Jul 252018

Date manipulation routines for ‘C’. | |||
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File Name | File Size | Zip Size | Zip Type |

C_DATES.C | 14208 | 3836 | deflated |

C_DATES.DOC | 8320 | 2968 | deflated |

C_DATES.H | 1280 | 280 | deflated |

C_DATES.LIB | 4608 | 1979 | deflated |

DAYS.C | 4352 | 1388 | deflated |

DAYS.EXE | 9594 | 5836 | deflated |

NDATE.C | 4224 | 1422 | deflated |

NDATE.EXE | 9608 | 5950 | deflated |

TPCREAD.ME.HTML | 294 | 221 | deflated |

# Download File C_DATES.ZIP Here

## Contents of the C_DATES.DOC file

- Hi there -

Finally, there is a quick and easy way to manipulate dates in

the "C" programming language; that is what this package is all

about.

The "C" programming language is, in this authors humble

opinion, the best programming language ever invented by man. Among

its weaker points, however, is its inability ( at least in its

most basic form ) to handle any sort of date variable. This is an

important capability in most business applications, which still

constitutes the majority of the programming effort in America, and

yet there hasn't been ( until now ) an acceptable way of dealing

with this problem. This has always struck me as somewhat of an

injustice to the power of "C", so I decided to write a library for

the general public that would "do the trick".

Manipulating dates in an effective manner involves converting

what we normally think of as a "date" into a single number that

represents the number of days since some arbitrary point in time.

For these routines, that arbitrary point in time is simply January

0, year 0000. January 2nd, year 0000, for example, would be

represented as the number 2, January 3rd, year 0000, as the number

3, and so on. Once the conversion is performed, calculating such

things as the day of the week, or the number of days between two

dates, becomes possible.

This numerical representation of a date is called the

"julian" representation, and the proper name of the equivalent

colloquial date, ie: one expressed in terms of the month, day and

year, is called the "gregorian" representation. These names are

worth remembering, as the documentation in this package refers to

all dates as either one or the other.

All of the routines in this library, with the exception of

the actual conversion routines themselves, manipulate only the

julian form of the date, the idea being that to manipulate a date,

the user first converts it to a number, performs the required

calculations, then converts it back to the readable ( gregorian )

form.

There are only nine functions in this library, three of which

are implemented as rather trivial macros. With these nine, it is

hoped that the user can accomplish almost any kind of date

calculation required. The names and a brief description of these

functions are as follows:

compiled functions:

======== =========

gtoj - to convert gregorian dates to julian dates

jtog - to convert julian dates to gregorian dates

dow - to find the numerical day of the week from a julian

date

fulldte - to express a julian date as a verbose gregorian date

daycnt - to compute the days between two dates, with or without

weekends

newdate - to compute a new date by adding or subtracting

weekdays, weekends, or both

macro functions:

===== =========

suncnt - to compute the number of Sundays occurring between two

julian dates

satcnt - to compute the number of Saturdays occurring between

two julian dates

wkend - to find the week-ending date ( ie: the date of the

following Saturday ) for a given julian date

I have not included any of the fancier stuff, such as perhaps

a macro that calculates the date for Thanksgiving for any given

year, for that, I think, is best left up to the user as an

exercise.

For a full description of each of the above compiled

functions, please refer to the source file, "C_dATES.C", where

each particular module's code is prefaced by a collection of C

comment lines containing the associated usage summary.

The macro functions are documented at the end of this

document, in what I have called "Appendix A".

These routines can handle any date, regardless of

chronological magnitude, from January 1st, year 0000 to December

31st, 9999, and the source ( included ) for these routines can be

re-compiled using any ANSI C compiler, on virtually any machine.

The jtog and fulldte functions, however, assume an ASCII based

machine, but the source can easily be modified to employ almost

any type of character set ( with maybe a little forethought... ).

The actual object module library that is included with this

package, "C_dATES.LIB", was created using the Microsoft C

compiler, version 4.0. There is no particular reason for choosing

this particular implementation, other than the fact that it is the

one that I use all the time. ( It is actually quite good )

With this package I have also included two example programs,

written in MSC v 4.0, that employ most of the functions contained

in this library, so that the user can get a feel for some of the

practical applications of these functions. The name of the first

program is "DAYS.EXE", and all it does, really, is compute the

days that exist between the two dates input on the command line.

The second program, called "DATE.EXE", simply returns a new date

that is computed using a start date and adding a number of days of

a specified type. For an more detailed explanation of their

usage, simply type in their respective names with no parameters.

Should you have any questions, comments, suggestions,

contributions, expletives, marriage proposals, or hate mail, I can

be reached at my home address, 2841 Clydedale, apt #345, Dallas,

TX 75220, ( via U.S. mail! ) or alternatively, you can leave a

message for me at one or more of the following ( excellent )

public BBS's:

DOUBLE D (214) 492-8090 1200-N-8-1

SUPERCOMPUTER (214) 270-6755 1200-N-8-1

INSIDE TRACK (214) 422-4772 2400-N-8-1

You will need to know my name; it's James Seed...

A P P E N D I X A

===================

- Macro Function Usage -

====================

suncnt( julian1, julian2 ) - this function returns the number of

Sundays that exist between the two

julian dates input, expressed as a

signed long integer. The input

types are as follows:

julian1 - unsigned long integer

julian date

julian2 - unsigned long integer

julian date

satcnt( julian1, julian2 ) - this function returns the number of

Saturdays that exist between the

two julian dates input, expressed

as a signed long integer. The

input types are as follows:

julian1 - unsigned long integer

julian date

julian2 - unsigned long integer

julian date

wkend( julian ) - this function finds the week-ending date,

expressed as an unsigned long integer julian

Saturday, that represents the week that

includes the unsigned long julian date input.

