pegasus/src/Pegasus/Common/CIMValue.cpp - diff

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Diff for /pegasus/src/Pegasus/Common/CIMValue.cpp between version 1.22 and 1.40

version 1.22, 2002/03/22 01:42:01

version 1.40, 2002/08/21 00:15:44

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//%/////////////////////////////////////////////////////////////////////////////

// The Open Group, Tivoli Systems

// Permission is hereby granted, free of charge, to any person obtaining a copy

// of this software and associated documentation files (the "Software"), to

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// 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)

//%/////////////////////////////////////////////////////////////////////////////

#include <cstring>

#include <cstdio>

#include <cassert>

#include <cctype>

#include "CIMValue.h"

#include "Union.h"

#include "Indentor.h"

#include "Exception.h"

#include "XmlWriter.h"

PEGASUS_NAMESPACE_BEGIN

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# include "ArrayImpl.h"

#undef PEGASUS_ARRAY_T

template<class T>

inline void _Inc(ArrayRep<T>* rep)

{

ArrayRep<T>::inc(rep);

}

template<class T>

inline void _Dec(ArrayRep<T>* rep)

{

ArrayRep<T>::dec(rep);

}

////////////////////////////////////////////////////////////////////////////////

// Local helper functions:

// _toString routines:

////////////////////////////////////////////////////////////////////////////////

// Too complicated. Commented out in favor of sprintf("%lld"/"%llu").

inline void _toString(Array<Sint8>& out, Boolean x)

#if 0

//------------------------------------------------------------------------------

// _SignedIntToStr()

//------------------------------------------------------------------------------

static void _SignedIntToStr(Sint64 x, char* result)

{

if (!result)

return;

if (x == 0)

{

result[0] = '0';

XmlWriter::append(out, x);

result[1] = '\0';

return;

}

char buffer[32];

inline void _toString(Array<Sint8>& out, Uint8 x) { XmlWriter::append(out, Uint32(x)); }

Uint32 len = 0;

inline void _toString(Array<Sint8>& out, Sint8 x) { XmlWriter::append(out, Sint32(x)); }

Boolean negative = false;

inline void _toString(Array<Sint8>& out, Uint16 x) { XmlWriter::append(out, Uint32(x)); }

inline void _toString(Array<Sint8>& out, Sint16 x) { XmlWriter::append(out, Sint32(x)); }

inline void _toString(Array<Sint8>& out, Uint32 x) { XmlWriter::append(out, x); }

inline void _toString(Array<Sint8>& out, Sint32 x) { XmlWriter::append(out, x); }

inline void _toString(Array<Sint8>& out, Uint64 x) { XmlWriter::append(out, x); }

inline void _toString(Array<Sint8>& out, Sint64 x) { XmlWriter::append(out, x); }

inline void _toString(Array<Sint8>& out, Real32 x) { XmlWriter::append(out, Real64(x)); }

inline void _toString(Array<Sint8>& out, Real64 x) { XmlWriter::append(out, x); }

while (x)

inline void _toString(Array<Sint8>& out, Char16 x)

{

Sint32 r = x % 10;

// ATTN: How to convert 16-bit characters to printable form?

x = x / 10;

out.append(Sint8(x));

}

if (r < 0)

inline void _toString(Array<Sint8>& out, const String& x)

{

r = -r;

out << x;

negative = true;

}

buffer[len++] = r + '0';

inline void _toString(Array<Sint8>& out, const CIMDateTime& x)

{

out << x.toString();

}

buffer[len] = '\0';

inline void _toString(Array<Sint8>& out, const CIMObjectPath& x)

{

// If buffer was negative, prepend sign:

out << x.toString();

}

char* q = result;

if (negative)

*q++ = '-';

// Reverse the buffer:

char* p = &buffer[len];

while (len--)

*q++ = *--p;

*q++ = '\0';

template<class T>

void _toString(Array<Sint8>& out, const T* p, Uint32 size)

{

while (size--)

{

_toString(out, *p++);

out << " ";

}

//------------------------------------------------------------------------------

////////////////////////////////////////////////////////////////////////////////

// _UnsignedIntToStr()

// CIMValueRep

//------------------------------------------------------------------------------

////////////////////////////////////////////////////////////////////////////////

static void _UnsignedIntToStr(Uint64 x, char* result)

class CIMValueRep

{

if (!result)

public:

return;

CIMValueRep()

if (x == 0)

{

result[0] = '0';

reset();

result[1] = '\0';

return;

}

char buffer[32];

~CIMValueRep()

Uint32 len = 0;

while (x)

{

Uint32 r = x % 10;

x = x / 10;

buffer[len++] = r + '0';

}

buffer[len] = '\0';

void reset()

{

// Reverse the buffer onto output:

_type = CIMTYPE_BOOLEAN;

_isArray = false;

char* q = result;

_isNull = true;

_u._booleanValue = false;

char* p = &buffer[len];

}

while (len--)

CIMType _type;

*q++ = *--p;

Boolean _isArray;

Boolean _isNull;

Union _u;

};

*q++ = '\0';

}

#endif

//------------------------------------------------------------------------------

////////////////////////////////////////////////////////////////////////////////

// _toString, _toXml(), and _toMof routines:

// CIMValue

//------------------------------------------------------------------------------

////////////////////////////////////////////////////////////////////////////////

inline void _toString(Array<Sint8>& out, Boolean x)

CIMValue::CIMValue()

{

out << (x ? "TRUE" : "FALSE");

_rep = new CIMValueRep();

}

inline void _toXml(Array<Sint8>& out, Boolean x) { _toString(out, x); }

CIMValue::CIMValue(CIMType type, Boolean isArray, Uint32 arraySize)

inline void _toMof(Array<Sint8>& out, Boolean x) { _toString(out, x); }

inline void _integerToString(Array<Sint8>& out, Sint32 x)

{

char buffer[32];

_rep = new CIMValueRep();

sprintf(buffer, "%d", x);

setNullValue(type, isArray, arraySize);

out << (char*)buffer;

}

inline void _unsignedIntegerToString(Array<Sint8>& out, Uint32 x)

CIMValue::CIMValue(Boolean x)

{

char buffer[32];

_rep = new CIMValueRep();

sprintf(buffer, "%u", x);

set(x);

out << (char*)buffer;

}

inline void _toString(Array<Sint8>& out, Uint8 x) { _unsignedIntegerToString(out, x); }

CIMValue::CIMValue(Uint8 x)

inline void _toXml(Array<Sint8>& out, Uint8 x) { _toString(out, x); }

inline void _toMof(Array<Sint8>& out, Uint8 x) { _toString(out, x); }

inline void _toString(Array<Sint8>& out, Sint8 x) { _integerToString(out, x); }

inline void _toXml(Array<Sint8>& out, Sint8 x) { _toString(out, x); }

inline void _toMof(Array<Sint8>& out, Sint8 x) { _toString(out, x); }

inline void _toString(Array<Sint8>& out, Uint16 x) { _unsignedIntegerToString(out, x); }

inline void _toXml(Array<Sint8>& out, Uint16 x) { _toString(out, x); }

inline void _toMof(Array<Sint8>& out, Uint16 x) { _toString(out, x); }

inline void _toString(Array<Sint8>& out, Sint16 x) { _integerToString(out, x); }

inline void _toXml(Array<Sint8>& out, Sint16 x) { _toString(out, x); }

inline void _toMof(Array<Sint8>& out, Sint16 x) { _toString(out, x); }

inline void _toString(Array<Sint8>& out, Uint32 x) { _unsignedIntegerToString(out, x); }

inline void _toXml(Array<Sint8>& out, Uint32 x) { _toString(out, x); }

inline void _toMof(Array<Sint8>& out, Uint32 x) { _toString(out, x); }

inline void _toString(Array<Sint8>& out, Sint32 x) { _integerToString(out, x); }

inline void _toXml(Array<Sint8>& out, Sint32 x) { _toString(out, x); }

inline void _toMof(Array<Sint8>& out, Sint32 x) { _toString(out, x); }

inline void _toString(Array<Sint8>& out, Uint64 x)

{

char buffer[32]; // Should need 21 chars max

_rep = new CIMValueRep();

// I know I shouldn't put platform flags here, but the other was is too hard

set(x);

#if defined(PEGASUS_PLATFORM_WIN32_IX86_MSVC)

sprintf(buffer, "%I64u", x);

#else

sprintf(buffer, "%llu", x);

#endif

out << buffer;

}

inline void _toXml(Array<Sint8>& out, Uint64 x) { _toString(out, x); }

CIMValue::CIMValue(Sint8 x)

inline void _toMof(Array<Sint8>& out, Uint64 x) { _toString(out, x); }

inline void _toString(Array<Sint8>& out, Sint64 x)

{

char buffer[32]; // Should need 21 chars max

_rep = new CIMValueRep();

// I know I shouldn't put platform flags here, but the other was is too hard

set(x);

#if defined(PEGASUS_PLATFORM_WIN32_IX86_MSVC)

sprintf(buffer, "%I64d", x);

#else

sprintf(buffer, "%lld", x);

#endif

out << buffer;

}

inline void _toXml(Array<Sint8>& out, Sint64 x) { _toString(out, x); }

CIMValue::CIMValue(Uint16 x)

inline void _toMof(Array<Sint8>& out, Sint64 x) { _toString(out, x); }

void _toString(Array<Sint8>& out, Real64 x)

{

char buffer[128];

_rep = new CIMValueRep();

// %g gives '[-]m.dddddd[e+/-xx]', which seems compatible with CIM/XML spec

set(x);

sprintf(buffer, "%g", x);

out << buffer;

}

inline void _toXml(Array<Sint8>& out, Real64 x) { _toString(out, x); }

CIMValue::CIMValue(Sint16 x)

inline void _toMof(Array<Sint8>& out, Real64 x) { _toString(out, x); }

inline void _toString(Array<Sint8>& out, Real32 x) { _toString(out, Real64(x)); }

inline void _toXml(Array<Sint8>& out, Real32 x) { _toString(out, x); }

inline void _toMof(Array<Sint8>& out, Real32 x) { _toString(out, x); }

inline void _toString(Array<Sint8>& out, Char16 x)

{

// ATTN: How to convert 16-bit characters to printable form?

