Za korekce češtiny dekuji: MELSOFTovi, Silliconovi, Martinu Lukáškovi a NOSTALCOMPovi
Když začínám blbnout z 8bitů tak se chodím léčit mezi otaku.
ÚVOD | Novinky | 8 Bitů | Příslušenství | Drobnosti | TTL | Kontakt
SAPI-1 | ONDRA | PMI-80 | PMD-85 | klony PMD-85 | klony SM50/40 | PETR | PLAN-80A | IQ151 | TNS | FK-1 | HVĚZDA | SP 830 | PCS 1-QR6000
ZPS | Technické prostředky | Programové vybavení | Dokumentace
;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
TITLE 'MONITOR SAPI-1 V4.1F'
; 30.7.1985 (P+S)
; MODIFIKACE MONITORU "M4F" PRO KLAVESNICI C259.11
; 15.7.1985
;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
;
; DOPLNEN HANDLER SNIMACE FS1503 PRO DPP-1
;
; VOLBA SYSTEMU
SP1 EQU -1 ; -1 YES
SP1A EQU 0 ;FOR CP/M SYSTEM MONITOR
CPM EQU 00 ;JPR-1 EPROM VERSION
;
;
; *** DEFINOVANI PAMETOVEHO PROSTORU *
;
MONIT EQU 100H ; START MONITORU
; NASTAVENI PAMETI R A M
RAM EQU 4000H ;START RAM
IF CPM
ERAM EQU 9FFFH ;TOP RAM
TVBEG EQU 0E800H ;TV-RAM
EP2 EQU 800H+200H ; SECOND EPROM
ELSE
ERAM EQU 0FFFFH ;RAM-1 48K
TVBEG EQU 3800H ;TV-RAM
EP2 EQU 800H ; SECOND EPROM
ENDIF
@R@ EQU 4000H ;RESTART VECTOR
RSTN EQU 0CFH ; RST 1
; GLOBAL CONSTANTS
CR EQU 0DH ; CARRIAGE RETURN
HT EQU 9 ; TAB
BACK EQU 8 ; BACK SPACE
BELL EQU 7 ; BELL
LF EQU 0AH ; LINE FEED
ETX EQU 03H ; BREAK CHAR.(CONTROL C)
CTRLW EQU 17H ; BREAK USER
BEGIO EQU 55H ; START VALUE FOR I/O BYTE
; I/O STATUS BYTE MASKS AND VALUES
CMSK EQU 11111100B ; MASK FOR CONZOLE
RMSK EQU 11110011B ; MASK FOR READER
PMSK EQU 11001111B ; MASK FOR PUNCH
LMSK EQU 00111111B ; MASK FOR LIST
CTTY EQU 00000000B ; CONZOLE=TTY
CCRT EQU 00000001B ; CONZOLE=CRT
BATCH EQU 00000010B ; INPUT=READER,OUTPUT=LIST
CUSE EQU 00000011B ; USER REFINED CONZOLE
RTTY EQU 00000000B ; READER=TTY
RPTR EQU 00000100B ; READER=PTR
RUSE1 EQU 00001000B ; USER DEFINED READER 1
RUSE2 EQU 00001100B ; USER DEFINED READER 2
PTTY EQU 00000000B ; PUNCH=TTY
PPTR EQU 00010000B ; PUNCH=PTR
PUSE1 EQU 00100000B ; USER DEFINED PUNCH 1
PUSE2 EQU 00110000B ; USER DEFINED PUNCH 2
LTTY EQU 00000000B ; LIST=TTY
LCRT EQU 01000000B ; LIST=CRT
LLPT EQU 10000000B ; LIST=LPT
LUSE EQU 11000000B ; USER DEFINED LIST
;
; SEPI CONTROL I/O
;
UDATA EQU 12H
USTAT EQU 11H
MMODE EQU 11H
UMODE EQU 10H
URES EQU 13H
ALLINT EQU 02H
ASEG
IF SP1
;
; ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
; RESTARTS & CP/M ENTRY
;
; ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
IF CPM
ORG 100H
ENDIF
IF NOT CPM
ORG 0 ; BEGIN MEMORY
ENDIF
JMP COLD ; COLD START
DB 55H ;INTEL IOBYT
DB 40H ;V 4.0
JMP CCPM
JMP @R@
;
MINUS: MVI A,'-'
JMP COA
JMP @R@+3
;
EQUAL: MVI A,'='
JMP COA
JMP @R@+6
;
QUES: MVI A,'?'
JMP COA
JMP @R@+9
;
IOCHK: LDA IOBYT
RET
DB 'P'
JMP @R@+12
;
IOSET: MOV A,C
STA IOBYT
RET
JMP @R@+15
;
SPCL: LHLD CADR
MOV A,M
RET ; FOR PEDIT
JMP @R@+18
;
CCPM: MOV A,C ;CONTINUE ENTRY TO CPM
MOV C,E ; INTEL
PUSH D ;DE->HL
LXI H,TCPM
MVI B,11 ; MAX CPM ENTRY
JMP INJM@
;-------------------------------
TCPM: DW COLD,CI
DW CO,RI
DW PO,LO
DW CICO,IOCHK
DW IOSET,ERROR
DW ERROR,CSTS
CI: PUSH H
LXI H,CITB
JMP IOCOM-3
;
TABCOD: DB 'AQ1'
DB 1BH,0DH ; ESC, CR
DB 'P0'
DB 'ZSW2 LO9'
DB 'XDE3MKI8'
DB 'CFR4NJU7'
DB 'VGT5BHY6'
; POKRACOVANI TABULKY - SHIFT
DB 10H,11H ; ^A ^Q
DB '!'
