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EightBit/Intel8080/test/roms/8085EXER.MAC
Adrian.Conlon 4c6f44c394 Add 8080 test runner 
Signed-off-by: Adrian.Conlon <adrian.conlon@gmail.com>
2017-06-05 17:31:21 +01:00

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title 'Z80 instruction set exerciser'
; zexlax.z80 - Z80 instruction set exerciser
; Copyright (C) 1994 Frank D. Cringle
;
; This program is free software; you can redistribute it and/or
; modify it under the terms of the GNU General Public License
; as published by the Free Software Foundation; either version 2
; of the License, or (at your option) any later version.
;
; This program is distributed in the hope that it will be useful,
; but WITHOUT ANY WARRANTY; without even the implied warranty of
; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
; GNU General Public License for more details.
;
; You should have received a copy of the GNU General Public License
; along with this program; if not, write to the Free Software
; Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
;
;******************************************************************************
;
; Modified to exercise an 8085 by Ian Bartholomew, October 2009
;
; I have made the following changes -
;
; Converted all mnemonics to 8080 and rewritten any Z80 code used
; in the original exerciser. Changes are tagged with a #idb in the
; source code listing.
;
; Removed any test descriptors that are not used.
;
; Changed the macro definitions to work in M80
;
; The machine state snapshot has been changed to remove the IX/IY registers.
; They have been replaced by two more copies of HL to obviate the need
; for major changes in the exerciser code.
;
; Changed flag mask in all tests to 0d5h to reflect that in the 8085 the unused bits
; in the flag register are undefined- [S Z X AC X P X C]
;
;******************************************************************************
.8080
aseg
org 100h
begin: jmp start
; machine state before test (needs to be at predictably constant address)
msbt: ds 14
spbt: ds 2
; For the purposes of this test program, the machine state consists of:
; a 2 byte memory operand, followed by
; the registers iy,ix,hl,de,bc,af,sp
; for a total of 16 bytes.
; The program tests instructions (or groups of similar instructions)
; by cycling through a sequence of machine states, executing the test
; instruction for each one and running a 32-bit crc over the resulting
; machine states. At the end of the sequence the crc is compared to
; an expected value that was found empirically on a real Z80.
; A test case is defined by a descriptor which consists of:
; a flag mask byte,
; the base case,
; the incement vector,
; the shift vector,
; the expected crc,
; a short descriptive message.
;
; The flag mask byte is used to prevent undefined flag bits from
; influencing the results. Documented flags are as per Mostek Z80
; Technical Manual.
;
; The next three parts of the descriptor are 20 byte vectors
; corresponding to a 4 byte instruction and a 16 byte machine state.
; The first part is the base case, which is the first test case of
; the sequence. This base is then modified according to the next 2
; vectors. Each 1 bit in the increment vector specifies a bit to be
; cycled in the form of a binary counter. For instance, if the byte
; corresponding to the accumulator is set to 0ffh in the increment
; vector, the test will be repeated for all 256 values of the
; accumulator. Note that 1 bits don't have to be contiguous. The
; number of test cases 'caused' by the increment vector is equal to
; 2^(number of 1 bits). The shift vector is similar, but specifies a
; set of bits in the test case that are to be successively inverted.
; Thus the shift vector 'causes' a number of test cases equal to the
; number of 1 bits in it.
; The total number of test cases is the product of those caused by the
; counter and shift vectors and can easily become unweildy. Each
; individual test case can take a few milliseconds to execute, due to
; the overhead of test setup and crc calculation, so test design is a
; compromise between coverage and execution time.
; This program is designed to detect differences between
; implementations and is not ideal for diagnosing the causes of any
; discrepancies. However, provided a reference implementation (or
; real system) is available, a failing test case can be isolated by
; hand using a binary search of the test space.
start: lhld 6
sphl
lxi d,msg1
mvi c,9
call bdos
lxi h,tests ; first test case
loop: mov a,m ; end of list ?
inx h
ora m
jz done
dcx h
call stt
jmp loop
done: lxi d,msg2
mvi c,9
call bdos
jmp 0 ; warm boot
tests:
dw add16
dw alu8i
dw alu8r
dw daa
dw inca
dw incb
dw incbc
dw incc
dw incd
dw incde
dw ince
dw inch
dw inchl
dw incl
dw incm
dw incsp
dw ld162
dw ld166
dw ld16im
dw ld8bd
dw ld8im
dw ld8rr
dw lda
dw rot8080
dw stabd
dw 0
tstr macro insn,memop,hliy,hlix,hl,de,bc,flags,acc,sp
local lab
lab: db insn
ds lab+4-$,0
dw memop,hliy,hlix,hl,de,bc
db flags
db acc
dw sp
if $-lab ne 20
error 'missing parameter'
endif
endm
tmsg macro m
local lab
lab: db m
if $ ge lab+30
error 'message too long'
else
ds lab+30-$,'.'
