215 lines
5.7 KiB
NASM
215 lines
5.7 KiB
NASM
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; ʕ·ᴥ·ʔ- fuzzy v0 rev 0: parse program text and spit out binary representation @ $4000
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.include "./macro.inc"
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n = $05 ; temporary storage for data stack operations
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base = $00
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result_binary_base = base ; pointer to where the next byte of binary data should be stored0
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binary_base_index = result_binary_base + 2 ; offset for that pointer
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binary_subroutine_address = binary_base_index + 1 ; pointer to a subroutine to be written to the binary
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.org $8000
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.include "./subroutines.inc"
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program_text:
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.include "./program.inc"
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reset:
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sei
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lda #0
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ldx #0
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ldy #0
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main:
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stz binary_base_index
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lda #$40
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sta result_binary_base + 1 ; set where to store resulting binary
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stz binary_subroutine_address
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lda #$80
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sta binary_subroutine_address + 1 ; available subroutines start at $8000
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jsr compile_values
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stp
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; parser loop, eventually this will be able to handle longer program strings, but indexing by y is fine for now
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compile_values:
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ldy #0
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parser_loop:
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lda program_text, y ; get character at index
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cmp #0 ; is eof?
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beq .end ; yes, exit loop
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cmp #20 ; is space?
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beq parser_loop ; yes, skip this char
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cmp #12 ; is newline?
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beq .newline ; yes, handle newline
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jsr compile_values_op
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jsr compile_values_nat
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.newline: ; we reached a newline, y is program string index
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iny ; WARN: don't accidentally iny in this loop w/out handling a character
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lda program_text, y ; load next char
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cmp #12 ; is newline?
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bne parser_loop ; no, keep parsing tokens
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rts ; yes, no more tokens in body (see syntax.md for info)
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.end:
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rts
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; a holds character value, y program text index, only iny if you find a matching character & consume it
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compile_values_op:
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cmp #"+" ; i personally think this syntax is really silly but whatever, one of these days i'm gonna write my own assembler and document everything cause vasm documentation is kinda terrible
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bne .next
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.is_plus:
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lda #1
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jsr store_subroutine
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rts
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.next:
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rts
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; cmp #"!" ; commenting these out for now to handle a single simple case
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; cmp #"&"
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; cmp #"|"
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; cmp #"-"
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; cmp #"*"
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; cmp #"/"
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; cmp #"="
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; cmp #">"
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; cmp #"<"
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; cmp #"#"
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; a holds character value, y program text index, only iny if you find a matching character & consume it
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; TODO:
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; 1-3 digit decimal values
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; 1-2 digit hex values
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compile_values_nat:
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; TODO:
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; cmp #"$" ; is hex?
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; bne .decimal ; no, try decimal
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; cmp
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; rts
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cmp #47 ; less than (before) start of 0-9 georgescii range?
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bcc .not_nat
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cmp #57 ; greater than end of 0-9 georgescii range?
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bcs .not_nat
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pha
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lda #$a9 ; $a9: lda imm
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jsr store_binary
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pla
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jsr georgescii_decimal_to_value
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jsr store_binary
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lda #2 ; push
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jsr store_subroutine
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iny
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rts
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.not_nat:
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rts
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; georgescii decimal value in a register, return equivalent plain value in a register
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georgescii_decimal_to_value:
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clc
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sbc #$30 ; decimal digits start at georgescii $30
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rts
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; we have binary in the a register we want to store
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store_binary:
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phy
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ldy binary_base_index
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sta (result_binary_base), y
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inc binary_base_index
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bne .not_overflow ; did we roll over?
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inc result_binary_base + 1 ; yes, roll over base address
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.not_overflow: ; no, carry on as normal
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ply
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rts
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; binary_subroutine_address is a pointer to a subroutine that we want to store
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; the first byte at the subroutine's address is its length
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store_contiguous_binary:
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pha ; just to be safe
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lda (binary_subroutine_address) ; get the subroutine length
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tax ; loop counter
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ldy #1 ; index into subroutine, offset by one to skip subroutine length
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.loop:
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lda (binary_subroutine_address), y
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jsr store_binary
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iny
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dex
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bne .loop
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.end:
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pla
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rts
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; this wouldn't be necessary if we could get the
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; address of a label in vasm, but that's for another time
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; (when i feel like writing an assembler lol)
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; for now, pass the index of the subroutine (in subroutines.asm)
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; to a and it will get written to binary_subroutine_address
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get_subroutine_address:
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pha
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tax ; set up counter
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bne .loop ; first subrotine?
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stz binary_subroutine_address ; yes, store its address
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lda #$80
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sta binary_subroutine_address + 1
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rts
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.loop: ; loop through
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lda (binary_subroutine_address) ; no, load length of subroutine
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inc ; distance from next subroutine
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clc
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adc binary_subroutine_address ; add it to the current address
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sta binary_subroutine_address
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bcs .no_carry
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lda binary_subroutine_address + 1 ; add the carry to the high byte of address
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adc #0
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sta binary_subroutine_address + 1
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.no_carry:
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dex ; is this our address?
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bne .loop ; yes, we're done
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pla
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rts
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; pass subroutine index to a and it will get written into the binary
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; TODO: stabilize subroutine location & just write a `jsr $subroutine` to the binary
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store_subroutine:
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pha
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phy
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phx
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jsr get_subroutine_address
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jsr store_contiguous_binary
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; reset subroutine address
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stz binary_subroutine_address
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lda #$80
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sta binary_subroutine_address + 1
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plx
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ply
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pla
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rts
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; write error message and stop execution
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error:
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ldy #0
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.loop:
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lda .message, y
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sta $4000, y
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beq .end
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iny
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bra .loop
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.end:
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stp
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.message:
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.asciiz "ruh roh! fuzzy couldn't compile"
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isr: ; interrupt service routine
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pha
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phx
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phy
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ply
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plx
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pla
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rti
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.org $fffc
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.word reset
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.word isr
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