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File: [Pegasus] / pegasus / src / Pegasus / Common / CIMValue.cpp
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Revision: 1.52, Sun Jan 16 02:43:23 2005 UTC (19 years, 5 months ago) by david.dillard Branch: MAIN CVS Tags: pegasus25BeforeLicenseUpdate, SLPPERFINST-root, SLPPERFINST-branch Changes since 1.51: +22 -20 lines BUG#: 2297 TITLE: 'Types' changes USER: David Dillard MAIL: david.dillard@veritas.com DESCRIPTION: Changes for typedef'ing Sint8 to be a 'signed char'. |
//%2004////////////////////////////////////////////////////////////////////////
//
// Copyright (c) 2000, 2001, 2002 BMC Software; Hewlett-Packard Development
// Company, L.P.; IBM Corp.; The Open Group; Tivoli Systems.
// Copyright (c) 2003 BMC Software; Hewlett-Packard Development Company, L.P.;
// IBM Corp.; EMC Corporation, The Open Group.
// Copyright (c) 2004 BMC Software; Hewlett-Packard Development Company, L.P.;
// IBM Corp.; EMC Corporation; VERITAS Software Corporation; The Open Group.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to
// deal in the Software without restriction, including without limitation the
// rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
// sell copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// THE ABOVE COPYRIGHT NOTICE AND THIS PERMISSION NOTICE SHALL BE INCLUDED IN
// ALL COPIES OR SUBSTANTIAL PORTIONS OF THE SOFTWARE. THE SOFTWARE IS PROVIDED
// "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT
// LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
// PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
// HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN
// ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
// WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
//
//==============================================================================
//
// Author: Mike Brasher (mbrasher@bmc.com)
//
// Modified By: Roger Kumpf, Hewlett-Packard Company (roger_kumpf@hp.com)
// Karl Schopmeyer, (k.schopmeyer@opengroup.org)
// Carol Ann Krug Graves, Hewlett-Packard Company
// (carolann_graves@hp.com)
// Adriann Schuur (schuur@de.ibm.com) PEP 164
// Dave Sudlik, IBM (dsudlik@us.ibm.com)
// David Dillard, VERITAS Software Corp.
// (david.dillard@veritas.com)
//
//%/////////////////////////////////////////////////////////////////////////////
#include <cstring>
#include <cstdio>
#include <cctype>
#include "CIMValue.h"
#include "Union.h"
#include "Indentor.h"
#include "XmlWriter.h"
#include "CommonUTF.h"
#include "CIMValueRep.h"
PEGASUS_NAMESPACE_BEGIN
#define PEGASUS_ARRAY_T CIMValue
# include "ArrayImpl.h"
#undef PEGASUS_ARRAY_T
////////////////////////////////////////////////////////////////////////////////
//
// _toString routines:
//
////////////////////////////////////////////////////////////////////////////////
inline void _toString(Array<char>& out, Boolean x)
{
XmlWriter::append(out, x);
}
inline void _toString(Array<char>& out, Uint8 x) { XmlWriter::append(out, Uint32(x)); }
inline void _toString(Array<char>& out, Sint8 x) { XmlWriter::append(out, Sint32(x)); }
inline void _toString(Array<char>& out, Uint16 x) { XmlWriter::append(out, Uint32(x)); }
inline void _toString(Array<char>& out, Sint16 x) { XmlWriter::append(out, Sint32(x)); }
inline void _toString(Array<char>& out, Uint32 x) { XmlWriter::append(out, x); }
inline void _toString(Array<char>& out, Sint32 x) { XmlWriter::append(out, x); }
inline void _toString(Array<char>& out, Uint64 x) { XmlWriter::append(out, x); }
inline void _toString(Array<char>& out, Sint64 x) { XmlWriter::append(out, x); }
inline void _toString(Array<char>& out, Real32 x) { XmlWriter::append(out, Real64(x)); }
inline void _toString(Array<char>& out, Real64 x) { XmlWriter::append(out, x); }
inline void _toString(Array<char>& out, Char16 x)
{
// We need to convert the Char16 to UTF8 then append the UTF8
// character into the array.
// NOTE: The UTF8 character could be several bytes long.
