1 | /* deflate.c -- compress data using the deflation algorithm
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2 | * Copyright (C) 1995-2012 Jean-loup Gailly and 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 | /*
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7 | * ALGORITHM
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8 | *
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9 | * The "deflation" process depends on being able to identify portions
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10 | * of the input text which are identical to earlier input (within a
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11 | * sliding window trailing behind the input currently being processed).
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12 | *
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13 | * The most straightforward technique turns out to be the fastest for
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14 | * most input files: try all possible matches and select the longest.
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15 | * The key feature of this algorithm is that insertions into the string
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16 | * dictionary are very simple and thus fast, and deletions are avoided
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17 | * completely. Insertions are performed at each input character, whereas
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18 | * string matches are performed only when the previous match ends. So it
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19 | * is preferable to spend more time in matches to allow very fast string
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20 | * insertions and avoid deletions. The matching algorithm for small
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21 | * strings is inspired from that of Rabin & Karp. A brute force approach
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22 | * is used to find longer strings when a small match has been found.
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23 | * A similar algorithm is used in comic (by Jan-Mark Wams) and freeze
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24 | * (by Leonid Broukhis).
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25 | * A previous version of this file used a more sophisticated algorithm
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26 | * (by Fiala and Greene) which is guaranteed to run in linear amortized
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27 | * time, but has a larger average cost, uses more memory and is patented.
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28 | * However the F&G algorithm may be faster for some highly redundant
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29 | * files if the parameter max_chain_length (described below) is too large.
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30 | *
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31 | * ACKNOWLEDGEMENTS
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32 | *
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33 | * The idea of lazy evaluation of matches is due to Jan-Mark Wams, and
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34 | * I found it in 'freeze' written by Leonid Broukhis.
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35 | * Thanks to many people for bug reports and testing.
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36 | *
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37 | * REFERENCES
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38 | *
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39 | * Deutsch, L.P.,"DEFLATE Compressed Data Format Specification".
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40 | * Available in http://tools.ietf.org/html/rfc1951
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41 | *
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42 | * A description of the Rabin and Karp algorithm is given in the book
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43 | * "Algorithms" by R. Sedgewick, Addison-Wesley, p252.
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44 | *
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45 | * Fiala,E.R., and Greene,D.H.
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46 | * Data Compression with Finite Windows, Comm.ACM, 32,4 (1989) 490-595
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47 | *
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48 | */
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49 |
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50 | /* @(#) $Id: deflate.c 40354 2012-03-05 13:39:00Z vboxsync $ */
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51 |
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52 | #include "deflate.h"
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53 |
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54 | const char deflate_copyright[] =
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55 | " deflate 1.2.6 Copyright 1995-2012 Jean-loup Gailly and Mark Adler ";
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56 | /*
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57 | If you use the zlib library in a product, an acknowledgment is welcome
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58 | in the documentation of your product. If for some reason you cannot
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59 | include such an acknowledgment, I would appreciate that you keep this
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60 | copyright string in the executable of your product.
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61 | */
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62 |
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63 | /* ===========================================================================
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64 | * Function prototypes.
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65 | */
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66 | typedef enum {
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67 | need_more, /* block not completed, need more input or more output */
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68 | block_done, /* block flush performed */
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69 | finish_started, /* finish started, need only more output at next deflate */
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70 | finish_done /* finish done, accept no more input or output */
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71 | } block_state;
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72 |
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73 | typedef block_state (*compress_func) OF((deflate_state *s, int flush));
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74 | /* Compression function. Returns the block state after the call. */
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75 |
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76 | local void fill_window OF((deflate_state *s));
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77 | local block_state deflate_stored OF((deflate_state *s, int flush));
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78 | local block_state deflate_fast OF((deflate_state *s, int flush));
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79 | #ifndef FASTEST
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80 | local block_state deflate_slow OF((deflate_state *s, int flush));
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81 | #endif
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82 | local block_state deflate_rle OF((deflate_state *s, int flush));
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83 | local block_state deflate_huff OF((deflate_state *s, int flush));
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84 | local void lm_init OF((deflate_state *s));
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85 | local void putShortMSB OF((deflate_state *s, uInt b));
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86 | local void flush_pending OF((z_streamp strm));
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87 | local int read_buf OF((z_streamp strm, Bytef *buf, unsigned size));
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88 | #ifdef ASMV
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89 | void match_init OF((void)); /* asm code initialization */
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90 | uInt longest_match OF((deflate_state *s, IPos cur_match));
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91 | #else
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92 | local uInt longest_match OF((deflate_state *s, IPos cur_match));
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93 | #endif
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94 |
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95 | #ifdef DEBUG
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96 | local void check_match OF((deflate_state *s, IPos start, IPos match,
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97 | int length));
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98 | #endif
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99 |
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100 | /* ===========================================================================
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101 | * Local data
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102 | */
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103 |
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104 | #define NIL 0
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105 | /* Tail of hash chains */
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106 |
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107 | #ifndef TOO_FAR
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108 | # define TOO_FAR 4096
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109 | #endif
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110 | /* Matches of length 3 are discarded if their distance exceeds TOO_FAR */
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111 |
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112 | /* Values for max_lazy_match, good_match and max_chain_length, depending on
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113 | * the desired pack level (0..9). The values given below have been tuned to
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114 | * exclude worst case performance for pathological files. Better values may be
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115 | * found for specific files.
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116 | */
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117 | typedef struct config_s {
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118 | ush good_length; /* reduce lazy search above this match length */
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119 | ush max_lazy; /* do not perform lazy search above this match length */
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120 | ush nice_length; /* quit search above this match length */
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121 | ush max_chain;
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122 | compress_func func;
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123 | } config;
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124 |
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125 | #ifdef FASTEST
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126 | local const config configuration_table[2] = {
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127 | /* good lazy nice chain */
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128 | /* 0 */ {0, 0, 0, 0, deflate_stored}, /* store only */
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129 | /* 1 */ {4, 4, 8, 4, deflate_fast}}; /* max speed, no lazy matches */
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130 | #else
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131 | local const config configuration_table[10] = {
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132 | /* good lazy nice chain */
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133 | /* 0 */ {0, 0, 0, 0, deflate_stored}, /* store only */
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134 | /* 1 */ {4, 4, 8, 4, deflate_fast}, /* max speed, no lazy matches */
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135 | /* 2 */ {4, 5, 16, 8, deflate_fast},
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136 | /* 3 */ {4, 6, 32, 32, deflate_fast},
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137 |
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138 | /* 4 */ {4, 4, 16, 16, deflate_slow}, /* lazy matches */
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139 | /* 5 */ {8, 16, 32, 32, deflate_slow},
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140 | /* 6 */ {8, 16, 128, 128, deflate_slow},
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141 | /* 7 */ {8, 32, 128, 256, deflate_slow},
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142 | /* 8 */ {32, 128, 258, 1024, deflate_slow},
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143 | /* 9 */ {32, 258, 258, 4096, deflate_slow}}; /* max compression */
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144 | #endif
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145 |
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146 | /* Note: the deflate() code requires max_lazy >= MIN_MATCH and max_chain >= 4
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147 | * For deflate_fast() (levels <= 3) good is ignored and lazy has a different
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148 | * meaning.
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149 | */
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150 |
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151 | #define EQUAL 0
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152 | /* result of memcmp for equal strings */
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153 |
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154 | #ifndef NO_DUMMY_DECL
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155 | struct static_tree_desc_s {int dummy;}; /* for buggy compilers */
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156 | #endif
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157 |
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158 | /* rank Z_BLOCK between Z_NO_FLUSH and Z_PARTIAL_FLUSH */
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159 | #define RANK(f) (((f) << 1) - ((f) > 4 ? 9 : 0))
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160 |
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161 | /* ===========================================================================
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162 | * Update a hash value with the given input byte
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163 | * IN assertion: all calls to to UPDATE_HASH are made with consecutive
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164 | * input characters, so that a running hash key can be computed from the
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165 | * previous key instead of complete recalculation each time.
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166 | */
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167 | #define UPDATE_HASH(s,h,c) (h = (((h)<<s->hash_shift) ^ (c)) & s->hash_mask)
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168 |
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169 |
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170 | /* ===========================================================================
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171 | * Insert string str in the dictionary and set match_head to the previous head
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172 | * of the hash chain (the most recent string with same hash key). Return
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173 | * the previous length of the hash chain.
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174 | * If this file is compiled with -DFASTEST, the compression level is forced
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175 | * to 1, and no hash chains are maintained.
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176 | * IN assertion: all calls to to INSERT_STRING are made with consecutive
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177 | * input characters and the first MIN_MATCH bytes of str are valid
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178 | * (except for the last MIN_MATCH-1 bytes of the input file).
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179 | */
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180 | #ifdef FASTEST
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181 | #define INSERT_STRING(s, str, match_head) \
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182 | (UPDATE_HASH(s, s->ins_h, s->window[(str) + (MIN_MATCH-1)]), \
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183 | match_head = s->head[s->ins_h], \
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184 | s->head[s->ins_h] = (Pos)(str))
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185 | #else
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186 | #define INSERT_STRING(s, str, match_head) \
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187 | (UPDATE_HASH(s, s->ins_h, s->window[(str) + (MIN_MATCH-1)]), \
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188 | match_head = s->prev[(str) & s->w_mask] = s->head[s->ins_h], \
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189 | s->head[s->ins_h] = (Pos)(str))
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190 | #endif
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191 |
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192 | /* ===========================================================================
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193 | * Initialize the hash table (avoiding 64K overflow for 16 bit systems).
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194 | * prev[] will be initialized on the fly.
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195 | */
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196 | #define CLEAR_HASH(s) \
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197 | s->head[s->hash_size-1] = NIL; \
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198 | zmemzero((Bytef *)s->head, (unsigned)(s->hash_size-1)*sizeof(*s->head));
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199 |
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200 | /* ========================================================================= */
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201 | int ZEXPORT deflateInit_(strm, level, version, stream_size)
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202 | z_streamp strm;
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203 | int level;
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204 | const char *version;
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205 | int stream_size;
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206 | {
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207 | return deflateInit2_(strm, level, Z_DEFLATED, MAX_WBITS, DEF_MEM_LEVEL,
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208 | Z_DEFAULT_STRATEGY, version, stream_size);
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209 | /* To do: ignore strm->next_in if we use it as window */
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210 | }
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211 |
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212 | /* ========================================================================= */
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213 | int ZEXPORT deflateInit2_(strm, level, method, windowBits, memLevel, strategy,
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214 | version, stream_size)
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215 | z_streamp strm;
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216 | int level;
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217 | int method;
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218 | int windowBits;
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219 | int memLevel;
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220 | int strategy;
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221 | const char *version;
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222 | int stream_size;
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223 | {
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224 | deflate_state *s;
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225 | int wrap = 1;
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226 | static const char my_version[] = ZLIB_VERSION;
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227 |
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228 | ushf *overlay;
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229 | /* We overlay pending_buf and d_buf+l_buf. This works since the average
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230 | * output size for (length,distance) codes is <= 24 bits.
