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232 lines
4.3 KiB
NASM
232 lines
4.3 KiB
NASM
; *** Requirements ***
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; findchar
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; multDEBC
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; callIXI
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;
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; *** Defines ***
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;
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; EXPR_PARSE: routine to call to parse literals or symbols that are part of
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; the expression. Routine's signature:
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; String in (HL), returns its parsed value to IX. Z for success.
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;
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; *** Code ***
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;
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; Parse expression in string at (HL) and returns the result in IX.
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; **This routine mutates (HL).**
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; We expect (HL) to be disposable: we mutate it to avoid having to make a copy.
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; Sets Z on success, unset on error.
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; TODO: the IX output register is a bit awkward. Nearly everywhere, I need
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; to push \ pop that thing. See if we could return the result in DE
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; instead.
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parseExpr:
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push de
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push hl
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call _parseExpr
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pop hl
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pop de
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ret
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_parseExpr:
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ld de, exprTbl
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.loop:
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ld a, (de)
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or a
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jp z, EXPR_PARSE ; no operator, just parse the literal
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push de ; --> lvl 1. save operator row
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call _findAndSplit
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jr z, .found
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pop de ; <-- lvl 1
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inc de \ inc de \ inc de
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jr .loop
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.found:
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; Operator found, string splitted. Left in (HL), right in (DE)
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call _resolveLeftAndRight
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; Whether _resolveLeftAndRight was a success, we pop our lvl 1 stack
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; out, which contains our operator row. We pop it in IX.
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; L-R numbers are parsed in HL (left) and DE (right).
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pop ix ; <-- lvl 1
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ret nz
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; Resolving left and right succeeded, proceed!
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inc ix ; point to routine pointer
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call callIXI
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push de \ pop ix
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cp a ; ensure Z
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ret
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; Given a string in (HL) and a separator char in A, return a splitted string,
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; that is, the same (HL) string but with the found A char replaced by a null
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; char. DE points to the second part of the split.
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; Sets Z if found, unset if not found.
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_findAndSplit:
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push hl
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call .skipCharLiteral
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call findchar
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jr nz, .end ; nothing found
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; Alright, we have our char and we're pointing at it. Let's replace it
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; with a null char.
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xor a
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ld (hl), a ; + changed to \0
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inc hl
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ex de, hl ; DE now points to the second part of the split
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cp a ; ensure Z
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.end:
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pop hl ; HL is back to the start
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ret
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.skipCharLiteral:
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; special case: if our first char is ', skip the first 3 characters
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; so that we don't mistake a literal for an iterator
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push af
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ld a, (hl)
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cp 0x27 ; '
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jr nz, .skipCharLiteralEnd ; not a '
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xor a ; check for null char during skipping
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; skip 3
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inc hl
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cp (hl)
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jr z, .skipCharLiteralEnd
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inc hl
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cp (hl)
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jr z, .skipCharLiteralEnd
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inc hl
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.skipCharLiteralEnd:
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pop af
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ret
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.find:
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; parse expression on the left (HL) and the right (DE) and put the results in
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; HL (left) and DE (right)
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_resolveLeftAndRight:
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; special case: is (HL) zero? If yes, it means that our left operand
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; is empty. consider it as 0
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ld ix, 0 ; pre-set to 0
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ld a, (hl)
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or a
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jr z, .skip
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; Parse left operand in (HL)
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call parseExpr
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ret nz ; return immediately if error
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.skip:
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; Now we have parsed everything to the left and we have its result in
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; IX. What we need to do now is the same thing on (DE) and then apply
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; the + operator. Let's save IX somewhere and parse this.
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ex de, hl ; right expr now in HL
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push ix ; --> lvl 1
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call parseExpr
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pop hl ; <-- lvl 1. left
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push ix \ pop de ; right
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ret ; Z is parseExpr's result
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; Routines in here all have the same signature: they take two numbers, DE (left)
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; and IX (right), apply the operator and put the resulting number in DE.
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; The table has 3 bytes per row: 1 byte for operator and 2 bytes for routine
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; pointer.
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exprTbl:
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.db '+'
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.dw .plus
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.db '-'
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.dw .minus
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.db '*'
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.dw .mult
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.db '/'
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.dw .div
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.db '%'
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.dw .mod
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.db '&'
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.dw .and
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.db 0x7c ; '|'
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.dw .or
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.db '^'
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.dw .xor
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.db '}'
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.dw .rshift
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.db '{'
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.dw .lshift
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.db 0 ; end of table
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.plus:
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add hl, de
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ex de, hl
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ret
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.minus:
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or a ; clear carry
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sbc hl, de
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ex de, hl
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ret
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.mult:
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ld b, h
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ld c, l
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call multDEBC ; --> HL
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ex de, hl
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ret
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.div:
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; divide takes HL/DE
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push bc
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call divide
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ld e, c
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ld d, b
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pop bc
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ret
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.mod:
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call .div
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ex de, hl
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ret
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.and:
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ld a, h
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and d
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ld d, a
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ld a, l
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and e
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ld e, a
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ret
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.or:
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ld a, h
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or d
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ld d, a
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ld a, l
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or e
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ld e, a
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ret
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.xor:
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ld a, h
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xor d
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ld d, a
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ld a, l
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xor e
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ld e, a
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ret
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.rshift:
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ld a, e
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and 0xf
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ret z
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push bc
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ld b, a
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.rshiftLoop:
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srl h
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rr l
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djnz .rshiftLoop
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ex de, hl
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pop bc
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ret
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.lshift:
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ld a, e
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and 0xf
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ret z
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push bc
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ld b, a
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.lshiftLoop:
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sla l
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rl h
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djnz .lshiftLoop
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ex de, hl
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pop bc
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ret
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