//%LICENSE//////////////////////////////////////////////////////////////// // // Licensed to The Open Group (TOG) under one or more contributor license // agreements. Refer to the OpenPegasusNOTICE.txt file distributed with // this work for additional information regarding copyright ownership. // Each contributor licenses this file to you under the OpenPegasus Open // Source License; you may not use this file except in compliance with the // License. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the "Software"), // to deal in the Software without restriction, including without limitation // the rights to use, copy, modify, merge, publish, distribute, sublicense, // and/or sell copies of the Software, and to permit persons to whom the // Software is furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. // IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY // CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, // TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE // SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // ////////////////////////////////////////////////////////////////////////// // //%///////////////////////////////////////////////////////////////////////////// #ifndef Pegasus_CIMDateTime_h #define Pegasus_CIMDateTime_h #include #include #include PEGASUS_NAMESPACE_BEGIN struct CIMDateTimeRep; class CMPISCMOUtilities; /** The CIMDateTime class represents the CIM datetime data type as a C++ class CIMDateTime. A CIM datetime may contain a time stamp or an interval. CIMDateTime is an intrinsic CIM data type that represents the time as a string with a fixed length. 
    A time stamp has the following form:
    yyyymmddhhmmss.mmmmmmsutc

    Where

    yyyy = year (1-9999)
    mm = month (1-12)
    dd = day (1-31)
    hh = hour (0-23)
    mm = minute (0-59)
    ss = second (0-59)
    mmmmmm = microseconds
    s = '+' or '-' to represent the Coordinated Universal Time (UTC) sign
    utc = offset from Coordinated Universal Time (UTC)
        (same as Greenwich Mean Time(GMT) offset)

    An interval has the following form:

    ddddddddhhmmss.mmmmmm:000

    Where

    dddddddd = days
    hh = hours (0-23)
    mm = minutes (0-59)
    ss = seconds (0-59)
    mmmmmm = microseconds
Note: Intervals always end in ":000". This distinguishes intervals from time stamps. CIMDateTime objects are constructed from String objects or from other CIMDateTime objects. Character strings must be exactly twenty-five characters in length and conform to either the time stamp or interval format. CIMDateTime objects that are not explicitly initialized will be implicitly initialized with a zero time interval: 00000000000000.000000:000 The following table shows what arithmetic operations are allowed between CIMDateTime types. The entries in the last four columns define the type of the result when the operation, specified in the column header, is performed on operands, of the types specified in the first two columns. 
    LHS - left hand side    TS - time stamp  int - integer
    RHS - right hand side   IV - interval
    X - operation not allowed between types