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231 | */
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232 |
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233 | if (version == Z_NULL || version[0] != my_version[0] ||
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234 | stream_size != sizeof(z_stream)) {
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235 | return Z_VERSION_ERROR;
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236 | }
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237 | if (strm == Z_NULL) return Z_STREAM_ERROR;
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238 |
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239 | strm->msg = Z_NULL;
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240 | if (strm->zalloc == (alloc_func)0) {
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241 | #ifdef Z_SOLO
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242 | return Z_STREAM_ERROR;
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243 | #else
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244 | strm->zalloc = zcalloc;
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245 | strm->opaque = (voidpf)0;
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246 | #endif
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247 | }
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248 | if (strm->zfree == (free_func)0)
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249 | #ifdef Z_SOLO
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250 | return Z_STREAM_ERROR;
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251 | #else
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252 | strm->zfree = zcfree;
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253 | #endif
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254 |
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255 | #ifdef FASTEST
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256 | if (level != 0) level = 1;
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257 | #else
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258 | if (level == Z_DEFAULT_COMPRESSION) level = 6;
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259 | #endif
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260 |
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261 | if (windowBits < 0) { /* suppress zlib wrapper */
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262 | wrap = 0;
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263 | windowBits = -windowBits;
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264 | }
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265 | #ifdef GZIP
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266 | else if (windowBits > 15) {
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267 | wrap = 2; /* write gzip wrapper instead */
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268 | windowBits -= 16;
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269 | }
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270 | #endif
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271 | if (memLevel < 1 || memLevel > MAX_MEM_LEVEL || method != Z_DEFLATED ||
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272 | windowBits < 8 || windowBits > 15 || level < 0 || level > 9 ||
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273 | strategy < 0 || strategy > Z_FIXED) {
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274 | return Z_STREAM_ERROR;
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275 | }
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276 | if (windowBits == 8) windowBits = 9; /* until 256-byte window bug fixed */
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277 | s = (deflate_state *) ZALLOC(strm, 1, sizeof(deflate_state));
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278 | if (s == Z_NULL) return Z_MEM_ERROR;
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279 | strm->state = (struct internal_state FAR *)s;
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280 | s->strm = strm;
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281 |
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282 | s->wrap = wrap;
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283 | s->gzhead = Z_NULL;
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284 | s->w_bits = windowBits;
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285 | s->w_size = 1 << s->w_bits;
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286 | s->w_mask = s->w_size - 1;
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287 |
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288 | s->hash_bits = memLevel + 7;
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289 | s->hash_size = 1 << s->hash_bits;
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290 | s->hash_mask = s->hash_size - 1;
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291 | s->hash_shift = ((s->hash_bits+MIN_MATCH-1)/MIN_MATCH);
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292 |
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293 | s->window = (Bytef *) ZALLOC(strm, s->w_size, 2*sizeof(Byte));
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294 | s->prev = (Posf *) ZALLOC(strm, s->w_size, sizeof(Pos));
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295 | s->head = (Posf *) ZALLOC(strm, s->hash_size, sizeof(Pos));
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296 |
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297 | s->high_water = 0; /* nothing written to s->window yet */
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298 |
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299 | s->lit_bufsize = 1 << (memLevel + 6); /* 16K elements by default */
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300 |
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301 | overlay = (ushf *) ZALLOC(strm, s->lit_bufsize, sizeof(ush)+2);
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302 | s->pending_buf = (uchf *) overlay;
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303 | s->pending_buf_size = (ulg)s->lit_bufsize * (sizeof(ush)+2L);
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304 |
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305 | if (s->window == Z_NULL || s->prev == Z_NULL || s->head == Z_NULL ||
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306 | s->pending_buf == Z_NULL) {
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307 | s->status = FINISH_STATE;
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308 | strm->msg = (char*)ERR_MSG(Z_MEM_ERROR);
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309 | deflateEnd (strm);
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310 | return Z_MEM_ERROR;
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311 | }
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312 | s->d_buf = overlay + s->lit_bufsize/sizeof(ush);
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313 | s->l_buf = s->pending_buf + (1+sizeof(ush))*s->lit_bufsize;
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314 |
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315 | s->level = level;
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316 | s->strategy = strategy;
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317 | s->method = (Byte)method;
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318 |
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319 | return deflateReset(strm);
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320 | }
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321 |
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322 | /* ========================================================================= */
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323 | int ZEXPORT deflateSetDictionary (strm, dictionary, dictLength)
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324 | z_streamp strm;
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325 | const Bytef *dictionary;
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326 | uInt dictLength;
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327 | {
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328 | deflate_state *s;
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329 | uInt str, n;
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330 | int wrap;
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331 | unsigned avail;
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332 | unsigned char *next;
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333 |
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334 | if (strm == Z_NULL || strm->state == Z_NULL || dictionary == Z_NULL)
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335 | return Z_STREAM_ERROR;
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336 | s = strm->state;
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337 | wrap = s->wrap;
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338 | if (wrap == 2 || (wrap == 1 && s->status != INIT_STATE) || s->lookahead)
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339 | return Z_STREAM_ERROR;
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340 |
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341 | /* when using zlib wrappers, compute Adler-32 for provided dictionary */
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342 | if (wrap == 1)
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343 | strm->adler = adler32(strm->adler, dictionary, dictLength);
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344 | s->wrap = 0; /* avoid computing Adler-32 in read_buf */
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345 |
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346 | /* if dictionary would fill window, just replace the history */
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347 | if (dictLength >= s->w_size) {
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348 | if (wrap == 0) { /* already empty otherwise */
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349 | CLEAR_HASH(s);
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350 | s->strstart = 0;
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351 | s->block_start = 0L;
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352 | s->insert = 0;
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353 | }
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354 | dictionary += dictLength - s->w_size; /* use the tail */
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355 | dictLength = s->w_size;
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356 | }
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357 |
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358 | /* insert dictionary into window and hash */
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359 | avail = strm->avail_in;
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360 | next = strm->next_in;
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361 | strm->avail_in = dictLength;
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362 | strm->next_in = (Bytef *)dictionary;
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363 | fill_window(s);
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364 | while (s->lookahead >= MIN_MATCH) {
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365 | str = s->strstart;
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366 | n = s->lookahead - (MIN_MATCH-1);
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367 | do {
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368 | UPDATE_HASH(s, s->ins_h, s->window[str + MIN_MATCH-1]);
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369 | #ifndef FASTEST
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370 | s->prev[str & s->w_mask] = s->head[s->ins_h];
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371 | #endif
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372 | s->head[s->ins_h] = (Pos)str;
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373 | str++;
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374 | } while (--n);
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375 | s->strstart = str;
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376 | s->lookahead = MIN_MATCH-1;
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377 | fill_window(s);
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378 | }
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379 | s->strstart += s->lookahead;
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380 | s->block_start = (long)s->strstart;
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381 | s->insert = s->lookahead;
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382 | s->lookahead = 0;
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383 | s->match_length = s->prev_length = MIN_MATCH-1;
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384 | s->match_available = 0;
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385 | strm->next_in = next;
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386 | strm->avail_in = avail;
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387 | s->wrap = wrap;
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388 | return Z_OK;
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389 | }
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390 |
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391 | /* ========================================================================= */
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392 | int ZEXPORT deflateResetKeep (strm)
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393 | z_streamp strm;
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394 | {
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395 | deflate_state *s;
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396 |
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397 | if (strm == Z_NULL || strm->state == Z_NULL ||
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398 | strm->zalloc == (alloc_func)0 || strm->zfree == (free_func)0) {
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399 | return Z_STREAM_ERROR;
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400 | }
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401 |
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402 | strm->total_in = strm->total_out = 0;
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403 | strm->msg = Z_NULL; /* use zfree if we ever allocate msg dynamically */
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404 | strm->data_type = Z_UNKNOWN;
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405 |
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406 | s = (deflate_state *)strm->state;
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407 | s->pending = 0;
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408 | s->pending_out = s->pending_buf;
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409 |
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410 | if (s->wrap < 0) {
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411 | s->wrap = -s->wrap; /* was made negative by deflate(..., Z_FINISH); */
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412 | }
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413 | s->status = s->wrap ? INIT_STATE : BUSY_STATE;
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414 | strm->adler =
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415 | #ifdef GZIP
|
---|
416 | s->wrap == 2 ? crc32(0L, Z_NULL, 0) :
|
---|
417 | #endif
|
---|
418 | adler32(0L, Z_NULL, 0);
|
---|
419 | s->last_flush = Z_NO_FLUSH;
|
---|
420 |
|
---|
421 | _tr_init(s);
|
---|
422 |
|
---|
423 | return Z_OK;
|
---|
424 | }
|
---|
425 |
|
---|
426 | /* ========================================================================= */
|
---|
427 | int ZEXPORT deflateReset (strm)
|
---|
428 | z_streamp strm;
|
---|
429 | {
|
---|
430 | int ret;
|
---|
431 |
|
---|
432 | ret = deflateResetKeep(strm);
|
---|
433 | if (ret == Z_OK)
|
---|
434 | lm_init(strm->state);
|
---|
435 | return ret;
|
---|
436 | }
|
---|
437 |
|
---|
438 | /* ========================================================================= */
|
---|
439 | int ZEXPORT deflateSetHeader (strm, head)
|
---|
440 | z_streamp strm;
|
---|
441 | gz_headerp head;
|
---|
442 | {
|
---|
443 | if (strm == Z_NULL || strm->state == Z_NULL) return Z_STREAM_ERROR;
|
---|
444 | if (strm->state->wrap != 2) return Z_STREAM_ERROR;
|
---|
445 | strm->state->gzhead = head;
|
---|
446 | return Z_OK;
|
---|
447 | }
|
---|
448 |
|
---|
449 | /* ========================================================================= */
|
---|
450 | int ZEXPORT deflatePending (strm, pending, bits)
|
---|
451 | unsigned *pending;
|
---|
452 | int *bits;
|
---|
453 | z_streamp strm;
|
---|
454 | {
|
---|
455 | if (strm == Z_NULL || strm->state == Z_NULL) return Z_STREAM_ERROR;
|
---|
456 | if (pending != Z_NULL)
|
---|
457 | *pending = strm->state->pending;
|
---|
458 | if (bits != Z_NULL)
|
---|
459 | *bits = strm->state->bi_valid;
|
---|
460 | return Z_OK;
|
---|
461 | }
|
---|
462 |
|
---|
463 | /* ========================================================================= */
|
---|
464 | int ZEXPORT deflatePrime (strm, bits, value)
|
---|
465 | z_streamp strm;
|
---|
466 | int bits;
|
---|
467 | int value;
|
---|
468 | {
|
---|
469 | deflate_state *s;
|
---|
470 | int put;
|
---|
471 |
|
---|
472 | if (strm == Z_NULL || strm->state == Z_NULL) return Z_STREAM_ERROR;
|
---|
473 | s = strm->state;
|
---|
474 | if ((Bytef *)(s->d_buf) < s->pending_out + ((Buf_size + 7) >> 3))
|
---|
475 | return Z_BUF_ERROR;
|
---|
476 | do {
|
---|
477 | put = Buf_size - s->bi_valid;
|
---|
478 | if (put > bits)
|
---|
479 | put = bits;
|
---|
480 | s->bi_buf |= (ush)((value & ((1 << put) - 1)) << s->bi_valid);
|
---|
481 | s->bi_valid += put;
|
---|
482 | _tr_flush_bits(s);
|
---|
483 | value >>= put;
|
---|
484 | bits -= put;
|
---|
485 | } while (bits);
|
---|
486 | return Z_OK;
|
---|
487 | }
|
---|
488 |
|
---|
489 | /* ========================================================================= */
|
---|
490 | int ZEXPORT deflateParams(strm, level, strategy)
|
---|
491 | z_streamp strm;
|
---|
492 | int level;
|
---|
493 | int strategy;
|
---|
494 | {
|
---|
495 | deflate_state *s;
|
---|
496 | compress_func func;
|
---|
497 | int err = Z_OK;
|
---|
498 |
|
---|
499 | if (strm == Z_NULL || strm->state == Z_NULL) return Z_STREAM_ERROR;
|
---|
500 | s = strm->state;
|
---|
501 |
|
---|
502 | #ifdef FASTEST
|
---|
503 | if (level != 0) level = 1;
|
---|
504 | #else
|
---|
505 | if (level == Z_DEFAULT_COMPRESSION) level = 6;
|
---|
506 | #endif
|
---|
507 | if (level < 0 || level > 9 || strategy < 0 || strategy > Z_FIXED) {
|
---|
508 | return Z_STREAM_ERROR;
|
---|
509 | }
|
---|
510 | func = configuration_table[s->level].func;
|
---|
511 |
|
---|
512 | if ((strategy != s->strategy || func != configuration_table[level].func) &&
|
---|
513 | strm->total_in != 0) {
|
---|
514 | /* Flush the last buffer: */
|
---|
515 | err = deflate(strm, Z_BLOCK);
|
---|
516 | }
|
---|
517 | if (s->level != level) {
|
---|
518 | s->level = level;
|
---|
519 | s->max_lazy_match = configuration_table[level].max_lazy;
|
---|
520 | s->good_match = configuration_table[level].good_length;
|
---|
521 | s->nice_match = configuration_table[level].nice_length;
|
---|
522 | s->max_chain_length = configuration_table[level].max_chain;
|
---|
523 | }
|
---|
524 | s->strategy = strategy;
|
---|
525 | return err;
|
---|
526 | }
|
---|
527 |
|
---|
528 | /* ========================================================================= */
|
---|
529 | int ZEXPORT deflateTune(strm, good_length, max_lazy, nice_length, max_chain)
|
---|
530 | z_streamp strm;
|
---|
531 | int good_length;
|
---|
532 | int max_lazy;
|
---|
533 | int nice_length;
|
---|
534 | int max_chain;
|
---|
535 | {
|
---|
536 | deflate_state *s;
|
---|
537 |
|
---|
538 | if (strm == Z_NULL || strm->state == Z_NULL) return Z_STREAM_ERROR;
|
---|
539 | s = strm->state;
|
---|
540 | s->good_match = good_length;
|
---|
541 | s->max_lazy_match = max_lazy;
|
---|
542 | s->nice_match = nice_length;
|
---|
543 | s->max_chain_length = max_chain;
|
---|
544 | return Z_OK;
|
---|
545 | }
|
---|
546 |
|
---|
547 | /* =========================================================================
|
---|
548 | * For the default windowBits of 15 and memLevel of 8, this function returns
|
---|
549 | * a close to exact, as well as small, upper bound on the compressed size.
|
---|
550 | * They are coded as constants here for a reason--if the #define's are
|
---|
551 | * changed, then this function needs to be changed as well. The return
|
---|
552 | * value for 15 and 8 only works for those exact settings.
