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Diff for /pegasus/src/Pegasus/Common/CIMValue.h between version 1.11.2.3 and 1.49

version 1.11.2.3, 2001/11/15 20:15:24

version 1.49, 2006/01/30 16:16:48

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

//%2006////////////////////////////////////////////////////////////////////////

// Company, L.P.; IBM Corp.; The Open Group; Tivoli Systems.

// IBM Corp.; EMC Corporation, The Open Group.

// IBM Corp.; EMC Corporation; VERITAS Software Corporation; The Open Group.

// EMC Corporation; VERITAS Software Corporation; The Open Group.

// EMC Corporation; Symantec 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

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//==============================================================================

// Author: Mike Brasher (mbrasher@bmc.com)

// Modified By:

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

#ifndef Pegasus_Value_h

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#include <Pegasus/Common/String.h>

#include <Pegasus/Common/Config.h>

#include <Pegasus/Common/CIMType.h>

#include <Pegasus/Common/CIMObjectPath.h>

#include <Pegasus/Common/CIMObject.h>

#include <Pegasus/Common/CIMDateTime.h>

#include <Pegasus/Common/Union.h>

#include <Pegasus/Common/Exception.h>

#include <Pegasus/Common/Array.h>

#include <Pegasus/Common/Linkage.h>

PEGASUS_NAMESPACE_BEGIN

class CIMValueRep;

class CIMObject;

/**

The CIMValue class represents a value of any of the CIM data types

(see CIMType.h for a list of valid CIM data types). This class

(see \Ref{CIMType} for a list of valid CIM data types). This class

encapsulates a union which holds the current value. The class also

has a type field indicating the type of that value.

class PEGASUS_COMMON_LINKAGE CIMValue

{

public:

/// Constructor

/** Constructor - Creates an NULL CIMValue object set to null and

with type CIMType:none and !arraytype.

CIMValue();

/// Constructor

/** Constructor - Creates a NULL CIMValue object with the type and

CIMValue(Boolean x) { _init(); set(x); }

array indicator set as specified.

@exception TypeMismatchException If the given type is not valid for a

CIMValue object.

CIMValue(CIMType type, Boolean isArray, Uint32 arraySize = 0);

/// Constructor.

CIMValue(Boolean x);

/// Constructor

/// Constructor.

CIMValue(Uint8 x) { _init(); set(x); }

CIMValue(Uint8 x);

/// Constructor

/// Constructor.

CIMValue(Sint8 x) { _init(); set(x); }

CIMValue(Sint8 x);

/// Constructor

/// Constructor.

CIMValue(Uint16 x) { _init(); set(x); }

CIMValue(Uint16 x);

/// Constructor

/// Constructor.

CIMValue(Sint16 x) { _init(); set(x); }

CIMValue(Sint16 x);

/// Constructor

/// Constructor.

CIMValue(Uint32 x) { _init(); set(x); }

CIMValue(Uint32 x);

/// Constructor

/// Constructor.

CIMValue(Sint32 x) { _init(); set(x); }

CIMValue(Sint32 x);

/// Constructor

/// Constructor.

CIMValue(Uint64 x) { _init(); set(x); }

CIMValue(Uint64 x);

/// Constructor

/// Constructor.

CIMValue(Sint64 x) { _init(); set(x); }

CIMValue(Sint64 x);

/// Constructor

/// Constructor.

CIMValue(Real32 x) { _init(); set(x); }

CIMValue(Real32 x);

/// Constructor

/// Constructor.

CIMValue(Real64 x) { _init(); set(x); }

CIMValue(Real64 x);

/// Constructor

/// Constructor.

CIMValue(const Char16& x) { _init(); set(x); }

CIMValue(const Char16& x);

/// Constructor

/// Constructor.

CIMValue(const String& x) { _init(); set(x); }

CIMValue(const String& x);

/// Constructor

/// Constructor.

CIMValue(const char* x) { _init(); set(x); }

CIMValue(const CIMDateTime& x);

/// Constructor

/// Constructor.

CIMValue(const CIMDateTime& x) { _init(); set(x); }

CIMValue(const CIMObjectPath& x);

/// Constructor

/** Constructor.

CIMValue(const CIMReference& x) { _init(); set(x); }

Note: Constructing a CIMValue with an uninitialized CIMObject is not

defined and results in a thrown UninitializedObjectException.

Note: The input CIMObject will be cloned before putting it into the

value of the constructed CIMValue. This is because CIMObjects use a

shared representation model, but we don't want CIMObjects inside a

CIMValue to be altered by other external changes.

