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554 lines
16 KiB
NASM
554 lines
16 KiB
NASM
;uInt longest_match_x64(
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; deflate_state *s,
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; IPos cur_match); /* current match */
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; gvmat64.asm -- Asm portion of the optimized longest_match for 32 bits x86_64
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; (AMD64 on Athlon 64, Opteron, Phenom
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; and Intel EM64T on Pentium 4 with EM64T, Pentium D, Core 2 Duo, Core I5/I7)
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; Copyright (C) 1995-2010 Jean-loup Gailly, Brian Raiter and Gilles Vollant.
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;
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; File written by Gilles Vollant, by converting to assembly the longest_match
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; from Jean-loup Gailly in deflate.c of zLib and infoZip zip.
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;
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; and by taking inspiration on asm686 with masm, optimised assembly code
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; from Brian Raiter, written 1998
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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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;
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;
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;
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; http://www.zlib.net
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; http://www.winimage.com/zLibDll
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; http://www.muppetlabs.com/~breadbox/software/assembly.html
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;
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; to compile this file for infozip Zip, I use option:
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; ml64.exe /Flgvmat64 /c /Zi /DINFOZIP gvmat64.asm
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;
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; to compile this file for zLib, I use option:
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; ml64.exe /Flgvmat64 /c /Zi gvmat64.asm
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; Be carrefull to adapt zlib1222add below to your version of zLib
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; (if you use a version of zLib before 1.0.4 or after 1.2.2.2, change
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; value of zlib1222add later)
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;
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; This file compile with Microsoft Macro Assembler (x64) for AMD64
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;
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; ml64.exe is given with Visual Studio 2005/2008/2010 and Windows WDK
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;
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; (you can get Windows WDK with ml64 for AMD64 from
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; http://www.microsoft.com/whdc/Devtools/wdk/default.mspx for low price)
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;
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;uInt longest_match(s, cur_match)
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; deflate_state *s;
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; IPos cur_match; /* current match */
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.code
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longest_match PROC
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;LocalVarsSize equ 88
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LocalVarsSize equ 72
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; register used : rax,rbx,rcx,rdx,rsi,rdi,r8,r9,r10,r11,r12
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; free register : r14,r15
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; register can be saved : rsp
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chainlenwmask equ rsp + 8 - LocalVarsSize ; high word: current chain len
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; low word: s->wmask
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;window equ rsp + xx - LocalVarsSize ; local copy of s->window ; stored in r10
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;windowbestlen equ rsp + xx - LocalVarsSize ; s->window + bestlen , use r10+r11
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;scanstart equ rsp + xx - LocalVarsSize ; first two bytes of string ; stored in r12w
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;scanend equ rsp + xx - LocalVarsSize ; last two bytes of string use ebx
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;scanalign equ rsp + xx - LocalVarsSize ; dword-misalignment of string r13
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;bestlen equ rsp + xx - LocalVarsSize ; size of best match so far -> r11d
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;scan equ rsp + xx - LocalVarsSize ; ptr to string wanting match -> r9
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IFDEF INFOZIP
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ELSE
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nicematch equ (rsp + 16 - LocalVarsSize) ; a good enough match size
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ENDIF
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save_rdi equ rsp + 24 - LocalVarsSize
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save_rsi equ rsp + 32 - LocalVarsSize
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save_rbx equ rsp + 40 - LocalVarsSize
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save_rbp equ rsp + 48 - LocalVarsSize
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save_r12 equ rsp + 56 - LocalVarsSize
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save_r13 equ rsp + 64 - LocalVarsSize
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;save_r14 equ rsp + 72 - LocalVarsSize
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;save_r15 equ rsp + 80 - LocalVarsSize
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; summary of register usage
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; scanend ebx
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; scanendw bx
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; chainlenwmask edx
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; curmatch rsi
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; curmatchd esi
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; windowbestlen r8
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; scanalign r9
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; scanalignd r9d
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; window r10
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; bestlen r11
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; bestlend r11d
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; scanstart r12d
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; scanstartw r12w
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; scan r13
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; nicematch r14d
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; limit r15
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; limitd r15d
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; prev rcx
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; all the +4 offsets are due to the addition of pending_buf_size (in zlib
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; in the deflate_state structure since the asm code was first written
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; (if you compile with zlib 1.0.4 or older, remove the +4).
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; Note : these value are good with a 8 bytes boundary pack structure
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MAX_MATCH equ 258
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MIN_MATCH equ 3
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MIN_LOOKAHEAD equ (MAX_MATCH+MIN_MATCH+1)
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;;; Offsets for fields in the deflate_state structure. These numbers
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;;; are calculated from the definition of deflate_state, with the
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;;; assumption that the compiler will dword-align the fields. (Thus,
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;;; changing the definition of deflate_state could easily cause this
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;;; program to crash horribly, without so much as a warning at
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;;; compile time. Sigh.)