|
---|
553 | *
|
---|
554 | * For any setting other than those defaults for windowBits and memLevel,
|
---|
555 | * the value returned is a conservative worst case for the maximum expansion
|
---|
556 | * resulting from using fixed blocks instead of stored blocks, which deflate
|
---|
557 | * can emit on compressed data for some combinations of the parameters.
|
---|
558 | *
|
---|
559 | * This function could be more sophisticated to provide closer upper bounds for
|
---|
560 | * every combination of windowBits and memLevel. But even the conservative
|
---|
561 | * upper bound of about 14% expansion does not seem onerous for output buffer
|
---|
562 | * allocation.
|
---|
563 | */
|
---|
564 | uLong ZEXPORT deflateBound(strm, sourceLen)
|
---|
565 | z_streamp strm;
|
---|
566 | uLong sourceLen;
|
---|
567 | {
|
---|
568 | deflate_state *s;
|
---|
569 | uLong complen, wraplen;
|
---|
570 | Bytef *str;
|
---|
571 |
|
---|
572 | /* conservative upper bound for compressed data */
|
---|
573 | complen = sourceLen +
|
---|
574 | ((sourceLen + 7) >> 3) + ((sourceLen + 63) >> 6) + 5;
|
---|
575 |
|
---|
576 | /* if can't get parameters, return conservative bound plus zlib wrapper */
|
---|
577 | if (strm == Z_NULL || strm->state == Z_NULL)
|
---|
578 | return complen + 6;
|
---|
579 |
|
---|
580 | /* compute wrapper length */
|
---|
581 | s = strm->state;
|
---|
582 | switch (s->wrap) {
|
---|
583 | case 0: /* raw deflate */
|
---|
584 | wraplen = 0;
|
---|
585 | break;
|
---|
586 | case 1: /* zlib wrapper */
|
---|
587 | wraplen = 6 + (s->strstart ? 4 : 0);
|
---|
588 | break;
|
---|
589 | case 2: /* gzip wrapper */
|
---|
590 | wraplen = 18;
|
---|
591 | if (s->gzhead != Z_NULL) { /* user-supplied gzip header */
|
---|
592 | if (s->gzhead->extra != Z_NULL)
|
---|
593 | wraplen += 2 + s->gzhead->extra_len;
|
---|
594 | str = s->gzhead->name;
|
---|
595 | if (str != Z_NULL)
|
---|
596 | do {
|
---|
597 | wraplen++;
|
---|
598 | } while (*str++);
|
---|
599 | str = s->gzhead->comment;
|
---|
600 | if (str != Z_NULL)
|
---|
601 | do {
|
---|
602 | wraplen++;
|
---|
603 | } while (*str++);
|
---|
604 | if (s->gzhead->hcrc)
|
---|
605 | wraplen += 2;
|
---|
606 | }
|
---|
607 | break;
|
---|
608 | default: /* for compiler happiness */
|
---|
609 | wraplen = 6;
|
---|
610 | }
|
---|
611 |
|
---|
612 | /* if not default parameters, return conservative bound */
|
---|
613 | if (s->w_bits != 15 || s->hash_bits != 8 + 7)
|
---|
614 | return complen + wraplen;
|
---|
615 |
|
---|
616 | /* default settings: return tight bound for that case */
|
---|
617 | return sourceLen + (sourceLen >> 12) + (sourceLen >> 14) +
|
---|
618 | (sourceLen >> 25) + 13 - 6 + wraplen;
|
---|
619 | }
|
---|
620 |
|
---|
621 | /* =========================================================================
|
---|
622 | * Put a short in the pending buffer. The 16-bit value is put in MSB order.
|
---|
623 | * IN assertion: the stream state is correct and there is enough room in
|
---|
624 | * pending_buf.
|
---|
625 | */
|
---|
626 | local void putShortMSB (s, b)
|
---|
627 | deflate_state *s;
|
---|
628 | uInt b;
|
---|
629 | {
|
---|
630 | put_byte(s, (Byte)(b >> 8));
|
---|
631 | put_byte(s, (Byte)(b & 0xff));
|
---|
632 | }
|
---|
633 |
|
---|
634 | /* =========================================================================
|
---|
635 | * Flush as much pending output as possible. All deflate() output goes
|
---|
636 | * through this function so some applications may wish to modify it
|
---|
637 | * to avoid allocating a large strm->next_out buffer and copying into it.
|
---|
638 | * (See also read_buf()).
|
---|
639 | */
|
---|
640 | local void flush_pending(strm)
|
---|
641 | z_streamp strm;
|
---|
642 | {
|
---|
643 | unsigned len;
|
---|
644 | deflate_state *s = strm->state;
|
---|
645 |
|
---|
646 | _tr_flush_bits(s);
|
---|
647 | len = s->pending;
|
---|
648 | if (len > strm->avail_out) len = strm->avail_out;
|
---|
649 | if (len == 0) return;
|
---|
650 |
|
---|
651 | zmemcpy(strm->next_out, s->pending_out, len);
|
---|
652 | strm->next_out += len;
|
---|
653 | s->pending_out += len;
|
---|
654 | strm->total_out += len;
|
---|
655 | strm->avail_out -= len;
|
---|
656 | s->pending -= len;
|
---|
657 | if (s->pending == 0) {
|
---|
658 | s->pending_out = s->pending_buf;
|
---|
659 | }
|
---|
660 | }
|
---|
661 |
|
---|
662 | /* ========================================================================= */
|
---|
663 | int ZEXPORT deflate (strm, flush)
|
---|
664 | z_streamp strm;
|
---|
665 | int flush;
|
---|
666 | {
|
---|
667 | int old_flush; /* value of flush param for previous deflate call */
|
---|
668 | deflate_state *s;
|
---|
669 |
|
---|
670 | if (strm == Z_NULL || strm->state == Z_NULL ||
|
---|
671 | flush > Z_BLOCK || flush < 0) {
|
---|
672 | return Z_STREAM_ERROR;
|
---|
673 | }
|
---|
674 | s = strm->state;
|
---|
675 |
|
---|
676 | if (strm->next_out == Z_NULL ||
|
---|
677 | (strm->next_in == Z_NULL && strm->avail_in != 0) ||
|
---|
678 | (s->status == FINISH_STATE && flush != Z_FINISH)) {
|
---|
679 | ERR_RETURN(strm, Z_STREAM_ERROR);
|
---|
680 | }
|
---|
681 | if (strm->avail_out == 0) ERR_RETURN(strm, Z_BUF_ERROR);
|
---|
682 |
|
---|
683 | s->strm = strm; /* just in case */
|
---|
684 | old_flush = s->last_flush;
|
---|
685 | s->last_flush = flush;
|
---|
686 |
|
---|
687 | /* Write the header */
|
---|
688 | if (s->status == INIT_STATE) {
|
---|
689 | #ifdef GZIP
|
---|
690 | if (s->wrap == 2) {
|
---|
691 | strm->adler = crc32(0L, Z_NULL, 0);
|
---|
692 | put_byte(s, 31);
|
---|
693 | put_byte(s, 139);
|
---|
694 | put_byte(s, 8);
|
---|
695 | if (s->gzhead == Z_NULL) {
|
---|
696 | put_byte(s, 0);
|
---|
697 | put_byte(s, 0);
|
---|
698 | put_byte(s, 0);
|
---|
699 | put_byte(s, 0);
|
---|
700 | put_byte(s, 0);
|
---|
701 | put_byte(s, s->level == 9 ? 2 :
|
---|
702 | (s->strategy >= Z_HUFFMAN_ONLY || s->level < 2 ?
|
---|
703 | 4 : 0));
|
---|
704 | put_byte(s, OS_CODE);
|
---|
705 | s->status = BUSY_STATE;
|
---|
706 | }
|
---|
707 | else {
|
---|
708 | put_byte(s, (s->gzhead->text ? 1 : 0) +
|
---|
709 | (s->gzhead->hcrc ? 2 : 0) +
|
---|
710 | (s->gzhead->extra == Z_NULL ? 0 : 4) +
|
---|
711 | (s->gzhead->name == Z_NULL ? 0 : 8) +
|
---|
712 | (s->gzhead->comment == Z_NULL ? 0 : 16)
|
---|
713 | );
|
---|
714 | put_byte(s, (Byte)(s->gzhead->time & 0xff));
|
---|
715 | put_byte(s, (Byte)((s->gzhead->time >> 8) & 0xff));
|
---|
716 | put_byte(s, (Byte)((s->gzhead->time >> 16) & 0xff));
|
---|
717 | put_byte(s, (Byte)((s->gzhead->time >> 24) & 0xff));
|
---|
718 | put_byte(s, s->level == 9 ? 2 :
|
---|
719 | (s->strategy >= Z_HUFFMAN_ONLY || s->level < 2 ?
|
---|
720 | 4 : 0));
|
---|
721 | put_byte(s, s->gzhead->os & 0xff);
|
---|
722 | if (s->gzhead->extra != Z_NULL) {
|
---|
723 | put_byte(s, s->gzhead->extra_len & 0xff);
|
---|
724 | put_byte(s, (s->gzhead->extra_len >> 8) & 0xff);
|
---|
725 | }
|
---|
726 | if (s->gzhead->hcrc)
|
---|
727 | strm->adler = crc32(strm->adler, s->pending_buf,
|
---|
728 | s->pending);
|
---|
729 | s->gzindex = 0;
|
---|
730 | s->status = EXTRA_STATE;
|
---|
731 | }
|
---|
732 | }
|
---|
733 | else
|
---|
734 | #endif
|
---|
735 | {
|
---|
736 | uInt header = (Z_DEFLATED + ((s->w_bits-8)<<4)) << 8;
|
---|
737 | uInt level_flags;
|
---|
738 |
|
---|
739 | if (s->strategy >= Z_HUFFMAN_ONLY || s->level < 2)
|
---|
740 | level_flags = 0;
|
---|
741 | else if (s->level < 6)
|
---|
742 | level_flags = 1;
|
---|
743 | else if (s->level == 6)
|
---|
744 | level_flags = 2;
|
---|
745 | else
|
---|
746 | level_flags = 3;
|
---|
747 | header |= (level_flags << 6);
|
---|
748 | if (s->strstart != 0) header |= PRESET_DICT;
|
---|
749 | header += 31 - (header % 31);
|
---|
750 |
|
---|
751 | s->status = BUSY_STATE;
|
---|
752 | putShortMSB(s, header);
|
---|
753 |
|
---|
754 | /* Save the adler32 of the preset dictionary: */
|
---|
755 | if (s->strstart != 0) {
|
---|
756 | putShortMSB(s, (uInt)(strm->adler >> 16));
|
---|
757 | putShortMSB(s, (uInt)(strm->adler & 0xffff));
|
---|
758 | }
|
---|
759 | strm->adler = adler32(0L, Z_NULL, 0);
|
---|
760 | }
|
---|
761 | }
|
---|
762 | #ifdef GZIP
|
---|
763 | if (s->status == EXTRA_STATE) {
|
---|
764 | if (s->gzhead->extra != Z_NULL) {
|
---|
765 | uInt beg = s->pending; /* start of bytes to update crc */
|
---|
766 |
|
---|
767 | while (s->gzindex < (s->gzhead->extra_len & 0xffff)) {
|
---|
768 | if (s->pending == s->pending_buf_size) {
|
---|
769 | if (s->gzhead->hcrc && s->pending > beg)
|
---|
770 | strm->adler = crc32(strm->adler, s->pending_buf + beg,
|
---|
771 | s->pending - beg);
|
---|
772 | flush_pending(strm);
|
---|
773 | beg = s->pending;
|
---|
774 | if (s->pending == s->pending_buf_size)
|
---|
775 | break;
|
---|
776 | }
|
---|
777 | put_byte(s, s->gzhead->extra[s->gzindex]);
|
---|
778 | s->gzindex++;
|
---|
779 | }
|
---|
780 | if (s->gzhead->hcrc && s->pending > beg)
|
---|
781 | strm->adler = crc32(strm->adler, s->pending_buf + beg,
|
---|
782 | s->pending - beg);
|
---|
