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File: [OMI] / omi / samples / Providers / ConnectorCXX / Widget.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 _Widget_h
#define _Widget_h
#include <MI.h>
/*
**==============================================================================
**
** Widget [XYZ_Widget]
**
** Keys:
** SerialNumber
**
**==============================================================================
*/
typedef struct _Widget
{
MI_Instance __instance;
/* Widget properties */
/*KEY*/ MI_ConstUint32Field SerialNumber;
MI_ConstUint32Field ModelNumber;
MI_ConstStringField Color;
MI_ConstStringAField Colors;
MI_ConstUint32AField Numbers;
MI_ConstDatetimeField Timestamp;
MI_ConstDatetimeField Interval;
MI_ConstDatetimeAField TimestampA;
MI_ConstDatetimeAField IntervalA;
}
Widget;
typedef struct _Widget_Ref
{
Widget* value;
MI_Boolean exists;
MI_Uint8 flags;
}
Widget_Ref;
typedef struct _Widget_ConstRef
{
MI_CONST Widget* value;
MI_Boolean exists;
MI_Uint8 flags;
}
Widget_ConstRef;
typedef struct _Widget_Array
{
struct _Widget** data;
MI_Uint32 size;
}
Widget_Array;
typedef struct _Widget_ConstArray
{
struct _Widget MI_CONST* MI_CONST* data;
MI_Uint32 size;
}
Widget_ConstArray;
typedef struct _Widget_ArrayRef
{
Widget_Array value;
MI_Boolean exists;
MI_Uint8 flags;
}
Widget_ArrayRef;
typedef struct _Widget_ConstArrayRef
{
Widget_ConstArray value;
MI_Boolean exists;
MI_Uint8 flags;
}
Widget_ConstArrayRef;
MI_EXTERN_C MI_CONST MI_ClassDecl Widget_rtti;
MI_INLINE MI_Result MI_CALL Widget_Construct(
Widget* self,
MI_Context* context)
{
return MI_ConstructInstance(context, &Widget_rtti,
(MI_Instance*)&self->__instance);
}
MI_INLINE MI_Result MI_CALL Widget_Clone(
const Widget* self,
Widget** newInstance)
{
return MI_Instance_Clone(
&self->__instance, (MI_Instance**)newInstance);
}
MI_INLINE MI_Boolean MI_CALL Widget_IsA(
const MI_Instance* self)
{
MI_Boolean res = MI_FALSE;
return MI_Instance_IsA(self, &Widget_rtti, &res) == MI_RESULT_OK && res;
}
MI_INLINE MI_Result MI_CALL Widget_Destruct(Widget* self)
{
return MI_Instance_Destruct(&self->__instance);
}
MI_INLINE MI_Result MI_CALL Widget_Delete(Widget* self)
{
return MI_Instance_Delete(&self->__instance);
}
MI_INLINE MI_Result MI_CALL Widget_Post(
const Widget* self,
MI_Context* context)
{
return MI_PostInstance(context, &self->__instance);
}
MI_INLINE MI_Result MI_CALL Widget_Set_SerialNumber(
Widget* 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 Widget_Clear_SerialNumber(
Widget* self)
{
memset((void*)&self->SerialNumber, 0, sizeof(self->SerialNumber));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL Widget_Set_ModelNumber(
Widget* 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 Widget_Clear_ModelNumber(
Widget* self)
{
memset((void*)&self->ModelNumber, 0, sizeof(self->ModelNumber));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL Widget_Set_Color(
Widget* self,
const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
2,
(MI_Value*)&str,
MI_STRING,
0);
}
MI_INLINE MI_Result MI_CALL Widget_SetPtr_Color(
Widget* self,
const MI_Char* str)
{
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
2,
(MI_Value*)&str,
MI_STRING,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL Widget_Clear_Color(
Widget* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
2);
}
MI_INLINE MI_Result MI_CALL Widget_Set_Colors(
Widget* self,
const MI_Char** data,
MI_Uint32 size)
{
MI_Array arr;
arr.data = (void*)data;
arr.size = size;
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
3,
(MI_Value*)&arr,
MI_STRINGA,
