apple2_russian_peasant_mult.../rpm_m32.s

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2016-08-19 00:42:48 +00:00
; ASC
; DFB
;.include "ca65_fixes.inc"
ZERO_LEAD EQU $00
KEY_CR EQU $8D
KEY_ESC EQU $9B
KEY_0 EQU $B0 ; '0' = $30
KEY_9 EQU $B9 ; '9' = $39
pDigits EQU $FA
Carry EQU $FC
Div EQU $FD
KEYBOARD EQU $C000
KEYSTROBE EQU $C010
TEXT EQU $FB2F ; Init text mode and window
HOME EQU $FC58
RDKEY EQU $FD0C
COUT EQU $FDED
__main = $2000
; Header for DOS 3.3 binary file; remove 2 lines for ProDOS
DW __main
DW __end - __main
; main()
ORG __main
LDA #7 ; Version
JSR TEXT ; Just in case we are in graphics mode
JSR HOME
JSR InitABS ; Init A,B,S
JSR IntroH
JSR InputA ; Input
JSR InputB
JSR IntroS
MulDigit ; Calc
JSR IsZeroB
BCS OutS
JSR IsOddB
BCC EvenS
JSR AddAToS
EvenS
JSR ShlA
JSR ShrB
CLC
BCC MulDigit ; ^ (always)
OutS
JSR PrintS ; output
;RTS ; NOTE: DOS3.3 BRUN bug doesn't exit, should JMP $3D0
JMP $0000
InputA
JSR IntroA
JSR GetPtrA
BNE GetString
InputB
JSR IntroB
JSR GetPtrB
; intentional fall int GetString
GetString ; common entry point
STX pDigits
STY pDigits+1
LDX #0 ; digits length
_linechar
JSR GetDigit ; C=1 enter, C=0 digit
BCS _linedone
JSR COUT ; preserves A,Y
AND #$F ; C=0 digit
STA Buffer,X
INX
BPL _linechar ; or BNE for 255 digits
BMI IntroE ; error if > 127 digits
_linedone ; Now move digits from $200 -> DigitsA, DigitsB, etc.
LDY #0 ; X = src, Y = dst offset
CPX #0 ; any digits?
BEQ _movedone ; No digits!
_moveline
DEX
LDA Buffer,X
STA (pDigits),Y ; digit[y] = char & 0xF
INY
CPX #0
BNE _moveline ; ^ max 256 digits
_movedone
BEQ PrintCR ; v (always)
GetDigit
; LDA KEYBOARD
; BPL GetDigit
; STA KEYSTROBE
JSR RDKEY
CMP #KEY_CR
BEQ _eol
CMP #KEY_ESC
BEQ _esc
CMP #KEY_0
BCC GetDigit
CMP #KEY_9+1
BCS GetDigit
RTS
_eol SEC ; C=1 enter
RTS
_esc ; Unwind stack of InputA/B
PLA
PLA
RTS ; Return to who originally called main()
GetPtrA
LDX #<DigitsA ; lo byte
LDY #>DigitsA ; hi byte
RTS
GetPtrB
LDX #<DigitsB
LDY #>DigitsB
RTS
GetPtrS
LDX #<DigitsS
LDY #>DigitsS
RTS
InitABS
LDA #$00
TAX
_zero
STA DigitsA,X
STA DigitsB,X
STA DigitsS,X
INX
BNE _zero ; zero digits[0..$FF]
RTS
IntroA LDY #OffsetA
BNE _intro
IntroB LDY #OffsetB
BNE _intro
IntroS LDY #OffsetS
BNE _intro
IntroE LDY #OffsetE
BNE _intro
IntroH
LDY #OffsetH
_intro
LDA _text,Y
BEQ _outro ; asciiz
JSR COUT
INY
BNE _intro
_outro
RTS
PrintCR
LDA #KEY_CR
JMP COUT
; ________________________________________________________________________
; Pseudo BCD - one byte per digit
; ________________________________________________________________________
; ========================================
PrintA
JSR GetPtrA
BNE _print
PrintB
JSR GetPtrB
BNE _print
PrintS
JSR GetPtrS
_print
STX _bcd+1
STY _bcd+2
LDX #ZERO_LEAD ; Default to leading zero ($0)
LDY #$FF ; start at digits[255]
_bcd
LDA $FFFF,Y ; NOTE: Self-Modified by _print
BNE _digit ; digits[i] == 0 && leadingzero
CPX #ZERO_LEAD ; X != 0
BEQ _skip
_digit
CLC
ADC #KEY_0 ; 0 -> $B0 .. 9 -> $B9
TAX ; If digit printed stop checking for leading zero
JSR COUT
_skip
DEY ;
CPY #$FF ; digits[255] ?
