mirror of https://git.tukaani.org/xz.git
liblzma: Rename a few variables and constants.
This has no semantic changes. I find the new names slightly more logical and they match the names that are already used in XZ Embedded. The name fastpos wasn't changed (not worth the hassle).
This commit is contained in:
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@ -14,15 +14,15 @@
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#ifndef LZMA_FASTPOS_H
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#ifndef LZMA_FASTPOS_H
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#define LZMA_FASTPOS_H
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#define LZMA_FASTPOS_H
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// LZMA encodes match distances (positions) by storing the highest two
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// LZMA encodes match distances by storing the highest two bits using
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// bits using a six-bit value [0, 63], and then the missing lower bits.
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// a six-bit value [0, 63], and then the missing lower bits.
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// Dictionary size is also stored using this encoding in the new .lzma
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// Dictionary size is also stored using this encoding in the .xz
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// file format header.
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// file format header.
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//
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//
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// fastpos.h provides a way to quickly find out the correct six-bit
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// fastpos.h provides a way to quickly find out the correct six-bit
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// values. The following table gives some examples of this encoding:
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// values. The following table gives some examples of this encoding:
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//
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//
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// pos return
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// dist return
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// 0 0
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// 0 0
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// 1 1
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// 1 1
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// 2 2
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// 2 2
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@ -48,10 +48,10 @@
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// Provided functions or macros
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// Provided functions or macros
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// ----------------------------
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// ----------------------------
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//
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//
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// get_pos_slot(pos) is the basic version. get_pos_slot_2(pos)
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// get_dist_slot(dist) is the basic version. get_dist_slot_2(dist)
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// assumes that pos >= FULL_DISTANCES, thus the result is at least
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// assumes that dist >= FULL_DISTANCES, thus the result is at least
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// FULL_DISTANCES_BITS * 2. Using get_pos_slot(pos) instead of
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// FULL_DISTANCES_BITS * 2. Using get_dist_slot(dist) instead of
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// get_pos_slot_2(pos) would give the same result, but get_pos_slot_2(pos)
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// get_dist_slot_2(dist) would give the same result, but get_dist_slot_2(dist)
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// should be tiny bit faster due to the assumption being made.
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// should be tiny bit faster due to the assumption being made.
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//
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//
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//
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//
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@ -76,13 +76,14 @@
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// slightly faster, but sometimes it is a lot slower.
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// slightly faster, but sometimes it is a lot slower.
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#ifdef HAVE_SMALL
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#ifdef HAVE_SMALL
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# define get_pos_slot(pos) ((pos) <= 4 ? (pos) : get_pos_slot_2(pos))
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# define get_dist_slot(dist) \
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((dist) <= 4 ? (dist) : get_dist_slot_2(dist))
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static inline uint32_t
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static inline uint32_t
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get_pos_slot_2(uint32_t pos)
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get_dist_slot_2(uint32_t dist)
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{
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{
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const uint32_t i = bsr32(pos);
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const uint32_t i = bsr32(dist);
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return (i + i) + ((pos >> (i - 1)) & 1);
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return (i + i) + ((dist >> (i - 1)) & 1);
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}
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}
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@ -99,39 +100,39 @@ extern const uint8_t lzma_fastpos[1 << FASTPOS_BITS];
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#define fastpos_limit(extra, n) \
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#define fastpos_limit(extra, n) \
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(UINT32_C(1) << (FASTPOS_BITS + fastpos_shift(extra, n)))
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(UINT32_C(1) << (FASTPOS_BITS + fastpos_shift(extra, n)))
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#define fastpos_result(pos, extra, n) \
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#define fastpos_result(dist, extra, n) \
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lzma_fastpos[(pos) >> fastpos_shift(extra, n)] \
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lzma_fastpos[(dist) >> fastpos_shift(extra, n)] \
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+ 2 * fastpos_shift(extra, n)
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+ 2 * fastpos_shift(extra, n)
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static inline uint32_t
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static inline uint32_t
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get_pos_slot(uint32_t pos)
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get_dist_slot(uint32_t dist)
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{
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{
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// If it is small enough, we can pick the result directly from
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// If it is small enough, we can pick the result directly from
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// the precalculated table.
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// the precalculated table.