_rep = new CIMValueRep();

out.append(Sint8(x));

set(x);

}

inline void _toXml(Array<Sint8>& out, Char16 x)

CIMValue::CIMValue(Uint32 x)

{

XmlWriter::appendSpecial(out, x);

_rep = new CIMValueRep();

set(x);

}

inline void _toMof(Array<Sint8>& out, Char16 x)

CIMValue::CIMValue(Sint32 x)

{

XmlWriter::appendSpecial(out, x);

_rep = new CIMValueRep();

set(x);

}

inline void _toString(Array<Sint8>& out, const String& x)

CIMValue::CIMValue(Uint64 x)

{

out << x;

_rep = new CIMValueRep();

set(x);

}

inline void _toXml(Array<Sint8>& out, const String& x)

CIMValue::CIMValue(Sint64 x)

{

XmlWriter::appendSpecial(out, x);

_rep = new CIMValueRep();

set(x);

}

/** _toMof Internal function to convert the string back

CIMValue::CIMValue(Real32 x)

to MOF format and output it.

The conversions are:

\b // \x0008: backspace BS

\t // \x0009: horizontal tab HT

\n // \x000A: linefeed LF

\f // \x000C: form feed FF

\r // \x000D: carriage return CR

\" // \x0022: double quote "

\� // \x0027: single quote '

\\ // \x005C: backslash \

\x<hex> // where <hex> is one to four hex digits

\X<hex> // where <hex> is one to four hex digits

/* ATTN:KS - We need to account for characters greater than x'7f

inline void _toMof(Array<Sint8>& out, const String& x)

{

out << "\"";

const Char16* tmp = x.getData();

char c;

while ((c = *tmp++))

{

switch (c)

{

case '\\':

_rep = new CIMValueRep();

out.append("\\\\",2);

set(x);

break;

case '\b':

out.append("\\b",2);

break;

case '\t':

out.append("\\t",2);

break;

case '\n':

out.append("\\n",2);

break;

case '\f':

out.append("\\f",2);

break;

case '\r':

out.append("\\r",2);

break;

/* case '\'':

out.append("\\'", 2);

break;*/

case '"':

out.append("\\\"", 2);

break;

default:

out.append(Sint8(c));

}

CIMValue::CIMValue(Real64 x)

out << "\"";

{

_rep = new CIMValueRep();

set(x);

}

inline void _toString(Array<Sint8>& out, const CIMDateTime& x)

CIMValue::CIMValue(const Char16& x)

{

out << x.getString();

_rep = new CIMValueRep();

set(x);

}

inline void _toXml(Array<Sint8>& out, const CIMDateTime& x) { _toString(out, x); }

CIMValue::CIMValue(const String& x)

inline void _toMof(Array<Sint8>& out, const CIMDateTime& x) { _toString(out, x); }

inline void _toString(Array<Sint8>& out, const CIMReference& x)

{

out << x.toString();

_rep = new CIMValueRep();

set(x);

}

inline void _toXml(Array<Sint8>& out, const CIMReference& x)

CIMValue::CIMValue(const CIMDateTime& x)

{

x.toXml(out);

_rep = new CIMValueRep();

set(x);

}

inline void _toMof(Array<Sint8>& out, const CIMReference& x)

CIMValue::CIMValue(const CIMObjectPath& x)

{

x.toMof(out);

_rep = new CIMValueRep();

set(x);

}

template<class T>

CIMValue::CIMValue(const Array<Boolean>& x)

void _toString(Array<Sint8>& out, const T* p, Uint32 size)

{

while (size--)

{

_toString(out, *p++);

_rep = new CIMValueRep();

out << " ";

set(x);

}

void _toXml(Array<Sint8>& out, const CIMReference* p, Uint32 size)

CIMValue::CIMValue(const Array<Uint8>& x)

{

out << "<VALUE.REFARRAY>\n";

_rep = new CIMValueRep();

while (size--)

set(x);

{

_toXml(out, *p++);

}

out << "</VALUE.REFARRAY>\n";

}

template<class T>

CIMValue::CIMValue(const Array<Sint8>& x)

void _toXml(Array<Sint8>& out, const T* p, Uint32 size)

{

out << "<VALUE.ARRAY>\n";

_rep = new CIMValueRep();

set(x);

}

while (size--)

CIMValue::CIMValue(const Array<Uint16>& x)

{

out << "<VALUE>";

_rep = new CIMValueRep();

set(x);

_toXml(out, *p++);

out << "</VALUE>\n";

}

out << "</VALUE.ARRAY>\n";

CIMValue::CIMValue(const Array<Sint16>& x)

{

_rep = new CIMValueRep();

set(x);

}

/** _toMof Array -

arrayInitializer = "{" constantValue*( "," constantValue)"}"

CIMValue::CIMValue(const Array<Uint32>& x)

template<class T>

void _toMof(Array<Sint8>& out, const T* p, Uint32 size)

{

Boolean isFirstEntry = true;

_rep = new CIMValueRep();

// if there are any entries in the array output them

set(x);

if (size)

}

CIMValue::CIMValue(const Array<Sint32>& x)

{

out << "{";

_rep = new CIMValueRep();

while (size--)

set(x);

}

CIMValue::CIMValue(const Array<Uint64>& x)

{

// Put comma on all but first entry.

_rep = new CIMValueRep();

if (!isFirstEntry)

set(x);

}

CIMValue::CIMValue(const Array<Sint64>& x)

{

out << ", ";

_rep = new CIMValueRep();

set(x);

}

isFirstEntry = false;

_toMof(out, *p++);

CIMValue::CIMValue(const Array<Real32>& x)

{

_rep = new CIMValueRep();

set(x);

}

out << "}";

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)

{

// CIMValue

_rep = new CIMValueRep();

set(x);

////////////////////////////////////////////////////////////////////////////////

}

CIMValue::CIMValue()

CIMValue::CIMValue(const Array<CIMDateTime>& x)

{

_init();

_rep = new CIMValueRep();

set(x);

}

CIMValue::CIMValue(CIMType type, Boolean isArray, Uint32 arraySize)

CIMValue::CIMValue(const Array<CIMObjectPath>& x)

{

_init();

_rep = new CIMValueRep();

setNullValue(type, isArray, arraySize);

set(x);

}

CIMValue::CIMValue(const CIMValue& x)

{

_init();

_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)

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clear();

_type = x._type;

_rep->_type = x._rep->_type;

_isArray = x._isArray;

_rep->_isArray = x._rep->_isArray;

_isNull = x._isNull;

_rep->_isNull = x._rep->_isNull;

_u._voidPtr = 0;

if (_isArray)

if (_rep->_isArray)

{

switch (_type)

switch (_rep->_type)

{

case CIMType::BOOLEAN:

case CIMTYPE_BOOLEAN:

_Inc(_u._booleanArray = x._u._booleanArray);

_rep->_u._booleanArray =

new Array<Boolean>(*(x._rep->_u._booleanArray));

break;

case CIMType::UINT8:

case CIMTYPE_UINT8:

_Inc(_u._uint8Array = x._u._uint8Array);

_rep->_u._uint8Array =

new Array<Uint8>(*(x._rep->_u._uint8Array));

break;

case CIMType::SINT8:

case CIMTYPE_SINT8:

_Inc(_u._sint8Array = x._u._sint8Array);

_rep->_u._sint8Array =

new Array<Sint8>(*(x._rep->_u._sint8Array));

break;

case CIMType::UINT16:

case CIMTYPE_UINT16:

_Inc(_u._uint16Array = x._u._uint16Array);

_rep->_u._uint16Array =

new Array<Uint16>(*(x._rep->_u._uint16Array));

break;

case CIMType::SINT16:

case CIMTYPE_SINT16:

_Inc(_u._sint16Array = x._u._sint16Array);

_rep->_u._sint16Array =

new Array<Sint16>(*(x._rep->_u._sint16Array));

break;

case CIMType::UINT32:

case CIMTYPE_UINT32:

_Inc(_u._uint32Array = x._u._uint32Array);

_rep->_u._uint32Array =

new Array<Uint32>(*(x._rep->_u._uint32Array));

break;

case CIMType::SINT32:

case CIMTYPE_SINT32:

_Inc(_u._sint32Array = x._u._sint32Array);

_rep->_u._sint32Array =

new Array<Sint32>(*(x._rep->_u._sint32Array));

break;

case CIMType::UINT64:

case CIMTYPE_UINT64:

_Inc(_u._uint64Array = x._u._uint64Array);

_rep->_u._uint64Array =

new Array<Uint64>(*(x._rep->_u._uint64Array));

break;

case CIMType::SINT64:

case CIMTYPE_SINT64:

_Inc(_u._sint64Array = x._u._sint64Array);

_rep->_u._sint64Array =

new Array<Sint64>(*(x._rep->_u._sint64Array));

break;

case CIMType::REAL32:

case CIMTYPE_REAL32:

_Inc(_u._real32Array = x._u._real32Array);

_rep->_u._real32Array =

new Array<Real32>(*(x._rep->_u._real32Array));

break;

case CIMType::REAL64:

case CIMTYPE_REAL64:

_Inc(_u._real64Array = x._u._real64Array);

_rep->_u._real64Array =

new Array<Real64>(*(x._rep->_u._real64Array));

break;

case CIMType::CHAR16:

case CIMTYPE_CHAR16:

_Inc(_u._char16Array = x._u._char16Array);

_rep->_u._char16Array =

new Array<Char16>(*(x._rep->_u._char16Array));

break;

case CIMType::STRING:

case CIMTYPE_STRING:

_Inc(_u._stringArray = x._u._stringArray);

_rep->_u._stringArray =

new Array<String>(*(x._rep->_u._stringArray));

break;

case CIMType::DATETIME:

case CIMTYPE_DATETIME:

_Inc(_u._dateTimeArray = x._u._dateTimeArray);

_rep->_u._dateTimeArray =

new Array<CIMDateTime>(*(x._rep->_u._dateTimeArray));

break;

case CIMType::REFERENCE:

case CIMTYPE_REFERENCE:

_Inc(_u._referenceArray = x._u._referenceArray);

_rep->_u._referenceArray =

new Array<CIMObjectPath>(*(x._rep->_u._referenceArray));

break;

default:

throw CIMValueInvalidType();

throw CIMValueInvalidTypeException();

}

else

{

switch (_type)

switch (_rep->_type)

{

case CIMType::NONE:

case CIMTYPE_BOOLEAN:

break;

_rep->_u._booleanValue = x._rep->_u._booleanValue;

case CIMType::BOOLEAN:

_u._booleanValue = x._u._booleanValue;

break;

case CIMType::UINT8:

case CIMTYPE_UINT8:

_u._uint8Value = x._u._uint8Value;

_rep->_u._uint8Value = x._rep->_u._uint8Value;

break;

case CIMType::SINT8:

case CIMTYPE_SINT8:

_u._sint8Value = x._u._sint8Value;

_rep->_u._sint8Value = x._rep->_u._sint8Value;

break;

case CIMType::UINT16:

case CIMTYPE_UINT16:

_u._uint16Value = x._u._uint16Value;

_rep->_u._uint16Value = x._rep->_u._uint16Value;

break;

case CIMType::SINT16:

case CIMTYPE_SINT16:

_u._sint16Value = x._u._sint16Value;

_rep->_u._sint16Value = x._rep->_u._sint16Value;

break;

case CIMType::UINT32:

case CIMTYPE_UINT32:

_u._uint32Value = x._u._uint32Value;

_rep->_u._uint32Value = x._rep->_u._uint32Value;

break;

case CIMType::SINT32:

case CIMTYPE_SINT32:

_u._sint32Value = x._u._sint32Value;

_rep->_u._sint32Value = x._rep->_u._sint32Value;

break;

case CIMType::UINT64:

case CIMTYPE_UINT64:

_u._uint64Value = x._u._uint64Value;

_rep->_u._uint64Value = x._rep->_u._uint64Value;

break;

case CIMType::SINT64:

case CIMTYPE_SINT64:

_u._sint64Value = x._u._sint64Value;

_rep->_u._sint64Value = x._rep->_u._sint64Value;

break;

case CIMType::REAL32:

case CIMTYPE_REAL32:

_u._real32Value = x._u._real32Value;

_rep->_u._real32Value = x._rep->_u._real32Value;

break;

case CIMType::REAL64:

case CIMTYPE_REAL64:

_u._real64Value = x._u._real64Value;

_rep->_u._real64Value = x._rep->_u._real64Value;

break;

case CIMType::CHAR16:

case CIMTYPE_CHAR16:

_u._char16Value = x._u._char16Value;

_rep->_u._char16Value = x._rep->_u._char16Value;

break;

case CIMType::STRING:

case CIMTYPE_STRING:

new(_u._stringValue) String(*((String*)x._u._stringValue));

_rep->_u._stringValue = new String(*(x._rep->_u._stringValue));

break;

case CIMType::DATETIME:

case CIMTYPE_DATETIME:

_u._dateTimeValue = new CIMDateTime(*(x._u._dateTimeValue));

_rep->_u._dateTimeValue =

new CIMDateTime(*(x._rep->_u._dateTimeValue));

break;

case CIMType::REFERENCE:

case CIMTYPE_REFERENCE:

_u._referenceValue

_rep->_u._referenceValue =

= new CIMReference(*(x._u._referenceValue));

new CIMObjectPath(*(x._rep->_u._referenceValue));

break;

// Should never get here. testing complete enum

default:

throw CIMValueInvalidType();

throw CIMValueInvalidTypeException();

}

Uint32 CIMValue::getArraySize() const

{

if (!_isArray)

return 0;

switch (_type)

{

case CIMType::NONE:

return 0;

break;

case CIMType::BOOLEAN:

return _u._booleanArray->size;

break;

case CIMType::UINT8:

return _u._uint8Array->size;

break;

case CIMType::SINT8:

return _u._sint8Array->size;

break;

case CIMType::UINT16:

return _u._uint16Array->size;

break;

case CIMType::SINT16:

return _u._sint16Array->size;

break;

case CIMType::UINT32:

return _u._uint32Array->size;

break;

case CIMType::SINT32:

return _u._sint32Array->size;

break;

case CIMType::UINT64:

return _u._uint64Array->size;

break;

case CIMType::SINT64:

return _u._sint64Array->size;

break;

case CIMType::REAL32:

return _u._real32Array->size;

break;

case CIMType::REAL64:

return _u._real64Array->size;

break;

case CIMType::CHAR16:

return _u._char16Array->size;

break;

case CIMType::STRING:

return _u._stringArray->size;

break;

case CIMType::DATETIME:

return _u._dateTimeArray->size;

break;

case CIMType::REFERENCE:

return _u._referenceArray->size;

break;

// Should never get here. switch on complete enum

default:

throw CIMValueInvalidType();

}

// Unreachable!

PEGASUS_ASSERT(false);

return 0;

}

//ATTN: P1 KS Problem with Compiler when I added the defaults to clear, the compiler

// gets an exception very early. Disabled the exceptions to keep compiler running for

// the minute. Note that the case statement is not complete. None missing.

void CIMValue::clear()

{

// ATTN: KS P1 should we be setting NULL=true here????. Right now it only

if (_rep->_isArray)

// clears the value component. Note that the last thing we do is init

// and that does the isNull=false.

if (_isArray)

{

switch (_type)

switch (_rep->_type)

{

case CIMType::BOOLEAN:

case CIMTYPE_BOOLEAN:

_Dec(_u._booleanArray);

delete _rep->_u._booleanArray;

break;

case CIMType::UINT8:

case CIMTYPE_UINT8:

_Dec(_u._uint8Array);

delete _rep->_u._uint8Array;

break;

case CIMType::SINT8:

case CIMTYPE_SINT8:

_Dec(_u._sint8Array);

delete _rep->_u._sint8Array;

break;

case CIMType::UINT16:

case CIMTYPE_UINT16:

_Dec(_u._uint16Array);

delete _rep->_u._uint16Array;

break;

case CIMType::SINT16:

case CIMTYPE_SINT16:

_Dec(_u._sint16Array);

delete _rep->_u._sint16Array;

break;

case CIMType::UINT32:

case CIMTYPE_UINT32:

_Dec(_u._uint32Array);

delete _rep->_u._uint32Array;

break;

case CIMType::SINT32:

case CIMTYPE_SINT32:

_Dec(_u._sint32Array);

delete _rep->_u._sint32Array;

break;

case CIMType::UINT64:

case CIMTYPE_UINT64:

_Dec(_u._uint64Array);

delete _rep->_u._uint64Array;

break;

case CIMType::SINT64:

case CIMTYPE_SINT64:

