, 4 min read
Comparing GnuCOBOL to IBM COBOL
When I ran the n-queens problem in COBOL using GnuCOBOL I was a little bit surprised how slow the resulting program was -- it was slower than the equivalent PHP program. Therefore I installed the IBM COBOL for Linux compiler on the same machine and compared performance, see Installing IBM COBOL for Linux on Arch Linux. The IBM compiler generated program was 17-times faster!
Here are the results in seconds (real) on an Intel NUC.
Program | runtime |
---|---|
GnuCOBOL | 6.33 |
IBM COBOL | 0.37 |
I reproduce the previous results Performance Comparison C vs. Java vs. Javascript vs. LuaJIT vs. PyPy vs. PHP vs. Python vs. Perl:
Language | NUC | Ryzen | Odroid |
---|---|---|---|
C | 0.17 | 0.15 | 0.44 |
Java 1.8.0 | 0.31 | 0.22 | 108.17 |
node.js 16.4 | 0.34 | 0.21 | 1.67 |
LuaJIT | 0.49 | 0.33 | 2.06 |
PyPy3 7.3.5 | 1.57 | 0.86 | n/a |
PHP 8 | 3.23 | 2.35 | 42.38 |
Python 3.9.6 | 12.29 | 7.65 | 168.17 |
Perl 5.34 | 25.87 | 21.14 | 209.47 |
I compiled the COBOL program with GnuCOBOL using cobc -O2 -x
, and for IBM COBOL I used cob2 -q'OPTIMIZE(FULL)'
. Running the two programs is:
$ time xdamcnt 1 12
So the GnuCOBOL program is slower than almost everything except Python and Perl. While the IBM COBOL is two times slower than the C program and in the range of Java and JavaScript, but still faster than LuaJIT. The slow performance of GnuCOBOL was not expected, while the performance of IBM COBOL is inline with expectations.
Some notes on comparison:
- Performancewise IBM COBOL is a welcome alternative to GnuCOBOL. On the other hand IBM COBOL is 32-bit with all its shortcomings. As I remarked in Memory Limitations with IBM Enterprise COBOL Compiler: No big-data with IBM COBOL.
- GnuCOBOL is way more permissive with its input format than IBM COBOL, which is still very mainframe oriented.
- Also GnuCOBOL offers an easier way to handle command-line arguments. Command-line handling in IBM COBOL is a little bit brittle, although it is not in any way difficult.
- GnuCOBOL runs on ARM, while IBM COBOL is x86 only. So IBM COBOL will not run on Graviton or Ampere.
Here is the COBOL program used for the tests:
IDENTIFICATION DIVISION.
PROGRAM-ID. xdamcnt.
AUTHOR. Elmar Klausmeier.
DATE-WRITTEN. 03-Oct-2021.
*
* entworfen am 31.03.1985
* geschrieben am 02.04.1985
* revidiert am 18.04.1985
* Umgeschrieben auf COBOL: 03.10.2021
*
* 2 4 6 8 10 12 14
* 1 0 0 2 10 4 40 92 352 724 2680 14200 73712 365596
*
DATA DIVISION.
WORKING-STORAGE SECTION.
77 i pic 9(8) comp-5.
77 j pic 9(8) comp-5.
77 k pic 9(8) comp-5.
77 N pic 9(8) comp-5.
77 N2 pic 9(8) comp-5.
77 l pic s9(8) comp-5.
77 z pic 9(8) comp-5.
77 configOKret pic 9(8) comp-5.
01 A_vector.
10 A pic 9(8) comp-5 occurs 100 value 0.
77 istart pic 9(8) comp-5 VALUE 1.
77 iend pic 9(8) comp-5 VALUE 0.
77 cnt pic 9(8) comp-5 VALUE 0.
77 slen pic 9(8) comp-5 value 0.
77 argc pic 9(8) comp-5 VALUE 0.
77 argv PIC X(100) VALUE SPACES.
LINKAGE SECTION.
*01 argc pic s9(8) comp-5.
*01 argv.
* 02 argvTable OCCURS 1 TO 100 TIMES DEPENDING ON argc.
* 03 pargv pointer.
*01 argviStr pic x(8).
PROCEDURE DIVISION.
*PROCEDURE DIVISION USING BY VALUE argc BY REFERENCE argv.
Pmain section.
DISPLAY "N-Queens Problem in COBOL".
display ' 2 4 6 8 10 12 14'.
display '1 0 0 2 10 4 40 92 352 724 2680 14200 73712 365596'.
* GnuCOBOL command line handling
ACCEPT argc from ARGUMENT-NUMBER.
display "argc=", argc.
if argc >= 1 then
ACCEPT iend FROM ARGUMENT-VALUE.
if iend <= 0 or iend > 14 then
move 10 to iend
end-if.
if argc >= 2 then
move iend to istart
accept iend from argument-value
end-if.
* IBM COBOL command line handling
* display "argc=", argc.
* if argc > 1 then
* set address of argviStr to pargv(2)
* move zero to slen
* inspect argviStr tallying slen for characters
* before initial X"00"
* move argviStr(1:slen) to iend
* if iend <= 0 or iend > 14 then
* move 10 to iend
* end-if.
* if argc > 2 then
* move iend to istart
* set address of argviStr to pargv(3)
* move zero to slen
* inspect argviStr tallying slen for characters
* before initial X"00"
* move argviStr(1:slen) to iend
* end-if.
display "istart=", istart, " iend=", iend.
PERFORM VARYING i FROM istart BY 1 UNTIL i > iend
perform nqsolve
DISPLAY "D(", i, ") = ", cnt
END-PERFORM.
STOP RUN.
* Return number of positions for N queens.
nqsolve section.
move zero to cnt.
move 1 to k.
move 1 to A(1).
move i to N.
move i to N2.
lloop.
perform configOK.
if configOKret = 1 then
if k < N then
add 1 to k
move 1 to A(k)
go to lloop
else
add 1 to cnt
end-if
end-if.
perform with test after varying k from k by -1 until k <= 1
if A(k) < N then
add 1 to A(k)
go to lloop
end-if
end-perform.
add 1 to A(1).
if A(1) > N2 then
exit section
end-if.
move 2 to k.
move 1 to A(2).
go to lloop
exit.
* Check if k-th queen is attacked by any other prior queen.
* Return nonzero if configuration is OK, zero otherwise.
configOK section.
move zero to configOKret.
move A(k) to z.
perform varying j from 1 by 1 until j >= k
compute l = z - A(j)
if l = 0 then
exit section
end-if
if l < 0 then
compute l = 0 - l
end-if
if l = k - j then
exit section
end-if
end-perform.
move 1 to configOKret.
exit.
Added 01-Sep-2024: Referenced in Performance of GnuCOBOL: A free COBOL compiler.