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https://github.com/KolibriOS/kolibrios.git
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e9b1c1bac6
git-svn-id: svn://kolibrios.org@6725 a494cfbc-eb01-0410-851d-a64ba20cac60
498 lines
12 KiB
NASM
498 lines
12 KiB
NASM
;===========================================================================
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; Copyright (c) 1990-2007 Info-ZIP. All rights reserved.
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;
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; See the accompanying file LICENSE, version 2000-Apr-09 or later
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; (the contents of which are also included in zip.h) for terms of use.
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; If, for some reason, all these files are missing, the Info-ZIP license
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; also may be found at: ftp://ftp.info-zip.org/pub/infozip/license.html
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;===========================================================================
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; Created by Christian Spieler, last modified 07 Jan 2007.
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;
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TITLE crc_i86.asm
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NAME crc_i86
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;
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; Optimized 8086 assembler version of the CRC32 calculation loop, intended
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; for real mode Info-ZIP programs (Zip 2.1, UnZip 5.2, and later versions).
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; Supported compilers are Microsoft C (DOS real mode) and Borland C(++)
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; (Turbo C). Watcom C (16bit) should also work.
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; This module was inspired by a similar module for the Amiga (Paul Kienitz).
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;
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; It replaces the `ulg crc32(ulg crc, ZCONST uch *buf, extent len)' function
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; in crc32.c.
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;
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; In March/April 1997, the code has been revised to incorporate Rodney Brown's
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; ideas for optimized access to the data buffer. For 8086 real mode code,
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; the data buffer is now accessed by aligned word-wide read operations.
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; This new optimization may be turned off by defining the macro switch
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; NO_16_BIT_LOADS.
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;
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; In December 1998, the loop branch commands were changed from "loop dest"
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; into "dec cx; jnz dest". On modern systems (486 and newer), the latter
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; code is usually much faster (e.g. 1 clock cycle compared to 5 for "loop"
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; on Pentium MMX). For the 286, the penalty of "dec cx; jnz" is one clock
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; cycle (12 vs. 11 cycles); on an 8088 the cycle counts are 22 (dec cx; jnz)
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; vs. 18 (loop). I decided to optimize for newer CPU models by default, because
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; I expect that old 80286 or 8088 dinosaurier machines may be rarely used
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; nowadays. In case you want optimum performance for these old CPU models
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; you should define the OPTIMIZE_286_88 macro switch on the assembler's
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; command line.
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; Likewise, "jcxz" was replaced by "jz", because the latter is faster on
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; 486 and newer CPUs (without any penalty on 80286 and older CPU models).
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;
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; In January 2007, the "hand-made" memory model setup section has been guarded
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; against redefinition of @CodeSize and @DataSize symbols, to work around a
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; problem with current Open Watcom (version 1.6) wasm assembler.
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;
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; The code in this module should work with all kinds of C memory models
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; (except Borland's __HUGE__ model), as long as the following
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; restrictions are not violated:
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;
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; - The implementation assumes that the char buffer is confined to a
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; 64k segment. The pointer `s' to the buffer must be in a format that
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; all bytes can be accessed by manipulating the offset part, only.
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; This means:
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; + no huge pointers
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; + char buffer size < 64 kByte
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;
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; - Since the buffer size argument `n' is of type `size_t' (= unsigned short)
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; for this routine, the char buffer size is limited to less than 64 kByte,
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; anyway. So, the assumption above should be easily fulfilled.
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;
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;==============================================================================
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;
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; Do NOT assemble this source if external crc32 routine from zlib gets used,
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; or only the precomputed CRC_32_Table is needed.
