ea5f33558a
Those bytes, those precious bytes!
346 lines
7.3 KiB
NASM
346 lines
7.3 KiB
NASM
; Return address of scratchpad in HL
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pad:
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ld hl, (HERE)
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ld a, PADDING
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jp addHL
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; Read word from (INPUTPOS) and return, in HL, a null-terminated word.
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; Advance (INPUTPOS) to the character following the whitespace ending the
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; word.
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; Z set of word was read, unset if end of line.
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readword:
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ld hl, (INPUTPOS)
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; skip leading whitespace
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dec hl ; offset leading "inc hl"
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.loop1:
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inc hl
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ld a, (hl)
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or a
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jr z, .empty
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cp ' '+1
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jr c, .loop1
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push hl ; --> lvl 1. that's our result
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.loop2:
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inc hl
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ld a, (hl)
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; special case: is A null? If yes, we will *not* inc A so that we don't
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; go over the bounds of our input string.
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or a
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jr z, .noinc
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cp ' '+1
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jr nc, .loop2
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; we've just read a whitespace, HL is pointing to it. Let's transform
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; it into a null-termination, inc HL, then set (INPUTPOS).
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xor a
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ld (hl), a
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inc hl
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.noinc:
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ld (INPUTPOS), hl
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pop hl ; <-- lvl 1. our result
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ret ; Z set from XOR A
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.empty:
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ld (hl), a
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inc a ; unset Z
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ret
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; Sets Z if (HL) == E and (HL+1) == D
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HLPointsDE:
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ld a, (hl)
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cp e
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ret nz ; no
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inc hl
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ld a, (hl)
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dec hl
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cp d ; Z has our answer
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ret
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HLPointsNUMBER:
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push de
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ld de, NUMBER
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call HLPointsDE
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pop de
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ret
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HLPointsLIT:
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push de
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ld de, LIT
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call HLPointsDE
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pop de
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ret
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HLPointsBRANCH:
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push de
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ld de, BRANCH
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call HLPointsDE
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jr z, .end
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ld de, CBRANCH
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call HLPointsDE
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.end:
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pop de
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ret
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HLPointsEXIT:
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push de
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ld de, EXIT
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call HLPointsDE
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pop de
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ret
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HLPointsQUIT:
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push de
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ld de, QUIT
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call HLPointsDE
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pop de
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ret
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; Skip the compword where HL is currently pointing. If it's a regular word,
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; it's easy: we inc by 2. If it's a NUMBER, we inc by 4. If it's a LIT, we skip
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; to after null-termination.
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compSkip:
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call HLPointsNUMBER
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jr z, .isNum
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call HLPointsBRANCH
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jr z, .isBranch
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call HLPointsLIT
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jr nz, .isWord
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; We have a literal
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inc hl \ inc hl
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call strskip
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inc hl ; byte after word termination
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ret
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.isNum:
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; skip by 4
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inc hl
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; continue to isBranch
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.isBranch:
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; skip by 3
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inc hl
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; continue to isWord
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.isWord:
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; skip by 2
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inc hl \ inc hl
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ret
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; ***readLIT***
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; The goal of this routine is to read a string literal following the currently
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; executed words. For example, CREATE and DEFINE need this. Things are a little
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; twisted, so bear with me while I explain how it works.
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;
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; When we call this routine, everything has been compiled. We're on an atom and
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; we're executing it. Now, we're looking for a string literal or a word-with-a
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; name that follows our readLIT caller. We could think that this word is
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; right there on RS' TOS, but not always! You have to account for words wrapping
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; the caller. For example, "VARIABLE" calls "CREATE". If you call
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; "VARIABLE foo", if CREATE looks at what follows in RS' TOS, it will only find
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; the "2" in "CREATE 2 ALLOT".
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;
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; In this case, we actually need to check in RS' *bottom of stack* for our
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; answer. If that atom is a LIT, we're good. We make HL point to it and advance
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; IP to byte following null-termination.
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;
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; If it isn't, things get interesting: If it's a word reference, then it's
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; not an invalid literal. For example, one could want to redefine an existing
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; word. So in that case, we'll copy the word's name on the pad (it might not be
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; null-terminated) and set HL to point to it.
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; How do we know that our reference is a word reference (it could be, for
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; example, a NUMBER reference)? We check that its address is more than QUIT, the
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; second word in our dict. We don't accept EXIT because it's the termination
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; word. Yeah, it means that ";" can't be overridden...
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; If name can't be read, we abort
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;
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; BOS vs TOS: What we cover so far is the "CREATE" and friends cases, where we
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; want to read BOS. There are, however, cases where we want to read TOS, that is
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; that we want to read the LIT right next to our atom. Example: "(". When
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; processing comments, we are at compile time and want to read words from BOS,
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; yes), however, in "("'s definition, there's "LIT@ )", which means "fetch LIT
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; next to me and push this to stack". This LIT we want to fetch is *not* from
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; BOS, it's from TOS.
