/* -*-C++-*- */ #ifndef SNMPINTEGER_ #define SNMPINTEGER_ //============================================================================= /** * @file integer.h * * Class definition for Integer classes convertable to SMI. */ //============================================================================= /*=================================================================== Copyright (c) 1996 Hewlett-Packard Company ATTENTION: USE OF THIS SOFTWARE IS SUBJECT TO THE FOLLOWING TERMS. Permission to use, copy, modify, distribute and/or sell this software and/or its documentation is hereby granted without fee. User agrees to display the above copyright notice and this license notice in all copies of the software and any documentation of the software. User agrees to assume all liability for the use of the software; Hewlett-Packard makes no representations about the suitability of this software for any purpose. It is provided "AS-IS without warranty of any kind,either express or implied. User hereby grants a royalty-free license to any and all derivatives based upon this software code base. =====================================================================*/ #include "asnmp/smival.h" // TODO get rid of this constant #define INTOUTBUF 15 // largest ASCII formatted integer //------------[ Integer Classes ]------------------------------------------ // The integer class allows all the functionality of the various // integers but is contained in a Value object for consistency // among the various types. // class objects may be set or get into Vb objects. // // 32 bit unsigned integer class /** * @class SnmpUInt32 * * @brief Implement RFC 1920 Unsigned Integer SMI datatype */ class ASNMP_Export SnmpUInt32 : public SnmpSyntax { public: /// default constructor explicit SnmpUInt32 (const unsigned long i = 0); /// copy constructor SnmpUInt32( const SnmpUInt32 &c); /// destructor (ensure that SnmpSyntax::~SnmpSyntax() is overridden) virtual ~SnmpUInt32(); /// syntax type virtual SmiUINT32 get_syntax(); /// overloaded assignment SnmpUInt32& operator=( const unsigned long i); /// overloaded assignment SnmpUInt32& operator=( const SnmpUInt32 &uli); /// otherwise, behave like an unsigned long int operator unsigned long(); /// get a printable ASCII value virtual const char *to_string(); /// create a new instance of this Value virtual SnmpSyntax *clone() const; /// copy an instance of this Value SnmpSyntax& operator=( SnmpSyntax &val); /// did object construct properly int valid() const; protected: /// contain string representation of object int valid_flag; char output_buffer[INTOUTBUF]; }; // 32 bit signed integer class /** * @class SnmpInt32 * * @brief Implement RFC 1902 32 bit Integer SMI data object */ class ASNMP_Export SnmpInt32 : public SnmpSyntax { public: /// constructor with value SnmpInt32 (const long i = 0); /// constructor with value SnmpInt32 (const SnmpInt32 &c); /// destructor (ensure that SnmpSyntax::~SnmpSyntax() is overridden) virtual ~SnmpInt32(); /// syntax type virtual SmiUINT32 get_syntax(); /// overloaded assignment SnmpInt32& operator=( const long i); /// overloaded assignment SnmpInt32& operator=( const SnmpInt32 &li); /// otherwise, behave like a long int operator long(); /// create a new instance of this Value SnmpSyntax *clone() const; /// copy an instance of this Value SnmpSyntax& operator=( SnmpSyntax &val); /// get a printable ASCII value const char *to_string(); /// logical state of object int valid() const; protected: /// contain string representation of object int valid_flag; char output_buffer[INTOUTBUF]; }; #endif