DB 0AH,0DH
DB 7FH
DB ')'
DB 'Z'
DB 13H,17H ; ^S, ^W
DB '?'
DB 9 ; TABELATOR/SHIFT SPC
DB '=#('
DB 3 ; EXT/SHIFT X
DB '&E".*@>'
DB '[\%$,-:<'
DB ']_'
DB 8 ; BACKSPACE
DB '^'
DB ';+/'
DB 27H ; ' UVOZOVKA
; I/O DEVICE TABLE
;
IOTAB: DB 'C',03H ;CONSOLE (LOCAL, MASK)
DB 'TCB1' ;PHYSICAL
DB 'R',0CH ;READER
DB 'TP12'
DB 'P',30H ;PUNCHER
DB 'TP12'
DB 'L',0C0H ;LIST
DB 'TCL1'
; ASSING TABLE FOR LOG. DEVICE
;
COTB: DW COLO,CRT,LO,COLOC
CITB: DW KBR,KBR,RI,CILOC
LOTB: DW COLO,CO,LPR,LILOC
RITB: DW KBR,RDR,R1LOC,R2LOC
POTB: DW CO,PUN,P1LOC,P2LOC
;
;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
VERS: DB CR,LF
DB 'SAPI-1 V4.1'
LVER EQU $-VERS ; DELKA OHLASENI
;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
;***************************************************
IF CPM
ORG MONIT+100H
ELSE
ORG MONIT ; *** ZACATEK MONITORU ***
ENDIF
;***************************************************
; TABLE OF EXTERNALLY REFERENCED ROUTINES
JMP COLD ; START MONITORU
JMP CI ; CONZOLE INPUT <A>
JMP RI ; READER INPUT <A>, CY=1 ERROR
JMP CO ; CONZOLE OUTPUT <C>
JMP PO ; PUNCH OUTPUT <C>
JMP LO ; LIST OUTPUT <C>
JMP CSTS ; CONZOLE INPUT STATUS
JMP IOCHK ; I/O BYTE CHEK <A>
JMP IOSET ; I/O BYTE SET <C>
JMP MEMCK ; SIZE MEMORY CHECK
JMP IODEF ; DEFINE USER I/O ENTRY POINTS
JMP SPCL ; I/O CONTROL SPECIAL
JMP CRLF ; NOVY RADEK
JMP EXPR ; SKLADANI ADRES (N=POCET <C>, SP)
JMP ERROR ; HLASENI CHYBY
JMP ASHEX ; PREVOD ASCII->HEX,CHYBA-CARRY
JMP DADR ; ZOBRAZENI ADRESY <HL>
JMP DBYT ; ZOBRAZENI ZNAKU <A> NA 'CO'
JMP HILO ; HL+1,SROVNANI S DE,(HL=0)
JMP NEXT ; PREDANI MONITORU
JMP SPACE ; MEZERA NA 'CO'
JMP CINCR ; ECHO+ANALIZA
JMP TEXT ; VYPIS TEXTU <HL=ADRESA>,<D=DELKA>
JMP XY ; PROVEDENI POVELU DLE <A>
JMP HXASC ; PREVOD HEX->ASCII DO <A>,<C>
JMP EXFLG ; EXTERNAL CONTROL FLAGS
;
;"""""""""""""""""""""""""""""""""""""""""""""""""""""""""""""
; ASSIGN I/O DEVICE MODUL
;
ASIGN: CALL CIMIN ;NAME
; <A>..NAME (EXTERN CALLS)
LXI H,IOTAB ;TABLE
MVI C,4 ;COUNTER
LXI D,6 ;OFFSET
ASS0: CMP M ;IS IT?
JZ ASS1 ;+
DAD D ;ADR
DCR C ;ALL ?
JNZ ASS0 ;-
;
; ERROR MESSAGE
;
ERROR: CALL QUES
CALL BEEP
JMP INIC ;START
;
ASS1: CALL EQUAL
CALL ECHO ;PHIS.D
INX H
MOV B,M ;MASK
MVI C,0 ;IOBYT
ASS2: INX H
CMP M ;IS IT?