// WARNING: This function will put in replacement character for
// all characters that have surogate pairs.
char str[6];
memset(str,0x00,sizeof(str));
char* charIN = (char *)&x;
const Uint16 *strsrc = (Uint16 *)charIN;
Uint16 *endsrc = (Uint16 *)&charIN[1];
Uint8 *strtgt = (Uint8 *)str;
Uint8 *endtgt = (Uint8 *)&str[5];
UTF16toUTF8(&strsrc,
endsrc,
&strtgt,
endtgt);
out.append(str, UTF_8_COUNT_TRAIL_BYTES(str[0]) +1);
}
inline void _toString(Array<char>& out, const String& x)
{
out << x;
}
inline void _toString(Array<char>& out, const CIMDateTime& x)
{
out << x.toString();
}
inline void _toString(Array<char>& out, const CIMObjectPath& x)
{
out << x.toString();
}
inline void _toString(Array<char>& out, const CIMObject& x)
{
out << x.toString();
}
template<class T>
void _toString(Array<char>& out, const T* p, Uint32 size)
{
while (size--)
{
_toString(out, *p++);
out << " ";
}
}
////////////////////////////////////////////////////////////////////////////////
//
// CIMValue
//
////////////////////////////////////////////////////////////////////////////////
CIMValue::CIMValue()
{
_rep = new CIMValueRep();
}
CIMValue::CIMValue(CIMType type, Boolean isArray, Uint32 arraySize)
{
_rep = new CIMValueRep();
setNullValue(type, isArray, arraySize);
}
CIMValue::CIMValue(Boolean x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(Uint8 x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(Sint8 x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(Uint16 x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(Sint16 x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(Uint32 x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(Sint32 x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(Uint64 x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(Sint64 x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(Real32 x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(Real64 x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Char16& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const String& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const CIMDateTime& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const CIMObjectPath& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const CIMObject& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<Boolean>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<Uint8>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<Sint8>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<Uint16>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<Sint16>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<Uint32>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<Sint32>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<Uint64>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<Sint64>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<Real32>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<Real64>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<Char16>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<String>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<CIMDateTime>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<CIMObjectPath>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const Array<CIMObject>& x)
{
_rep = new CIMValueRep();
set(x);
}
CIMValue::CIMValue(const CIMValue& x)
{
_rep = new CIMValueRep();
assign(x);
}
CIMValue::~CIMValue()
{
clear();
delete _rep;
}
CIMValue& CIMValue::operator=(const CIMValue& x)
{
assign(x);
return *this;
}
void CIMValue::assign(const CIMValue& x)
{
if (this == &x)
return;
clear();
_rep->_type = x._rep->_type;
_rep->_isArray = x._rep->_isArray;
_rep->_isNull = x._rep->_isNull;
if (_rep->_isArray)
{
switch (_rep->_type)
{
case CIMTYPE_BOOLEAN:
_rep->_u._booleanArray =
new Array<Boolean>(*(x._rep->_u._booleanArray));
break;
case CIMTYPE_UINT8:
_rep->_u._uint8Array =
new Array<Uint8>(*(x._rep->_u._uint8Array));
break;
case CIMTYPE_SINT8:
_rep->_u._sint8Array =
new Array<Sint8>(*(x._rep->_u._sint8Array));
break;
case CIMTYPE_UINT16:
_rep->_u._uint16Array =
new Array<Uint16>(*(x._rep->_u._uint16Array));
break;
case CIMTYPE_SINT16:
_rep->_u._sint16Array =
new Array<Sint16>(*(x._rep->_u._sint16Array));
break;
case CIMTYPE_UINT32:
_rep->_u._uint32Array =
new Array<Uint32>(*(x._rep->_u._uint32Array));
break;
case CIMTYPE_SINT32:
_rep->_u._sint32Array =
new Array<Sint32>(*(x._rep->_u._sint32Array));
break;
case CIMTYPE_UINT64:
_rep->_u._uint64Array =
new Array<Uint64>(*(x._rep->_u._uint64Array));
break;
case CIMTYPE_SINT64:
_rep->_u._sint64Array =
new Array<Sint64>(*(x._rep->_u._sint64Array));
break;
case CIMTYPE_REAL32:
_rep->_u._real32Array =
new Array<Real32>(*(x._rep->_u._real32Array));
break;
case CIMTYPE_REAL64:
_rep->_u._real64Array =
new Array<Real64>(*(x._rep->_u._real64Array));
break;
case CIMTYPE_CHAR16:
_rep->_u._char16Array =
new Array<Char16>(*(x._rep->_u._char16Array));
break;
case CIMTYPE_STRING:
_rep->_u._stringArray =