0);
}
MI_INLINE MI_Result MI_CALL Widget_SetPtr_Colors(
Widget* self,
const MI_Char** data,
MI_Uint32 size)
{
MI_Array arr;
arr.data = (void*)data;
arr.size = size;
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
3,
(MI_Value*)&arr,
MI_STRINGA,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL Widget_Clear_Colors(
Widget* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
3);
}
MI_INLINE MI_Result MI_CALL Widget_Set_Numbers(
Widget* self,
const MI_Uint32* data,
MI_Uint32 size)
{
MI_Array arr;
arr.data = (void*)data;
arr.size = size;
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
4,
(MI_Value*)&arr,
MI_UINT32A,
0);
}
MI_INLINE MI_Result MI_CALL Widget_SetPtr_Numbers(
Widget* self,
const MI_Uint32* data,
MI_Uint32 size)
{
MI_Array arr;
arr.data = (void*)data;
arr.size = size;
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
4,
(MI_Value*)&arr,
MI_UINT32A,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL Widget_Clear_Numbers(
Widget* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
4);
}
MI_INLINE MI_Result MI_CALL Widget_Set_Timestamp(
Widget* self,
MI_Datetime x)
{
((MI_DatetimeField*)&self->Timestamp)->value = x;
((MI_DatetimeField*)&self->Timestamp)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL Widget_Clear_Timestamp(
Widget* self)
{
memset((void*)&self->Timestamp, 0, sizeof(self->Timestamp));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL Widget_Set_Interval(
Widget* self,
MI_Datetime x)
{
((MI_DatetimeField*)&self->Interval)->value = x;
((MI_DatetimeField*)&self->Interval)->exists = 1;
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL Widget_Clear_Interval(
Widget* self)
{
memset((void*)&self->Interval, 0, sizeof(self->Interval));
return MI_RESULT_OK;
}
MI_INLINE MI_Result MI_CALL Widget_Set_TimestampA(
Widget* self,
const MI_Datetime* data,
MI_Uint32 size)
{
MI_Array arr;
arr.data = (void*)data;
arr.size = size;
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
7,
(MI_Value*)&arr,
MI_DATETIMEA,
0);
}
MI_INLINE MI_Result MI_CALL Widget_SetPtr_TimestampA(
Widget* self,
const MI_Datetime* data,
MI_Uint32 size)
{
MI_Array arr;
arr.data = (void*)data;
arr.size = size;
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
7,
(MI_Value*)&arr,
MI_DATETIMEA,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL Widget_Clear_TimestampA(
Widget* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
7);
}
MI_INLINE MI_Result MI_CALL Widget_Set_IntervalA(
Widget* self,
const MI_Datetime* data,
MI_Uint32 size)
{
MI_Array arr;
arr.data = (void*)data;
arr.size = size;
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
8,
(MI_Value*)&arr,
MI_DATETIMEA,
0);
}
MI_INLINE MI_Result MI_CALL Widget_SetPtr_IntervalA(
Widget* self,
const MI_Datetime* data,
MI_Uint32 size)
{
MI_Array arr;
arr.data = (void*)data;
arr.size = size;
return self->__instance.ft->SetElementAt(
(MI_Instance*)&self->__instance,
8,
(MI_Value*)&arr,
MI_DATETIMEA,
MI_FLAG_BORROW);
}
MI_INLINE MI_Result MI_CALL Widget_Clear_IntervalA(
Widget* self)
{
return self->__instance.ft->ClearElementAt(
(MI_Instance*)&self->__instance,
8);
}
/*
**==============================================================================
**
** Widget provider function prototypes
**
**==============================================================================
*/
/* The developer may optionally define this structure */
typedef struct _Widget_Self Widget_Self;
MI_EXTERN_C void MI_CALL Widget_Load(
Widget_Self** self,
MI_Module_Self* selfModule,
MI_Context* context);
MI_EXTERN_C void MI_CALL Widget_Unload(