JZ ASS3 ;+
PUSH PSW
MVI A,55H ;OFFSET
ADD C
MOV C,A
JC ERROR ;NO #
POP PSW
JMP ASS2 ;NEXT
ASS3: MOV A,C ;COMPUTE IOBYT
ANA B ;MASK
MOV C,A ;SAVE
MOV A,B
CMA ;NEG
IONEW: LXI H,IOBYT
ANA M
ORA C
MOV M,A
RET
;
; QUERY DEVICE
;
QUERY: LXI H,IOTAB ;TABLE
LDA IOBYT ; READ
MOV B,A ;SAVE
CALL $+3
CALL $+3 ;DO IT
; DISPLAY ASSIGN I/O
CALL SPACE
MOV A,M ; READ LOGICAL NAME
CALL COA
CALL EQUAL
PUSH H ;SAVE ADR
INX H
INX H ;ADR
MOV A,B
ANI 3
MOV E,A
MVI D,0
DAD D ;PHYSICAL DEVICE ADR
MOV A,M
CALL COA
MOV A,B
RRC
RRC ;ROTATE IOBYT
MOV B,A
POP H
MVI E,6 ;OFFSET
DAD D
RET ;HL=NEXT ADR
;
;%%%%%%%%%%%%%%%%%%%%%%%%%
; I/O DEVICE CONTROL
;%%%%%%%%%%%%%%%%%%%%%%%%%
CSTS1: ORA A
JM CSLOC ;USER CSTS
XRA A
RET ;BATCH-NOT READY
;
CSTS: LDA IOBYT
RAR
RAR
JC CSTS1
IF NOT CPM
; STATUS KLAVESNICE
KBSTS: LDA 2400H ; STATUS SC/
RRC
MVI A,0FFH
ACI 0
RET
DW -1,-1,-1,-1,-1,-1,-1,-1,-1,-1
DW -1,-1,-1,-1,-1,-1,-1,-1,-1,-1
DW -1,-1,-1,-1,-1,-1,-1,-1,-1,-1
DB -1,-1,-1,-1,-1
;
ELSE
PUSH B
PUSH D
PUSH H
MVI C,6
MVI E,0FFH
CALL 5
CPI CTRLW
CZ RESTA ; BREAK
ORA A
POP H
POP D
POP B
RET
;
ENDIF
BEEP: PUSH B
MVI C,40
CALL CLICK
DCR C
JNZ $-4
POP B
RET
CLICK: MVI H,24H ; PORT0
MVI M,0 ; REPRO ON
CLCK1: DCR B
JNZ CLCK1
MVI M,2 ; REPRO OFF
CLCK2: DCR B
JNZ CLCK2
RET
; PROHLEDAVANI KLAVESNICE ANK-1
;===============================
; KONSTANTNI DOBA PROHLEDAVANI 0.816 MS/488NS.
; PLATNA POSLEDNI NALEZENA KLAVESA.
; B...CITAC DO 8, C... LINEARNI KOD
; D...SHIFT FLAG, SOUCASNE MASKA LED.
; E...CITAC LINEARNIHO KODU KLAVES:
; A-Q-1-LF-CR-P-0 Z-S-W-SP-L-O-9..
; H...UKAZATEL NA PORT0 JPR-1
; L...VYBER MATICE VODOROVNE
; PO PROVEDENI KOD V 'A', 'C' REGISTRU.
; PRIZNAK 'SHIFT' V 'D' REGISTRU.
; FLAG 'SIGN' SIGNALIZUJE STISKNUTI-
; PLUS...ANO, MINUS...NE
KEYIN: PUSH H ; V2.2 20.1.85
LXI D,1FFFH ; MASKA&CITAC
MVI C,0
MVI H,24H ; PORT0
MVI A,11101111B
NXLIN: MOV L,A
ANA D
MOV M,A
MVI B,8 ; CITAC BITU
MOV A,M
KEY: RRC
INR E ; NACTI KOD
JC NXKEY ; SKOC, KDYZ NIC
MOV C,E ; KOD KLAVESY
JNZ NXKEY ; SHIFT ?
MVI D,3FH ; ANO NASTAV MASKU
NXKEY: DCR B
JNZ KEY
MOV A,L
RRC
JC NXLIN
DCR C ; NASTAV 'SIGN'
POP H
RM ; STISKNUTA?
MOV A,D ; SHIFT?
ANI 20H
MOV A,C
RZ ; NE,NAVRAT
ADD E ; ANO, +39
MOV C,A
RET
ENDIF
;
;
;
CALL RESTA ;^W
KBR: CALL KBRD
CPI CTRLW
JZ KBR-3 ; SIMUL. INTERRUPT
CPI CTRLQ
RNZ
PUSH B ;WINDOW
PUSH D
PUSH H
MVI B,0
CALL UCMD ;CLEAR
CALL KBRD ;NUMBER OF RESEVED LINES
ANI 0FH ;MAX 15
STA RESL
MVI B,80H ;SET NEW LINE
CALL UCMD
POP H
POP D
POP B
JMP KBR ;NEW CHAR.
;
CICO: MOV A,C ; DIRECT CRT/KBRD
INR A
JNZ CRT ; ONLY OUTPUT
CALL KBSTS
RZ
KBRD: PUSH H
;
IF CPM
KBR1 MVI E,0FFH
MVI C,6
CALL 5
ANI 7FH
JNZ KBR1 ;WAIT
ELSE
MVI H,27H
MVI M,2 ; AC/=0 ZVUK/=1
KBRD1: MOV A,M ; SC/ = 00
RRC
JC KBRD1
INR H
MOV A,M ; KOD ZNAKU
CMA
ANI 7FH
MOV L,A
DCR H
MVI M,3 ; AC/=1
KBRD2: MOV A,M
RRC
JNC KBRD2
MVI M,2 ; AC/=0
LDA MODE
ANI 4 ; LOWER OPTION?