new Array<String>(*(x._rep->_u._stringArray));
break;
case CIMTYPE_DATETIME:
_rep->_u._dateTimeArray =
new Array<CIMDateTime>(*(x._rep->_u._dateTimeArray));
break;
case CIMTYPE_REFERENCE:
_rep->_u._referenceArray =
new Array<CIMObjectPath>(*(x._rep->_u._referenceArray));
break;
case CIMTYPE_OBJECT:
_rep->_u._objectArray =
new Array<CIMObject>(*(x._rep->_u._objectArray));
break;
default:
PEGASUS_ASSERT(false);
}
}
else
{
switch (_rep->_type)
{
case CIMTYPE_BOOLEAN:
_rep->_u._booleanValue = x._rep->_u._booleanValue;
break;
case CIMTYPE_UINT8:
_rep->_u._uint8Value = x._rep->_u._uint8Value;
break;
case CIMTYPE_SINT8:
_rep->_u._sint8Value = x._rep->_u._sint8Value;
break;
case CIMTYPE_UINT16:
_rep->_u._uint16Value = x._rep->_u._uint16Value;
break;
case CIMTYPE_SINT16:
_rep->_u._sint16Value = x._rep->_u._sint16Value;
break;
case CIMTYPE_UINT32:
_rep->_u._uint32Value = x._rep->_u._uint32Value;
break;
case CIMTYPE_SINT32:
_rep->_u._sint32Value = x._rep->_u._sint32Value;
break;
case CIMTYPE_UINT64:
_rep->_u._uint64Value = x._rep->_u._uint64Value;
break;
case CIMTYPE_SINT64:
_rep->_u._sint64Value = x._rep->_u._sint64Value;
break;
case CIMTYPE_REAL32:
_rep->_u._real32Value = x._rep->_u._real32Value;
break;
case CIMTYPE_REAL64:
_rep->_u._real64Value = x._rep->_u._real64Value;
break;
case CIMTYPE_CHAR16:
_rep->_u._char16Value = x._rep->_u._char16Value;
break;
case CIMTYPE_STRING:
_rep->_u._stringValue = new String(*(x._rep->_u._stringValue));
break;
case CIMTYPE_DATETIME:
_rep->_u._dateTimeValue =
new CIMDateTime(*(x._rep->_u._dateTimeValue));
break;
case CIMTYPE_REFERENCE:
_rep->_u._referenceValue =
new CIMObjectPath(*(x._rep->_u._referenceValue));
break;
case CIMTYPE_OBJECT:
_rep->_u._objectValue =
new CIMObject(x._rep->_u._objectValue->clone());
break;
// Should never get here. testing complete enum
default:
PEGASUS_ASSERT(false);
}
}
}
void CIMValue::clear()
{
if (_rep->_isArray)
{
switch (_rep->_type)
{
case CIMTYPE_BOOLEAN:
delete _rep->_u._booleanArray;
break;
case CIMTYPE_UINT8:
delete _rep->_u._uint8Array;
break;
case CIMTYPE_SINT8:
delete _rep->_u._sint8Array;
break;
case CIMTYPE_UINT16:
delete _rep->_u._uint16Array;
break;
case CIMTYPE_SINT16:
delete _rep->_u._sint16Array;
break;
case CIMTYPE_UINT32:
delete _rep->_u._uint32Array;
break;
case CIMTYPE_SINT32:
delete _rep->_u._sint32Array;
break;
case CIMTYPE_UINT64:
delete _rep->_u._uint64Array;
break;
case CIMTYPE_SINT64:
delete _rep->_u._sint64Array;
break;
case CIMTYPE_REAL32:
delete _rep->_u._real32Array;
break;
case CIMTYPE_REAL64:
delete _rep->_u._real64Array;
break;
case CIMTYPE_CHAR16:
delete _rep->_u._char16Array;
break;
case CIMTYPE_STRING:
delete _rep->_u._stringArray;
break;
case CIMTYPE_DATETIME:
delete _rep->_u._dateTimeArray;
break;
case CIMTYPE_REFERENCE:
delete _rep->_u._referenceArray;
break;
case CIMTYPE_OBJECT:
delete _rep->_u._objectArray;
break;
default:
PEGASUS_ASSERT(false);
}
}
else
{
switch (_rep->_type)
{
case CIMTYPE_BOOLEAN:
case CIMTYPE_UINT8:
case CIMTYPE_SINT8:
case CIMTYPE_UINT16:
case CIMTYPE_SINT16:
case CIMTYPE_UINT32:
case CIMTYPE_SINT32:
case CIMTYPE_UINT64:
case CIMTYPE_SINT64:
case CIMTYPE_REAL32:
case CIMTYPE_REAL64:
case CIMTYPE_CHAR16:
break;
case CIMTYPE_STRING:
delete _rep->_u._stringValue;
break;
case CIMTYPE_DATETIME:
delete _rep->_u._dateTimeValue;
break;
case CIMTYPE_REFERENCE:
delete _rep->_u._referenceValue;
break;
case CIMTYPE_OBJECT:
delete _rep->_u._objectValue;
break;
default:
PEGASUS_ASSERT(false);
}
}
_rep->reset();
}
Boolean CIMValue::typeCompatible(const CIMValue& x) const
{
return (_rep->_type == x._rep->_type &&
_rep->_isArray == x._rep->_isArray);
// getArraySize() == x.getArraySize());
}
Boolean CIMValue::isArray() const
{
return _rep->_isArray;
}
Boolean CIMValue::isNull() const
{
return _rep->_isNull;
}
Uint32 CIMValue::getArraySize() const
{
if (!_rep->_isArray)
return 0;
switch (_rep->_type)
{
case CIMTYPE_BOOLEAN:
return _rep->_u._booleanArray->size();
break;
case CIMTYPE_UINT8:
return _rep->_u._uint8Array->size();
break;
case CIMTYPE_SINT8:
return _rep->_u._sint8Array->size();
break;
case CIMTYPE_UINT16:
return _rep->_u._uint16Array->size();
break;
case CIMTYPE_SINT16:
return _rep->_u._sint16Array->size();
break;
case CIMTYPE_UINT32:
return _rep->_u._uint32Array->size();
break;
case CIMTYPE_SINT32:
return _rep->_u._sint32Array->size();
break;
case CIMTYPE_UINT64:
return _rep->_u._uint64Array->size();
break;
case CIMTYPE_SINT64:
return _rep->_u._sint64Array->size();
break;
case CIMTYPE_REAL32:
return _rep->_u._real32Array->size();
break;
case CIMTYPE_REAL64:
return _rep->_u._real64Array->size();
break;
case CIMTYPE_CHAR16:
return _rep->_u._char16Array->size();
break;
case CIMTYPE_STRING:
return _rep->_u._stringArray->size();
break;
case CIMTYPE_DATETIME:
return _rep->_u._dateTimeArray->size();
break;
case CIMTYPE_REFERENCE:
return _rep->_u._referenceArray->size();
break;
case CIMTYPE_OBJECT:
return _rep->_u._objectArray->size();
break;
//default: // Handled below
}
// Unreachable!
