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File: [OMI] / omi / samples / Providers / ConnectorCXX / Gadget.h
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Revision: 1.1.1.1 (vendor branch), Wed May 30 21:47:40 2012 UTC (12 years, 1 month ago) by mike Branch: TOG CVS Tags: OMI_1_0_2_Branch, OMI_1_0_2, OMI_1_0_1_PRE, OMI_1_0_1, OMI_1_0_0 Changes since 1.1: +0 -0 lines Initial Import |
/* @migen@ */ /* **============================================================================== ** ** WARNING: THIS FILE WAS AUTOMATICALLY GENERATED. PLEASE DO NOT EDIT. ** **============================================================================== */ #ifndef _Gadget_h #define _Gadget_h #include <MI.h> #include "Widget.h" #include "Gadget.h" /* **============================================================================== ** ** Gadget [XYZ_Gadget] ** ** Keys: ** SerialNumber ** **============================================================================== */ typedef struct _Gadget { MI_Instance __instance; /* Gadget properties */ /*KEY*/ MI_ConstUint32Field SerialNumber; MI_ConstUint32Field ModelNumber; MI_ConstUint32Field Size; MI_ConstUint32Field State; Widget_ConstRef Embedded; } Gadget; typedef struct _Gadget_Ref { Gadget* value; MI_Boolean exists; MI_Uint8 flags; } Gadget_Ref; typedef struct _Gadget_ConstRef { MI_CONST Gadget* value; MI_Boolean exists; MI_Uint8 flags; } Gadget_ConstRef; typedef struct _Gadget_Array { struct _Gadget** data; MI_Uint32 size; } Gadget_Array; typedef struct _Gadget_ConstArray { struct _Gadget MI_CONST* MI_CONST* data; MI_Uint32 size; } Gadget_ConstArray; typedef struct _Gadget_ArrayRef { Gadget_Array value; MI_Boolean exists; MI_Uint8 flags; } Gadget_ArrayRef; typedef struct _Gadget_ConstArrayRef { Gadget_ConstArray value; MI_Boolean exists; MI_Uint8 flags; } Gadget_ConstArrayRef; MI_EXTERN_C MI_CONST MI_ClassDecl Gadget_rtti; MI_INLINE MI_Result MI_CALL Gadget_Construct( Gadget* self, MI_Context* context) { return MI_ConstructInstance(context, &Gadget_rtti, (MI_Instance*)&self->__instance); } MI_INLINE MI_Result MI_CALL Gadget_Clone( const Gadget* self, Gadget** newInstance) { return MI_Instance_Clone( &self->__instance, (MI_Instance**)newInstance); } MI_INLINE MI_Boolean MI_CALL Gadget_IsA( const MI_Instance* self) { MI_Boolean res = MI_FALSE; return MI_Instance_IsA(self, &Gadget_rtti, &res) == MI_RESULT_OK && res; } MI_INLINE MI_Result MI_CALL Gadget_Destruct(Gadget* self) { return MI_Instance_Destruct(&self->__instance); } MI_INLINE MI_Result MI_CALL Gadget_Delete(Gadget* self) { return MI_Instance_Delete(&self->__instance); } MI_INLINE MI_Result MI_CALL Gadget_Post( const Gadget* self, MI_Context* context) { return MI_PostInstance(context, &self->__instance); } MI_INLINE MI_Result MI_CALL Gadget_Set_SerialNumber( Gadget* self, MI_Uint32 x) { ((MI_Uint32Field*)&self->SerialNumber)->value = x; ((MI_Uint32Field*)&self->SerialNumber)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_Clear_SerialNumber( Gadget* self) { memset((void*)&self->SerialNumber, 0, sizeof(self->SerialNumber)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_Set_ModelNumber( Gadget* self, MI_Uint32 x) { ((MI_Uint32Field*)&self->ModelNumber)->value = x; ((MI_Uint32Field*)&self->ModelNumber)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_Clear_ModelNumber( Gadget* self) { memset((void*)&self->ModelNumber, 0, sizeof(self->ModelNumber)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_Set_Size( Gadget* self, MI_Uint32 x) { ((MI_Uint32Field*)&self->Size)->value = x; ((MI_Uint32Field*)&self->Size)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_Clear_Size( Gadget* self) { memset((void*)&self->Size, 0, sizeof(self->Size)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_Set_State( Gadget* self, MI_Uint32 x) { ((MI_Uint32Field*)&self->State)->value = x; ((MI_Uint32Field*)&self->State)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_Clear_State( Gadget* self) { memset((void*)&self->State, 0, sizeof(self->State)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_Set_Embedded( Gadget* self, const