Widget_Self* self,
MI_Context* context);
MI_EXTERN_C void MI_CALL Widget_EnumerateInstances(
Widget_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 Widget_GetInstance(
Widget_Self* self,
MI_Context* context,
const MI_Char* nameSpace,
const MI_Char* className,
const Widget* instanceName,
const MI_PropertySet* propertySet);
MI_EXTERN_C void MI_CALL Widget_CreateInstance(
Widget_Self* self,
MI_Context* context,
const MI_Char* nameSpace,
const MI_Char* className,
const Widget* newInstance);
MI_EXTERN_C void MI_CALL Widget_ModifyInstance(
Widget_Self* self,
MI_Context* context,
const MI_Char* nameSpace,
const MI_Char* className,
const Widget* modifiedInstance,
const MI_PropertySet* propertySet);
MI_EXTERN_C void MI_CALL Widget_DeleteInstance(
Widget_Self* self,
MI_Context* context,
const MI_Char* nameSpace,
const MI_Char* className,
const Widget* instanceName);
/*
**==============================================================================
**
** Widget_Class
**
**==============================================================================
*/
#ifdef __cplusplus
# include <micxx/micxx.h>
MI_BEGIN_NAMESPACE
class Widget_Class : public Instance
{
public:
typedef Widget Self;
Widget_Class() :
Instance(&Widget_rtti)
{
}
Widget_Class(
const Widget* instanceName,
bool keysOnly) :
Instance(
&Widget_rtti,
&instanceName->__instance,
keysOnly)
{
}
Widget_Class(
const MI_ClassDecl* clDecl,
const MI_Instance* instance,
bool keysOnly) :
Instance(clDecl, instance, keysOnly)
{
}
Widget_Class(
const MI_ClassDecl* clDecl) :
Instance(clDecl)
{
}
Widget_Class& operator=(
const Widget_Class& x)
{
CopyRef(x);
return *this;
}
Widget_Class(
const Widget_Class& x) :
Instance(x)
{
}
static const MI_ClassDecl* GetClassDecl()
{
return &Widget_rtti;
}
//
// Widget_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();
}
//
// Widget_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();
}
//
// Widget_Class.Color
//
const Field<String>& Color() const
{
const size_t n = offsetof(Self, Color);
return GetField<String>(n);
}
void Color(const Field<String>& x)
{
const size_t n = offsetof(Self, Color);
GetField<String>(n) = x;
}
const String& Color_value() const
{
const size_t n = offsetof(Self, Color);
return GetField<String>(n).value;
}
void Color_value(const String& x)
{
const size_t n = offsetof(Self, Color);
GetField<String>(n).Set(x);
}
bool Color_exists() const
{
const size_t n = offsetof(Self, Color);
return GetField<String>(n).exists ? true : false;
}
void Color_clear()
{
const size_t n = offsetof(Self, Color);
GetField<String>(n).Clear();
}
//
// Widget_Class.Colors
//
const Field<StringA>& Colors() const
{
const size_t n = offsetof(Self, Colors);
return GetField<StringA>(n);
}
void Colors(const Field<StringA>& x)
{
const size_t n = offsetof(Self, Colors);
GetField<StringA>(n) = x;
}
const StringA& Colors_value() const
{
const size_t n = offsetof(Self, Colors);
return GetField<StringA>(n).value;
}
void Colors_value(const StringA& x)
{
const size_t n = offsetof(Self, Colors);
GetField<StringA>(n).Set(x);
}
bool Colors_exists() const
{
const size_t n = offsetof(Self, Colors);
return GetField<StringA>(n).exists ? true : false;
}
void Colors_clear()
{
const size_t n = offsetof(Self, Colors);
GetField<StringA>(n).Clear();
}
//
// Widget_Class.Numbers
//
const Field<Uint32A>& Numbers() const
{
const size_t n = offsetof(Self, Numbers);
return GetField<Uint32A>(n);
}
void Numbers(const Field<Uint32A>& x)
{
const size_t n = offsetof(Self, Numbers);
GetField<Uint32A>(n) = x;
}
const Uint32A& Numbers_value() const
{
