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781 lines
28 KiB
781 lines
28 KiB
Unit iminftrees;
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{ inftrees.h -- header to use inftrees.c
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inftrees.c -- generate Huffman trees for efficient decoding
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Copyright (C) 1995-1998 Mark Adler
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WARNING: this file should *not* be used by applications. It is
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part of the implementation of the compression library and is
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subject to change.
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Pascal tranlastion
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Copyright (C) 1998 by Jacques Nomssi Nzali
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For conditions of distribution and use, see copyright notice in readme.txt
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}
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Interface
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{$I imzconf.inc}
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uses
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imzutil, impaszlib;
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{ Maximum size of dynamic tree. The maximum found in a long but non-
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exhaustive search was 1004 huft structures (850 for length/literals
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and 154 for distances, the latter actually the result of an
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exhaustive search). The actual maximum is not known, but the
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value below is more than safe. }
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const
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MANY = 1440;
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{$ifdef DEBUG}
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var
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inflate_hufts : uInt;
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{$endif}
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function inflate_trees_bits(
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var c : array of uIntf; { 19 code lengths }
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var bb : uIntf; { bits tree desired/actual depth }
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var tb : pinflate_huft; { bits tree result }
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var hp : array of Inflate_huft; { space for trees }
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var z : z_stream { for messages }
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) : int;
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function inflate_trees_dynamic(
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nl : uInt; { number of literal/length codes }
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nd : uInt; { number of distance codes }
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var c : Array of uIntf; { that many (total) code lengths }
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var bl : uIntf; { literal desired/actual bit depth }
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var bd : uIntf; { distance desired/actual bit depth }
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var tl : pInflate_huft; { literal/length tree result }
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var td : pInflate_huft; { distance tree result }
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var hp : array of Inflate_huft; { space for trees }
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var z : z_stream { for messages }
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) : int;
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function inflate_trees_fixed (
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var bl : uInt; { literal desired/actual bit depth }
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var bd : uInt; { distance desired/actual bit depth }
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var tl : pInflate_huft; { literal/length tree result }
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var td : pInflate_huft; { distance tree result }
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var z : z_stream { for memory allocation }
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) : int;
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implementation
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const
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inflate_copyright = 'inflate 1.1.2 Copyright 1995-1998 Mark Adler';
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{
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If you use the zlib library in a product, an acknowledgment is welcome
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in the documentation of your product. If for some reason you cannot
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include such an acknowledgment, I would appreciate that you keep this
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copyright string in the executable of your product.
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}
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const
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{ Tables for deflate from PKZIP's appnote.txt. }
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cplens : Array [0..30] Of uInt { Copy lengths for literal codes 257..285 }
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= (3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 15, 17, 19, 23, 27, 31,
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35, 43, 51, 59, 67, 83, 99, 115, 131, 163, 195, 227, 258, 0, 0);
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{ actually lengths - 2; also see note #13 above about 258 }
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invalid_code = 112;
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cplext : Array [0..30] Of uInt { Extra bits for literal codes 257..285 }
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= (0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2,
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3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, invalid_code, invalid_code);
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cpdist : Array [0..29] Of uInt { Copy offsets for distance codes 0..29 }
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= (1, 2, 3, 4, 5, 7, 9, 13, 17, 25, 33, 49, 65, 97, 129, 193,
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257, 385, 513, 769, 1025, 1537, 2049, 3073, 4097, 6145,
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8193, 12289, 16385, 24577);
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cpdext : Array [0..29] Of uInt { Extra bits for distance codes }
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= (0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6,
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7, 7, 8, 8, 9, 9, 10, 10, 11, 11,
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12, 12, 13, 13);
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{ Huffman code decoding is performed using a multi-level table lookup.
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The fastest way to decode is to simply build a lookup table whose
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size is determined by the longest code. However, the time it takes
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to build this table can also be a factor if the data being decoded
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is not very long. The most common codes are necessarily the
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shortest codes, so those codes dominate the decoding time, and hence
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the speed. The idea is you can have a shorter table that decodes the
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shorter, more probable codes, and then point to subsidiary tables for
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the longer codes. The time it costs to decode the longer codes is
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then traded against the time it takes to make longer tables.
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This results of this trade are in the variables lbits and dbits
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below. lbits is the number of bits the first level table for literal/
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length codes can decode in one step, and dbits is the same thing for
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the distance codes. Subsequent tables are also less than or equal to
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those sizes. These values may be adjusted either when all of the
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codes are shorter than that, in which case the longest code length in
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bits is used, or when the shortest code is *longer* than the requested
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table size, in which case the length of the shortest code in bits is
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used.
