sv-dependency-builds: src/zlib-1.2.7/contrib/puff/puff.c comparison

comparison src/zlib-1.2.7/contrib/puff/puff.c @ 4:e13257ea84a4

Add bzip2, zlib, liblo, portaudio sources

author	Chris Cannam
date	Wed, 20 Mar 2013 13:59:52 +0000
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-:6c505a35919a
+:e13257ea84a4
+/*
+* puff.c
+* Copyright (C) 2002-2010 Mark Adler
+* For conditions of distribution and use, see copyright notice in puff.h
+* version 2.2, 25 Apr 2010
+*
+* puff.c is a simple inflate written to be an unambiguous way to specify the
+* deflate format.  It is not written for speed but rather simplicity.  As a
+* side benefit, this code might actually be useful when small code is more
+* important than speed, such as bootstrap applications.  For typical deflate
+* data, zlib's inflate() is about four times as fast as puff().  zlib's
+* inflate compiles to around 20K on my machine, whereas puff.c compiles to
+* around 4K on my machine (a PowerPC using GNU cc).  If the faster decode()
+* function here is used, then puff() is only twice as slow as zlib's
+* inflate().
+*
+* All dynamically allocated memory comes from the stack.  The stack required
+* is less than 2K bytes.  This code is compatible with 16-bit int's and
+* assumes that long's are at least 32 bits.  puff.c uses the short data type,
+* assumed to be 16 bits, for arrays in order to to conserve memory.  The code
+* works whether integers are stored big endian or little endian.
+*
+* In the comments below are "Format notes" that describe the inflate process
+* and document some of the less obvious aspects of the format.  This source
+* code is meant to supplement RFC 1951, which formally describes the deflate
+* format:
+*
+*    http://www.zlib.org/rfc-deflate.html
+*/
+/*
+* Change history:
+*
+* 1.0  10 Feb 2002     - First version
+* 1.1  17 Feb 2002     - Clarifications of some comments and notes
+*                      - Update puff() dest and source pointers on negative
+*                        errors to facilitate debugging deflators
+*                      - Remove longest from struct huffman -- not needed
+*                      - Simplify offs[] index in construct()
+*                      - Add input size and checking, using longjmp() to
+*                        maintain easy readability
+*                      - Use short data type for large arrays
+*                      - Use pointers instead of long to specify source and
+*                        destination sizes to avoid arbitrary 4 GB limits
+* 1.2  17 Mar 2002     - Add faster version of decode(), doubles speed (!),
+*                        but leave simple version for readabilty
+*                      - Make sure invalid distances detected if pointers
+*                        are 16 bits
+*                      - Fix fixed codes table error
+*                      - Provide a scanning mode for determining size of
+*                        uncompressed data
+* 1.3  20 Mar 2002     - Go back to lengths for puff() parameters [Gailly]
+*                      - Add a puff.h file for the interface
+*                      - Add braces in puff() for else do [Gailly]
+*                      - Use indexes instead of pointers for readability
+* 1.4  31 Mar 2002     - Simplify construct() code set check
+*                      - Fix some comments
+*                      - Add FIXLCODES #define
+* 1.5   6 Apr 2002     - Minor comment fixes
+* 1.6   7 Aug 2002     - Minor format changes
+* 1.7   3 Mar 2003     - Added test code for distribution
+*                      - Added zlib-like license
+* 1.8   9 Jan 2004     - Added some comments on no distance codes case
+* 1.9  21 Feb 2008     - Fix bug on 16-bit integer architectures [Pohland]
+*                      - Catch missing end-of-block symbol error
+* 2.0  25 Jul 2008     - Add #define to permit distance too far back
+*                      - Add option in TEST code for puff to write the data
+*                      - Add option in TEST code to skip input bytes
+*                      - Allow TEST code to read from piped stdin
+* 2.1   4 Apr 2010     - Avoid variable initialization for happier compilers
+*                      - Avoid unsigned comparisons for even happier compilers
+* 2.2  25 Apr 2010     - Fix bug in variable initializations [Oberhumer]
+*                      - Add const where appropriate [Oberhumer]
+*                      - Split if's and ?'s for coverage testing
+*                      - Break out test code to separate file
+*                      - Move NIL to puff.h
+*                      - Allow incomplete code only if single code length is 1
+*                      - Add full code coverage test to Makefile
+*/
+#include <setjmp.h>             /* for setjmp(), longjmp(), and jmp_buf */
+#include "puff.h"               /* prototype for puff() */
+#define local static            /* for local function definitions */
+/*
+* Maximums for allocations and loops.  It is not useful to change these --
+* they are fixed by the deflate format.