Widget* x) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 4, (MI_Value*)&x, MI_INSTANCE, 0); } MI_INLINE MI_Result MI_CALL Gadget_SetPtr_Embedded( Gadget* self, const Widget* x) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 4, (MI_Value*)&x, MI_INSTANCE, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL Gadget_Clear_Embedded( Gadget* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 4); } /* **============================================================================== ** ** Gadget.ChangeState() ** **============================================================================== */ typedef struct _Gadget_ChangeState { MI_Instance __instance; /*OUT*/ MI_ConstUint32Field MIReturn; /*IN*/ MI_ConstUint32Field NewState; /*OUT*/ MI_ConstUint32Field OldState; } Gadget_ChangeState; MI_EXTERN_C MI_CONST MI_MethodDecl Gadget_ChangeState_rtti; MI_INLINE MI_Result MI_CALL Gadget_ChangeState_Construct( Gadget_ChangeState* self, MI_Context* context) { return MI_ConstructParameters(context, &Gadget_ChangeState_rtti, (MI_Instance*)&self->__instance); } MI_INLINE MI_Result MI_CALL Gadget_ChangeState_Clone( const Gadget_ChangeState* self, Gadget_ChangeState** newInstance) { return MI_Instance_Clone( &self->__instance, (MI_Instance**)newInstance); } MI_INLINE MI_Result MI_CALL Gadget_ChangeState_Destruct( Gadget_ChangeState* self) { return MI_Instance_Destruct(&self->__instance); } MI_INLINE MI_Result MI_CALL Gadget_ChangeState_Delete( Gadget_ChangeState* self) { return MI_Instance_Delete(&self->__instance); } MI_INLINE MI_Result MI_CALL Gadget_ChangeState_Post( const Gadget_ChangeState* self, MI_Context* context) { return MI_PostInstance(context, &self->__instance); } MI_INLINE MI_Result MI_CALL Gadget_ChangeState_Set_MIReturn( Gadget_ChangeState* self, MI_Uint32 x) { ((MI_Uint32Field*)&self->MIReturn)->value = x; ((MI_Uint32Field*)&self->MIReturn)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_ChangeState_Clear_MIReturn( Gadget_ChangeState* self) { memset((void*)&self->MIReturn, 0, sizeof(self->MIReturn)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_ChangeState_Set_NewState( Gadget_ChangeState* self, MI_Uint32 x) { ((MI_Uint32Field*)&self->NewState)->value = x; ((MI_Uint32Field*)&self->NewState)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_ChangeState_Clear_NewState( Gadget_ChangeState* self) { memset((void*)&self->NewState, 0, sizeof(self->NewState)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_ChangeState_Set_OldState( Gadget_ChangeState* self, MI_Uint32 x) { ((MI_Uint32Field*)&self->OldState)->value = x; ((MI_Uint32Field*)&self->OldState)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_ChangeState_Clear_OldState( Gadget_ChangeState* self) { memset((void*)&self->OldState, 0, sizeof(self->OldState)); return MI_RESULT_OK; } /* **============================================================================== ** ** Gadget.Foo() ** **============================================================================== */ typedef struct _Gadget_Foo { MI_Instance __instance; /*OUT*/ MI_ConstUint32Field MIReturn; /*IN*/ Gadget_ConstRef Arg; } Gadget_Foo; MI_EXTERN_C MI_CONST MI_MethodDecl Gadget_Foo_rtti; MI_INLINE MI_Result MI_CALL Gadget_Foo_Construct( Gadget_Foo* self, MI_Context* context) { return MI_ConstructParameters(context, &Gadget_Foo_rtti, (MI_Instance*)&self->__instance); } MI_INLINE MI_Result MI_CALL Gadget_Foo_Clone( const Gadget_Foo* self, Gadget_Foo** newInstance) { return MI_Instance_Clone( &self->__instance, (MI_Instance**)newInstance); } MI_INLINE MI_Result MI_CALL Gadget_Foo_Destruct( Gadget_Foo* self) { return MI_Instance_Destruct(&self->__instance); } MI_INLINE MI_Result MI_CALL Gadget_Foo_Delete( Gadget_Foo* self) { return MI_Instance_Delete(&self->__instance); } MI_INLINE MI_Result MI_CALL Gadget_Foo_Post( const Gadget_Foo* self, MI_Context* context) { return MI_PostInstance(context, &self->__instance); } MI_INLINE MI_Result MI_CALL Gadget_Foo_Set_MIReturn( Gadget_Foo* self, MI_Uint32 x) { ((MI_Uint32Field*)&self->MIReturn)->value = x; ((MI_Uint32Field*)&self->MIReturn)->exists = 1; return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_Foo_Clear_MIReturn( Gadget_Foo* self) { memset((void*)&self->MIReturn, 0, sizeof(self->MIReturn)); return MI_RESULT_OK; } MI_INLINE MI_Result MI_CALL Gadget_Foo_Set_Arg( Gadget_Foo* self, const Gadget* x) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 1, (MI_Value*)&x, MI_INSTANCE, 0); } MI_INLINE MI_Result MI_CALL Gadget_Foo_SetPtr_Arg( Gadget_Foo* self, const Gadget* x) { return self->__instance.ft->SetElementAt( (MI_Instance*)&self->__instance, 1, (MI_Value*)&x, MI_INSTANCE, MI_FLAG_BORROW); } MI_INLINE MI_Result MI_CALL Gadget_Foo_Clear_Arg( Gadget_Foo* self) { return self->__instance.ft->ClearElementAt( (MI_Instance*)&self->__instance, 1); } /* **============================================================================== ** ** Gadget provider function prototypes ** **============================================================================== */ /* The developer may optionally define this structure */ typedef struct _Gadget_Self Gadget_Self; MI_EXTERN_C void MI_CALL Gadget_Load( Gadget_Self** self, MI_Module_Self* selfModule, MI_Context* context); MI_EXTERN_C void MI_CALL Gadget_Unload( Gadget_Self* self, MI_Context* context); MI_EXTERN_C void MI_CALL Gadget_EnumerateInstances( Gadget_Self* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_PropertySet* propertySet, MI_Boolean keysOnly, const MI_Filter* filter); MI_EXTERN_C void MI_CALL Gadget_GetInstance( Gadget_Self* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const Gadget* instanceName, const MI_PropertySet* propertySet); MI_EXTERN_C void MI_CALL Gadget_CreateInstance( Gadget_Self* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const Gadget* newInstance); MI_EXTERN_C void MI_CALL Gadget_ModifyInstance( Gadget_Self* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const Gadget* modifiedInstance, const MI_PropertySet* propertySet); MI_EXTERN_C void MI_CALL Gadget_DeleteInstance( Gadget_Self* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const Gadget* instanceName); MI_EXTERN_C void MI_CALL Gadget_Invoke_ChangeState( Gadget_Self* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_Char* methodName, const Gadget* instanceName, const Gadget_ChangeState* in); MI_EXTERN_C void MI_CALL Gadget_Invoke_Foo( Gadget_Self* self, MI_Context* context, const MI_Char* nameSpace, const MI_Char* className, const MI_Char* methodName, const Gadget* instanceName, const Gadget_Foo* in); /* **============================================================================== ** ** Gadget_Class ** **============================================================================== */ #ifdef __cplusplus # include <micxx/micxx.h> MI_BEGIN_NAMESPACE class Gadget_Class : public Instance { public: typedef Gadget Self; Gadget_Class() : Instance(&Gadget_rtti) { } Gadget_Class( const Gadget* instanceName, bool keysOnly) : Instance( &Gadget_rtti, &instanceName->__instance, keysOnly) { } Gadget_Class( const MI_ClassDecl* clDecl, const MI_Instance* instance, bool keysOnly) : Instance(clDecl, instance, keysOnly) { } Gadget_Class( const MI_ClassDecl* clDecl) : Instance(clDecl) { } Gadget_Class& operator=( const Gadget_Class& x) { CopyRef(x); return *this; } Gadget_Class( const Gadget_Class& x) : Instance(x) { } static const MI_ClassDecl* GetClassDecl() { return &Gadget_rtti; } // // Gadget_Class.SerialNumber // const Field<Uint32>& SerialNumber() const { const size_t n = offsetof(Self, SerialNumber); return GetField<Uint32>(n); } void SerialNumber(const Field<Uint32>& x) { const size_t n = offsetof(Self, SerialNumber); GetField<Uint32>(n) = x; } const Uint32& SerialNumber_value() const { const size_t n = offsetof(Self, SerialNumber); return GetField<Uint32>(n).value; } void SerialNumber_value(const Uint32& x) { const size_t n = offsetof(Self, SerialNumber); GetField<Uint32>(n).Set(x); } bool SerialNumber_exists() const { const size_t n = offsetof(Self, SerialNumber); return GetField<Uint32>(n).exists ? true : false; } void