endif
db '$'
endm
; add hl,<bc,de,hl,sp> (19,456 cycles)
add16: db 0d5h ; flag mask
tstr 9,0c4a5h,0c4c7h,0d226h,0a050h,058eah,08566h,0c6h,0deh,09bc9h
tstr 030h,0,0,0,0f821h,0,0,0,0,0 ; (512 cycles)
tstr 0,0,0,0,-1,-1,-1,0d7h,0,-1 ; (38 cycles)
db 0,0,0,0 ; expected crc
tmsg 'dad <b,d,h,sp>'
; aluop a,nn (28,672 cycles)
alu8i: db 0d5h ; flag mask
tstr 0c6h,09140h,07e3ch,07a67h,0df6dh,05b61h,00b29h,010h,066h,085b2h
tstr 038h,0,0,0,0,0,0,0,-1,0 ; (2048 cycles)
tstr <0,-1>,0,0,0,0,0,0,0d7h,0,0 ; (14 cycles)
db 0,0,0,0 ; expected crc
tmsg 'aluop nn'
; aluop a,<b,c,d,e,h,l,(hl),a> (753,664 cycles)
alu8r: db 0d5h ; flag mask
tstr 080h,0c53eh,0573ah,04c4dh,msbt,0e309h,0a666h,0d0h,03bh,0adbbh
tstr 03fh,0,0,0,0,0,0,0,-1,0 ; (16,384 cycles)
tstr 0,0ffh,0,0,0,-1,-1,0d7h,0,0 ; (46 cycles)
db 0,0,0,0 ; expected crc
tmsg 'aluop <b,c,d,e,h,l,m,a>'
; <daa,cpl,scf,ccf>
daa: db 0d5h ; flag mask
tstr 027h,02141h,009fah,01d60h,0a559h,08d5bh,09079h,004h,08eh,0299dh
tstr 018h,0,0,0,0,0,0,0d7h,-1,0 ; (65,536 cycles)
tstr 0,0,0,0,0,0,0,0,0,0 ; (1 cycle)
db 0,0,0,0 ; expected crc
tmsg '<daa,cma,stc,cmc>'
; <inc,dec> a (3072 cycles)
inca: db 0d5h ; flag mask
tstr 03ch,04adfh,0d5d8h,0e598h,08a2bh,0a7b0h,0431bh,044h,05ah,0d030h
tstr 001h,0,0,0,0,0,0,0,-1,0 ; (512 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<inr,dcr> a'
; <inc,dec> b (3072 cycles)
incb: db 0d5h ; flag mask
tstr 004h,0d623h,0432dh,07a61h,08180h,05a86h,01e85h,086h,058h,09bbbh
tstr 001h,0,0,0,0,0,0ff00h,0,0,0 ; (512 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<inr,dcr> b'
; <inc,dec> bc (1536 cycles)
incbc: db 0d5h ; flag mask
tstr 003h,0cd97h,044abh,08dc9h,0e3e3h,011cch,0e8a4h,002h,049h,02a4dh
tstr 008h,0,0,0,0,0,0f821h,0,0,0 ; (256 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<inx,dcx> b'
; <inc,dec> c (3072 cycles)
incc: db 0d5h ; flag mask
tstr 00ch,0d789h,00935h,0055bh,09f85h,08b27h,0d208h,095h,005h,00660h
tstr 001h,0,0,0,0,0,0ffh,0,0,0 ; (512 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<inr,dcr> c'
; <inc,dec> d (3072 cycles)
incd: db 0d5h ; flag mask
tstr 014h,0a0eah,05fbah,065fbh,0981ch,038cch,0debch,043h,05ch,003bdh
tstr 001h,0,0,0,0,0ff00h,0,0,0,0 ; (512 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<inr,dcr> d'
; <inc,dec> de (1536 cycles)
incde: db 0d5h ; flag mask
tstr 013h,0342eh,0131dh,028c9h,00acah,09967h,03a2eh,092h,0f6h,09d54h
tstr 008h,0,0,0,0,0f821h,0,0,0,0 ; (256 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<inx,dcx> d'
; <inc,dec> e (3072 cycles)
ince: db 0d5h ; flag mask
tstr 01ch,0602fh,04c0dh,02402h,0e2f5h,0a0f4h,0a10ah,013h,032h,05925h
tstr 001h,0,0,0,0,0ffh,0,0,0,0 ; (512 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<inr,dcr> e'
; <inc,dec> h (3072 cycles)
inch: db 0d5h ; flag mask
tstr 024h,01506h,0f2ebh,0e8ddh,0262bh,011a6h,0bc1ah,017h,006h,02818h
tstr 001h,0,0,0,0ff00h,0,0,0,0,0 ; (512 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<inr,dcr> h'
; <inc,dec> hl (1536 cycles)
inchl: db 0d5h ; flag mask
tstr 023h,0c3f4h,007a5h,01b6dh,04f04h,0e2c2h,0822ah,057h,0e0h,0c3e1h
tstr 008h,0,0,0,0f821h,0,0,0,0,0 ; (256 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<inx,dcx> h'
; <inc,dec> l (3072 cycles)
