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7cf3ed38da
Most of register fiddling routines (which is now the only thing contained in care.asm) are used by almost all userspace apps, often in inner loops. That makes the penalty of using jump tables for those a bit too high. Moreover, it burdens jump tables needlessly. Because this unit is very small (now that string routines are out), it makes sense to always include it in binaries.
177 lines
3.6 KiB
NASM
177 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.
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;
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; We sacrifice speed for memory usage by making that linked list into a simple
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; array of pointers to line contents in scratchpad. 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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; *** Variables ***
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;
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.equ ED_CURLINE ED_RAMSTART
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.equ ED_RAMEND @+2
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edMain:
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; because ed only takes a single string arg, we can use HL directly
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call ioInit
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ret nz
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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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jp nz, .error
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ld a, (CMD_TYPE)
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cp 'q'
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jr z, .doQ
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cp 'w'
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jr z, .doW
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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 'i'
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jr z, .doI
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; The rest of the commands don't allow addr == cnt
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push hl ; --> lvl 1
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ld hl, (BUF_LINECNT)
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call cpHLDE
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pop hl ; <-- lvl 1
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jr z, .error
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ld a, (CMD_TYPE)
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cp 'd'
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jr z, .doD
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cp 'a'
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jr z, .doA
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jr .doP
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.doQ:
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xor a
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ret
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.doW:
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ld a, 3 ; seek beginning
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call ioSeek
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ld de, 0 ; cur line
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.wLoop:
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push de \ pop hl
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call bufGetLine ; --> buffer in (HL)
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jr nz, .wEnd
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call ioPutLine
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jr nz, .error
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inc de
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jr .wLoop
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.wEnd:
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; Set new file size
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call ioTell
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call ioSetSize
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; for now, writing implies quitting
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; TODO: reload buffer
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xor a
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ret
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.doD:
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ld (ED_CURLINE), de
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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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.doA:
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inc de
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.doI:
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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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ld (ED_CURLINE), hl
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call bufInsertLine
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call printcrlf
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jr .mainLoop
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.doP:
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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, .doPEnd
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inc hl
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jr .doP
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.doPEnd:
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ld (ED_CURLINE), hl
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jp .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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jp .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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cp EOF
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jr z, .eof
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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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.eof:
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ld hl, (BUF_LINECNT)
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dec hl
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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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ld de, (BUF_LINECNT)
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ex de, hl ; HL: cnt DE: addr2
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call cpHLDE
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jp c, unsetZ ; HL (cnt) < DE (addr2). no good
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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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