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There are two different values for the two tables, since they code a
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different number of possibilities each. The literal/length table
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codes 286 possible values, or in a flat code, a little over eight
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bits. The distance table codes 30 possible values, or a little less
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than five bits, flat. The optimum values for speed end up being
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about one bit more than those, so lbits is 8+1 and dbits is 5+1.
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The optimum values may differ though from machine to machine, and
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possibly even between compilers. Your mileage may vary. }
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{ If BMAX needs to be larger than 16, then h and x[] should be uLong. }
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const
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BMAX = 15; { maximum bit length of any code }
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{$DEFINE USE_PTR}
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function huft_build(
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var b : array of uIntf; { code lengths in bits (all assumed <= BMAX) }
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n : uInt; { number of codes (assumed <= N_MAX) }
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s : uInt; { number of simple-valued codes (0..s-1) }
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const d : array of uIntf; { list of base values for non-simple codes }
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{ array of word }
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const e : array of uIntf; { list of extra bits for non-simple codes }
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{ array of byte }
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t : ppInflate_huft; { result: starting table }
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var m : uIntf; { maximum lookup bits, returns actual }
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var hp : array of inflate_huft; { space for trees }
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var hn : uInt; { hufts used in space }
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var v : array of uIntf { working area: values in order of bit length }
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) : int;
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{ Given a list of code lengths and a maximum table size, make a set of
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tables to decode that set of codes. Return Z_OK on success, Z_BUF_ERROR
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if the given code set is incomplete (the tables are still built in this
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case), Z_DATA_ERROR if the input is invalid (an over-subscribed set of
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lengths), or Z_MEM_ERROR if not enough memory. }
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Var
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a : uInt; { counter for codes of length k }
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c : Array [0..BMAX] Of uInt; { bit length count table }
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f : uInt; { i repeats in table every f entries }
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g : int; { maximum code length }
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h : int; { table level }
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i : uInt; {register} { counter, current code }
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j : uInt; {register} { counter }
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k : Int; {register} { number of bits in current code }
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l : int; { bits per table (returned in m) }
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mask : uInt; { (1 shl w) - 1, to avoid cc -O bug on HP }
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p : ^uIntf; {register} { pointer into c[], b[], or v[] }
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q : pInflate_huft; { points to current table }
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r : inflate_huft; { table entry for structure assignment }
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u : Array [0..BMAX-1] Of pInflate_huft; { table stack }
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w : int; {register} { bits before this table = (l*h) }
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x : Array [0..BMAX] Of uInt; { bit offsets, then code stack }
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{$IFDEF USE_PTR}
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xp : puIntf; { pointer into x }
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{$ELSE}
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xp : uInt;
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{$ENDIF}
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y : int; { number of dummy codes added }
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z : uInt; { number of entries in current table }