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; all the +zlib1222add offsets are due to the addition of fields
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; in zlib in the deflate_state structure since the asm code was first written
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; (if you compile with zlib 1.0.4 or older, use "zlib1222add equ (-4)").
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; (if you compile with zlib between 1.0.5 and 1.2.2.1, use "zlib1222add equ 0").
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; if you compile with zlib 1.2.2.2 or later , use "zlib1222add equ 8").
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IFDEF INFOZIP
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_DATA SEGMENT
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COMM window_size:DWORD
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; WMask ; 7fff
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COMM window:BYTE:010040H
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COMM prev:WORD:08000H
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; MatchLen : unused
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; PrevMatch : unused
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COMM strstart:DWORD
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COMM match_start:DWORD
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; Lookahead : ignore
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COMM prev_length:DWORD ; PrevLen
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COMM max_chain_length:DWORD
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COMM good_match:DWORD
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COMM nice_match:DWORD
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prev_ad equ OFFSET prev
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window_ad equ OFFSET window
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nicematch equ nice_match
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_DATA ENDS
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WMask equ 07fffh
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ELSE
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IFNDEF zlib1222add
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zlib1222add equ 8
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ENDIF
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dsWSize equ 56+zlib1222add+(zlib1222add/2)
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dsWMask equ 64+zlib1222add+(zlib1222add/2)
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dsWindow equ 72+zlib1222add
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dsPrev equ 88+zlib1222add
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dsMatchLen equ 128+zlib1222add
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dsPrevMatch equ 132+zlib1222add
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dsStrStart equ 140+zlib1222add
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dsMatchStart equ 144+zlib1222add
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dsLookahead equ 148+zlib1222add
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dsPrevLen equ 152+zlib1222add
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dsMaxChainLen equ 156+zlib1222add
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dsGoodMatch equ 172+zlib1222add
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dsNiceMatch equ 176+zlib1222add
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window_size equ [ rcx + dsWSize]
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WMask equ [ rcx + dsWMask]
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window_ad equ [ rcx + dsWindow]
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prev_ad equ [ rcx + dsPrev]
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strstart equ [ rcx + dsStrStart]
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match_start equ [ rcx + dsMatchStart]
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Lookahead equ [ rcx + dsLookahead] ; 0ffffffffh on infozip
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prev_length equ [ rcx + dsPrevLen]
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max_chain_length equ [ rcx + dsMaxChainLen]
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good_match equ [ rcx + dsGoodMatch]
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nice_match equ [ rcx + dsNiceMatch]
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ENDIF
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; parameter 1 in r8(deflate state s), param 2 in rdx (cur match)
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; see http://weblogs.asp.net/oldnewthing/archive/2004/01/14/58579.aspx and
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; http://msdn.microsoft.com/library/en-us/kmarch/hh/kmarch/64bitAMD_8e951dd2-ee77-4728-8702-55ce4b5dd24a.xml.asp
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;
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; All registers must be preserved across the call, except for
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; rax, rcx, rdx, r8, r9, r10, and r11, which are scratch.
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;;; Save registers that the compiler may be using, and adjust esp to
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;;; make room for our stack frame.
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;;; Retrieve the function arguments. r8d will hold cur_match
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;;; throughout the entire function. edx will hold the pointer to the
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;;; deflate_state structure during the function's setup (before
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;;; entering the main loop.
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; parameter 1 in rcx (deflate_state* s), param 2 in edx -> r8 (cur match)
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; this clear high 32 bits of r8, which can be garbage in both r8 and rdx
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mov [save_rdi],rdi
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mov [save_rsi],rsi
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mov [save_rbx],rbx
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mov [save_rbp],rbp
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IFDEF INFOZIP
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mov r8d,ecx
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ELSE
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mov r8d,edx
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ENDIF
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mov [save_r12],r12
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mov [save_r13],r13
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; mov [save_r14],r14
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; mov [save_r15],r15
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;;; uInt wmask = s->w_mask;
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;;; unsigned chain_length = s->max_chain_length;
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;;; if (s->prev_length >= s->good_match) {
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;;; chain_length >>= 2;
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;;; }
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mov edi, prev_length
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mov esi, good_match
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mov eax, WMask
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mov ebx, max_chain_length
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cmp edi, esi
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jl LastMatchGood
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shr ebx, 2
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LastMatchGood:
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;;; chainlen is decremented once beforehand so that the function can
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;;; use the sign flag instead of the zero flag for the exit test.
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;;; It is then shifted into the high word, to make room for the wmask
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;;; value, which it will always accompany.
