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5 Commits

Author SHA1 Message Date
Virgil Dupras
43b450ca30 Update bootstrap binaries 2019-11-22 19:57:11 -05:00
Virgil Dupras
501fe96e07 lib/expr: use the IX register a bit less
It's an awkward register to use and avoiding its use allows us to strip the
resulting binary significantly. parseEXPR keeps the same signature though.
2019-11-22 19:56:08 -05:00
Virgil Dupras
2f71ad6d2f lib/expr: add left/right shifting operators 2019-11-22 18:35:10 -05:00
Virgil Dupras
a03c5ac700 lib/expr: add bitwise operators 2019-11-22 17:16:51 -05:00
Virgil Dupras
972e8221f1 lib/expr: add division and modulo operators 2019-11-22 15:03:16 -05:00
5 changed files with 176 additions and 29 deletions

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@ -89,8 +89,16 @@ this way, it's going to mess with the parser.
### Expressions
An expression is a bunch of literals or symbols assembled by operators. For
now, only `+`, `-` and `*` operators are supported. No parenthesis yet.
An expression is a bunch of literals or symbols assembled by operators.
Supported operators are `+`, `-`, `*`, `/`, `%` (modulo), `&` (bitwise and),
`|` (bitwise or), `^` (bitwise xor), `{` (shift left), `}` (shift right).
Bitwise operator always operate on the whole 16-bits.
Shift operators break from the `<<` and `>>` tradition because the complexity
if two-sized operator is significant and deemed not worth it. The shift
operator shift the left operand X times, X being the right operand.
There is no parenthesis support yet.
Symbols have a different meaning depending on the application. In zasm, it's
labels and constants. In basic, it's variables.

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@ -1,6 +1,7 @@
; *** Requirements ***
; findchar
; multDEBC
; callIXI
;
; *** Defines ***
;
@ -14,6 +15,9 @@
; **This routine mutates (HL).**
; We expect (HL) to be disposable: we mutate it to avoid having to make a copy.
; Sets Z on success, unset on error.
; TODO: the IX output register is a bit awkward. Nearly everywhere, I need
; to push \ pop that thing. See if we could return the result in DE
; instead.
parseExpr:
push de
push hl
@ -38,15 +42,16 @@ _parseExpr:
; Operator found, string splitted. Left in (HL), right in (DE)
call _resolveLeftAndRight
; Whether _resolveLeftAndRight was a success, we pop our lvl 1 stack
; out, which contains our operator row. We pop it in HL because we
; don't need our string anymore. L-R numbers are parsed, and in DE and
; IX.
pop hl ; <-- lvl 1
; out, which contains our operator row. We pop it in IX.
; L-R numbers are parsed in HL (left) and DE (right).
pop ix ; <-- lvl 1
ret nz
; Resolving left and right succeeded, proceed!
inc hl ; point to routine pointer
call intoHL
jp (hl)
inc ix ; point to routine pointer
call callIXI
push de \ pop ix
cp a ; ensure Z
ret
; Given a string in (HL) and a separator char in A, return a splitted string,
; that is, the same (HL) string but with the found A char replaced by a null
@ -90,7 +95,7 @@ _findAndSplit:
.find:
; parse expression on the left (HL) and the right (DE) and put the results in
; DE (left) and IX (right)
; HL (left) and DE (right)
_resolveLeftAndRight:
call parseExpr
ret nz ; return immediately if error
@ -98,12 +103,14 @@ _resolveLeftAndRight:
; IX. What we need to do now is the same thing on (DE) and then apply
; the + operator. Let's save IX somewhere and parse this.
ex de, hl ; right expr now in HL
push ix
pop de ; numeric left expr result in DE
jp parseExpr
push ix ; --> lvl 1
call parseExpr
pop hl ; <-- lvl 1. left
push ix \ pop de ; right
ret ; Z is parseExpr's result
; Routines in here all have the same signature: they take two numbers, DE (left)
; and IX (right), apply the operator and put the resulting number in IX.
; and IX (right), apply the operator and put the resulting number in DE.
; The table has 3 bytes per row: 1 byte for operator and 2 bytes for routine
; pointer.
exprTbl:
@ -113,27 +120,104 @@ exprTbl:
.dw .minus
.db '*'
.dw .mult
.db '/'
.dw .div
.db '%'
.dw .mod
.db '&'
.dw .and
.db 0x7c ; '|'
.dw .or
.db '^'
.dw .xor
.db '}'
.dw .rshift
.db '{'
.dw .lshift
.db 0 ; end of table
.plus:
add ix, de
cp a ; ensure Z
add hl, de
ex de, hl
ret
.minus:
push ix
pop hl
ex de, hl
scf \ ccf
or a ; clear carry
sbc hl, de
push hl
pop ix
cp a ; ensure Z
ex de, hl
ret
.mult:
push ix \ pop bc
call multDEBC
push hl \ pop ix
cp a ; ensure Z
ld b, h
ld c, l
call multDEBC ; --> HL
ex de, hl
ret
.div:
; divide takes HL/DE
push bc
call divide
ld e, c
ld d, b
pop bc
ret
.mod:
call .div
ex de, hl
ret
.and:
ld a, h
and d
ld d, a
ld a, l
and e
ld e, a
ret
.or:
ld a, h
or d
ld d, a
ld a, l
or e
ld e, a
ret
.xor:
ld a, h
xor d
ld d, a
ld a, l
xor e
ld e, a
ret
.rshift:
ld a, e
and 0xf
ret z
push bc
ld b, a
.rshiftLoop:
srl h
rr l
djnz .rshiftLoop
ex de, hl
pop bc
ret
.lshift:
ld a, e
and 0xf
ret z
push bc
ld b, a
.lshiftLoop:
sla l
rl h
djnz .lshiftLoop
ex de, hl
pop bc
ret

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@ -42,9 +42,9 @@ sFOO: .db "FOO", 0
sBAR: .db "BAR", 0
test:
ld hl, 0xffff
ld sp, hl
ld sp, 0xffff
; Old-style tests, not touching them now.
ld hl, s1
call parseExpr
jp nz, fail
@ -128,10 +128,65 @@ test:
jp nz, fail
call nexttest
; New-style tests
call testParseExpr
; success
xor a
halt
testParseExpr:
ld iy, .t1
call .testEQ
ld iy, .t2
call .testEQ
ld iy, .t3
call .testEQ
ld iy, .t4
call .testEQ
ld iy, .t5
call .testEQ
ld iy, .t6
call .testEQ
ld iy, .t7
call .testEQ
ret
.testEQ:
push iy \ pop hl
inc hl \ inc hl
call parseExpr
jp nz, fail
push ix \ pop de
ld a, e
cp (iy)
jp nz, fail
ld a, d
cp (iy+1)
jp nz, fail
jp nexttest
.t1:
.dw 7
.db "42/6", 0
.t2:
.dw 1
.db "7%3", 0
.t3:
.dw 0x0907
.db "0x99f7&0x0f0f", 0
.t4:
.dw 0x9fff
.db "0x99f7|0x0f0f", 0
.t5:
.dw 0x96f8
.db "0x99f7^0x0f0f", 0
.t6:
.dw 0x133e
.db "0x99f7}3", 0
.t7:
.dw 0xcfb8
.db "0x99f7{3", 0
nexttest:
ld a, (testNum)
inc a