783 | if (s->gzindex == s->gzhead->extra_len) {
|
---|
784 | s->gzindex = 0;
|
---|
785 | s->status = NAME_STATE;
|
---|
786 | }
|
---|
787 | }
|
---|
788 | else
|
---|
789 | s->status = NAME_STATE;
|
---|
790 | }
|
---|
791 | if (s->status == NAME_STATE) {
|
---|
792 | if (s->gzhead->name != Z_NULL) {
|
---|
793 | uInt beg = s->pending; /* start of bytes to update crc */
|
---|
794 | int val;
|
---|
795 |
|
---|
796 | do {
|
---|
797 | if (s->pending == s->pending_buf_size) {
|
---|
798 | if (s->gzhead->hcrc && s->pending > beg)
|
---|
799 | strm->adler = crc32(strm->adler, s->pending_buf + beg,
|
---|
800 | s->pending - beg);
|
---|
801 | flush_pending(strm);
|
---|
802 | beg = s->pending;
|
---|
803 | if (s->pending == s->pending_buf_size) {
|
---|
804 | val = 1;
|
---|
805 | break;
|
---|
806 | }
|
---|
807 | }
|
---|
808 | val = s->gzhead->name[s->gzindex++];
|
---|
809 | put_byte(s, val);
|
---|
810 | } while (val != 0);
|
---|
811 | if (s->gzhead->hcrc && s->pending > beg)
|
---|
812 | strm->adler = crc32(strm->adler, s->pending_buf + beg,
|
---|
813 | s->pending - beg);
|
---|
814 | if (val == 0) {
|
---|
815 | s->gzindex = 0;
|
---|
816 | s->status = COMMENT_STATE;
|
---|
817 | }
|
---|
818 | }
|
---|
819 | else
|
---|
820 | s->status = COMMENT_STATE;
|
---|
821 | }
|
---|
822 | if (s->status == COMMENT_STATE) {
|
---|
823 | if (s->gzhead->comment != Z_NULL) {
|
---|
824 | uInt beg = s->pending; /* start of bytes to update crc */
|
---|
825 | int val;
|
---|
826 |
|
---|
827 | do {
|
---|
828 | if (s->pending == s->pending_buf_size) {
|
---|
829 | if (s->gzhead->hcrc && s->pending > beg)
|
---|
830 | strm->adler = crc32(strm->adler, s->pending_buf + beg,
|
---|
831 | s->pending - beg);
|
---|
832 | flush_pending(strm);
|
---|
833 | beg = s->pending;
|
---|
834 | if (s->pending == s->pending_buf_size) {
|
---|
835 | val = 1;
|
---|
836 | break;
|
---|
837 | }
|
---|
838 | }
|
---|
839 | val = s->gzhead->comment[s->gzindex++];
|
---|
840 | put_byte(s, val);
|
---|
841 | } while (val != 0);
|
---|
842 | if (s->gzhead->hcrc && s->pending > beg)
|
---|
843 | strm->adler = crc32(strm->adler, s->pending_buf + beg,
|
---|
844 | s->pending - beg);
|
---|
845 | if (val == 0)
|
---|
846 | s->status = HCRC_STATE;
|
---|
847 | }
|
---|
848 | else
|
---|
849 | s->status = HCRC_STATE;
|
---|
850 | }
|
---|
851 | if (s->status == HCRC_STATE) {
|
---|
852 | if (s->gzhead->hcrc) {
|
---|
853 | if (s->pending + 2 > s->pending_buf_size)
|
---|
854 | flush_pending(strm);
|
---|
855 | if (s->pending + 2 <= s->pending_buf_size) {
|
---|
856 | put_byte(s, (Byte)(strm->adler & 0xff));
|
---|
857 | put_byte(s, (Byte)((strm->adler >> 8) & 0xff));
|
---|
858 | strm->adler = crc32(0L, Z_NULL, 0);
|
---|
859 | s->status = BUSY_STATE;
|
---|
860 | }
|
---|
861 | }
|
---|
862 | else
|
---|
863 | s->status = BUSY_STATE;
|
---|
864 | }
|
---|
865 | #endif
|
---|
866 |
|
---|
867 | /* Flush as much pending output as possible */
|
---|
868 | if (s->pending != 0) {
|
---|
869 | flush_pending(strm);
|
---|
870 | if (strm->avail_out == 0) {
|
---|
871 | /* Since avail_out is 0, deflate will be called again with
|
---|
872 | * more output space, but possibly with both pending and
|
---|
873 | * avail_in equal to zero. There won't be anything to do,
|
---|
874 | * but this is not an error situation so make sure we
|
---|
875 | * return OK instead of BUF_ERROR at next call of deflate:
|
---|
876 | */
|
---|
877 | s->last_flush = -1;
|
---|
878 | return Z_OK;
|
---|
879 | }
|
---|
880 |
|
---|
881 | /* Make sure there is something to do and avoid duplicate consecutive
|
---|
882 | * flushes. For repeated and useless calls with Z_FINISH, we keep
|
---|
883 | * returning Z_STREAM_END instead of Z_BUF_ERROR.
|
---|
884 | */
|
---|
885 | } else if (strm->avail_in == 0 && RANK(flush) <= RANK(old_flush) &&
|
---|
886 | flush != Z_FINISH) {
|
---|
887 | ERR_RETURN(strm, Z_BUF_ERROR);
|
---|
888 | }
|
---|
889 |
|
---|
890 | /* User must not provide more input after the first FINISH: */
|
---|
891 | if (s->status == FINISH_STATE && strm->avail_in != 0) {
|
---|
892 | ERR_RETURN(strm, Z_BUF_ERROR);
|
---|
893 | }
|
---|
894 |
|
---|
895 | /* Start a new block or continue the current one.
|
---|
896 | */
|
---|
897 | if (strm->avail_in != 0 || s->lookahead != 0 ||
|
---|
898 | (flush != Z_NO_FLUSH && s->status != FINISH_STATE)) {
|
---|
899 | block_state bstate;
|
---|
900 |
|
---|
901 | bstate = s->strategy == Z_HUFFMAN_ONLY ? deflate_huff(s, flush) :
|
---|
902 | (s->strategy == Z_RLE ? deflate_rle(s, flush) :
|
---|
903 | (*(configuration_table[s->level].func))(s, flush));
|
---|
904 |
|
---|
905 | if (bstate == finish_started || bstate == finish_done) {
|
---|
906 | s->status = FINISH_STATE;
|
---|
907 | }
|
---|
908 | if (bstate == need_more || bstate == finish_started) {
|
---|
909 | if (strm->avail_out == 0) {
|
---|
910 | s->last_flush = -1; /* avoid BUF_ERROR next call, see above */
|
---|
911 | }
|
---|
912 | return Z_OK;
|
---|
913 | /* If flush != Z_NO_FLUSH && avail_out == 0, the next call
|
---|
914 | * of deflate should use the same flush parameter to make sure
|
---|
915 | * that the flush is complete. So we don't have to output an
|
---|
916 | * empty block here, this will be done at next call. This also
|
---|
917 | * ensures that for a very small output buffer, we emit at most
|
---|
918 | * one empty block.
|
---|
919 | */
|
---|
920 | }
|
---|
921 | if (bstate == block_done) {
|
---|
922 | if (flush == Z_PARTIAL_FLUSH) {
|
---|
923 | _tr_align(s);
|
---|
924 | } else if (flush != Z_BLOCK) { /* FULL_FLUSH or SYNC_FLUSH */
|
---|
925 | _tr_stored_block(s, (char*)0, 0L, 0);
|
---|
926 | /* For a full flush, this empty block will be recognized
|
---|
927 | * as a special marker by inflate_sync().
|
---|
928 | */
|
---|
929 | if (flush == Z_FULL_FLUSH) {
|
---|
930 | CLEAR_HASH(s); /* forget history */
|
---|
931 | if (s->lookahead == 0) {
|
---|
932 | s->strstart = 0;
|
---|
933 | s->block_start = 0L;
|
---|
934 | s->insert = 0;
|
---|
935 | }
|
---|
936 | }
|
---|
937 | }
|
---|
938 | flush_pending(strm);
|
---|
939 | if (strm->avail_out == 0) {
|
---|
940 | s->last_flush = -1; /* avoid BUF_ERROR at next call, see above */
|
---|
941 | return Z_OK;
|
---|
942 | }
|
---|
943 | }
|
---|
944 | }
|
---|
945 | Assert(strm->avail_out > 0, "bug2");
|
---|
946 |
|
---|
947 | if (flush != Z_FINISH) return Z_OK;
|
---|
948 | if (s->wrap <= 0) return Z_STREAM_END;
|
---|
949 |
|
---|
950 | /* Write the trailer */
|
---|
951 | #ifdef GZIP
|
---|
952 | if (s->wrap == 2) {
|
---|
953 | put_byte(s, (Byte)(strm->adler & 0xff));
|
---|
954 | put_byte(s, (Byte)((strm->adler >> 8) & 0xff));
|
---|
955 | put_byte(s, (Byte)((strm->adler >> 16) & 0xff));
|
---|
956 | put_byte(s, (Byte)((strm->adler >> 24) & 0xff));
|
---|
957 | put_byte(s, (Byte)(strm->total_in & 0xff));
|
---|
958 | put_byte(s, (Byte)((strm->total_in >> 8) & 0xff));
|
---|
959 | put_byte(s, (Byte)((strm->total_in >> 16) & 0xff));
|
---|
960 | put_byte(s, (Byte)((strm->total_in >> 24) & 0xff));
|
---|
961 | }
|
---|
962 | else
|
---|
963 | #endif
|
---|
964 | {
|
---|
965 | putShortMSB(s, (uInt)(strm->adler >> 16));
|
---|
966 | putShortMSB(s, (uInt)(strm->adler & 0xffff));
|
---|
967 | }
|
---|
968 | flush_pending(strm);
|
---|
969 | /* If avail_out is zero, the application will call deflate again
|
---|
970 | * to flush the rest.
|
---|
971 | */
|
---|
972 | if (s->wrap > 0) s->wrap = -s->wrap; /* write the trailer only once! */
|
---|
973 | return s->pending != 0 ? Z_OK : Z_STREAM_END;
|
---|
974 | }
|
---|
975 |
|
---|
976 | /* ========================================================================= */
|
---|
977 | int ZEXPORT deflateEnd (strm)
|
---|
978 | z_streamp strm;
|
---|
979 | {
|
---|
980 | int status;
|
---|
981 |
|
---|
982 | if (strm == Z_NULL || strm->state == Z_NULL) return Z_STREAM_ERROR;
|
---|
983 |
|
---|
984 | status = strm->state->status;
|
---|
985 | if (status != INIT_STATE &&
|
---|
986 | status != EXTRA_STATE &&
|
---|
987 | status != NAME_STATE &&
|
---|
988 | status != COMMENT_STATE &&
|
---|
989 | status != HCRC_STATE &&
|
---|
990 | status != BUSY_STATE &&
|
---|
991 | status != FINISH_STATE) {
|
---|
992 | return Z_STREAM_ERROR;
|
---|
993 | }
|
---|
994 |
|
---|
995 | /* Deallocate in reverse order of allocations: */
|
---|
996 | TRY_FREE(strm, strm->state->pending_buf);
|
---|
997 | TRY_FREE(strm, strm->state->head);
|
---|
998 | TRY_FREE(strm, strm->state->prev);
|
---|
999 | TRY_FREE(strm, strm->state->window);
|
---|
1000 |
|
---|
1001 | ZFREE(strm, strm->state);
|
---|
1002 | strm->state = Z_NULL;
|
---|
1003 |
|
---|
1004 | return status == BUSY_STATE ? Z_DATA_ERROR : Z_OK;
|
---|
1005 | }
|
---|
1006 |
|
---|
1007 | /* =========================================================================
|
---|
1008 | * Copy the source state to the destination state.
|
---|
1009 | * To simplify the source, this is not supported for 16-bit MSDOS (which
|
---|
1010 | * doesn't have enough memory anyway to duplicate compression states).