CIMValue(const CIMObject& x);

/// Constructor.

CIMValue(const Array<Boolean>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<Boolean>& x) { _init(); set(x); }

CIMValue(const Array<Uint8>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<Uint8>& x) { _init(); set(x); }

CIMValue(const Array<Sint8>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<Sint8>& x) { _init(); set(x); }

CIMValue(const Array<Uint16>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<Uint16>& x) { _init(); set(x); }

CIMValue(const Array<Sint16>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<Sint16>& x) { _init(); set(x); }

CIMValue(const Array<Uint32>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<Uint32>& x) { _init(); set(x); }

CIMValue(const Array<Sint32>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<Sint32>& x) { _init(); set(x); }

CIMValue(const Array<Uint64>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<Uint64>& x) { _init(); set(x); }

CIMValue(const Array<Sint64>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<Sint64>& x) { _init(); set(x); }

CIMValue(const Array<Real32>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<Real32>& x) { _init(); set(x); }

CIMValue(const Array<Real64>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<Real64>& x) { _init(); set(x); }

CIMValue(const Array<Char16>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<Char16>& x) { _init(); set(x); }

CIMValue(const Array<String>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<String>& x) { _init(); set(x); }

CIMValue(const Array<CIMDateTime>& x);

/// Constructor

/// Constructor.

CIMValue(const Array<CIMDateTime>& x) { _init(); set(x); }

CIMValue(const Array<CIMObjectPath>& x);

/** Constructor.

Note: Constructing a CIMValue with an uninitialized CIMObject anywhere

in the input array is not defined and results in a thrown

UninitializedObjectException.

Note: Each CIMObject in the input Array will be cloned before putting

the Array into the value of the constructed CIMValue. This is because

CIMObjects use a shared representation model, but we don't want

CIMObjects inside a CIMValue to be altered by other external changes.

CIMValue(const Array<CIMObject>& x);

/// Constructor

/** Constructor.

Note: If the input type is CIMObject, it/they will be cloned before

putting it into the value of the constructed CIMValue. This is because

CIMObjects use a shared representation model, but we don't want

CIMObjects inside a CIMValue to be altered by other external changes.

CIMValue(const CIMValue& x);

/// Destrustructor

/// Destructor.

~CIMValue();

/// Operator =

/** Operator =

CIMValue& operator=(const CIMValue& x)

Note: If the right hand side type is CIMObject, it/they will be cloned

{

before putting it into the value of the target CIMValue. This is because

assign(x); return *this;

CIMObjects use a shared representation model, but we don't want

}

CIMObjects inside a CIMValue to be altered by other external changes.

CIMValue& operator=(const CIMValue& x);

/// CIMMethod assign

/** Assigns one CIMValue object to another CIMValue object.

@param x - CIMValue object to be used for assignment.

Note: If the input type is CIMObject, it/they will be cloned before

putting it into the value of the target CIMValue. This is because

CIMObjects use a shared representation model, but we don't want

CIMObjects inside a CIMValue to be altered by other external changes.

void assign(const CIMValue& x);

/// CIMMethod clear

/** Clears the attributes and value of the CIMValue object.

void clear();

/** CIMMethod typeCompatible - Compares the types of two values.

/** Compares the types of two CIMValues. This

@return true if compatible.

compares the type field and the array indicators.

@return true if both are of the same type and both are either arrays

or not, false otherwise.

<pre>

CIMValue a(Boolean(true);

CIMValue b = a;

if b.typeCompatible(a)

...

</pre>

Boolean typeCompatible(const CIMValue& x) const

Boolean typeCompatible(const CIMValue& x) const;

{

return _type == x._type && _isArray == x._isArray;

}

/** CIMMethod isArray - Determines if the value is an array

/** Determines if the value is an array.

@return TRUE if the value is an array

@return true if the value is an array, false otherwise.

Boolean isArray() const { return _isArray; }

Boolean isArray() const;

/** Returns whether the CIMvalue object is null.

/** Determines whether the CIMvalue object is Null.

Null is the specific condition where no value has

yet been set into the value.

yet been set. If a CIMValue object is Null, any get on that

If a CIMValue object is Null, any get on that object

object will create an exception.

will create an exception.

@return true if the CIMValue object is Null, false otherwise.