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dec ebx
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shl ebx, 16
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or ebx, eax
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;;; on zlib only
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;;; if ((uInt)nice_match > s->lookahead) nice_match = s->lookahead;
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IFDEF INFOZIP
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mov [chainlenwmask], ebx
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; on infozip nice_match = [nice_match]
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ELSE
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mov eax, nice_match
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mov [chainlenwmask], ebx
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mov r10d, Lookahead
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cmp r10d, eax
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cmovnl r10d, eax
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mov [nicematch],r10d
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ENDIF
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;;; register Bytef *scan = s->window + s->strstart;
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mov r10, window_ad
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mov ebp, strstart
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lea r13, [r10 + rbp]
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;;; Determine how many bytes the scan ptr is off from being
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;;; dword-aligned.
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mov r9,r13
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neg r13
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and r13,3
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;;; IPos limit = s->strstart > (IPos)MAX_DIST(s) ?
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;;; s->strstart - (IPos)MAX_DIST(s) : NIL;
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IFDEF INFOZIP
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mov eax,07efah ; MAX_DIST = (WSIZE-MIN_LOOKAHEAD) (0x8000-(3+8+1))
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ELSE
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mov eax, window_size
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sub eax, MIN_LOOKAHEAD
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ENDIF
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xor edi,edi
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sub ebp, eax
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mov r11d, prev_length
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cmovng ebp,edi
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;;; int best_len = s->prev_length;
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;;; Store the sum of s->window + best_len in esi locally, and in esi.
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lea rsi,[r10+r11]
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;;; register ush scan_start = *(ushf*)scan;
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;;; register ush scan_end = *(ushf*)(scan+best_len-1);
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;;; Posf *prev = s->prev;
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movzx r12d,word ptr [r9]
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movzx ebx, word ptr [r9 + r11 - 1]
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mov rdi, prev_ad
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;;; Jump into the main loop.
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mov edx, [chainlenwmask]
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cmp bx,word ptr [rsi + r8 - 1]
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jz LookupLoopIsZero
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LookupLoop1:
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and r8d, edx
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movzx r8d, word ptr [rdi + r8*2]
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cmp r8d, ebp
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jbe LeaveNow
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sub edx, 00010000h
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js LeaveNow
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LoopEntry1:
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cmp bx,word ptr [rsi + r8 - 1]
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jz LookupLoopIsZero
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LookupLoop2:
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and r8d, edx
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movzx r8d, word ptr [rdi + r8*2]
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cmp r8d, ebp
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jbe LeaveNow
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sub edx, 00010000h
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js LeaveNow
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LoopEntry2:
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cmp bx,word ptr [rsi + r8 - 1]
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jz LookupLoopIsZero
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LookupLoop4:
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and r8d, edx
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movzx r8d, word ptr [rdi + r8*2]
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cmp r8d, ebp
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jbe LeaveNow
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sub edx, 00010000h
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js LeaveNow
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LoopEntry4:
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cmp bx,word ptr [rsi + r8 - 1]
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jnz LookupLoop1
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jmp LookupLoopIsZero
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;;; do {
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;;; match = s->window + cur_match;
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;;; if (*(ushf*)(match+best_len-1) != scan_end ||
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;;; *(ushf*)match != scan_start) continue;
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;;; [...]
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;;; } while ((cur_match = prev[cur_match & wmask]) > limit
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;;; && --chain_length != 0);
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;;;
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;;; Here is the inner loop of the function. The function will spend the
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;;; majority of its time in this loop, and majority of that time will
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;;; be spent in the first ten instructions.
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;;;
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;;; Within this loop:
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;;; ebx = scanend
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;;; r8d = curmatch
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;;; edx = chainlenwmask - i.e., ((chainlen << 16) | wmask)
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;;; esi = windowbestlen - i.e., (window + bestlen)
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;;; edi = prev
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;;; ebp = limit
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LookupLoop:
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and r8d, edx
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movzx r8d, word ptr [rdi + r8*2]
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cmp r8d, ebp
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jbe LeaveNow
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sub edx, 00010000h
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js LeaveNow
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LoopEntry:
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cmp bx,word ptr [rsi + r8 - 1]
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jnz LookupLoop1
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LookupLoopIsZero:
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cmp r12w, word ptr [r10 + r8]
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jnz LookupLoop1
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;;; Store the current value of chainlen.
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mov [chainlenwmask], edx
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;;; Point edi to the string under scrutiny, and esi to the string we
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;;; are hoping to match it up with. In actuality, esi and edi are
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;;; both pointed (MAX_MATCH_8 - scanalign) bytes ahead, and edx is
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;;; initialized to -(MAX_MATCH_8 - scanalign).