    LHS     RHS    +       -       *        /
    _____________________________________________
    TS      TS     X       IV      X       X
    TS      IV     TS      TS      X       X
    TS      int    X       X       X       X
    IV      IV     IV      IV      X       int
    IV      TS     X       X       X       X
    IV      int    X       X       IV      IV
    int     TS     X       X       X       X
    int     IV     X       X       X       X
The relational operators may only operate on two operands of the same type, i.e. two time stamps or two intervals. */ class PEGASUS_COMMON_LINKAGE CIMDateTime { public: #ifdef PEGASUS_USE_EXPERIMENTAL_INTERFACES /** Wildcard parameter for component-based initializer member functions. */ static const Uint32 WILDCARD; #endif /* PEGASUS_USE_EXPERIMENTAL_INTERFACES */ /** Creates a new CIMDateTime object with a zero interval value. */ CIMDateTime(); /** Creates a CIMDateTime object from another CIMDateTime object. @param x Specifies the name of the CIMDateTime object to copy. */ CIMDateTime(const CIMDateTime& x); /** Creates a new CIMDateTime object from a string constant representing the CIM DateTime formatted datetime. See the class documentation for CIMDateTime for the definition of the input string for absolute and interval datetime. @param str String object containing the CIMDateTime formatted string. This must contain twenty-five characters. @exception InvalidDateTimeFormatException If the input string is not formatted correctly. */ CIMDateTime(const String& str); /** Creates a CIMDateTime object from an integer. @param usec For a time stamp, the number of microseconds since the epoch 0/0/0000 (12 am Jan 1, 1BCE); For an interval, the number of microseconds in the interval. @param isInterval Specifies whether the CIMDateTime object is to be created as an interval value (true) or a time stamp (false). @exception DateTimeOutOfRangeException If the microSec value is too large (greater than 317,455,200,000,000,000 for a time stamps or 8,640,000,000,000,000,000 for an interval). @exception InvalidDateTimeFormatException If the CIMDateTime object is not formed correctly. */ CIMDateTime(Uint64 usec, Boolean isInterval); #ifdef PEGASUS_USE_EXPERIMENTAL_INTERFACES /** Create datetime time stamp from components. @param year zero-based year number (or CIMDateTime::WILDCARD) @param month number from 1 to 12 (or CIMDateTime::WILDCARD) @param day one-based day of the month (or CIMDateTime::WILDCARD) @param hours a number from 0 to 23 (or CIMDateTime::WILDCARD) @param minutes a number from 0 to 59 (or CIMDateTime::WILDCARD) @param seconds a number from 0 to 59 (or CIMDateTime::WILDCARD) @param microseconds a number from 0 to 999999 @param numSignificantMicrosecondDigits the number of decimal digits of the microseconds parameter (from left to right) that are significant (all others are wildcarded) or six if they are all significant. @param UTF offset in minutes (negative or positive). @exception DateTimeOutOfRangeException. */ CIMDateTime( Uint32 year, Uint32 month, Uint32 day, Uint32 hours, Uint32 minutes, Uint32 seconds, Uint32 microseconds, Uint32 numSignificantMicrosecondDigits, Sint32 utcOffset); /** Create datetime interval from components. @param days a number from 0 to 99999999 (or CIMDateTime::WILDCARD) @param hours a number from 0 to 23 (or CIMDateTime::WILDCARD) @param minutes a number from 0 to 59 (or CIMDateTime::WILDCARD) @param seconds a number from 0 to 59 (or CIMDateTime::WILDCARD) @param microseconds a number from 0 to 999999 @param numSignificantMicrosecondDigits the number of decimal digits of the microseconds parameter (from left to right) that are significant (all others are wildcarded) or six if they are all significant. @exception DateTimeOutOfRangeException. */ CIMDateTime( Uint32 days, Uint32 hours, Uint32 minutes, Uint32 seconds, Uint32 microseconds, Uint32 numSignificantMicrosecondDigits); #endif /* PEGASUS_USE_EXPERIMENTAL_INTERFACES */ /** CIMDateTime destructor. */ ~CIMDateTime(); /** Assigns one instance of the CIMDateTime object to another. @param x The CIMDateTime Object to assign to the CIMDateTime object. For example, you can assign the d1 CIMDateTime instance to the d2 CIMDateTime instance. 
            CIMDateTime d1;
            CIMDateTime d2 = "00000000000000.000000:000";
            d1 = d2;
Therefore, d1 is assigned the same "00000000000000.000000:000" value as d2. */ CIMDateTime& operator=(const CIMDateTime& x); /** Returns a string representing the DateTime value of the CIMDateTime object. @return String representing the DateTime value. */ String toString() const; /** Sets the datetime value from the input parameter. @param str String containing the new value in the datetime format (specified in the CIMDateTime class description). For example, the following sets the date to December 24, 1999 and time to 12:00 P.M. EST. 
        CIMDateTime dt;
        dt.set("19991224120000.000000-300");