incl: db 0d5h ; flag mask
tstr 02ch,08031h,0a520h,04356h,0b409h,0f4c1h,0dfa2h,0d1h,03ch,03ea2h
tstr 001h,0,0,0,0ffh,0,0,0,0,0 ; (512 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<inr,dcr> l'
; <inc,dec> (hl) (3072 cycles)
incm: db 0d5h ; flag mask
tstr 034h,0b856h,00c7ch,0e53eh,msbt,0877eh,0da58h,015h,05ch,01f37h
tstr 001h,0ffh,0,0,0,0,0,0,0,0 ; (512 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<inr,dcr> m'
; <inc,dec> sp (1536 cycles)
incsp: db 0d5h ; flag mask
tstr 033h,0346fh,0d482h,0d169h,0deb6h,0a494h,0f476h,053h,002h,0855bh
tstr 008h,0,0,0,0,0,0,0,0,0f821h ; (256 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<inx,dcx> sp'
; ld hl,(nnnn) (16 cycles)
ld162: db 0d5h ; flag mask
tstr <02ah,low msbt,high msbt>,09863h,07830h,02077h,0b1feh,0b9fah,0abb8h,004h,006h,06015h
tstr 0,0,0,0,0,0,0,0,0,0 ; (1 cycle)
tstr 0,-1,0,0,0,0,0,0,0,0 ; (16 cycles)
db 0,0,0,0 ; expected crc
tmsg 'lhld nnnn'
; ld (nnnn),hl (16 cycles)
ld166: db 0d5h ; flag mask
tstr <022h,low msbt,high msbt>,0d003h,07772h,07f53h,03f72h,064eah,0e180h,010h,02dh,035e9h
tstr 0,0,0,0,0,0,0,0,0,0 ; (1 cycle)
tstr 0,0,0,0,-1,0,0,0,0,0 ; (16 cycles)
db 0,0,0,0 ; expected crc
tmsg 'shld nnnn'
; ld <bc,de,hl,sp>,nnnn (64 cycles)
ld16im: db 0d5h ; flag mask
tstr 1,05c1ch,02d46h,08eb9h,06078h,074b1h,0b30eh,046h,0d1h,030cch
tstr 030h,0,0,0,0,0,0,0,0,0 ; (4 cycles)
tstr <0,0ffh,0ffh>,0,0,0,0,0,0,0,0,0 ; (16 cycles)
db 0,0,0,0 ; expected crc
tmsg 'lxi <b,d,h,sp>,nnnn'
; ld a,<(bc),(de)> (44 cycles)
ld8bd: db 0d5h ; flag mask
tstr 00ah,0b3a8h,01d2ah,07f8eh,042ach,msbt,msbt,0c6h,0b1h,0ef8eh
tstr 010h,0,0,0,0,0,0,0,0,0 ; (2 cycles)
tstr 0,0ffh,0,0,0,0,0,0d7h,-1,0 ; (22 cycles)
db 0,0,0,0 ; expected crc
tmsg 'ldax <b,d>'
; ld <b,c,d,e,h,l,(hl),a>,nn (64 cycles)
ld8im: db 0d5h ; flag mask
tstr 6,0c407h,0f49dh,0d13dh,00339h,0de89h,07455h,053h,0c0h,05509h
tstr 038h,0,0,0,0,0,0,0,0,0 ; (8 cycles)
tstr 0,0,0,0,0,0,0,0,-1,0 ; (8 cycles)
db 0,0,0,0 ; expected crc
tmsg 'mvi <b,c,d,e,h,l,m,a>,nn'
; ld <b,c,d,e,h,l,a>,<b,c,d,e,h,l,a> (3456 cycles)
ld8rr: db 0d5h ; flag mask
tstr 040h,072a4h,0a024h,061ach,msbt,082c7h,0718fh,097h,08fh,0ef8eh
tstr 03fh,0,0,0,0,0,0,0,0,0 ; (64 cycles)
tstr 0,0ffh,0,0,0,-1,-1,0d7h,-1,0 ; (54 cycles)
db 0,0,0,0 ; expected crc
tmsg 'mov <bcdehla>,<bcdehla>'
; ld a,(nnnn) / ld (nnnn),a (44 cycles)
lda: db 0d5h ; flag mask
tstr <032h,low msbt,high msbt>,0fd68h,0f4ech,044a0h,0b543h,00653h,0cdbah,0d2h,04fh,01fd8h
tstr 008h,0,0,0,0,0,0,0,0,0 ; (2 cycle)
tstr 0,0ffh,0,0,0,0,0,0d7h,-1,0 ; (22 cycles)
db 0,0,0,0 ; expected crc
tmsg 'sta nnnn / lda nnnn'
; <rlca,rrca,rla,rra> (6144 cycles)
rot8080: db 0d5h ; flag mask
tstr 7,0cb92h,06d43h,00a90h,0c284h,00c53h,0f50eh,091h,0ebh,040fch
tstr 018h,0,0,0,0,0,0,0,-1,0 ; (1024 cycles)
tstr 0,0,0,0,0,0,0,0d7h,0,0 ; (6 cycles)
db 0,0,0,0 ; expected crc
tmsg '<rlc,rrc,ral,rar>'
; ld (<bc,de>),a (96 cycles)
stabd: db 0d5h ; flag mask
tstr 2,00c3bh,0b592h,06cffh,0959eh,msbt,msbt+1,0c1h,021h,0bde7h
tstr 018h,0,0,0,0,0,0,0,0,0 ; (4 cycles)
tstr 0,-1,0,0,0,0,0,0,-1,0 ; (24 cycles)
db 0,0,0,0 ; expected crc
tmsg 'stax <b,d>'
; start test pointed to by (hl)
stt: push h
mov a,m ; get pointer to test
inx h
mov h,m
mov l,a