+*/
+#define MAXBITS 15              /* maximum bits in a code */
+#define MAXLCODES 286           /* maximum number of literal/length codes */
+#define MAXDCODES 30            /* maximum number of distance codes */
+#define MAXCODES (MAXLCODES+MAXDCODES)  /* maximum codes lengths to read */
+#define FIXLCODES 288           /* number of fixed literal/length codes */
+/* input and output state */
+struct state {
+/* output state */
+unsigned char *out;         /* output buffer */
+unsigned long outlen;       /* available space at out */
+unsigned long outcnt;       /* bytes written to out so far */
+/* input state */
+const unsigned char *in;    /* input buffer */
+unsigned long inlen;        /* available input at in */
+unsigned long incnt;        /* bytes read so far */
+int bitbuf;                 /* bit buffer */
+int bitcnt;                 /* number of bits in bit buffer */
+/* input limit error return state for bits() and decode() */
+jmp_buf env;
+};
+/*
+* Return need bits from the input stream.  This always leaves less than
+* eight bits in the buffer.  bits() works properly for need == 0.
+*
+* Format notes:
+*
+* - Bits are stored in bytes from the least significant bit to the most
+*   significant bit.  Therefore bits are dropped from the bottom of the bit
+*   buffer, using shift right, and new bytes are appended to the top of the
+*   bit buffer, using shift left.
+*/
+local int bits(struct state *s, int need)
+{
+long val;           /* bit accumulator (can use up to 20 bits) */
+/* load at least need bits into val */
+val = s->bitbuf;
+while (s->bitcnt < need) {
+if (s->incnt == s->inlen)
+longjmp(s->env, 1);         /* out of input */
+val |= (long)(s->in[s->incnt++]) << s->bitcnt;  /* load eight bits */
+s->bitcnt += 8;
+}
+/* drop need bits and update buffer, always zero to seven bits left */
+s->bitbuf = (int)(val >> need);
+s->bitcnt -= need;
+/* return need bits, zeroing the bits above that */
+return (int)(val & ((1L << need) - 1));
+}
+/*
+* Process a stored block.
+*
+* Format notes:
+*
+* - After the two-bit stored block type (00), the stored block length and
+*   stored bytes are byte-aligned for fast copying.  Therefore any leftover
+*   bits in the byte that has the last bit of the type, as many as seven, are
+*   discarded.  The value of the discarded bits are not defined and should not
+*   be checked against any expectation.
+*
+* - The second inverted copy of the stored block length does not have to be
+*   checked, but it's probably a good idea to do so anyway.
+*
+* - A stored block can have zero length.  This is sometimes used to byte-align
+*   subsets of the compressed data for random access or partial recovery.
+*/
+local int stored(struct state *s)
+{
+unsigned len;       /* length of stored block */
+/* discard leftover bits from current byte (assumes s->bitcnt < 8) */
+s->bitbuf = 0;
+s->bitcnt = 0;
+/* get length and check against its one's complement */
+if (s->incnt + 4 > s->inlen)
+return 2;                               /* not enough input */
+len = s->in[s->incnt++];
+len |= s->in[s->incnt++] << 8;
+if (s->in[s->incnt++] != (~len & 0xff) ||
+s->in[s->incnt++] != ((~len >> 8) & 0xff))
+return -2;                              /* didn't match complement! */
+/* copy len bytes from in to out */
+if (s->incnt + len > s->inlen)
+return 2;                               /* not enough input */
+if (s->out != NIL) {
+if (s->outcnt + len > s->outlen)
+return 1;                           /* not enough output space */
+while (len--)
+s->out[s->outcnt++] = s->in[s->incnt++];
+}
+else {                                      /* just scanning */
+s->outcnt += len;
+s->incnt += len;
+}
+/* done with a valid stored block */
+return 0;
+}
+/*
+* Huffman code decoding tables.  count[1..MAXBITS] is the number of symbols of
+* each length, which for a canonical code are stepped through in order.
+* symbol[] are the symbol values in canonical order, where the number of
+* entries is the sum of the counts in count[].  The decoding process can be
+* seen in the function decode() below.