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Begin
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{ Generate counts for each bit length }
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FillChar(c,SizeOf(c),0) ; { clear c[] }
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for i := 0 to n-1 do
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Inc (c[b[i]]); { assume all entries <= BMAX }
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If (c[0] = n) Then { null input--all zero length codes }
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Begin
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t^ := pInflate_huft(NIL);
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m := 0 ;
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huft_build := Z_OK ;
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Exit;
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End ;
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{ Find minimum and maximum length, bound [m] by those }
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l := m;
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for j:=1 To BMAX do
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if (c[j] <> 0) then
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break;
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k := j ; { minimum code length }
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if (uInt(l) < j) then
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l := j;
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for i := BMAX downto 1 do
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if (c[i] <> 0) then
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break ;
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g := i ; { maximum code length }
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if (uInt(l) > i) then
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l := i;
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m := l;
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{ Adjust last length count to fill out codes, if needed }
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y := 1 shl j ;
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while (j < i) do
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begin
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Dec(y, c[j]) ;
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if (y < 0) then
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begin
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huft_build := Z_DATA_ERROR; { bad input: more codes than bits }
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exit;
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end ;
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Inc(j) ;
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y := y shl 1
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end;
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Dec (y, c[i]) ;
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if (y < 0) then
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begin
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huft_build := Z_DATA_ERROR; { bad input: more codes than bits }
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exit;
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end;
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Inc(c[i], y);
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{ Generate starting offsets into the value table FOR each length }
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{$IFDEF USE_PTR}
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x[1] := 0;
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j := 0;
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p := @c[1];
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xp := @x[2];
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dec(i); { note that i = g from above }
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WHILE (i > 0) DO
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BEGIN
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inc(j, p^);
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xp^ := j;
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inc(p);
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inc(xp);
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dec(i);
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END;
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{$ELSE}
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x[1] := 0;
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j := 0 ;
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for i := 1 to g do
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begin
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x[i] := j;
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Inc(j, c[i]);
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end;
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{$ENDIF}
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{ Make a table of values in order of bit lengths }
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for i := 0 to n-1 do
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begin
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j := b[i];
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if (j <> 0) then
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begin
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v[ x[j] ] := i;
