Trailing-Edge
-
PDP-10 Archives
-
BB-AE97A-BM
-
sources/c32t1.vax-cob
There are 2 other files named c32t1.vax-cob in the archive. Click here to see a list.
IDENTIFICATION DIVISION.
PROGRAM-ID.
C32T1.
AUTHOR.
DIGITAL EQUIPMENT CORPORATION.
COPYRIGHT (C) DIGITAL EQUIPMENT CORPORATION 1982, 1983.
This software is furnished under a license and may be used and
copied only in accordance with the terms of such license and
with the inclusion of the above copyright notice. This
software or any other copies thereof may not be provided or
otherwise made available to any other person. No title to and
ownership of the software is hereby transferred.
The information in this software is subject to change without
notice and should not be construed as a commitment by Digital
Equipment Corporation.
Digital assumes no responsibility for the use or reliability
of its software on equipment which is not supplied by Digital.
Test program for VAX Cobol.
This program performs minimal confidence test on DIX. Please
see program F7T1.FOR for a bit-by-bit justification of the
initial and expected final values used here.
* Facility: DIX-TEST
*
* Edit History:
*
* Edit (%O'10', '3-Nov-82', 'Sandy Clemens')
* %( Add cobol interface tests. NOTE: F7T1 has the detailed
* justification of the source and expected destination values
* used.
* Files: C36T1.CBL (NEW), C32T1.VAX-COB (NEW) )%
*
* Edit (%O'11', '07-Dec-82', 'Sandy Clemens')
* %( Add correct error status checking to interface verification
* tests. Files: C36T1.CBL (NEW), C32T1.VAX-COB (NEW) )%
*
*
* Edit (%O'14', '14-Jan-83', 'Sandy Clemens')
* %( Many edits to the Installation Verification system (ICS) files.
* Add SYS: to all the 10/20 programs in the COPY or INCLUDE
* statement for the interface files. Add SYS$LIBRARY to the VAX
* programs in the COPY or INCLUDE statement for the interface
* files. Add check for INFO or SUCCESS status return in all ICS
* programs. Add Lib$Match_Cond to VMS programs for status
* checking. Change some of the symbolic variable names for
* clarification. Change use of numeric parameter values to
* symbolic variable names. Get rid of use of "IMPLICIT INTEGER"
* in FORTRAN test programs. Add copyright notice to everything.
* Make the TOPS-10 test programs EXACTLY the same as the TOPS-20
* programs, in order to use the same ones on both systems. Files:
* F6T1.10-FOR (DELETED), F7T1.10-FOR (DELETED), C32T1.VAX-COB,
* C36T1.CBL, F32T1.VAX-FOR, F6T1.FOR, F7T1.FOR, DIXTHST.TXT )%
*
* Edit (%O'20', '24-Jan-83', 'Sandy Clemens')
* %( Add copyright and liability waiver to whatever needs it.
* FILE: C32T1.VAX-COB, C36T1.CBL, CREDIX.CTL, CREDIX.VAX-COM,
* DIXDMP.CBL, DIXDMP.VAX-COB, DIXMNT.CBL, DIXTST.CBL,
* DIXTST.VAX-COB, F32T1.VAX-FOR, F6T1.FOR, F7T1.FOR, PART1.CBL,
* PART3.VAX-COB, RUNDIX.CTL, RUNDIX.VAX-COM, SUB6X1.FOR,
* SUB7X1.FOR )%
*
* Edit (%O'21', '25-Jan-83', 'Sandy Clemens')
* %( Standardize "Author" entry in ICS Cobol programs.
* FILES: C32T1.VAX-COB, C36T1.CBL )%
INSTALLATION.
DEC-MARLBOROUGH.
DATE-WRITTEN.
NOVEMBER 3, 1982.
ENVIRONMENT DIVISION.
CONFIGURATION SECTION.
SOURCE-COMPUTER.
VAX-11.
OBJECT-COMPUTER.
VAX-11.