mov a,m ; flag mask
sta flgmsk+1
inx h
push h
lxi d,20
dad d ; point to incmask
lxi d,counter
call initmask
pop h
push h
lxi d,20+20
dad d ; point to scanmask
lxi d,shifter
call initmask
lxi h,shifter
mvi m,1 ; first bit
pop h
push h
lxi d,iut ; copy initial instruction under test
lxi b,4
;#idb ldir replaced with following code
ldir1: mov a,m
stax d
inx h
inx d
dcx b
mov a,b
ora c
jnz ldir1
;#idb
lxi d,msbt ; copy initial machine state
lxi b,16
;#idb ldir replaced with following code
ldir2: mov a,m
stax d
inx h
inx d
dcx b
mov a,b
ora c
jnz ldir2
;#idb
lxi d,20+20+4 ; skip incmask, scanmask and expcrc
dad d
xchg
mvi c,9
call bdos ; show test name
call initcrc ; initialise crc
; test loop
tlp: lda iut
cpi 076h ; pragmatically avoid halt intructions
jz tlp2
ani 0dfh
cpi 0ddh
jnz tlp1
lda iut+1
cpi 076h
tlp1: cnz test ; execute the test instruction
tlp2: call count ; increment the counter
cnz shift ; shift the scan bit
pop h ; pointer to test case
jz tlp3 ; done if shift returned NZ
lxi d,20+20+20
dad d ; point to expected crc
call cmpcrc
lxi d,okmsg
jz tlpok
lxi d,ermsg1
mvi c,9
call bdos
call phex8
lxi d,ermsg2
mvi c,9
call bdos
lxi h,crcval
call phex8
lxi d,crlf
tlpok: mvi c,9
call bdos
pop h
inx h
inx h
ret
tlp3: push h
mvi a,1 ; initialise count and shift scanners
sta cntbit
sta shfbit
lxi h,counter
shld cntbyt
lxi h,shifter
shld shfbyt
mvi b,4 ; bytes in iut field
pop h ; pointer to test case
push h
lxi d,iut
call setup ; setup iut
mvi b,16 ; bytes in machine state
lxi d,msbt
call setup ; setup machine state
jmp tlp
; setup a field of the test case
; b = number of bytes
; hl = pointer to base case
; de = destination
setup: call subyte
inx h
dcr b
jnz setup
ret
subyte: push b
push d
push h
mov c,m ; get base byte
lxi d,20
dad d ; point to incmask
mov a,m
cpi 0
jz subshf
mvi b,8 ; 8 bits
subclp: rrc
push psw
mvi a,0
cc nxtcbit ; get next counter bit if mask bit was set
xra c ; flip bit if counter bit was set
rrc
mov c,a
pop psw
dcr b
jnz subclp
mvi b,8
subshf: lxi d,20
dad d ; point to shift mask
mov a,m
cpi 0
jz substr
mvi b,8 ; 8 bits
sbshf1: rrc
push psw
mvi a,0
cc nxtsbit ; get next shifter bit if mask bit was set
xra c ; flip bit if shifter bit was set
rrc
mov c,a
pop psw
dcr b
jnz sbshf1
substr: pop h
pop d
mov a,c
stax d ; mangled byte to destination
inx d
pop b
ret
; get next counter bit in low bit of a
cntbit: ds 1
cntbyt: ds 2
nxtcbit: push b
push h
lhld cntbyt
mov b,m
lxi h,cntbit
mov a,m
mov c,a
rlc
mov m,a
cpi 1
jnz ncb1
lhld cntbyt
inx h
shld cntbyt
ncb1: mov a,b
ana c
pop h
pop b
rz
mvi a,1
ret
; get next shifter bit in low bit of a
shfbit: ds 1
shfbyt: ds 2
nxtsbit: push b
push h
lhld shfbyt
mov b,m
lxi h,shfbit
mov a,m
mov c,a
rlc
mov m,a
cpi 1
jnz nsb1
lhld shfbyt
inx h
shld shfbyt
nsb1: mov a,b
ana c
pop h
pop b
rz
mvi a,1
ret
; clear memory at hl, bc bytes
clrmem: push psw
push b
push d
push h
mvi m,0
mov d,h
mov e,l
inx d
dcx b
;#idb ldir replaced with following code
ldir3: mov a,m
stax d
inx h
inx d
dcx b
mov a,b
ora c
jnz ldir3
;#idb
pop h
pop d
pop b
pop psw
ret
; initialise counter or shifter
; de = pointer to work area for counter or shifter
; hl = pointer to mask
initmask:
push d
xchg
lxi b,20+20