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Inc(x[j]);
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end;
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end;
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n := x[g]; { set n to length of v }
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{ Generate the Huffman codes and for each, make the table entries }
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i := 0 ;
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x[0] := 0 ; { first Huffman code is zero }
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p := Addr(v) ; { grab values in bit order }
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h := -1 ; { no tables yet--level -1 }
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w := -l ; { bits decoded = (l*h) }
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u[0] := pInflate_huft(NIL); { just to keep compilers happy }
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q := pInflate_huft(NIL); { ditto }
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z := 0 ; { ditto }
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{ go through the bit lengths (k already is bits in shortest code) }
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while (k <= g) Do
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begin
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a := c[k] ;
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while (a<>0) Do
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begin
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Dec (a) ;
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{ here i is the Huffman code of length k bits for value p^ }
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{ make tables up to required level }
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while (k > w + l) do
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begin
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Inc (h) ;
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Inc (w, l); { add bits already decoded }
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{ previous table always l bits }
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{ compute minimum size table less than or equal to l bits }
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{ table size upper limit }
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z := g - w;
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If (z > uInt(l)) Then
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z := l;
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{ try a k-w bit table }
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j := k - w;
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f := 1 shl j;
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if (f > a+1) Then { too few codes for k-w bit table }
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begin
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Dec(f, a+1); { deduct codes from patterns left }
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{$IFDEF USE_PTR}
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xp := Addr(c[k]);
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if (j < z) then
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begin
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Inc(j);
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while (j < z) do
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begin { try smaller tables up to z bits }
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f := f shl 1;
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Inc (xp) ;
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If (f <= xp^) Then
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break; { enough codes to use up j bits }
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Dec(f, xp^); { else deduct codes from patterns }
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Inc(j);
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end;
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end;
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{$ELSE}
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xp := k;
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if (j < z) then
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begin
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Inc (j) ;
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While (j < z) Do
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begin { try smaller tables up to z bits }
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f := f * 2;
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Inc (xp) ;
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if (f <= c[xp]) then
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Break ; { enough codes to use up j bits }
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Dec (f, c[xp]) ; { else deduct codes from patterns }
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Inc (j);
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end;
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end;
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{$ENDIF}
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end;
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z := 1 shl j; { table entries for j-bit table }
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{ allocate new table }