|
---|
1011 | */
|
---|
1012 | int ZEXPORT deflateCopy (dest, source)
|
---|
1013 | z_streamp dest;
|
---|
1014 | z_streamp source;
|
---|
1015 | {
|
---|
1016 | #ifdef MAXSEG_64K
|
---|
1017 | return Z_STREAM_ERROR;
|
---|
1018 | #else
|
---|
1019 | deflate_state *ds;
|
---|
1020 | deflate_state *ss;
|
---|
1021 | ushf *overlay;
|
---|
1022 |
|
---|
1023 |
|
---|
1024 | if (source == Z_NULL || dest == Z_NULL || source->state == Z_NULL) {
|
---|
1025 | return Z_STREAM_ERROR;
|
---|
1026 | }
|
---|
1027 |
|
---|
1028 | ss = source->state;
|
---|
1029 |
|
---|
1030 | zmemcpy((voidpf)dest, (voidpf)source, sizeof(z_stream));
|
---|
1031 |
|
---|
1032 | ds = (deflate_state *) ZALLOC(dest, 1, sizeof(deflate_state));
|
---|
1033 | if (ds == Z_NULL) return Z_MEM_ERROR;
|
---|
1034 | dest->state = (struct internal_state FAR *) ds;
|
---|
1035 | zmemcpy((voidpf)ds, (voidpf)ss, sizeof(deflate_state));
|
---|
1036 | ds->strm = dest;
|
---|
1037 |
|
---|
1038 | ds->window = (Bytef *) ZALLOC(dest, ds->w_size, 2*sizeof(Byte));
|
---|
1039 | ds->prev = (Posf *) ZALLOC(dest, ds->w_size, sizeof(Pos));
|
---|
1040 | ds->head = (Posf *) ZALLOC(dest, ds->hash_size, sizeof(Pos));
|
---|
1041 | overlay = (ushf *) ZALLOC(dest, ds->lit_bufsize, sizeof(ush)+2);
|
---|
1042 | ds->pending_buf = (uchf *) overlay;
|
---|
1043 |
|
---|
1044 | if (ds->window == Z_NULL || ds->prev == Z_NULL || ds->head == Z_NULL ||
|
---|
1045 | ds->pending_buf == Z_NULL) {
|
---|
1046 | deflateEnd (dest);
|
---|
1047 | return Z_MEM_ERROR;
|
---|
1048 | }
|
---|
1049 | /* following zmemcpy do not work for 16-bit MSDOS */
|
---|
1050 | zmemcpy(ds->window, ss->window, ds->w_size * 2 * sizeof(Byte));
|
---|
1051 | zmemcpy((voidpf)ds->prev, (voidpf)ss->prev, ds->w_size * sizeof(Pos));
|
---|
1052 | zmemcpy((voidpf)ds->head, (voidpf)ss->head, ds->hash_size * sizeof(Pos));
|
---|
1053 | zmemcpy(ds->pending_buf, ss->pending_buf, (uInt)ds->pending_buf_size);
|
---|
1054 |
|
---|
1055 | ds->pending_out = ds->pending_buf + (ss->pending_out - ss->pending_buf);
|
---|
1056 | ds->d_buf = overlay + ds->lit_bufsize/sizeof(ush);
|
---|
1057 | ds->l_buf = ds->pending_buf + (1+sizeof(ush))*ds->lit_bufsize;
|
---|
1058 |
|
---|
1059 | ds->l_desc.dyn_tree = ds->dyn_ltree;
|
---|
1060 | ds->d_desc.dyn_tree = ds->dyn_dtree;
|
---|
1061 | ds->bl_desc.dyn_tree = ds->bl_tree;
|
---|
1062 |
|
---|
1063 | return Z_OK;
|
---|
1064 | #endif /* MAXSEG_64K */
|
---|
1065 | }
|
---|
1066 |
|
---|
1067 | /* ===========================================================================
|
---|
1068 | * Read a new buffer from the current input stream, update the adler32
|
---|
1069 | * and total number of bytes read. All deflate() input goes through
|
---|
1070 | * this function so some applications may wish to modify it to avoid
|
---|
1071 | * allocating a large strm->next_in buffer and copying from it.
|
---|
1072 | * (See also flush_pending()).
|
---|
1073 | */
|
---|
1074 | local int read_buf(strm, buf, size)
|
---|
1075 | z_streamp strm;
|
---|
1076 | Bytef *buf;
|
---|
1077 | unsigned size;
|
---|
1078 | {
|
---|
1079 | unsigned len = strm->avail_in;
|
---|
1080 |
|
---|
1081 | if (len > size) len = size;
|
---|
1082 | if (len == 0) return 0;
|
---|
1083 |
|
---|
1084 | strm->avail_in -= len;
|
---|
1085 |
|
---|
1086 | zmemcpy(buf, strm->next_in, len);
|
---|
1087 | if (strm->state->wrap == 1) {
|
---|
1088 | strm->adler = adler32(strm->adler, buf, len);
|
---|
1089 | }
|
---|
1090 | #ifdef GZIP
|
---|
1091 | else if (strm->state->wrap == 2) {
|
---|
1092 | strm->adler = crc32(strm->adler, buf, len);
|
---|
1093 | }
|
---|
1094 | #endif
|
---|
1095 | strm->next_in += len;
|
---|
1096 | strm->total_in += len;
|
---|
1097 |
|
---|
1098 | return (int)len;
|
---|
1099 | }
|
---|
1100 |
|
---|
1101 | /* ===========================================================================
|
---|
1102 | * Initialize the "longest match" routines for a new zlib stream
|
---|
1103 | */
|
---|
1104 | local void lm_init (s)
|
---|
1105 | deflate_state *s;
|
---|
1106 | {
|
---|
1107 | s->window_size = (ulg)2L*s->w_size;
|
---|
1108 |
|
---|
1109 | CLEAR_HASH(s);
|
---|
1110 |
|
---|
1111 | /* Set the default configuration parameters:
|
---|
1112 | */
|
---|
1113 | s->max_lazy_match = configuration_table[s->level].max_lazy;
|
---|
1114 | s->good_match = configuration_table[s->level].good_length;
|
---|
1115 | s->nice_match = configuration_table[s->level].nice_length;
|
---|
1116 | s->max_chain_length = configuration_table[s->level].max_chain;
|
---|
1117 |
|
---|
1118 | s->strstart = 0;
|
---|
1119 | s->block_start = 0L;
|
---|
1120 | s->lookahead = 0;
|
---|
1121 | s->insert = 0;
|
---|
1122 | s->match_length = s->prev_length = MIN_MATCH-1;
|
---|
1123 | s->match_available = 0;
|
---|
1124 | s->ins_h = 0;
|
---|
1125 | #ifndef FASTEST
|
---|
1126 | #ifdef ASMV
|
---|
1127 | match_init(); /* initialize the asm code */
|
---|
1128 | #endif
|
---|
1129 | #endif
|
---|
1130 | }
|
---|
1131 |
|
---|
1132 | #ifndef FASTEST
|
---|
1133 | /* ===========================================================================
|
---|
1134 | * Set match_start to the longest match starting at the given string and
|
---|
1135 | * return its length. Matches shorter or equal to prev_length are discarded,
|
---|
1136 | * in which case the result is equal to prev_length and match_start is
|
---|
1137 | * garbage.
|
---|
1138 | * IN assertions: cur_match is the head of the hash chain for the current
|
---|
1139 | * string (strstart) and its distance is <= MAX_DIST, and prev_length >= 1
|
---|
1140 | * OUT assertion: the match length is not greater than s->lookahead.
|
---|
1141 | */
|
---|
1142 | #ifndef ASMV
|
---|
1143 | /* For 80x86 and 680x0, an optimized version will be provided in match.asm or
|
---|
1144 | * match.S. The code will be functionally equivalent.
|
---|
1145 | */
|
---|
1146 | local uInt longest_match(s, cur_match)
|
---|
1147 | deflate_state *s;
|
---|
1148 | IPos cur_match; /* current match */
|
---|
1149 | {
|
---|
1150 | unsigned chain_length = s->max_chain_length;/* max hash chain length */
|
---|
1151 | register Bytef *scan = s->window + s->strstart; /* current string */
|
---|
1152 | register Bytef *match; /* matched string */
|
---|
1153 | register int len; /* length of current match */
|
---|
1154 | int best_len = s->prev_length; /* best match length so far */
|
---|
1155 | int nice_match = s->nice_match; /* stop if match long enough */
|
---|
1156 | IPos limit = s->strstart > (IPos)MAX_DIST(s) ?
|
---|
1157 | s->strstart - (IPos)MAX_DIST(s) : NIL;
|
---|
1158 | /* Stop when cur_match becomes <= limit. To simplify the code,
|
---|
1159 | * we prevent matches with the string of window index 0.
|
---|
1160 | */
|
---|
1161 | Posf *prev = s->prev;
|
---|
1162 | uInt wmask = s->w_mask;
|
---|
1163 |
|
---|
1164 | #ifdef UNALIGNED_OK
|
---|
1165 | /* Compare two bytes at a time. Note: this is not always beneficial.
|
---|
1166 | * Try with and without -DUNALIGNED_OK to check.
|
---|
1167 | */
|
---|
1168 | register Bytef *strend = s->window + s->strstart + MAX_MATCH - 1;
|
---|
1169 | register ush scan_start = *(ushf*)scan;
|
---|
1170 | register ush scan_end = *(ushf*)(scan+best_len-1);
|
---|
1171 | #else
|
---|
1172 | register Bytef *strend = s->window + s->strstart + MAX_MATCH;
|
---|
1173 | register Byte scan_end1 = scan[best_len-1];
|
---|
1174 | register Byte scan_end = scan[best_len];
|
---|
1175 | #endif
|
---|
1176 |
|
---|
1177 | /* The code is optimized for HASH_BITS >= 8 and MAX_MATCH-2 multiple of 16.
|
---|
1178 | * It is easy to get rid of this optimization if necessary.
|
---|
1179 | */
|
---|
1180 | Assert(s->hash_bits >= 8 && MAX_MATCH == 258, "Code too clever");
|
---|
1181 |
|
---|
1182 | /* Do not waste too much time if we already have a good match: */
|
---|
1183 | if (s->prev_length >= s->good_match) {
|
---|
1184 | chain_length >>= 2;
|
---|
1185 | }
|
---|
1186 | /* Do not look for matches beyond the end of the input. This is necessary
|
---|
1187 | * to make deflate deterministic.
|
---|
1188 | */
|
---|
1189 | if ((uInt)nice_match > s->lookahead) nice_match = s->lookahead;
|
---|
1190 |
|
---|
1191 | Assert((ulg)s->strstart <= s->window_size-MIN_LOOKAHEAD, "need lookahead");
|
---|
1192 |
|
---|
1193 | do {
|
---|
1194 | Assert(cur_match < s->strstart, "no future");
|
---|
1195 | match = s->window + cur_match;
|
---|
1196 |
|
---|
1197 | /* Skip to next match if the match length cannot increase
|
---|
1198 | * or if the match length is less than 2. Note that the checks below
|
---|
1199 | * for insufficient lookahead only occur occasionally for performance
|
---|
1200 | * reasons. Therefore uninitialized memory will be accessed, and
|
---|
1201 | * conditional jumps will be made that depend on those values.
|
---|
1202 | * However the length of the match is limited to the lookahead, so
|
---|
1203 | * the output of deflate is not affected by the uninitialized values.
|
---|
1204 | */
|
---|
1205 | #if (defined(UNALIGNED_OK) && MAX_MATCH == 258)
|
---|
1206 | /* This code assumes sizeof(unsigned short) == 2. Do not use
|
---|
1207 | * UNALIGNED_OK if your compiler uses a different size.
|
---|
1208 | */
|
---|
1209 | if (*(ushf*)(match+best_len-1) != scan_end ||
|
---|
1210 | *(ushf*)match != scan_start) continue;
|
---|
1211 |
|
---|
1212 | /* It is not necessary to compare scan[2] and match[2] since they are
|
---|
1213 | * always equal when the other bytes match, given that the hash keys
|
---|
1214 | * are equal and that HASH_BITS >= 8. Compare 2 bytes at a time at
|
---|
1215 | * strstart+3, +5, ... up to strstart+257. We check for insufficient
|
---|
1216 | * lookahead only every 4th comparison; the 128th check will be made
|
---|
1217 | * at strstart+257. If MAX_MATCH-2 is not a multiple of 8, it is
|
---|
1218 | * necessary to put more guard bytes at the end of the window, or
|
---|
1219 | * to check more often for insufficient lookahead.
|
---|
1220 | */
|
---|
1221 | Assert(scan[2] == match[2], "scan[2]?");
|
---|
1222 | scan++, match++;
|
---|
1223 | do {
|
---|
1224 | } while (*(ushf*)(scan+=2) == *(ushf*)(match+=2) &&
|
---|
1225 | *(ushf*)(scan+=2) == *(ushf*)(match+=2) &&
|
---|
1226 | *(ushf*)(scan+=2) == *(ushf*)(match+=2) &&
|
---|
1227 | *(ushf*)(scan+=2) == *(ushf*)(match+=2) &&
|
---|
1228 | scan < strend);
|
---|
1229 | /* The funny "do {}" generates better code on most compilers */
|
---|
1230 |
|
---|
1231 | /* Here, scan <= window+strstart+257 */
|
---|
1232 | Assert(scan <= s->window+(unsigned)(s->window_size-1), "wild scan");
|
---|
1233 | if (*scan == *match) scan++;
|
---|
1234 |
|
---|
1235 | len = (MAX_MATCH - 1) - (int)(strend-scan);
|
---|
1236 | scan = strend - (MAX_MATCH-1);
|
---|
1237 |
|
---|
1238 | #else /* UNALIGNED_OK */
|
---|
1239 |
|
---|
1240 | if (match[best_len] != scan_end ||
|
---|
1241 | match[best_len-1] != scan_end1 ||
|
---|
1242 | *match != *scan ||
|
---|
1243 | *++match != scan[1]) continue;
|
---|
1244 |
|
---|
1245 | /* The check at best_len-1 can be removed because it will be made
|
---|
1246 | * again later. (This heuristic is not always a win.)
|
---|
1247 | * It is not necessary to compare scan[2] and match[2] since they
|
---|
1248 | * are always equal when the other bytes match, given that
|
---|
1249 | * the hash keys are equal and that HASH_BITS >= 8.
|
---|
1250 | */
|
---|
1251 | scan += 2, match++;
|
---|
1252 | Assert(*scan == *match, "match[2]?");
|
---|
1253 |
|
---|
1254 | /* We check for insufficient lookahead only every 8th comparison;
|
---|
1255 | * the 256th check will be made at strstart+258.