call clrmem ; clear work area
xchg
mvi b,20 ; byte counter
mvi c,1 ; first bit
mvi d,0 ; bit counter
imlp: mov e,m
imlp1: mov a,e
ana c
jz imlp2
inr d
imlp2: mov a,c
rlc
mov c,a
cpi 1
jnz imlp1
inx h
dcr b
jnz imlp
; got number of 1-bits in mask in reg d
mov a,d
ani 0f8h
rrc
rrc
rrc ; divide by 8 (get byte offset)
mov l,a
mvi h,0
mov a,d
ani 7 ; bit offset
inr a
mov b,a
mvi a,080h
imlp3: rlc
dcr b
jnz imlp3
pop d
dad d
lxi d,20
dad d
mov m,a
ret
; multi-byte counter
count: push b
push d
push h
lxi h,counter ; 20 byte counter starts here
lxi d,20 ; somewhere in here is the stop bit
xchg
dad d
xchg
cntlp: inr m
mov a,m
cpi 0
jz cntlp1 ; overflow to next byte
mov b,a
ldax d
ana b ; test for terminal value
jz cntend
mvi m,0 ; reset to zero
cntend: pop b
pop d
pop h
ret
cntlp1: inx h
inx d
jmp cntlp
; multi-byte shifter
shift: push b
push d
push h
lxi h,shifter ; 20 byte shift register starts here
lxi d,20 ; somewhere in here is the stop bit
xchg
dad d
xchg
shflp: mov a,m
ora a
jz shflp1
mov b,a
ldax d
ana b
jnz shlpe
mov a,b
rlc
cpi 1
jnz shflp2
mvi m,0
inx h
inx d
shflp2: mov m,a
xra a ; set Z
shlpe: pop h
pop d
pop b
ret
shflp1: inx h
inx d
jmp shflp
counter: ds 2*20
shifter: ds 2*20
; test harness
test: push psw
push b
push d
push h
if 0
lxi d,crlf
mvi c,9
call bdos
lxi h,iut
mvi b,4
call hexstr
mvi e,' '
mvi c,2
call bdos
mvi b,16
lxi h,msbt
call hexstr
endif
di ; disable interrupts
;#idb ld (spsav),sp replaced by following code
;#idb All registers and flages are immediately overwritten so
;#idb no need to preserve any state.
lxi h,0 ; save stack pointer
dad sp
shld spsav
;#idb
lxi sp,msbt+2 ; point to test-case machine state
;#idb pop iy
;#idb pop ix both replaced by following code
;#idb Just dummy out ix/iy with copies of hl
pop h ; and load all regs
pop h
;#idb
pop h
pop d
pop b
pop psw
;#idb ld sp,(spbt) replaced with the following code
;#idb HL is copied/restored before/after load so no state changed
shld temp
lhld spbt
sphl
lhld temp
;#idb
iut: ds 4 ; max 4 byte instruction under test
;#idb ld (spat),sp replaced with the following code
;#idb Must be very careful to preserve registers and flag
;#idb state resulting from the test. The temptation is to use the
;#idb stack - but that doesn't work because of the way the app
;#idb uses SP as a quick way of pointing to memory.
;#idb Bit of a code smell, but I can't think of an easier way.
shld temp
lxi h,0
jc temp1 ;jump on the state of the C flag set in the test
dad sp ;this code will clear the C flag (0 + nnnn = nc)
jmp temp2 ;C flag is same state as before
temp1: dad sp ;this code will clear the C flag (0 + nnnn = nc)
stc ;C flage needs re-setting to preserve state
temp2: shld spat
lhld temp
;#idb
lxi sp,spat
push psw ; save other registers
push b
push d
push h
;#idb push ix
;#idb push iy both replaced by following code
;#idb Must match change made to pops made before test
push h
push h
;#idb
;#idb ld sp,(spsav) replaced with following code
;#idb No need to preserve state
lhld spsav ; restore stack pointer
sphl
;#idb
ei ; enable interrupts
lhld msbt ; copy memory operand
shld msat
lxi h,flgsat ; flags after test
mov a,m
flgmsk: ani 0ffh ; mask-out irrelevant bits (self-modified code!)