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if (hn + z > MANY) then { (note: doesn't matter for fixed) }
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begin
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huft_build := Z_MEM_ERROR; { not enough memory }
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exit;
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end;
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q := @hp[hn];
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u[h] := q;
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Inc(hn, z);
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{ connect to last table, if there is one }
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if (h <> 0) then
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begin
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x[h] := i; { save pattern for backing up }
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r.bits := Byte(l); { bits to dump before this table }
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r.exop := Byte(j); { bits in this table }
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j := i shr (w - l);
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{r.base := uInt( q - u[h-1] -j);} { offset to this table }
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r.base := (ptr2int(q) - ptr2int(u[h-1]) ) div sizeof(q^) - j;
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huft_Ptr(u[h-1])^[j] := r; { connect to last table }
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end
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else
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t^ := q; { first table is returned result }
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end;
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{ set up table entry in r }
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r.bits := Byte(k - w);
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{ C-code: if (p >= v + n) - see ZUTIL.PAS for comments }
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if ptr2int(p)>=ptr2int(@(v[n])) then { also works under DPMI ?? }
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r.exop := 128 + 64 { out of values--invalid code }
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else
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if (p^ < s) then
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begin
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if (p^ < 256) then { 256 is end-of-block code }
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r.exop := 0
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Else
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r.exop := 32 + 64; { EOB_code; }
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r.base := p^; { simple code is just the value }
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Inc(p);
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end
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Else
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begin
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r.exop := Byte(e[p^-s] + 16 + 64); { non-simple--look up in lists }
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r.base := d[p^-s];
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Inc (p);
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end ;
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{ fill code-like entries with r }
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f := 1 shl (k - w);
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j := i shr w;
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while (j < z) do
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begin
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huft_Ptr(q)^[j] := r;
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Inc(j, f);
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end;
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{ backwards increment the k-bit code i }
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j := 1 shl (k-1) ;
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while (i and j) <> 0 do
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begin
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i := i xor j; { bitwise exclusive or }
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j := j shr 1
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end ;
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i := i xor j;
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{ backup over finished tables }
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mask := (1 shl w) - 1; { needed on HP, cc -O bug }
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while ((i and mask) <> x[h]) do
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begin
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Dec(h); { don't need to update q }
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Dec(w, l);
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mask := (1 shl w) - 1;
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end;
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end;
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Inc(k);
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end;
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{ Return Z_BUF_ERROR if we were given an incomplete table }
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if (y <> 0) And (g <> 1) then
