mirror of
https://github.com/emmanuel-marty/lzsa.git
synced 2024-11-29 20:49:25 +00:00
303 lines
12 KiB
NASM
303 lines
12 KiB
NASM
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; lzsa2fta.asm - LZSA v2 time-efficient decompressor implementation for 8088
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; Turbo Assembler IDEAL mode dialect; can also be assembled with NASM.
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;
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; Usual DOS assembler SMALL model assumptions apply. This code:
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; - Assumes it was invoked via NEAR call (change RET to RETF for FAR calls)
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; - Is interrupt-safe
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; - Is not re-entrant (do not decompress while already running decompression)
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; - Trashes all data and segment registers
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;
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; Copyright (C) 2019 Jim Leonard, Emmanuel Marty
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;
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; This software is provided 'as-is', without any express or implied
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; warranty. In no event will the authors be held liable for any damages
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; arising from the use of this software.
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;
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; Permission is granted to anyone to use this software for any purpose,
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; including commercial applications, and to alter it and redistribute it
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; freely, subject to the following restrictions:
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;
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; 1. The origin of this software must not be misrepresented; you must not
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; claim that you wrote the original software. If you use this software
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; in a product, an acknowledgment in the product documentation would be
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; appreciated but is not required.
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; 2. Altered source versions must be plainly marked as such, and must not be
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; misrepresented as being the original software.
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; 3. This notice may not be removed or altered from any source distribution.
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IDEAL
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P8086
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MODEL SMALL
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CODESEG
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;While LZSA2 is technically capable of generating a match offset of -2,
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;this sequence never actually showed up in my LZSA2 test corpus, likely due
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;to compressor optimizations and the LZSA2 format itself. If you know your
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;test data will contain a match offset of -2, you can enable code to write
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;out the sequence very quickly at the cost of 18 bytes of code.
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HANDLE_WORD_RUN EQU 0
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PUBLIC lzsa2_decompress_speed
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; ---------------------------------------------------------------------------
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; Decompress raw LZSA2 block
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; inputs:
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; * ds:si: raw LZSA2 block
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; * es:di: output buffer
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; output:
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; * ax: decompressed size
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; ---------------------------------------------------------------------------
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PROC lzsa2_decompress_speed NEAR
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MACRO get_nybble
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LOCAL has_nybble
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neg bh ;nybble ready?
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jns has_nybble
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xchg bx,ax
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lodsb ;load two nybbles
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xchg bx,ax
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has_nybble:
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mov cl,4 ;swap 4 high and low bits of nybble
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ror bl,cl
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mov cl,0FH
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and cl,bl
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ENDM
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lzsa2_speed_start:
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push di ;remember decompression offset
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cld ;make string operations go forward
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xor cx,cx
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mov bx,0100H ;bx used by get_nybble
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@@decode_token:
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mov ax,cx ;clear ah - cx is zero (and must stay that way)
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lodsb ;read token byte: XYZ|LL|MMMM
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mov dx,ax ;keep copy of token in dl
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and al,018H ;isolate literals length in token (LL)
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jz @@check_offset ;no literals? stop decoding, go to matches
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;At this point, al can be in three (unshifted) states: 1, 2, or 3.
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;3 = not done yet.
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cmp al,(2 shl 3) ;LITERALS_RUN_LEN_V2? (original: cmp al,03h)
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jb @@lit1b ;LZSA2 output 1-byte more often, so test first
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je @@lit2b
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mov cl,3
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shr al,cl ;shift literals length into place
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get_nybble ;cl := get extra literals length nybble
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add al,cl ;add len from token to nybble
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cmp al,012H ;LITERALS_RUN_LEN_V2 + 15 ?
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jne @@got_literals ;if not, we have the full literals count
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lodsb ;grab extra length byte
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add al,012H ;overflow?