PEGASUS_ASSERT(false);
return 0;
}
CIMType CIMValue::getType() const
{
return CIMType(_rep->_type);
}
void CIMValue::setNullValue(CIMType type, Boolean isArray, Uint32 arraySize)
{
clear();
if (isArray)
{
switch (type)
{
case CIMTYPE_BOOLEAN:
set(Array<Boolean>(arraySize));
break;
case CIMTYPE_UINT8:
set(Array<Uint8>(arraySize));
break;
case CIMTYPE_SINT8:
set(Array<Sint8>(arraySize));
break;
case CIMTYPE_UINT16:
set(Array<Uint16>(arraySize));
break;
case CIMTYPE_SINT16:
set(Array<Sint16>(arraySize));
break;
case CIMTYPE_UINT32:
set(Array<Uint32>(arraySize));
break;
case CIMTYPE_SINT32:
set(Array<Sint32>(arraySize));
break;
case CIMTYPE_UINT64:
set(Array<Uint64>(arraySize));
break;
case CIMTYPE_SINT64:
set(Array<Sint64>(arraySize));
break;
case CIMTYPE_REAL32:
set(Array<Real32>(arraySize));
break;
case CIMTYPE_REAL64:
set(Array<Real64>(arraySize));
break;
case CIMTYPE_CHAR16:
set(Array<Char16>(arraySize));
break;
case CIMTYPE_STRING:
set(Array<String>(arraySize));
break;
case CIMTYPE_DATETIME:
set(Array<CIMDateTime>(arraySize));
break;
case CIMTYPE_REFERENCE:
set(Array<CIMObjectPath>(arraySize));
break;
case CIMTYPE_OBJECT:
set(Array<CIMObject>(arraySize));
break;
default:
throw TypeMismatchException();
}
}
else
{
switch (type)
{
case CIMTYPE_BOOLEAN:
set(false);
break;
case CIMTYPE_UINT8:
set(Uint8(0));
break;
case CIMTYPE_SINT8:
set(Sint8(0));
break;
case CIMTYPE_UINT16:
set(Uint16(0));
break;
case CIMTYPE_SINT16:
set(Sint16(0));
break;
case CIMTYPE_UINT32:
set(Uint32(0));
break;
case CIMTYPE_SINT32:
set(Sint32(0));
break;
case CIMTYPE_UINT64:
set(Uint64(0));
break;
case CIMTYPE_SINT64:
set(Sint64(0));
break;
case CIMTYPE_REAL32:
set(Real32(0.0));
break;
case CIMTYPE_REAL64:
set(Real64(0.0));
break;
case CIMTYPE_CHAR16:
set(Char16(0));
break;
case CIMTYPE_STRING:
set(String());
break;
case CIMTYPE_DATETIME:
set(CIMDateTime());
break;
case CIMTYPE_REFERENCE:
set(CIMObjectPath());
break;
case CIMTYPE_OBJECT:
set(CIMObject());
break;
default:
throw TypeMismatchException();
}
}
// Set the Null attribute. Note that this must be after the set
// because the set functions sets the _isNull.