SerialNumber_clear() { const size_t n = offsetof(Self, SerialNumber); GetField<Uint32>(n).Clear(); } // // Gadget_Class.ModelNumber // const Field<Uint32>& ModelNumber() const { const size_t n = offsetof(Self, ModelNumber); return GetField<Uint32>(n); } void ModelNumber(const Field<Uint32>& x) { const size_t n = offsetof(Self, ModelNumber); GetField<Uint32>(n) = x; } const Uint32& ModelNumber_value() const { const size_t n = offsetof(Self, ModelNumber); return GetField<Uint32>(n).value; } void ModelNumber_value(const Uint32& x) { const size_t n = offsetof(Self, ModelNumber); GetField<Uint32>(n).Set(x); } bool ModelNumber_exists() const { const size_t n = offsetof(Self, ModelNumber); return GetField<Uint32>(n).exists ? true : false; } void ModelNumber_clear() { const size_t n = offsetof(Self, ModelNumber); GetField<Uint32>(n).Clear(); } // // Gadget_Class.Size // const Field<Uint32>& Size() const { const size_t n = offsetof(Self, Size); return GetField<Uint32>(n); } void Size(const Field<Uint32>& x) { const size_t n = offsetof(Self, Size); GetField<Uint32>(n) = x; } const Uint32& Size_value() const { const size_t n = offsetof(Self, Size); return GetField<Uint32>(n).value; } void Size_value(const Uint32& x) { const size_t n = offsetof(Self, Size); GetField<Uint32>(n).Set(x); } bool Size_exists() const { const size_t n = offsetof(Self, Size); return GetField<Uint32>(n).exists ? true : false; } void Size_clear() { const size_t n = offsetof(Self, Size); GetField<Uint32>(n).Clear(); } // // Gadget_Class.State // const Field<Uint32>& State() const { const size_t n = offsetof(Self, State); return GetField<Uint32>(n); } void State(const Field<Uint32>& x) { const size_t n = offsetof(Self, State); GetField<Uint32>(n) = x; } const Uint32& State_value() const { const size_t n = offsetof(Self, State); return GetField<Uint32>(n).value; } void State_value(const Uint32& x) { const size_t n = offsetof(Self, State); GetField<Uint32>(n).Set(x); } bool State_exists() const { const size_t n = offsetof(Self, State); return GetField<Uint32>(n).exists ? true : false; } void State_clear() { const size_t n = offsetof(Self, State); GetField<Uint32>(n).Clear(); } // // Gadget_Class.Embedded // const Field<Widget_Class>& Embedded() const { const size_t n = offsetof(Self, Embedded); return GetField<Widget_Class>(n); } void Embedded(const Field<Widget_Class>& x) { const size_t n = offsetof(Self, Embedded); GetField<Widget_Class>(n) = x; } const Widget_Class& Embedded_value() const { const size_t n = offsetof(Self, Embedded); return GetField<Widget_Class>(n).value; } void Embedded_value(const Widget_Class& x) { const size_t n = offsetof(Self, Embedded); GetField<Widget_Class>(n).Set(x); } bool Embedded_exists() const { const size_t n = offsetof(Self, Embedded); return GetField<Widget_Class>(n).exists ? true : false; } void Embedded_clear() { const size_t n = offsetof(Self, Embedded); GetField<Widget_Class>(n).Clear(); } }; typedef Array<Gadget_Class> Gadget_ClassA; class Gadget_ChangeState_Class : public Instance { public: typedef Gadget_ChangeState Self; Gadget_ChangeState_Class() : Instance(&Gadget_ChangeState_rtti) { } Gadget_ChangeState_Class( const Gadget_ChangeState* instanceName, bool keysOnly) : Instance( &Gadget_ChangeState_rtti, &instanceName->__instance, keysOnly) { } Gadget_ChangeState_Class( const MI_ClassDecl* clDecl, const MI_Instance* instance, bool keysOnly) : Instance(clDecl, instance, keysOnly) { } Gadget_ChangeState_Class( const MI_ClassDecl* clDecl) : Instance(clDecl) { } Gadget_ChangeState_Class& operator=( const Gadget_ChangeState_Class& x) { CopyRef(x); return *this; } Gadget_ChangeState_Class( const Gadget_ChangeState_Class& x) : Instance(x) { } // // Gadget_ChangeState_Class.MIReturn // const Field<Uint32>& MIReturn() const { const size_t n = offsetof(Self, MIReturn); return GetField<Uint32>(n); } void MIReturn(const Field<Uint32>& x) { const size_t n = offsetof(Self, MIReturn); GetField<Uint32>(n) = x; } const Uint32& MIReturn_value() const { const size_t n = offsetof(Self, MIReturn); return