_Dec(_u._sint64Array);

delete _rep->_u._sint64Array;

break;

case CIMType::REAL32:

case CIMTYPE_REAL32:

_Dec(_u._real32Array);

delete _rep->_u._real32Array;

break;

case CIMType::REAL64:

case CIMTYPE_REAL64:

_Dec(_u._real64Array);

delete _rep->_u._real64Array;

break;

case CIMType::CHAR16:

case CIMTYPE_CHAR16:

_Dec(_u._char16Array);

delete _rep->_u._char16Array;

break;

case CIMType::STRING:

case CIMTYPE_STRING:

_Dec(_u._stringArray);

delete _rep->_u._stringArray;

break;

case CIMType::DATETIME:

case CIMTYPE_DATETIME:

_Dec(_u._dateTimeArray);

delete _rep->_u._dateTimeArray;

break;

case CIMType::REFERENCE:

case CIMTYPE_REFERENCE:

_Dec(_u._referenceArray);

delete _rep->_u._referenceArray;

break;

//default:

//throw CIMValueInvalidType();

//throw CIMValueInvalidTypeException();

}

else

{

switch (_type)

switch (_rep->_type)

{

case CIMType::BOOLEAN:

case CIMTYPE_BOOLEAN:

case CIMType::UINT8:

case CIMTYPE_UINT8:

case CIMType::SINT8:

case CIMTYPE_SINT8:

case CIMType::UINT16:

case CIMTYPE_UINT16:

case CIMType::SINT16:

case CIMTYPE_SINT16:

case CIMType::UINT32:

case CIMTYPE_UINT32:

case CIMType::SINT32:

case CIMTYPE_SINT32:

case CIMType::UINT64:

case CIMTYPE_UINT64:

case CIMType::SINT64:

case CIMTYPE_SINT64:

case CIMType::REAL32:

case CIMTYPE_REAL32:

case CIMType::REAL64:

case CIMTYPE_REAL64:

case CIMType::CHAR16:

case CIMTYPE_CHAR16:

break;

case CIMType::STRING:

case CIMTYPE_STRING:

((String*)_u._stringValue)->~String();

delete _rep->_u._stringValue;

break;

case CIMType::DATETIME:

case CIMTYPE_DATETIME:

delete _u._dateTimeValue;

delete _rep->_u._dateTimeValue;

break;

case CIMType::REFERENCE:

case CIMTYPE_REFERENCE:

delete _u._referenceValue;

delete _rep->_u._referenceValue;

break;

//default:

//throw CIMValueInvalidType();

//throw CIMValueInvalidTypeException();

}

_init();

_rep->reset();

}

void CIMValue::toXml(Array<Sint8>& out, Boolean forceTag) const

Boolean CIMValue::typeCompatible(const CIMValue& x) const

{

/* If the CIMValue is Null, no element is returned.

return (_rep->_type == x._rep->_type &&

Note that it output absolutely nothing. This works for

_rep->_isArray == x._rep->_isArray);

everything except qualifiers where the value tag is required in

// getArraySize() == x.getArraySize());

any case per the XML specification

if (_isNull)

{

if (forceTag)

if (_isArray)

out << "<VALUE.ARRAY></VALUE.ARRAY>\n";

else

out << "<VALUE></VALUE>\n";

return;

}

if (_isArray)

{

switch (_type)

{

case CIMType::BOOLEAN:

{

// ATTN-RK-P3-20020220: Why can't this just use

// _toXml(out, _u._booleanArray->data(), _u._booleanArray->size);

// like everybody else?

out << "<VALUE.ARRAY>\n";

for (Uint32 i = 0, n = _u._booleanArray->size; i < n; i++)

Boolean CIMValue::isArray() const

{

out << "<VALUE>";

return _rep->_isArray;

_toXml(out, Boolean(_u._booleanArray->data()[i]));

out << "</VALUE>\n";

}

out << "</VALUE.ARRAY>\n";

break;

}

case CIMType::UINT8:

Boolean CIMValue::isNull() const

_toXml(out, _u._uint8Array->data(), _u._uint8Array->size);

break;

case CIMType::SINT8:

_toXml(out, _u._sint8Array->data(), _u._sint8Array->size);

break;

case CIMType::UINT16:

_toXml(out, _u._uint16Array->data(), _u._uint16Array->size);

break;

case CIMType::SINT16:

_toXml(out, _u._sint16Array->data(), _u._sint16Array->size);

break;

case CIMType::UINT32:

_toXml(out, _u._uint32Array->data(), _u._uint32Array->size);

break;

case CIMType::SINT32:

_toXml(out, _u._sint32Array->data(), _u._sint32Array->size);

break;

case CIMType::UINT64:

_toXml(out, _u._uint64Array->data(), _u._uint64Array->size);

break;

case CIMType::SINT64:

_toXml(out, _u._sint64Array->data(), _u._sint64Array->size);

break;

case CIMType::REAL32:

_toXml(out, _u._real32Array->data(), _u._real32Array->size);

break;

case CIMType::REAL64:

_toXml(out, _u._real64Array->data(), _u._real64Array->size);

break;

case CIMType::CHAR16:

_toXml(out, _u._char16Array->data(), _u._char16Array->size);

break;

case CIMType::STRING:

_toXml(out, _u._stringArray->data(), _u._stringArray->size);

break;

case CIMType::DATETIME:

_toXml(out, _u._dateTimeArray->data(), _u._dateTimeArray->size);

break;

case CIMType::REFERENCE:

_toXml(out, _u._referenceArray->data(),

_u._referenceArray->size);

break;

default:

throw CIMValueInvalidType();

}

else if (_type == CIMType::REFERENCE)

{

// Has to be separate because it uses VALUE.REFERENCE tag

return _rep->_isNull;

_toXml(out, *_u._referenceValue);

}

else

Uint32 CIMValue::getArraySize() const

{

out << "<VALUE>";

if (!_rep->_isArray)

return 0;

switch (_type)

switch (_rep->_type)

{

case CIMType::BOOLEAN:

case CIMTYPE_BOOLEAN:

_toXml(out, Boolean(_u._booleanValue != 0));

return _rep->_u._booleanArray->size();

break;

case CIMTYPE_UINT8:

return _rep->_u._uint8Array->size();

break;

case CIMType::UINT8:

case CIMTYPE_SINT8:

_toXml(out, _u._uint8Value);

return _rep->_u._sint8Array->size();

break;

case CIMType::SINT8:

case CIMTYPE_UINT16:

_toXml(out, _u._sint8Value);

return _rep->_u._uint16Array->size();

break;

case CIMType::UINT16:

case CIMTYPE_SINT16:

_toXml(out, _u._uint16Value);

return _rep->_u._sint16Array->size();

break;

case CIMType::SINT16:

case CIMTYPE_UINT32:

_toXml(out, _u._sint16Value);

return _rep->_u._uint32Array->size();

break;

case CIMType::UINT32:

case CIMTYPE_SINT32:

_toXml(out, _u._uint32Value);

return _rep->_u._sint32Array->size();

break;

case CIMType::SINT32:

case CIMTYPE_UINT64:

_toXml(out, _u._sint32Value);

return _rep->_u._uint64Array->size();

break;

case CIMType::UINT64:

case CIMTYPE_SINT64:

_toXml(out, _u._uint64Value);

return _rep->_u._sint64Array->size();

break;

case CIMType::SINT64:

case CIMTYPE_REAL32:

_toXml(out, _u._sint64Value);

return _rep->_u._real32Array->size();

break;

case CIMType::REAL32:

case CIMTYPE_REAL64:

_toXml(out, _u._real32Value);

return _rep->_u._real64Array->size();

break;

case CIMType::REAL64:

case CIMTYPE_CHAR16:

_toXml(out, _u._real64Value);

return _rep->_u._char16Array->size();

break;

case CIMType::CHAR16:

case CIMTYPE_STRING:

_toXml(out, Char16(_u._char16Value));

return _rep->_u._stringArray->size();

break;

case CIMType::STRING:

case CIMTYPE_DATETIME:

_toXml(out, *((String*)_u._stringValue));

return _rep->_u._dateTimeArray->size();

break;

case CIMType::DATETIME:

case CIMTYPE_REFERENCE:

_toXml(out, *_u._dateTimeValue);

return _rep->_u._referenceArray->size();

break;

// Should never get here. switch on complete enum

default:

throw CIMValueInvalidType();

throw CIMValueInvalidTypeException();

}

out << "</VALUE>\n";

// Unreachable!

}

PEGASUS_ASSERT(false);

return 0;

}

String CIMValue::toXml(Boolean forceTag) const

CIMType CIMValue::getType() const

{

Array<Sint8> out;

return CIMType(_rep->_type);

toXml(out, forceTag);

out.append('\0');

return String(out.getData());

}

void CIMValue::toMof(Array<Sint8>& out) const

void CIMValue::setNullValue(CIMType type, Boolean isArray, Uint32 arraySize)

{

// if the CIMValue is Null we return nothing.