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huft_build := Z_BUF_ERROR
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else
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huft_build := Z_OK;
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end; { huft_build}
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|
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function inflate_trees_bits(
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var c : array of uIntf; { 19 code lengths }
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var bb : uIntf; { bits tree desired/actual depth }
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var tb : pinflate_huft; { bits tree result }
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var hp : array of Inflate_huft; { space for trees }
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var z : z_stream { for messages }
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) : int;
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var
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r : int;
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hn : uInt; { hufts used in space }
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v : PuIntArray; { work area for huft_build }
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begin
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hn := 0;
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v := PuIntArray( ZALLOC(z, 19, sizeof(uInt)) );
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if (v = Z_NULL) then
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begin
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inflate_trees_bits := Z_MEM_ERROR;
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exit;
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end;
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r := huft_build(c, 19, 19, cplens, cplext,
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{puIntf(Z_NULL), puIntf(Z_NULL),}
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@tb, bb, hp, hn, v^);
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if (r = Z_DATA_ERROR) then
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z.msg := 'oversubscribed dynamic bit lengths tree'
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else
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if (r = Z_BUF_ERROR) or (bb = 0) then
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begin
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z.msg := 'incomplete dynamic bit lengths tree';
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r := Z_DATA_ERROR;
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end;
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ZFREE(z, v);
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inflate_trees_bits := r;
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end;
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|
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function inflate_trees_dynamic(
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|
nl : uInt; { number of literal/length codes }
|
|
nd : uInt; { number of distance codes }
|
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var c : Array of uIntf; { that many (total) code lengths }
|
|
var bl : uIntf; { literal desired/actual bit depth }
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|
var bd : uIntf; { distance desired/actual bit depth }
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|
var tl : pInflate_huft; { literal/length tree result }
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|
var td : pInflate_huft; { distance tree result }
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|
var hp : array of Inflate_huft; { space for trees }
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|
var z : z_stream { for messages }
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|
) : int;
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var
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r : int;
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hn : uInt; { hufts used in space }
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v : PuIntArray; { work area for huft_build }
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begin
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hn := 0;
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|
{ allocate work area }
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v := PuIntArray( ZALLOC(z, 288, sizeof(uInt)) );
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|
if (v = Z_NULL) then
|
|
begin
|
|
inflate_trees_dynamic := Z_MEM_ERROR;
|
|
exit;
|
|
end;
|
|
|
|
{ build literal/length tree }
|
|
r := huft_build(c, nl, 257, cplens, cplext, @tl, bl, hp, hn, v^);
|
|
if (r <> Z_OK) or (bl = 0) then
|
|
begin
|
|
if (r = Z_DATA_ERROR) then
|
|
z.msg := 'oversubscribed literal/length tree'
|
|
else
|
|
if (r <> Z_MEM_ERROR) then
|
|
begin
|
|
z.msg := 'incomplete literal/length tree';
|
|
r := Z_DATA_ERROR;
|
|
end;
|
|
|
|
ZFREE(z, v);
|
|
inflate_trees_dynamic := r;
|
|
exit;
|
|
end;
|
|
|
|
{ build distance tree }
|
|
r := huft_build(puIntArray(@c[nl])^, nd, 0,
|
|
cpdist, cpdext, @td, bd, hp, hn, v^);
|
|
if (r <> Z_OK) or ((bd = 0) and (nl > 257)) then
|
|
begin
|
|
if (r = Z_DATA_ERROR) then
|
|
z.msg := 'oversubscribed literal/length tree'
|
|
else
|
|
if (r = Z_BUF_ERROR) then
|
|
begin
|
|
{$ifdef PKZIP_BUG_WORKAROUND}
|
|