@exception InvalidDateTimeFormatException If the datetime String is not formatted correctly. */ void set(const String & str); #ifdef PEGASUS_USE_EXPERIMENTAL_INTERFACES /** Sets the datetime timestamp from individual components. @param year zero-based year number (or CIMDateTime::WILDCARD) @param month number from 1 to 12 (or CIMDateTime::WILDCARD) @param day one-based day of the month (or CIMDateTime::WILDCARD) @param hours a number from 0 to 23 (or CIMDateTime::WILDCARD) @param minutes a number from 0 to 59 (or CIMDateTime::WILDCARD) @param seconds a number from 0 to 59 (or CIMDateTime::WILDCARD) @param microseconds a number from 0 to 999999 @param UTF offset in minutes (negative or positive). @param numSignificantMicrosecondDigits the number of decimal digits of the microseconds parameter (from left to right) that are significant (all others are wildcarded) or six if they are all significant. @exception DateTimeOutOfRangeException. */ void setTimeStamp( Uint32 year, Uint32 month, Uint32 day, Uint32 hours, Uint32 minutes, Uint32 seconds, Uint32 microseconds, Uint32 numSignificantMicrosecondDigits, Sint32 utcOffset); /** Create datetime interval from components. @param days a number from 0 to 99999999 @param hours a number from 0 to 23 (or CIMDateTime::WILDCARD) @param minutes a number from 0 to 59 (or CIMDateTime::WILDCARD) @param seconds a number from 0 to 59 (or CIMDateTime::WILDCARD) @param microseconds a number from 0 to 999999 @param numSignificantMicrosecondDigits the number of decimal digits of the microseconds parameter (from left to right) that are significant (all others are wildcarded) or six if they are all significant. @exception DateTimeOutOfRangeException. */ void setInterval( Uint32 days, Uint32 hours, Uint32 minutes, Uint32 seconds, Uint32 microseconds, Uint32 numSignificantMicrosecondDigits); #endif /* PEGASUS_USE_EXPERIMENTAL_INTERFACES */ /** Clears the datetime class object. The date time is set to a zero interval value. */ void clear(); /** Returns the current local time in a CIMDateTime object. @return CIMDateTime object containing the current local date and time. */ static CIMDateTime getCurrentDateTime(); /** Computes the difference in microseconds between two CIMDateTime time stamps or two CIMDateTime intervals. @param startTime Contains the start datetime. @param finishTime Contains the finish datetime. @return An integer that contains the difference between the two datetime values (in microseconds). @exception InvalidDateTimeFormatException If arguments are not the same type of CIMDateTime. */ static Sint64 getDifference(CIMDateTime startTime, CIMDateTime finishTime); /** Checks whether the datetime is an interval. @return True if the datetime is an interval value, false otherwise. */ Boolean isInterval() const; /** Checks whether the datetime is an interval. (This non-const form is maintained for compatibility.) @return True if the datetime is an interval value, false otherwise. */ Boolean isInterval(); #ifdef PEGASUS_USE_EXPERIMENTAL_INTERFACES /** Checks whether the datetime is a timestamp. @return True if so. */ Boolean isTimeStamp() const; #endif /* PEGASUS_USE_EXPERIMENTAL_INTERFACES */ /** Compares the CIMDateTime object to another CIMDateTime object for equality. @param x CIMDateTime object to be compared. @return true if the two CIMDateTime objects are equal, false otherwise @exception TypeMismatchException If arguments are of different types. */ Boolean equal(const CIMDateTime& x) const; /** Converts a CIMDateTime object to its microsecond representation. @return Number of microseconds since the epoch (for time stamps) or in a span of time (for intervals). @exception DateTimeOutOfRangeException If conversion to UTC (an internal operation) causes an overflow condition. */ Uint64 toMicroSeconds() const; /** Adds two CIMDateTime objects and returns a CIMDateTime object that represents the sum. @param x operand on the RHS of the operator @return A CIMDateTime object that is the result of adding the calling object to the RHS operand @exception DateTimeOutOfRangeException If the operation causes an overflow condition. @exception TypeMismatchException If the operands are not type compatible (see table of operations). */ CIMDateTime operator+(const CIMDateTime& x) const; /** Adds two CIMDateTime objects, returns the sum and changes the value of the calling CIMDateTime object to match the return value. @param x operand on the RHS of the operator @return A CIMDateTime object that is the result of adding the calling object to the RHS operand @exception DateTimeOutOfRangeException If the operation causes an overflow condition. @exception TypeMismatchException If the operands are not type compatible (see table of operations). */ CIMDateTime & operator+=(const CIMDateTime& x); /** Subtracts one CIMDateTime object from another and returns a CIMDateTime object that represents the difference. @param x operand on the RHS of the operator @return A CIMDateTime object that is the result of subtracting the the RHS object from the calling. @exception DateTimeOutOfRangeException If the operation causes an underflow condition or conversion to UTC (an internal operation) causes an overflow condition. @exception TypeMismatchException If the operands are not type compatible (see table of operations). */ CIMDateTime operator-(const CIMDateTime& x) const; /** Subtracts one CIMDateTime object from another, returns the difference and changes the value of the calling CIMDateTime object to match the return value. @param x operand on the RHS of the operator @return A CIMDateTime object that is the result of subtracting the object on the RHS from the calling object. @exception DateTimeOutOfRangeException If the operation causes an underflow condition or conversion to UTC (an internal operation) causes an overflow condition. @exception TypeMismatchException If the operands are not type compatible (see table of operations). */ CIMDateTime & operator-=(const CIMDateTime& x); /** Multiplies a CIMDateTime object by an integer and returns a CIMDateTime object that represents the product. @param x integer operand on the RHS of the operator @return A CIMDateTime object that is the result of multiplying the