// The alternative is to return the Null indicator.

if (_isNull)

{

out << "null";

clear();

return ;

}

if (_isArray)

if (isArray)

{

switch (_type)

{

case CIMType::BOOLEAN:

switch (type)

{

_toMof(out, _u._booleanArray->data(), _u._booleanArray->size);

case CIMTYPE_BOOLEAN:

break;

set(Array<Boolean>(arraySize));

}

case CIMType::UINT8:

_toMof(out, _u._uint8Array->data(), _u._uint8Array->size);

break;

case CIMType::SINT8:

case CIMTYPE_UINT8:

_toMof(out, _u._sint8Array->data(), _u._sint8Array->size);

set(Array<Uint8>(arraySize));

break;

case CIMType::UINT16:

case CIMTYPE_SINT8:

_toMof(out, _u._uint16Array->data(), _u._uint16Array->size);

set(Array<Sint8>(arraySize));

break;

case CIMType::SINT16:

case CIMTYPE_UINT16:

_toMof(out, _u._sint16Array->data(), _u._sint16Array->size);

set(Array<Uint16>(arraySize));

break;

case CIMType::UINT32:

case CIMTYPE_SINT16:

_toMof(out, _u._uint32Array->data(), _u._uint32Array->size);

set(Array<Sint16>(arraySize));

break;

case CIMType::SINT32:

case CIMTYPE_UINT32:

_toMof(out, _u._sint32Array->data(), _u._sint32Array->size);

set(Array<Uint32>(arraySize));

break;

case CIMType::UINT64:

case CIMTYPE_SINT32:

_toMof(out, _u._uint64Array->data(), _u._uint64Array->size);

set(Array<Sint32>(arraySize));

break;

case CIMType::SINT64:

case CIMTYPE_UINT64:

_toMof(out, _u._sint64Array->data(), _u._sint64Array->size);

set(Array<Uint64>(arraySize));

break;

case CIMType::REAL32:

case CIMTYPE_SINT64:

_toMof(out, _u._real32Array->data(), _u._real32Array->size);

set(Array<Sint64>(arraySize));

break;

case CIMType::REAL64:

case CIMTYPE_REAL32:

_toMof(out, _u._real64Array->data(), _u._real64Array->size);

set(Array<Real32>(arraySize));

break;

case CIMType::CHAR16:

case CIMTYPE_REAL64:

_toMof(out, _u._char16Array->data(), _u._char16Array->size);

set(Array<Real64>(arraySize));

break;

case CIMType::STRING:

case CIMTYPE_CHAR16:

_toMof(out, _u._stringArray->data(), _u._stringArray->size);

set(Array<Char16>(arraySize));

break;

case CIMType::DATETIME:

case CIMTYPE_STRING:

_toMof(out, _u._dateTimeArray->data(),

set(Array<String>(arraySize));

_u._dateTimeArray->size);

break;

case CIMType::REFERENCE:

case CIMTYPE_DATETIME:

_toMof(out, _u._referenceArray->data(),

set(Array<CIMDateTime>(arraySize));

_u._referenceArray->size);

break;

case CIMTYPE_REFERENCE:

set(Array<CIMObjectPath>(arraySize));

break;

default:

throw CIMValueInvalidType();

throw CIMValueInvalidTypeException();

}

else

{

switch (_type)

switch (type)

{

case CIMType::BOOLEAN:

case CIMTYPE_BOOLEAN:

_toMof(out, Boolean(_u._booleanValue != 0));

set(false);

break;

case CIMType::UINT8:

case CIMTYPE_UINT8:

_toMof(out, _u._uint8Value);

set(Uint8(0));

break;

case CIMType::SINT8:

case CIMTYPE_SINT8:

_toMof(out, _u._sint8Value);

set(Sint8(0));

break;

case CIMType::UINT16:

case CIMTYPE_UINT16:

_toMof(out, _u._uint16Value);

set(Uint16(0));

break;

case CIMType::SINT16:

case CIMTYPE_SINT16:

_toMof(out, _u._sint16Value);

set(Sint16(0));

break;

case CIMType::UINT32:

case CIMTYPE_UINT32:

_toMof(out, _u._uint32Value);

set(Uint32(0));

break;

case CIMType::SINT32:

case CIMTYPE_SINT32:

_toMof(out, _u._sint32Value);

set(Sint32(0));

break;

case CIMType::UINT64:

case CIMTYPE_UINT64:

_toMof(out, _u._uint64Value);

set(Uint64(0));

break;

case CIMType::SINT64:

case CIMTYPE_SINT64:

_toMof(out, _u._sint64Value);

set(Sint64(0));

break;

case CIMType::REAL32:

case CIMTYPE_REAL32:

_toMof(out, _u._real32Value);

set(Real32(0.0));

break;

case CIMType::REAL64:

case CIMTYPE_REAL64:

_toMof(out, _u._real64Value);

set(Real64(0.0));

break;

case CIMType::CHAR16:

case CIMTYPE_CHAR16:

_toMof(out, Char16(_u._char16Value));

set(Char16(0));

break;

case CIMType::STRING:

case CIMTYPE_STRING:

_toMof(out, *((String*)_u._stringValue));

set(String());

break;

case CIMType::DATETIME:

case CIMTYPE_DATETIME:

_toMof(out, *_u._dateTimeValue);

set(CIMDateTime());

break;

case CIMType::REFERENCE:

case CIMTYPE_REFERENCE:

_toMof(out, *_u._referenceValue);

set(CIMObjectPath());

break;

default:

throw CIMValueInvalidType();

throw CIMValueInvalidTypeException();

}

// Set the Null attribute. Note that this must be after the set

// because the set functions sets the _isNull.

void CIMValue::print( Boolean forceTag, PEGASUS_STD(ostream) &os) const

_rep->_isNull = true;

{

Array<Sint8> tmp;

toXml(tmp, forceTag);

tmp.append('\0');

os << tmp.getData() << PEGASUS_STD(endl);

}

void CIMValue::set(Boolean x)

{

clear();

_u._booleanValue = (Uint8)x;

_rep->_u._booleanValue = (Uint8)x;

_type = CIMType::BOOLEAN;

_rep->_type = CIMTYPE_BOOLEAN;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(Uint8 x)

{

clear();

_u._uint8Value = x;

_rep->_u._uint8Value = x;

_type = CIMType::UINT8;

_rep->_type = CIMTYPE_UINT8;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(Sint8 x)

{

clear();

_u._sint8Value = x;

_rep->_u._sint8Value = x;

_type = CIMType::SINT8;

_rep->_type = CIMTYPE_SINT8;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(Uint16 x)

{

clear();

_u._uint16Value = x;

_rep->_u._uint16Value = x;

_type = CIMType::UINT16;

_rep->_type = CIMTYPE_UINT16;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(Sint16 x)

{

clear();

_u._sint16Value = x;

_rep->_u._sint16Value = x;

_type = CIMType::SINT16;

_rep->_type = CIMTYPE_SINT16;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(Uint32 x)

{

clear();

_u._uint32Value = x;

_rep->_u._uint32Value = x;

_type = CIMType::UINT32;

_rep->_type = CIMTYPE_UINT32;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(Sint32 x)

{

clear();

_u._sint32Value = x;

_rep->_u._sint32Value = x;

_type = CIMType::SINT32;

_rep->_type = CIMTYPE_SINT32;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(Uint64 x)

{

clear();

_u._uint64Value = x;

_rep->_u._uint64Value = x;

_type = CIMType::UINT64;

_rep->_type = CIMTYPE_UINT64;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(Sint64 x)

{

clear();

_u._sint64Value = x;

_rep->_u._sint64Value = x;

_type = CIMType::SINT64;

_rep->_type = CIMTYPE_SINT64;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(Real32 x)

{

clear();

_u._real32Value = x;

_rep->_u._real32Value = x;

_type = CIMType::REAL32;

_rep->_type = CIMTYPE_REAL32;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(Real64 x)

{

clear();

_u._real64Value = x;

_rep->_u._real64Value = x;

_type = CIMType::REAL64;

_rep->_type = CIMTYPE_REAL64;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Char16& x)

{

clear();

_u._char16Value = x;

_rep->_u._char16Value = x;

_type = CIMType::CHAR16;

_rep->_type = CIMTYPE_CHAR16;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const String& x)

{

clear();

new(_u._stringValue) String(x);

_rep->_u._stringValue = new String(x);

_type = CIMType::STRING;

_rep->_type = CIMTYPE_STRING;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const char* x)

{

set(String(x));

_isNull = false;

}

void CIMValue::set(const CIMDateTime& x)

{

clear();

_u._dateTimeValue = new CIMDateTime(x);

_rep->_u._dateTimeValue = new CIMDateTime(x);

_type = CIMType::DATETIME;

_rep->_type = CIMTYPE_DATETIME;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const CIMReference& x)

void CIMValue::set(const CIMObjectPath& x)

{

clear();

_u._referenceValue = new CIMReference(x);

