX( /* [in] */ FLOAT pivotPointX) = 0; virtual HRESULT STDMETHODCALLTYPE get_PivotPointY( /* [out] */ __RPC__out FLOAT *pivotPointY) = 0; virtual HRESULT STDMETHODCALLTYPE put_PivotPointY( /* [in] */ FLOAT pivotPointY) = 0; virtual HRESULT STDMETHODCALLTYPE get_PivotRadius( /* [out] */ __RPC__out FLOAT *pivotRadius) = 0; virtual HRESULT STDMETHODCALLTYPE put_PivotRadius( /* [in] */ FLOAT pivotRadius) = 0; virtual HRESULT STDMETHODCALLTYPE CompleteManipulation( void) = 0; virtual HRESULT STDMETHODCALLTYPE ProcessDown( /* [in] */ MANIPULATOR_ID manipulatorId, /* [in] */ FLOAT x, /* [in] */ FLOAT y) = 0; virtual HRESULT STDMETHODCALLTYPE ProcessMove( /* [in] */ MANIPULATOR_ID manipulatorId, /* [in] */ FLOAT x, /* [in] */ FLOAT y) = 0; virtual HRESULT STDMETHODCALLTYPE ProcessUp( /* [in] */ MANIPULATOR_ID manipulatorId, /* [in] */ FLOAT x, /* [in] */ FLOAT y) = 0; virtual HRESULT STDMETHODCALLTYPE ProcessDownWithTime( /* [in] */ MANIPULATOR_ID manipulatorId, /* [in] */ FLOAT x, /* [in] */ FLOAT y, /* [in] */ DWORD timestamp) = 0; virtual HRESULT STDMETHODCALLTYPE ProcessMoveWithTime( /* [in] */ MANIPULATOR_ID manipulatorId, /* [in] */ FLOAT x, /* [in] */ FLOAT y, /* [in] */ DWORD timestamp) = 0; virtual HRESULT STDMETHODCALLTYPE ProcessUpWithTime( /* [in] */ MANIPULATOR_ID manipulatorId, /* [in] */ FLOAT x, /* [in] */ FLOAT y, /* [in] */ DWORD timestamp) = 0; virtual HRESULT STDMETHODCALLTYPE GetVelocityX( /* [out] */ __RPC__out FLOAT *velocityX) = 0; virtual HRESULT STDMETHODCALLTYPE GetVelocityY( /* [out] */ __RPC__out FLOAT *velocityY) = 0; virtual HRESULT STDMETHODCALLTYPE GetExpansionVelocity( /* [out] */ __RPC__out FLOAT *expansionVelocity) = 0; virtual HRESULT STDMETHODCALLTYPE GetAngularVelocity( /* [out] */ __RPC__out FLOAT *angularVelocity) = 0; virtual HRESULT STDMETHODCALLTYPE get_MinimumScaleRotateRadius( /* [out] */ __RPC__out FLOAT *minRadius) = 0; virtual HRESULT STDMETHODCALLTYPE put_MinimumScaleRotateRadius( /* [in] */ FLOAT minRadius) = 0; }; #else /* C style interface */ typedef struct IManipulationProcessorVtbl { BEGIN_INTERFACE HRESULT ( STDMETHODCALLTYPE *QueryInterface )( __RPC__in IManipulationProcessor * This, /* [in] */ __RPC__in REFIID riid, /* [annotation][iid_is][out] */ __RPC__deref_out void **ppvObject); ULONG ( STDMETHODCALLTYPE *AddRef )( __RPC__in IManipulationProcessor * This); ULONG ( STDMETHODCALLTYPE *Release )( __RPC__in IManipulationProcessor * This); HRESULT ( STDMETHODCALLTYPE *get_SupportedManipulations )( __RPC__in IManipulationProcessor * This, /* [out] */ __RPC__out MANIPULATION_PROCESSOR_MANIPULATIONS *manipulations); HRESULT ( STDMETHODCALLTYPE *put_SupportedManipulations )( __RPC__in IManipulationProcessor * This, /* [in] */ MANIPULATION_PROCESSOR_MANIPULATIONS manipulations); HRESULT ( STDMETHODCALLTYPE *get_PivotPointX )( __RPC__in IManipulationProcessor * This, /* [out] */ __RPC__out FLOAT *pivotPointX); HRESULT ( STDMETHODCALLTYPE *put_PivotPointX )( __RPC__in IManipulationProcessor * This, /* [in] */ FLOAT pivotPointX); HRESULT ( STDMETHODCALLTYPE *get_PivotPointY )( __RPC__in IManipulationProcessor * This, /* [out] */ __RPC__out FLOAT *pivotPointY); HRESULT ( STDMETHODCALLTYPE *put_PivotPointY )( __RPC__in IManipulationProcessor * This, /* [in] */ FLOAT pivotPointY); HRESULT ( STDMETHODCALLTYPE *get_PivotRadius )( __RPC__in IManipulationProcessor * This, /* [out] */ __RPC__out FLOAT *pivotRadius); HRESULT ( STDMETHODCALLTYPE *put_PivotRadius )( __RPC__in IManipulationProcessor * This, /* [in] */ FLOAT pivotRadius); HRESULT ( STDMETHODCALLTYPE *CompleteManipulation )( __RPC__in IManipulationProcessor * This); HRESULT ( STDMETHODCALLTYPE *ProcessDown )( __RPC__in IManipulationProcessor * This, /* [in] */ MANIPULATOR_ID manipulatorId, /* [in] */ FLOAT x, /* [in] */ FLOAT y); HRESULT ( STDMETHODCALLTYPE *ProcessMove )( __RPC__in IManipulationProcessor * This, /* [in] */ MANIPULATOR_ID manipulatorId, /* [in] */ FLOAT x, /* [in] */ FLOAT y); HRESULT ( STDMETHODCALLTYPE *ProcessUp )( __RPC__in IManipulationProcessor * This, /* [in] */ MANIPULATOR_ID manipulatorId, /* [in] */ FLOAT x, /* [in] */ FLOAT y); HRESULT ( STDMETHODCALLTYPE *ProcessDownWithTime )( __RPC__in IManipulationProcessor * This, /* [in] */ MANIPULATOR_ID manipulatorId, /* [in] */ FLOAT x, /* [in] */ FLOAT y, /* [in] */ DWORD timestamp); HRESULT ( STDMETHODCALLTYPE *ProcessMoveWithTime )( __RPC__in IManipulationProcessor * This, /* [in] */ MANIPULATOR_ID manipulatorId, /* [in] */ FLOAT x, /* [in] */ FLOAT y, /* [in] */ DWORD timestamp); HRESULT ( STDMETHODCALLTYPE *ProcessUpWithTime )( __RPC__in IManipulationProcessor * This, /* [in] */ MANIPULATOR_ID manipulatorId, /* [in] */ FLOAT x, /* [in] */ FLOAT y, /* [in] */ DWORD timestamp); HRESULT ( STDMETHODCALLTYPE *GetVelocityX )( __RPC__in IManipulationProcessor * This, /* [out] */ __RPC__out FLOAT *velocityX); HRESULT ( STDMETHODCALLTYPE *GetVelocityY )( __RPC__in IManipulationProcessor * This, /* [out] */ __RPC__out FLOAT *velocityY); HRESULT ( STDMETHODCALLTYPE *GetExpansionVelocity )( __RPC__in IManipulationProcessor * This, /* [out] */ __RPC__out FLOAT *expansionVelocity); HRESULT ( STDMETHODCALLTYPE *GetAngularVelocity )( __RPC__in IManipulationProcessor * This, /* [out] */ __RPC__out FLOAT *angularVelocity); HRESULT ( STDMETHODCALLTYPE *get_MinimumScaleRotateRadius )( __RPC__in IManipulationProcessor * This, /* [out] */ __RPC__out FLOAT *minRadius); HRESULT ( STDMETHODCALLTYPE *put_MinimumScaleRotateRadius )( __RPC__in IManipulationProcessor * This, /* [in] */ FLOAT minRadius); END_INTERFACE } IManipulationProcessorVtbl; interface IManipulationProcessor { CONST_VTBL struct IManipulationProcessorVtbl *lpVtbl; }; #ifdef COBJMACROS #define IManipulationProcessor_QueryInterface(This,riid,ppvObject) \ ( (This)->lpVtbl -> QueryInterface(This,riid,ppvObject) ) #define IManipulationProcessor_AddRef(This) \ ( (This)->lpVtbl -> AddRef(This) ) #define IManipulationProcessor_Release(This) \ ( (This)->lpVtbl -> Release(This) ) #define IManipulationProcessor_get_SupportedManipulations(This,manipulations) \ ( (This)->lpVtbl -> get_SupportedManipulations(This,manipulations) ) #define IManipulationProcessor_put_SupportedManipulations(This,manipulations) \ ( (This)->lpVtbl -> put_SupportedManipulations(This,manipulations) ) #define IManipulationProcessor_get_PivotPointX(This,pivotPointX) \ ( (This)->lpVtbl -> get_PivotPointX(This,pivotPointX) ) #define IManipulationProcessor_put_PivotPointX(This,pivotPointX) \ ( (This)->lpVtbl -> put_PivotPointX(This,pivotPointX) ) #define IManipulationProcessor_get_PivotPointY(This,pivotPointY) \ ( (This)->lpVtbl -> get_PivotPointY(This,pivotPointY) ) #define IManipulationProcessor_put_PivotPointY(This,pivotPointY) \ ( (This)->lpVtbl -> put_PivotPointY(This,pivotPointY) ) #define IManipulationProcessor_get_PivotRadius(This,pivotRadius) \ ( (This)->lpVtbl -> get_PivotRadius(This,pivotRadius) ) #define IManipulationProcessor_put_PivotRadius(This,pivotRadius) \ ( (This)->lpVtbl -> put_PivotRadius(This,pivotRadius) ) #define IManipulationProcessor_CompleteManipulation(This) \ ( (This)->lpVtbl -> CompleteManipulation(This) ) #define IManipulationProcessor_ProcessDown(This,manipulatorId,x,y) \ ( (This)->lpVtbl -> ProcessDown(This,manipulatorId,x,y) ) #define IManipulationProcessor_ProcessMove(This,manipulatorId,x,y) \ ( (This)->lpVtbl -> ProcessMove(This,manipulatorId,x,y) ) #define IManipulationProcessor_ProcessUp(This,manipulatorId,x,y) \ ( (This)->lpVtbl -> ProcessUp(This,manipulatorId,x,y) ) #define IManipulationProcessor_ProcessDownWithTime(This,manipulatorId,x,y,timestamp) \ ( (This)->lpVtbl -> ProcessDownWithTime(This,manipulatorId,x,y,timestamp) ) #define IManipulationProcessor_ProcessMoveWithTime(This,manipulatorId,x,y,timestamp) \ ( (This)->lpVtbl -> ProcessMoveWithTime(This,manipulatorId,x,y,timestamp) ) #define IManipulationProcessor_ProcessUpWithTime(This,manipulatorId,x,y,timestamp) \ ( (This)->lpVtbl -> ProcessUpWithTime(This,manipulatorId,x,y,timestamp) ) #define IManipulationProcessor_GetVelocityX(This,velocityX) \ ( (This)->lpVtbl -> GetVelocityX(This,velocityX) ) #define IManipulationProcessor_GetVelocityY(This,velocityY) \ ( (This)->lpVtbl -> GetVelocityY(This,velocityY) ) #define IManipulationProcessor_GetExpansionVelocity(This,expansionVelocity) \ ( (This)->lpVtbl -> GetExpansionVelocity(This,expansionVelocity) ) #define IManipulationProcessor_GetAngularVelocity(This,angularVelocity) \ ( (This)->lpVtbl -> GetAngularVelocity(This,angularVelocity) ) #define IManipulationProcessor_get_MinimumScaleRotateRadius(This,minRadius) \ ( (This)->lpVtbl -> get_MinimumScaleRotateRadius(This,minRadius) ) #define IManipulationProcessor_put_MinimumScaleRotateRadius(This,minRadius) \ ( (This)->lpVtbl -> put_MinimumScaleRotateRadius(This,minRadius) ) #endif /* COBJMACROS */ #endif /* C style interface */ #endif /* __IManipulationProcessor_INTERFACE_DEFINED__ */ EXTERN_C const CLSID CLSID_InertiaProcessor; #ifdef __cplusplus class DECLSPEC_UUID("abb27087-4ce0-4e58-a0cb-e24df96814be") InertiaProcessor; #endif EXTERN_C const CLSID CLSID_ManipulationProcessor; #ifdef __cplusplus class DECLSPEC_UUID("597D4FB0-47FD-4aff-89B9-C6CFAE8CF08E") ManipulationProcessor; #endif #endif /* __ManipulationsLib_LIBRARY_DEFINED__ */ /* Additional Prototypes for ALL interfaces */ /* end of Additional Prototypes */ #ifdef __cplusplus } #endif #endif