MOV A,L
POP H
JNZ CNTRP ; IF LOWER
CPI 61H ; <'a'
JC CNTRP
CPI 7BH ; >'z'
JNC CNTRP
SUI 20H ; LOWER=>UPPER
JMP CNTRP
DW -1,-1,-1,-1,-1,-1,-1,-1,-1,-1
ENDIF
;
CNTRP: CPI CTRLP ;^P
RNZ
LDA MODE
XRI 1
STA MODE ; LPR ON/OFF
JMP KBRD
;
;
RI: PUSH H
LXI H,RITB
LDA IOBYT
RICOM: RRC
RRC
JMP IOCOM
;
PO: PUSH H
LXI H,POTB
LDA IOBYT
RRC
RRC
JMP RICOM
;
LO: PUSH H
LXI H,LOTB
LDA IOBYT
RLC
RLC
JMP IOCOM
;----------------------------
;
COLO: CALL LPR
JMP CRT
;----------------------------
;
;
; RUN AND BREAK MODUL:
;
RESTA: DI ;SAVE ALL
SHLD HLSAV
PUSH PSW
LXI H,2 ;OFSSET
DAD SP
SHLD SPSAV
POP PSW
POP H ;PC
LXI SP,HLSAV
PUSH D
PUSH B
PUSH PSW
XCHG
DCX D ; PC-1
LXI H,BRAD ;BREAK ?
MVI C,2 ; TWO BREAKS
RST10: PUSH B ;COUNTER
MOV C,M
MVI M,0
INX H
MOV B,M
MVI M,0
INX H
MOV A,C
ORA B ;0 ?
JZ RST20 ;NO BREAK
MOV A,M ;RESTORE INSTR
STAX B
INX H
PUSH H
MOV H,B
MOV L,C ;BREAK/INTR ?
CALL COMPR
POP H
JNZ RST20
DCX D ;PC-1
RST20: POP B
DCR C
JNZ RST10
XCHG
INX H ;RESTORE PC
SHLD PCSAV
STC
CALL X+3 ;DISPLAY ALL REGISTERS
JMP NEXT ;WAIT FOR COMMAND
;
; GO TO COMMAND
;
GOTO: CALL EQUAL
CALL CINCR ;COMMAND
JC GO@ ;IF CR THEN GOTO FROM OLD PC
JZ GO@BR ; OLD PC AND BREAK
CALL EXPRM ;START ADR
POP H
SHLD PCSAV ;SET NEW
MOV A,B ;ONLY START ADR ?
CPI CR
JZ GO@
GO@BR: CALL RADR ;READ BREAK ADR
SHLD BRAD
MOV A,M ;SAVE INSTR. CODE
STA INSTR
MVI M,RSTN ;SET RST
MVI A,CR
CMP B ;ONLY 1-BREAK ?
JZ GO@
; SECOND BREAK
CALL RADR
SHLD BRAD2
MOV A,M
STA INST2
MVI M,RSTN
; START PROGRAM
GO@: CALL CRLF
DI
LXI SP,ACSAV ;REASTORE REGISTERS
POP PSW
POP B
POP D
LHLD SPSAV ;STACK
SPHL
LHLD PCSAV ; PC
XTHL
LHLD HLSAV
RET ;CONTINUE...
;
; EXAMINE REGISTRS
;
X: CALL CINCR ;COMMAND
LXI H,RGNAM ;NAME TABLE
MVI D,HIGH ACSAV ;DATA
JNC X1 ;CHANGE
CALL CRLF
X0: CALL XDISP
RZ ;END
INX H
JMP X0
X1: JZ X2 ;NO CHANGE
MOV E,A ;SAVE NAME
DB 1 ; LXI B,##
X10: INX H
INX H
MOV A,M ; READ NAME REG.
ANI 7FH
JZ ERROR ; NO FIND
CMP E
JNZ X10 ; NEXT
CALL XDIS1 ; DISPLAY IT
JMP X2+3
;
X2: CALL XDISP+3
RZ
CALL CIMIN ;- COMMAND
RC ;CR - END
MOV E,M ;LOW ADR
INX H
JZ X2 ;SP - NEXT
XCHG
PUSH D
CALL RBYT ; READ NEW BYTE AND CHANGE
DCR B
JZ $+6
MOV M,D ; HIGH BYTE
DCX H
MOV M,E ;LOW
POP D
XCHG
CPI CR ;LAST?
RZ ;+
JMP X2 ;NEXT
;
XDISP: CALL SPACE
MOV A,M
ANI 7FH
RZ
CALL COA
XDIS1: CALL EQUAL ;NAME=
MOV A,M
RLC
MVI A,1
ACI 0 ; COMPUTE LENGHT
MOV B,A ; SAVE
INX H
MOV E,M ; LOW ADR
LDAX D ;HIG BYTE
CALL DBYT
MOV A,B ;SINGLE REG. ?
DCR A
DCX D
LDAX D ;READ SECOND BYTE
CNZ DBYT ;IF 2.BYTE REG. THEN DISP.
