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BB-AE97A-BM
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uetp/lib/rmtmac.mac
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TITLE RMTMAC RMS/MACRO UETP test program
SEARCH MONSYM,RMSINT
TWOSEG 400000
T1=1 ; Temporary ACs
T2=2 ; ...
T3=3 ; ...
T4=4 ; ...
P1=5 ; Permanent ACs
P2=6 ; ...
P3=7 ; ...
P=17 ; Stack pointer
RELOC
STKLEN=20
STACK: BLOCK STKLEN ; Stack
RELOC
START: RESET% ; Start cleanly
MOVE P,[IOWD STKLEN,STACK] ; Set up stack
PUSHJ P,TSTSEQ
TRNE T1,1
JRST OKSEQ
BADSEQ: HRROI T1,[ASCIZ\?Error in sequential tests
\]
JRST ENDSEQ
OKSEQ: HRROI T1,[ASCIZ\[Sequential tests successful]
\]
ENDSEQ: PSOUT% ; Print message
PUSHJ P,TSTREL ; Test relative files
TRNE T1,1
JRST OKREL
BADREL: HRROI T1,[ASCIZ\?Error in relative tests
\]
JRST ENDREL
OKREL: HRROI T1,[ASCIZ\[Relative tests successful]
\]
ENDREL: PSOUT% ; Print message
PUSHJ P,TSTIDX ; Test indexed files
TRNE T1,1
JRST OKIDX
BADIDX: HRROI T1,[ASCIZ\?Error in indexed tests
\]
JRST ENDIDX
OKIDX: HRROI T1,[ASCIZ\[Indexed tests successful]
\]
ENDIDX: PSOUT% ; Print message
HALTF% ; Quit
;
; TSTSEQ creates, writes, and reads a sequential file
;
RELOC
SEQBUF: BLOCK 1 ; Record buffer
SEQFAB: FAB$B
F$FNA [ASCIZ\RMSRMS.SEQ\]
F$ORG FB$SEQ ; Sequential
F$RFM FB$FIX ; Fixed format
F$MRS 1 ; One word records
F$BSZ ^D36 ; 36-bit bytes
F$FAC FB$GET!FB$PUT!FB$DEL ; Lots of access
F$FOP FB$SUP ; Supersede old files
FAB$E
SEQRAB: RAB$B
R$FAB SEQFAB ; Point at FAB
R$UBF SEQBUF ; Point at buffer
R$RSZ 1 ; Records always one byte long
R$USZ 1 ; Buffer is one word long
RAB$E
RELOC
TSTSEQ: $CREATE SEQFAB ; Create the file
CAILE T2,ER$MIN ; Error?
JRST S.QUIT ; Yes - quit
$CONNECT SEQRAB ; Connect a stream
CAILE T2,ER$MIN ; Error?
JRST S.QUIT ; Yes - quit
;
; Write some records to the file. Each record is
; one word long and contains the number of the
; record, i.e., the 10th record contains 10.
;
MOVEI P1,20 ; Write 20 records
MOVEI T1,1 ; Set up buffer
MOVEM T1,SEQBUF ; ...
S.LP1: $PUT SEQRAB ; Write a record
CAILE T2,ER$MIN ; Error?
JRST S.QUIT ; Yes - quit
AOS SEQBUF ; Increment record
SOJG P1,S.LP1 ; Check counter and loop
$DISCONNECT SEQRAB ; Terminate record stream
CAILE T2,ER$MIN ; Error?
JRST S.QUIT ; Yes - quit
$CONNECT SEQRAB ; Start over at top of file
CAILE T2,ER$MIN ; Error?
JRST S.QUIT ; Yes - quit
;
; Read through the file, checking that all 20 records exist.
; Delete every even-numbered record.
;
MOVEI P1,20 ; Read 20 records
MOVEI P2,1 ; Record count
S.LP2: $GET SEQRAB ; Read a record
CAILE T2,ER$MIN ; Error?
JRST S.QUIT ; Yes - quit
CAME P2,SEQBUF ; Check that record contains correct data
JRST S.QUIT ; No - quit
TRNE P2,1 ; Is number even?
JRST S.ODD ; No - skip $DELETE
$DELETE SEQRAB ; Yes - delete the record
CAILE T2,ER$MIN ; Error?
JRST S.QUIT ; Yes - quit
S.ODD: ADDI P2,1 ; Increment record counter
SOJG P1,S.LP2 ; Loop until done
;
; At this point, we should have read to EOF. The next
; $GET should make us bomb.
;
$GET SEQRAB ; Try for EOF
CAIE T2,ER$EOF ; Correct error?
JRST S.QUIT ; No - quit
$DISCONNECT SEQRAB ; Try again
CAILE T2,ER$MIN ; Error?
JRST S.QUIT ; Yes - quit
$CONNECT SEQRAB ; Set to head of file
CAILE T2,ER$MIN ; Error?
