RPG II is a very early and popular version of the
IBM RPG
RPG is a high-level programming language for business applications, introduced in 1959 for the IBM 1401. It is most well known as the primary programming language of IBM's midrange computer product line, including the IBM i operating system. RP ...
programming language.
It was developed in the late 1960s and designed to work on the smallest IBM systems of the time such as the
IBM 1130
The IBM 1130 Computing System, introduced in 1965, was IBM's least expensive computer at that time. A binary 16-bit machine, it was marketed to price-sensitive, computing-intensive technical markets, like education and engineering, succeeding th ...
,
IBM System/3
The IBM System/3 was an IBM midrange computer introduced in 1969, and marketed until 1985. It was produced by IBM Rochester in Minnesota as a low-end business computer aimed at smaller organizations that still used IBM 1400 series computers or u ...
,
System/32
The IBM System/32 (IBM 5320) introduced in January 1975 was a midrange computer with built-in display screen, disk drives, printer, and database report software. It was used primarily by small to midsize businesses for accounting applications. R ...
,
System/34
The IBM System/34 was an IBM midrange computer introduced in 1977. It was withdrawn from marketing in February 1985. It was a multi-user, multi-tasking successor to the single-user System/32. It included two processors, one based on the System/ ...
,
System/36
The IBM System/36 (often abbreviated as S/36) was a midrange computer marketed by IBM from 1983 to 2000 - a multi-user, multi-tasking successor to the System/34.
Like the System/34 and the older System/32, the System/36 was primarily progr ...
. It was however also available for the
System/370
The IBM System/370 (S/370) is a model range of IBM mainframe computers announced on June 30, 1970, as the successors to the System/360 family. The series mostly maintains backward compatibility with the S/360, allowing an easy migration path f ...
, The
Singer System 10
The Singer System Ten was a small-business computer manufactured by the Singer Corporation. The System Ten, introduced in 1970, featured an early form of logical partitioning.
The System Ten was a character-oriented computer, using 6-bit BCD ch ...
, Sperry Univac 90/25, 90/30, 90/40, System 80,
1100 mainframe series and the
Wang VS
Wang Laboratories was a US computer company founded in 1951 by An Wang and G. Y. Chu. The company was successively headquartered in Cambridge, Massachusetts (1954–1963), Tewksbury, Massachusetts (1963–1976), and finally in Lowell, Massachusett ...
Series.
ICL produced versions for its
ICL 2903 system and for
VME/K; and
Burroughs Corporation
The Burroughs Corporation was a major American manufacturer of business equipment. The company was founded in 1886 as the American Arithmometer Company. In 1986, it merged with Sperry UNIVAC to form Unisys. The company's history paralleled many ...
produced an RPG II compiler with database extensions for its
B1700
The Burroughs B1000 Series was a series of mainframe computers, built by the Burroughs Corporation, and originally introduced in the 1970s with continued software development until 1987. The series consisted of three major generations which were t ...
series of computers.
Digital Equipment Corporation
Digital Equipment Corporation (DEC ), using the trademark Digital, was a major American company in the computer industry from the 1960s to the 1990s. The company was co-founded by Ken Olsen and Harlan Anderson in 1957. Olsen was president unt ...
had their own implementation named VAX RPG II for
VAX/VMS
OpenVMS, often referred to as just VMS, is a multi-user, multiprocessing and virtual memory-based operating system. It is designed to support time-sharing, batch processing, transaction processing and workstation
A workstation is a special c ...
systems.
An enhanced version
RPG III appeared in 1978.
It has a number of unusual features, including: an implied processing loop; and that it is a fixed-format programming language, so that programs are difficult to read without a special debugging template.
[
]
Features
RPG II is a fixed-format programming language, which means that code must be placed in exact column locations in order to generate correct results. There are eight different specification types, and separate coding forms are used to write each, and a special debugging template["IBM RPG Debugging Template"]
Computer History Museum used as an aid to read program printouts.
Every RPG II program executes within an implied loop, the program cycle, which applies the program successively to every record of a file - this is documented via a "Logic Flow" diagram on the debugging template.[ Each record (individual punched card) would be compared to each line in the program, which would act upon the record, or not, based upon whether that line had an "indicator" turned "on" or "off" — from a set of logical variables numbered 01–99 for user-defined purposes, or other smaller sets based upon record, field, or report processing functions. Special variables such as UDATE, UYEAR, PAGE, and so forth, are filled when the program begins or when page overflow occurs, even though there is no explicit instruction for these activities. Total calculations and output are done at "total time," after the detail cycle when L1/LR has been set on by fixed logic.