_rep->_u._referenceValue = new CIMObjectPath(x);

_type = CIMType::REFERENCE;

_rep->_type = CIMTYPE_REFERENCE;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<Boolean>& x)

{

clear();

_Inc(_u._booleanArray = x._rep);

_rep->_u._booleanArray = new Array<Boolean>(x);

_type = CIMType::BOOLEAN;

_rep->_type = CIMTYPE_BOOLEAN;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<Uint8>& x)

{

clear();

_Inc(_u._uint8Array = x._rep);

_rep->_u._uint8Array = new Array<Uint8>(x);

_type = CIMType::UINT8;

_rep->_type = CIMTYPE_UINT8;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<Sint8>& x)

{

clear();

_Inc(_u._sint8Array = x._rep);

_rep->_u._sint8Array = new Array<Sint8>(x);

_type = CIMType::SINT8;

_rep->_type = CIMTYPE_SINT8;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<Uint16>& x)

{

clear();

_Inc(_u._uint16Array = x._rep);

_rep->_u._uint16Array = new Array<Uint16>(x);

_type = CIMType::UINT16;

_rep->_type = CIMTYPE_UINT16;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<Sint16>& x)

{

clear();

_Inc(_u._sint16Array = x._rep);

_rep->_u._sint16Array = new Array<Sint16>(x);

_type = CIMType::SINT16;

_rep->_type = CIMTYPE_SINT16;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<Uint32>& x)

{

clear();

_Inc(_u._uint32Array = x._rep);

_rep->_u._uint32Array = new Array<Uint32>(x);

_type = CIMType::UINT32;

_rep->_type = CIMTYPE_UINT32;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<Sint32>& x)

{

clear();

_Inc(_u._sint32Array = x._rep);

_rep->_u._sint32Array = new Array<Sint32>(x);

_type = CIMType::SINT32;

_rep->_type = CIMTYPE_SINT32;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<Uint64>& x)

{

clear();

_Inc(_u._uint64Array = x._rep);

_rep->_u._uint64Array = new Array<Uint64>(x);

_type = CIMType::UINT64;

_rep->_type = CIMTYPE_UINT64;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<Sint64>& x)

{

clear();

_Inc(_u._sint64Array = x._rep);

_rep->_u._sint64Array = new Array<Sint64>(x);

_type = CIMType::SINT64;

_rep->_type = CIMTYPE_SINT64;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<Real32>& x)

{

clear();

_Inc(_u._real32Array = x._rep);

_rep->_u._real32Array = new Array<Real32>(x);

_type = CIMType::REAL32;

_rep->_type = CIMTYPE_REAL32;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<Real64>& x)

{

clear();

_Inc(_u._real64Array = x._rep);

_rep->_u._real64Array = new Array<Real64>(x);

_type = CIMType::REAL64;

_rep->_type = CIMTYPE_REAL64;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<Char16>& x)

{

clear();

_Inc(_u._char16Array = x._rep);

_rep->_u._char16Array = new Array<Char16>(x);

_type = CIMType::CHAR16;

_rep->_type = CIMTYPE_CHAR16;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<String>& x)

{

clear();

_Inc(_u._stringArray = x._rep);

_rep->_u._stringArray = new Array<String>(x);

_type = CIMType::STRING;

_rep->_type = CIMTYPE_STRING;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<CIMDateTime>& x)

{

clear();

_Inc(_u._dateTimeArray = x._rep);

_rep->_u._dateTimeArray = new Array<CIMDateTime>(x);

_type = CIMType::DATETIME;

_rep->_type = CIMTYPE_DATETIME;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::set(const Array<CIMReference>& x)

void CIMValue::set(const Array<CIMObjectPath>& x)

{

clear();

_Inc(_u._referenceArray = x._rep);

_rep->_u._referenceArray = new Array<CIMObjectPath>(x);

_type = CIMType::REFERENCE;

_rep->_type = CIMTYPE_REFERENCE;

_isArray = true;

_rep->_isArray = true;

_isNull = false;

_rep->_isNull = false;

}

void CIMValue::get(Boolean& x) const

{

if (_type != CIMType::BOOLEAN || _isArray)

if (_rep->_type != CIMTYPE_BOOLEAN || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = _u._booleanValue != 0;

x = _rep->_u._booleanValue != 0;

}

void CIMValue::get(Uint8& x) const

{

if (_type != CIMType::UINT8 || _isArray)

if (_rep->_type != CIMTYPE_UINT8 || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = _u._uint8Value;

x = _rep->_u._uint8Value;

}

void CIMValue::get(Sint8& x) const

{

if (_type != CIMType::SINT8 || _isArray)

if (_rep->_type != CIMTYPE_SINT8 || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = _u._sint8Value;

x = _rep->_u._sint8Value;

}

void CIMValue::get(Uint16& x) const

{

if (_type != CIMType::UINT16 || _isArray)

if (_rep->_type != CIMTYPE_UINT16 || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = _u._uint16Value;

x = _rep->_u._uint16Value;

}

void CIMValue::get(Sint16& x) const

{

if (_type != CIMType::SINT16 || _isArray)

if (_rep->_type != CIMTYPE_SINT16 || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = _u._sint16Value;

x = _rep->_u._sint16Value;

}

void CIMValue::get(Uint32& x) const

{

if (_type != CIMType::UINT32 || _isArray)

if (_rep->_type != CIMTYPE_UINT32 || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = _u._uint32Value;

x = _rep->_u._uint32Value;

}

void CIMValue::get(Sint32& x) const

{

if (_type != CIMType::SINT32 || _isArray)

if (_rep->_type != CIMTYPE_SINT32 || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = _u._sint32Value;

x = _rep->_u._sint32Value;

}

void CIMValue::get(Uint64& x) const

{

if (_type != CIMType::UINT64 || _isArray)

if (_rep->_type != CIMTYPE_UINT64 || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = _u._uint64Value;

x = _rep->_u._uint64Value;

}

void CIMValue::get(Sint64& x) const

{

if (_type != CIMType::SINT64 || _isArray)

if (_rep->_type != CIMTYPE_SINT64 || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = _u._sint64Value;

x = _rep->_u._sint64Value;

}

void CIMValue::get(Real32& x) const

{

if (_type != CIMType::REAL32 || _isArray)

if (_rep->_type != CIMTYPE_REAL32 || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = _u._real32Value;

x = _rep->_u._real32Value;

}

void CIMValue::get(Real64& x) const

{

if (_type != CIMType::REAL64 || _isArray)

if (_rep->_type != CIMTYPE_REAL64 || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = _u._real64Value;

x = _rep->_u._real64Value;

}

void CIMValue::get(Char16& x) const

{

if (_type != CIMType::CHAR16 || _isArray)

if (_rep->_type != CIMTYPE_CHAR16 || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = _u._char16Value;

x = _rep->_u._char16Value;

}

void CIMValue::get(String& x) const

{

if (_type != CIMType::STRING || _isArray)

if (_rep->_type != CIMTYPE_STRING || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = *((String*)_u._stringValue);

x = *_rep->_u._stringValue;

}

void CIMValue::get(CIMDateTime& x) const

{

if (_type != CIMType::DATETIME || _isArray)

if (_rep->_type != CIMTYPE_DATETIME || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = *_u._dateTimeValue;

x = *_rep->_u._dateTimeValue;

}

void CIMValue::get(CIMReference& x) const

void CIMValue::get(CIMObjectPath& x) const

{

if (_type != CIMType::REFERENCE || _isArray)

if (_rep->_type != CIMTYPE_REFERENCE || _rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x = *_u._referenceValue;

x = *_rep->_u._referenceValue;

}

void CIMValue::get(Array<Boolean>& x) const

{

if (_type != CIMType::BOOLEAN || !_isArray)

if (_rep->_type != CIMTYPE_BOOLEAN || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._booleanArray);

x = *_rep->_u._booleanArray;

}

void CIMValue::get(Array<Uint8>& x) const

{

if (_type != CIMType::UINT8 || !_isArray)

if (_rep->_type != CIMTYPE_UINT8 || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._uint8Array);

x = *_rep->_u._uint8Array;

}

void CIMValue::get(Array<Sint8>& x) const

{

if (_type != CIMType::SINT8 || !_isArray)

if (_rep->_type != CIMTYPE_SINT8 || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._sint8Array);

x = *_rep->_u._sint8Array;

}

void CIMValue::get(Array<Uint16>& x) const

{

if (_type != CIMType::UINT16 || !_isArray)

if (_rep->_type != CIMTYPE_UINT16 || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._uint16Array);

x = *_rep->_u._uint16Array;

}

void CIMValue::get(Array<Sint16>& x) const

{

if (_type != CIMType::SINT16 || !_isArray)

if (_rep->_type != CIMTYPE_SINT16 || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._sint16Array);

x = *_rep->_u._sint16Array;