*** IMPORTANT NOTE ***

The author assumes no responsibility for any loss or damage

arising out of the use, misuse, or inability to use this product.

Finally, there is a quick and easy way to manipulate dates in

the "C" programming language; that is what this package is all

about.

The "C" programming language is, in this authors humble

opinion, the best programming language ever invented by man. Among

its weaker points, however, is its inability ( at least in its

most basic form ) to handle any sort of date variable. This is an

important capability in most business applications, which still

constitutes the majority of the programming effort in America, and

yet there hasn't been ( until now ) an acceptable way of dealing

with this problem. This has always struck me as somewhat of an

injustice to the power of "C", so I decided to write a library for

the general public that would "do the trick".

Manipulating dates in an effective manner involves converting

what we normally think of as a "date" into a single number that

represents the number of days since some arbitrary point in time.

For these routines, that arbitrary point in time is simply January

0, year 0000. January 2nd, year 0000, for example, would be

represented as the number 2, January 3rd, year 0000, as the number

3, and so on. Once the conversion is performed, calculating such

things as the day of the week, or the number of days between two

dates, becomes possible.

This numerical representation of a date is called the

"julian" representation, and the proper name of the equivalent

colloquial date, ie: one expressed in terms of the month, day and

year, is called the "gregorian" representation. These names are

worth remembering, as the documentation in this package refers to

all dates as either one or the other.

All of the routines in this library, with the exception of

the actual conversion routines themselves, manipulate only the

julian form of the date, the idea being that to manipulate a date,

the user first converts it to a number, performs the required

calculations, then converts it back to the readable ( gregorian )

form.

There are only nine functions in this library, three of which

are implemented as rather trivial macros. With these nine, it is

hoped that the user can accomplish almost any kind of date

calculation required. The names and a brief description of these

functions are as follows:

compiled functions:

======== =========

gtoj - to convert gregorian dates to julian dates

jtog - to convert julian dates to gregorian dates

dow - to find the numerical day of the week from a julian

date

fulldte - to express a julian date as a verbose gregorian date

daycnt - to compute the days between two dates, with or without

weekends

newdate - to compute a new date by adding or subtracting

weekdays, weekends, or both

macro functions:

===== =========

suncnt - to compute the number of Sundays occurring between two

julian dates

satcnt - to compute the number of Saturdays occurring between

two julian dates

wkend - to find the week-ending date ( ie: the date of the

following Saturday ) for a given julian date

I have not included any of the fancier stuff, such as perhaps

a macro that calculates the date for Thanksgiving for any given

year, for that, I think, is best left up to the user as an

exercise.

For a full description of each of the above compiled

functions, please refer to the source file, "C_dATES.C", where

each particular module's code is prefaced by a collection of C

comment lines containing the associated usage summary.

The macro functions are documented at the end of this

document, in what I have called "Appendix A".

These routines can handle any date, regardless of

chronological magnitude, from January 1st, year 0000 to December

31st, 9999, and the source ( included ) for these routines can be

re-compiled using any ANSI C compiler, on virtually any machine.

The jtog and fulldte functions, however, assume an ASCII based

machine, but the source can easily be modified to employ almost

any type of character set ( with maybe a little forethought... ).

The actual object module library that is included with this

package, "C_dATES.LIB", was created using the Microsoft C

compiler, version 4.0. There is no particular reason for choosing

this particular implementation, other than the fact that it is the

one that I use all the time. ( It is actually quite good )

With this package I have also included two example programs,

written in MSC v 4.0, that employ most of the functions contained

in this library, so that the user can get a feel for some of the

practical applications of these functions. The name of the first

program is "DAYS.EXE", and all it does, really, is compute the

days that exist between the two dates input on the command line.

The second program, called "DATE.EXE", simply returns a new date

that is computed using a start date and adding a number of days of

a specified type. For an more detailed explanation of their

usage, simply type in their respective names with no parameters.

Should you have any questions, comments, suggestions,

contributions, expletives, marriage proposals, or hate mail, I can

be reached at my home address, 2841 Clydedale, apt #345, Dallas,

TX 75220, ( via U.S. mail! ) or alternatively, you can leave a

message for me at one or more of the following ( excellent )

public BBS's:

DOUBLE D (214) 492-8090 1200-N-8-1

SUPERCOMPUTER (214) 270-6755 1200-N-8-1

INSIDE TRACK (214) 422-4772 2400-N-8-1

You will need to know my name; it's James Seed...

A P P E N D I X A

===================

- Macro Function Usage -

====================

suncnt( julian1, julian2 ) - this function returns the number of

Sundays that exist between the two

julian dates input, expressed as a

signed long integer. The input

types are as follows:

julian1 - unsigned long integer

julian date

julian2 - unsigned long integer

julian date

satcnt( julian1, julian2 ) - this function returns the number of

Saturdays that exist between the

two julian dates input, expressed

as a signed long integer. The

input types are as follows:

julian1 - unsigned long integer

julian date

julian2 - unsigned long integer

julian date

wkend( julian ) - this function finds the week-ending date,

expressed as an unsigned long integer julian

Saturday, that represents the week that

includes the unsigned long julian date input.

*** IMPORTANT NOTE ***

The author assumes no responsibility for any loss or damage

arising out of the use, misuse, or inability to use this product.

July 25, 2018
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