ORA E ;NZY (IN PAGE)
RET
;
; X: COMMAND TABLE
RGNAM: DB 'A',LOW ACSAV+1
DB 'F',LOW ACSAV
DB 'B',LOW BCSAV+1
DB 'C',LOW BCSAV
DB 'D',LOW DESAV+1
DB 'E',LOW DESAV
DB 'H',LOW HLSAV+1
DB 'L',LOW HLSAV
DB 'P' OR 80H,LOW PCSAV+1
DB 'S' OR 80H,LOW SPSAV+1
DB 0
;
; DISPLAY CONTENS OF MEMORY
;
DISP: CALL EXPR ; FROM -TO
POP D
POP H
DI0: PUSH H ;FIRST ADR
CALL DNADR ;NEW ADR
DI1: MOV A,M
CALL DBYTE
CALL HILO
JC DIA ;DISPLAY ASCII
MOV A,L
ANI 7
JNZ DI1 ;NEXT BYTE
DIA: POP H
CALL SPACE
DI2: MOV A,M
MVI C,'.' ;NO ASCII
CPI ' '
JNC $+4
MOV A,C
CPI 60H
JC $+5
SUI ' '
CALL COA
CALL HILO
RC
MOV A,L
ANI 7
JNZ DI2 ;NEXT ASCII
CALL CSTS
JZ DI0 ;NEXT LINE
CALL CIMIN ;#VERS."F" -
RC ;#IF SPC WAIT
RNZ ;#ELSE BREAK.
CALL CINCR ;#CR?
JNC DI0 ;#BREAK,IF CR
RET
;
; FILL MEMORY BLOCK WITH BYTE
;
FILL: INR C
CALL EXPR ;FROM-TO-WITH
POP B
POP D
POP H
FI1: MOV M,C
CALL HILO
JNC FI1
RET
;
; MOVE BLOCK MEMORY
;
MOVE: INR C
CALL EXPR
POP B
POP D
POP H
MO1: MOV A,M
STAX B
INX B
CALL HILO
JNC MO1
RET
;
; SUBSTITUTE MEMORY
;
SUBS: CALL RADR ;ADR
SU1: MOV A,M
CALL DBYT
CALL CIMIN ;- & CINCR
RC ;CR
JZ SU2
CALL RBYT ;CHANGE
RZ ;END
SU2: INX H ;NEXT BYTE
CPI ',' ;IF , THEN DISPLAY ADR
CZ DNADR
JMP SU1
;
; CONSOLE MODUL
;
;
ECHO: CALL CI
COA: PUSH B
MOV C,A
CALL CO
POP B
RET
;
IF SP1A
MINUS: MVI A,'-'
JMP COA
;
EQUAL: MVI A,'='
JMP COA
;
QUES: MVI A,'?'
JMP COA
;
ENDIF
;
;SET MODE. I/O FLAGS
;
EXFLG: MOV B,A
MOV A,C
CPI EXSER ; OVERFLOW ?
MOV A,B
RNC
PUSH H ; <A> .. COMMAND
; <C> .. 0-N SLUZBA
MVI B,0 ; 0-MODE, 1-@IF1..4@OF2
LXI H,MODE ; 0=0
DAD B ; 5- RESERVE_LINE, 6-S@FLG
MOV M,A
POP H
RET
;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
; **** S T A R T M O N I T O R U ****
;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
;
COLD: OUT URES ; RESET
XRA A ;MONITORU
OUT UMODE
MVI A,0DH
OUT MMODE
MVI A,0BCH ; A-IN,B-OUT,MOD1
OUT CNTR1 ; DPP-1
;
;-------------------------------------
BEG: DI ; COMMAND "C"
LXI H,MSTAK ; SET STACK POINTER
SPHL
LXI D,@R@+255
MVI C,0
CALL FI1 ;CLEAR M-RAM
MVI A,BEGIO ;SET IOBYTE
STA IOBYT
CALL COINIT ;TV
CALL EP2? ;M-PLUS ?
CZ EP2+3 ;INIT M-PLUS
LXI H,RAM
MEM1: INR H ; NEXT PAGE
MOV A,H
IF HIGH ERAM NE 0FFH
CPI HIGH ERAM+1
ELSE
CPI 0
ENDIF
JZ MEM2
MOV A,M
CMA
MOV M,A ; WRITE COMPLEMENT
CMP M ; WRITE O.K. ?
CMA
MOV M,A ; RAM RESTORE
JZ MEM1
MEM2: DCX H ; LAST BYTE IN RAM
SHLD MEMTOP ; SAVE ADDRES
MVI A,17H ; LIN. KOD 'C'
STA LASTC ; LAST CODE
MVI A,0FFH
STA FLAG ; ZAKAZ CSTS
LXI H,MSTAK-20H
SHLD SPSAV
; OHLASENI MONITORU
INIC: LXI H,VERS ; TEXT OHLASENI
MVI D,LVER ; DELKA TEXTU
CALL TEXT ; TEXT OHLASENI
;------------------------------------
; * VYHODNOCENI POVELU OPERATORA *
;------------------------------------
NEXT: LXI SP,MSTAK ; SET STACK FOR MONITOR
LXI H,NEXT
PUSH H ;RET. ADR
IF NOT CPM
MVI H,30H ;INTERRUPT ENABLE
MVI M,2
ENDIF
CALL CRLF
MVI A,0C3H ; JMP
STA @R@ ; SET INTERUPT ADR "08CH"
LXI H,RESTA
SHLD @R@+1
MVI C,'.'