r := Z_OK;
|
|
end;
|
|
{$else}
|
|
z.msg := 'incomplete literal/length tree';
|
|
r := Z_DATA_ERROR;
|
|
end
|
|
else
|
|
if (r <> Z_MEM_ERROR) then
|
|
begin
|
|
z.msg := 'empty distance tree with lengths';
|
|
r := Z_DATA_ERROR;
|
|
end;
|
|
ZFREE(z, v);
|
|
inflate_trees_dynamic := r;
|
|
exit;
|
|
{$endif}
|
|
end;
|
|
|
|
{ done }
|
|
ZFREE(z, v);
|
|
inflate_trees_dynamic := Z_OK;
|
|
end;
|
|
|
|
{$UNDEF BUILDFIXED}
|
|
|
|
{ build fixed tables only once--keep them here }
|
|
{$IFNDEF BUILDFIXED}
|
|
{ locals }
|
|
var
|
|
fixed_built : Boolean = false;
|
|
const
|
|
FIXEDH = 544; { number of hufts used by fixed tables }
|
|
var
|
|
fixed_mem : array[0..FIXEDH-1] of inflate_huft;
|
|
fixed_bl : uInt;
|
|
fixed_bd : uInt;
|
|
fixed_tl : pInflate_huft;
|
|
fixed_td : pInflate_huft;
|
|
|
|
{$ELSE}
|
|
|
|
{ inffixed.h -- table for decoding fixed codes }
|
|
|
|
{local}
|
|
const
|
|
fixed_bl = uInt(9);
|
|
{local}
|
|
const
|
|
fixed_bd = uInt(5);
|
|
{local}
|
|
const
|
|
fixed_tl : array [0..288-1] of inflate_huft = (
|
|
Exop, { number of extra bits or operation }
|
|
bits : Byte; { number of bits in this code or subcode }
|
|
{pad : uInt;} { pad structure to a power of 2 (4 bytes for }
|
|
{ 16-bit, 8 bytes for 32-bit int's) }
|
|
base : uInt; { literal, length base, or distance base }
|
|
{ or table offset }
|
|
|
|
((96,7),256), ((0,8),80), ((0,8),16), ((84,8),115), ((82,7),31),
|
|
((0,8),112), ((0,8),48), ((0,9),192), ((80,7),10), ((0,8),96),
|
|
((0,8),32), ((0,9),160), ((0,8),0), ((0,8),128), ((0,8),64),
|
|
((0,9),224), ((80,7),6), ((0,8),88), ((0,8),24), ((0,9),144),
|
|
((83,7),59), ((0,8),120), ((0,8),56), ((0,9),208), ((81,7),17),
|
|
((0,8),104), ((0,8),40), ((0,9),176), ((0,8),8), ((0,8),136),
|
|
((0,8),72), ((0,9),240), ((80,7),4), ((0,8),84), ((0,8),20),
|
|
((85,8),227), ((83,7),43), ((0,8),116), ((0,8),52), ((0,9),200),
|
|
((81,7),13), ((0,8),100), ((0,8),36), ((0,9),168), ((0,8),4),
|
|
((0,8),132), ((0,8),68), ((0,9),232), ((80,7),8), ((0,8),92),
|
|
((0,8),28), ((0,9),152), ((84,7),83), ((0,8),124), ((0,8),60),
|
|
((0,9),216), ((82,7),23), ((0,8),108), ((0,8),44), ((0,9),184),
|
|
((0,8),12), ((0,8),140), ((0,8),76), ((0,9),248), ((80,7),3),
|
|
((0,8),82), ((0,8),18), ((85,8),163), ((83,7),35), ((0,8),114),
|
|
((0,8),50), ((0,9),196), ((81,7),11), ((0,8),98), ((0,8),34),
|
|
((0,9),164), ((0,8),2), ((0,8),130), ((0,8),66), ((0,9),228),
|
|
((80,7),7), ((0,8),90), ((0,8),26), ((0,9),148), ((84,7),67),
|
|
((0,8),122), ((0,8),58), ((0,9),212), ((82,7),19), ((0,8),106),
|
|
((0,8),42), ((0,9),180), ((0,8),10), ((0,8),138), ((0,8),74),
|
|
((0,9),244), ((80,7),5), ((0,8),86), ((0,8),22), ((192,8),0),
|
|
((83,7),51), ((0,8),118), ((0,8),54), ((0,9),204), ((81,7),15),
|
|
((0,8),102), ((0,8),38), ((0,9),172), ((0,8),6), ((0,8),134),
|
|
((0,8),70), ((0,9),236), ((80,7),9), ((0,8),94), ((0,8),30),
|
|
((0,9),156), ((84,7),99), ((0,8),126), ((0,8),62), ((0,9),220),
|
|
((82,7),27), ((0,8),110), ((0,8),46), ((0,9),188), ((0,8),14),
|
|
((0,8),142), ((0,8),78), ((0,9),252), ((96,7),256), ((0,8),81),
|
|
((0,8),17), ((85,8),131), ((82,7),31), ((0,8),113), ((0,8),49),
|
|
((0,9),194), ((80,7),10), ((0,8),97), ((0,8),33), ((0,9),162),
|
|
((0,8),1), ((0,8),129), ((0,8),65), ((0,9),226), ((80,7),6),
|
|
((0,8),89), ((0,8),25), ((0,9),146), ((83,7),59), ((0,8),121),
|
|
((0,8),57), ((0,9),210), ((81,7),17), ((0,8),105), ((0,8),41),
|
|
((0,9),178), ((0,8),9), ((0,8),137), ((0,8),73), ((0,9),242),
|
|
((80,7),4), ((0,8),85), ((0,8),21), ((80,8),258), ((83,7),43),
|
|
((0,8),117), ((0,8),53), ((0,9),202), ((81,7),13), ((0,8),101),
|
|
((0,8),37), ((0,9),170), ((0,8),5), ((0,8),133), ((0,8),69),
|
|
((0,9),234), ((80,7),8), ((0,8),93), ((0,8),29), ((0,9),154),
|
|
((84,7),83), ((0,8),125), ((0,8),61), ((0,9),218), ((82,7),23),
|
|
((0,8),109), ((0,8),45), ((0,9),186), ((0,8),13), ((0,8),141),
|
|
((0,8),77), ((0,9),250), ((80,7),3), ((0,8),83), ((0,8),19),
|
|
((85,8),195), ((83,7),35), ((0,8),115), ((0,8),51), ((0,9),198),
|
|
((81,7),11), ((0,8),99), ((0,8),35), ((0,9),166), ((0,8),3),
|
|
((0,8),131), ((0,8),67), ((0,9),230), ((80,7),7), ((0,8),91),
|
|
((0,8),27), ((0,9),150), ((84,7),67), ((0,8),123), ((0,8),59),
|
|
((0,9),214), ((82,7),19), ((0,8),107), ((0,8),43), ((0,9),182),
|
|
((0,8),11), ((0,8),139), ((0,8),75), ((0,9),246), ((80,7),5),
|
|
((0,8),87), ((0,8),23), ((192,8),0), ((83,7),51), ((0,8),119),
|
|
((0,8),55), ((0,9),206), ((81,7),15), ((0,8),103), ((0,8),39),
|
|
((0,9),174), ((0,8),7), ((0,8),135), ((0,8),71), ((0,9),238),
|
|
((80,7),9), ((0,8),95), ((0,8),31), ((0,9),158), ((84,7),99),
|
|
((0,8),127), ((0,8),63), ((0,9),222), ((82,7),27), ((0,8),111),
|
|
((0,8),47), ((0,9),190), ((0,8),15), ((0,8),143), ((0,8),79),
|
|
((0,9),254), ((96,7),256), ((0,8),80), ((0,8),16), ((84,8),115),
|
|
((82,7),31), ((0,8),112), ((0,8),48), ((0,9),193), ((80,7),10),
|
|
((0,8),96), ((0,8),32), ((0,9),161), ((0,8),0), ((0,8),128),
|
|
((0,8),64), ((0,9),225), ((80,7),6), ((0,8),88), ((0,8),24),
|
|
((0,9),145), ((83,7),59), ((0,8),120), ((0,8),56), ((0,9),209),
|
|
((81,7),17), ((0,8),104), ((0,8),40), ((0,9),177), ((0,8),8),
|
|
((0,8),136), ((0,8),72), ((0,9),241), ((80,7),4), ((0,8),84),
|
|
((0,8),20), ((85,8),227), ((83,7),43), ((0,8),116), ((0,8),52),
|
|
((0,9),201), ((81,7),13), ((0,8),100), ((0,8),36), ((0,9),169),
|
|
((0,8),4), ((0,8),132), ((0,8),68), ((0,9),233), ((80,7),8),
|
|
((0,8),92), ((0,8),28), ((0,9),153), ((84,7),83), ((0,8),124),
|
|
