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windows-server-2003/admin/wmi/wbem/winmgmt/wbemcomn/var.h

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/*++
Copyright (C) 1996-2001 Microsoft Corporation
Module Name:
VAR.H
Abstract:
CVar & CVarVector.
These are thread-safe translators for VARIANT and SAFEARRAY
and represent all types support by WBEM.
These are mutually nestable to any level. A CVarVector can contain
an array of CVar, and a CVar can contain a CVarVector. One CVar
can therefore contain a whole tree of CVar objects, themselves
containing homogeneous or heterogeneous arrays of CVar objects.
Note: CVar should not be bound to one type and then immediately
coerced to a new type. This object is designed for speed, not safety,
so there is no checking to see if this has been done. A memory leak
is likely to occur.
The assignment operator and copy constructors are the only method
of changing the type on a CVar. Do NOT construct the object as
a BSTR, for example, and then call SetDWORD.
History:
16-Apr-96 a-raymcc Created.
12//17/98 sanjes - Partially Reviewed for Out of Memory.
18-Mar-99 a-dcrews Added out-of-memory exception handling
--*/
#ifndef _VAR_H_
#define _VAR_H_
#include <flexarry.h>
#include <safearry.h>
#include <algorithm>
#include <autobstr.h>
#define VT_EX_CVAR (VT_USERDEFINED | 0x80010000)
#define VT_EX_CVARVECTOR (VT_USERDEFINED | 0x80010002)
class CVarVector;
typedef union
{
char cVal; // VT_I1
BYTE bVal; // VT_UI1
SHORT iVal; // VT_I2
WORD wVal; // VT_UI2
LONG lVal; // VT_I4
DWORD dwVal; // VT_UI4
VARIANT_BOOL boolVal; // VT_BOOL
float fltVal; // VT_R4
double dblVal; // VT_R8
LPSTR pStr; // VT_LPSTR
LPWSTR pWStr; // VT_LPWSTR
BSTR Str; // VT_BSTR (stored as VT_LPWSTR)
FILETIME Time; // VT_FILETIME
BLOB Blob; // VT_BLOB
LPCLSID pClsId; // VT_CLSID
IUnknown* pUnk; // VT_UNKNOWN
IDispatch* pDisp; // VT_DISPATCH
CVarVector *pVarVector; // VT_EX_CVARVECTOR
} METAVALUE;
class POLARITY CVar
{
private:
int m_vt;
METAVALUE m_value;
int m_nStatus;
BOOL m_bCanDelete;
void Init();
public:
enum { no_error, unsupported, failed };
CVar() { Init(); }
~CVar();
CVar(const CVar &);
CVar& operator =(const CVar &);
CVar(char c) { Init(); SetChar(c); }
CVar(BYTE b) { Init(); SetByte(b); }
CVar(SHORT s) { Init(); SetShort(s); }
CVar(WORD w) { Init(); SetWord(w); }
CVar(LONG l) { Init(); SetLong(l); }
CVar(DWORD dw) { Init(); SetDWORD(dw); }
CVar(float f) { Init(); SetFloat(f); }
CVar(double d) { Init(); SetDouble(d); }
CVar(VARIANT_BOOL b,int){ Init(); SetBool(b); }
CVar(LPSTR p, BOOL bAcquire = FALSE)
{ Init(); SetLPSTR(p, bAcquire); }
CVar(LPWSTR p, BOOL bAcquire = FALSE)
{ Init(); SetLPWSTR(p, bAcquire); }
CVar(int, auto_bstr b)
{ Init(); SetBSTR(b); }
CVar(int, BSTR b)
{ Init(); SetBSTR(b); }
// Dummy int required for context, since BSTR is also LPWSTR
// from Win32 point of view, although the VT_ indicators differ.