+*/
+struct huffman {
+short *count;       /* number of symbols of each length */
+short *symbol;      /* canonically ordered symbols */
+};
+/*
+* Decode a code from the stream s using huffman table h.  Return the symbol or
+* a negative value if there is an error.  If all of the lengths are zero, i.e.
+* an empty code, or if the code is incomplete and an invalid code is received,
+* then -10 is returned after reading MAXBITS bits.
+*
+* Format notes:
+*
+* - The codes as stored in the compressed data are bit-reversed relative to
+*   a simple integer ordering of codes of the same lengths.  Hence below the
+*   bits are pulled from the compressed data one at a time and used to
+*   build the code value reversed from what is in the stream in order to
+*   permit simple integer comparisons for decoding.  A table-based decoding
+*   scheme (as used in zlib) does not need to do this reversal.
+*
+* - The first code for the shortest length is all zeros.  Subsequent codes of
+*   the same length are simply integer increments of the previous code.  When
+*   moving up a length, a zero bit is appended to the code.  For a complete
+*   code, the last code of the longest length will be all ones.
+*
+* - Incomplete codes are handled by this decoder, since they are permitted
+*   in the deflate format.  See the format notes for fixed() and dynamic().
+*/
+#ifdef SLOW
+local int decode(struct state *s, const struct huffman *h)
+{
+int len;            /* current number of bits in code */
+int code;           /* len bits being decoded */
+int first;          /* first code of length len */
+int count;          /* number of codes of length len */
+int index;          /* index of first code of length len in symbol table */
+code = first = index = 0;
+for (len = 1; len <= MAXBITS; len++) {
+code |= bits(s, 1);             /* get next bit */
+count = h->count[len];
+if (code - count < first)       /* if length len, return symbol */
+return h->symbol[index + (code - first)];
+index += count;                 /* else update for next length */
+first += count;
+first <<= 1;
+code <<= 1;
+}
+return -10;                         /* ran out of codes */
+}
+/*
+* A faster version of decode() for real applications of this code.   It's not
+* as readable, but it makes puff() twice as fast.  And it only makes the code
+* a few percent larger.
+*/
+#else /* !SLOW */
+local int decode(struct state *s, const struct huffman *h)
+{
+int len;            /* current number of bits in code */
+int code;           /* len bits being decoded */
+int first;          /* first code of length len */
+int count;          /* number of codes of length len */
+int index;          /* index of first code of length len in symbol table */
+int bitbuf;         /* bits from stream */
+int left;           /* bits left in next or left to process */
+short *next;        /* next number of codes */
+bitbuf = s->bitbuf;
+left = s->bitcnt;
+code = first = index = 0;
+len = 1;
+next = h->count + 1;
+while (1) {
+while (left--) {
+code |= bitbuf & 1;
+bitbuf >>= 1;
+count = *next++;
+if (code - count < first) { /* if length len, return symbol */
+s->bitbuf = bitbuf;
+s->bitcnt = (s->bitcnt - len) & 7;
+return h->symbol[index + (code - first)];
+}
+index += count;             /* else update for next length */
+first += count;
+first <<= 1;
+code <<= 1;
+len++;
+}
+left = (MAXBITS+1) - len;
+if (left == 0)
+break;
+if (s->incnt == s->inlen)
+longjmp(s->env, 1);         /* out of input */
+bitbuf = s->in[s->incnt++];
+if (left > 8)
+left = 8;
+}
+return -10;                         /* ran out of codes */
+}
+#endif /* SLOW */
+/*
+* Given the list of code lengths length[0..n-1] representing a canonical
+* Huffman code for n symbols, construct the tables required to decode those
+* codes.  Those tables are the number of codes of each length, and the symbols
+* sorted by length, retaining their original order within each length.  The
+* return value is zero for a complete code set, negative for an over-
+* subscribed code set, and positive for an incomplete code set.  The tables
+* can be used if the return value is zero or positive, but they cannot be used
+* if the return value is negative.  If the return value is zero, it is not
+* possible for decode() using that table to return an error--any stream of
+* enough bits will resolve to a symbol.  If the return value is positive, then
+* it is possible for decode() using that table to return an error for received
+* codes past the end of the incomplete lengths.
+*
+* Not used by decode(), but used for error checking, h->count[0] is the number
+* of the n symbols not in the code.  So n - h->count[0] is the number of
+* codes.  This is useful for checking for incomplete codes that have more than
+* one symbol, which is an error in a dynamic block.
