//%///////////////////////////////////////////////////////////////////////////// // // Copyright (c) 2000 The Open Group, BMC Software, Tivoli Systems, IBM // // 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 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: // //%///////////////////////////////////////////////////////////////////////////// #ifndef Pegasus_CIMClass_h #define Pegasus_CIMClass_h #include #include PEGASUS_NAMESPACE_BEGIN class CIMConstClass; /** The CIMClass class is used to represent CIM classes in Pegasus. In CIM, a class object may be a class or an associator. A CIM class must contain a name and may contain methods, properties, and qualifiers. It is a template for creating a CIM instance. A CIM class represents a collection of CIM instances, all of which support a common type (for example, a set of properties, methods, and associations). */ class PEGASUS_COMMON_LINKAGE CIMClass { public: /** Constructor - Creates an uninitiated a new CIM object reprenting a CIM class. The class object created by this constructor can only be used in an operation such as the copy constructor. It cannot be used to create a class by appending names, properties, etc. since it is unitiated. Use one of the other constructors to create an initiated new CIM class object. @exception Throws an exception "unitialized handle" if this unitialized handle is used /REF(HPEGASUS_HANDLES) */ CIMClass() : _rep(0) { } /** Constructor - Creates a class from a previous class */ CIMClass(const CIMClass& x) { Inc(_rep = x._rep); } /// Operator = Assigns the CIM Class constructor. CIMClass& operator=(const CIMClass& x) { if (x._rep != _rep) { Dec(_rep); Inc(_rep = x._rep); } return *this; } /** Constructor - Creates a Class from inputs of a classname and SuperClassName @param className String representing name of the class being created @param superClassName String representing name of the SuperClass ATTN: Define what makes up legal name. @return Throws IllegalName if className argument illegal CIM identifier. 
	    CIMClass NewCass("MyClass", "YourClass");
*/ CIMClass( const String& className, const String& superClassName = String()) { _rep = new CIMClassRep(className, superClassName); } /// Destructor ~CIMClass() { Dec(_rep); } /** isAssociation - Identifies whether or not this CIM class is an association. An association is a relationship between two (or more) classes or instances of two classes. The properties of an association class include pointers, or references, to the two (or more) instances. All CIM classes can be included in one or more associations. ATTN: Move the association definition elsewhere @return Boolean True if this CIM class belongs to an association; otherwise, false. */ Boolean isAssociation() const { _checkRep(); return _rep->isAssociation(); } /// CIMMethod isAbstract Boolean isAbstract() const { _checkRep(); return _rep->isAbstract(); } /** getClassName Gets the name of the class ATTN: COMMENT. Why not just get name so we have common method for all. @return Returns string with the class name. */ const String& getClassName() const { _checkRep(); return _rep->getClassName(); } /** CIMMethod getSuperClassName - Gets the name of the Parent @return String with parent class name. */ const String& getSuperClassName() const { _checkRep(); return _rep->getSuperClassName(); } /** CIMMethod setSuperClassName - Sets the name of the parent class from the input parameter. \REF{CLASSNAME}. ATTN: Define legal classnames @param String defining parent name. @return Throws IllegalName if superClassName argument not legal CIM identifier @exception throws IllegalName if the name is not correct. See \URL[ClassNames]{DefinitionofTerms.html#CLASSNAME} */ void setSuperClassName(const String& superClassName) { _checkRep(); _rep->setSuperClassName(superClassName); } /** addQualifier - Adds the specified qualifier to the class and increments the qualifier count. It is illegal to add the same qualifier more than one time. @param qualifier CIMQualifier object representing the qualifier to be added @return Returns handle of the class object @exception Throws AlreadyExists. */ CIMClass& addQualifier(const CIMQualifier& qualifier) { _checkRep(); _rep->addQualifier(qualifier); return *this; } /** findQualifier - Searches for a qualifier with the specified ` input name if it exists in the class @param name CIMName of the qualifier to be found @return Position of the qualifier in the Class. @return Returns index of the qualifier found or -1 if not found. */ Uint32 findQualifier(const String& name) { _checkRep(); return _rep->findQualifier(name); } /// Uint32 findQualifier(const String& name) const { _checkRep(); return _rep->findQualifier(name); } /** getQualifier - Gets the CIMQualifier object defined by the input parameter @param pos defines the position of the qualifier in the class from the findQualifier method @return CIMQualifier object representing the qualifier found. ATTN: what is error return here? */ CIMQualifier getQualifier(Uint32 pos) { _checkRep(); return _rep->getQualifier(pos); } /// getQualifier - ATTN: CIMConstQualifier getQualifier(Uint32 pos) const { _checkRep(); return _rep->getQualifier(pos); } /** getQualifierCount - Returns the number of qualifiers in the class. @return ATTN: */ Uint32 getQualifierCount() const { _checkRep(); return _rep->getQualifierCount(); } /** addProperty - Adds the specified property object to the properties in the CIM class */ CIMClass& addProperty(const CIMProperty& x) { _checkRep(); _rep->addProperty(x); return *this; } /** removeProperty - Removes the property represented by the position input parameter from the class @param pos Index to the property to be removed from the findPropety method @exception Throws OutofBounds if index is not a property object */ void removeProperty(Uint32 pos) { _checkRep(); _rep->removeProperty(pos); } /** CIMMethod findProperty - Finds the property object with the name defined by the input parameter in the class. @param String parameter with the property name. @return position representing the property object found or -1 if the property is not found. */ Uint32 findProperty(const String& name) { _checkRep(); return _rep->findProperty(name); } Uint32 findProperty(const String& name) const { _checkRep(); return _rep->findProperty(name); } /** getProperty - Returns a property representing the property defined by the input parameter @param position for this property ATTN: Should we not use something like handle for position??? @return CIMProperty object ATTN: what is error return? */ CIMProperty getProperty(Uint32 pos) { _checkRep(); return _rep->getProperty(pos); } /**getProperty Gets a property object from the CIMClass @param pos The index of the property object to get. @return Returns handle of the property object requested @exception Throws OutofBounds if the size field is greather than the bunber of properties in the class. */ CIMConstProperty getProperty(Uint32 pos) const { _checkRep(); return _rep->getProperty(pos); } /** getProperty - Gets the count of the number of properties defined in the class. @return count of number of proerties in the class */ Uint32 getPropertyCount() const { _checkRep(); return _rep->getPropertyCount(); } /** addMethod - Adds the method object defined by the input parameter to the class and increments the count of the number of methods in the class @param method object representing the method to be added @return Returns the CIMClass object to which the method was added. @exception Throws AlreadyExists if the method already exists and throws UnitializedHandle if the handle is not initialized */ CIMClass& addMethod(const CIMMethod& x) { _checkRep(); _rep->addMethod(x); return *this; } /** findMethod - Located the method object defined by the name input @param String representing the name of the method to be found @return Position of the method object in the class to be used in subsequent getmethod, etc. operations */ Uint32 findMethod(const String& name) { _checkRep(); return _rep->findMethod(name); } Uint32 findMethod(const String& name) const { _checkRep(); return _rep->findMethod(name); } /** getMethod - Gets the method object defined by the input parameter. @param pos Index to the CIMMethod object to get @return Returns handle of the CIMMethod requested @exception Throws OutofBounds if the index represented by pos is greater than the number of methods defined in the class