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collapseos/apps/zasm/main.asm

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NASM
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; *** Variables ***
; A bool flag indicating that we're on first pass. When we are, we don't care
; about actual output, but only about the length of each upcode. This means
; that when we parse instructions and directive that error out because of a
; missing symbol, we don't error out and just write down a dummy value.
.equ ZASM_FIRST_PASS ZASM_RAMSTART
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; whether we're in "local pass", that is, in local label scanning mode. During
; this special pass, ZASM_FIRST_PASS will also be set so that the rest of the
; code behaves as is we were in the first pass.
.equ ZASM_LOCAL_PASS @+1
; What IO_PC was when we started our context
.equ ZASM_CTX_PC @+1
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; current ".org" offset, that is, what we must offset all our label by.
.equ ZASM_ORG @+2
.equ ZASM_RAMEND @+2
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; Takes 2 byte arguments, blkdev in and blkdev out, expressed as IDs.
; Can optionally take a 3rd argument which is the high byte of the initial
; .org. For example, passing 0x42 to this 3rd arg is the equivalent of beginning
; the unit with ".org 0x4200".
; Read file through blkdev in and outputs its upcodes through blkdev out.
; HL is set to the last lineno to be read.
; Sets Z on success, unset on error. On error, A contains an error code (ERR_*)
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zasmMain:
; Parse args. HL points to string already
; We don't allocate memory just to hold this. Because this happens
; before initialization, we don't really care where those args are
; parsed. That's why we borrow zasm's RAMSTART for a little while.
ld de, .argspecs
ld ix, ZASM_RAMSTART
call parseArgs
jr z, .goodargs
; bad args
ld hl, 0
ld de, 0
ld a, SHELL_ERR_BAD_ARGS
ret
.goodargs:
; HL now points to parsed args
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; Init I/O
ld a, (ZASM_RAMSTART) ; blkdev in ID
ld de, IO_IN_BLK
call blkSel
ld a, (ZASM_RAMSTART+1) ; blkdev out ID
ld de, IO_OUT_BLK
call blkSel
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; Init .org
; This is the 3rd argument, optional, will be zero if not given.
; Save in "@" too
ld a, (ZASM_RAMSTART+2)
ld (ZASM_ORG+1), a ; high byte of .org
ld (DIREC_LASTVAL+1), a
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xor a
ld (ZASM_ORG), a ; low byte zero in all cases
ld (DIREC_LASTVAL), a
; And then the rest.
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ld (ZASM_LOCAL_PASS), a
call ioInit
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call symInit
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; First pass
ld hl, .sFirstPass
call ioPrintLN
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ld a, 1
ld (ZASM_FIRST_PASS), a
call zasmParseFile
jr nz, .end
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; Second pass
ld hl, .sSecondPass
call ioPrintLN
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xor a
ld (ZASM_FIRST_PASS), a
; before parsing the file for the second pass, let's clear the const
; registry. See comment in handleEQU.
ld ix, SYM_CONST_REGISTRY
call symClear
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call zasmParseFile
.end:
jp ioLineNo ; --> HL, --> DE, returns
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.argspecs:
.db 0b001, 0b001, 0b101
.sFirstPass:
.db "First pass", 0
.sSecondPass:
.db "Second pass", 0
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; Sets Z according to whether we're in first pass.
zasmIsFirstPass:
ld a, (ZASM_FIRST_PASS)
cp 1
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ret
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; Sets Z according to whether we're in local pass.
zasmIsLocalPass:
ld a, (ZASM_LOCAL_PASS)
cp 1
ret
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; Set ZASM_ORG to specified number in HL
zasmSetOrg:
ld (ZASM_ORG), hl
ret
; Return current PC (properly .org offsetted) in HL
zasmGetPC:
push de
ld hl, (ZASM_ORG)
ld de, (IO_PC)
add hl, de
pop de
ret
; Repeatedly reads lines from IO, assemble them and spit the binary code in
; IO. Z is set on success, unset on error. DE contains the last line number to
; be read (first line is 1).
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zasmParseFile:
call ioRewind
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.loop:
call parseLine
ret nz ; error
ld a, b ; TOK_*
cp TOK_EOF
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jr z, .eof
jr .loop
.eof:
call zasmIsLocalPass
jr nz, .end ; EOF and not local pass
; we're in local pass and EOF. Unwind this
call _endLocalPass
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jr .loop
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.end:
cp a ; ensure Z
ret
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; Parse next token and accompanying args (when relevant) in I/O, write the
; resulting opcode(s) through ioPutB and increases (IO_PC) by the number of
; bytes written. BC is set to the result of the call to tokenize.
; Sets Z if parse was successful, unset if there was an error. EOF is not an
; error. If there is an error, A is set to the corresponding error code (ERR_*).
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parseLine:
call tokenize
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ld a, b ; TOK_*
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cp TOK_INSTR
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jp z, _parseInstr
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cp TOK_DIRECTIVE
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jp z, _parseDirec
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cp TOK_LABEL
jr z, _parseLabel
cp TOK_EOF
ret z ; We're finished, no error.
; Bad token
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ld a, ERR_UNKNOWN
jp unsetZ ; return with Z unset
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_parseInstr:
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ld a, c ; I_*
jp parseInstruction
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_parseDirec:
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ld a, c ; D_*
jp parseDirective
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_parseLabel:
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; The string in (scratchpad) is a label with its trailing ':' removed.
ld hl, scratchpad
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call zasmIsLocalPass
jr z, .processLocalPass
; Is this a local label? If yes, we don't process it in the context of
; parseLine, whether it's first or second pass. Local labels are only
; parsed during the Local Pass
call symIsLabelLocal
jr z, .success ; local? don't do anything.
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ld ix, SYM_GLOBAL_REGISTRY
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call zasmIsFirstPass
jr z, .registerLabel ; When we encounter a label in the first
; pass, we register it in the symbol
; list
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; At this point, we're in second pass, we've encountered a global label
; and we'll soon continue processing our file. However, before we do
; that, we should process our local labels.
call _beginLocalPass
jr .success
.processLocalPass:
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ld ix, SYM_LOCAL_REGISTRY
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call symIsLabelLocal
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jr z, .registerLabel ; local label? all good, register it
; normally
; not a local label? Then we need to end local pass
call _endLocalPass
jr .success
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.registerLabel:
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push hl
call zasmGetPC
ex de, hl
pop hl
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call symRegister
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jr nz, .error
; continue to .success
.success:
xor a ; ensure Z
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ret
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.error:
call unsetZ
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ret
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_beginLocalPass:
; remember were I/O was
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call ioSavePos
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; Remember where PC was
ld hl, (IO_PC)
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ld (ZASM_CTX_PC), hl
; Fake first pass
ld a, 1
ld (ZASM_FIRST_PASS), a
; Set local pass
ld (ZASM_LOCAL_PASS), a
; Empty local label registry
ld ix, SYM_LOCAL_REGISTRY
jp symClear
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_endLocalPass:
; recall I/O pos
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call ioRecallPos
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; recall PC
ld hl, (ZASM_CTX_PC)
ld (IO_PC), hl
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; unfake first pass
xor a
ld (ZASM_FIRST_PASS), a
; Unset local pass
ld (ZASM_LOCAL_PASS), a
cp a ; ensure Z
ret