+*
+* Assumption: for all i in 0..n-1, 0 <= length[i] <= MAXBITS
+* This is assured by the construction of the length arrays in dynamic() and
+* fixed() and is not verified by construct().
+*
+* Format notes:
+*
+* - Permitted and expected examples of incomplete codes are one of the fixed
+*   codes and any code with a single symbol which in deflate is coded as one
+*   bit instead of zero bits.  See the format notes for fixed() and dynamic().
+*
+* - Within a given code length, the symbols are kept in ascending order for
+*   the code bits definition.
+*/
+local int construct(struct huffman *h, const short *length, int n)
+{
+int symbol;         /* current symbol when stepping through length[] */
+int len;            /* current length when stepping through h->count[] */
+int left;           /* number of possible codes left of current length */
+short offs[MAXBITS+1];      /* offsets in symbol table for each length */
+/* count number of codes of each length */
+for (len = 0; len <= MAXBITS; len++)
+h->count[len] = 0;
+for (symbol = 0; symbol < n; symbol++)
+(h->count[length[symbol]])++;   /* assumes lengths are within bounds */
+if (h->count[0] == n)               /* no codes! */
+return 0;                       /* complete, but decode() will fail */
+/* check for an over-subscribed or incomplete set of lengths */
+left = 1;                           /* one possible code of zero length */
+for (len = 1; len <= MAXBITS; len++) {
+left <<= 1;                     /* one more bit, double codes left */
+left -= h->count[len];          /* deduct count from possible codes */
+if (left < 0)
+return left;                /* over-subscribed--return negative */
+}                                   /* left > 0 means incomplete */
+/* generate offsets into symbol table for each length for sorting */
+offs[1] = 0;
+for (len = 1; len < MAXBITS; len++)
+offs[len + 1] = offs[len] + h->count[len];
+/*
+* put symbols in table sorted by length, by symbol order within each
+* length
+*/
+for (symbol = 0; symbol < n; symbol++)
+if (length[symbol] != 0)
+h->symbol[offs[length[symbol]]++] = symbol;
+/* return zero for complete set, positive for incomplete set */
+return left;
+}
+/*
+* Decode literal/length and distance codes until an end-of-block code.
+*
+* Format notes:
+*
+* - Compressed data that is after the block type if fixed or after the code
+*   description if dynamic is a combination of literals and length/distance
+*   pairs terminated by and end-of-block code.  Literals are simply Huffman
+*   coded bytes.  A length/distance pair is a coded length followed by a
+*   coded distance to represent a string that occurs earlier in the
+*   uncompressed data that occurs again at the current location.
+*
+* - Literals, lengths, and the end-of-block code are combined into a single
+*   code of up to 286 symbols.  They are 256 literals (0..255), 29 length
+*   symbols (257..285), and the end-of-block symbol (256).
+*
+* - There are 256 possible lengths (3..258), and so 29 symbols are not enough
+*   to represent all of those.  Lengths 3..10 and 258 are in fact represented
+*   by just a length symbol.  Lengths 11..257 are represented as a symbol and
+*   some number of extra bits that are added as an integer to the base length
+*   of the length symbol.  The number of extra bits is determined by the base
+*   length symbol.  These are in the static arrays below, lens[] for the base
+*   lengths and lext[] for the corresponding number of extra bits.
+*
+* - The reason that 258 gets its own symbol is that the longest length is used
+*   often in highly redundant files.  Note that 258 can also be coded as the
+*   base value 227 plus the maximum extra value of 31.  While a good deflate
+*   should never do this, it is not an error, and should be decoded properly.
+*
+* - If a length is decoded, including its extra bits if any, then it is
+*   followed a distance code.  There are up to 30 distance symbols.  Again
+*   there are many more possible distances (1..32768), so extra bits are added
+*   to a base value represented by the symbol.  The distances 1..4 get their
+*   own symbol, but the rest require extra bits.  The base distances and
+*   corresponding number of extra bits are below in the static arrays dist[]
+*   and dext[].
+*
+* - Literal bytes are simply written to the output.  A length/distance pair is
+*   an instruction to copy previously uncompressed bytes to the output.  The
+*   copy is from distance bytes back in the output stream, copying for length
+*   bytes.