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;
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ifndef USE_ZLIB
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ifndef CRC_TABLE_ONLY
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;
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; Setup of amount of assemble time informational messages:
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;
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ifdef DEBUG
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VERBOSE_INFO EQU 1
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else
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ifdef _AS_MSG_
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VERBOSE_INFO EQU 1
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else
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VERBOSE_INFO EQU 0
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endif
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endif
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;
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; Selection of memory model, and initialization of memory model
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; related macros:
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;
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ifndef __SMALL__
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ifndef __COMPACT__
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ifndef __MEDIUM__
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ifndef __LARGE__
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ifndef __HUGE__
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; __SMALL__ EQU 1
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endif
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endif
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endif
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endif
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endif
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ifdef __HUGE__
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; .MODEL Huge
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ifndef @CodeSize
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@CodeSize EQU 1
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endif
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ifndef @DataSize
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@DataSize EQU 1
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endif
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Save_DS EQU 1
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if VERBOSE_INFO
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if1
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%out Assembling for C, Huge memory model
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endif
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endif
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else
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ifdef __LARGE__
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; .MODEL Large
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ifndef @CodeSize
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@CodeSize EQU 1
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endif
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ifndef @DataSize
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@DataSize EQU 1
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endif
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if VERBOSE_INFO
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if1
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%out Assembling for C, Large memory model
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endif
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endif
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else
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ifdef __COMPACT__
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; .MODEL Compact
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ifndef @CodeSize
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@CodeSize EQU 0
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endif
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ifndef @DataSize
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@DataSize EQU 1
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endif
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if VERBOSE_INFO
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if1
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%out Assembling for C, Compact memory model
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endif
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endif
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else
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ifdef __MEDIUM__
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; .MODEL Medium
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ifndef @CodeSize
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@CodeSize EQU 1
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endif
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ifndef @DataSize
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@DataSize EQU 0
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endif
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if VERBOSE_INFO
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if1
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%out Assembling for C, Medium memory model
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endif
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endif
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else
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; .MODEL Small
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ifndef @CodeSize
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@CodeSize EQU 0
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endif
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ifndef @DataSize
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@DataSize EQU 0
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endif
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if VERBOSE_INFO
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if1
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%out Assembling for C, Small memory model
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endif
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endif
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endif
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endif
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endif
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endif
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if @CodeSize
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LCOD_OFS EQU 2
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else
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LCOD_OFS EQU 0
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endif
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IF @DataSize
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LDAT_OFS EQU 2
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else
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LDAT_OFS EQU 0
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endif
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ifdef Save_DS
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; (di,si,ds)+(size, return address)
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SAVE_REGS EQU 6+(4+LCOD_OFS)
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else
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; (di,si)+(size, return address)
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SAVE_REGS EQU 4+(4+LCOD_OFS)
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endif
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;
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; Selection of the supported CPU instruction set and initialization
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; of CPU type related macros:
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;
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ifdef __686
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Use_286_code EQU 1
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Align_Size EQU 4 ; dword alignment on Pentium II/III/IV
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Alig_PARA EQU 1 ; paragraph aligned code segment
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else
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ifdef __586
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Use_286_code EQU 1
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Align_Size EQU 4 ; dword alignment on Pentium
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Alig_PARA EQU 1 ; paragraph aligned code segment
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else
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ifdef __486
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Use_286_code EQU 1
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Align_Size EQU 4 ; dword alignment on 32 bit processors
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Alig_PARA EQU 1 ; paragraph aligned code segment
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else
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ifdef __386
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Use_286_code EQU 1
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Align_Size EQU 4 ; dword alignment on 32 bit processors
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Alig_PARA EQU 1 ; paragraph aligned code segment
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else
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ifdef __286
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Use_286_code EQU 1
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Align_Size EQU 2 ; word alignment on 16 bit processors
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Alig_PARA EQU 0 ; word aligned code segment
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else
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ifdef __186
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Use_186_code EQU 1
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Align_Size EQU 2 ; word alignment on 16 bit processors
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Alig_PARA EQU 0 ; word aligned code segment
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else
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Align_Size EQU 2 ; word alignment on 16 bit processors
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Alig_PARA EQU 0 ; word aligned code segment
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endif ;?__186
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endif ;?__286
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endif ;?__386
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endif ;?__486
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endif ;?__586
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endif ;?__686
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ifdef Use_286_code
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.286
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Have_80x86 EQU 1
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else
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ifdef Use_186_code
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.186
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Have_80x86 EQU 1
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else
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.8086
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Have_80x86 EQU 0
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endif ;?Use_186_code
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endif ;?Use_286_code
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;
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; Declare the segments used in this module:
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;
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if @CodeSize
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if Alig_PARA
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CRC32_TEXT SEGMENT PARA PUBLIC 'CODE'
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else
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CRC32_TEXT SEGMENT WORD PUBLIC 'CODE'
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endif
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CRC32_TEXT ENDS
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else ;!@CodeSize
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if Alig_PARA
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_TEXT SEGMENT PARA PUBLIC 'CODE'
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else
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_TEXT SEGMENT WORD PUBLIC 'CODE'
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endif
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_TEXT ENDS
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endif ;?@CodeSize
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_DATA SEGMENT WORD PUBLIC 'DATA'
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_DATA ENDS
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_BSS SEGMENT WORD PUBLIC 'BSS'
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_BSS ENDS
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DGROUP GROUP _BSS, _DATA
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if @DataSize
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ASSUME DS: nothing, SS: DGROUP
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else
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ASSUME DS: DGROUP, SS: DGROUP
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endif
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if @CodeSize
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EXTRN _get_crc_table:FAR
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else
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EXTRN _get_crc_table:NEAR
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endif
