annotate lib/zlib/inftrees.c @ 725:7037f22cd716

little continue
author Ritor1
date Fri, 22 Mar 2013 01:29:25 +0600
parents 9c0607679772
children
rev   line source
0
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1 /* inftrees.c -- generate Huffman trees for efficient decoding
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2 * Copyright (C) 1995-1998 Mark Adler
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3 * For conditions of distribution and use, see copyright notice in zlib.h
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4 */
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5
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6 #include "zutil.h"
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7 #include "inftrees.h"
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8
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9 #if !defined(BUILDFIXED) && !defined(STDC)
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10 # define BUILDFIXED /* non ANSI compilers may not accept inffixed.h */
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11 #endif
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12
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13 const char inflate_copyright[] =
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14 " inflate 1.1.3 Copyright 1995-1998 Mark Adler ";
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15 /*
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16 If you use the zlib library in a product, an acknowledgment is welcome
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17 in the documentation of your product. If for some reason you cannot
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18 include such an acknowledgment, I would appreciate that you keep this
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19 copyright string in the executable of your product.
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20 */
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21 struct internal_state {int dummy;}; /* for buggy compilers */
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22
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23 /* simplify the use of the inflate_huft type with some defines */
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24 #define exop word.what.Exop
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25 #define bits word.what.Bits
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26
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27
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28 local int huft_build OF((
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29 uIntf *, /* code lengths in bits */
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30 uInt, /* number of codes */
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31 uInt, /* number of "simple" codes */
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32 const uIntf *, /* list of base values for non-simple codes */
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33 const uIntf *, /* list of extra bits for non-simple codes */
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34 inflate_huft * FAR*,/* result: starting table */
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35 uIntf *, /* maximum lookup bits (returns actual) */
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36 inflate_huft *, /* space for trees */
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37 uInt *, /* hufts used in space */
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38 uIntf * )); /* space for values */
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39
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40 /* Tables for deflate from PKZIP's appnote.txt. */
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41 local const uInt cplens[31] = { /* Copy lengths for literal codes 257..285 */
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42 3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 15, 17, 19, 23, 27, 31,
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43 35, 43, 51, 59, 67, 83, 99, 115, 131, 163, 195, 227, 258, 0, 0};
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44 /* see note #13 above about 258 */
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45 local const uInt cplext[31] = { /* Extra bits for literal codes 257..285 */
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46 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2,
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47 3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0, 112, 112}; /* 112==invalid */
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48 local const uInt cpdist[30] = { /* Copy offsets for distance codes 0..29 */
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49 1, 2, 3, 4, 5, 7, 9, 13, 17, 25, 33, 49, 65, 97, 129, 193,
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50 257, 385, 513, 769, 1025, 1537, 2049, 3073, 4097, 6145,
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51 8193, 12289, 16385, 24577};
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52 local const uInt cpdext[30] = { /* Extra bits for distance codes */
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53 0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6,
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54 7, 7, 8, 8, 9, 9, 10, 10, 11, 11,
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55 12, 12, 13, 13};
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56
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57 /*
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58 Huffman code decoding is performed using a multi-level table lookup.
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59 The fastest way to decode is to simply build a lookup table whose
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60 size is determined by the longest code. However, the time it takes
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61 to build this table can also be a factor if the data being decoded
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62 is not very long. The most common codes are necessarily the
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63 shortest codes, so those codes dominate the decoding time, and hence
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64 the speed. The idea is you can have a shorter table that decodes the
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65 shorter, more probable codes, and then point to subsidiary tables for
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66 the longer codes. The time it costs to decode the longer codes is
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67 then traded against the time it takes to make longer tables.
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68
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69 This results of this trade are in the variables lbits and dbits
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70 below. lbits is the number of bits the first level table for literal/
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71 length codes can decode in one step, and dbits is the same thing for
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72 the distance codes. Subsequent tables are also less than or equal to
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73 those sizes. These values may be adjusted either when all of the
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74 codes are shorter than that, in which case the longest code length in
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75 bits is used, or when the shortest code is *longer* than the requested
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76 table size, in which case the length of the shortest code in bits is
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77 used.
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78
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79 There are two different values for the two tables, since they code a
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80 different number of possibilities each. The literal/length table
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81 codes 286 possible values, or in a flat code, a little over eight
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82 bits. The distance table codes 30 possible values, or a little less
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83 than five bits, flat. The optimum values for speed end up being
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84 about one bit more than those, so lbits is 8+1 and dbits is 5+1.