_rep->_isNull = true;
}
void CIMValue::set(Boolean x)
{
clear();
_rep->_u._booleanValue = (Uint8)x;
_rep->_type = CIMTYPE_BOOLEAN;
_rep->_isNull = false;
}
void CIMValue::set(Uint8 x)
{
clear();
_rep->_u._uint8Value = x;
_rep->_type = CIMTYPE_UINT8;
_rep->_isNull = false;
}
void CIMValue::set(Sint8 x)
{
clear();
_rep->_u._sint8Value = x;
_rep->_type = CIMTYPE_SINT8;
_rep->_isNull = false;
}
void CIMValue::set(Uint16 x)
{
clear();
_rep->_u._uint16Value = x;
_rep->_type = CIMTYPE_UINT16;
_rep->_isNull = false;
}
void CIMValue::set(Sint16 x)
{
clear();
_rep->_u._sint16Value = x;
_rep->_type = CIMTYPE_SINT16;
_rep->_isNull = false;
}
void CIMValue::set(Uint32 x)
{
clear();
_rep->_u._uint32Value = x;
_rep->_type = CIMTYPE_UINT32;
_rep->_isNull = false;
}
void CIMValue::set(Sint32 x)
{
clear();
_rep->_u._sint32Value = x;
_rep->_type = CIMTYPE_SINT32;
_rep->_isNull = false;
}
void CIMValue::set(Uint64 x)
{
clear();
_rep->_u._uint64Value = x;
_rep->_type = CIMTYPE_UINT64;
_rep->_isNull = false;
}
void CIMValue::set(Sint64 x)
{
clear();
_rep->_u._sint64Value = x;
_rep->_type = CIMTYPE_SINT64;
_rep->_isNull = false;
}
void CIMValue::set(Real32 x)
{
clear();
_rep->_u._real32Value = x;
_rep->_type = CIMTYPE_REAL32;
_rep->_isNull = false;
}
void CIMValue::set(Real64 x)
{
clear();
_rep->_u._real64Value = x;
_rep->_type = CIMTYPE_REAL64;
_rep->_isNull = false;
}
void CIMValue::set(const Char16& x)
{
clear();
_rep->_u._char16Value = x;
_rep->_type = CIMTYPE_CHAR16;
_rep->_isNull = false;
}
void CIMValue::set(const String& x)
{
clear();
_rep->_u._stringValue = new String(x);
_rep->_type = CIMTYPE_STRING;
_rep->_isNull = false;
}
void CIMValue::set(const CIMDateTime& x)
{
clear();
_rep->_u._dateTimeValue = new CIMDateTime(x);
_rep->_type = CIMTYPE_DATETIME;
_rep->_isNull = false;
}
void CIMValue::set(const CIMObjectPath& x)
{
clear();
_rep->_u._referenceValue = new CIMObjectPath(x);
_rep->_type = CIMTYPE_REFERENCE;
_rep->_isNull = false;
}
void CIMValue::set(const CIMObject& x)
{
clear();
if (x.isUninitialized()) {
// Don't need to clone since null CIMObjects aren't shared when created.
// Doesn't work anyway, clone() throws an exception if null.
_rep->_u._objectValue = new CIMObject(x);
}
else {
_rep->_u._objectValue = new CIMObject(x.clone());
}
_rep->_type = CIMTYPE_OBJECT;
_rep->_isNull = false;
}
void CIMValue::set(const Array<Boolean>& x)
{
clear();
_rep->_u._booleanArray = new Array<Boolean>(x);
_rep->_type = CIMTYPE_BOOLEAN;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<Uint8>& x)
{
clear();
_rep->_u._uint8Array = new Array<Uint8>(x);
_rep->_type = CIMTYPE_UINT8;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<Sint8>& x)
{
clear();
_rep->_u._sint8Array = new Array<Sint8>(x);
_rep->_type = CIMTYPE_SINT8;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<Uint16>& x)
{
clear();
_rep->_u._uint16Array = new Array<Uint16>(x);
_rep->_type = CIMTYPE_UINT16;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<Sint16>& x)
{
clear();
_rep->_u._sint16Array = new Array<Sint16>(x);
_rep->_type = CIMTYPE_SINT16;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<Uint32>& x)
{
clear();
_rep->_u._uint32Array = new Array<Uint32>(x);
_rep->_type = CIMTYPE_UINT32;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<Sint32>& x)
{
clear();
_rep->_u._sint32Array = new Array<Sint32>(x);
_rep->_type = CIMTYPE_SINT32;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<Uint64>& x)
{
clear();
_rep->_u._uint64Array = new Array<Uint64>(x);
_rep->_type = CIMTYPE_UINT64;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<Sint64>& x)
{
clear();
_rep->_u._sint64Array = new Array<Sint64>(x);
_rep->_type = CIMTYPE_SINT64;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<Real32>& x)
{
clear();
_rep->_u._real32Array = new Array<Real32>(x);
_rep->_type = CIMTYPE_REAL32;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<Real64>& x)
{
clear();
_rep->_u._real64Array = new Array<Real64>(x);
_rep->_type = CIMTYPE_REAL64;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<Char16>& x)
{
clear();
_rep->_u._char16Array = new Array<Char16>(x);
_rep->_type = CIMTYPE_CHAR16;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<String>& x)
{
clear();
_rep->_u._stringArray = new Array<String>(x);