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Do_CRC MACRO
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mov bl,al
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sub bh,bh
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if Have_80x86
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shl bx,2
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else
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shl bx,1
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shl bx,1
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endif
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mov al,ah
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mov ah,dl
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mov dl,dh
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sub dh,dh
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xor ax,WORD PTR [bx][si]
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xor dx,WORD PTR [bx+2][si]
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ENDM
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;
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Do_1 MACRO
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if @DataSize
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xor al,BYTE PTR es:[di]
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else
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xor al,BYTE PTR [di]
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endif
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inc di
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Do_CRC
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ENDM
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;
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Do_2 MACRO
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ifndef NO_16_BIT_LOADS
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if @DataSize
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xor ax,WORD PTR es:[di]
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else
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xor ax,WORD PTR [di]
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endif
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add di,2
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Do_CRC
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Do_CRC
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else
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Do_1
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Do_1
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endif
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ENDM
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;
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Do_4 MACRO
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Do_2
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Do_2
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ENDM
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;
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IF @CodeSize
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CRC32_TEXT SEGMENT
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ASSUME CS: CRC32_TEXT
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else
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_TEXT SEGMENT
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ASSUME CS: _TEXT
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endif
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; Line 37
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;
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;ulg crc32(ulg crc,
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; ZCONST uch *buf,
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; extent len)
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;
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PUBLIC _crc32
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if @CodeSize
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_crc32 PROC FAR
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else
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_crc32 PROC NEAR
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endif
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if Have_80x86
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enter WORD PTR 0,0
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else
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push bp
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mov bp,sp
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endif
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push di
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push si
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if @DataSize
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; crc = 4+LCOD_OFS DWORD (unsigned long)
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; buf = 8+LCOD_OFS DWORD PTR BYTE (uch *)
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; len = 12+LCOD_OFS WORD (unsigned int)
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else
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; crc = 4+LCOD_OFS DWORD (unsigned long)
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; buf = 8+LCOD_OFS WORD PTR BYTE (uch *)
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; len = 10+LCOD_OFS WORD (unsigned int)
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endif
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;
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if @DataSize
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mov ax,WORD PTR [bp+8+LCOD_OFS] ; buf
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or ax,WORD PTR [bp+10+LCOD_OFS] ; == NULL ?
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else
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cmp WORD PTR [bp+8+LCOD_OFS],0 ; buf == NULL ?
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endif
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jne crc_update
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sub ax,ax ; crc = 0
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cwd
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ifndef NO_UNROLLED_LOOPS
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jmp fine
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else
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jmp SHORT fine
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endif
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;
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crc_update:
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call _get_crc_table
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; When used with compilers that conform to the Microsoft/Borland standard
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; C calling convention, model-dependent handling is not needed, because
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; _get_crc_table returns NEAR pointer.
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; But Watcom C is different and does not allow one to assume DS pointing to
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; DGROUP. So, we load DS with DGROUP, to be safe.
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;if @DataSize
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; push ds
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; mov ds,dx
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; ASSUME DS: nothing
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;endif
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mov si,ax ;crc_table
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if @DataSize
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push ds
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mov ax,SEG DGROUP
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mov ds,ax
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ASSUME DS: DGROUP
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endif
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;
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mov ax,WORD PTR [bp+4+LCOD_OFS] ;crc
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mov dx,WORD PTR [bp+6+LCOD_OFS]
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not ax
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not dx
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if @DataSize
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les di,DWORD PTR [bp+8+LCOD_OFS] ;buf
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mov cx,WORD PTR [bp+12+LCOD_OFS] ;len
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else
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mov di,WORD PTR [bp+8+LCOD_OFS] ;buf
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mov cx,WORD PTR [bp+10+LCOD_OFS] ;len
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endif
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;
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ifndef NO_UNROLLED_LOOPS
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ifndef NO_16_BIT_LOADS
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test cx,cx
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jnz start
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jmp done
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start: test di,1
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jz is_wordaligned
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dec cx
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Do_1
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mov WORD PTR [bp+10+LDAT_OFS+LCOD_OFS],cx
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is_wordaligned:
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endif ; !NO_16_BIT_LOADS
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if Have_80x86
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shr cx,2
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else
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shr cx,1
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shr cx,1
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endif
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jz No_Fours
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;
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align Align_Size ; align destination of branch
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Next_Four:
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Do_4
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ifndef OPTIMIZE_286_88
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dec cx ; on 286, "loop Next_Four" needs 11
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jnz Next_Four ; clocks, one less than this code
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else
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loop Next_Four
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endif
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;
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No_Fours:
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if @DataSize
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mov cx,WORD PTR [bp+12+LCOD_OFS] ;len
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else
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mov cx,WORD PTR [bp+10+LCOD_OFS] ;len
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endif
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and cx,00003H
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endif ; !NO_UNROLLED_LOOPS
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jz done
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;
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align Align_Size ; align destination of branch
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Next_Byte:
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Do_1
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ifndef OPTIMIZE_286_88
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dec cx ; on 286, "loop Next_Four" needs 11
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jnz Next_Byte ; clocks, one less than this code
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else
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loop Next_Four
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endif
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;
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done:
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if @DataSize
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pop ds
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; ASSUME DS: DGROUP
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ASSUME DS: nothing
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endif
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not ax
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not dx
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;
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fine:
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pop si
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pop di
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if Have_80x86
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leave
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else
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mov sp,bp
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pop bp
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endif
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ret
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_crc32 ENDP
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if @CodeSize
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CRC32_TEXT ENDS
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else
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_TEXT ENDS
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endif
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;
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endif ;!CRC_TABLE_ONLY
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endif ;!USE_ZLIB
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;
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END
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