* have equal frequency. Following that, each code must be rebuilt whenever a
* certain number of symbols has been decoded with it.
*
- * In general, multiple valid Huffman codes can be constructed from a set of
- * symbol frequencies. Like other compression formats such as XPRESS, LZX, and
- * DEFLATE, the LZMS format solves this ambiguity by requiring that all Huffman
- * codes be constructed in canonical form. This form requires that same-length
- * codewords be lexicographically ordered the same way as the corresponding
- * symbols and that all shorter codewords lexicographically precede longer
- * codewords.
+ * Like other compression formats such as XPRESS, LZX, and DEFLATE, the LZMS
+ * format requires that all Huffman codes be constructed in canonical form.
+ * This form requires that same-length codewords be lexicographically ordered
+ * the same way as the corresponding symbols and that all shorter codewords
+ * lexicographically precede longer codewords. Such a code can be constructed
+ * directly from codeword lengths, although in LZMS this is not actually
+ * necessary because the codes are built using adaptive symbol frequencies.
*
- * Codewords in all the LZMS Huffman codes are limited to 15 bits. If the
- * canonical code for a given set of symbol frequencies has any codewords longer
- * than 15 bits, then all frequencies must be divided by 2, rounding up, and the
- * code construction must be attempted again.
+ * Even with the canonical code restriction, the same frequencies can be used to
+ * construct multiple valid Huffman codes. Therefore, the decompressor needs to
+ * construct the right one. Specifically, the LZMS format requires that the
+ * Huffman code be constructed as if the well-known priority queue algorithm is
+ * used and frequency ties are always broken in favor of leaf nodes. See
+ * make_canonical_huffman_code() in compress_common.c for more information.
+ *
+ * Codewords in LZMS are guaranteed to not exceed 15 bits. The format otherwise
+ * places no restrictions on codeword length. Therefore, the Huffman code
+ * construction algorithm that a correct LZMS decompressor uses need not
+ * implement length-limited code construction. But if it does (e.g. by virtue
+ * of being shared among multiple compression algorithms), the details of how it
+ * does so are unimportant, provided that the maximum codeword length parameter
+ * is set to at least 15 bits.
*
* An LZMS-compressed block seemingly cannot have a compressed size greater than
* or equal to the uncompressed size. In such cases the block must be stored
# include "config.h"
#endif
-#include "wimlib.h"
#include "wimlib/compress_common.h"
#include "wimlib/decompressor_ops.h"
#include "wimlib/decompress_common.h"
+#include "wimlib/error.h"
#include "wimlib/lzms.h"
#include "wimlib/util.h"
}
static int
-lzms_create_decompressor(size_t max_block_size,
- const struct wimlib_decompressor_params_header *params,
- void **ctx_ret)
+lzms_create_decompressor(size_t max_block_size, void **ctx_ret)
{
struct lzms_decompressor *ctx;
git://wimlib.net / wimlib / blobdiff