_rep->_type = CIMTYPE_STRING;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<CIMDateTime>& x)
{
clear();
_rep->_u._dateTimeArray = new Array<CIMDateTime>(x);
_rep->_type = CIMTYPE_DATETIME;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<CIMObjectPath>& x)
{
clear();
_rep->_u._referenceArray = new Array<CIMObjectPath>(x);
_rep->_type = CIMTYPE_REFERENCE;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::set(const Array<CIMObject>& x)
{
clear();
_rep->_u._objectArray = new Array<CIMObject>(x);
_rep->_type = CIMTYPE_OBJECT;
_rep->_isArray = true;
_rep->_isNull = false;
}
void CIMValue::get(Boolean& x) const
{
if (_rep->_type != CIMTYPE_BOOLEAN || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = _rep->_u._booleanValue != 0;
}
void CIMValue::get(Uint8& x) const
{
if (_rep->_type != CIMTYPE_UINT8 || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = _rep->_u._uint8Value;
}
void CIMValue::get(Sint8& x) const
{
if (_rep->_type != CIMTYPE_SINT8 || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = _rep->_u._sint8Value;
}
void CIMValue::get(Uint16& x) const
{
if (_rep->_type != CIMTYPE_UINT16 || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = _rep->_u._uint16Value;
}
void CIMValue::get(Sint16& x) const
{
if (_rep->_type != CIMTYPE_SINT16 || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = _rep->_u._sint16Value;
}
void CIMValue::get(Uint32& x) const
{
if (_rep->_type != CIMTYPE_UINT32 || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = _rep->_u._uint32Value;
}
void CIMValue::get(Sint32& x) const
{
if (_rep->_type != CIMTYPE_SINT32 || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = _rep->_u._sint32Value;
}
void CIMValue::get(Uint64& x) const
{
if (_rep->_type != CIMTYPE_UINT64 || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = _rep->_u._uint64Value;
}
void CIMValue::get(Sint64& x) const
{
if (_rep->_type != CIMTYPE_SINT64 || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = _rep->_u._sint64Value;
}
void CIMValue::get(Real32& x) const
{
if (_rep->_type != CIMTYPE_REAL32 || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = _rep->_u._real32Value;
}
void CIMValue::get(Real64& x) const
{
if (_rep->_type != CIMTYPE_REAL64 || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = _rep->_u._real64Value;
}
void CIMValue::get(Char16& x) const
{
if (_rep->_type != CIMTYPE_CHAR16 || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = _rep->_u._char16Value;
}
void CIMValue::get(String& x) const
{
if (_rep->_type != CIMTYPE_STRING || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._stringValue;
}
void CIMValue::get(CIMDateTime& x) const
{
if (_rep->_type != CIMTYPE_DATETIME || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._dateTimeValue;
}
void CIMValue::get(CIMObjectPath& x) const
{
if (_rep->_type != CIMTYPE_REFERENCE || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._referenceValue;
}
void CIMValue::get(CIMObject& x) const
{
if (_rep->_type != CIMTYPE_OBJECT || _rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._objectValue;
}
void CIMValue::get(Array<Boolean>& x) const
{
if (_rep->_type != CIMTYPE_BOOLEAN || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._booleanArray;
}
void CIMValue::get(Array<Uint8>& x) const
{
if (_rep->_type != CIMTYPE_UINT8 || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._uint8Array;
}
void CIMValue::get(Array<Sint8>& x) const
{
if (_rep->_type != CIMTYPE_SINT8 || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._sint8Array;
}
void CIMValue::get(Array<Uint16>& x) const
{
if (_rep->_type != CIMTYPE_UINT16 || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._uint16Array;
}
void CIMValue::get(Array<Sint16>& x) const
{
if (_rep->_type != CIMTYPE_SINT16 || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._sint16Array;
}
void CIMValue::get(Array<Uint32>& x) const
{
if (_rep->_type != CIMTYPE_UINT32 || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._uint32Array;
}
void CIMValue::get(Array<Sint32>& x) const
{
if (_rep->_type != CIMTYPE_SINT32 || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._sint32Array;
}
void CIMValue::get(Array<Uint64>& x) const
{
if (_rep->_type != CIMTYPE_UINT64 || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._uint64Array;