const size_t n = offsetof(Self, Numbers);
return GetField<Uint32A>(n).value;
}
void Numbers_value(const Uint32A& x)
{
const size_t n = offsetof(Self, Numbers);
GetField<Uint32A>(n).Set(x);
}
bool Numbers_exists() const
{
const size_t n = offsetof(Self, Numbers);
return GetField<Uint32A>(n).exists ? true : false;
}
void Numbers_clear()
{
const size_t n = offsetof(Self, Numbers);
GetField<Uint32A>(n).Clear();
}
//
// Widget_Class.Timestamp
//
const Field<Datetime>& Timestamp() const
{
const size_t n = offsetof(Self, Timestamp);
return GetField<Datetime>(n);
}
void Timestamp(const Field<Datetime>& x)
{
const size_t n = offsetof(Self, Timestamp);
GetField<Datetime>(n) = x;
}
const Datetime& Timestamp_value() const
{
const size_t n = offsetof(Self, Timestamp);
return GetField<Datetime>(n).value;
}
void Timestamp_value(const Datetime& x)
{
const size_t n = offsetof(Self, Timestamp);
GetField<Datetime>(n).Set(x);
}
bool Timestamp_exists() const
{
const size_t n = offsetof(Self, Timestamp);
return GetField<Datetime>(n).exists ? true : false;
}
void Timestamp_clear()
{
const size_t n = offsetof(Self, Timestamp);
GetField<Datetime>(n).Clear();
}
//
// Widget_Class.Interval
//
const Field<Datetime>& Interval() const
{
const size_t n = offsetof(Self, Interval);
return GetField<Datetime>(n);
}
void Interval(const Field<Datetime>& x)
{
const size_t n = offsetof(Self, Interval);
GetField<Datetime>(n) = x;
}
const Datetime& Interval_value() const
{
const size_t n = offsetof(Self, Interval);
return GetField<Datetime>(n).value;
}
void Interval_value(const Datetime& x)
{
const size_t n = offsetof(Self, Interval);
GetField<Datetime>(n).Set(x);
}
bool Interval_exists() const
{
const size_t n = offsetof(Self, Interval);
return GetField<Datetime>(n).exists ? true : false;
}
void Interval_clear()
{
const size_t n = offsetof(Self, Interval);
GetField<Datetime>(n).Clear();
}
//
// Widget_Class.TimestampA
//
const Field<DatetimeA>& TimestampA() const
{
const size_t n = offsetof(Self, TimestampA);
return GetField<DatetimeA>(n);
}
void TimestampA(const Field<DatetimeA>& x)
{
const size_t n = offsetof(Self, TimestampA);
GetField<DatetimeA>(n) = x;
}
const DatetimeA& TimestampA_value() const
{
const size_t n = offsetof(Self, TimestampA);
return GetField<DatetimeA>(n).value;
}
void TimestampA_value(const DatetimeA& x)
{
const size_t n = offsetof(Self, TimestampA);
GetField<DatetimeA>(n).Set(x);
}
bool TimestampA_exists() const
{
const size_t n = offsetof(Self, TimestampA);
return GetField<DatetimeA>(n).exists ? true : false;
}
void TimestampA_clear()
{
const size_t n = offsetof(Self, TimestampA);
GetField<DatetimeA>(n).Clear();
}
//
// Widget_Class.IntervalA
//
const Field<DatetimeA>& IntervalA() const
{
const size_t n = offsetof(Self, IntervalA);
return GetField<DatetimeA>(n);
}
void IntervalA(const Field<DatetimeA>& x)
{
const size_t n = offsetof(Self, IntervalA);
GetField<DatetimeA>(n) = x;
}
const DatetimeA& IntervalA_value() const
{
const size_t n = offsetof(Self, IntervalA);
return GetField<DatetimeA>(n).value;
}
void IntervalA_value(const DatetimeA& x)
{
const size_t n = offsetof(Self, IntervalA);
GetField<DatetimeA>(n).Set(x);
}
bool IntervalA_exists() const
{
const size_t n = offsetof(Self, IntervalA);
return GetField<DatetimeA>(n).exists ? true : false;
}
void IntervalA_clear()
{
const size_t n = offsetof(Self, IntervalA);
GetField<DatetimeA>(n).Clear();
}
};
typedef Array<Widget_Class> Widget_ClassA;
MI_END_NAMESPACE
#endif /* __cplusplus */
#endif /* _Widget_h */
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