CVar(CLSID *p, BOOL bAcquire = FALSE)
{ Init(); SetClsId(p, bAcquire); }
CVar(BLOB *p, BOOL bAcquire = FALSE)
{ Init(); SetBlob(p, bAcquire); }
CVar(FILETIME *p) { Init(); SetFileTime(p); }
CVar(CVarVector *p, BOOL bAcquire = FALSE) { Init(); SetVarVector(p, bAcquire); }
CVar(VARIANT *p) { Init(); SetVariant(p); }
CVar(int nType, SAFEARRAY *p) { Init(); SetSafeArray(nType, p); }
int Status() { return m_nStatus; }
int DumpText(FILE *fStream);
int GetType() { return m_vt; }
int GetOleType();
void Empty();
int operator ==(CVar &Other);
BOOL CompareTo(CVar& Other, BOOL bIgnoreCase);
void SetRaw(int vt, void* pvData, int nDataLen);
void* GetRawData() {return (void*)&m_value;}
BOOL CanDelete() {return m_bCanDelete;}
void SetCanDelete(BOOL bCanDelete) {m_bCanDelete = bCanDelete;}
// Numeric types.
// ==============
void SetAsNull() { m_vt = VT_NULL; m_value.lVal = 0; }
BOOL IsNull() {return m_vt == VT_NULL;}
BOOL IsDataNull();
void SetChar(char c) { m_vt = VT_I1; m_value.cVal = c; }
char GetChar() { return m_value.cVal; }
operator char() { return m_value.cVal; }
void SetByte(BYTE b) { m_vt = VT_UI1; m_value.bVal = b; }
BYTE GetByte() { return m_value.bVal; }
operator BYTE() { return m_value.bVal; }
void SetShort(SHORT iVal) { m_vt = VT_I2; m_value.iVal = iVal; }
SHORT GetShort() { return m_value.iVal; }
operator SHORT() { return m_value.iVal; }
void SetWord(WORD wVal) { m_vt = VT_UI2; m_value.wVal = wVal; }
WORD GetWord() { return m_value.wVal; }
operator WORD() { return m_value.wVal; }
void SetLong(LONG lVal) { m_value.lVal = lVal; m_vt = VT_I4; }
LONG GetLong() { return m_value.lVal; }
operator LONG() { return m_value.lVal; }
void SetDWORD(DWORD dwVal) { m_value.dwVal = dwVal; m_vt = VT_UI4; }
DWORD GetDWORD() { return m_value.dwVal; }
operator DWORD() { return m_value.dwVal; }
void SetBool(VARIANT_BOOL b) { m_value.boolVal = b; m_vt = VT_BOOL; }
VARIANT_BOOL GetBool() { return m_value.boolVal; }
void SetFloat(float f) { m_value.fltVal = f; m_vt = VT_R4; }
float GetFloat() { return m_value.fltVal; }
operator float() { return m_value.fltVal; }
void SetDouble(double dblVal) { m_value.dblVal = dblVal; m_vt = VT_R8; }
double GetDouble() { return m_value.dblVal; }
operator double() { return m_value.dblVal; }
void SetDispatch(IDispatch* pDisp);
IDispatch* GetDispatch()
{if(m_value.pDisp) m_value.pDisp->AddRef(); return m_value.pDisp;}
void SetUnknown(IUnknown* pUnk);
IUnknown* GetUnknown()
{if(m_value.pUnk) m_value.pUnk->AddRef(); return m_value.pUnk;}
void SetEmbeddedObject(IUnknown* pUnk) {SetUnknown(pUnk);}
IUnknown* GetEmbeddedObject() {return GetUnknown();}
int SetVariant(VARIANT *pSrc, BOOL fOptimize = FALSE);
void FillVariant(VARIANT* pDest, BOOL fOptimized = FALSE);
VARIANT *GetNewVariant();
// String types.
// =============
BOOL SetLPWSTR(LPWSTR pVal, BOOL bAcquire = FALSE);
wchar_t *GetLPWSTR() { return m_value.pWStr; }
operator LPWSTR() { return m_value.pWStr; }
BOOL SetLPSTR(LPSTR pStr, BOOL bAcquire = FALSE);
LPSTR GetLPSTR() { return m_value.pStr; }
operator LPSTR() { return m_value.pStr; }
BOOL SetBSTR(auto_bstr str);
BOOL SetBSTR(BSTR str);
BSTR GetBSTR(); // Makes a dynamic copy which must be freed.
// Misc. types.