mov m,a
mvi b,16 ; total of 16 bytes of state
lxi d,msat
lxi h,crcval
tcrc: ldax d
inx d
call updcrc ; accumulate crc of this test case
dcr b
jnz tcrc
if 0
mvi e,' '
mvi c,2
call bdos
lxi h,crcval
call phex8
lxi d,crlf
mvi c,9
call bdos
lxi h,msat
mvi b,16
call hexstr
lxi d,crlf
mvi c,9
call bdos
endif
pop h
pop d
pop b
pop psw
ret
;#idb Added to store HL state
temp: ds 2
;#idb
; machine state after test
msat: ds 14 ; memop,iy,ix,hl,de,bc,af
spat: ds 2 ; stack pointer after test
flgsat equ spat-2 ; flags
spsav: ds 2 ; saved stack pointer
; display hex string (pointer in hl, byte count in b)
hexstr: mov a,m
call phex2
inx h
dcr b
jnz hexstr
ret
; display hex
; display the big-endian 32-bit value pointed to by hl
phex8: push psw
push b
push h
mvi b,4
ph8lp: mov a,m
call phex2
inx h
dcr b
jnz ph8lp
pop h
pop b
pop psw
ret
; display byte in a
phex2: push psw
rrc
rrc
rrc
rrc
call phex1
pop psw
; fall through
; display low nibble in a
phex1: push psw
push b
push d
push h
ani 0fh
cpi 10
jc ph11
adi 'a'-'9'-1
ph11: adi '0'
mov e,a
mvi c,2
call bdos
pop h
pop d
pop b
pop psw
ret
bdos: push psw
push b
push d
push h
call 5
pop h
pop d
pop b
pop psw
ret
msg1: db '8085 instruction exerciser',10,13,'$'
msg2: db 'Tests complete$'
okmsg: db ' OK',10,13,'$'
ermsg1: db ' ERROR **** crc expected:$'
ermsg2: db ' found:$'
crlf: db 10,13,'$'
; compare crc
; hl points to value to compare to crcval
cmpcrc: push b
push d
push h
lxi d,crcval
mvi b,4
cclp: ldax d
cmp m
jnz cce
inx h
inx d
dcr b
jnz cclp
cce: pop h
pop d
pop b
ret
; 32-bit crc routine
; entry: a contains next byte, hl points to crc
; exit: crc updated
updcrc: push psw
push b
push d
push h
push h
lxi d,3
dad d ; point to low byte of old crc
xra m ; xor with new byte
mov l,a
mvi h,0
dad h ; use result as index into table of 4 byte entries
dad h
xchg
lxi h,crctab
dad d ; point to selected entry in crctab
xchg
pop h
lxi b,4 ; c = byte count, b = accumulator
crclp: ldax d
xra b
mov b,m
mov m,a
inx d
inx h
dcr c
jnz crclp
if 0
lxi h,crcval
call phex8
lxi d,crlf
mvi c,9
call bdos
endif
pop h
pop d
pop b
pop psw
ret
initcrc:push psw
push b
push h
lxi h,crcval
mvi a,0ffh
mvi b,4
icrclp: mov m,a
inx h
dcr b
jnz icrclp
pop h
pop b
pop psw
ret
crcval: ds 4
crctab: db 000h,000h,000h,000h
db 077h,007h,030h,096h
db 0eeh,00eh,061h,02ch
db 099h,009h,051h,0bah
db 007h,06dh,0c4h,019h
db 070h,06ah,0f4h,08fh
db 0e9h,063h,0a5h,035h
db 09eh,064h,095h,0a3h
db 00eh,0dbh,088h,032h
db 079h,0dch,0b8h,0a4h
db 0e0h,0d5h,0e9h,01eh
db 097h,0d2h,0d9h,088h
db 009h,0b6h,04ch,02bh
db 07eh,0b1h,07ch,0bdh
db 0e7h,0b8h,02dh,007h
db 090h,0bfh,01dh,091h
db 01dh,0b7h,010h,064h
db 06ah,0b0h,020h,0f2h
db 0f3h,0b9h,071h,048h
db 084h,0beh,041h,0deh
db 01ah,0dah,0d4h,07dh
db 06dh,0ddh,0e4h,0ebh
