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collapseos/apps/ed/buf.asm
Virgil Dupras af0b6231ca recipes/sms/romasm: make ed's memory usage fit the SMS
Yup, that's ultimately why I've just made this whole big zasm
refactoring in the previous commits. To allow for this.

But also, zasm is in much better shape now...
2019-07-23 16:13:52 -04:00

212 lines
5.6 KiB
NASM

; buf - manage line buffer
;
; *** Variables ***
; Number of lines currently in the buffer
.equ BUF_LINECNT BUF_RAMSTART
; List of pointers to strings in scratchpad
.equ BUF_LINES BUF_LINECNT+2
; Points to the end of the scratchpad, that is, one byte after the last written
; char in it.
.equ BUF_PADEND BUF_LINES+ED_BUF_MAXLINES*2
; The in-memory scratchpad
.equ BUF_PAD BUF_PADEND+2
.equ BUF_RAMEND BUF_PAD+ED_BUF_PADMAXLEN
; *** Code ***
; On initialization, we read the whole contents of target blkdev and add lines
; as we go.
bufInit:
ld hl, BUF_PAD ; running pointer to end of pad
ld de, BUF_PAD ; points to beginning of current line
ld ix, BUF_LINES ; points to current line index
ld bc, 0 ; line count
; init pad end in case we have an empty file.
ld (BUF_PADEND), hl
.loop:
call ioGetC
jr nz, .loopend
or a ; null? hum, weird. same as LF
jr z, .lineend
cp 0x0a
jr z, .lineend
ld (hl), a
inc hl
jr .loop
.lineend:
; We've just finished reading a line, writing each char in the pad.
; Null terminate it.
xor a
ld (hl), a
inc hl
; Now, let's register its pointer in BUF_LINES
ld (ix), e
inc ix
ld (ix), d
inc ix
inc bc
ld (BUF_PADEND), hl
ld de, (BUF_PADEND)
jr .loop
.loopend:
ld (BUF_LINECNT), bc
ret
; transform line index HL into its corresponding memory address in BUF_LINES
; array.
bufLineAddr:
push de
ex de, hl
ld hl, BUF_LINES
add hl, de
add hl, de ; twice, because two bytes per line
pop de
ret
; Read line number specified in HL and make HL point to its contents.
; Sets Z on success, unset if out of bounds.
bufGetLine:
push de ; --> lvl 1
ld de, (BUF_LINECNT)
call cpHLDE
pop de ; <-- lvl 1
jp nc, unsetZ ; HL > (BUF_LINECNT)
call bufLineAddr
; HL now points to an item in BUF_LINES.
call intoHL
; Now, HL points to our contents
cp a ; ensure Z
ret
; Given line indexes in HL and DE where HL < DE < CNT, move all lines between
; DE and CNT by an offset of DE-HL. Also, adjust BUF_LINECNT by DE-HL.
; WARNING: no bounds check. The only consumer of this routine already does
; bounds check.
bufDelLines:
; Let's start with setting up BC, which is (CNT-DE) * 2
push hl ; --> lvl 1
ld hl, (BUF_LINECNT)
scf \ ccf
sbc hl, de
; mult by 2 and we're done
sla l \ rl h
push hl \ pop bc
pop hl ; <-- lvl 1
; Good! BC done. Now, let's adjust BUF_LINECNT by DE-HL
push hl ; --> lvl 1
scf \ ccf
sbc hl, de ; HL -> nb of lines to delete, negative
push de ; --> lvl 2
ld de, (BUF_LINECNT)
add hl, de ; adding DE to negative HL
ld (BUF_LINECNT), hl
pop de ; <-- lvl 2
pop hl ; <-- lvl 1
; Line count updated!
; One other thing... is BC zero? Because if it is, then we shouldn't
; call ldir (otherwise we're on for a veeeery long loop), BC=0 means
; that only last lines were deleted. nothing to do.
ld a, b
or c
ret z ; BC==0, return
; let's have invert HL and DE to match LDIR's signature
ex de, hl
; At this point we have higher index in HL, lower index in DE and number
; of bytes to delete in BC. It's convenient because it's rather close
; to LDIR's signature! The only thing we need to do now is to translate
; those HL and DE indexes in memory addresses, that is, multiply by 2
; and add BUF_LINES
push hl ; --> lvl 1
ex de, hl
call bufLineAddr
ex de, hl
pop hl ; <-- lvl 1
call bufLineAddr
; Both HL and DE are translated. Go!
ldir
ret
; Insert string where DE points to memory scratchpad, then insert that line
; at index HL, offsetting all lines by 2 bytes.
bufInsertLine:
call bufIndexInBounds
jr nz, .append
push de ; --> lvl 1, scratchpad ptr
push hl ; --> lvl 2, insert index
; The logic below is mostly copy-pasted from bufDelLines, but with a
; LDDR logic (to avoid overwriting). I learned, with some pain involved,
; that generalizing this code wasn't working very well. I don't repeat
; the comments, refer to bufDelLines
ex de, hl ; line index now in DE
ld hl, (BUF_LINECNT)
scf \ ccf
sbc hl, de
; mult by 2 and we're done
sla l \ rl h
push hl \ pop bc
; From this point, we don't need our line index in DE any more because
; LDDR will start from BUF_LINECNT-1 with count BC. We'll only need it
; when it's time to insert the line in the space we make.
ld hl, (BUF_LINECNT)
call bufLineAddr
; HL is pointing to *first byte* after last line. Our source needs to
; be the second byte of the last line and our dest is the second byte
; after the last line.
push hl \ pop de
dec hl ; second byte of last line
inc de ; second byte beyond last line
; HL = BUF_LINECNT-1, DE = BUF_LINECNT, BC is set. We're good!
lddr
.set:
; We still need to increase BUF_LINECNT
ld hl, (BUF_LINECNT)
inc hl
ld (BUF_LINECNT), hl
; A space has been opened at line index HL. Let's fill it with our
; inserted line.
pop hl ; <-- lvl 2, insert index
call bufLineAddr
pop de ; <-- lvl 1, scratchpad offset
ld (hl), e
inc hl
ld (hl), d
ret
.append:
; nothing to move, just put the line there. Let's piggy-back on the end
; of the regular routine by carefully pushing the right register in the
; right place.
; But before that, make sure that HL isn't too high. The only place we
; can append to is at (BUF_LINECNT)
ld hl, (BUF_LINECNT)
push de ; --> lvl 1
push hl ; --> lvl 2
jr .set
; copy string that HL points to to scratchpad and return its pointer in
; scratchpad, in HL.
bufScratchpadAdd:
push de
ld de, (BUF_PADEND)
push de ; --> lvl 1
call strcpyM
inc de ; pad end is last char + 1
ld (BUF_PADEND), de
pop hl ; <-- lvl 1
pop de
ret
; Sets Z according to whether the line index in HL is within bounds.
bufIndexInBounds:
push de
ld de, (BUF_LINECNT)
call cpHLDE
pop de
jr c, .withinBounds
; out of bounds
jp unsetZ
.withinBounds:
cp a ; ensure Z
ret