2020-03-18 03:49:06 +11:00
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; *** Collapse OS lib copy ***
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; In the process of Forth-ifying Collapse OS, apps will be slowly rewritten to
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; Forth and the concept of ASM libs will become obsolete. To facilitate this
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; transition, I make, right now, a copy of the routines actually used by Forth's
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; native core. This also has the effect of reducing binary size right now and
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; give us an idea of Forth's compactness.
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; These routines below are copy/paste from apps/lib.
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; make Z the opposite of what it is now
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toggleZ:
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jp z, unsetZ
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cp a
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ret
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; Copy string from (HL) in (DE), that is, copy bytes until a null char is
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; encountered. The null char is also copied.
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; HL and DE point to the char right after the null char.
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strcpyM:
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ld a, (hl)
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ld (de), a
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inc hl
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inc de
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or a
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jr nz, strcpyM
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ret
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; Like strcpyM, but preserve HL and DE
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strcpy:
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push hl
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push de
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call strcpyM
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pop de
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pop hl
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ret
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; Compares strings pointed to by HL and DE until one of them hits its null char.
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; If equal, Z is set. If not equal, Z is reset. C is set if HL > DE
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strcmp:
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push hl
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push de
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.loop:
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ld a, (de)
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cp (hl)
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jr nz, .end ; not equal? break early. NZ is carried out
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; to the caller
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or a ; If our chars are null, stop the cmp
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inc hl
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inc de
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jr nz, .loop ; Z is carried through
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.end:
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pop de
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pop hl
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; Because we don't call anything else than CP that modify the Z flag,
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; our Z value will be that of the last cp (reset if we broke the loop
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; early, set otherwise)
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ret
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; Given a string at (HL), move HL until it points to the end of that string.
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strskip:
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push bc
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ex af, af'
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xor a ; look for null char
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ld b, a
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ld c, a
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cpir ; advances HL regardless of comparison, so goes one too far
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dec hl
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ex af, af'
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pop bc
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ret
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; Borrowed from Tasty Basic by Dimitri Theulings (GPL).
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; Divide HL by DE, placing the result in BC and the remainder in HL.
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divide:
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push hl ; --> lvl 1
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ld l, h ; divide h by de
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ld h, 0
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call .dv1
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ld b, c ; save result in b
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ld a, l ; (remainder + l) / de
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pop hl ; <-- lvl 1
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ld h, a
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.dv1:
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ld c, 0xff ; result in c
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.dv2:
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inc c ; dumb routine
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call .subde ; divide using subtract and count
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jr nc, .dv2
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add hl, de
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ret
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.subde:
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ld a, l
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sub e ; subtract de from hl
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ld l, a
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ld a, h
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sbc a, d
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ld h, a
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ret
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; DE * BC -> DE (high) and HL (low)
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multDEBC:
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ld hl, 0
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ld a, 0x10
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.loop:
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add hl, hl
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rl e
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rl d
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jr nc, .noinc
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add hl, bc
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jr nc, .noinc
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inc de
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.noinc:
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dec a
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jr nz, .loop
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ret
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; Parse string at (HL) as a decimal value and return value in DE.
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; Reads as many digits as it can and stop when:
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; 1 - A non-digit character is read
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; 2 - The number overflows from 16-bit
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; HL is advanced to the character following the last successfully read char.
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; Error conditions are:
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; 1 - There wasn't at least one character that could be read.
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; 2 - Overflow.
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; Sets Z on success, unset on error.
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parseDecimal:
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; First char is special: it has to succeed.
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ld a, (hl)
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; Parse the decimal char at A and extract it's 0-9 numerical value. Put the
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; result in A.
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; On success, the carry flag is reset. On error, it is set.
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add a, 0xff-'9' ; maps '0'-'9' onto 0xf6-0xff
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sub 0xff-9 ; maps to 0-9 and carries if not a digit
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ret c ; Error. If it's C, it's also going to be NZ
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; During this routine, we switch between HL and its shadow. On one side,
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; we have HL the string pointer, and on the other side, we have HL the
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; numerical result. We also use EXX to preserve BC, saving us a push.