db 0f4h,0d4h,0b5h,051h
db 083h,0d3h,085h,0c7h
db 013h,06ch,098h,056h
db 064h,06bh,0a8h,0c0h
db 0fdh,062h,0f9h,07ah
db 08ah,065h,0c9h,0ech
db 014h,001h,05ch,04fh
db 063h,006h,06ch,0d9h
db 0fah,00fh,03dh,063h
db 08dh,008h,00dh,0f5h
db 03bh,06eh,020h,0c8h
db 04ch,069h,010h,05eh
db 0d5h,060h,041h,0e4h
db 0a2h,067h,071h,072h
db 03ch,003h,0e4h,0d1h
db 04bh,004h,0d4h,047h
db 0d2h,00dh,085h,0fdh
db 0a5h,00ah,0b5h,06bh
db 035h,0b5h,0a8h,0fah
db 042h,0b2h,098h,06ch
db 0dbh,0bbh,0c9h,0d6h
db 0ach,0bch,0f9h,040h
db 032h,0d8h,06ch,0e3h
db 045h,0dfh,05ch,075h
db 0dch,0d6h,00dh,0cfh
db 0abh,0d1h,03dh,059h
db 026h,0d9h,030h,0ach
db 051h,0deh,000h,03ah
db 0c8h,0d7h,051h,080h
db 0bfh,0d0h,061h,016h
db 021h,0b4h,0f4h,0b5h
db 056h,0b3h,0c4h,023h
db 0cfh,0bah,095h,099h
db 0b8h,0bdh,0a5h,00fh
db 028h,002h,0b8h,09eh
db 05fh,005h,088h,008h
db 0c6h,00ch,0d9h,0b2h
db 0b1h,00bh,0e9h,024h
db 02fh,06fh,07ch,087h
db 058h,068h,04ch,011h
db 0c1h,061h,01dh,0abh
db 0b6h,066h,02dh,03dh
db 076h,0dch,041h,090h
db 001h,0dbh,071h,006h
db 098h,0d2h,020h,0bch
db 0efh,0d5h,010h,02ah
db 071h,0b1h,085h,089h
db 006h,0b6h,0b5h,01fh
db 09fh,0bfh,0e4h,0a5h
db 0e8h,0b8h,0d4h,033h
db 078h,007h,0c9h,0a2h
db 00fh,000h,0f9h,034h
db 096h,009h,0a8h,08eh
db 0e1h,00eh,098h,018h
db 07fh,06ah,00dh,0bbh
db 008h,06dh,03dh,02dh
db 091h,064h,06ch,097h
db 0e6h,063h,05ch,001h
db 06bh,06bh,051h,0f4h
db 01ch,06ch,061h,062h
db 085h,065h,030h,0d8h
db 0f2h,062h,000h,04eh
db 06ch,006h,095h,0edh
db 01bh,001h,0a5h,07bh
db 082h,008h,0f4h,0c1h
db 0f5h,00fh,0c4h,057h
db 065h,0b0h,0d9h,0c6h
db 012h,0b7h,0e9h,050h
db 08bh,0beh,0b8h,0eah
db 0fch,0b9h,088h,07ch
db 062h,0ddh,01dh,0dfh
db 015h,0dah,02dh,049h
db 08ch,0d3h,07ch,0f3h
db 0fbh,0d4h,04ch,065h
db 04dh,0b2h,061h,058h
db 03ah,0b5h,051h,0ceh
db 0a3h,0bch,000h,074h
db 0d4h,0bbh,030h,0e2h
db 04ah,0dfh,0a5h,041h
db 03dh,0d8h,095h,0d7h
db 0a4h,0d1h,0c4h,06dh
db 0d3h,0d6h,0f4h,0fbh
db 043h,069h,0e9h,06ah
db 034h,06eh,0d9h,0fch
db 0adh,067h,088h,046h
db 0dah,060h,0b8h,0d0h
db 044h,004h,02dh,073h
db 033h,003h,01dh,0e5h
db 0aah,00ah,04ch,05fh
db 0ddh,00dh,07ch,0c9h
db 050h,005h,071h,03ch
db 027h,002h,041h,0aah
db 0beh,00bh,010h,010h
db 0c9h,00ch,020h,086h
db 057h,068h,0b5h,025h
db 020h,06fh,085h,0b3h
db 0b9h,066h,0d4h,009h
db 0ceh,061h,0e4h,09fh
db 05eh,0deh,0f9h,00eh
db 029h,0d9h,0c9h,098h
db 0b0h,0d0h,098h,022h
db 0c7h,0d7h,0a8h,0b4h
db 059h,0b3h,03dh,017h
db 02eh,0b4h,00dh,081h
db 0b7h,0bdh,05ch,03bh
db 0c0h,0bah,06ch,0adh
db 0edh,0b8h,083h,020h
db 09ah,0bfh,0b3h,0b6h
db 003h,0b6h,0e2h,00ch
db 074h,0b1h,0d2h,09ah
db 0eah,0d5h,047h,039h
db 09dh,0d2h,077h,0afh
db 004h,0dbh,026h,015h
db 073h,0dch,016h,083h
db 0e3h,063h,00bh,012h
db 094h,064h,03bh,084h
db 00dh,06dh,06ah,03eh
db 07ah,06ah,05ah,0a8h