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if (pos < fastpos_limit(0, 0))
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if (dist < fastpos_limit(0, 0))
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return lzma_fastpos[pos];
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return lzma_fastpos[dist];
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if (pos < fastpos_limit(0, 1))
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if (dist < fastpos_limit(0, 1))
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return fastpos_result(pos, 0, 1);
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return fastpos_result(dist, 0, 1);
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return fastpos_result(pos, 0, 2);
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return fastpos_result(dist, 0, 2);
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}
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}
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#ifdef FULL_DISTANCES_BITS
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#ifdef FULL_DISTANCES_BITS
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static inline uint32_t
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static inline uint32_t
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get_pos_slot_2(uint32_t pos)
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get_dist_slot_2(uint32_t dist)
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{
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{
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assert(pos >= FULL_DISTANCES);
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assert(dist >= FULL_DISTANCES);
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if (pos < fastpos_limit(FULL_DISTANCES_BITS - 1, 0))
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if (dist < fastpos_limit(FULL_DISTANCES_BITS - 1, 0))
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return fastpos_result(pos, FULL_DISTANCES_BITS - 1, 0);
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return fastpos_result(dist, FULL_DISTANCES_BITS - 1, 0);
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if (pos < fastpos_limit(FULL_DISTANCES_BITS - 1, 1))
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if (dist < fastpos_limit(FULL_DISTANCES_BITS - 1, 1))
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return fastpos_result(pos, FULL_DISTANCES_BITS - 1, 1);
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return fastpos_result(dist, FULL_DISTANCES_BITS - 1, 1);
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return fastpos_result(pos, FULL_DISTANCES_BITS - 1, 2);
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return fastpos_result(dist, FULL_DISTANCES_BITS - 1, 2);
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}
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}
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#endif
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#endif
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@ -387,7 +387,7 @@ lzma_lzma2_props_encode(const void *options, uint8_t *out)
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if (d == UINT32_MAX)
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if (d == UINT32_MAX)
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out[0] = 40;
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out[0] = 40;
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else
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else
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out[0] = get_pos_slot(d + 1) - 24;
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out[0] = get_dist_slot(d + 1) - 24;
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return LZMA_OK;
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return LZMA_OK;
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}
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}
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@ -171,53 +171,54 @@ literal_init(probability (*probs)[LITERAL_CODER_SIZE],
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// Match distance //
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// Match distance //
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////////////////////
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////////////////////
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// Different set of probabilities is used for match distances that have very
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// Different sets of probabilities are used for match distances that have very
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// short match length: Lengths of 2, 3, and 4 bytes have a separate set of
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// short match length: Lengths of 2, 3, and 4 bytes have a separate set of
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// probabilities for each length. The matches with longer length use a shared
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// probabilities for each length. The matches with longer length use a shared
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// set of probabilities.
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// set of probabilities.
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#define LEN_TO_POS_STATES 4
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#define DIST_STATES 4
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// Macro to get the index of the appropriate probability array.
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// Macro to get the index of the appropriate probability array.
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#define get_len_to_pos_state(len) \
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#define get_dist_state(len) \
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((len) < LEN_TO_POS_STATES + MATCH_LEN_MIN \
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((len) < DIST_STATES + MATCH_LEN_MIN \
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? (len) - MATCH_LEN_MIN \
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? (len) - MATCH_LEN_MIN \
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: LEN_TO_POS_STATES - 1)
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: DIST_STATES - 1)
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// The highest two bits of a match distance (pos slot) are encoded using six
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// The highest two bits of a match distance (distance slot) are encoded
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// bits. See fastpos.h for more explanation.
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// using six bits. See fastpos.h for more explanation.
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#define POS_SLOT_BITS 6
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#define DIST_SLOT_BITS 6
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#define POS_SLOTS (1 << POS_SLOT_BITS)
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#define DIST_SLOTS (1 << DIST_SLOT_BITS)
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// Match distances up to 127 are fully encoded using probabilities. Since
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// Match distances up to 127 are fully encoded using probabilities. Since
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// the highest two bits (pos slot) are always encoded using six bits, the
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// the highest two bits (distance slot) are always encoded using six bits,
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// distances 0-3 don't need any additional bits to encode, since the pos
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// the distances 0-3 don't need any additional bits to encode, since the
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// slot itself is the same as the actual distance. START_POS_MODEL_INDEX
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// distance slot itself is the same as the actual distance. DIST_MODEL_START
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// indicates the first pos slot where at least one additional bit is needed.
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// indicates the first distance slot where at least one additional bit is
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#define START_POS_MODEL_INDEX 4
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// needed.
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#define DIST_MODEL_START 4
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// Match distances greater than 127 are encoded in three pieces:
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// Match distances greater than 127 are encoded in three pieces:
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// - pos slot: the highest two bits
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// - distance slot: the highest two bits
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// - direct bits: 2-26 bits below the highest two bits
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// - direct bits: 2-26 bits below the highest two bits
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// - alignment bits: four lowest bits
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// - alignment bits: four lowest bits
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//
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//
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// Direct bits don't use any probabilities.