DATA DIVISION.
WORKING-STORAGE SECTION.
* source data values
* Since VERY large numbers are going to be put into the source fields,
* and Cobol will not allow for direct VALUE clause specifications of
* such large numeric values into single precision fields, the values
* will be put into double precision fields and then moved into the
* correct single precision fields.
01 HOLD-SRCDAT-DP.
05 HOLD-SRCDAT-DP1 PIC S9(18) COMP VALUE 951167074.
05 HOLD-SRCDAT-DP2 PIC S9(18) COMP VALUE -1543503864.
05 HOLD-SRCDAT-DP3 PIC S9(18) COMP VALUE -156.
05 HOLD-SRCDAT-DP4 PIC S9(18) COMP VALUE -2014502785.
05 HOLD-SRCDAT-DP5 PIC S9(18) COMP VALUE 16740.
01 SRCDAT.
05 SRCDAT1 PIC S9(9) COMP.
05 SRCDAT2 PIC S9(9) COMP.
05 SRCDAT3 PIC S9(9) COMP.
05 SRCDAT4 PIC S9(9) COMP.
05 SRCDAT5 PIC S9(9) COMP.
05 SRCDAT6 PIC S9(9) COMP.
* destination data fields
01 DSTDAT-BUFFER.
05 DSTDAT PIC S9(9) COMP OCCURS 5.
* foreign field descriptors
01 FFDS.
05 STR20 PIC S9(9) COMP OCCURS 3.
05 SBF20 PIC S9(9) COMP OCCURS 3.
05 FLT20 PIC S9(9) COMP OCCURS 3.
05 STRVAX PIC S9(9) COMP OCCURS 3.
05 SBFVAX PIC S9(9) COMP OCCURS 3.
05 FLTVAX PIC S9(9) COMP OCCURS 3.
01 INTERFACE-FILES.
COPY DIL$COBOL OF "SYS$LIBRARY:DIL.TLB".
COPY DIX$COBOL OF "SYS$LIBRARY:DIL.TLB".
* Dil status return
01 DIL-STATUS PIC S9(9) COMP.
* Dix call parameters.
01 DIX-SYS PIC S9(9) COMP.
01 DIX-DT PIC S9(9) COMP.
01 DIX-BYSZ PIC S9(9) COMP.
01 DIX-BYO PIC S9(9) COMP.
01 DIX-BTO PIC S9(9) COMP VALUE 0.
01 DIX-LEN PIC S9(9) COMP.
01 DIX-SCAL PIC S9(9) COMP.
* success flag
01 SUCCESS-FLAG PIC X(8).
88 OK VALUE "SUCCESS".
88 NOT-OK VALUE "FAILURE".
* fields for lib$match_cond call
01 DIL-MATCH PIC S9(9) COMP.
88 NO-MATCH VALUE 0.
88 FIRST-MATCH VALUE 1.
* keep track of which test is running
77 TESTNUM PIC S9(5) COMP.
77 SUB PIC S9(5) COMP.
PROCEDURE DIVISION.
INITIALIZE-STUFF.
MOVE "SUCCESS" TO SUCCESS-FLAG.
* Initialize source buffers: 20 data in vax memory Move double
* precision "hold" areas into single precision words...
MOVE HOLD-SRCDAT-DP1 TO SRCDAT1.
MOVE HOLD-SRCDAT-DP2 TO SRCDAT2.
MOVE HOLD-SRCDAT-DP3 TO SRCDAT3.
MOVE HOLD-SRCDAT-DP4 TO SRCDAT4.
MOVE HOLD-SRCDAT-DP5 TO SRCDAT5.
MOVE 0 TO SRCDAT6.
* initialize destination buffer to zeros
PERFORM INITIALIZE-DSTDAT THRU INIT-EXIT
VARYING SUB FROM 1 BY 1 UNTIL SUB > 5.
MAKE-FFDS.
MOVE 7 TO DIX-BYSZ.
