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160 lines
3.6 KiB
NASM
160 lines
3.6 KiB
NASM
; ed - line editor
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;
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; A text editor modeled after UNIX's ed, but simpler. The goal is to stay tight
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; on resources and to avoid having to implement screen management code (that is,
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; develop the machinery to have ncurses-like apps in Collapse OS).
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;
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; ed has a mechanism to avoid having to move a lot of memory around at each
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; edit. Each line is an element in an doubly-linked list and each element point
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; to an offset in the "scratchpad". The scratchpad starts with the file
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; contents and every time we change or add a line, that line goes to the end of
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; the scratch pad and linked lists are reorganized whenever lines are changed.
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; Contents itself is always appended to the scratchpad.
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;
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; That's on a resourceful UNIX system.
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;
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; That doubly linked list on the z80 would use 7 bytes per line (prev, next,
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; offset, len), which is a bit much. Moreover, there's that whole "scratchpad
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; being loaded in memory" thing that's a bit iffy. We sacrifice speed for
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; memory usage.
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;
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; So here's what we do. First, we have two scratchpads. The first one is the
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; file being read itself. The second one is memory, for modifications we
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; make to the file. When reading the file, we note the offset at which it ends.
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; All offsets under this limit refer to the first scratchpad. Other offsets
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; refer to the second.
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;
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; Then, our line list is just an array of 16-bit offsets. This means that we
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; don't have an easy access to line length and we have to move a lot of memory
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; around whenever we add or delete lines. Hopefully, "LDIR" will be our friend
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; here...
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;
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; *** Requirements ***
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; BLOCKDEV_SIZE
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; addHL
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; blkGetC
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; blkSeek
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; blkTell
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; cpHLDE
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; intoHL
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; printstr
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; printcrlf
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; stdioReadLine
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; stdioPutC
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; unsetZ
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;
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; *** Variables ***
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;
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.equ ED_CURLINE ED_RAMSTART
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.equ ED_RAMEND ED_CURLINE+2
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edMain:
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; diverge from UNIX: start at first line
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ld hl, 0
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ld (ED_CURLINE), hl
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call bufInit
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.mainLoop:
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ld a, ':'
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call stdioPutC
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call stdioReadLine ; --> HL
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; Now, process line.
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call printcrlf
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call cmdParse
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jr nz, .error
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ld a, (CMD_TYPE)
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cp 'q'
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jr z, .doQuit
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; The rest of the commands need an address
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call edReadAddrs
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jr nz, .error
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ld a, (CMD_TYPE)
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cp 'd'
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jr z, .doDel
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cp 'a'
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jr z, .doAppend
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cp 'i'
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jr z, .doInsert
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jr .doPrint
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.doQuit:
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xor a
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ret
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.doDel:
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; bufDelLines expects an exclusive upper bound, which is why we inc DE.
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inc de
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call bufDelLines
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jr .mainLoop
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.doAppend:
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inc de
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.doInsert:
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call stdioReadLine ; --> HL
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call bufScratchpadAdd ; --> HL
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; insert index in DE, line offset in HL. We want the opposite.
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ex de, hl
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call bufInsertLine
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call printcrlf
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jr .mainLoop
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.doPrint:
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push hl
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call bufGetLine
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jr nz, .error
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call printstr
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call printcrlf
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pop hl
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call cpHLDE
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jr z, .doPrintEnd
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inc hl
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jr .doPrint
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.doPrintEnd:
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ld (ED_CURLINE), hl
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jr .mainLoop
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.error:
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ld a, '?'
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call stdioPutC
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call printcrlf
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jr .mainLoop
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; Transform an address "cmd" in IX into an absolute address in HL.
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edResolveAddr:
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ld a, (ix)
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cp RELATIVE
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jr z, .relative
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; absolute
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ld l, (ix+1)
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ld h, (ix+2)
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ret
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.relative:
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ld hl, (ED_CURLINE)
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push de
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ld e, (ix+1)
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ld d, (ix+2)
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add hl, de
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pop de
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ret
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; Read absolute addr1 in HL and addr2 in DE. Also, check bounds and set Z if
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; both addresses are within bounds, unset if not.
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edReadAddrs:
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ld ix, CMD_ADDR2
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call edResolveAddr
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ex de, hl
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ld hl, (BUF_LINECNT)
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ex de, hl ; HL: addr2 DE: cnt
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call cpHLDE
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jp nc, unsetZ ; HL (addr2) >= DE (cnt). no good
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ex de, hl ; DE: addr2
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ld ix, CMD_ADDR1
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call edResolveAddr
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ex de, hl ; HL: addr2, DE: addr1
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call cpHLDE
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jp c, unsetZ ; HL (addr2) < DE (addr1). no good
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ex de, hl ; HL: addr1, DE: addr2
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cp a ; ensure Z
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ret
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