}

void CIMValue::get(Array<Uint32>& x) const

{

if (_type != CIMType::UINT32 || !_isArray)

if (_rep->_type != CIMTYPE_UINT32 || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._uint32Array);

x = *_rep->_u._uint32Array;

}

void CIMValue::get(Array<Sint32>& x) const

{

if (_type != CIMType::SINT32 || !_isArray)

if (_rep->_type != CIMTYPE_SINT32 || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._sint32Array);

x = *_rep->_u._sint32Array;

}

void CIMValue::get(Array<Uint64>& x) const

{

if (_type != CIMType::UINT64 || !_isArray)

if (_rep->_type != CIMTYPE_UINT64 || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._uint64Array);

x = *_rep->_u._uint64Array;

}

void CIMValue::get(Array<Sint64>& x) const

{

if (_type != CIMType::SINT64 || !_isArray)

if (_rep->_type != CIMTYPE_SINT64 || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._sint64Array);

x = *_rep->_u._sint64Array;

}

void CIMValue::get(Array<Real32>& x) const

{

if (_type != CIMType::REAL32 || !_isArray)

if (_rep->_type != CIMTYPE_REAL32 || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._real32Array);

x = *_rep->_u._real32Array;

}

void CIMValue::get(Array<Real64>& x) const

{

if (_type != CIMType::REAL64 || !_isArray)

if (_rep->_type != CIMTYPE_REAL64 || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._real64Array);

x = *_rep->_u._real64Array;

}

void CIMValue::get(Array<Char16>& x) const

{

if (_type != CIMType::CHAR16 || !_isArray)

if (_rep->_type != CIMTYPE_CHAR16 || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._char16Array);

x = *_rep->_u._char16Array;

}

void CIMValue::get(Array<String>& x) const

{

if (_type != CIMType::STRING || !_isArray)

if (_rep->_type != CIMTYPE_STRING || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._stringArray);

x = *_rep->_u._stringArray;

}

void CIMValue::get(Array<CIMDateTime>& x) const

{

#ifdef CIMValueisNullexception

// ATTN-RK-20020815: Use UninitializedObjectException here if CIMValue is null?

if (_isNull)

throw CIMValueIsNull();

#endif

if (_type != CIMType::DATETIME || !_isArray)

if (_rep->_type != CIMTYPE_DATETIME || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._dateTimeArray);

x = *_rep->_u._dateTimeArray;

}

void CIMValue::get(Array<CIMReference>& x) const

void CIMValue::get(Array<CIMObjectPath>& x) const

{

if (_type != CIMType::REFERENCE || !_isArray)

if (_rep->_type != CIMTYPE_REFERENCE || !_rep->_isArray)

throw TypeMismatch();

throw TypeMismatchException();

x.set(_u._referenceArray);

x = *_rep->_u._referenceArray;

}

void CIMValue::_init()

Boolean CIMValue::equal(const CIMValue& x) const

{

_type = CIMType::NONE;

if (!typeCompatible(x))

_isArray = false;

_isNull = true;

_u._voidPtr = 0;

}

Boolean operator==(const CIMValue& x, const CIMValue& y)

{

if (!x.typeCompatible(y))

return false;

if (x._isNull != y._isNull)

if (_rep->_isNull != x._rep->_isNull)

return false;

if (x._isArray)

if (_rep->_isArray)

{

switch (x._type)

switch (_rep->_type)

{

case CIMType::BOOLEAN:

case CIMTYPE_BOOLEAN:

return Array<Boolean>(x._u._booleanArray) ==

return (*_rep->_u._booleanArray) ==

Array<Boolean>(y._u._booleanArray);

(*x._rep->_u._booleanArray);

case CIMType::UINT8:

case CIMTYPE_UINT8:

return Array<Uint8>(x._u._uint8Array) ==

return (*_rep->_u._uint8Array) ==

Array<Uint8>(y._u._uint8Array);

(*x._rep->_u._uint8Array);

case CIMType::SINT8:

case CIMTYPE_SINT8:

return Array<Sint8>(x._u._sint8Array) ==

return (*_rep->_u._sint8Array) ==

Array<Sint8>(y._u._sint8Array);

(*x._rep->_u._sint8Array);

case CIMType::UINT16:

case CIMTYPE_UINT16:

return Array<Uint16>(x._u._uint16Array) ==

return (*_rep->_u._uint16Array) ==

Array<Uint16>(y._u._uint16Array);

(*x._rep->_u._uint16Array);

case CIMType::SINT16:

case CIMTYPE_SINT16:

return Array<Sint16>(x._u._sint16Array) ==

return (*_rep->_u._sint16Array) ==

Array<Sint16>(y._u._sint16Array);

(*x._rep->_u._sint16Array);

case CIMType::UINT32:

case CIMTYPE_UINT32:

return Array<Uint32>(x._u._uint32Array) ==

return (*_rep->_u._uint32Array) ==

Array<Uint32>(y._u._uint32Array);

(*x._rep->_u._uint32Array);

case CIMType::SINT32:

case CIMTYPE_SINT32:

return Array<Sint32>(x._u._sint32Array) ==

return (*_rep->_u._sint32Array) ==

Array<Sint32>(y._u._sint32Array);

(*x._rep->_u._sint32Array);

case CIMType::UINT64:

case CIMTYPE_UINT64:

return Array<Uint64>(x._u._uint64Array) ==

return (*_rep->_u._uint64Array) ==

Array<Uint64>(y._u._uint64Array);

(*x._rep->_u._uint64Array);

case CIMType::SINT64:

case CIMTYPE_SINT64:

return Array<Sint64>(x._u._sint64Array) ==

return (*_rep->_u._sint64Array) ==

Array<Sint64>(y._u._sint64Array);

(*x._rep->_u._sint64Array);

case CIMType::REAL32:

case CIMTYPE_REAL32:

return Array<Real32>(x._u._real32Array) ==

return (*_rep->_u._real32Array) ==

Array<Real32>(y._u._real32Array);

(*x._rep->_u._real32Array);

case CIMType::REAL64:

case CIMTYPE_REAL64:

return Array<Real64>(x._u._real64Array) ==

return (*_rep->_u._real64Array) ==

Array<Real64>(y._u._real64Array);

(*x._rep->_u._real64Array);

case CIMType::CHAR16:

case CIMTYPE_CHAR16:

return Array<Char16>(x._u._char16Array) ==

return (*_rep->_u._char16Array) ==

Array<Char16>(y._u._char16Array);

(*x._rep->_u._char16Array);

case CIMType::STRING:

case CIMTYPE_STRING:

return Array<String>(x._u._stringArray) ==

return (*_rep->_u._stringArray) ==

Array<String>(y._u._stringArray);

(*x._rep->_u._stringArray);

case CIMType::DATETIME:

case CIMTYPE_DATETIME:

return Array<CIMDateTime>(x._u._dateTimeArray) ==

return (*_rep->_u._dateTimeArray) ==

Array<CIMDateTime>(y._u._dateTimeArray);

(*x._rep->_u._dateTimeArray);

case CIMType::REFERENCE:

case CIMTYPE_REFERENCE:

return Array<CIMReference>(x._u._referenceArray) ==

return (*_rep->_u._referenceArray) ==

Array<CIMReference>(y._u._referenceArray);

(*x._rep->_u._referenceArray);

default:

throw CIMValueInvalidType();

throw CIMValueInvalidTypeException();

}

else

{

switch (x._type)

switch (_rep->_type)

{

case CIMType::BOOLEAN:

case CIMTYPE_BOOLEAN:

return x._u._booleanValue == y._u._booleanValue;

return _rep->_u._booleanValue == x._rep->_u._booleanValue;

case CIMTYPE_UINT8:

return _rep->_u._uint8Value == x._rep->_u._uint8Value;

case CIMType::UINT8:

case CIMTYPE_SINT8:

return x._u._uint8Value == y._u._uint8Value;

return _rep->_u._sint8Value == x._rep->_u._sint8Value;

case CIMType::SINT8:

case CIMTYPE_UINT16:

return x._u._sint8Value == y._u._sint8Value;

return _rep->_u._uint16Value == x._rep->_u._uint16Value;

case CIMType::UINT16:

case CIMTYPE_SINT16:

return x._u._uint16Value == y._u._uint16Value;

return _rep->_u._sint16Value == x._rep->_u._sint16Value;

case CIMType::SINT16:

case CIMTYPE_UINT32:

return x._u._sint16Value == y._u._sint16Value;

return _rep->_u._uint32Value == x._rep->_u._uint32Value;

case CIMType::UINT32:

case CIMTYPE_SINT32:

return x._u._uint32Value == y._u._uint32Value;

return _rep->_u._sint32Value == x._rep->_u._sint32Value;

case CIMType::SINT32:

case CIMTYPE_UINT64:

return x._u._sint32Value == y._u._sint32Value;

return _rep->_u._uint64Value == x._rep->_u._uint64Value;

case CIMType::UINT64:

case CIMTYPE_SINT64:

return x._u._uint64Value == y._u._uint64Value;

return _rep->_u._sint64Value == x._rep->_u._sint64Value;

case CIMType::SINT64:

case CIMTYPE_REAL32:

return x._u._sint64Value == y._u._sint64Value;

return _rep->_u._real32Value == x._rep->_u._real32Value;

case CIMType::REAL32:

case CIMTYPE_REAL64:

return x._u._real32Value == y._u._real32Value;

return _rep->_u._real64Value == x._rep->_u._real64Value;

case CIMType::REAL64:

case CIMTYPE_CHAR16:

return x._u._real64Value == y._u._real64Value;

return _rep->_u._char16Value == x._rep->_u._char16Value;

case CIMType::CHAR16:

case CIMTYPE_STRING:

return x._u._char16Value == y._u._char16Value;

return String::equal(*_rep->_u._stringValue,

*x._rep->_u._stringValue);

case CIMType::STRING:

case CIMTYPE_DATETIME:

return String::equal(

return *_rep->_u._dateTimeValue == *x._rep->_u._dateTimeValue;