|
---|
1256 | */
|
---|
1257 | do {
|
---|
1258 | } while (*++scan == *++match && *++scan == *++match &&
|
---|
1259 | *++scan == *++match && *++scan == *++match &&
|
---|
1260 | *++scan == *++match && *++scan == *++match &&
|
---|
1261 | *++scan == *++match && *++scan == *++match &&
|
---|
1262 | scan < strend);
|
---|
1263 |
|
---|
1264 | Assert(scan <= s->window+(unsigned)(s->window_size-1), "wild scan");
|
---|
1265 |
|
---|
1266 | len = MAX_MATCH - (int)(strend - scan);
|
---|
1267 | scan = strend - MAX_MATCH;
|
---|
1268 |
|
---|
1269 | #endif /* UNALIGNED_OK */
|
---|
1270 |
|
---|
1271 | if (len > best_len) {
|
---|
1272 | s->match_start = cur_match;
|
---|
1273 | best_len = len;
|
---|
1274 | if (len >= nice_match) break;
|
---|
1275 | #ifdef UNALIGNED_OK
|
---|
1276 | scan_end = *(ushf*)(scan+best_len-1);
|
---|
1277 | #else
|
---|
1278 | scan_end1 = scan[best_len-1];
|
---|
1279 | scan_end = scan[best_len];
|
---|
1280 | #endif
|
---|
1281 | }
|
---|
1282 | } while ((cur_match = prev[cur_match & wmask]) > limit
|
---|
1283 | && --chain_length != 0);
|
---|
1284 |
|
---|
1285 | if ((uInt)best_len <= s->lookahead) return (uInt)best_len;
|
---|
1286 | return s->lookahead;
|
---|
1287 | }
|
---|
1288 | #endif /* ASMV */
|
---|
1289 |
|
---|
1290 | #else /* FASTEST */
|
---|
1291 |
|
---|
1292 | /* ---------------------------------------------------------------------------
|
---|
1293 | * Optimized version for FASTEST only
|
---|
1294 | */
|
---|
1295 | local uInt longest_match(s, cur_match)
|
---|
1296 | deflate_state *s;
|
---|
1297 | IPos cur_match; /* current match */
|
---|
1298 | {
|
---|
1299 | register Bytef *scan = s->window + s->strstart; /* current string */
|
---|
1300 | register Bytef *match; /* matched string */
|
---|
1301 | register int len; /* length of current match */
|
---|
1302 | register Bytef *strend = s->window + s->strstart + MAX_MATCH;
|
---|
1303 |
|
---|
1304 | /* The code is optimized for HASH_BITS >= 8 and MAX_MATCH-2 multiple of 16.
|
---|
1305 | * It is easy to get rid of this optimization if necessary.
|
---|
1306 | */
|
---|
1307 | Assert(s->hash_bits >= 8 && MAX_MATCH == 258, "Code too clever");
|
---|
1308 |
|
---|
1309 | Assert((ulg)s->strstart <= s->window_size-MIN_LOOKAHEAD, "need lookahead");
|
---|
1310 |
|
---|
1311 | Assert(cur_match < s->strstart, "no future");
|
---|
1312 |
|
---|
1313 | match = s->window + cur_match;
|
---|
1314 |
|
---|
1315 | /* Return failure if the match length is less than 2:
|
---|
1316 | */
|
---|
1317 | if (match[0] != scan[0] || match[1] != scan[1]) return MIN_MATCH-1;
|
---|
1318 |
|
---|
1319 | /* The check at best_len-1 can be removed because it will be made
|
---|
1320 | * again later. (This heuristic is not always a win.)
|
---|
1321 | * It is not necessary to compare scan[2] and match[2] since they
|
---|
1322 | * are always equal when the other bytes match, given that
|
---|
1323 | * the hash keys are equal and that HASH_BITS >= 8.
|
---|
1324 | */
|
---|
1325 | scan += 2, match += 2;
|
---|
1326 | Assert(*scan == *match, "match[2]?");
|
---|
1327 |
|
---|
1328 | /* We check for insufficient lookahead only every 8th comparison;
|
---|
1329 | * the 256th check will be made at strstart+258.
|
---|
1330 | */
|
---|
1331 | do {
|
---|
1332 | } while (*++scan == *++match && *++scan == *++match &&
|
---|
1333 | *++scan == *++match && *++scan == *++match &&
|
---|
1334 | *++scan == *++match && *++scan == *++match &&
|
---|
1335 | *++scan == *++match && *++scan == *++match &&
|
---|
1336 | scan < strend);
|
---|
1337 |
|
---|
1338 | Assert(scan <= s->window+(unsigned)(s->window_size-1), "wild scan");
|
---|
1339 |
|
---|
1340 | len = MAX_MATCH - (int)(strend - scan);
|
---|
1341 |
|
---|
1342 | if (len < MIN_MATCH) return MIN_MATCH - 1;
|
---|
1343 |
|
---|
1344 | s->match_start = cur_match;
|
---|
1345 | return (uInt)len <= s->lookahead ? (uInt)len : s->lookahead;
|
---|
1346 | }
|
---|
1347 |
|
---|
1348 | #endif /* FASTEST */
|
---|
1349 |
|
---|
1350 | #ifdef DEBUG
|
---|
1351 | /* ===========================================================================
|
---|
1352 | * Check that the match at match_start is indeed a match.
|
---|
1353 | */
|
---|
1354 | local void check_match(s, start, match, length)
|
---|
1355 | deflate_state *s;
|
---|
1356 | IPos start, match;
|
---|
1357 | int length;
|
---|
1358 | {
|
---|
1359 | /* check that the match is indeed a match */
|
---|
1360 | if (zmemcmp(s->window + match,
|
---|
1361 | s->window + start, length) != EQUAL) {
|
---|
1362 | fprintf(stderr, " start %u, match %u, length %d\n",
|
---|
1363 | start, match, length);
|
---|
1364 | do {
|
---|
1365 | fprintf(stderr, "%c%c", s->window[match++], s->window[start++]);
|
---|
1366 | } while (--length != 0);
|
---|
1367 | z_error("invalid match");
|
---|
1368 | }
|
---|
1369 | if (z_verbose > 1) {
|
---|
1370 | fprintf(stderr,"\\[%d,%d]", start-match, length);
|
---|
1371 | do { putc(s->window[start++], stderr); } while (--length != 0);
|
---|
1372 | }
|
---|
1373 | }
|
---|
1374 | #else
|
---|
1375 | # define check_match(s, start, match, length)
|
---|
1376 | #endif /* DEBUG */
|
---|
1377 |
|
---|
1378 | /* ===========================================================================
|
---|
1379 | * Fill the window when the lookahead becomes insufficient.
|
---|
1380 | * Updates strstart and lookahead.
|
---|
1381 | *
|
---|
1382 | * IN assertion: lookahead < MIN_LOOKAHEAD
|
---|
1383 | * OUT assertions: strstart <= window_size-MIN_LOOKAHEAD
|
---|
1384 | * At least one byte has been read, or avail_in == 0; reads are
|
---|
1385 | * performed for at least two bytes (required for the zip translate_eol
|
---|
1386 | * option -- not supported here).
|
---|
1387 | */
|
---|
1388 | local void fill_window(s)
|
---|
1389 | deflate_state *s;
|
---|
1390 | {
|
---|
1391 | register unsigned n, m;
|
---|
1392 | register Posf *p;
|
---|
1393 | unsigned more; /* Amount of free space at the end of the window. */
|
---|
1394 | uInt wsize = s->w_size;
|
---|
1395 |
|
---|
1396 | Assert(s->lookahead < MIN_LOOKAHEAD, "already enough lookahead");
|
---|
1397 |
|
---|
1398 | do {
|
---|
1399 | more = (unsigned)(s->window_size -(ulg)s->lookahead -(ulg)s->strstart);
|
---|
1400 |
|
---|
1401 | /* Deal with !@#$% 64K limit: */
|
---|
1402 | if (sizeof(int) <= 2) {
|
---|
1403 | if (more == 0 && s->strstart == 0 && s->lookahead == 0) {
|
---|
1404 | more = wsize;
|
---|
1405 |
|
---|
1406 | } else if (more == (unsigned)(-1)) {
|
---|
1407 | /* Very unlikely, but possible on 16 bit machine if
|
---|
1408 | * strstart == 0 && lookahead == 1 (input done a byte at time)
|
---|
1409 | */
|
---|
1410 | more--;
|
---|
1411 | }
|
---|
1412 | }
|
---|
1413 |
|
---|
1414 | /* If the window is almost full and there is insufficient lookahead,
|
---|
1415 | * move the upper half to the lower one to make room in the upper half.
|
---|
1416 | */
|
---|
1417 | if (s->strstart >= wsize+MAX_DIST(s)) {
|
---|
1418 |
|
---|
1419 | zmemcpy(s->window, s->window+wsize, (unsigned)wsize);
|
---|
1420 | s->match_start -= wsize;
|
---|
1421 | s->strstart -= wsize; /* we now have strstart >= MAX_DIST */
|
---|
1422 | s->block_start -= (long) wsize;
|
---|
1423 |
|
---|
1424 | /* Slide the hash table (could be avoided with 32 bit values
|
---|
1425 | at the expense of memory usage). We slide even when level == 0
|
---|
1426 | to keep the hash table consistent if we switch back to level > 0
|
---|
1427 | later. (Using level 0 permanently is not an optimal usage of
|
---|
1428 | zlib, so we don't care about this pathological case.)
|
---|
1429 | */
|
---|
1430 | n = s->hash_size;
|
---|
1431 | p = &s->head[n];
|
---|
1432 | do {
|
---|
1433 | m = *--p;
|
---|
1434 | *p = (Pos)(m >= wsize ? m-wsize : NIL);
|
---|
1435 | } while (--n);
|
---|
1436 |
|
---|
1437 | n = wsize;
|
---|
1438 | #ifndef FASTEST
|
---|
1439 | p = &s->prev[n];
|
---|
1440 | do {
|
---|
1441 | m = *--p;
|
---|
1442 | *p = (Pos)(m >= wsize ? m-wsize : NIL);
|
---|
1443 | /* If n is not on any hash chain, prev[n] is garbage but
|
---|
1444 | * its value will never be used.
|
---|
1445 | */
|
---|
1446 | } while (--n);
|
---|
1447 | #endif
|
---|
1448 | more += wsize;
|
---|
1449 | }
|
---|
1450 | if (s->strm->avail_in == 0) break;
|
---|
1451 |
|
---|
1452 | /* If there was no sliding:
|
---|
1453 | * strstart <= WSIZE+MAX_DIST-1 && lookahead <= MIN_LOOKAHEAD - 1 &&
|
---|
1454 | * more == window_size - lookahead - strstart
|
---|
1455 | * => more >= window_size - (MIN_LOOKAHEAD-1 + WSIZE + MAX_DIST-1)
|
---|
1456 | * => more >= window_size - 2*WSIZE + 2
|
---|
1457 | * In the BIG_MEM or MMAP case (not yet supported),
|
---|
1458 | * window_size == input_size + MIN_LOOKAHEAD &&
|
---|
1459 | * strstart + s->lookahead <= input_size => more >= MIN_LOOKAHEAD.
|
---|
1460 | * Otherwise, window_size == 2*WSIZE so more >= 2.
|
---|
1461 | * If there was sliding, more >= WSIZE. So in all cases, more >= 2.
|
---|
1462 | */
|
---|
1463 | Assert(more >= 2, "more < 2");
|
---|
1464 |
|
---|
1465 | n = read_buf(s->strm, s->window + s->strstart + s->lookahead, more);
|
---|
1466 | s->lookahead += n;
|
---|
1467 |
|
---|
1468 | /* Initialize the hash value now that we have some input: */
|
---|
1469 | if (s->lookahead + s->insert >= MIN_MATCH) {
|
---|
1470 | uInt str = s->strstart - s->insert;
|
---|
1471 | s->ins_h = s->window[str];
|
---|
1472 | UPDATE_HASH(s, s->ins_h, s->window[str + 1]);
|
---|
1473 | #if MIN_MATCH != 3
|
---|
1474 | Call UPDATE_HASH() MIN_MATCH-3 more times
|
---|
1475 | #endif
|
---|
1476 | while (s->insert) {
|
---|
1477 | UPDATE_HASH(s, s->ins_h, s->window[str + MIN_MATCH-1]);
|
---|
1478 | #ifndef FASTEST
|
---|
1479 | s->prev[str & s->w_mask] = s->head[s->ins_h];
|
---|
1480 | #endif
|
---|
1481 | s->head[s->ins_h] = (Pos)str;
|
---|
1482 | str++;
|
---|
1483 | s->insert--;
|
---|
1484 | if (s->lookahead + s->insert < MIN_MATCH)
|
---|
1485 | break;
|
---|
1486 | }
|
---|
1487 | }
|
---|
1488 | /* If the whole input has less than MIN_MATCH bytes, ins_h is garbage,
|
---|
1489 | * but this is not important since only literal bytes will be emitted.