CALL CO
CALL CINCR ; POVEL
XY: MOV L,A ; L-COMMAND
PUSH H ; SAVE
SUI 'A'
JM NEXT ; ASCII < "A"
LXI H,CTBL ; ZACATEK COMMAND TABLE
LXI B,(LCT SHL 8) OR 2
INJM@: CMP B
JNC ERROR ;OVERFLOW
INJMP: ADD A ;2*
ADD L
MOV L,A
MOV A,M
INX H
MOV H,M
MOV L,A
XTHL ;SET HL
RET ;START
;----------------------------------
; * TABULKA POVELU MOVITORU *
;----------------------------------
;
CTBL: DW ASIGN ; ASSING I/O RUTINE
DW EXROM ;B
DW BEG ; CLEAR
DW DISP ; DISPLAY MEMORY
DW EXROM ; END OF FILE
DW FILL ; FILL MEMORY
DW GOTO ; GOTO WITH BREAK
DW EXROM
DW EXROM ;I
DW EXROM ;J
DW EXROM ;K
DW EXROM ;L
DW MOVE ; MOVE MEM.
DW EXROM ; N - BLANK
DW EXROM ;O
DW EXROM ;P
DW QUERY ; Q - MEMTOP & IOBYTE
DW EXROM ; READ TAPE
DW SUBS ; SUBSTITUTE
DW EXROM
DW EXROM ;U
DW EXROM
DW EXROM ;WRITE TO TAPE
DW X ;X - EXAMINE
LCT EQU ($-CTBL)/2
;
; EXTEND ROM WITH MONIT-PLUS ?
;
EXROM: CALL EP2?
JNZ ERROR ;NO, ERROR
JMP EP2 + 6 ;YES, EXECUTE COMMAND
;
EP2?: LDA EP2
CPI 0C3H ;JMP?
RET
;
;
;&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&
; * EXTERNAL RUTINES FOR MONITOR *
;&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&&
; HIGH NIBBLE
HBYTE: RRC
RRC
RRC
RRC
LBYTE: ANI 0FH
; PREVOD HEXADECIMALNI CIFRY NA ASCII V "C" REG
HXASC: ADI 90H
DAA
ACI 40H
DAA
MOV C,A
RET
; SKLADANI ADRES (VSTUP PARAMETRU) DO STACKU, POCET V C-REG
EXPRO: JC ERROR ;# VERS."C" #
EXPR: CALL EQUAL ; TISK =
LXI H,0
EX0: CALL ECHO
EX1: MOV B,A
CPI 27H ;'
JZ EX4
CALL ASHEX ; HEX CIFRA ?
JC EX3 ; POSUV "HL" O 4 BITY VLEVO
DAD H
DAD H
DAD H
DAD H
ORA L
MOV L,A
JMP EX0 ; DALSI ZNAK
EX3: MOV A,B
CALL ANAL
JNZ ERROR ; NENI HEX CIFRA
XTHL
PUSH H
DCR C ; CARKA, MEZERA
JNZ EXPRO ; DALSI ADRESY
RNC ;#VERS."F"#
;
CRLF: MVI C,CR
CALL CO
MVI C,LF ; DO CR,LF
;
CO: PUSH H
LXI H,COTB
LDA IOBYT
IOCOM: ANI 3
JMP INJMP
EXPRM: MVI C,1
LXI H,0
JMP EX1
;
EX4: CALL CINCR ;COMMAND
MOV B,A ;SAVE
JZ EX3
MOV H,L
MOV L,A
JMP EX4
; IODEF:... DEFINE USER I/O RUTINE
IODEF: PUSH B
PUSH H
LXI H,MEMTOP ;NEW FUNCTION
MOV A,C ; NUMBER
CPI 8
JZ IODEF1
JP ERROR
ADD C
ADD C
MOV C,A
MVI B,0 ; OFFSET
LXI H,CILOC ; COMPUTE ADR
DAD B
MVI M,0C3H ; JMP
INX H
IODEF1: MOV M,E
INX H
MOV M,D ; ADR
POP H ; UNSAVE
POP B
RET
; INKREMENTRUJE "HL" ,KONTROLUJE "HL"=0 NEBO
; "HL">"DE"...CARRY=1
HILO: INX H
MOV A,H
ORA L
STC
RZ ; NAVRAT PO "HL"=0000
COMPR: MOV A,D
CMP H
RNZ
MOV A,E
CMP L
RET
; READ ADR
RADR: MVI C,1
CALL EXPR
POP H
RET
; READ NEW BYTE
RBYT: PUSH B
PUSH H
CALL EXPRM
POP D
POP H
MOV M,E
MOV A,B
CPI CR
POP B
RET
; DISPLAY NEW ADR
DNADR: CALL CRLF
DADR: CALL DADR0
JMP SPACE
IF SP1A
; CHEK I/O STATUS BYTE
IOCHK: LDA IOBYT
RET
; SET I/O STATUS BYTE
IOSET: MOV A,C
STA IOBYT
RET
ENDIF
; DISPLAY ADDRES INT0 "HL"
DADR0: MOV A,H
CALL DBYT
MOV A,L
; DISPLAY BYTE INT0 ACC
DBYT: PUSH PSW
CALL HBYTE
CALL CO
POP PSW
CALL LBYTE
JMP CO
; CHEK SIZE RAM MEMORY
MEMCK: PUSH H
LHLD MEMTOP
MOV A,L
MOV B,H
POP H
RET
; PREVOD ZNAKU ASCII NA HEXADEC
ASHEX: SUI '0' ;#VERS."F"#
RC ; <'0'
CPI 17H ; >'F'
CMC
RC
CPI 10 ; '0'..'9'
CMC
RNC
CPI 11H ; 0AH..10H
RC
SUI 7 ; 'A'..'F'
RET
CIMIN: CALL MINUS ;-
;
CINCR: CALL ECHO
ANAL: CPI ','
ANAL0: RZ
CPI ' '
RZ
CPI CR
STC
RZ
ORA A
RET ; PO CR CARRY=1
; VYPIS TEXTU - HL ADRESA, D DELKA
TEXT: MOV C,M
INX H
CALL CO
DCR D
JNZ TEXT
RET
DBYTE: CALL DBYT
SPACE: MVI C,' ' ; DISPLAY MEZERY
JMP CO
;
;
;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
; I/O DEVICE
;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
;
; T.V. PARAM.
