mirror of
https://github.com/michaelcmartin/Ophis.git
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214 lines
3.2 KiB
Plaintext
214 lines
3.2 KiB
Plaintext
.include "../platform/c64_0.oph"
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.require "../platform/c64kernal.oph"
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.outfile "fibonacci.prg"
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lda #<opening ; Print opening text
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sta fun'args
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lda #>opening
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sta fun'args+1
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jsr print'string
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lda #$00
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sta fun'vars ; Count num from 0 to 19
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* lda fun'vars ; Main loop: print num, with leading space if <10
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cmp #$09
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bcs +
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lda #$20
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jsr chrout
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lda fun'vars
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* sta fun'args ; Copy num to args, print it, plus ": "
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inc fun'args
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lda #$00
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sta fun'args+1
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jsr print'dec
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lda #$3A
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jsr chrout
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lda #$20
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jsr chrout
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lda fun'vars ; Copy num to args, call fib, print result
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sta fun'args
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jsr fib
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jsr print'dec
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lda #$0D ; Newline
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jsr chrout
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inc fun'vars ; Increment num; if it's 20, we're done.
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lda fun'vars
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cmp #20
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bne -- ; Otherwise, loop.
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rts
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opening:
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.byte 147, " FIBONACCI SEQUENCE",13,13,0
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.scope
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; Uint16 fib (Uint8 x): compute Xth fibonnaci number.
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; fib(0) = fib(1) = 1.
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; Stack usage: 3.
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fib: lda #$03
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jsr save'stack
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lda fun'vars ; If x < 2, goto _base.
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cmp #$02
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bcc _base
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dec fun'args ; Otherwise, call fib(x-1)...
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jsr fib
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lda fun'args ; Copy the result to local variable...
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sta fun'vars+1
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lda fun'args+1
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sta fun'vars+2
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lda fun'vars ; Call fib(x-2)...
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sec
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sbc #$02
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sta fun'args
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jsr fib
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clc ; And add the old result to it, leaving it
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lda fun'args ; in the 'result' location.
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adc fun'vars+1
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sta fun'args
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lda fun'args+1
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adc fun'vars+2
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sta fun'args+1
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jmp _done ; and then we're done.
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_base: ldy #$01 ; In the base case, just copy 1 to the
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sty fun'args ; result.
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dey
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sty fun'args+1
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_done: lda #$03
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jsr restore'stack
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rts
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.scend
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.scope
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; Stack routines: init'stack, save'stack, restore'stack
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.data zp
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.space _sp $02
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.space _counter $01
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.space fun'args $10
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.space fun'vars $40
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.text
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init'stack:
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lda #$00
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sta _sp
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lda #$A0
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sta _sp+1
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rts
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save'stack:
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sta _counter
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sec
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lda _sp
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sbc _counter
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sta _sp
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lda _sp+1
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sbc #$00
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sta _sp+1
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ldy #$00
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* lda fun'vars, y
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sta (_sp), y
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lda fun'args, y
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sta fun'vars, y
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iny
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dec _counter
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bne -
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rts
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restore'stack:
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pha
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sta _counter
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ldy #$00
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* lda (_sp), y
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sta fun'vars, y
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iny
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dec _counter
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bne -
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pla
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clc
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adc _sp
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sta _sp
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lda _sp+1
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adc #$00
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sta _sp+1
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rts
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.scend
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; Utility functions. print'dec prints an unsigned 16-bit integer.
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; It's ugly and long, mainly because we don't bother with niceties
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; like "division". print'string prints a zero-terminated string.
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.scope
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.data
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.org fun'args
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.space _val 2
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.space _step 2
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.space _res 1
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.space _allowzero 1
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.text
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print'dec:
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lda #$00
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sta _allowzero
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lda #<10000
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sta _step
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lda #>10000
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sta _step+1
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jsr repsub'16
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lda #<1000
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sta _step
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lda #>1000
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sta _step+1
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jsr repsub'16
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lda #0
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sta _step+1
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lda #100
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sta _step
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jsr repsub'16
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lda #10
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sta _step
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jsr repsub'16
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lda _val
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jsr _print
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rts
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repsub'16:
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lda #$00
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sta _res
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* lda _val
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sec
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sbc _step
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lda _val+1
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sbc _step+1
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bcc _done
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lda _val
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sec
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sbc _step
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sta _val
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lda _val+1
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sbc _step+1
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sta _val+1
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inc _res
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jmp -
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_done: lda _res
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ora _allowzero
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beq _ret
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sta _allowzero
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lda _res
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_print: clc
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adc #'0
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jsr chrout
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_ret: rts
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.scend
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print'string:
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ldy #$00
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* lda (fun'args), y
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beq +
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jsr chrout
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iny
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jmp -
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* rts
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