|
---|
1490 | */
|
---|
1491 |
|
---|
1492 | } while (s->lookahead < MIN_LOOKAHEAD && s->strm->avail_in != 0);
|
---|
1493 |
|
---|
1494 | /* If the WIN_INIT bytes after the end of the current data have never been
|
---|
1495 | * written, then zero those bytes in order to avoid memory check reports of
|
---|
1496 | * the use of uninitialized (or uninitialised as Julian writes) bytes by
|
---|
1497 | * the longest match routines. Update the high water mark for the next
|
---|
1498 | * time through here. WIN_INIT is set to MAX_MATCH since the longest match
|
---|
1499 | * routines allow scanning to strstart + MAX_MATCH, ignoring lookahead.
|
---|
1500 | */
|
---|
1501 | if (s->high_water < s->window_size) {
|
---|
1502 | ulg curr = s->strstart + (ulg)(s->lookahead);
|
---|
1503 | ulg init;
|
---|
1504 |
|
---|
1505 | if (s->high_water < curr) {
|
---|
1506 | /* Previous high water mark below current data -- zero WIN_INIT
|
---|
1507 | * bytes or up to end of window, whichever is less.
|
---|
1508 | */
|
---|
1509 | init = s->window_size - curr;
|
---|
1510 | if (init > WIN_INIT)
|
---|
1511 | init = WIN_INIT;
|
---|
1512 | zmemzero(s->window + curr, (unsigned)init);
|
---|
1513 | s->high_water = curr + init;
|
---|
1514 | }
|
---|
1515 | else if (s->high_water < (ulg)curr + WIN_INIT) {
|
---|
1516 | /* High water mark at or above current data, but below current data
|
---|
1517 | * plus WIN_INIT -- zero out to current data plus WIN_INIT, or up
|
---|
1518 | * to end of window, whichever is less.
|
---|
1519 | */
|
---|
1520 | init = (ulg)curr + WIN_INIT - s->high_water;
|
---|
1521 | if (init > s->window_size - s->high_water)
|
---|
1522 | init = s->window_size - s->high_water;
|
---|
1523 | zmemzero(s->window + s->high_water, (unsigned)init);
|
---|
1524 | s->high_water += init;
|
---|
1525 | }
|
---|
1526 | }
|
---|
1527 |
|
---|
1528 | Assert((ulg)s->strstart <= s->window_size - MIN_LOOKAHEAD,
|
---|
1529 | "not enough room for search");
|
---|
1530 | }
|
---|
1531 |
|
---|
1532 | /* ===========================================================================
|
---|
1533 | * Flush the current block, with given end-of-file flag.
|
---|
1534 | * IN assertion: strstart is set to the end of the current match.
|
---|
1535 | */
|
---|
1536 | #define FLUSH_BLOCK_ONLY(s, last) { \
|
---|
1537 | _tr_flush_block(s, (s->block_start >= 0L ? \
|
---|
1538 | (charf *)&s->window[(unsigned)s->block_start] : \
|
---|
1539 | (charf *)Z_NULL), \
|
---|
1540 | (ulg)((long)s->strstart - s->block_start), \
|
---|
1541 | (last)); \
|
---|
1542 | s->block_start = s->strstart; \
|
---|
1543 | flush_pending(s->strm); \
|
---|
1544 | Tracev((stderr,"[FLUSH]")); \
|
---|
1545 | }
|
---|
1546 |
|
---|
1547 | /* Same but force premature exit if necessary. */
|
---|
1548 | #define FLUSH_BLOCK(s, last) { \
|
---|
1549 | FLUSH_BLOCK_ONLY(s, last); \
|
---|
1550 | if (s->strm->avail_out == 0) return (last) ? finish_started : need_more; \
|
---|
1551 | }
|
---|
1552 |
|
---|
1553 | /* ===========================================================================
|
---|
1554 | * Copy without compression as much as possible from the input stream, return
|
---|
1555 | * the current block state.
|
---|
1556 | * This function does not insert new strings in the dictionary since
|
---|
1557 | * uncompressible data is probably not useful. This function is used
|
---|
1558 | * only for the level=0 compression option.
|
---|
1559 | * NOTE: this function should be optimized to avoid extra copying from
|
---|
1560 | * window to pending_buf.
|
---|
1561 | */
|
---|
1562 | local block_state deflate_stored(s, flush)
|
---|
1563 | deflate_state *s;
|
---|
1564 | int flush;
|
---|
1565 | {
|
---|
1566 | /* Stored blocks are limited to 0xffff bytes, pending_buf is limited
|
---|
1567 | * to pending_buf_size, and each stored block has a 5 byte header:
|
---|
1568 | */
|
---|
1569 | ulg max_block_size = 0xffff;
|
---|
1570 | ulg max_start;
|
---|
1571 |
|
---|
1572 | if (max_block_size > s->pending_buf_size - 5) {
|
---|
1573 | max_block_size = s->pending_buf_size - 5;
|
---|
1574 | }
|
---|
1575 |
|
---|
1576 | /* Copy as much as possible from input to output: */
|
---|
1577 | for (;;) {
|
---|
1578 | /* Fill the window as much as possible: */
|
---|
1579 | if (s->lookahead <= 1) {
|
---|
1580 |
|
---|
1581 | Assert(s->strstart < s->w_size+MAX_DIST(s) ||
|
---|
1582 | s->block_start >= (long)s->w_size, "slide too late");
|
---|
1583 |
|
---|
1584 | fill_window(s);
|
---|
1585 | if (s->lookahead == 0 && flush == Z_NO_FLUSH) return need_more;
|
---|
1586 |
|
---|
1587 | if (s->lookahead == 0) break; /* flush the current block */
|
---|
1588 | }
|
---|
1589 | Assert(s->block_start >= 0L, "block gone");
|
---|
1590 |
|
---|
1591 | s->strstart += s->lookahead;
|
---|
1592 | s->lookahead = 0;
|
---|
1593 |
|
---|
1594 | /* Emit a stored block if pending_buf will be full: */
|
---|
1595 | max_start = s->block_start + max_block_size;
|
---|
1596 | if (s->strstart == 0 || (ulg)s->strstart >= max_start) {
|
---|
1597 | /* strstart == 0 is possible when wraparound on 16-bit machine */
|
---|
1598 | s->lookahead = (uInt)(s->strstart - max_start);
|
---|
1599 | s->strstart = (uInt)max_start;
|
---|
1600 | FLUSH_BLOCK(s, 0);
|
---|
1601 | }
|
---|
1602 | /* Flush if we may have to slide, otherwise block_start may become
|
---|
1603 | * negative and the data will be gone:
|
---|
1604 | */
|
---|
1605 | if (s->strstart - (uInt)s->block_start >= MAX_DIST(s)) {
|
---|
1606 | FLUSH_BLOCK(s, 0);
|
---|
1607 | }
|
---|
1608 | }
|
---|
1609 | s->insert = 0;
|
---|
1610 | if (flush == Z_FINISH) {
|
---|
1611 | FLUSH_BLOCK(s, 1);
|
---|
1612 | return finish_done;
|
---|
1613 | }
|
---|
1614 | if ((long)s->strstart > s->block_start)
|
---|
1615 | FLUSH_BLOCK(s, 0);
|
---|
1616 | return block_done;
|
---|
1617 | }
|
---|
1618 |
|
---|
1619 | /* ===========================================================================
|
---|
1620 | * Compress as much as possible from the input stream, return the current
|
---|
1621 | * block state.
|
---|
1622 | * This function does not perform lazy evaluation of matches and inserts
|
---|
1623 | * new strings in the dictionary only for unmatched strings or for short
|
---|
1624 | * matches. It is used only for the fast compression options.
|
---|
1625 | */
|
---|
1626 | local block_state deflate_fast(s, flush)
|
---|
1627 | deflate_state *s;
|
---|
1628 | int flush;
|
---|
1629 | {
|
---|
1630 | IPos hash_head; /* head of the hash chain */
|
---|
1631 | int bflush; /* set if current block must be flushed */
|
---|
1632 |
|
---|
1633 | for (;;) {
|
---|
1634 | /* Make sure that we always have enough lookahead, except
|
---|
1635 | * at the end of the input file. We need MAX_MATCH bytes
|
---|
1636 | * for the next match, plus MIN_MATCH bytes to insert the
|
---|
1637 | * string following the next match.
|
---|
1638 | */
|
---|
1639 | if (s->lookahead < MIN_LOOKAHEAD) {
|
---|
1640 | fill_window(s);
|
---|
1641 | if (s->lookahead < MIN_LOOKAHEAD && flush == Z_NO_FLUSH) {
|
---|
1642 | return need_more;
|
---|
1643 | }
|
---|
1644 | if (s->lookahead == 0) break; /* flush the current block */
|
---|
1645 | }
|
---|
1646 |
|
---|
1647 | /* Insert the string window[strstart .. strstart+2] in the
|
---|
1648 | * dictionary, and set hash_head to the head of the hash chain:
|
---|
1649 | */
|
---|
1650 | hash_head = NIL;
|
---|
1651 | if (s->lookahead >= MIN_MATCH) {
|
---|
1652 | INSERT_STRING(s, s->strstart, hash_head);
|
---|
1653 | }
|
---|
1654 |
|
---|
1655 | /* Find the longest match, discarding those <= prev_length.
|
---|
1656 | * At this point we have always match_length < MIN_MATCH
|
---|
1657 | */
|
---|
1658 | if (hash_head != NIL && s->strstart - hash_head <= MAX_DIST(s)) {
|
---|
1659 | /* To simplify the code, we prevent matches with the string
|
---|
1660 | * of window index 0 (in particular we have to avoid a match
|
---|
1661 | * of the string with itself at the start of the input file).
|
---|
1662 | */
|
---|
1663 | s->match_length = longest_match (s, hash_head);
|
---|
1664 | /* longest_match() sets match_start */
|
---|
1665 | }
|
---|
1666 | if (s->match_length >= MIN_MATCH) {
|
---|
1667 | check_match(s, s->strstart, s->match_start, s->match_length);
|
---|
1668 |
|
---|
1669 | _tr_tally_dist(s, s->strstart - s->match_start,
|
---|
1670 | s->match_length - MIN_MATCH, bflush);
|
---|
1671 |
|
---|
1672 | s->lookahead -= s->match_length;
|
---|
1673 |
|
---|
1674 | /* Insert new strings in the hash table only if the match length
|
---|
1675 | * is not too large. This saves time but degrades compression.
|
---|
1676 | */
|
---|
1677 | #ifndef FASTEST
|
---|
1678 | if (s->match_length <= s->max_insert_length &&
|
---|
1679 | s->lookahead >= MIN_MATCH) {
|
---|
1680 | s->match_length--; /* string at strstart already in table */
|
---|
1681 | do {
|
---|
1682 | s->strstart++;
|
---|
1683 | INSERT_STRING(s, s->strstart, hash_head);
|
---|
1684 | /* strstart never exceeds WSIZE-MAX_MATCH, so there are
|
---|
1685 | * always MIN_MATCH bytes ahead.
|
---|
1686 | */
|
---|
1687 | } while (--s->match_length != 0);
|
---|
1688 | s->strstart++;
|
---|
1689 | } else
|
---|
1690 | #endif
|
---|
1691 | {
|
---|
1692 | s->strstart += s->match_length;
|
---|
1693 | s->match_length = 0;
|
---|
1694 | s->ins_h = s->window[s->strstart];
|
---|
1695 | UPDATE_HASH(s, s->ins_h, s->window[s->strstart+1]);
|
---|
1696 | #if MIN_MATCH != 3
|
---|
1697 | Call UPDATE_HASH() MIN_MATCH-3 more times
|
---|
1698 | #endif
|
---|
1699 | /* If lookahead < MIN_MATCH, ins_h is garbage, but it does not
|
---|
1700 | * matter since it will be recomputed at next deflate call.
|
---|
1701 | */
|
---|
1702 | }
|
---|
1703 | } else {
|
---|
1704 | /* No match, output a literal byte */
|
---|
1705 | Tracevv((stderr,"%c", s->window[s->strstart]));
|
---|
1706 | _tr_tally_lit (s, s->window[s->strstart], bflush);
|
---|
1707 | s->lookahead--;
|
---|
1708 | s->strstart++;
|
---|
1709 | }
|
---|
1710 | if (bflush) FLUSH_BLOCK(s, 0);
|
---|
1711 | }
|
---|
1712 | s->insert = s->strstart < MIN_MATCH-1 ? s->strstart : MIN_MATCH-1;
|
---|
1713 | if (flush == Z_FINISH) {
|
---|
1714 | FLUSH_BLOCK(s, 1);
|
---|
1715 | return finish_done;
|
---|
1716 | }
|
---|
1717 | if (s->last_lit)
|
---|
1718 | FLUSH_BLOCK(s, 0);
|
---|
1719 | return block_done;
|
---|
1720 | }
|
---|
1721 |
|
---|
1722 | #ifndef FASTEST
|
---|
1723 | /* ===========================================================================
|
---|
1724 | * Same as above, but achieves better compression. We use a lazy
|
---|
1725 | * evaluation for matches: a match is finally adopted only if there is
|
---|
1726 | * no better match at the next window position.