((0,8),60), ((0,9),217), ((82,7),23), ((0,8),108), ((0,8),44),
|
|
((0,9),185), ((0,8),12), ((0,8),140), ((0,8),76), ((0,9),249),
|
|
((80,7),3), ((0,8),82), ((0,8),18), ((85,8),163), ((83,7),35),
|
|
((0,8),114), ((0,8),50), ((0,9),197), ((81,7),11), ((0,8),98),
|
|
((0,8),34), ((0,9),165), ((0,8),2), ((0,8),130), ((0,8),66),
|
|
((0,9),229), ((80,7),7), ((0,8),90), ((0,8),26), ((0,9),149),
|
|
((84,7),67), ((0,8),122), ((0,8),58), ((0,9),213), ((82,7),19),
|
|
((0,8),106), ((0,8),42), ((0,9),181), ((0,8),10), ((0,8),138),
|
|
((0,8),74), ((0,9),245), ((80,7),5), ((0,8),86), ((0,8),22),
|
|
((192,8),0), ((83,7),51), ((0,8),118), ((0,8),54), ((0,9),205),
|
|
((81,7),15), ((0,8),102), ((0,8),38), ((0,9),173), ((0,8),6),
|
|
((0,8),134), ((0,8),70), ((0,9),237), ((80,7),9), ((0,8),94),
|
|
((0,8),30), ((0,9),157), ((84,7),99), ((0,8),126), ((0,8),62),
|
|
((0,9),221), ((82,7),27), ((0,8),110), ((0,8),46), ((0,9),189),
|
|
((0,8),14), ((0,8),142), ((0,8),78), ((0,9),253), ((96,7),256),
|
|
((0,8),81), ((0,8),17), ((85,8),131), ((82,7),31), ((0,8),113),
|
|
((0,8),49), ((0,9),195), ((80,7),10), ((0,8),97), ((0,8),33),
|
|
((0,9),163), ((0,8),1), ((0,8),129), ((0,8),65), ((0,9),227),
|
|
((80,7),6), ((0,8),89), ((0,8),25), ((0,9),147), ((83,7),59),
|
|
((0,8),121), ((0,8),57), ((0,9),211), ((81,7),17), ((0,8),105),
|
|
((0,8),41), ((0,9),179), ((0,8),9), ((0,8),137), ((0,8),73),
|
|
((0,9),243), ((80,7),4), ((0,8),85), ((0,8),21), ((80,8),258),
|
|
((83,7),43), ((0,8),117), ((0,8),53), ((0,9),203), ((81,7),13),
|
|
((0,8),101), ((0,8),37), ((0,9),171), ((0,8),5), ((0,8),133),
|
|
((0,8),69), ((0,9),235), ((80,7),8), ((0,8),93), ((0,8),29),
|
|
((0,9),155), ((84,7),83), ((0,8),125), ((0,8),61), ((0,9),219),
|
|
((82,7),23), ((0,8),109), ((0,8),45), ((0,9),187), ((0,8),13),
|
|
((0,8),141), ((0,8),77), ((0,9),251), ((80,7),3), ((0,8),83),
|
|
((0,8),19), ((85,8),195), ((83,7),35), ((0,8),115), ((0,8),51),
|
|
((0,9),199), ((81,7),11), ((0,8),99), ((0,8),35), ((0,9),167),
|
|
((0,8),3), ((0,8),131), ((0,8),67), ((0,9),231), ((80,7),7),
|
|
((0,8),91), ((0,8),27), ((0,9),151), ((84,7),67), ((0,8),123),
|
|
((0,8),59), ((0,9),215), ((82,7),19), ((0,8),107), ((0,8),43),
|
|
((0,9),183), ((0,8),11), ((0,8),139), ((0,8),75), ((0,9),247),
|
|
((80,7),5), ((0,8),87), ((0,8),23), ((192,8),0), ((83,7),51),
|
|
((0,8),119), ((0,8),55), ((0,9),207), ((81,7),15), ((0,8),103),
|
|
((0,8),39), ((0,9),175), ((0,8),7), ((0,8),135), ((0,8),71),
|
|
((0,9),239), ((80,7),9), ((0,8),95), ((0,8),31), ((0,9),159),
|
|
((84,7),99), ((0,8),127), ((0,8),63), ((0,9),223), ((82,7),27),
|
|
((0,8),111), ((0,8),47), ((0,9),191), ((0,8),15), ((0,8),143),
|
|
((0,8),79), ((0,9),255)
|
|
);
|
|
|
|
{local}
|
|
const
|
|
fixed_td : array[0..32-1] of inflate_huft = (
|
|
(Exop:80;bits:5;base:1), (Exop:87;bits:5;base:257), (Exop:83;bits:5;base:17),
|
|
(Exop:91;bits:5;base:4097), (Exop:81;bits:5;base), (Exop:89;bits:5;base:1025),
|
|
(Exop:85;bits:5;base:65), (Exop:93;bits:5;base:16385), (Exop:80;bits:5;base:3),
|
|
(Exop:88;bits:5;base:513), (Exop:84;bits:5;base:33), (Exop:92;bits:5;base:8193),
|
|
(Exop:82;bits:5;base:9), (Exop:90;bits:5;base:2049), (Exop:86;bits:5;base:129),
|
|
(Exop:192;bits:5;base:24577), (Exop:80;bits:5;base:2), (Exop:87;bits:5;base:385),
|
|
(Exop:83;bits:5;base:25), (Exop:91;bits:5;base:6145), (Exop:81;bits:5;base:7),
|
|
(Exop:89;bits:5;base:1537), (Exop:85;bits:5;base:97), (Exop:93;bits:5;base:24577),
|
|
(Exop:80;bits:5;base:4), (Exop:88;bits:5;base:769), (Exop:84;bits:5;base:49),
|
|
(Exop:92;bits:5;base:12289), (Exop:82;bits:5;base:13), (Exop:90;bits:5;base:3073),
|
|
(Exop:86;bits:5;base:193), (Exop:192;bits:5;base:24577)
|
|
);
|
|
{$ENDIF}
|
|
|
|
function inflate_trees_fixed(
|
|
var bl : uInt; { literal desired/actual bit depth }
|
|
var bd : uInt; { distance desired/actual bit depth }
|
|
var tl : pInflate_huft; { literal/length tree result }
|
|
var td : pInflate_huft; { distance tree result }
|
|
var z : z_stream { for memory allocation }
|
|
) : int;
|
|
type
|
|
pFixed_table = ^fixed_table;
|
|
fixed_table = array[0..288-1] of uIntf;
|
|
var
|
|
k : int; { temporary variable }
|
|
c : pFixed_table; { length list for huft_build }
|
|
v : PuIntArray; { work area for huft_build }
|
|
var
|
|
f : uInt; { number of hufts used in fixed_mem }
|
|
begin
|
|
{ build fixed tables if not already (multiple overlapped executions ok) }
|
|
if not fixed_built then
|
|
begin
|
|
f := 0;
|
|
|
|
{ allocate memory }
|
|
c := pFixed_table( ZALLOC(z, 288, sizeof(uInt)) );
|
|
if (c = Z_NULL) then
|
|
begin
|
|
inflate_trees_fixed := Z_MEM_ERROR;
|
|
exit;
|
|
end;
|
|
v := PuIntArray( ZALLOC(z, 288, sizeof(uInt)) );
|
|
if (v = Z_NULL) then
|
|
begin
|
|
ZFREE(z, c);
|
|
inflate_trees_fixed := Z_MEM_ERROR;
|
|
exit;
|
|
end;
|
|
|
|
{ literal table }
|
|
for k := 0 to Pred(144) do
|
|
c^[k] := 8;
|
|
for k := 144 to Pred(256) do
|
|
c^[k] := 9;
|
|
for k := 256 to Pred(280) do
|
|
c^[k] := 7;
|
|
for k := 280 to Pred(288) do
|
|
c^[k] := 8;
|
|
fixed_bl := 9;
|
|
huft_build(c^, 288, 257, cplens, cplext, @fixed_tl, fixed_bl,
|
|
fixed_mem, f, v^);
|
|
|
|
{ distance table }
|
|
for k := 0 to Pred(30) do
|
|
c^[k] := 5;
|
|
fixed_bd := 5;
|
|
huft_build(c^, 30, 0, cpdist, cpdext, @fixed_td, fixed_bd,
|
|
fixed_mem, f, v^);
|
|
|
|
{ done }
|
|
ZFREE(z, v);
|
|
ZFREE(z, c);
|
|
fixed_built := True;
|
|
end;
|
|
bl := fixed_bl;
|
|
bd := fixed_bd;
|
|
tl := fixed_tl;
|
|
td := fixed_td;
|
|
inflate_trees_fixed := Z_OK;
|
|
end; { inflate_trees_fixed }
|
|
|
|
|
|
end.
|