}
void CIMValue::get(Array<Sint64>& x) const
{
if (_rep->_type != CIMTYPE_SINT64 || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._sint64Array;
}
void CIMValue::get(Array<Real32>& x) const
{
if (_rep->_type != CIMTYPE_REAL32 || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._real32Array;
}
void CIMValue::get(Array<Real64>& x) const
{
if (_rep->_type != CIMTYPE_REAL64 || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._real64Array;
}
void CIMValue::get(Array<Char16>& x) const
{
if (_rep->_type != CIMTYPE_CHAR16 || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._char16Array;
}
void CIMValue::get(Array<String>& x) const
{
if (_rep->_type != CIMTYPE_STRING || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._stringArray;
}
void CIMValue::get(Array<CIMDateTime>& x) const
{
if (_rep->_type != CIMTYPE_DATETIME || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._dateTimeArray;
}
void CIMValue::get(Array<CIMObjectPath>& x) const
{
if (_rep->_type != CIMTYPE_REFERENCE || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._referenceArray;
}
void CIMValue::get(Array<CIMObject>& x) const
{
if (_rep->_type != CIMTYPE_OBJECT || !_rep->_isArray)
throw TypeMismatchException();
if (!_rep->_isNull)
x = *_rep->_u._objectArray;
}
Boolean CIMValue::equal(const CIMValue& x) const
{
if (!typeCompatible(x))
return false;
if (_rep->_isNull != x._rep->_isNull)
return false;
if (_rep->_isArray)
{
switch (_rep->_type)
{
case CIMTYPE_BOOLEAN:
return (*_rep->_u._booleanArray) ==
(*x._rep->_u._booleanArray);
case CIMTYPE_UINT8:
return (*_rep->_u._uint8Array) ==
(*x._rep->_u._uint8Array);
case CIMTYPE_SINT8:
return (*_rep->_u._sint8Array) ==
(*x._rep->_u._sint8Array);
case CIMTYPE_UINT16:
return (*_rep->_u._uint16Array) ==
(*x._rep->_u._uint16Array);
case CIMTYPE_SINT16:
return (*_rep->_u._sint16Array) ==
(*x._rep->_u._sint16Array);
case CIMTYPE_UINT32:
return (*_rep->_u._uint32Array) ==
(*x._rep->_u._uint32Array);
case CIMTYPE_SINT32:
return (*_rep->_u._sint32Array) ==
(*x._rep->_u._sint32Array);
case CIMTYPE_UINT64:
return (*_rep->_u._uint64Array) ==
(*x._rep->_u._uint64Array);
case CIMTYPE_SINT64:
return (*_rep->_u._sint64Array) ==
(*x._rep->_u._sint64Array);
case CIMTYPE_REAL32:
return (*_rep->_u._real32Array) ==
(*x._rep->_u._real32Array);
case CIMTYPE_REAL64:
return (*_rep->_u._real64Array) ==
(*x._rep->_u._real64Array);
case CIMTYPE_CHAR16:
return (*_rep->_u._char16Array) ==
(*x._rep->_u._char16Array);
case CIMTYPE_STRING:
return (*_rep->_u._stringArray) ==
(*x._rep->_u._stringArray);
case CIMTYPE_DATETIME:
return (*_rep->_u._dateTimeArray) ==
(*x._rep->_u._dateTimeArray);
case CIMTYPE_REFERENCE:
return (*_rep->_u._referenceArray) ==
(*x._rep->_u._referenceArray);
case CIMTYPE_OBJECT:
return (*_rep->_u._objectArray) ==
(*x._rep->_u._objectArray);
default:
PEGASUS_ASSERT(false);
}
}
else
{
switch (_rep->_type)
{
case CIMTYPE_BOOLEAN:
return _rep->_u._booleanValue == x._rep->_u._booleanValue;
case CIMTYPE_UINT8:
return _rep->_u._uint8Value == x._rep->_u._uint8Value;
case CIMTYPE_SINT8:
return _rep->_u._sint8Value == x._rep->_u._sint8Value;
case CIMTYPE_UINT16:
return _rep->_u._uint16Value == x._rep->_u._uint16Value;
case CIMTYPE_SINT16:
return _rep->_u._sint16Value == x._rep->_u._sint16Value;
case CIMTYPE_UINT32:
return _rep->_u._uint32Value == x._rep->_u._uint32Value;
case CIMTYPE_SINT32:
return _rep->_u._sint32Value == x._rep->_u._sint32Value;
case CIMTYPE_UINT64:
return _rep->_u._uint64Value == x._rep->_u._uint64Value;
case CIMTYPE_SINT64:
return _rep->_u._sint64Value == x._rep->_u._sint64Value;
case CIMTYPE_REAL32:
return _rep->_u._real32Value == x._rep->_u._real32Value;
case CIMTYPE_REAL64:
return _rep->_u._real64Value == x._rep->_u._real64Value;
case CIMTYPE_CHAR16:
return _rep->_u._char16Value == x._rep->_u._char16Value;
case CIMTYPE_STRING:
return String::equal(*_rep->_u._stringValue,
*x._rep->_u._stringValue);
case CIMTYPE_DATETIME:
return *_rep->_u._dateTimeValue == *x._rep->_u._dateTimeValue;
case CIMTYPE_REFERENCE:
return *_rep->_u._referenceValue ==
*x._rep->_u._referenceValue;
case CIMTYPE_OBJECT:
return (*_rep->_u._objectValue).identical((*x._rep->_u._objectValue));
default:
PEGASUS_ASSERT(false);
}
}
// Unreachable!