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exx ; HL as a result
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ld h, 0
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ld l, a ; load first digit in without multiplying
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.loop:
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exx ; HL as a string pointer
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inc hl
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ld a, (hl)
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exx ; HL as a numerical result
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; same as other above
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add a, 0xff-'9'
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sub 0xff-9
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jr c, .end
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ld b, a ; we can now use a for overflow checking
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add hl, hl ; x2
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sbc a, a ; a=0 if no overflow, a=0xFF otherwise
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ld d, h
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ld e, l ; de is x2
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add hl, hl ; x4
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rla
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add hl, hl ; x8
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rla
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add hl, de ; x10
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rla
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ld d, a ; a is zero unless there's an overflow
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ld e, b
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add hl, de
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adc a, a ; same as rla except affects Z
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; Did we oveflow?
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jr z, .loop ; No? continue
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; error, NZ already set
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exx ; HL is now string pointer, restore BC
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; HL points to the char following the last success.
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ret
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.end:
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push hl ; --> lvl 1, result
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exx ; HL as a string pointer, restore BC
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pop de ; <-- lvl 1, result
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cp a ; ensure Z
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ret
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2020-03-18 08:46:58 +11:00
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parseCharLit:
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2020-03-18 03:49:06 +11:00
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ld a, (hl)
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cp 0x27 ; apostrophe
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2020-03-18 08:46:58 +11:00
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ret nz
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2020-03-18 03:49:06 +11:00
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2020-03-18 08:46:58 +11:00
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ld d, 0 ; preset
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2020-03-18 03:49:06 +11:00
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inc hl
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ld e, (hl) ; our result
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inc hl
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cp (hl)
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ret z
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; Z unset and there's an error
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2020-03-18 08:46:58 +11:00
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; In all error conditions, HL is advanced by 2. Rewind.
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dec hl \ dec hl
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2020-03-18 03:49:06 +11:00
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; NZ already set
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ret
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; *** Forth-specific part ***
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2020-03-08 04:13:15 +11:00
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; Return address of scratchpad in HL
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pad:
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ld hl, (HERE)
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2020-03-08 04:50:54 +11:00
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ld a, PADDING
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2020-03-08 09:09:45 +11:00
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jp addHL
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2020-03-08 04:13:15 +11:00
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2020-03-17 13:09:23 +11:00
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; Advance (INPUTPOS) until a non-whitespace is met. If needed,
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; call fetchline.
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; Set HL to newly set (INPUTPOS)
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toword:
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2020-03-08 04:13:15 +11:00
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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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2020-03-17 13:09:23 +11:00
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.loop:
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2020-03-08 04:13:15 +11:00
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inc hl
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ld a, (hl)
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or a
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2020-03-15 10:10:39 +11:00
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; When at EOL, fetch a new line directly
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2020-03-08 04:13:15 +11:00
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jr z, .empty
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cp ' '+1
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2020-03-17 13:09:23 +11:00
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jr c, .loop
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ret
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.empty:
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call fetchline
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jr toword
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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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; When we're at EOL, we call fetchline directly, so this call always returns
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; a word.