JRST S.QUIT ; Yes - quit
;
; Now read the 10 records which are in the file
;
MOVEI P1,10 ; Count of records
MOVEI P2,1 ; For data comparison
S.LP3: $GET SEQRAB ; Read a record
CAILE T2,ER$MIN ; Error?
JRST S.QUIT ; Yes - quit
CAME P2,SEQBUF ; Check that record contains correct data
JRST S.QUIT ; No - quit
ADDI P2,2 ; Increment data comparison by 2
SOJG P1,S.LP3 ; Loop until done
;
; At this point, we should have read to EOF. The next
; $GET should make us bomb.
;
$GET SEQRAB ; Try for EOF
CAIE T2,ER$EOF ; Correct error?
JRST S.QUIT ; No - quit
$DISCONNECT SEQRAB ; Try again
CAILE T2,ER$MIN ; Error?
JRST S.QUIT ; Yes - quit
$CLOSE SEQFAB ; Close the file
CAILE T2,ER$MIN ; Error?
JRST S.QUIT ; Yes - quit
JRST S.EXIT ; Exit successfully
;
; S.QUIT is the error exit; it sets T1 to 0.
; S.EXIT is the success exit; it sets T1 to 1.
;
S.QUIT: $CLOSE SEQFAB ; In case it's still open
TDZA T1,T1 ; Zero T1
S.EXIT: MOVEI T1,1 ; Set T1 to success
POPJ P, ; End of TSTSEQ
;
; TSTREL creates, writes, and reads a sequential file
;
RELOC
RELBUF: BLOCK 1 ; Record buffer
RELKEY: BLOCK 1 ; Key buffer
RELFAB: FAB$B
F$FNA [ASCIZ\RMSRMS.REL\]
F$ORG FB$REL ; Relative
F$RFM FB$FIX ; Fixed format
F$MRS 1 ; One word records
F$BSZ ^D36 ; 36-bit bytes
F$FAC FB$GET!FB$PUT!FB$DEL ; Lots of access
F$FOP FB$SUP ; Supersede old files
FAB$E
RELRAB: RAB$B
R$FAB RELFAB ; Point at FAB
R$UBF RELBUF ; Point at buffer
R$RSZ 1 ; Records always one byte long
R$USZ 1 ; Buffer is one word long
R$KBF RELKEY ; Point at key buffer
RAB$E
RELOC
TSTREL: $CREATE RELFAB ; Create the file
CAILE T2,ER$MIN ; Error?
JRST R.QUIT ; Yes - quit
$CONNECT RELRAB ; Connect a stream
CAILE T2,ER$MIN ; Error?
JRST R.QUIT ; Yes - quit
;
; Write some records to the file. Each record is
; one word long and contains the number of the
; record, i.e., the 10th record contains 10.
;
MOVEI T1,RB$SEQ ; Set sequential access
$STORE T1,RAC,RELRAB ; ...
MOVEI P1,20 ; Write 20 records
MOVEI T1,1 ; Set up buffer
MOVEM T1,RELBUF ; ...
R.LP1: $PUT RELRAB ; Write a record
CAILE T2,ER$MIN ; Error?
JRST R.QUIT ; Yes - quit
AOS RELBUF ; Increment record
SOJG P1,R.LP1 ; Check counter and loop
$DISCONNECT RELRAB ; Terminate record stream
CAILE T2,ER$MIN ; Error?
JRST R.QUIT ; Yes - quit
$CONNECT RELRAB ; Start over at top of file
CAILE T2,ER$MIN ; Error?
JRST R.QUIT ; Yes - quit
;
; Read the records by key
;
MOVEI T1,RB$KEY ; Set keyed access
$STORE T1,RAC,RELRAB ; ...
MOVEI P1,20 ; Read 20 records
R.LP2: MOVEM P1,RELKEY ; Set the key to read on
$GET RELRAB ; Read a record
CAILE T2,ER$MIN ; Error?
JRST R.QUIT ; Yes - quit
CAME P1,RELBUF ; Check that record contains correct data
JRST R.QUIT ; No - quit
SOJG P1,R.LP2 ; Loop until done
$CLOSE RELFAB ; Close the file
CAILE T2,ER$MIN ; Error?
JRST R.QUIT ; Yes - quit
JRST R.EXIT ; Exit successfully
;
; R.QUIT is the error exit; it sets T1 to 0.
; R.EXIT is the success exit; it sets T1 to 1.