*((String*)x._u._stringValue),

*((String*)y._u._stringValue));

case CIMType::DATETIME:

case CIMTYPE_REFERENCE:

return *x._u._dateTimeValue == *y._u._dateTimeValue;

return *_rep->_u._referenceValue ==

*x._rep->_u._referenceValue;

case CIMType::REFERENCE:

return *x._u._referenceValue == *y._u._referenceValue;

default:

throw CIMValueInvalidType();

throw CIMValueInvalidTypeException();

}

Line 1799

Line 1497

return false;

}

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<CIMReference>(arraySize));

break;

default:

throw CIMValueInvalidType();

}

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(CIMReference());

break;

default:

throw CIMValueInvalidType();

}

// Set the Null attribute. Note that this must be after the set

// because the set functions sets the _isNull.

_isNull = true;

}

String CIMValue::toString() const

{

Array<Sint8> out;

//ATTN: Not sure what we should do with getstring for Null CIMValues

//Choice return empty string or exception out.

if (_isNull)

if (_rep->_isNull)

return String();

if (_isArray)

if (_rep->_isArray)

{

switch (_type)

switch (_rep->_type)

{

case CIMType::BOOLEAN:

case CIMTYPE_BOOLEAN:

{

int size = _u._booleanArray->size;

Uint32 size = _rep->_u._booleanArray->size();

bool *p = _u._booleanArray->data();

for (Uint32 i = 0; i < size; i++)

for (Uint32 i = 0; i < _u._booleanArray->size; i++)

{

_toString(out, Boolean(_u._booleanArray->data()[i]));

_toString(out, Boolean(_rep->_u._booleanArray->getData()[i]));

out << " ";

}

break;

}

case CIMType::UINT8:

case CIMTYPE_UINT8:

_toString(out, _u._uint8Array->data(), _u._uint8Array->size);

_toString(out, _rep->_u._uint8Array->getData(),

_rep->_u._uint8Array->size());

break;

case CIMType::SINT8:

case CIMTYPE_SINT8:

_toString(out, _u._sint8Array->data(), _u._sint8Array->size);

_toString(out, _rep->_u._sint8Array->getData(),

_rep->_u._sint8Array->size());

break;

case CIMType::UINT16:

case CIMTYPE_UINT16:

_toString(out, _u._uint16Array->data(), _u._uint16Array->size);

_toString(out, _rep->_u._uint16Array->getData(),

_rep->_u._uint16Array->size());

break;

case CIMType::SINT16:

case CIMTYPE_SINT16:

_toString(out, _u._sint16Array->data(), _u._sint16Array->size);

_toString(out, _rep->_u._sint16Array->getData(),

_rep->_u._sint16Array->size());

break;

case CIMType::UINT32:

case CIMTYPE_UINT32:

_toString(out, _u._uint32Array->data(), _u._uint32Array->size);

_toString(out, _rep->_u._uint32Array->getData(),

_rep->_u._uint32Array->size());

break;

case CIMType::SINT32:

case CIMTYPE_SINT32:

_toString(out, _u._sint32Array->data(), _u._sint32Array->size);

_toString(out, _rep->_u._sint32Array->getData(),

_rep->_u._sint32Array->size());

break;

case CIMType::UINT64:

case CIMTYPE_UINT64:

_toString(out, _u._uint64Array->data(), _u._uint64Array->size);

_toString(out, _rep->_u._uint64Array->getData(),

_rep->_u._uint64Array->size());

break;

case CIMType::SINT64:

case CIMTYPE_SINT64:

_toString(out, _u._sint64Array->data(), _u._sint64Array->size);

_toString(out, _rep->_u._sint64Array->getData(),

_rep->_u._sint64Array->size());

break;

case CIMType::REAL32:

case CIMTYPE_REAL32:

_toString(out, _u._real32Array->data(), _u._real32Array->size);

_toString(out, _rep->_u._real32Array->getData(),

_rep->_u._real32Array->size());

break;

case CIMType::REAL64:

case CIMTYPE_REAL64:

_toString(out, _u._real64Array->data(), _u._real64Array->size);

_toString(out, _rep->_u._real64Array->getData(),

_rep->_u._real64Array->size());

break;

case CIMType::CHAR16:

case CIMTYPE_CHAR16:

_toString(out, _u._char16Array->data(), _u._char16Array->size);

_toString(out, _rep->_u._char16Array->getData(),

_rep->_u._char16Array->size());

break;

case CIMType::STRING:

case CIMTYPE_STRING:

_toString(out, _u._stringArray->data(), _u._stringArray->size);

_toString(out, _rep->_u._stringArray->getData(),

_rep->_u._stringArray->size());

break;

case CIMType::DATETIME:

case CIMTYPE_DATETIME:

_toString(out, _u._dateTimeArray->data(), _u._dateTimeArray->size);

_toString(out, _rep->_u._dateTimeArray->getData(),

_rep->_u._dateTimeArray->size());

break;

case CIMType::REFERENCE:

case CIMTYPE_REFERENCE:

_toString(out, _u._referenceArray->data(), _u._referenceArray->size);

_toString(out, _rep->_u._referenceArray->getData(),

_rep->_u._referenceArray->size());

break;

default:

throw CIMValueInvalidType();

throw CIMValueInvalidTypeException();

}

else

{

switch (_type)

switch (_rep->_type)

{

case CIMType::BOOLEAN:

case CIMTYPE_BOOLEAN:

_toString(out, Boolean(_u._booleanValue != 0));

_toString(out, Boolean(_rep->_u._booleanValue != 0));

break;

case CIMType::UINT8:

case CIMTYPE_UINT8:

_toString(out, _u._uint8Value);

_toString(out, _rep->_u._uint8Value);

break;

case CIMType::SINT8:

case CIMTYPE_SINT8:

_toString(out, _u._sint8Value);

_toString(out, _rep->_u._sint8Value);

break;

case CIMType::UINT16:

case CIMTYPE_UINT16:

_toString(out, _u._uint16Value);

_toString(out, _rep->_u._uint16Value);

break;

case CIMType::SINT16:

case CIMTYPE_SINT16:

_toString(out, _u._sint16Value);

_toString(out, _rep->_u._sint16Value);

break;

case CIMType::UINT32:

case CIMTYPE_UINT32:

_toString(out, _u._uint32Value);

_toString(out, _rep->_u._uint32Value);

break;

case CIMType::SINT32:

case CIMTYPE_SINT32:

_toString(out, _u._sint32Value);

_toString(out, _rep->_u._sint32Value);

break;

case CIMType::UINT64:

case CIMTYPE_UINT64:

_toString(out, _u._uint64Value);

_toString(out, _rep->_u._uint64Value);

break;

case CIMType::SINT64:

case CIMTYPE_SINT64:

_toString(out, _u._sint64Value);

_toString(out, _rep->_u._sint64Value);

break;

case CIMType::REAL32:

case CIMTYPE_REAL32:

_toString(out, _u._real32Value);

_toString(out, _rep->_u._real32Value);

break;

case CIMType::REAL64:

case CIMTYPE_REAL64:

_toString(out, _u._real64Value);

_toString(out, _rep->_u._real64Value);

break;

case CIMType::CHAR16:

case CIMTYPE_CHAR16:

_toString(out, Char16(_u._char16Value));

_toString(out, Char16(_rep->_u._char16Value));

break;

case CIMType::STRING:

case CIMTYPE_STRING:

_toString(out, *((String*)_u._stringValue));

_toString(out, *_rep->_u._stringValue);

break;

case CIMType::DATETIME:

case CIMTYPE_DATETIME:

_toString(out, *_u._dateTimeValue);

_toString(out, *_rep->_u._dateTimeValue);

break;

case CIMType::REFERENCE:

case CIMTYPE_REFERENCE:

_toString(out, *_u._referenceValue);

_toString(out, *_rep->_u._referenceValue);

break;

default:

throw CIMValueInvalidType();

throw CIMValueInvalidTypeException();

}

Line 2103

Line 1668

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

Legend:

Removed from v.1.22
changed lines
	Added in v.1.40

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