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7ca54d179d
Things are now much simpler.
224 lines
5.1 KiB
NASM
224 lines
5.1 KiB
NASM
; *** Requirements ***
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; lib/util
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; *** Code ***
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; Parse the hex char at A and extract it's 0-15 numerical value. Put the result
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; in A.
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;
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; On success, the carry flag is reset. On error, it is set.
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parseHex:
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; First, let's see if we have an easy 0-9 case
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add a, 0xc6 ; maps '0'-'9' onto 0xf6-0xff
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sub 0xf6 ; maps to 0-9 and carries if not a digit
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ret nc
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and 0xdf ; converts lowercase to uppercase
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add a, 0xe9 ; map 0x11-x017 onto 0xFA - 0xFF
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sub 0xfa ; map onto 0-6
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ret c
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; we have an A-F digit
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add a, 10 ; C is clear, map back to 0xA-0xF
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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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ld b, 0 ; We use B to detect overflow
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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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add hl, hl ; x2
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; We do this to detect overflow at each step
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rl b
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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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rl b
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add hl, hl ; x8
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rl b
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add hl, de ; x10
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rl b
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ld d, 0
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ld e, a
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add hl, de
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rl b
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; Did we oveflow?
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xor a
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or b
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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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; Call parseDecimal and then check that HL points to a whitespace or a null.
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parseDecimalC:
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call parseDecimal
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ret nz
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ld a, (hl)
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or a
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ret z ; null? we're happy
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jp isWS
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; Parse string at (HL) as a hexadecimal value without the "0x" prefix and
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; return value in DE.
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; HL is advanced to the character following the last successfully read char.
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; Sets Z on success.
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parseHexadecimal:
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ld a, (hl)
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call parseHex
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jp c, unsetZ ; we need at least one char
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push bc
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ld de, 0
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ld b, 0
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.loop:
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; we push to B to verify overflow
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rl e \ rl d \ rl b
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rl e \ rl d \ rl b
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rl e \ rl d \ rl b
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rl e \ rl d \ rl b
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or e
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ld e, a
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; did we overflow?
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ld a, b
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or a
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jr nz, .end ; overflow, NZ already set
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; next char
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inc hl
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ld a, (hl)
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call parseHex
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jr nc, .loop
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cp a ; ensure Z
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.end:
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pop bc
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ret
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; Parse string at (HL) as a binary value (010101) without the "0b" prefix and
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; return value in E. D is always zero.
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; HL is advanced to the character following the last successfully read char.
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; Sets Z on success.
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parseBinaryLiteral:
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ld de, 0
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.loop:
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ld a, (hl)
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add a, 0xff-'1'
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sub 0xff-1
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jr c, .end
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rl e
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add a, e
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ld e, a
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jp c, unsetZ ; overflow
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inc hl
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jr .loop
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.end:
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; HL is properly set
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xor a ; ensure Z
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ret
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; Parses the string at (HL) and returns the 16-bit value in DE. The string
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; can be a decimal literal (1234), a hexadecimal literal (0x1234) or a char
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; literal ('X').
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; HL is advanced to the character following the last successfully read char.
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;
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; As soon as the number doesn't fit 16-bit any more, parsing stops and the
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; number is invalid. If the number is valid, Z is set, otherwise, unset.
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parseLiteral:
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ld de, 0 ; pre-fill
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ld a, (hl)
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cp 0x27 ; apostrophe
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jr z, .char
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call isDigit
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ret nz
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cp '0'
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jp nz, parseDecimal
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; maybe hex, maybe binary
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inc hl
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ld a, (hl)
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inc hl ; already place it for hex or bin
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cp 'x'
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jr z, parseHexadecimal
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cp 'b'
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jr z, parseBinaryLiteral
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; nope, just a regular decimal
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dec hl \ dec hl
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jp parseDecimal
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; Parse string at (HL) and, if it is a char literal, sets Z and return
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; corresponding value in E. D is always zero.
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; HL is advanced to the character following the last successfully read char.
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;
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; A valid char literal starts with ', ends with ' and has one character in the
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; middle. No escape sequence are accepted, but ''' will return the apostrophe
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; character.
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.char:
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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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jr nz, .charError ; not ending with an apostrophe
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; good char, advance HL and return
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inc hl
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; Z already set
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ret
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.charError:
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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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; NZ already set
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ret
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; Returns whether A is a literal prefix, that is, a digit or an apostrophe.
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isLiteralPrefix:
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cp 0x27 ; apostrophe
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ret z
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; continue to isDigit
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; Returns whether A is a digit
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isDigit:
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cp '0'
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jp c, unsetZ
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cp '9'+1
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jp nc, unsetZ
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cp a ; ensure Z
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ret
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