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;
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; This is why we have readLITBOS and readLITTOS. readLIT uses HL and DE and is
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; not used directly.
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; Given a RS stack pointer HL, read LIT next to it (or abort) and set HL to
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; point to its associated string. Set DE to there the RS stack pointer should
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; point next.
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readLIT:
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call HLPointsLIT
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jr nz, .notLIT
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; RS BOS is a LIT, make HL point to string, then skip this RS compword.
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inc hl \ inc hl ; HL now points to string itself
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; HL has our its final value
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ld d, h
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ld e, l
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call strskip
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inc hl ; byte after word termination
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ex de, hl
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ret
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.notLIT:
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; Alright, not a literal, but is it a word? If it's not a number, then
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; it's a word.
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call HLPointsNUMBER
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jr z, .notWord
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call HLPointsBRANCH
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jr z, .notWord
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call HLPointsEXIT
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jr z, .notWord
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call HLPointsQUIT
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jr z, .notWord
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; Not a number, then it's a word. Copy word to pad and point to it.
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push hl ; --> lvl 1. we need it to set DE later
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call intoHL
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or a ; clear carry
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ld de, CODELINK_OFFSET
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sbc hl, de
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; That's our return value
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push hl ; --> lvl 2
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; HL now points to word offset, let'd copy it to pad
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ex de, hl
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call pad
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ex de, hl
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ld bc, NAMELEN
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ldir
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; null-terminate
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xor a
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ld (de), a
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pop hl ; <-- lvl 2
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pop de ; <-- lvl 1
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; Advance IP by 2
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inc de \ inc de
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ret
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.notWord:
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ld hl, .msg
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call printstr
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jp abort
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.msg:
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.db "word expected", 0
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readLITBOS:
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push de
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ld hl, (RS_ADDR)
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call readLIT
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ld (RS_ADDR), de
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pop de
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ret
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readLITTOS:
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push de
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ld l, (ix)
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ld h, (ix+1)
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call readLIT
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ld (ix), e
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ld (ix+1), d
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pop de
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ret
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; For DE being a wordref, move DE to the previous wordref.
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; Z is set if DE point to 0 (no entry). NZ if not.
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prev:
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dec de \ dec de ; prev field
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call intoDE
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; DE points to prev. Is it zero?
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xor a
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or d
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or e
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; Z will be set if DE is zero
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ret
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; Find the entry corresponding to word where (HL) points to and sets DE to
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; point to that entry.
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; Z if found, NZ if not.
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find:
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push hl
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push bc
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ld de, (CURRENT)
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ld bc, CODELINK_OFFSET
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.inner:
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; DE is a wordref, let's go to beginning of struct
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push de ; --> lvl 1
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or a ; clear carry
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ex de, hl
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sbc hl, bc
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ex de, hl ; We're good, DE points to word name
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ld a, NAMELEN
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call strncmp
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pop de ; <-- lvl 1, return to wordref
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jr z, .end ; found
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call prev
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jr nz, .inner
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; Z set? end of dict unset Z
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inc a
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.end:
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pop bc
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pop hl
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ret
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; Write compiled data from HL into IY, advancing IY at the same time.
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wrCompHL:
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ld (iy), l
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inc iy
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ld (iy), h
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inc iy
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ret
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; Spit name + prev in (HERE) and adjust (HERE) and (CURRENT)
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; HL points to new (HERE)
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entryhead:
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call readLITBOS
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ld de, (HERE)
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call strcpy
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ex de, hl ; (HERE) now in HL
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ld de, (CURRENT)
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ld a, NAMELEN
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call addHL
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xor a ; IMMED
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ld (hl), a
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inc hl
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ld (hl), e
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inc hl
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ld (hl), d
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inc hl
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ld (CURRENT), hl
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ld (HERE), hl
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xor a ; set Z
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ret
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; Sets Z if wordref at HL is of the IMMEDIATE type
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HLisIMMED:
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dec hl
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dec hl
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dec hl
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; We need an invert flag. We want to Z to be set when flag is non-zero.
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ld a, 1
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and (hl)
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dec a ; if A was 1, Z is set. Otherwise, Z is unset
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inc hl
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inc hl
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inc hl
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ret
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; Sets Z if wordref at (HL) is of the IMMEDIATE type
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HLPointsIMMED:
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push hl
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call intoHL
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call HLisIMMED
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pop hl
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ret
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; Checks flags Z and C and sets BC to 0 if Z, 1 if C and -1 otherwise
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flagsToBC:
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ld bc, 0
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ret z ; equal
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inc bc
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ret c ; >
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; <
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dec bc
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dec bc
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ret
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; Write DE in (HL), advancing HL by 2.
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DEinHL:
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ld (hl), e
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inc hl
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ld (hl), d
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inc hl
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ret
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