MOVE 0 TO DIX-BYO.
MOVE 7 TO DIX-LEN.
MOVE 0 TO DIX-SCAL.
MOVE 1 TO TESTNUM.
CALL "DIX$MAK_DES_DET" USING STR20(1), SRCDAT, DIX$K_SYS_10_20,
DIX-BYSZ, DIX-BYO, DIX-BTO,
DIX$K_DT_ASCII_7, DIX-LEN, DIX-SCAL
GIVING DIL-STATUS.
IF DIL-STATUS IS NOT SUCCESS
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
MOVE 36 TO DIX-BYSZ.
MOVE 2 TO DIX-BYO.
MOVE 0 TO DIX-LEN.
MOVE 2 TO DIX-SCAL.
MOVE 2 TO TESTNUM.
CALL "DIX$MAK_DES_DET" USING SBF20(1), SRCDAT, DIX$K_SYS_10_20,
DIX-BYSZ, DIX-BYO, DIX-BTO,
DIX$K_DT_SBF36, DIX-LEN, DIX-SCAL
GIVING DIL-STATUS.
IF DIL-STATUS IS NOT SUCCESS
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
MOVE 36 TO DIX-BYSZ.
MOVE 3 TO DIX-BYO.
MOVE 0 TO DIX-LEN.
MOVE 0 TO DIX-SCAL.
MOVE 3 TO TESTNUM.
CALL "DIX$MAK_DES_DET" USING FLT20(1), SRCDAT, DIX$K_SYS_10_20,
DIX-BYSZ, DIX-BYO, DIX-BTO,
DIX$K_DT_FLOAT_36, DIX-LEN, DIX-SCAL
GIVING DIL-STATUS.
IF DIL-STATUS IS NOT SUCCESS
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
MOVE 8 TO DIX-BYSZ.
MOVE 0 TO DIX-BYO.
MOVE 7 TO DIX-LEN.
MOVE 0 TO DIX-SCAL.
MOVE 4 TO TESTNUM.
CALL "DIX$MAK_DES_DET" USING STRVAX(1), DSTDAT(1), DIX$K_SYS_VAX,
DIX-BYSZ, DIX-BYO, DIX-BTO,
DIX$K_DT_ASCII_8, DIX-LEN, DIX-SCAL
GIVING DIL-STATUS.
IF DIL-STATUS IS NOT SUCCESS
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
MOVE 8 TO DIX-BYSZ.
MOVE 8 TO DIX-BYO.
MOVE 0 TO DIX-LEN.
MOVE 2 TO DIX-SCAL.
MOVE 5 TO TESTNUM.
CALL "DIX$MAK_DES_DET" USING SBFVAX(1), DSTDAT(1), DIX$K_SYS_VAX,
DIX-BYSZ, DIX-BYO, DIX-BTO,
DIX$K_DT_SBF32, DIX-LEN, DIX-SCAL
GIVING DIL-STATUS.
IF DIL-STATUS IS NOT SUCCESS
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
MOVE 8 TO DIX-BYSZ.
MOVE 12 TO DIX-BYO.
MOVE 0 TO DIX-LEN.
MOVE 0 TO DIX-SCAL.
MOVE 6 TO TESTNUM.
CALL "DIX$MAK_DES_DET" USING FLTVAX(1), DSTDAT(1), DIX$K_SYS_VAX,
DIX-BYSZ, DIX-BYO, DIX-BTO,
DIX$K_DT_D_FLOAT, DIX-LEN, DIX-SCAL
GIVING DIL-STATUS.
IF DIL-STATUS IS NOT SUCCESS
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
DO-CONVERSIONS.
* (20 to vax)
DISPLAY " Doing conversions... ".
MOVE 7 TO TESTNUM.
CALL "DIX$BY_DIX_DES" USING STR20(1), STRVAX(1)
GIVING DIL-STATUS.
IF DIL-STATUS IS NOT SUCCESS
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
MOVE 8 TO TESTNUM.