|
---|
1727 | */
|
---|
1728 | local block_state deflate_slow(s, flush)
|
---|
1729 | deflate_state *s;
|
---|
1730 | int flush;
|
---|
1731 | {
|
---|
1732 | IPos hash_head; /* head of hash chain */
|
---|
1733 | int bflush; /* set if current block must be flushed */
|
---|
1734 |
|
---|
1735 | /* Process the input block. */
|
---|
1736 | for (;;) {
|
---|
1737 | /* Make sure that we always have enough lookahead, except
|
---|
1738 | * at the end of the input file. We need MAX_MATCH bytes
|
---|
1739 | * for the next match, plus MIN_MATCH bytes to insert the
|
---|
1740 | * string following the next match.
|
---|
1741 | */
|
---|
1742 | if (s->lookahead < MIN_LOOKAHEAD) {
|
---|
1743 | fill_window(s);
|
---|
1744 | if (s->lookahead < MIN_LOOKAHEAD && flush == Z_NO_FLUSH) {
|
---|
1745 | return need_more;
|
---|
1746 | }
|
---|
1747 | if (s->lookahead == 0) break; /* flush the current block */
|
---|
1748 | }
|
---|
1749 |
|
---|
1750 | /* Insert the string window[strstart .. strstart+2] in the
|
---|
1751 | * dictionary, and set hash_head to the head of the hash chain:
|
---|
1752 | */
|
---|
1753 | hash_head = NIL;
|
---|
1754 | if (s->lookahead >= MIN_MATCH) {
|
---|
1755 | INSERT_STRING(s, s->strstart, hash_head);
|
---|
1756 | }
|
---|
1757 |
|
---|
1758 | /* Find the longest match, discarding those <= prev_length.
|
---|
1759 | */
|
---|
1760 | s->prev_length = s->match_length, s->prev_match = s->match_start;
|
---|
1761 | s->match_length = MIN_MATCH-1;
|
---|
1762 |
|
---|
1763 | if (hash_head != NIL && s->prev_length < s->max_lazy_match &&
|
---|
1764 | s->strstart - hash_head <= MAX_DIST(s)) {
|
---|
1765 | /* To simplify the code, we prevent matches with the string
|
---|
1766 | * of window index 0 (in particular we have to avoid a match
|
---|
1767 | * of the string with itself at the start of the input file).
|
---|
1768 | */
|
---|
1769 | s->match_length = longest_match (s, hash_head);
|
---|
1770 | /* longest_match() sets match_start */
|
---|
1771 |
|
---|
1772 | if (s->match_length <= 5 && (s->strategy == Z_FILTERED
|
---|
1773 | #if TOO_FAR <= 32767
|
---|
1774 | || (s->match_length == MIN_MATCH &&
|
---|
1775 | s->strstart - s->match_start > TOO_FAR)
|
---|
1776 | #endif
|
---|
1777 | )) {
|
---|
1778 |
|
---|
1779 | /* If prev_match is also MIN_MATCH, match_start is garbage
|
---|
1780 | * but we will ignore the current match anyway.
|
---|
1781 | */
|
---|
1782 | s->match_length = MIN_MATCH-1;
|
---|
1783 | }
|
---|
1784 | }
|
---|
1785 | /* If there was a match at the previous step and the current
|
---|
1786 | * match is not better, output the previous match:
|
---|
1787 | */
|
---|
1788 | if (s->prev_length >= MIN_MATCH && s->match_length <= s->prev_length) {
|
---|
1789 | uInt max_insert = s->strstart + s->lookahead - MIN_MATCH;
|
---|
1790 | /* Do not insert strings in hash table beyond this. */
|
---|
1791 |
|
---|
1792 | check_match(s, s->strstart-1, s->prev_match, s->prev_length);
|
---|
1793 |
|
---|
1794 | _tr_tally_dist(s, s->strstart -1 - s->prev_match,
|
---|
1795 | s->prev_length - MIN_MATCH, bflush);
|
---|
1796 |
|
---|
1797 | /* Insert in hash table all strings up to the end of the match.
|
---|
1798 | * strstart-1 and strstart are already inserted. If there is not
|
---|
1799 | * enough lookahead, the last two strings are not inserted in
|
---|
1800 | * the hash table.
|
---|
1801 | */
|
---|
1802 | s->lookahead -= s->prev_length-1;
|
---|
1803 | s->prev_length -= 2;
|
---|
1804 | do {
|
---|
1805 | if (++s->strstart <= max_insert) {
|
---|
1806 | INSERT_STRING(s, s->strstart, hash_head);
|
---|
1807 | }
|
---|
1808 | } while (--s->prev_length != 0);
|
---|
1809 | s->match_available = 0;
|
---|
1810 | s->match_length = MIN_MATCH-1;
|
---|
1811 | s->strstart++;
|
---|
1812 |
|
---|
1813 | if (bflush) FLUSH_BLOCK(s, 0);
|
---|
1814 |
|
---|
1815 | } else if (s->match_available) {
|
---|
1816 | /* If there was no match at the previous position, output a
|
---|
1817 | * single literal. If there was a match but the current match
|
---|
1818 | * is longer, truncate the previous match to a single literal.
|
---|
1819 | */
|
---|
1820 | Tracevv((stderr,"%c", s->window[s->strstart-1]));
|
---|
1821 | _tr_tally_lit(s, s->window[s->strstart-1], bflush);
|
---|
1822 | if (bflush) {
|
---|
1823 | FLUSH_BLOCK_ONLY(s, 0);
|
---|
1824 | }
|
---|
1825 | s->strstart++;
|
---|
1826 | s->lookahead--;
|
---|
1827 | if (s->strm->avail_out == 0) return need_more;
|
---|
1828 | } else {
|
---|
1829 | /* There is no previous match to compare with, wait for
|
---|
1830 | * the next step to decide.
|
---|
1831 | */
|
---|
1832 | s->match_available = 1;
|
---|
1833 | s->strstart++;
|
---|
1834 | s->lookahead--;
|
---|
1835 | }
|
---|
1836 | }
|
---|
1837 | Assert (flush != Z_NO_FLUSH, "no flush?");
|
---|
1838 | if (s->match_available) {
|
---|
1839 | Tracevv((stderr,"%c", s->window[s->strstart-1]));
|
---|
1840 | _tr_tally_lit(s, s->window[s->strstart-1], bflush);
|
---|
1841 | s->match_available = 0;
|
---|
1842 | }
|
---|
1843 | s->insert = s->strstart < MIN_MATCH-1 ? s->strstart : MIN_MATCH-1;
|
---|
1844 | if (flush == Z_FINISH) {
|
---|
1845 | FLUSH_BLOCK(s, 1);
|
---|
1846 | return finish_done;
|
---|
1847 | }
|
---|
1848 | if (s->last_lit)
|
---|
1849 | FLUSH_BLOCK(s, 0);
|
---|
1850 | return block_done;
|
---|
1851 | }
|
---|
1852 | #endif /* FASTEST */
|
---|
1853 |
|
---|
1854 | /* ===========================================================================
|
---|
1855 | * For Z_RLE, simply look for runs of bytes, generate matches only of distance
|
---|
1856 | * one. Do not maintain a hash table. (It will be regenerated if this run of
|
---|
1857 | * deflate switches away from Z_RLE.)
|
---|
1858 | */
|
---|
1859 | local block_state deflate_rle(s, flush)
|
---|
1860 | deflate_state *s;
|
---|
1861 | int flush;
|
---|
1862 | {
|
---|
1863 | int bflush; /* set if current block must be flushed */
|
---|
1864 | uInt prev; /* byte at distance one to match */
|
---|
1865 | Bytef *scan, *strend; /* scan goes up to strend for length of run */
|
---|
1866 |
|
---|
1867 | for (;;) {
|
---|
1868 | /* Make sure that we always have enough lookahead, except
|
---|
1869 | * at the end of the input file. We need MAX_MATCH bytes
|
---|
1870 | * for the longest run, plus one for the unrolled loop.
|
---|
1871 | */
|
---|
1872 | if (s->lookahead <= MAX_MATCH) {
|
---|
1873 | fill_window(s);
|
---|
1874 | if (s->lookahead <= MAX_MATCH && flush == Z_NO_FLUSH) {
|
---|
1875 | return need_more;
|
---|
1876 | }
|
---|
1877 | if (s->lookahead == 0) break; /* flush the current block */
|
---|
1878 | }
|
---|
1879 |
|
---|
1880 | /* See how many times the previous byte repeats */
|
---|
1881 | s->match_length = 0;
|
---|
1882 | if (s->lookahead >= MIN_MATCH && s->strstart > 0) {
|
---|
1883 | scan = s->window + s->strstart - 1;
|
---|
1884 | prev = *scan;
|
---|
1885 | if (prev == *++scan && prev == *++scan && prev == *++scan) {
|
---|
1886 | strend = s->window + s->strstart + MAX_MATCH;
|
---|
1887 | do {
|
---|
1888 | } while (prev == *++scan && prev == *++scan &&
|
---|
1889 | prev == *++scan && prev == *++scan &&
|
---|
1890 | prev == *++scan && prev == *++scan &&
|
---|
1891 | prev == *++scan && prev == *++scan &&
|
---|
1892 | scan < strend);
|
---|
1893 | s->match_length = MAX_MATCH - (int)(strend - scan);
|
---|
1894 | if (s->match_length > s->lookahead)
|
---|
1895 | s->match_length = s->lookahead;
|
---|
1896 | }
|
---|
1897 | Assert(scan <= s->window+(uInt)(s->window_size-1), "wild scan");
|
---|
1898 | }
|
---|
1899 |
|
---|
1900 | /* Emit match if have run of MIN_MATCH or longer, else emit literal */
|
---|
1901 | if (s->match_length >= MIN_MATCH) {
|
---|
1902 | check_match(s, s->strstart, s->strstart - 1, s->match_length);
|
---|
1903 |
|
---|
1904 | _tr_tally_dist(s, 1, s->match_length - MIN_MATCH, bflush);
|
---|
1905 |
|
---|
1906 | s->lookahead -= s->match_length;
|
---|
1907 | s->strstart += s->match_length;
|
---|
1908 | s->match_length = 0;
|
---|
1909 | } else {
|
---|
1910 | /* No match, output a literal byte */
|
---|
1911 | Tracevv((stderr,"%c", s->window[s->strstart]));
|
---|
1912 | _tr_tally_lit (s, s->window[s->strstart], bflush);
|
---|
1913 | s->lookahead--;
|
---|
1914 | s->strstart++;
|
---|
1915 | }
|
---|
1916 | if (bflush) FLUSH_BLOCK(s, 0);
|
---|
1917 | }
|
---|
1918 | s->insert = 0;
|
---|
1919 | if (flush == Z_FINISH) {
|
---|
1920 | FLUSH_BLOCK(s, 1);
|
---|
1921 | return finish_done;
|
---|
1922 | }
|
---|
1923 | if (s->last_lit)
|
---|
1924 | FLUSH_BLOCK(s, 0);
|
---|
1925 | return block_done;
|
---|
1926 | }
|
---|
1927 |
|
---|
1928 | /* ===========================================================================
|
---|
1929 | * For Z_HUFFMAN_ONLY, do not look for matches. Do not maintain a hash table.
|
---|
1930 | * (It will be regenerated if this run of deflate switches away from Huffman.)
|
---|
1931 | */
|
---|
1932 | local block_state deflate_huff(s, flush)
|
---|
1933 | deflate_state *s;
|
---|
1934 | int flush;
|
---|
1935 | {
|
---|
1936 | int bflush; /* set if current block must be flushed */
|
---|
1937 |
|
---|
1938 | for (;;) {
|
---|
1939 | /* Make sure that we have a literal to write. */
|
---|
1940 | if (s->lookahead == 0) {
|
---|
1941 | fill_window(s);
|
---|
1942 | if (s->lookahead == 0) {
|
---|
1943 | if (flush == Z_NO_FLUSH)
|
---|
1944 | return need_more;
|
---|
1945 | break; /* flush the current block */
|
---|
1946 | }
|
---|
1947 | }
|
---|
1948 |
|
---|
1949 | /* Output a literal byte */
|
---|
1950 | s->match_length = 0;
|
---|
1951 | Tracevv((stderr,"%c", s->window[s->strstart]));
|
---|
1952 | _tr_tally_lit (s, s->window[s->strstart], bflush);
|
---|
1953 | s->lookahead--;
|
---|
1954 | s->strstart++;
|
---|
1955 | if (bflush) FLUSH_BLOCK(s, 0);
|
---|
1956 | }
|
---|
1957 | s->insert = 0;
|
---|
1958 | if (flush == Z_FINISH) {
|
---|
1959 | FLUSH_BLOCK(s, 1);
|
---|
1960 | return finish_done;
|
---|
1961 | }
|
---|
1962 | if (s->last_lit)
|
---|
1963 | FLUSH_BLOCK(s, 0);
|
---|
1964 | return block_done;
|
---|
1965 | }
|
---|