object */ CIMMethod getMethod(Uint32 pos) { _checkRep(); return _rep->getMethod(pos); } /** getMethod Gets the method object defined by the input parameter. This is the const version. */ CIMConstMethod getMethod(Uint32 pos) const { _checkRep(); return _rep->getMethod(pos); } /** CIMMethod getMethodCount - Count of the number of methods in the class @return integer representing the number of methods in the class object. */ Uint32 getMethodCount() const { _checkRep(); return _rep->getMethodCount(); } /** Resolve - Resolve the class: inherit any properties and qualifiers. Make sure the superClass really exists and is consistent with this class. Also set the propagated flag class-origin for each class feature. ATTN: explain why this here */ void resolve( DeclContext* declContext, const String& nameSpace) { _checkRep(); _rep->resolve(declContext, nameSpace); } /// operator - ATTN: operator int() const { return _rep != 0; } /// CIMMethod toXML void toXml(Array& out) const { _checkRep(); _rep->toXml(out); } /// CIMMethod print void print(std::ostream &o=std::cout) const { _checkRep(); _rep->print(o); } /** CIMMethod identical - Compares with another class ATTN: Clarify exactly what identical means @param Class object for the class to be compared @return True if the classes are identical */ Boolean identical(const CIMConstClass& x) const; /// CIMMethod clone - ATTN: CIMClass clone() const { return CIMClass(_rep->clone()); } void getKeyNames(Array& keyNames) const { _checkRep(); _rep->getKeyNames(keyNames); } private: CIMClass(CIMClassRep* rep) : _rep(rep) { } void _checkRep() const { if (!_rep) ThrowUnitializedHandle(); } CIMClassRep* _rep; friend class CIMConstClass; }; /** CIMConstClass - ATTN: define this. */ class PEGASUS_COMMON_LINKAGE CIMConstClass { public: CIMConstClass() : _rep(0) { } CIMConstClass(const CIMConstClass& x) { Inc(_rep = x._rep); } CIMConstClass(const CIMClass& x) { Inc(_rep = x._rep); } CIMConstClass& operator=(const CIMConstClass& x) { if (x._rep != _rep) { Dec(_rep); Inc(_rep = x._rep); } return *this; } CIMConstClass& operator=(const CIMClass& x) { if (x._rep != _rep) { Dec(_rep); Inc(_rep = x._rep); } return *this; } // Throws IllegalName if className argument not legal CIM identifier. CIMConstClass( const String& className, const String& superClassName = String()) { _rep = new CIMClassRep(className, superClassName); } ~CIMConstClass() { Dec(_rep); } Boolean isAssociation() const { _checkRep(); return _rep->isAssociation(); } Boolean isAbstract() const { _checkRep(); return _rep->isAbstract(); } const String& getClassName() const { _checkRep(); return _rep->getClassName(); } const String& getSuperClassName() const { _checkRep(); return _rep->getSuperClassName(); } Uint32 findQualifier(const String& name) const { _checkRep(); return _rep->findQualifier(name); } CIMConstQualifier getQualifier(Uint32 pos) const { _checkRep(); return _rep->getQualifier(pos); } Uint32 getQualifierCount() const { _checkRep(); return _rep->getQualifierCount(); } Uint32 findProperty(const String& name) const { _checkRep(); return _rep->findProperty(name); } CIMConstProperty getProperty(Uint32 pos) const { _checkRep(); return _rep->getProperty(pos); } Uint32 getPropertyCount() const { _checkRep(); return _rep->getPropertyCount(); } Uint32 findMethod(const String& name) const { _checkRep(); return _rep->findMethod(name); } CIMConstMethod getMethod(Uint32 pos) const { _checkRep(); return _rep->getMethod(pos); } Uint32 getMethodCount() const { _checkRep(); return _rep->getMethodCount(); } operator int() const { return _rep != 0; } void toXml(Array& out) const { _checkRep(); _rep->toXml(out); } void print(std::ostream &o=std::cout) const { _checkRep(); _rep->print(o); } Boolean identical(const CIMConstClass& x) const { x._checkRep(); _checkRep(); return _rep->identical(x._rep); } CIMClass clone() const { return CIMClass(_rep->clone()); } void getKeyNames(Array& keyNames) const { _checkRep(); _rep->getKeyNames(keyNames); } private: void _checkRep() const { if (!_rep) ThrowUnitializedHandle(); } CIMClassRep* _rep; friend class CIMClassRep; friend class CIMClass; friend class CIMInstanceRep; }; PEGASUS_NAMESPACE_END #endif /* Pegasus_CIMClass_h */