+*
+* - Distances pointing before the beginning of the output data are not
+*   permitted.
+*
+* - Overlapped copies, where the length is greater than the distance, are
+*   allowed and common.  For example, a distance of one and a length of 258
+*   simply copies the last byte 258 times.  A distance of four and a length of
+*   twelve copies the last four bytes three times.  A simple forward copy
+*   ignoring whether the length is greater than the distance or not implements
+*   this correctly.  You should not use memcpy() since its behavior is not
+*   defined for overlapped arrays.  You should not use memmove() or bcopy()
+*   since though their behavior -is- defined for overlapping arrays, it is
+*   defined to do the wrong thing in this case.
+*/
+local int codes(struct state *s,
+const struct huffman *lencode,
+const struct huffman *distcode)
+{
+int symbol;         /* decoded symbol */
+int len;            /* length for copy */
+unsigned dist;      /* distance for copy */
+static const short lens[29] = { /* Size base for length codes 257..285 */
+3, 4, 5, 6, 7, 8, 9, 10, 11, 13, 15, 17, 19, 23, 27, 31,
+35, 43, 51, 59, 67, 83, 99, 115, 131, 163, 195, 227, 258};
+static const short lext[29] = { /* Extra bits for length codes 257..285 */
+0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 1, 2, 2, 2, 2,
+3, 3, 3, 3, 4, 4, 4, 4, 5, 5, 5, 5, 0};
+static const short dists[30] = { /* Offset base for distance codes 0..29 */
+1, 2, 3, 4, 5, 7, 9, 13, 17, 25, 33, 49, 65, 97, 129, 193,
+257, 385, 513, 769, 1025, 1537, 2049, 3073, 4097, 6145,
+8193, 12289, 16385, 24577};
+static const short dext[30] = { /* Extra bits for distance codes 0..29 */
+0, 0, 0, 0, 1, 1, 2, 2, 3, 3, 4, 4, 5, 5, 6, 6,
+7, 7, 8, 8, 9, 9, 10, 10, 11, 11,
+12, 12, 13, 13};
+/* decode literals and length/distance pairs */
+do {
+symbol = decode(s, lencode);
+if (symbol < 0)
+return symbol;              /* invalid symbol */
+if (symbol < 256) {             /* literal: symbol is the byte */
+/* write out the literal */
+if (s->out != NIL) {
+if (s->outcnt == s->outlen)
+return 1;
+s->out[s->outcnt] = symbol;
+}
+s->outcnt++;
+}
+else if (symbol > 256) {        /* length */
+/* get and compute length */
+symbol -= 257;
+if (symbol >= 29)
+return -10;             /* invalid fixed code */
+len = lens[symbol] + bits(s, lext[symbol]);
+/* get and check distance */
+symbol = decode(s, distcode);
+if (symbol < 0)
+return symbol;          /* invalid symbol */
+dist = dists[symbol] + bits(s, dext[symbol]);
+#ifndef INFLATE_ALLOW_INVALID_DISTANCE_TOOFAR_ARRR
+if (dist > s->outcnt)
+return -11;     /* distance too far back */
+#endif
+/* copy length bytes from distance bytes back */
+if (s->out != NIL) {
+if (s->outcnt + len > s->outlen)
+return 1;
+while (len--) {
+s->out[s->outcnt] =
+#ifdef INFLATE_ALLOW_INVALID_DISTANCE_TOOFAR_ARRR
+dist > s->outcnt ?
+0 :
+#endif
+s->out[s->outcnt - dist];
+s->outcnt++;
+}
+}
+else
+s->outcnt += len;
+}
+} while (symbol != 256);            /* end of block symbol */
+/* done with a valid fixed or dynamic block */
+return 0;
+}
+/*
+* Process a fixed codes block.
+*
+* Format notes:
+*
+* - This block type can be useful for compressing small amounts of data for
+*   which the size of the code descriptions in a dynamic block exceeds the
+*   benefit of custom codes for that block.  For fixed codes, no bits are
+*   spent on code descriptions.  Instead the code lengths for literal/length
+*   codes and distance codes are fixed.  The specific lengths for each symbol
+*   can be seen in the "for" loops below.
+*
+* - The literal/length code is complete, but has two symbols that are invalid
+*   and should result in an error if received.  This cannot be implemented
+*   simply as an incomplete code since those two symbols are in the "middle"
+*   of the code.  They are eight bits long and the longest literal/length\
+*   code is nine bits.  Therefore the code must be constructed with those
+*   symbols, and the invalid symbols must be detected after decoding.
