; ; Size-optimized LZSA1 decompressor by spke (v.1 23/04/2019-30/07/2019, 67 bytes); ; with improvements by uniabis (30/07/2019, -1 byte, +3% speed). ; ; The data must be compressed using the command line compressor by Emmanuel Marty ; The compression is done as follows: ; ; lzsa.exe -f1 -r ; ; 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 DecompressLZSA1 ; ; Backward compression is also supported; you can compress files backward using: ; ; lzsa.exe -f1 -r -b ; ; and decompress the resulting files using: ; ; ld hl,LastByteOfCompressedData ; ld de,LastByteOfMemoryForDecompressedData ; call DecompressLZSA1 ; ; (do not forget to uncomment the BACKWARD_DECOMPRESS option in the decompressor). ; ; Of course, LZSA 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 IFNDEF BACKWARD_DECOMPRESS MACRO NEXT_HL inc hl ENDM MACRO ADD_OFFSET ex de,hl : 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 ENDM MACRO BLOCKCOPY lddr ENDM ENDIF @DecompressLZSA1: ld b,0 ; first a byte token "O|LLL|MMMM" is read from the stream, ; where LLL is the number of literals and MMMM is ; a length of the match that follows after the literals ReadToken: ld a,(hl) : NEXT_HL : push af and #70 : jr z,NoLiterals rrca : rrca : rrca : rrca ; LLL<7 means 0..6 literals... cp #07 : call z,ReadLongBA ; LLL=7 means 7+ literals... ld c,a : BLOCKCOPY ; next we read the low byte of the -offset NoLiterals: pop af : push de : ld e,(hl) : NEXT_HL : ld d,#FF ; the top bit of token is set if ; the offset contains the high byte as well or a : jp p,ShortOffset LongOffset: ld d,(hl) : NEXT_HL ; last but not least, the match length is read ShortOffset: and #0F : add 3 ; MMMM<15 means match lengths 0+3..14+3 cp 15+3 : call z,ReadLongBA ; MMMM=15 means lengths 14+3+ ld c,a ex (sp),hl ; BC = len, DE = -offset, HL = dest, SP -> [src] ADD_OFFSET ; BC = len, DE = dest, HL = dest+(-offset), SP -> [src] BLOCKCOPY ; BC = 0, DE = dest pop hl : jr ReadToken ; HL = src ; a standard routine to read extended codes ; into registers B (higher byte) and A (lower byte). ReadLongBA: add (hl) : NEXT_HL : ret nc ; the codes are designed to overflow; ; the overflow value 1 means read 1 extra byte ; and overflow value 0 means read 2 extra bytes .code1: ld b,a : ld a,(hl) : NEXT_HL : ret nz .code0: ld c,a : ld b,(hl) : NEXT_HL ; the two-byte match length equal to zero ; designates the end-of-data marker or b : ld a,c : ret nz pop de : pop de : ret