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85 The optimum values may differ though from machine to machine, and
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86 possibly even between compilers. Your mileage may vary.
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87 */
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88
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89
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90 /* If BMAX needs to be larger than 16, then h and x[] should be uLong. */
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91 #define BMAX 15 /* maximum bit length of any code */
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92
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93 local int huft_build(b, n, s, d, e, t, m, hp, hn, v)
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94 uIntf *b; /* code lengths in bits (all assumed <= BMAX) */
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95 uInt n; /* number of codes (assumed <= 288) */
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96 uInt s; /* number of simple-valued codes (0..s-1) */
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97 const uIntf *d; /* list of base values for non-simple codes */
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98 const uIntf *e; /* list of extra bits for non-simple codes */
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99 inflate_huft * FAR *t; /* result: starting table */
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100 uIntf *m; /* maximum lookup bits, returns actual */
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101 inflate_huft *hp; /* space for trees */
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102 uInt *hn; /* hufts used in space */
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103 uIntf *v; /* working area: values in order of bit length */
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104 /* Given a list of code lengths and a maximum table size, make a set of
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105 tables to decode that set of codes. Return Z_OK on success, Z_BUF_ERROR
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106 if the given code set is incomplete (the tables are still built in this
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107 case), Z_DATA_ERROR if the input is invalid (an over-subscribed set of
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108 lengths), or Z_MEM_ERROR if not enough memory. */
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109 {
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110
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111 uInt a; /* counter for codes of length k */
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112 uInt c[BMAX+1]; /* bit length count table */
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113 uInt f; /* i repeats in table every f entries */
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114 int g; /* maximum code length */
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115 int h; /* table level */
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116 register uInt i; /* counter, current code */
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117 register uInt j; /* counter */
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118 register int k; /* number of bits in current code */
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119 int l; /* bits per table (returned in m) */
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120 uInt mask; /* (1 << w) - 1, to avoid cc -O bug on HP */
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121 register uIntf *p; /* pointer into c[], b[], or v[] */
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122 inflate_huft *q; /* points to current table */
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123 struct inflate_huft_s r; /* table entry for structure assignment */
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124 inflate_huft *u[BMAX]; /* table stack */
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125 register int w; /* bits before this table == (l * h) */
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126 uInt x[BMAX+1]; /* bit offsets, then code stack */
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127 uIntf *xp; /* pointer into x */
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128 int y; /* number of dummy codes added */
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129 uInt z; /* number of entries in current table */
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130
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131
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132 /* Generate counts for each bit length */
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133 p = c;
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134 #define C0 *p++ = 0;
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135 #define C2 C0 C0 C0 C0
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136 #define C4 C2 C2 C2 C2
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137 C4 /* clear c[]--assume BMAX+1 is 16 */
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138 p = b; i = n;
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139 do {
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140 c[*p++]++; /* assume all entries <= BMAX */
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141 } while (--i);
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142 if (c[0] == n) /* null input--all zero length codes */
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143 {
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144 *t = (inflate_huft *)Z_NULL;
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145 *m = 0;
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146 return Z_OK;
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147 }
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148
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149
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150 /* Find minimum and maximum length, bound *m by those */
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151 l = *m;
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152 for (j = 1; j <= BMAX; j++)
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153 if (c[j])
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154 break;
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155 k = j; /* minimum code length */
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156 if ((uInt)l < j)
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157 l = j;
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158 for (i = BMAX; i; i--)
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159 if (c[i])
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160 break;
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161 g = i; /* maximum code length */
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162 if ((uInt)l > i)
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163 l = i;
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164 *m = l;
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165
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166
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167 /* Adjust last length count to fill out codes, if needed */
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168 for (y = 1 << j; j < i; j++, y <<= 1)
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169 if ((y -= c[j]) < 0)
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170 return Z_DATA_ERROR;
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171 if ((y -= c[i]) < 0)
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172 return Z_DATA_ERROR;
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173 c[i] += y;
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174