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jnc @@got_literals_big ;if not, we have a big full literals count
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lodsw ;grab 16-bit extra length
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;For larger counts, it pays to set up a faster copy
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@@got_literals_big:
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xchg cx,ax
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shr cx,1
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rep movsw
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adc cx,0
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rep movsb
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jmp @@check_offset
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@@got_literals:
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xchg cx,ax
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rep movsb ;copy cx literals from ds:si to es:di
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jmp @@check_offset
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;LZSA2 likes to produce tiny literals of 1 or 2 bytes. Handle them here.
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@@lit2b:movsb
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@@lit1b:movsb
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@@check_offset:
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test dl,dl ;check match offset mode in token (X bit)
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js @@rep_match_or_large_offset
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cmp dl,040H ;check if this is a 5 or 9-bit offset (Y bit)
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jnb @@offset_9_bit
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;5 bit offset:
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xchg cx,ax ;clear ah - cx is zero from prior rep movs
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mov al,020H ;shift Z (offset bit 4) in place
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and al,dl
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shl al,1
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shl al,1
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get_nybble ;get nybble for offset bits 0-3
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or al,cl ;merge nybble
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rol al,1
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xor al,0E1H ;set offset bits 7-5 to 1
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dec ah ;set offset bits 15-8 to 1
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jmp @@get_match_length
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@@rep_match_or_16_bit:
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test dl,020H ;test bit Z (offset bit 8)
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jne @@repeat_match ;rep-match
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;16 bit offset:
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lodsw ;Get 2-byte match offset
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xchg ah,al
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jmp @@get_match_length
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@@offset_9_bit:
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;9 bit offset:
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xchg cx,ax ;clear ah - cx is zero from prior rep movs
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lodsb ;get 8 bit offset from stream in A
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dec ah ;set offset bits 15-8 to 1
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test dl,020H ;test bit Z (offset bit 8)
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je @@get_match_length
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dec ah ;clear bit 8 if Z bit is clear
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jmp @@get_match_length
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@@rep_match_or_large_offset:
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cmp dl,0c0H ;check if this is a 13-bit offset
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;or a 16-bit offset/rep match (Y bit)
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jnb @@rep_match_or_16_bit
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;13 bit offset:
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mov ah,020H ;shift Z (offset bit 12) in place
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and ah,dl
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shl ah,1
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shl ah,1
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get_nybble ;get nybble for offset bits 8-11
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or ah,cl ;merge nybble
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rol ah,1
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xor ah,0E1H ;set offset bits 15-13 to 1
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sub ah,2 ;substract 512
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lodsb ;load match offset bits 0-7
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@@get_match_length:
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mov bp,ax ;bp:=offset
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@@repeat_match:
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mov ax,dx ;ax: original token
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and al,07H ;isolate match length in token (MMM)
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add al,2 ;add MIN_MATCH_SIZE_V2
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cmp al,09H ;MIN_MATCH_SIZE_V2 + MATCH_RUN_LEN_V2?
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jne @@got_matchlen ;no, we have full match length from token
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get_nybble ;get extra literals length nybble
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add al,cl ;add len from token to nybble
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cmp al,018H ;MIN_MATCH_SIZE_V2 + MATCH_RUN_LEN_V2 + 15?
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jne @@got_matchlen ;no, we have full match length from token
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lodsb ;grab extra length byte
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add al,018H ;overflow?
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jnc @@got_matchlen_big ;if not, we have entire (big) length
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je @@done_decompressing ; detect EOD code
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lodsw ;grab 16-bit length
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;If we're here, we have a larger match copy and can optimize how we do that
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@@got_matchlen_big:
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xchg cx,ax ;copy match length into cx
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mov dx,ds ;save ds
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mov ax,es
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mov ds,ax ;ds:=es
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xchg si,ax ;dx:ax = old ds:si
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mov si,di ;ds:si now points at back reference in output data
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add si,bp
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IF HANDLE_WORD_RUN
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cmp bp,-2 ;do we have a byte/word run to optimize?
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jae @@do_run ;perform a run
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ELSE
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cmp bp,-1 ;do we have a byte run to optimize?
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je @@do_run_1 ;perform a byte run
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ENDIF
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;You may be tempted to change "jae" to "jge" because DX is a signed number.