WIDTH EQU 40
HEIGHT EQU 24
LINOF EQU 64 ;OFFSET
LREST EQU LINOF - WIDTH
TVEND EQU TVBEG + 5E7H
ERS EQU 1FH ;ERASE SCREEN
EOL EQU 1EH ;ERASE END OF LINE
CTRLQ EQU 11H ;^Q-RESERVE
CTRLP EQU 10H ;^P-LIST
CURSOR EQU 0A0H ;CODE
HOME EQU 1DH ;HOME
;
;-------------------------------------------------
COINIT: LXI H,TVBEG
SHLD CADR ;SET CURSOR ADR
MVI C,ERS ;CLEAR SCREEN
;
;%%%%%%%%%%%%%%%%%%%%%%%%%%
; CONSOLE OUTPUT
; <C>...WRITE ON SCREN
;
CRT: PUSH D
PUSH H
LXI H,COEX ;RET-ADR
PUSH H ;PUT TO STACK
LHLD CADR ;CLEAR CURSOR
LDA CHAR ;ADR RESTORE
MOV M,A ;CHART
CALL COADR ;COMPUTE ADR
MOV A,C
CPI ' ' ;IF ' '...'Z' THEN WRITE
JNC CRTWR ;ELSE DECODE CONTROL
CPI CR ;CHARTS AND DO
JZ CR@ ;CHANGE ON SCREEN
CPI LF
JZ LF@
CPI EOL
JZ EOL@ ;ERASE TO END LINE
CPI BACK
JZ BACK@ ;LEFT SHIFT
CPI HOME
JZ HOME@ ;LEFT UP
CPI ERS
JZ ERS@
CPI BELL
JZ BEEP
RET
;
CRTWR: LDA MODE
ANI 0C0H ;MODE
MOV D,A ; SAVE
MOV A,C ;6.BITS
ANI 3FH
ORA D ;COMPOSITE
MOV M,A ;WRITE!
SUI 0C0H ;DOUBLE ?
CNC CONXT ;+
CONXT: CALL COADR ;COMPUTE NEXT ADR
MOV A,D
INR A
STA COLUM ;NEW POSITION
SUI WIDTH ;END LINE
RC ;NO
STA COLUM ;SET POSITION AND COMPUTE
; NEXT LINE
LF@: MOV A,E
INR A
CPI HEIGHT ;END OF SCREEN?
JC LF@1 ;NO
LHLD RESL
MVI H,0
CALL COADR+3 ;FIRST LINE
PUSH B
LDA RESL ;LINE COUNTER
SUI HEIGHT
CMA
MOV C,A
ROLL: MVI B,WIDTH
XCHG
ROLL1: LXI H,LINOF ;OFFSET
DAD D
MOV A,M
STAX D ;COPY
INX D ;+
DCR B
JNZ ROLL1 ;ALL LINE
LXI H,LREST ;NEW LINE
DAD D
DCR C
JNZ ROLL ;NEXT LINE
POP B
;
ERS@: CALL EOL@
LXI D,LREST
DAD D
LXI D,TVEND-1
CALL COMPR
JNC ERS@
RET
;
;
; "EXIT" AND SET CURSOR
COEX: CALL COADR ;WRITE CURSOR
LDA MODE
RRC ;CY=1.. LIST
CC LPR ;PRINT ECHO
MOV A,M
STA CHAR ;ADD SAVE CHAR
SHLD CADR
LDA MODE ;#VERS."F"#
ANI 20H ;#SUPRESS CURSOR?
JNZ COEX1 ;#
MVI M,CURSOR
COEX1: POP H ;UNSAVE
POP D
MOV A,C
RET ;END OF CONSOLE OUTPUT
; SUBROUTINES
;--------------------------------------------------
COADR: LHLD LINE ;COMPARE ADR <HL>
PUSH H
MVI H,0
DAD H
DAD H
DAD H
DAD H
DAD H
DAD H ;64*
LXI D,TVBEG ;TV-RAM
DAD D ;BEGIN LINE
POP D ;SET DE
MOV A,L ;D-COLUM
ORA D ;E-LINE
MOV L,A ;HL...ADR
RET
; ERASE FROM CURSOR TO END LINE
EOL@: MVI M,' '
INX H
MOV A,L
ANI 3FH
CPI WIDTH
JC EOL@
RET
BACK@: MOV A,D ;COLUMN:0 ?