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readword:
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call toword
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2020-03-08 04:13:15 +11:00
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push hl ; --> lvl 1. that's our result
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2020-03-17 13:09:23 +11:00
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.loop:
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2020-03-08 04:13:15 +11:00
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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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2020-03-17 13:09:23 +11:00
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jr nc, .loop
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2020-03-08 04:13:15 +11:00
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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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2020-03-10 10:50:51 +11:00
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; Sets Z if (HL) == E and (HL+1) == D
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HLPointsDE:
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2020-03-09 23:49:51 +11:00
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ld a, (hl)
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cp e
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2020-03-10 10:50:51 +11:00
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ret nz ; no
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2020-03-09 23:49:51 +11:00
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inc hl
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ld a, (hl)
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2020-03-10 10:50:51 +11:00
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dec hl
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2020-03-09 23:49:51 +11:00
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cp d ; Z has our answer
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ret
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2020-03-10 10:50:51 +11:00
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HLPointsNUMBER:
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2020-03-09 23:49:51 +11:00
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push de
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ld de, NUMBER
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2020-03-10 10:50:51 +11:00
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call HLPointsDE
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2020-03-09 23:49:51 +11:00
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pop de
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ret
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2020-03-10 10:50:51 +11:00
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HLPointsLIT:
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2020-03-09 23:49:51 +11:00
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push de
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ld de, LIT
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2020-03-10 10:50:51 +11:00
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call HLPointsDE
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2020-03-09 23:49:51 +11:00
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pop de
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ret
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2020-03-13 12:16:20 +11:00
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HLPointsBR:
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2020-03-09 23:49:51 +11:00
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push de
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2020-03-13 12:16:20 +11:00
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ld de, FBR
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2020-03-10 10:50:51 +11:00
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call HLPointsDE
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2020-03-16 13:46:17 +11:00
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jr z, .end
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ld de, BBR
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call HLPointsDE
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.end:
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2020-03-09 23:49:51 +11:00
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pop de
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ret
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2020-03-10 10:50:51 +11:00
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; Skip the compword where HL is currently pointing. If it's a regular word,
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2020-03-09 23:49:51 +11:00
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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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2020-03-10 10:50:51 +11:00
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call HLPointsNUMBER
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2020-03-12 10:52:49 +11:00
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jr z, .isNum
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2020-03-13 12:16:20 +11:00
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call HLPointsBR
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2020-03-12 10:52:49 +11:00
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jr z, .isBranch
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2020-03-10 10:50:51 +11:00
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call HLPointsLIT
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jr nz, .isWord
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2020-03-09 23:49:51 +11:00
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; We have a literal
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2020-03-10 10:50:51 +11:00
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inc hl \ inc hl
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2020-03-09 23:49:51 +11:00
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call strskip
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inc hl ; byte after word termination
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2020-03-10 10:50:51 +11:00
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ret
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2020-03-12 10:52:49 +11:00
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.isNum:
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2020-03-09 23:49:51 +11:00
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; skip by 4
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2020-03-12 10:52:49 +11:00
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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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2020-03-10 10:50:51 +11:00
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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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2020-03-09 23:49:51 +11:00
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ret
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2020-03-08 04:13:15 +11:00
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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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2020-03-10 06:12:44 +11:00
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push hl
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push bc
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2020-03-08 04:13:15 +11:00
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ld de, (CURRENT)
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2020-03-10 06:12:44 +11:00
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ld bc, CODELINK_OFFSET
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2020-03-08 04:13:15 +11:00
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.inner:
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2020-03-10 06:12:44 +11:00
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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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2020-03-08 09:09:45 +11:00
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ld a, NAMELEN
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2020-03-08 04:13:15 +11:00
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call strncmp
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2020-03-10 06:12:44 +11:00
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pop de ; <-- lvl 1, return to wordref
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jr z, .end ; found
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2020-03-13 02:39:27 +11:00
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call .prev
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2020-03-08 04:13:15 +11:00
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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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2020-03-10 06:12:44 +11:00
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.end:
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pop bc
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pop hl
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2020-03-08 04:13:15 +11:00
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ret
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|
|
2020-03-13 02:39:27 +11:00
|
|
|
; For DE being a wordref, move DE to the previous wordref.
|
|
|
|
; Z is set if DE point to 0 (no entry). NZ if not.
|
|
|
|
.prev:
|
|
|
|
dec de \ dec de \ dec de ; prev field
|
|
|
|
call intoDE
|
|
|
|
; DE points to prev. Is it zero?
|
|
|
|
xor a
|
|
|
|
or d
|
|
|
|
or e
|
|
|
|
; Z will be set if DE is zero
|
|
|
|
ret
|
|
|
|
|
2020-03-08 11:25:55 +11:00
|
|
|
; Write compiled data from HL into IY, advancing IY at the same time.