// ============
void SetFileTime(FILETIME *pft) { m_value.Time = *pft; m_vt = VT_FILETIME; }
FILETIME GetFileTime() { return m_value.Time; }
operator FILETIME() { return m_value.Time; }
void SetBlob(BLOB *pBlob, BOOL bAcquire = FALSE);
BLOB *GetBlob() { return &m_value.Blob; }
operator BLOB *() { return &m_value.Blob; }
void SetClsId(CLSID *pClsId, BOOL bAcquire);
CLSID* GetClsId() { return m_value.pClsId; } // Return value is read-only
operator CLSID*() { return m_value.pClsId; } // Return value is read-only
void SetVarVector(CVarVector *pVec, BOOL bAcquire);
CVarVector *GetVarVector() { return m_value.pVarVector; }
operator CVarVector *() { return m_value.pVarVector; }
void SetSafeArray(int nType, SAFEARRAY *pArray); // Copies the source
SAFEARRAY *GetNewSafeArray(); // New SAFEARRAY which must be released
void SetOptimizedSafeArray(int nType, SAFEARRAY *pArray, BOOL fAcquire = FALSE);
SAFEARRAY* GetOptimizedSafeArray( void );
static BSTR TypeToText(int nType);
BSTR GetTypeText();
BSTR GetText(long lFlags, long lType = 0, LPCWSTR szFormat = NULL);
BOOL ChangeTypeTo(VARTYPE vtNew);
BOOL ChangeTypeToEx(VARTYPE vtNew, LCID lcid = 0x409 );
BOOL ToSingleChar();
BOOL ToUI4();
};
class POLARITY CVarVector
{
int m_nType;
CFlexArray m_Array;
int m_nStatus;
CSafeArray* m_pSafeArray;
void* m_pRawData;
public:
enum { no_error, failed, unsupported };
CVarVector();
CVarVector(int nVarType, int nInitSize = 32, int nGrowBy = 32);
// These two only support limited SAFEARRAY types.
// ===============================================
CVarVector(int nVarType, SAFEARRAY *pSrc, BOOL fOptimized = FALSE);
SAFEARRAY *GetNewSafeArray();
SAFEARRAY* GetSafeArray( BOOL fAcquire = FALSE );
int GetType() { return m_nType; }
int Status() { return m_nStatus; }
void Empty();
~CVarVector();
CVarVector(CVarVector &Src);
CVarVector& operator =(CVarVector &Src);
int operator ==(CVarVector &Src);
BOOL CompareTo(CVarVector& Other, BOOL bIgnoreCase);
int Size();
int Add(CVar &Value);
int Add(CVar *pAcquiredPtr);
CVar& GetAt(int nIndex);
CVar& operator [](int nIndex);
int RemoveAt(int nIndex);
int InsertAt(int nIndex, CVar &Value);
BSTR GetText(long lFlags, long lType = 0);
BOOL ToSingleChar();
BOOL ToUI4();
BOOL IsOptimized( void ) { return NULL != m_pSafeArray; }
BOOL MakeOptimized( int nVarType, int nInitSize = 32, int nGrowBy = 32 );
void SetRawArrayBinding( int nBinding );
HRESULT AccessRawArray( void** ppv );
HRESULT UnaccessRawArray( void );
// We access raw data using internal data member.
HRESULT InternalRawArrayAccess( void );
static BOOL IsValidVectorType( int nVarType );
static BOOL IsValidVectorArray( int nVarType, SAFEARRAY* pArray );
void FillCVarAt(int nIndex, CVar& vTemp);
BOOL DoesVectorTypeMatchArrayType( void );
HRESULT SetRawArrayData( void* pvData, int nNumElements, int nElementSize );
HRESULT GetRawArrayData( void* pvDest, int nBuffSize );
BOOL SetRawArraySize( int nSize );
int GetElementSize( void );
};
class CUnaccessVarVector
{
private:
CVarVector* m_pVV;
public:
CUnaccessVarVector( CVarVector* pvv = NULL ) : m_pVV( pvv ) {}
~CUnaccessVarVector() { Unaccess(); }
void SetVV( CVarVector* pvv ) { m_pVV = pvv; }
void Unaccess( void ) { if ( NULL != m_pVV ) m_pVV->UnaccessRawArray(); m_pVV = NULL; }
};
#endif