+*
+* - The fixed distance codes also have two invalid symbols that should result
+*   in an error if received.  Since all of the distance codes are the same
+*   length, this can be implemented as an incomplete code.  Then the invalid
+*   codes are detected while decoding.
+*/
+local int fixed(struct state *s)
+{
+static int virgin = 1;
+static short lencnt[MAXBITS+1], lensym[FIXLCODES];
+static short distcnt[MAXBITS+1], distsym[MAXDCODES];
+static struct huffman lencode, distcode;
+/* build fixed huffman tables if first call (may not be thread safe) */
+if (virgin) {
+int symbol;
+short lengths[FIXLCODES];
+/* construct lencode and distcode */
+lencode.count = lencnt;
+lencode.symbol = lensym;
+distcode.count = distcnt;
+distcode.symbol = distsym;
+/* literal/length table */
+for (symbol = 0; symbol < 144; symbol++)
+lengths[symbol] = 8;
+for (; symbol < 256; symbol++)
+lengths[symbol] = 9;
+for (; symbol < 280; symbol++)
+lengths[symbol] = 7;
+for (; symbol < FIXLCODES; symbol++)
+lengths[symbol] = 8;
+construct(&lencode, lengths, FIXLCODES);
+/* distance table */
+for (symbol = 0; symbol < MAXDCODES; symbol++)
+lengths[symbol] = 5;
+construct(&distcode, lengths, MAXDCODES);
+/* do this just once */
+virgin = 0;
+}
+/* decode data until end-of-block code */
+return codes(s, &lencode, &distcode);
+}
+/*
+* Process a dynamic codes block.
+*
+* Format notes:
+*
+* - A dynamic block starts with a description of the literal/length and
+*   distance codes for that block.  New dynamic blocks allow the compressor to
+*   rapidly adapt to changing data with new codes optimized for that data.
+*
+* - The codes used by the deflate format are "canonical", which means that
+*   the actual bits of the codes are generated in an unambiguous way simply
+*   from the number of bits in each code.  Therefore the code descriptions
+*   are simply a list of code lengths for each symbol.
+*
+* - The code lengths are stored in order for the symbols, so lengths are
+*   provided for each of the literal/length symbols, and for each of the
+*   distance symbols.
+*
+* - If a symbol is not used in the block, this is represented by a zero as
+*   as the code length.  This does not mean a zero-length code, but rather
+*   that no code should be created for this symbol.  There is no way in the
+*   deflate format to represent a zero-length code.
+*
+* - The maximum number of bits in a code is 15, so the possible lengths for
+*   any code are 1..15.
+*
+* - The fact that a length of zero is not permitted for a code has an
+*   interesting consequence.  Normally if only one symbol is used for a given
+*   code, then in fact that code could be represented with zero bits.  However
+*   in deflate, that code has to be at least one bit.  So for example, if
+*   only a single distance base symbol appears in a block, then it will be
+*   represented by a single code of length one, in particular one 0 bit.  This
+*   is an incomplete code, since if a 1 bit is received, it has no meaning,
+*   and should result in an error.  So incomplete distance codes of one symbol
+*   should be permitted, and the receipt of invalid codes should be handled.
+*
+* - It is also possible to have a single literal/length code, but that code
+*   must be the end-of-block code, since every dynamic block has one.  This
+*   is not the most efficient way to create an empty block (an empty fixed
+*   block is fewer bits), but it is allowed by the format.  So incomplete
+*   literal/length codes of one symbol should also be permitted.
+*
+* - If there are only literal codes and no lengths, then there are no distance
+*   codes.  This is represented by one distance code with zero bits.
+*
+* - The list of up to 286 length/literal lengths and up to 30 distance lengths
+*   are themselves compressed using Huffman codes and run-length encoding.  In
+*   the list of code lengths, a 0 symbol means no code, a 1..15 symbol means
+*   that length, and the symbols 16, 17, and 18 are run-length instructions.
+*   Each of 16, 17, and 18 are follwed by extra bits to define the length of
+*   the run.  16 copies the last length 3 to 6 times.  17 represents 3 to 10
+*   zero lengths, and 18 represents 11 to 138 zero lengths.  Unused symbols
+*   are common, hence the special coding for zero lengths.