calling object by the RHS operand. @exception DateTimeOutOfRangeException If the operation causes an overflow condition. @exception TypeMismatchException If the operands are not type compatible (see table of operations). */ CIMDateTime operator*(Uint64 x) const; /** Multiplies a CIMDateTime object by an integer, returns the product and changes the value of the calling object to match the returned product. @param x integer operand on the RHS of the operator @return A CIMDateTime object that is the result of multiplying the calling object by the RHS operand. @exception DateTimeOutOfRangeException If the operation causes an overflow condition. @exception TypeMismatchException If the operands are not type compatible (see table of operations). */ CIMDateTime & operator*=(Uint64 x); /** Divides a CIMDateTime object by an integer and returns a CIMDateTime object that represents the quotient. @param num integer operand on the RHS of the operator @return A CIMDateTime object that is the result of dividing the calling object by the RHS operand. @exception DateTimeOutOfRangeException If conversion to UTC (an internal operation) causes an overflow condition. @exception TypeMismatchException If the CIMDateTime object does not hold an interval value (see table of operations). @exception Exception if param num is zero. */ CIMDateTime operator/(Uint64 num) const; /** Divides a CIMDateTime object by an integer, returns the quotient and changes the value of the calling object to match the returned quotient. @param num integer operand on the RHS of the operator @return A CIMDateTime object that is the result of dividing the calling object by the RHS operand. @exception DateTimeOutOfRangeException If conversion to UTC (an internal operation) causes an overflow condition. @exception TypeMismatchException If the CIMDateTime object does not hold an interval value (see table of operations). @exception Exception if param num is zero. */ CIMDateTime & operator/=(Uint64 num); /** Divides a CIMDateTime object by another CIMDateTime object and returns an integer quotient. @param cdt CIMDateTime object on the RHS of the operator @return An integer that is the result of dividing the number of microseconds represented by the calling CIMDateTime object by the number of microseconds represented by the CIMDateTime object on the RHS of the operator. @exception DateTimeOutOfRangeException If conversion to UTC (an internal operation) causes an overflow condition. @exception TypeMismatchException If the operands are not type compatible (see table of operations). */ Uint64 operator/(const CIMDateTime& cdt) const; /** Compare two CIMDateTime objects and returns true if the LHS is less than the RHS. @param x operand on the RHS of the operator @return true if the LHS is less than the RHS, false otherwise. @exception DateTimeOutOfRangeException If conversion to UTC (an internal operation) causes an overflow condition. @exception TypeMismatchException if operands are not of the same type. */ Boolean operator<(const CIMDateTime& x) const; /** Compare two CIMDateTime objects and returns true if the LHS is less than or equal to the RHS. @param x operand on the RHS of the operator @return true if the LHS is less than or equal to the RHS, false otherwise. @exception DateTimeOutOfRangeException If conversion to UTC (an internal operation) causes an overflow condition. @exception TypeMismatchException if operands are not of the same type. */ Boolean operator<=(const CIMDateTime& x) const; /** Compare two CIMDateTime objects and returns true if the LHS is greater than the RHS. @param x operand on the RHS of the operator @return true if the LHS is greater than the RHS, false otherwise. @exception DateTimeOutOfRangeException If conversion to UTC (an internal operation) causes an overflow condition. @exception TypeMismatchException if operands are not of the same type. */ Boolean operator>(const CIMDateTime & x) const; /** Compare two CIMDateTime objects and returns true if the LHS is greater than or equal to the RHS. @param x operand on the RHS of the operator @return true if the LHS is greater than or equal to the RHS, false otherwise. @exception DateTimeOutOfRangeException If conversion to UTC (an internal operation) causes an overflow condition. @exception TypeMismatchException if operands are not of the same type. */ Boolean operator>=(const CIMDateTime & x) const; /** Compare two CIMDateTime objects and returns true if the LHS is not equal to the RHS. @param x operand on the RHS of the operator @return true if the LHS is not equal to RHS, false otherwise. @exception DateTimeOutOfRangeException If conversion to UTC (an internal operation) causes an overflow condition. @exception TypeMismatchException if operands are not of the same type. */ Boolean operator!=(const CIMDateTime & x) const; private: CIMDateTimeRep* _rep; CIMDateTime(CIMDateTimeRep*); CIMDateTime(const CIMDateTimeRep*); friend class CIMBuffer; friend class SCMOClass; friend class SCMODump; friend class SCMOInstance; friend class CMPISCMOUtilities; }; /** Compares two CIMDateTime objects and returns true if they represent the same time or length of time. @param x one of the CIMDateTime objects to be compared @param y one of the CIMDateTime objects to be compared @return true if the two objects passed in represent the same time or length of time, false otherwise. */ PEGASUS_COMMON_LINKAGE Boolean operator==( const CIMDateTime& x, const CIMDateTime& y); #define PEGASUS_ARRAY_T CIMDateTime # include #undef PEGASUS_ARRAY_T PEGASUS_NAMESPACE_END #endif /* Pegasus_CIMDateTime_h */