;
R.QUIT: $CLOSE RELFAB ; In case it's still open
TDZA T1,T1 ; Zero T1
R.EXIT: MOVEI T1,1 ; Set T1 to success
POPJ P, ; End of TSTREL
;
; TSTIDX creates, writes, and reads an indexed file
;
RELOC
IDXBUF: BLOCK 1 ; Record buffer
IDXKEY: BLOCK 1 ; Key buffer
I.XAB1: XAB$B KEY
X$REF 1 ; 1st alternate key
X$DTP XB$STG ; ASCII data
X$KNM [ASCIZ\KEY 1\] ; Key name
X$POS 1 ; Key position
X$SIZ 1 ; Key size
XAB$E
I.XAB0: XAB$B KEY
X$REF 0 ; Primary key
X$DTP XB$STG ; ASCII data
X$KNM [ASCIZ\KEY 0\] ; Key name
X$POS 0 ; Key position
X$SIZ 1 ; Key size
X$NXT I.XAB1 ; Next XAB in chain
XAB$E
IDXFAB: FAB$B
F$FNA [ASCIZ\RMSRMS.IDX\]
F$ORG FB$IDX ; Sequential
F$RFM FB$FIX ; Fixed format
F$MRS 2 ; Two-character records
F$BSZ ^D7 ; 7-bit bytes
F$FAC FB$GET!FB$PUT!FB$DEL ; Lots of access
F$FOP FB$SUP ; Supersede old files
F$XAB I.XAB0 ; Point to XAB chain
FAB$E
IDXRAB: RAB$B
R$FAB IDXFAB ; Point at FAB
R$UBF IDXBUF ; Point at buffer
R$RSZ 2 ; Records always two characters long
R$KBF IDXKEY ; Key buffer
R$RAC RB$KEY ; Keyed access
R$USZ 1 ; Buffer is one word long
RAB$E
RELOC
TSTIDX: $CREATE IDXFAB ; Create the file
CAILE T2,ER$MIN ; Error?
JRST I.QUIT ; Yes - quit
$CONNECT IDXRAB ; Connect a stream
CAILE T2,ER$MIN ; Error?
JRST I.QUIT ; Yes - quit
;
; Write some records to the file. Each record is
; 2 characters long, and they are in the form
;
; AZ
; BY
; CX
; etc.
;
MOVEI P1,^D26 ; Write 26 records
MOVEI P2,"A" ; Primary key
MOVEI P3,"Z" ; Alternate key
I.LP1: DPB P2,[POINT 7,IDXBUF,6] ; Write first "field"
DPB P3,[POINT 7,IDXBUF,13] ; Write second "field"
$PUT IDXRAB ; Write a record
CAILE T2,ER$MIN ; Error?
JRST I.QUIT ; Yes - quit
ADDI P2,1 ; Increment to next letter
SUBI P3,1 ; Decrement to previous letter
SOJG P1,I.LP1 ; Check counter and loop
$DISCONNECT IDXRAB ; Terminate record stream
CAILE T2,ER$MIN ; Error?
JRST I.QUIT ; Yes - quit
$CONNECT IDXRAB ; Start over at top of file
CAILE T2,ER$MIN ; Error?
JRST I.QUIT ; Yes - quit
;
; Read some records.
;
MOVEI T1,0 ; Try primary key
$STORE T1,KRF,IDXRAB ; ...
MOVEI T1,"D" ; Try record starting with "D"
DPB T1,[POINT 7,IDXKEY,6] ; Set up the key
MOVEI T1,1 ; and the key length
$STORE T1,KSZ,IDXRAB ; ...
$GET IDXRAB ; $GET the record
CAILE T2,ER$MIN ; Error?
JRST I.QUIT ; Yes - quit
MOVE T2,[POINT 7,IDXBUF] ; Check the record
ILDB T1,T2 ; Check the first character
CAIE T1,"D" ; Should be "D"
JRST I.QUIT ; No - bug
ILDB T1,T2 ; Check the second character
CAIE T1,"W" ; Should be "W"
JRST I.QUIT ; No - bug
;
; Try the alternate key
;
MOVEI T1,1 ; Try alternate key
$STORE T1,KRF,IDXRAB ; ...
MOVEI T1,"D" ; Try record whose second character is "D"
DPB T1,[POINT 7,IDXKEY,6] ; Set up the key
MOVEI T1,1 ; and the key length
$STORE T1,KSZ,IDXRAB ; ...
$GET IDXRAB ; $GET the record
CAILE T2,ER$MIN ; Error?
JRST I.QUIT ; Yes - quit
MOVE T2,[POINT 7,IDXBUF] ; Check the record
ILDB T1,T2 ; Check the first character
CAIE T1,"W" ; Should be "W"
JRST I.QUIT ; No - bug
ILDB T1,T2 ; Check the second character
CAIE T1,"D" ; Should be "D"
JRST I.QUIT ; No - bug
$CLOSE IDXFAB ; Close the file
CAILE T2,ER$MIN ; Error?
JRST I.QUIT ; Yes - quit
JRST I.EXIT ; Exit successfully
;
; I.QUIT is the error exit; it sets T1 to 0.
; I.EXIT is the success exit; it sets T1 to 1.
;
I.QUIT: $CLOSE IDXFAB ; In case it's still open
TDZA T1,T1 ; Zero T1
I.EXIT: MOVEI T1,1 ; Set T1 to success
POPJ P, ; End of TSTIDX
END START