+*
+* - The symbols for 0..18 are Huffman coded, and so that code must be
+*   described first.  This is simply a sequence of up to 19 three-bit values
+*   representing no code (0) or the code length for that symbol (1..7).
+*
+* - A dynamic block starts with three fixed-size counts from which is computed
+*   the number of literal/length code lengths, the number of distance code
+*   lengths, and the number of code length code lengths (ok, you come up with
+*   a better name!) in the code descriptions.  For the literal/length and
+*   distance codes, lengths after those provided are considered zero, i.e. no
+*   code.  The code length code lengths are received in a permuted order (see
+*   the order[] array below) to make a short code length code length list more
+*   likely.  As it turns out, very short and very long codes are less likely
+*   to be seen in a dynamic code description, hence what may appear initially
+*   to be a peculiar ordering.
+*
+* - Given the number of literal/length code lengths (nlen) and distance code
+*   lengths (ndist), then they are treated as one long list of nlen + ndist
+*   code lengths.  Therefore run-length coding can and often does cross the
+*   boundary between the two sets of lengths.
+*
+* - So to summarize, the code description at the start of a dynamic block is
+*   three counts for the number of code lengths for the literal/length codes,
+*   the distance codes, and the code length codes.  This is followed by the
+*   code length code lengths, three bits each.  This is used to construct the
+*   code length code which is used to read the remainder of the lengths.  Then
+*   the literal/length code lengths and distance lengths are read as a single
+*   set of lengths using the code length codes.  Codes are constructed from
+*   the resulting two sets of lengths, and then finally you can start
+*   decoding actual compressed data in the block.
+*
+* - For reference, a "typical" size for the code description in a dynamic
+*   block is around 80 bytes.
+*/
+local int dynamic(struct state *s)
+{
+int nlen, ndist, ncode;             /* number of lengths in descriptor */
+int index;                          /* index of lengths[] */
+int err;                            /* construct() return value */
+short lengths[MAXCODES];            /* descriptor code lengths */
+short lencnt[MAXBITS+1], lensym[MAXLCODES];         /* lencode memory */
+short distcnt[MAXBITS+1], distsym[MAXDCODES];       /* distcode memory */
+struct huffman lencode, distcode;   /* length and distance codes */
+static const short order[19] =      /* permutation of code length codes */
+{16, 17, 18, 0, 8, 7, 9, 6, 10, 5, 11, 4, 12, 3, 13, 2, 14, 1, 15};
+/* construct lencode and distcode */
+lencode.count = lencnt;
+lencode.symbol = lensym;
+distcode.count = distcnt;
+distcode.symbol = distsym;
+/* get number of lengths in each table, check lengths */
+nlen = bits(s, 5) + 257;
+ndist = bits(s, 5) + 1;
+ncode = bits(s, 4) + 4;
+if (nlen > MAXLCODES || ndist > MAXDCODES)
+return -3;                      /* bad counts */
+/* read code length code lengths (really), missing lengths are zero */
+for (index = 0; index < ncode; index++)
+lengths[order[index]] = bits(s, 3);
+for (; index < 19; index++)
+lengths[order[index]] = 0;
+/* build huffman table for code lengths codes (use lencode temporarily) */
+err = construct(&lencode, lengths, 19);
+if (err != 0)               /* require complete code set here */
+return -4;
+/* read length/literal and distance code length tables */
+index = 0;
+while (index < nlen + ndist) {
+int symbol;             /* decoded value */
+int len;                /* last length to repeat */
+symbol = decode(s, &lencode);
+if (symbol < 16)                /* length in 0..15 */
+lengths[index++] = symbol;
+else {                          /* repeat instruction */
+len = 0;                    /* assume repeating zeros */
+if (symbol == 16) {         /* repeat last length 3..6 times */
+if (index == 0)
+return -5;          /* no last length! */
+len = lengths[index - 1];       /* last length */
+symbol = 3 + bits(s, 2);
+}
+else if (symbol == 17)      /* repeat zero 3..10 times */
+symbol = 3 + bits(s, 3);
+else                        /* == 18, repeat zero 11..138 times */
+symbol = 11 + bits(s, 7);
+if (index + symbol > nlen + ndist)
+return -6;              /* too many lengths! */
+while (symbol--)            /* repeat last or zero symbol times */
+lengths[index++] = len;
+}
+}
+/* check for end-of-block code -- there better be one! */
+if (lengths[256] == 0)
+return -9;
+/* build huffman table for literal/length codes */
+err = construct(&lencode, lengths, nlen);
+if (err && (err < 0 || nlen != lencode.count[0] + lencode.count[1]))
+return -7;      /* incomplete code ok only for single length 1 code */
+/* build huffman table for distance codes */
+err = construct(&distcode, lengths + nlen, ndist);
+if (err && (err < 0 || ndist != distcode.count[0] + distcode.count[1]))
+return -8;      /* incomplete code ok only for single length 1 code */
+/* decode data until end-of-block code */
+return codes(s, &lencode, &distcode);
+}
+/*
+* Inflate source to dest.  On return, destlen and sourcelen are updated to the
+* size of the uncompressed data and the size of the deflate data respectively.