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175
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176 /* Generate starting offsets into the value table for each length */
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177 x[1] = j = 0;
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178 p = c + 1; xp = x + 2;
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179 while (--i) { /* note that i == g from above */
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180 *xp++ = (j += *p++);
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181 }
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182
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183
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184 /* Make a table of values in order of bit lengths */
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185 p = b; i = 0;
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186 do {
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187 if ((j = *p++) != 0)
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188 v[x[j]++] = i;
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189 } while (++i < n);
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190 n = x[g]; /* set n to length of v */
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191
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192
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193 /* Generate the Huffman codes and for each, make the table entries */
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194 x[0] = i = 0; /* first Huffman code is zero */
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195 p = v; /* grab values in bit order */
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196 h = -1; /* no tables yet--level -1 */
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197 w = -l; /* bits decoded == (l * h) */
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198 u[0] = (inflate_huft *)Z_NULL; /* just to keep compilers happy */
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199 q = (inflate_huft *)Z_NULL; /* ditto */
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200 z = 0; /* ditto */
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201
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202 /* go through the bit lengths (k already is bits in shortest code) */
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203 for (; k <= g; k++)
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204 {
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205 a = c[k];
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206 while (a--)
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207 {
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208 /* here i is the Huffman code of length k bits for value *p */
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209 /* make tables up to required level */
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210 while (k > w + l)
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211 {
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212 h++;
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213 w += l; /* previous table always l bits */
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214
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215 /* compute minimum size table less than or equal to l bits */
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216 z = g - w;
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217 z = z > (uInt)l ? l : z; /* table size upper limit */
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218 if ((f = 1 << (j = k - w)) > a + 1) /* try a k-w bit table */
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219 { /* too few codes for k-w bit table */
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220 f -= a + 1; /* deduct codes from patterns left */
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221 xp = c + k;
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222 if (j < z)
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223 while (++j < z) /* try smaller tables up to z bits */
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224 {
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225 if ((f <<= 1) <= *++xp)
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226 break; /* enough codes to use up j bits */
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227 f -= *xp; /* else deduct codes from patterns */
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228 }
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229 }
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230 z = 1 << j; /* table entries for j-bit table */
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231
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232 /* allocate new table */
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233 if (*hn + z > MANY) /* (note: doesn't matter for fixed) */
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234 return Z_MEM_ERROR; /* not enough memory */
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235 u[h] = q = hp + *hn;
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236 *hn += z;
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237
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238 /* connect to last table, if there is one */
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239 if (h)
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240 {
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241 x[h] = i; /* save pattern for backing up */
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242 r.bits = (Byte)l; /* bits to dump before this table */
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243 r.exop = (Byte)j; /* bits in this table */
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244 j = i >> (w - l);
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245 r.base = (uInt)(q - u[h-1] - j); /* offset to this table */
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246 u[h-1][j] = r; /* connect to last table */
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247 }
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248 else
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249 *t = q; /* first table is returned result */
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250 }
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251
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252 /* set up table entry in r */
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253 r.bits = (Byte)(k - w);
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254 if (p >= v + n)
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255 r.exop = 128 + 64; /* out of values--invalid code */
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256 else if (*p < s)
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257 {
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258 r.exop = (Byte)(*p < 256 ? 0 : 32 + 64); /* 256 is end-of-block */
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259 r.base = *p++; /* simple code is just the value */
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260 }
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261 else
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262 {
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263 r.exop = (Byte)(e[*p - s] + 16 + 64);/* non-simple--look up in lists */
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264 r.base = d[*p++ - s];
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265 }
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266
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267 /* fill code-like entries with r */
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268 f = 1 << (k - w);
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269 for (j = i >> w; j < z; j += f)
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270 q[j] = r;