@return Returns True if the CIMValue object is Null

Boolean isNull() const { return _isNull; }

Boolean isNull() const;

/** CIMMethod getArraySize

/** Gets the size of an Array CIMValue.

@return The number of entries in the array

@return The number of entries in the array.

Uint32 getArraySize() const;

CIMType getType() const

/** Gets the CIMType attribute for the CIMValue.

{

@return the CIMType value.

return CIMType(_type);

}

CIMType getType() const;

/// method setNullvalue - ATTN:

/** Sets the CIMValue a NULL, but with valid CIMType and array

characteristics.

@param type - CIMType for this CIMValue.

@param isArray - Boolean indicating whether this is an array CIMValue.

@param arraySize - Optional parameter indicating the array size.

<pre>

CIMValue value;

value.setNullValue(CIMType::BOOLEAN, false);

</pre>

void setNullValue(CIMType type, Boolean isArray, Uint32 arraySize = 0);

/// method set - ATTN:

/** Sets the type, Array attribute and puts the value provided

into the value of the target CIMValue.

<pre>

CIMValue x;

x.set(Uint16(9));

</pre>

@exception UninitializedObjectException If the given type is CIMObject,

and the input CIMObject parameter is uninitialized or at least one entry

in the Array of CIMObjects is uninitialized.

Note: If the input type is CIMObject, it/they will be cloned before

putting it into the value of the target CIMValue. This is because

CIMObjects use a shared representation model, but we don't want

CIMObjects inside a CIMValue to be altered by other external changes.

void set(Boolean x);

/// CIMMethod Set

///

void set(Uint8 x);

///

void set(Sint8 x);

///

void set(Uint16 x);

///

void set(Sint16 x);

///

void set(Uint32 x);

///

void set(Sint32 x);

///

void set(Uint64 x);

///

void set(Sint64 x);

///

void set(Real32 x);

///

void set(Real64 x);

///

void set(const Char16& x);

///

void set(const String& x);

///

void set(const char* x);

void set(const CIMDateTime& x);

///

void set(const CIMReference& x);

void set(const CIMObjectPath& x);

///

void set(const CIMObject& x);

///

void set(const Array<Boolean>& x);

///

void set(const Array<Uint8>& x);

///

void set(const Array<Sint8>& x);

///

void set(const Array<Uint16>& x);

///

void set(const Array<Sint16>& x);

///

void set(const Array<Uint32>& x);

///

void set(const Array<Sint32>& x);

///

void set(const Array<Uint64>& x);

///

void set(const Array<Sint64>& x);

///

void set(const Array<Real32>& x);

///

void set(const Array<Real64>& x);

///

void set(const Array<Char16>& x);

///

void set(const Array<String>& x);

///

void set(const Array<CIMDateTime>& x);

///

/// CIMMethod get - ATTN

void set(const Array<CIMObjectPath>& x);

///

void set(const Array<CIMObject>& x);

/** Gets the value of a CIMValue.

Note: Before using get, the caller should use getType () and isNull ()

to ensure that the value is not null, and is of the correct type.

The behavior of get is undefined when the value is null.

@param Variable in which to return the value.

@exception TypeMismatchException If the CIMValue type is not compatible

with the type of the output parameter.

<pre>

Uint32 v;

CIMValue value(CIMValue::UINT32, UINT32(99));

value.get(v);

</pre>

<pre>

Uint32 v;

CIMValue value = property.getValue ();

if ((value.getType () == CIMTYPE_UINT32) && (!value.isNull ()))

value.get (v);

</pre>

void get(Boolean& x) const;

///

void get(Uint8& x) const;

///

void get(Sint8& x) const;

///

void get(Uint16& x) const;

///

void get(Sint16& x) const;

///

void get(Uint32& x) const;

///

void get(Sint32& x) const;

///

void get(Uint64& x) const;

///

void get(Sint64& x) const;

///

void get(Real32& x) const;

///

void get(Real64& x) const;

///

void get(Char16& x) const;

///

void get(String& x) const;

///

void get(CIMDateTime& x) const;

///

void get(CIMReference& x) const;

void get(CIMObjectPath& x) const;

///

void get(CIMObject& x) const;

///

void get(Array<Boolean>& x) const;

///

void get(Array<Uint8>& x) const;

///

void get(Array<Sint8>& x) const;

///

void get(Array<Uint16>& x) const;

///

void get(Array<Sint16>& x) const;

///

void get(Array<Uint32>& x) const;

///

void get(Array<Sint32>& x) const;

///

void get(Array<Uint64>& x) const;

///

void get(Array<Sint64>& x) const;

///

void get(Array<Real32>& x) const;

///

void get(Array<Real64>& x) const;

///

void get(Array<Char16>& x) const;

///

void get(Array<String>& x) const;

///

void get(Array<CIMDateTime>& x) const;

///

/** toXML - Converts a CIMValue object to XML.

void get(Array<CIMObjectPath>& x) const;

@out Sint8 Array to hold the XML representation

///

@return Returns the XML representation of the CIMValue

void get(Array<CIMObject>& x) const;

object in the input parameter out.