+* On success, the return value of puff() is zero.  If there is an error in the
+* source data, i.e. it is not in the deflate format, then a negative value is
+* returned.  If there is not enough input available or there is not enough
+* output space, then a positive error is returned.  In that case, destlen and
+* sourcelen are not updated to facilitate retrying from the beginning with the
+* provision of more input data or more output space.  In the case of invalid
+* inflate data (a negative error), the dest and source pointers are updated to
+* facilitate the debugging of deflators.
+*
+* puff() also has a mode to determine the size of the uncompressed output with
+* no output written.  For this dest must be (unsigned char *)0.  In this case,
+* the input value of *destlen is ignored, and on return *destlen is set to the
+* size of the uncompressed output.
+*
+* The return codes are:
+*
+*   2:  available inflate data did not terminate
+*   1:  output space exhausted before completing inflate
+*   0:  successful inflate
+*  -1:  invalid block type (type == 3)
+*  -2:  stored block length did not match one's complement
+*  -3:  dynamic block code description: too many length or distance codes
+*  -4:  dynamic block code description: code lengths codes incomplete
+*  -5:  dynamic block code description: repeat lengths with no first length
+*  -6:  dynamic block code description: repeat more than specified lengths
+*  -7:  dynamic block code description: invalid literal/length code lengths
+*  -8:  dynamic block code description: invalid distance code lengths
+*  -9:  dynamic block code description: missing end-of-block code
+* -10:  invalid literal/length or distance code in fixed or dynamic block
+* -11:  distance is too far back in fixed or dynamic block
+*
+* Format notes:
+*
+* - Three bits are read for each block to determine the kind of block and
+*   whether or not it is the last block.  Then the block is decoded and the
+*   process repeated if it was not the last block.
+*
+* - The leftover bits in the last byte of the deflate data after the last
+*   block (if it was a fixed or dynamic block) are undefined and have no
+*   expected values to check.
+*/
+int puff(unsigned char *dest,           /* pointer to destination pointer */
+unsigned long *destlen,        /* amount of output space */
+const unsigned char *source,   /* pointer to source data pointer */
+unsigned long *sourcelen)      /* amount of input available */
+{
+struct state s;             /* input/output state */
+int last, type;             /* block information */
+int err;                    /* return value */
+/* initialize output state */
+s.out = dest;
+s.outlen = *destlen;                /* ignored if dest is NIL */
+s.outcnt = 0;
+/* initialize input state */
+s.in = source;
+s.inlen = *sourcelen;
+s.incnt = 0;
+s.bitbuf = 0;
+s.bitcnt = 0;
+/* return if bits() or decode() tries to read past available input */
+if (setjmp(s.env) != 0)             /* if came back here via longjmp() */
+err = 2;                        /* then skip do-loop, return error */
+else {
+/* process blocks until last block or error */
+do {
+last = bits(&s, 1);         /* one if last block */
+type = bits(&s, 2);         /* block type 0..3 */
+err = type == 0 ?
+stored(&s) :
+(type == 1 ?
+fixed(&s) :
+(type == 2 ?
+dynamic(&s) :
+-1));       /* type == 3, invalid */
+if (err != 0)
+break;                  /* return with error */
+} while (!last);
+}
+/* update the lengths and return */
+if (err <= 0) {
+*destlen = s.outcnt;
+*sourcelen = s.incnt;
+}
+return err;
+}

Mercurial > hg > sv-dependency-builds

comparison src/zlib-1.2.7/contrib/puff/puff.c @ 4:e13257ea84a4