BNE _bcd ; ^
; Bug fix: If no digits were printed then number must be zero
LDA #0 ; print '0'
TAY ; no length
CPX #ZERO_LEAD
BEQ _digit
BNE PrintCR ; ^ (always) move to next line when done
; ========================================
AddAToS
LDY #0
CLC
_add
LDA DigitsS,Y
ADC DigitsA,Y
CMP #$A ; Base=10, C = (a+s+carry) >= 10
BCC _overflow
SBC #$A ; C=1, A = A - 9 - C
_overflow
STA DigitsS,Y
INY
BNE _add
RTS
; ========================================
IsOddB
LDY #0
LDA DigitsB,Y
AND #1
BEQ _not_zero ; Even -> C=0
BNE _is_zero ; Odd _> C=1
; ========================================
IsZeroB
LDY #0
_is_0
LDA DigitsB,Y
BNE _not_zero
INY
BNE _is_0
_is_zero
SEC
RTS
_not_zero
CLC
RTS
; ========================================
ShlA
LDY #0
CLC
_shl
LDA DigitsA,Y
TAX
LDA Mul2Digit,X
ADC #0
STA DigitsA,Y
LDA Mul2Carry,X
ROR
INY
BNE _shl
RTS
; ========================================
ShrB
LDY #$FF ; start at digits[255]
LDX #0 ; digits processed
STX Carry ; $00 .. 9*2 = $18
_shr
CLC ;
LDA DigitsB,Y ; sum = digit[i] + carry
ADC Carry ; A=0000_00xy C=0/1
ROR ; A=c000_000x, C=y
AND #$F ; A=0000_000x
STA DigitsB,Y ; digit[i] = (sum / 2)
LDA #0 ;
BCC _shr_next ; C=0 -> Carry = 0
LDA #10 ; C=1 -> Carry = 10 (base)
_shr_next
STA Carry ; carry = (sum & 1) ? BASE : 0
DEY
INX ; we need to compare y=$FF without disturbing carry
BNE _shr ; max 256 digits -- solution, use X reg :-)
RTS
Mul2Digit ; Digit
DFB 0 ; 0*2 = 0 0
DFB 2 ; 1*2 = 0 2
DFB 4 ; 2*2 = 0 4
DFB 6 ; 3*2 = 0 6
DFB 8 ; 4*2 = 0 8
DFB 0 ; 5*2 = 1 0
DFB 2 ; 6*2 = 1 2
DFB 4 ; 7*2 = 1 4
DFB 6 ; 8*2 = 1 6
DFB 8 ; 9*2 = 1 8
Mul2Carry ; Carry
DFB 0 ; 0*2 = 0 0
DFB 0 ; 1*2 = 0 2
DFB 0 ; 2*2 = 0 4
DFB 0 ; 3*2 = 0 6
DFB 0 ; 4*2 = 0 8
DFB 1 ; 5*2 = 1 0
DFB 1 ; 6*2 = 1 2
DFB 1 ; 7*2 = 1 4
DFB 1 ; 8*2 = 1 6
DFB 1 ; 9*2 = 1 8
_text
TextH ; Header
ASC "RUSSIAN PEASANT MULTIPLICATION"
DFB KEY_CR
DFB KEY_CR
DFB 0
TextA
ASC "INPUT A"
DFB KEY_CR
ASC "?"
DFB 0
TextB
ASC "INPUT B"
DFB KEY_CR
ASC "?"
DFB 0
TextE
DFB KEY_CR
ASC "WARNING"
ASC ": MORE THAN 127 CHARS"
DFB KEY_CR
DFB 0
TextS
ASC "= "
DFB 0
OffsetH EQU TextH - _text
OffsetA EQU TextA - _text
OffsetB EQU TextB - _text
OffsetE EQU TextE - _text
OffsetS EQU TextS - _text
__end
; Pad until end of page, these globals are not stored on disk
DUM *
DS \
DigitsA DS 256 ; stupid assembler can't use variable 'a'
DigitsB DS 256
DigitsS DS 256
Buffer DS 256
DEND