|
|
|
|
wrCompHL:
|
|
|
|
ld (iy), l
|
|
|
|
inc iy
|
|
|
|
ld (iy), h
|
|
|
|
inc iy
|
|
|
|
ret
|
|
|
|
|
2020-03-08 10:53:20 +11:00
|
|
|
; Spit name + prev in (HERE) and adjust (HERE) and (CURRENT)
|
|
|
|
; HL points to new (HERE)
|
|
|
|
entryhead:
|
2020-03-16 13:46:17 +11:00
|
|
|
call readword
|
2020-03-08 10:53:20 +11:00
|
|
|
ld de, (HERE)
|
|
|
|
call strcpy
|
|
|
|
ex de, hl ; (HERE) now in HL
|
|
|
|
ld de, (CURRENT)
|
|
|
|
ld a, NAMELEN
|
|
|
|
call addHL
|
2020-03-13 02:39:27 +11:00
|
|
|
call DEinHL
|
|
|
|
; Set word flags: not IMMED, not UNWORD, so it's 0
|
|
|
|
xor a
|
2020-03-10 10:50:51 +11:00
|
|
|
ld (hl), a
|
|
|
|
inc hl
|
2020-03-10 06:12:44 +11:00
|
|
|
ld (CURRENT), hl
|
2020-03-08 10:53:20 +11:00
|
|
|
ld (HERE), hl
|
|
|
|
ret
|
2020-03-10 13:13:11 +11:00
|
|
|
|
2020-03-11 12:37:06 +11:00
|
|
|
; Sets Z if wordref at HL is of the IMMEDIATE type
|
|
|
|
HLisIMMED:
|
2020-03-10 13:13:11 +11:00
|
|
|
dec hl
|
2020-03-13 02:39:27 +11:00
|
|
|
bit FLAG_IMMED, (hl)
|
2020-03-10 13:13:11 +11:00
|
|
|
inc hl
|
2020-03-13 02:39:27 +11:00
|
|
|
; We need an invert flag. We want to Z to be set when flag is non-zero.
|
|
|
|
jp toggleZ
|
2020-03-11 12:37:06 +11:00
|
|
|
|
2020-03-13 02:39:27 +11:00
|
|
|
; Sets Z if wordref at HL is of the UNWORD type
|
|
|
|
HLisUNWORD:
|
|
|
|
dec hl
|
|
|
|
bit FLAG_UNWORD, (hl)
|
|
|
|
inc hl
|
|
|
|
; We need an invert flag. We want to Z to be set when flag is non-zero.
|
|
|
|
jp toggleZ
|
|
|
|
|
|
|
|
; Sets Z if wordref at (HL) is of the IMMEDIATE type
|
|
|
|
HLPointsUNWORD:
|
|
|
|
push hl
|
|
|
|
call intoHL
|
|
|
|
call HLisUNWORD
|
|
|
|
pop hl
|
|
|
|
ret
|
|
|
|
|
2020-03-18 03:26:28 +11:00
|
|
|
; Checks flags Z and S and sets BC to 0 if Z, 1 if C and -1 otherwise
|
2020-03-11 07:02:40 +11:00
|
|
|
flagsToBC:
|
|
|
|
ld bc, 0
|
|
|
|
ret z ; equal
|
|
|
|
inc bc
|
2020-03-18 03:26:28 +11:00
|
|
|
ret m ; >
|
2020-03-11 07:02:40 +11:00
|
|
|
; <
|
|
|
|
dec bc
|
|
|
|
dec bc
|
|
|
|
ret
|
|
|
|
|
2020-03-11 12:37:06 +11:00
|
|
|
; Write DE in (HL), advancing HL by 2.
|
|
|
|
DEinHL:
|
|
|
|
ld (hl), e
|
|
|
|
inc hl
|
|
|
|
ld (hl), d
|
|
|
|
inc hl
|
|
|
|
ret
|
2020-03-15 10:10:39 +11:00
|
|
|
|
|
|
|
fetchline:
|
|
|
|
call printcrlf
|
|
|
|
call stdioReadLine
|
|
|
|
ld (INPUTPOS), hl
|
|
|
|
ret
|