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271
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272 /* backwards increment the k-bit code i */
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273 for (j = 1 << (k - 1); i & j; j >>= 1)
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274 i ^= j;
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275 i ^= j;
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276
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277 /* backup over finished tables */
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278 mask = (1 << w) - 1; /* needed on HP, cc -O bug */
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279 while ((i & mask) != x[h])
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280 {
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281 h--; /* don't need to update q */
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282 w -= l;
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283 mask = (1 << w) - 1;
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284 }
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285 }
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286 }
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287
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288
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289 /* Return Z_BUF_ERROR if we were given an incomplete table */
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290 return y != 0 && g != 1 ? Z_BUF_ERROR : Z_OK;
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291 }
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292
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293
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294 int inflate_trees_bits(c, bb, tb, hp, z)
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295 uIntf *c; /* 19 code lengths */
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296 uIntf *bb; /* bits tree desired/actual depth */
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297 inflate_huft * FAR *tb; /* bits tree result */
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298 inflate_huft *hp; /* space for trees */
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299 z_streamp z; /* for messages */
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300 {
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301 int r;
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302 uInt hn = 0; /* hufts used in space */
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303 uIntf *v; /* work area for huft_build */
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304
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305 if ((v = (uIntf*)ZALLOC(z, 19, sizeof(uInt))) == Z_NULL)
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306 return Z_MEM_ERROR;
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307 r = huft_build(c, 19, 19, (uIntf*)Z_NULL, (uIntf*)Z_NULL,
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308 tb, bb, hp, &hn, v);
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309 if (r == Z_DATA_ERROR)
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310 z->msg = (char*)"oversubscribed dynamic bit lengths tree";
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311 else if (r == Z_BUF_ERROR || *bb == 0)
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diff changeset
312 {
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313 z->msg = (char*)"incomplete dynamic bit lengths tree";
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314 r = Z_DATA_ERROR;
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315 }
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316 ZFREE(z, v);
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317 return r;
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318 }
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319
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320
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321 int inflate_trees_dynamic(nl, nd, c, bl, bd, tl, td, hp, z)
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322 uInt nl; /* number of literal/length codes */
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323 uInt nd; /* number of distance codes */
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324 uIntf *c; /* that many (total) code lengths */
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325 uIntf *bl; /* literal desired/actual bit depth */
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326 uIntf *bd; /* distance desired/actual bit depth */
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327 inflate_huft * FAR *tl; /* literal/length tree result */
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parents:
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328 inflate_huft * FAR *td; /* distance tree result */
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329 inflate_huft *hp; /* space for trees */
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parents:
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330 z_streamp z; /* for messages */
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331 {
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332 int r;
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333 uInt hn = 0; /* hufts used in space */
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parents:
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334 uIntf *v; /* work area for huft_build */
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parents:
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335
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parents:
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336 /* allocate work area */
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parents:
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337 if ((v = (uIntf*)ZALLOC(z, 288, sizeof(uInt))) == Z_NULL)
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338 return Z_MEM_ERROR;
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339
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340 /* build literal/length tree */
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341 r = huft_build(c, nl, 257, cplens, cplext, tl, bl, hp, &hn, v);
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342 if (r != Z_OK || *bl == 0)
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parents:
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343 {
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344 if (r == Z_DATA_ERROR)
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345 z->msg = (char*)"oversubscribed literal/length tree";
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parents:
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346 else if (r != Z_MEM_ERROR)
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parents:
diff changeset
347 {
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348 z->msg = (char*)"incomplete literal/length tree";
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parents:
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349 r = Z_DATA_ERROR;
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parents:
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350 }
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parents:
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351 ZFREE(z, v);
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352 return r;
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353 }
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354
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355 /* build distance tree */
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356 r = huft_build(c + nl, nd, 0, cpdist, cpdext, td, bd, hp, &hn, v);
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357 if (r != Z_OK || (*bd == 0 && nl > 257))
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parents:
diff changeset
358 {
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parents:
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359 if (r == Z_DATA_ERROR)
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parents:
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360 z->msg = (char*)"oversubscribed distance tree";
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parents:
diff changeset
361 else if (r == Z_BUF_ERROR) {
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parents:
diff changeset
362 #ifdef PKZIP_BUG_WORKAROUND
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363 r = Z_OK;
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parents:
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364 }
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parents:
diff changeset
365 #else
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366 z->msg = (char*)"incomplete distance tree";
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parents:
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367 r = Z_DATA_ERROR;
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parents:
diff changeset
368 }
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parents:
diff changeset
369 else if (r != Z_MEM_ERROR)
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parents:
diff changeset
370 {
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parents:
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371 z->msg = (char*)"empty distance tree with lengths";
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parents:
diff changeset
372 r = Z_DATA_ERROR;
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parents:
diff changeset
373 }
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parents:
diff changeset
374 ZFREE(z, v);
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parents:
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375 return r;
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parents:
diff changeset
376 #endif
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parents:
diff changeset
377 }
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parents:
diff changeset
378
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parents:
diff changeset
379 /* done */
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parents:
diff changeset
380 ZFREE(z, v);
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parents:
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381 return Z_OK;
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parents:
diff changeset
382 }
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parents:
diff changeset
383
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parents:
diff changeset
384
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parents:
diff changeset
385 /* build fixed tables only once--keep them here */
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386 #ifdef BUILDFIXED
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387 local int fixed_built = 0;
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388 #define FIXEDH 544 /* number of hufts used by fixed tables */
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389 local inflate_huft fixed_mem[FIXEDH];
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390 local uInt fixed_bl;
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parents:
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391 local uInt fixed_bd;
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392 local inflate_huft *fixed_tl;
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393 local inflate_huft *fixed_td;
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394 #else
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395 #include "inffixed.h"
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parents:
diff changeset
396 #endif
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parents:
diff changeset
397
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parents:
diff changeset
398
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parents:
diff changeset
399 int inflate_trees_fixed(bl, bd, tl, td, z)
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parents:
diff changeset
400 uIntf *bl; /* literal desired/actual bit depth */
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parents:
diff changeset
401 uIntf *bd; /* distance desired/actual bit depth */
Ritor1
parents:
diff changeset
402 inflate_huft * FAR *tl; /* literal/length tree result */
Ritor1
parents:
diff changeset
403 inflate_huft * FAR *td; /* distance tree result */
Ritor1
parents:
diff changeset
404 z_streamp z; /* for memory allocation */
Ritor1
parents:
diff changeset
405 {
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parents:
diff changeset
406 #ifdef BUILDFIXED
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parents:
diff changeset
407 /* build fixed tables if not already */
Ritor1
parents:
diff changeset
408 if (!fixed_built)
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parents:
diff changeset
409 {
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parents:
diff changeset
410 int k; /* temporary variable */
Ritor1
parents:
diff changeset
411 uInt f = 0; /* number of hufts used in fixed_mem */
Ritor1
parents:
diff changeset
412 uIntf *c; /* length list for huft_build */
Ritor1
parents:
diff changeset
413 uIntf *v; /* work area for huft_build */
Ritor1
parents:
diff changeset
414
Ritor1
parents:
diff changeset
415 /* allocate memory */
Ritor1
parents:
diff changeset
416 if ((c = (uIntf*)ZALLOC(z, 288, sizeof(uInt))) == Z_NULL)
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parents:
diff changeset
417 return Z_MEM_ERROR;
Ritor1
parents:
diff changeset
418 if ((v = (uIntf*)ZALLOC(z, 288, sizeof(uInt))) == Z_NULL)
Ritor1
parents:
diff changeset
419 {
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parents:
diff changeset
420 ZFREE(z, c);
Ritor1
parents:
diff changeset
421 return Z_MEM_ERROR;
Ritor1
parents:
diff changeset
422 }
Ritor1
parents:
diff changeset
423
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parents:
diff changeset
424 /* literal table */
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parents:
diff changeset
425 for (k = 0; k < 144; k++)
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parents:
diff changeset
426 c[k] = 8;
Ritor1
parents:
diff changeset
427 for (; k < 256; k++)
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parents:
diff changeset
428 c[k] = 9;
Ritor1
parents:
diff changeset
429 for (; k < 280; k++)
Ritor1
parents:
diff changeset
430 c[k] = 7;
Ritor1
parents:
diff changeset
431 for (; k < 288; k++)
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parents:
diff changeset
432 c[k] = 8;
Ritor1
parents:
diff changeset
433 fixed_bl = 9;
Ritor1
parents:
diff changeset
434 huft_build(c, 288, 257, cplens, cplext, &fixed_tl, &fixed_bl,
Ritor1
parents:
diff changeset
435 fixed_mem, &f, v);
Ritor1
parents:
diff changeset
436
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parents:
diff changeset
437 /* distance table */
Ritor1
parents:
diff changeset
438 for (k = 0; k < 30; k++)
Ritor1
parents:
diff changeset
439 c[k] = 5;
Ritor1
parents:
diff changeset
440 fixed_bd = 5;
Ritor1
parents:
diff changeset
441 huft_build(c, 30, 0, cpdist, cpdext, &fixed_td, &fixed_bd,
Ritor1
parents:
diff changeset
442 fixed_mem, &f, v);
Ritor1
parents:
diff changeset
443
Ritor1
parents:
diff changeset
444 /* done */
Ritor1
parents:
diff changeset
445 ZFREE(z, v);
Ritor1
parents:
diff changeset
446 ZFREE(z, c);
Ritor1
parents:
diff changeset
447 fixed_built = 1;
Ritor1
parents:
diff changeset
448 }
Ritor1
parents:
diff changeset
449 #endif
Ritor1
parents:
diff changeset
450 *bl = fixed_bl;
Ritor1
parents:
diff changeset
451 *bd = fixed_bd;
Ritor1
parents:
diff changeset
452 *tl = fixed_tl;
Ritor1
parents:
diff changeset
453 *td = fixed_td;
Ritor1
parents:
diff changeset
454 return Z_OK;
Ritor1
parents:
diff changeset
455 }