GetField<Uint32>(n).value; } void MIReturn_value(const Uint32& x) { const size_t n = offsetof(Self, MIReturn); GetField<Uint32>(n).Set(x); } bool MIReturn_exists() const { const size_t n = offsetof(Self, MIReturn); return GetField<Uint32>(n).exists ? true : false; } void MIReturn_clear() { const size_t n = offsetof(Self, MIReturn); GetField<Uint32>(n).Clear(); } // // Gadget_ChangeState_Class.NewState // const Field<Uint32>& NewState() const { const size_t n = offsetof(Self, NewState); return GetField<Uint32>(n); } void NewState(const Field<Uint32>& x) { const size_t n = offsetof(Self, NewState); GetField<Uint32>(n) = x; } const Uint32& NewState_value() const { const size_t n = offsetof(Self, NewState); return GetField<Uint32>(n).value; } void NewState_value(const Uint32& x) { const size_t n = offsetof(Self, NewState); GetField<Uint32>(n).Set(x); } bool NewState_exists() const { const size_t n = offsetof(Self, NewState); return GetField<Uint32>(n).exists ? true : false; } void NewState_clear() { const size_t n = offsetof(Self, NewState); GetField<Uint32>(n).Clear(); } // // Gadget_ChangeState_Class.OldState // const Field<Uint32>& OldState() const { const size_t n = offsetof(Self, OldState); return GetField<Uint32>(n); } void OldState(const Field<Uint32>& x) { const size_t n = offsetof(Self, OldState); GetField<Uint32>(n) = x; } const Uint32& OldState_value() const { const size_t n = offsetof(Self, OldState); return GetField<Uint32>(n).value; } void OldState_value(const Uint32& x) { const size_t n = offsetof(Self, OldState); GetField<Uint32>(n).Set(x); } bool OldState_exists() const { const size_t n = offsetof(Self, OldState); return GetField<Uint32>(n).exists ? true : false; } void OldState_clear() { const size_t n = offsetof(Self, OldState); GetField<Uint32>(n).Clear(); } }; typedef Array<Gadget_ChangeState_Class> Gadget_ChangeState_ClassA; class Gadget_Foo_Class : public Instance { public: typedef Gadget_Foo Self; Gadget_Foo_Class() : Instance(&Gadget_Foo_rtti) { } Gadget_Foo_Class( const Gadget_Foo* instanceName, bool keysOnly) : Instance( &Gadget_Foo_rtti, &instanceName->__instance, keysOnly) { } Gadget_Foo_Class( const MI_ClassDecl* clDecl, const MI_Instance* instance, bool keysOnly) : Instance(clDecl, instance, keysOnly) { } Gadget_Foo_Class( const MI_ClassDecl* clDecl) : Instance(clDecl) { } Gadget_Foo_Class& operator=( const Gadget_Foo_Class& x) { CopyRef(x); return *this; } Gadget_Foo_Class( const Gadget_Foo_Class& x) : Instance(x) { } // // Gadget_Foo_Class.MIReturn // const Field<Uint32>& MIReturn() const { const size_t n = offsetof(Self, MIReturn); return GetField<Uint32>(n); } void MIReturn(const Field<Uint32>& x) { const size_t n = offsetof(Self, MIReturn); GetField<Uint32>(n) = x; } const Uint32& MIReturn_value() const { const size_t n = offsetof(Self, MIReturn); return GetField<Uint32>(n).value; } void MIReturn_value(const Uint32& x) { const size_t n = offsetof(Self, MIReturn); GetField<Uint32>(n).Set(x); } bool MIReturn_exists() const { const size_t n = offsetof(Self, MIReturn); return GetField<Uint32>(n).exists ? true : false; } void MIReturn_clear() { const size_t n = offsetof(Self, MIReturn); GetField<Uint32>(n).Clear(); } // // Gadget_Foo_Class.Arg // const Field<Gadget_Class>& Arg() const { const size_t n = offsetof(Self, Arg); return GetField<Gadget_Class>(n); } void Arg(const Field<Gadget_Class>& x) { const size_t n = offsetof(Self, Arg); GetField<Gadget_Class>(n) = x; } const Gadget_Class& Arg_value() const { const size_t n = offsetof(Self, Arg); return GetField<Gadget_Class>(n).value; } void Arg_value(const Gadget_Class& x) { const size_t n = offsetof(Self, Arg); GetField<Gadget_Class>(n).Set(x); } bool Arg_exists() const { const size_t n = offsetof(Self, Arg); return GetField<Gadget_Class>(n).exists ? true : false; } void Arg_clear() { const size_t n = offsetof(Self, Arg); GetField<Gadget_Class>(n).Clear(); } }; typedef Array<Gadget_Foo_Class> Gadget_Foo_ClassA; MI_END_NAMESPACE #endif /* __cplusplus */ #endif /* _Gadget_h */
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