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;Don't! The total window is 64k, so if you treat this as a signed comparison,
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;you will get incorrect results for offsets over 32K.
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;
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;If we're here, we have a long copy and it isn't byte-overlapping (if it
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;overlapped, we'd be in @@do_run_1) So, let's copy faster with REP MOVSW.
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;This won't affect 8088 that much, but it speeds up 8086 and higher.
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shr cx,1
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rep movsw
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adc cx,0
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rep movsb
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xchg si,ax
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mov ds,dx ;restore ds:si
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jmp @@decode_token ;go decode another token
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;Smaller match copies handled here:
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@@got_matchlen:
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xchg cx,ax ;copy match length into cx
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mov dx,ds ;save ds
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mov ax,es
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mov ds,ax ;ds:=es
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xchg si,ax ;dx:ax = old ds:si
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mov si,di ;ds:si = back reference in output data
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add si,bp
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rep movsb ;copy match
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xchg si,ax
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mov ds,dx ;restore ds:si
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jmp @@decode_token ;go decode another token
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@@done_decompressing:
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pop ax ;retrieve the original decompression offset
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xchg di,ax ;compute decompressed size
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sub ax,di
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ret ;done
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IF HANDLE_WORD_RUN
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@@do_run:
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je @@do_run_2 ;fall through to byte (common) if not word run
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ENDIF
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@@do_run_1:
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push ax
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lodsb ;load first byte of run into al
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mov ah,al
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shr cx,1
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rep stosw ;perform word run
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adc cx,0
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rep stosb ;finish word run
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pop si
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mov ds,dx
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jmp @@decode_token ;go decode another token
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IF HANDLE_WORD_RUN
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@@do_run_2:
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push ax
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lodsw ;load first word of run
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shr cx,1
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rep stosw ;perform word run
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adc cx,0 ;despite 2-byte offset, compressor might
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rep stosb ;output odd length. better safe than sorry.
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pop si
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mov ds,dx
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jmp @@decode_token ;go decode another token
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ENDIF
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ENDP lzsa2_decompress_speed
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ENDS
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END
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;Speed optimization history (decompression times in microseconds @ 4.77 MHz):
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;Compression corpus:shuttle alice robotro rletest largetx linewar ...... ..
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;Start of exercise 160828 113311 665900 238507 1053865 1004237 ******
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;add al,val -> al,cl 160813 113296 668721 237484 1053604 1003815 ++-+++
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;sub ah,2 -> dec dec 160907 113585 666744 237484 1056651 1005172 --+*-- rb
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;mov ax,cx->xchgcxax 159741 112460 660594 237477 1046770 998323 ++++++
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;unroll get_nibble 152552 106327 621119 237345 982381 942373 ++++++
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;early exit if LL=0 147242 103842 615559 239318 946863 942932 +++-+-
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;push/pop->mov/mov 145447 100832 604822 237288 927017 931366 ++++++
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;push/pop->mov/mov(2)143214 98817 592920 239298 908217 910955 +++-++
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;rep stos for -1, -2 143289 102812 617087 237164 942081 940688 ---+-- rb
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;larger literal cpys 143214 98817 591940 238296 907237 909657 **++++
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;larger copys & runs 132440 98802 586551 178768 904129 896709 ++++++ :-)
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;smaller lit. copies 131991 99131 583933 177760 901824 898308 +-+++-
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;swap smal lit compa 131828 99022 585121 177757 901793 894054 ++-*++
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;compare before shif 130587 95970 569908 177753 889221 872461 +++*++
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;getmatchlength base 130587 95970 570634 177753 893536 871556 ...... ===
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; f->rep_match_or_16 xxxxxx xxxxx 569910 xxxxxx 889266 871435 ..+.++
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; f->rep_match_or_la 129966 94748 566169 xxxxxx 880870 867030 +++.++ +++
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; f->offset_9_bit 132126 95258 568869 xxxxxx 893169 870364 -++.-+
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;final fallthrough 129966 94748 566169 177753 880870 865023 ******
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