/** Compares with another CIMValue object for equality.

void toXml(Array<Sint8>& out) const;

@param x - CIMValue to compare with.

@return true if they are identical in type, attribute and value,

/** toXML - Converts a CIMValue object to XML.

false otherwise.

@return Returns the XML representation of the CIMValue

object in String form.

String toXml() const;

/** CIMMethod print - Format and print the Value to std output

stream

@return None

<PRE>

Example:

CIMValue value(Boolean(true));

value.print(); // Prints "true"

</PRE>

void print(PEGASUS_STD(ostream) &o=PEGASUS_STD(cout)) const;

/** toMof - Converts a CIMValueObject to Mof.

@out Sint8 Array to hold the Mof representation

@return Returns the Mof representation of the CIMValue

object in the input parameter out.

void toMof(Array<Sint8>& out) const;

Boolean equal(const CIMValue& x) const;

/** Converts the CIMvalue to a string. Should only be

/** toString - Converts the CIMvalue to a string. Should only be

used for output purposes. To get an actual String value, use

get(String &).

@return - String output for CIMValue.

@return String output for CIMValue.

<PRE>

Example:

String test;

CIMValue value(Boolean(true));

test = value.toString(); // puts "TRUE" into test

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String toString() const;

#ifdef PEGASUS_USE_DEPRECATED_INTERFACES

/**

Deprecated Interface

Constructor. (Note: This constructor exists solely to support binary

compatibility with a previous definition of the Sint8 type.)

CIMValue(char x);

/**

Deprecated Interface

Constructor. (Note: This constructor exists solely to support binary

compatibility with a previous definition of the Sint8 type.)

CIMValue(const Array<char>& x);

/**

Deprecated Interface

Sets an Sint8 value. (Note: This method exists solely to support

binary compatibility with a previous definition of the Sint8 type.)

void set(char x);

/**

Deprecated Interface

Sets an Sint8 array value. (Note: This method exists solely to support

binary compatibility with a previous definition of the Sint8 type.)

void set(const Array<char>& x);

/**

Deprecated Interface

Gets an Sint8 value. (Note: This method exists solely to support

binary compatibility with a previous definition of the Sint8 type.)

void get(char& x) const;

/**

Deprecated Interface

Gets an Sint8 array value. (Note: This method exists solely to support

binary compatibility with a previous definition of the Sint8 type.)

void get(Array<char>& x) const;

#endif

private:

void _init();

void _get(const String*& data, Uint32& size) const;

CIMType _type;

CIMValueRep* _rep;

Boolean _isArray;

Boolean _isNull;

Union _u;

friend class CIMMethodRep;

friend class CIMParameterRep;

friend class CIMPropertyRep;

friend class CIMQualifierRep;

friend class CIMQualifierDeclRep;

PEGASUS_COMMON_LINKAGE friend Boolean operator==(

friend class BinaryStreamer;

const CIMValue& x,

friend class XmlWriter;

const CIMValue& y);

};

/** operator == compares two CIMValue objects for equality.

@param x - First CIMValue to compare

@param y - Second CIMValue to compare

@return true if they are identical in type, attribute and value,

false otherwise.

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

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

/** operator != compares two CIMValue objects for inequality.

{

@param x - First CIMValue to compare

return !operator==(x, y);

@param y - Second CIMValue to compare

}

@return true if they are NOT identical in type, attribute or value,

false otherwise.

PEGASUS_COMMON_LINKAGE Boolean operator!=(const CIMValue& x, const CIMValue& y);

#define PEGASUS_ARRAY_T CIMValue

# include "ArrayInter.h"

# include <Pegasus/Common/ArrayInter.h>

#undef PEGASUS_ARRAY_T

PEGASUS_NAMESPACE_END

#ifdef PEGASUS_INTERNALONLY

#include <Pegasus/Common/CIMValueInline.h>

#endif

#endif /* Pegasus_Value_h */

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