CALL "DIX$BY_DIX_DES" USING SBF20(1), SBFVAX(1)
GIVING DIL-STATUS.
IF DIL-STATUS IS NOT SUCCESS
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
MOVE 9 TO TESTNUM.
CALL "DIX$BY_DIX_DES" USING FLT20(1), FLTVAX(1)
GIVING DIL-STATUS.
IF DIL-STATUS IS NOT SUCCESS
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
IF OK DISPLAY " Tests through 9 completed successfully.".
CHECK-RESULTS.
* what we should have created is the VAX form of the record as
* described in the comments in F7T1.FOR.
MOVE 10 TO TESTNUM.
IF DSTDAT(1) NOT = 677601857
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY " Test 10 is checking the conversions."
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
MOVE 11 TO TESTNUM.
IF DSTDAT(2) NOT = 2699825
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY " Test 11 is checking the conversions."
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
MOVE 12 TO TESTNUM.
IF DSTDAT(3) NOT = 2147483647
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY " Test 12 is checking the conversions."
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
MOVE 13 TO TESTNUM.
* Since our source data has only 26 bits of precision, we won't get
* more than that as the result of our conversion. In fact, the first
* word will hold 24 bits of mantissa (including the hidden bit), and
* only two will overflow into the second word. Of those two, the
* second is 0. Thus, the second word of the D_Float will only have
* the one bit set. See diagram of D_Float for why it's the bit it is,
* buried in the middle of the word. Or take my word for it.
IF DSTDAT(4) NOT = 265961801
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY " Test 13 is checking the conversions."
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
MOVE 14 TO TESTNUM.
IF DSTDAT(5) NOT = 16384
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY " Test 14 is checking the conversions."
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
IF OK DISPLAY " Tests through 14 completed successfully. ".
ERROR-CASES.
* try a couple of error cases.
ERROR-CASE-UNKSYS.
* get and unknown system of origin error and verify use of
* dix-c-unksys
MOVE 3 TO DIX-SYS.
MOVE 7 TO DIX-BYSZ.
MOVE 0 TO DIX-BYO.
MOVE 7 TO DIX-LEN.
MOVE 0 TO DIX-SCAL.
MOVE 15 TO TESTNUM.
CALL "DIX$MAK_DES_DET" USING STR20(1), SRCDAT, DIX-SYS,
DIX-BYSZ, DIX-BYO, DIX-BTO,
DIX$K_DT_ASCII_7, DIX-LEN, DIX-SCAL
GIVING DIL-STATUS.
CALL "LIB$MATCH_COND" USING DIL-STATUS,
DIX$_UNKSYS
GIVING DIL-MATCH.
IF NO-MATCH
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
ERROR-CASE-INVDATTYP.
* get and invalid data type error and verify use of dix-c-invdattyp
MOVE -75 TO DIX-DT.
MOVE 7 TO DIX-BYSZ.
MOVE 0 TO DIX-BYO.
MOVE 7 TO DIX-LEN.
MOVE 0 TO DIX-SCAL.
MOVE 16 TO TESTNUM.
CALL "DIX$MAK_DES_DET" USING STR20(1), SRCDAT, DIX$K_SYS_10_20,
DIX-BYSZ, DIX-BYO, DIX-BTO,
DIX-DT, DIX-LEN, DIX-SCAL
GIVING DIL-STATUS.
CALL "LIB$MATCH_COND" USING DIL-STATUS,
DIX$_INVDATTYP
GIVING DIL-MATCH.
IF NO-MATCH
MOVE "FAILURE" TO SUCCESS-FLAG
DISPLAY "? Failure in test " TESTNUM " Dil-status = " DIL-STATUS.
IF OK DISPLAY " Tests through 16 completed successfully. "
DISPLAY " "
DISPLAY " C36T1 successfully completed.".
STOP RUN.
INITIALIZE-DSTDAT.
MOVE 0 TO DSTDAT(SUB).
INIT-EXIT.