The concept of RPG's program cycle fitted neatly with a cyclical machine that read cards, summarised their contents and prints a result, rather like a ]tabulating machine
The tabulating machine was an electromechanical machine designed to assist in summarizing information stored on punched cards. Invented by Herman Hollerith, the machine was developed to help process data for the 1890 U.S. Census. Later models w ...
. The language was extended to handle other input and output devices and provides a fast and efficient method of programming.
Devices such as the workstation (WORKSTN), the keyboard (KEYBORD), or the console (CONSOLE) do not have a fixed number of records at the beginning of the job and therefore, in order to incorporate the fixed-logic RPG "Last Record" cycle, the LR indicator can be set on with a SETON instruction. LR cannot be set off.
RPG II did not evolve much from the 1977 implementation on the System/34 to 2000 when the Advanced/36
The Advanced/36 was an IBM midrange computer based on an adapted IBM AS/400 hardware and System/36 software. It was marketed from October 1994 to 2000.
Overview
The Advanced/36 is physically smaller than other S/36 offerings due to the use of ...
was discontinued from marketing. Changes that were made from the 1970s version included the IFEQ/IFNE/IFGT/IFGE/IFLT/IFLE and END grouping. Also, the call/parm to be able to call external subroutines. Another change was that for internal subroutines, you no longer had to put SR in columns 7 and 8 of the C (calculation) specs.
Third-party providers sold more than 200 different assembler subroutines that could be used by System/36 and Advanced/36 programmers to exceed RPG II limitations. Some of the limitations of RPG II on the System/3, 32, 34 and 36 including the Advanced/36 was the 64K limit and the number of files you could have in a program. So if you had a lot of programming lines or had large arrays, it was easy to exceed the 64,000 bytes of object code. However, RPG II running on the AS/400 and its follow on iseries and IBM i (those running OS/400 or i5/OS in what is called S/36E (execution environment)) those limits (the 64K bytes and the number of files) were either greatly expanded or removed.
RPGII specifications
In the popular System/36
The IBM System/36 (often abbreviated as S/36) was a midrange computer marketed by IBM from 1983 to 2000 - a multi-user, multi-tasking successor to the System/34.
Like the System/34 and the older System/32, the System/36 was primarily progr ...
implementation of RPG II, there are 8 different specification
types:
:U - Auto Report spec is only required for Auto Report programs.
:H - Header spec is at the top of the program and describes compiler options such as maximum compile size, whether the program is an MRT (Multiple Requestor Terminal) program, and what type of listing is generated when the program is compiled. The object name of the program created is located in columns 75–80; if a source does not have an H spec, the name RPGOBJ is used.
:F - File spec(s) are next, and describes the files used in the program. Files may be disk files (DISK) or may be devices such as a printer (PRINTER), the workstation (WORKSTN), keyboard (KEYBORD), unformatted display (CRT or DISPLAY), or user-defined (SPECIAL). Record size, block size, overflow indicators, and external indicators are described. It is possible that an RPG program will not use any F specs.
:E - Extension spec(s) are next, and describe arrays and tables, which may be prefetched from disk files (an Input table), drawn from constants placed at the end of the source between ** and /* symbols, or built from calculations.
:L - Line Counter spec(s) are next, and if present, describe the form to be printed. It defines the number of lines in a page and the positions where printing begins and ends.
:I - Input specs are next, and describe the data areas within files. RPG II permits redefinition of data areas so that a field named FLDA might occupy the same area as an array AR that contains 8 elements of 1 character each. Non-record areas such as data structures can be described. Depending on the values of the input record, indicators may be conditioned.
:C - Calculation spec(s) are next. Total fields may be described and accumulated. Complex computations and string manipulations are possible. Indicators may be conditioned.
:O - Output specifications, which describe the output record in terms of fields and output positions.
A ninth was added later in 1977:["IBM System/3 Model 8, Model 10, Model 12, and Model 15 RPG II Compilers"](_blank)
IBM Program Product Specifications, November 1977, p. 3
:T - Telecommunications
''Operation codes'' appear in columns 28–32 of an RPG-II calculation specification.