return false;
}
String CIMValue::toString() const
{
Array<char> out;
//ATTN: Not sure what we should do with getstring for Null CIMValues
//Choice return empty string or exception out.
if (_rep->_isNull)
return String();
if (_rep->_isArray)
{
switch (_rep->_type)
{
case CIMTYPE_BOOLEAN:
{
Uint32 size = _rep->_u._booleanArray->size();
for (Uint32 i = 0; i < size; i++)
{
_toString(out, Boolean(_rep->_u._booleanArray->getData()[i]));
out << " ";
}
break;
}
case CIMTYPE_UINT8:
_toString(out, _rep->_u._uint8Array->getData(),
_rep->_u._uint8Array->size());
break;
case CIMTYPE_SINT8:
_toString(out, _rep->_u._sint8Array->getData(),
_rep->_u._sint8Array->size());
break;
case CIMTYPE_UINT16:
_toString(out, _rep->_u._uint16Array->getData(),
_rep->_u._uint16Array->size());
break;
case CIMTYPE_SINT16:
_toString(out, _rep->_u._sint16Array->getData(),
_rep->_u._sint16Array->size());
break;
case CIMTYPE_UINT32:
_toString(out, _rep->_u._uint32Array->getData(),
_rep->_u._uint32Array->size());
break;
case CIMTYPE_SINT32:
_toString(out, _rep->_u._sint32Array->getData(),
_rep->_u._sint32Array->size());
break;
case CIMTYPE_UINT64:
_toString(out, _rep->_u._uint64Array->getData(),
_rep->_u._uint64Array->size());
break;
case CIMTYPE_SINT64:
_toString(out, _rep->_u._sint64Array->getData(),
_rep->_u._sint64Array->size());
break;
case CIMTYPE_REAL32:
_toString(out, _rep->_u._real32Array->getData(),
_rep->_u._real32Array->size());
break;
case CIMTYPE_REAL64:
_toString(out, _rep->_u._real64Array->getData(),
_rep->_u._real64Array->size());
break;
case CIMTYPE_CHAR16:
_toString(out, _rep->_u._char16Array->getData(),
_rep->_u._char16Array->size());
break;
case CIMTYPE_STRING:
_toString(out, _rep->_u._stringArray->getData(),
_rep->_u._stringArray->size());
break;
case CIMTYPE_DATETIME:
_toString(out, _rep->_u._dateTimeArray->getData(),
_rep->_u._dateTimeArray->size());
break;
case CIMTYPE_REFERENCE:
_toString(out, _rep->_u._referenceArray->getData(),
_rep->_u._referenceArray->size());
break;
case CIMTYPE_OBJECT:
_toString(out, _rep->_u._objectArray->getData(),
_rep->_u._objectArray->size());
break;
default:
PEGASUS_ASSERT(false);
}
}
else
{
switch (_rep->_type)
{
case CIMTYPE_BOOLEAN:
_toString(out, Boolean(_rep->_u._booleanValue != 0));
break;
case CIMTYPE_UINT8:
_toString(out, _rep->_u._uint8Value);
break;
case CIMTYPE_SINT8:
_toString(out, _rep->_u._sint8Value);
break;
case CIMTYPE_UINT16:
_toString(out, _rep->_u._uint16Value);
break;
case CIMTYPE_SINT16:
_toString(out, _rep->_u._sint16Value);
break;
case CIMTYPE_UINT32:
_toString(out, _rep->_u._uint32Value);
break;
case CIMTYPE_SINT32:
_toString(out, _rep->_u._sint32Value);
break;
case CIMTYPE_UINT64:
_toString(out, _rep->_u._uint64Value);
break;
case CIMTYPE_SINT64:
_toString(out, _rep->_u._sint64Value);
break;
case CIMTYPE_REAL32:
_toString(out, _rep->_u._real32Value);
break;
case CIMTYPE_REAL64:
_toString(out, _rep->_u._real64Value);
break;
case CIMTYPE_CHAR16:
_toString(out, Char16(_rep->_u._char16Value));
break;
case CIMTYPE_STRING:
_toString(out, *_rep->_u._stringValue);
break;
case CIMTYPE_DATETIME:
_toString(out, *_rep->_u._dateTimeValue);
break;
case CIMTYPE_REFERENCE:
_toString(out, *_rep->_u._referenceValue);
break;
case CIMTYPE_OBJECT:
_toString(out, *_rep->_u._objectValue);
break;
default:
PEGASUS_ASSERT(false);
}
}
out.append('\0');
return out.getData();
}
Boolean operator==(const CIMValue& x, const CIMValue& y)
{
return x.equal(y);
}
Boolean operator!=(const CIMValue& x, const CIMValue& y)
{
return !x.equal(y);
}
PEGASUS_NAMESPACE_END
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