db 0e4h,00eh,0cfh,00bh
db 093h,009h,0ffh,09dh
db 00ah,000h,0aeh,027h
db 07dh,007h,09eh,0b1h
db 0f0h,00fh,093h,044h
db 087h,008h,0a3h,0d2h
db 01eh,001h,0f2h,068h
db 069h,006h,0c2h,0feh
db 0f7h,062h,057h,05dh
db 080h,065h,067h,0cbh
db 019h,06ch,036h,071h
db 06eh,06bh,006h,0e7h
db 0feh,0d4h,01bh,076h
db 089h,0d3h,02bh,0e0h
db 010h,0dah,07ah,05ah
db 067h,0ddh,04ah,0cch
db 0f9h,0b9h,0dfh,06fh
db 08eh,0beh,0efh,0f9h
db 017h,0b7h,0beh,043h
db 060h,0b0h,08eh,0d5h
db 0d6h,0d6h,0a3h,0e8h
db 0a1h,0d1h,093h,07eh
db 038h,0d8h,0c2h,0c4h
db 04fh,0dfh,0f2h,052h
db 0d1h,0bbh,067h,0f1h
db 0a6h,0bch,057h,067h
db 03fh,0b5h,006h,0ddh
db 048h,0b2h,036h,04bh
db 0d8h,00dh,02bh,0dah
db 0afh,00ah,01bh,04ch
db 036h,003h,04ah,0f6h
db 041h,004h,07ah,060h
db 0dfh,060h,0efh,0c3h
db 0a8h,067h,0dfh,055h
db 031h,06eh,08eh,0efh
db 046h,069h,0beh,079h
db 0cbh,061h,0b3h,08ch
db 0bch,066h,083h,01ah
db 025h,06fh,0d2h,0a0h
db 052h,068h,0e2h,036h
db 0cch,00ch,077h,095h
db 0bbh,00bh,047h,003h
db 022h,002h,016h,0b9h
db 055h,005h,026h,02fh
db 0c5h,0bah,03bh,0beh
db 0b2h,0bdh,00bh,028h
db 02bh,0b4h,05ah,092h
db 05ch,0b3h,06ah,004h
db 0c2h,0d7h,0ffh,0a7h
db 0b5h,0d0h,0cfh,031h
db 02ch,0d9h,09eh,08bh
db 05bh,0deh,0aeh,01dh
db 09bh,064h,0c2h,0b0h
db 0ech,063h,0f2h,026h
db 075h,06ah,0a3h,09ch
db 002h,06dh,093h,00ah
db 09ch,009h,006h,0a9h
db 0ebh,00eh,036h,03fh
db 072h,007h,067h,085h
db 005h,000h,057h,013h
db 095h,0bfh,04ah,082h
db 0e2h,0b8h,07ah,014h
db 07bh,0b1h,02bh,0aeh
db 00ch,0b6h,01bh,038h
db 092h,0d2h,08eh,09bh
db 0e5h,0d5h,0beh,00dh
db 07ch,0dch,0efh,0b7h
db 00bh,0dbh,0dfh,021h
db 086h,0d3h,0d2h,0d4h
db 0f1h,0d4h,0e2h,042h
db 068h,0ddh,0b3h,0f8h
db 01fh,0dah,083h,06eh
db 081h,0beh,016h,0cdh
db 0f6h,0b9h,026h,05bh
db 06fh,0b0h,077h,0e1h
db 018h,0b7h,047h,077h
db 088h,008h,05ah,0e6h
db 0ffh,00fh,06ah,070h
db 066h,006h,03bh,0cah
db 011h,001h,00bh,05ch
db 08fh,065h,09eh,0ffh
db 0f8h,062h,0aeh,069h
db 061h,06bh,0ffh,0d3h
db 016h,06ch,0cfh,045h
db 0a0h,00ah,0e2h,078h
db 0d7h,00dh,0d2h,0eeh
db 04eh,004h,083h,054h
db 039h,003h,0b3h,0c2h
db 0a7h,067h,026h,061h
db 0d0h,060h,016h,0f7h
db 049h,069h,047h,04dh
db 03eh,06eh,077h,0dbh
db 0aeh,0d1h,06ah,04ah
db 0d9h,0d6h,05ah,0dch
db 040h,0dfh,00bh,066h
db 037h,0d8h,03bh,0f0h
db 0a9h,0bch,0aeh,053h
db 0deh,0bbh,09eh,0c5h
db 047h,0b2h,0cfh,07fh
db 030h,0b5h,0ffh,0e9h
db 0bdh,0bdh,0f2h,01ch
db 0cah,0bah,0c2h,08ah
db 053h,0b3h,093h,030h
db 024h,0b4h,0a3h,0a6h
db 0bah,0d0h,036h,005h
db 0cdh,0d7h,006h,093h
db 054h,0deh,057h,029h
db 023h,0d9h,067h,0bfh
db 0b3h,066h,07ah,02eh
db 0c4h,061h,04ah,0b8h
db 05dh,068h,01bh,002h
db 02ah,06fh,02bh,094h
db 0b4h,00bh,0beh,037h
db 0c3h,00ch,08eh,0a1h
db 05ah,005h,0dfh,01bh
db 02dh,002h,0efh,08dh
end

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