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lea rsi,[r8+r10]
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mov rdx, 0fffffffffffffef8h; -(MAX_MATCH_8)
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lea rsi, [rsi + r13 + 0108h] ;MAX_MATCH_8]
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lea rdi, [r9 + r13 + 0108h] ;MAX_MATCH_8]
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prefetcht1 [rsi+rdx]
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prefetcht1 [rdi+rdx]
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;;; Test the strings for equality, 8 bytes at a time. At the end,
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;;; adjust rdx so that it is offset to the exact byte that mismatched.
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;;;
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;;; We already know at this point that the first three bytes of the
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;;; strings match each other, and they can be safely passed over before
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;;; starting the compare loop. So what this code does is skip over 0-3
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;;; bytes, as much as necessary in order to dword-align the edi
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;;; pointer. (rsi will still be misaligned three times out of four.)
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;;;
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;;; It should be confessed that this loop usually does not represent
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;;; much of the total running time. Replacing it with a more
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;;; straightforward "rep cmpsb" would not drastically degrade
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;;; performance.
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LoopCmps:
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mov rax, [rsi + rdx]
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xor rax, [rdi + rdx]
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jnz LeaveLoopCmps
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mov rax, [rsi + rdx + 8]
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xor rax, [rdi + rdx + 8]
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jnz LeaveLoopCmps8
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mov rax, [rsi + rdx + 8+8]
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xor rax, [rdi + rdx + 8+8]
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jnz LeaveLoopCmps16
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add rdx,8+8+8
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jnz short LoopCmps
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jmp short LenMaximum
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LeaveLoopCmps16: add rdx,8
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LeaveLoopCmps8: add rdx,8
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LeaveLoopCmps:
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test eax, 0000FFFFh
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jnz LenLower
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test eax,0ffffffffh
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jnz LenLower32
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add rdx,4
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shr rax,32
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or ax,ax
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jnz LenLower
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LenLower32:
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shr eax,16
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add rdx,2
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LenLower: sub al, 1
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adc rdx, 0
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;;; Calculate the length of the match. If it is longer than MAX_MATCH,
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;;; then automatically accept it as the best possible match and leave.
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lea rax, [rdi + rdx]
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sub rax, r9
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cmp eax, MAX_MATCH
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jge LenMaximum
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;;; If the length of the match is not longer than the best match we
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;;; have so far, then forget it and return to the lookup loop.
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;///////////////////////////////////
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cmp eax, r11d
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jg LongerMatch
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lea rsi,[r10+r11]
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mov rdi, prev_ad
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mov edx, [chainlenwmask]
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jmp LookupLoop
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;;; s->match_start = cur_match;
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;;; best_len = len;
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;;; if (len >= nice_match) break;
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;;; scan_end = *(ushf*)(scan+best_len-1);
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LongerMatch:
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mov r11d, eax
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mov match_start, r8d
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cmp eax, [nicematch]
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jge LeaveNow
|
|
|
|
lea rsi,[r10+rax]
|
|
|
|
movzx ebx, word ptr [r9 + rax - 1]
|
|
mov rdi, prev_ad
|
|
mov edx, [chainlenwmask]
|
|
jmp LookupLoop
|
|
|
|
;;; Accept the current string, with the maximum possible length.
|
|
|
|
LenMaximum:
|
|
mov r11d,MAX_MATCH
|
|
mov match_start, r8d
|
|
|
|
;;; if ((uInt)best_len <= s->lookahead) return (uInt)best_len;
|
|
;;; return s->lookahead;
|
|
|
|
LeaveNow:
|
|
IFDEF INFOZIP
|
|
mov eax,r11d
|
|
ELSE
|
|
mov eax, Lookahead
|
|
cmp r11d, eax
|
|
cmovng eax, r11d
|
|
ENDIF
|
|
|
|
;;; Restore the stack and return from whence we came.
|
|
|
|
|
|
mov rsi,[save_rsi]
|
|
mov rdi,[save_rdi]
|
|
mov rbx,[save_rbx]
|
|
mov rbp,[save_rbp]
|
|
mov r12,[save_r12]
|
|
mov r13,[save_r13]
|
|
; mov r14,[save_r14]
|
|
; mov r15,[save_r15]
|
|
|
|
|
|
ret 0
|
|
; please don't remove this string !
|
|
; Your can freely use gvmat64 in any free or commercial app
|
|
; but it is far better don't remove the string in the binary!
|
|
db 0dh,0ah,"asm686 with masm, optimised assembly code from Brian Raiter, written 1998, converted to amd 64 by Gilles Vollant 2005",0dh,0ah,0
|
|
longest_match ENDP
|
|
|
|
match_init PROC
|
|
ret 0
|
|
match_init ENDP
|
|
|
|
|
|
END
|