6502 Assembler for VolksForth#
See 6502 Assembler in Forth for the original FIG-Forth version of this assembler
\ 6502 Assembler clv10oct87 \ Basis: Forth Dimensions VOL III No. 5) \ internal loading 04may85BP/re) \ Forth-6502 Assembler clv10oct87 \ Basis: Forth Dimensions VOL III No. 5) CR .( Loading 6502 Assembler...) CR Onlyforth Assembler also definitions \ Forth-83 6502-Assembler 20oct87re : end-code context 2- @ context ! ; Create index $0909 , $1505 , $0115 , $8011 , $8009 , $1D0D , $8019 , $8080 , $0080 , $1404 , $8014 , $8080 , $8080 , $1C0C , $801C , $2C80 , | Variable mode : Mode: ( n -) Create c, Does> ( -) c@ mode ! ; 0 Mode: .A 1 Mode: # 2 | Mode: mem 3 Mode: ,X 4 Mode: ,Y 5 Mode: X) 6 Mode: )Y $F Mode: ) \ upmode cpu 20oct87re | : upmode ( addr0 f0 - addr1 f1) IF mode @ 8 or mode ! THEN 1 mode @ $F and ?dup IF 0 DO dup + LOOP THEN over 1+ @ and 0= ; : cpu ( 8b -) Create c, Does> ( -) c@ c, mem ; 00 cpu brk $18 cpu clc $D8 cpu cld $58 cpu cli $B8 cpu clv $CA cpu dex $88 cpu dey $E8 cpu inx $C8 cpu iny $EA cpu nop $48 cpu pha $08 cpu php $68 cpu pla $28 cpu plp $40 cpu rti $60 cpu rts $38 cpu sec $F8 cpu sed $78 cpu sei $AA cpu tax $A8 cpu tay $BA cpu tsx $8A cpu txa $9A cpu txs $98 cpu tya \ m/cpu 20oct87re : m/cpu ( mode opcode -) Create c, , Does> dup 1+ @ $80 and IF $10 mode +! THEN over $FF00 and upmode upmode IF mem true Abort" invalid" THEN c@ mode @ index + c@ + c, mode @ 7 and IF mode @ $F and 7 < IF c, ELSE , THEN THEN mem ; $1C6E $60 m/cpu adc $1C6E $20 m/cpu and $1C6E $C0 m/cpu cmp $1C6E $40 m/cpu eor $1C6E $A0 m/cpu lda $1C6E $00 m/cpu ora $1C6E $E0 m/cpu sbc $1C6C $80 m/cpu sta $0D0D $01 m/cpu asl $0C0C $C1 m/cpu dec $0C0C $E1 m/cpu inc $0D0D $41 m/cpu lsr $0D0D $21 m/cpu rol $0D0D $61 m/cpu ror $0414 $81 m/cpu stx $0486 $E0 m/cpu cpx $0486 $C0 m/cpu cpy $1496 $A2 m/cpu ldx $0C8E $A0 m/cpu ldy $048C $80 m/cpu sty $0480 $14 m/cpu jsr $8480 $40 m/cpu jmp $0484 $20 m/cpu bit \ Assembler conditionals 20oct87re | : range? ( branch -- branch ) dup abs $7F u> Abort" out of range " ; : [[ ( BEGIN) here ; : ?] ( UNTIL) c, here 1+ - range? c, ; : ?[ ( IF) c, here 0 c, ; : ?[[ ( WHILE) ?[ swap ; : ]? ( THEN) here over c@ IF swap ! ELSE over 1+ - range? swap c! THEN ; : ][ ( ELSE) here 1+ 1 jmp swap here over 1+ - range? swap c! ; : ]] ( AGAIN) jmp ; : ]]? ( REPEAT) jmp ]? ; \ Assembler conditionals 20oct87re $90 Constant CS $B0 Constant CC $D0 Constant 0= $F0 Constant 0<> $10 Constant 0< $30 Constant 0>= $50 Constant VS $70 Constant VC : not $20 [ Forth ] xor ; : beq 0<> ?] ; : bmi 0>= ?] ; : bne 0= ?] ; : bpl 0< ?] ; : bcc CS ?] ; : bvc VS ?] ; : bcs CC ?] ; : bvs VC ?] ; \ 2inc/2dec winc/wdec 20oct87re : 2inc ( adr -- ) dup lda clc 2 # adc dup sta CS ?[ swap 1+ inc ]? ; : 2dec ( adr -- ) dup lda sec 2 # sbc dup sta CC ?[ swap 1+ dec ]? ; : winc ( adr -- ) dup inc 0= ?[ swap 1+ inc ]? ; : wdec ( adr -- ) dup lda 0= ?[ over 1+ dec ]? dec ; : ;c: recover jsr end-code ] 0 last ! 0 ; \ ;code Code code> bp/re03feb85 Onlyforth : Assembler Assembler [ Assembler ] mem ; : ;Code [compile] Does> -3 allot [compile] ; -2 allot Assembler ; immediate : Code Create here dup 2- ! Assembler ; : >label ( adr -) here | Create immediate swap , 4 hallot heap 1 and hallot ( 6502-alig) here 4 - heap 4 cmove heap last @ count $1F and + ! dp ! Does> ( - adr) @ state @ IF [compile] Literal THEN ; : Label [ Assembler ] here >label Assembler ; Onlyforth