# CALL/PARM was added to RPG II with Release 6.0 (also known as the VASP).
CHAIN retrieves the record in the indexed file named in Factor 2 that matches the exact key specified by the value in Factor 1.
SETLL causes the index pointer for the file named in Factor 2 to be positioned at the location specified by the value in Factor 1.
SORTA causes the named array to be sorted in place; that is, the elements appear in order.
Z-SUB calculates Factor 2 with opposite sign and moved to result field.
XFOOT causes an array to be summed and the result moved to result field.
MVR must follow a DIV operation. The integer remainder of the DIV operation is placed in the result field. MVR following the DIV operation for "56 divided by 3" would place the value 2 in the result field.
Indicators
Indicators are either 'set' or not - so they are effectively a built-in series of "flags" or boolean data type
In computer science, the Boolean (sometimes shortened to Bool) is a data type that has one of two possible values (usually denoted ''true'' and ''false'') which is intended to represent the two truth values of logic and Boolean algebra. It is name ...
s.
* Standard:
:: 01 02 03 04 05 06 07 08 09 10 11 12 13 14 15 16 17 18 19
:: 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39
:: 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59
:: 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79
:: 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99
* Halt Indicators:
:: H1 H2 H3 H4 H5 H6 H7 H8 H9
* Matching Indicators:
:: M1 M2 M3 M4 M5 M6 M7 M8 M9 MR
* Control-Level Indicators:
:: L0 L1 L2 L3 L4 L5 L6 L7 L8 L9
* Command Key Indicators:
:: KA KB KC KD KE KF KG KH KI KJ KK KL KM KN KP KQ KR KS KT KU KV KW KX KY
:: These indicators refer to command keys 1 to 24, in that order. Note that there is no KO indicator.
* First Cycle Indicator (1st Page, mainly used for printer files):
:: 1P
* Last Record Indicator:
:: LR
* Overflow Indicators:
:: OA OB OC OD OE OF OG OV
* External Indicators:
:: U1 U2 U3 U4 U5 U6 U7 U8
Sample code
F***************************************************************
F* THIS PROGRAM READS THE CONTENTS OF AN INVOICE HEADER FILE
F* AND PRINTS THE INVOICES PROCESSED FOR THE DATE SET IN THE
F* LOCAL DATA AREA. THERE ARE LEVEL BREAKS AND TOTALS FOR
F* EACH STORE.
F***************************************************************
F*
FINVHDR IP F 62 DISK
FPRINTER O F 132 OF PRINTER
IINVHDR NS 01 1NC
I 1 3 STORE L1
I 4 13 INVNO
I 14 20 CUSTNO
I 21 45 STNAM
I 46 53 INVDAT
I 54 622TOTINV
I UDS
I 1 8 RPTDAT
C 01 INVDAT COMP RPTDAT 11
C 01 11 ADD TOTINV L1TOT 92
C 01 11 ADD TOTINV LRTOT 92
OPRINTER H 101 1P
O OR OF
O PAGE Z 106
O 102 'PAGE'
O 59 'VERY BIG'
O 72 'STORES, INC.'
O UDATE Y 17
O 8 'RUN DATE'
O H 1 1P
O OR OF
O 73 'DAILY SALES BY STORE'
O H 2 1P
O OR OF
O RPTDAT 83
O 63 'FOR DATE:'
O H 1 1P
O OR OF
O 6 'STORE'
O 18 'INVOICE'
O 28 'CUSTOMER'
O 58 'CUSTOMER'
O 78 'INVOICE'
O H 2 1P
O OR OF
O 6 'NUMBER'
O 18 'NUMBER'
O 28 'NUMBER'
O 58 'NAME'
O 78 'TOTAL'
O D 0 L1
O STORE 6
O D 1 01 11
O INVNO 18
O CUSTNO 28
O STNAM 58
O TOTINV1B 78
O T 1 L1
O 45 'STORE TOTAL...'
O L1TOT 1B 78
O T 1 LR
O 45 'GRAND TOTAL...'
O LRTOT 1 78
References
{{reflist
External links
System/36-Compatible RPG II - User’s Guide and Reference
Wiki Midrange
High-level programming languages
Procedural programming languages
RPG II
Programming languages created in the 1960s