lzsa/asm/z80/unlzsa2_small.asm

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;
; Size-optimized LZSA2 decompressor by spke & uniabis (134 bytes)
2019-09-26 09:42:52 +00:00
;
; ver.00 by spke for LZSA 1.0.0 (02-09/06/2019, 145 bytes);
; ver.01 by spke for LZSA 1.0.5 (24/07/2019, added support for backward decompression);
; ver.02 by uniabis (30/07/2019, 144(-1) bytes, +3.3% speed and support for Hitachi HD64180);
; ver.03 by spke for LZSA 1.0.7 (01/08/2019, 140(-4) bytes, -1.4% speed and small re-organization of macros);
; ver.04 by spke for LZSA 1.1.0 (26/09/2019, removed usage of IY, added full revision history)
2019-10-10 23:23:43 +00:00
; ver.05 by spke for LZSA 1.1.1 (11/10/2019, 139(-1) bytes, +0.1% speed)
; ver.06 by spke (11-12/04/2021, added some comments)
; ver.07 by spke (04-05/04/2022, 134(-5) bytes, +1% speed, using self-modifying code by default)
;
; The data must be compressed using the command line compressor by Emmanuel Marty
; The compression is done as follows:
;
; lzsa.exe -f2 -r <sourcefile> <outfile>
;
; where option -r asks for the generation of raw (frame-less) data.
;
; The decompression is done in the standard way:
;
; ld hl,FirstByteOfCompressedData
; ld de,FirstByteOfMemoryForDecompressedData
; call DecompressLZSA2
;
; Backward compression is also supported; you can compress files backward using:
;
; lzsa.exe -f2 -r -b <sourcefile> <outfile>
;
; and decompress the resulting files using:
;
; ld hl,LastByteOfCompressedData
; ld de,LastByteOfMemoryForDecompressedData
; call DecompressLZSA2
;
; (do not forget to uncomment the BACKWARD_DECOMPRESS option in the decompressor).
;
; Of course, LZSA2 compression algorithms are (c) 2019 Emmanuel Marty,
; see https://github.com/emmanuel-marty/lzsa for more information
;
; Drop me an email if you have any comments/ideas/suggestions: zxintrospec@gmail.com
;
; This software is provided 'as-is', without any express or implied
; warranty. In no event will the authors be held liable for any damages
; arising from the use of this software.
;
; Permission is granted to anyone to use this software for any purpose,
; including commercial applications, and to alter it and redistribute it
; freely, subject to the following restrictions:
;
; 1. The origin of this software must not be misrepresented; you must not
; claim that you wrote the original software. If you use this software
; in a product, an acknowledgment in the product documentation would be
; appreciated but is not required.
; 2. Altered source versions must be plainly marked as such, and must not be
; misrepresented as being the original software.
; 3. This notice may not be removed or altered from any source distribution.
;
; DEFINE BACKWARD_DECOMPRESS ; uncomment for data compressed with option -b (+5 bytes, -3% speed)
; DEFINE AVOID_SELFMODIFYING_CODE ; uncomment to disallow self-modifying code (-1 byte, -4% speed)
IFNDEF BACKWARD_DECOMPRESS
MACRO NEXT_HL
inc hl
ENDM
MACRO ADD_OFFSET
add hl,de
ENDM
MACRO BLOCKCOPY
ldir
ENDM
ELSE
MACRO NEXT_HL
dec hl
ENDM
MACRO ADD_OFFSET
;push hl : or a : sbc hl,de : pop de ; 11+4+15+10 = 40t / 5 bytes
; HL = DE - HL
ld a,e : sub l : ld l,a
ld a,d : sbc h : ld h,a ; 6*4 = 24t / 6 bytes
ENDM
MACRO BLOCKCOPY
lddr
ENDM
ENDIF
@DecompressLZSA2:
; in many places we assume that B = 0
; flag P in A' signals the need to re-load the nibble store
xor a : ld b,a : exa : jr .ReadToken
.CASE00x: ; token "00Z" stands for 5-bit offsets
; (read a nibble for offset bits 1-4 and use the inverted bit Z
; of the token as bit 0 of the offset; set bits 5-15 of the offset to 1)
push af
call ReadNibble.skipLDCA : ld c,a
pop af
cp %00100000 : rl c : jr .SaveOffset
.CASE0xx dec b : cp %01000000 : jr c,.CASE00x
.CASE01x: ; token "01Z" stands for 9-bit offsets
; (read a byte for offset bits 0-7 and use the inverted bit Z
; for bit 8 of the offset; set bits 9-15 of the offset to 1)
cp %01100000
.doRLB rl b
.OffsetReadC: ld c,(hl) : NEXT_HL
IFNDEF AVOID_SELFMODIFYING_CODE
.SaveOffset: ld (.PrevOffset),bc : ld b,0
ELSE
.SaveOffset: push bc : pop ix : ld b,0
ENDIF
.MatchLen: and %00000111 : add 2 : cp 9
call z,ExtendedCode
.CopyMatch: ld c,a
push hl ; BC = len, DE = dest, HL = -offset, SP -> [src]
IFNDEF AVOID_SELFMODIFYING_CODE
.PrevOffset EQU $+1 : ld hl,0
ELSE
push ix : pop hl
ENDIF
ADD_OFFSET
BLOCKCOPY ; BC = 0, DE = dest
pop hl ; HL = src
.ReadToken: ld a,(hl) : NEXT_HL : push af
and %00011000 : jr z,.NoLiterals
rrca : rrca : rrca
call pe,ExtendedCode
ld c,a
BLOCKCOPY
.NoLiterals: pop af : or a : jp p,.CASE0xx
.CASE1xx cp %11000000 : jr c,.CASE10x
; token "111" stands for repeat offsets
; (reuse the offset value of the previous match command)
cp %11100000 : jr nc,.MatchLen
.CASE110: ; token "110" stands for 16-bit offset
; (read a byte for offset bits 8-15, then another byte for offset bits 0-7)
ld b,(hl) : NEXT_HL : jr .OffsetReadC
.CASE10x: ; token "10Z" stands for 13-bit offsets
; (read a nibble for offset bits 9-12 and use the inverted bit Z
; for bit 8 of the offset, then read a byte for offset bits 0-7.
; set bits 13-15 of the offset to 1. substract 512 from the offset to get the final value)
call ReadNibble : ld b,a
ld a,c : cp %10100000
dec b : jr .doRLB
ExtendedCode: call ReadNibble : inc a : jr z,ExtraByte
sub #F0+1 : add c : ret
ExtraByte ld a,15 : add c : add (hl) : NEXT_HL : ret nc
ld a,(hl) : NEXT_HL
ld b,(hl) : NEXT_HL : ret nz
pop bc ; RET is not needed, because RET from ReadNibble is sufficient
ReadNibble: ld c,a
.skipLDCA xor a : exa : ret m
ld a,(hl) : or #F0 : exa
ld a,(hl) : NEXT_HL : or #0F
rrca : rrca : rrca : rrca : ret