ORA A
JNZ BAC@1 ;NO FINST POSITIONS
INR E ;IF LINE=0 THEN BEGIN
DCR E ;OF SCREEN
RZ
LDA RESL ;SAVE "RESERVE" PARTIONS
CMP E
RZ ;YES,GO OUT
MOV A,E ;NO SET NEW LINE
DCR A
STA LINE
MVI A,WIDTH
BAC@1: DCR A
DB 16H ;MVI D,#
CR@: XRA A ;CARIG. RETURN
STA COLUM
RET
;SET CURSOR ON BEGIN "NORMAL" SCREEN
HOME@: CALL CR@ ;NULL
LDA RESL ;"RESERVE" LINE SET
LF@1: STA LINE
RET
;
; UNDERLINE
UCMD: LDA RESL ;EMPTY ?
ORA A
RZ ;EMPTY
DCR A
MOV L,A
MVI H,0
CALL COADR+3
MVI D,WIDTH
RESX: MOV A,M ;UNDER LINE
ANI 3FH ;ASCII
ORA B ;PARAM
MOV M,A
INX H
DCR D
JNZ RESX
RET
;**********************************************************
;
; LINE PRINTER
;
LPR: PUSH H
LXI H,2C01H
MOV M,C
DCR H
MOV M,L
INR H
LPR1: MOV A,M
ADD A
JP LPR1
DCR H
MVI M,3
INR H
LPR2: MOV A,M
ADD A
JM LPR2
DCR H
MOV M,L
POP H
RET
;
;
; PUNCH OUTPUT
;
PUN: RET ; EMPTY
DS 20 ; RESERVA
;
; READER INPUT
PA1 EQU 30H
PC1 EQU 32H
CNTR1 EQU 33H
;
RDR: IN PC1
RLC
RLC
RC ;PRETRZENA PASKA
ORA A
JP RDR
IN PA1
RET
;
;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
ORG @R@
;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
; SYSTEM RAM SAPI-1
;
RST1: DS 21 ;RESTART VECTOR
;<<... USER & MONITOR STACK
;
;
;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
ORG @R@+090H
;%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
; MONITOR DATA
;
MSTAK: DS 2 ; SAVE REGISTERS
ACSAV: DS 2
BCSAV: DS 2
DESAV: DS 2
HLSAV: DS 2
PCSAV: DS 2
SPSAV: DS 2
;
BRAD: DS 2
INSTR: DS 1
BRAD2: DS 2
INST2: DS 1
LASTC: DS 1 ;LAST CODE "REPEAT"
CADR: DS 2 ; CURSOR ADR
CHAR: DS 1 ; CODE
FLAG: DS 1 ; FLAG MEMBR
LIMIT: DS 2 ; TIME LIMIT FOR AUTO REPEAT
@BT: DS 1
@PED: DS 1
UADR: DS 2 ;USER ADR
SADR: DS 2 ; START ADR
EADR: DS 2 ; END ADR
SUM: DS 1
;*******************************
;MONITOR PLUS DATA
JOINT: DS 1
FNAME: DS 11
BNO: DS 1 ;BLOCK NUMSER,FILE NUMBER
BTO: DS 1
BNI: DS 1 ; --- " ---
BTI: DS 1
ADRO: DS 2
ADRI: DS 2
PBITM: DS 2
FND: DS 1 ; FIND FLAG
;-------------------------
; USER I/O DEVICE
; IODEF NUMBER
CILOC: DS 3 ; (0)
COLOC: DS 3 ; (1)
R1LOC: DS 3 ; (2)
R2LOC: DS 3 ; (3)
P1LOC: DS 3 ; (4)
P2LOC: DS 3 ; (5)
LILOC: DS 3 ; (6)
CSLOC: DS 3 ; (7)
;******************************
;<< EXTERNE OVLADANE FLAGY: >>
;******************************
MODE: DS 1 ;CRT-MODE
@IF1: DS 1 ;OPEN FLAGS
@IF2: DS 1
@OF1: DS 1
@OF2: DS 1
LINE: DS 1 ;LINE
COLUM: DS 1 ;COLUMN
RESL: DS 1 ;RESERVE
UBYTE: DS 1 ;USER BYTE (REALTIME..)
@SFLG: DS 1 ;#0..NO STOP
EXSER EQU $-MODE ;EXTERNAL SERVICE
IOBYT: DS 1 ;I/O CONTROL
MEMTOP: DS 2 ;MEMTOP "RAM"
;-------------------------
; I/O BUFFERS
DS 1 ;BLOCK LABEL
BOUT: DS 255 ;BLOCK LENGHT
BOEND EQU $
;
DS 1 ; BLOCK LABELS
BIN: DS 255 ;BLOCK LENGHT
BIEND EQU $
;
WRNM: DS 11
;=============================
ORG @R@ + 300H
;=============================
; "MAT" ARRAY
DS 0FFH
;=============================
ORG @R@ + 400H
;=============================
; SYSTEM OR USER PROGRAMS
;---->>>>>>>>>>>
;
;
;
END
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