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// Direct bits don't use any probabilities.
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//
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//
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// The pos slot value of 14 is for distances 128-191 (see the table in
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// The distance slot value of 14 is for distances 128-191 (see the table in
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// fastpos.h to understand why).
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// fastpos.h to understand why).
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#define END_POS_MODEL_INDEX 14
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#define DIST_MODEL_END 14
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// Pos slots that indicate a distance <= 127.
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// Distance slots that indicate a distance <= 127.
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#define FULL_DISTANCES_BITS (END_POS_MODEL_INDEX / 2)
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#define FULL_DISTANCES_BITS (DIST_MODEL_END / 2)
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#define FULL_DISTANCES (1 << FULL_DISTANCES_BITS)
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#define FULL_DISTANCES (1 << FULL_DISTANCES_BITS)
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// For match distances greater than 127, only the highest two bits and the
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// For match distances greater than 127, only the highest two bits and the
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// lowest four bits (alignment) is encoded using probabilities.
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// lowest four bits (alignment) is encoded using probabilities.
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#define ALIGN_BITS 4
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#define ALIGN_BITS 4
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#define ALIGN_TABLE_SIZE (1 << ALIGN_BITS)
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#define ALIGN_SIZE (1 << ALIGN_BITS)
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#define ALIGN_MASK (ALIGN_TABLE_SIZE - 1)
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#define ALIGN_MASK (ALIGN_SIZE - 1)
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// LZMA remembers the four most recent match distances. Reusing these distances
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// LZMA remembers the four most recent match distances. Reusing these distances
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// tends to take less space than re-encoding the actual distance value.
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// tends to take less space than re-encoding the actual distance value.
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#define REP_DISTANCES 4
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#define REPS 4
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#endif
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#endif
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@ -193,15 +193,15 @@ struct lzma_coder_s {
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/// Probability tree for the highest two bits of the match distance.
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/// Probability tree for the highest two bits of the match distance.
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/// There is a separate probability tree for match lengths of
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/// There is a separate probability tree for match lengths of
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/// 2 (i.e. MATCH_LEN_MIN), 3, 4, and [5, 273].
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/// 2 (i.e. MATCH_LEN_MIN), 3, 4, and [5, 273].
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probability pos_slot[LEN_TO_POS_STATES][POS_SLOTS];
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probability dist_slot[DIST_STATES][DIST_SLOTS];
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/// Probability trees for additional bits for match distance when the
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/// Probability trees for additional bits for match distance when the
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/// distance is in the range [4, 127].
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/// distance is in the range [4, 127].
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probability pos_special[FULL_DISTANCES - END_POS_MODEL_INDEX];
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probability pos_special[FULL_DISTANCES - DIST_MODEL_END];
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/// Probability tree for the lowest four bits of a match distance
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/// Probability tree for the lowest four bits of a match distance
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/// that is equal to or greater than 128.
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/// that is equal to or greater than 128.
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probability pos_align[ALIGN_TABLE_SIZE];
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probability pos_align[ALIGN_SIZE];
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/// Length of a normal match
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/// Length of a normal match
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lzma_length_decoder match_len_decoder;
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lzma_length_decoder match_len_decoder;
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@ -245,8 +245,8 @@ struct lzma_coder_s {
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SEQ_LITERAL_WRITE,
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SEQ_LITERAL_WRITE,
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SEQ_IS_REP,
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SEQ_IS_REP,
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seq_len(SEQ_MATCH_LEN),
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seq_len(SEQ_MATCH_LEN),
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seq_6(SEQ_POS_SLOT),
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seq_6(SEQ_DIST_SLOT),
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SEQ_POS_MODEL,
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SEQ_DIST_MODEL,
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SEQ_DIRECT,
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SEQ_DIRECT,
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seq_4(SEQ_ALIGN),
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seq_4(SEQ_ALIGN),
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SEQ_EOPM,
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SEQ_EOPM,
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@ -502,28 +502,28 @@ lzma_decode(lzma_coder *restrict coder, lzma_dict *restrict dictptr,
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// Prepare to decode the highest two bits of the
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// Prepare to decode the highest two bits of the
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// match distance.
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// match distance.
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probs = coder->pos_slot[get_len_to_pos_state(len)];
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probs = coder->dist_slot[get_dist_state(len)];
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symbol = 1;
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symbol = 1;
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#ifdef HAVE_SMALL
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#ifdef HAVE_SMALL
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case SEQ_POS_SLOT:
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case SEQ_DIST_SLOT:
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do {
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do {
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rc_bit(probs[symbol], , , SEQ_POS_SLOT);
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rc_bit(probs[symbol], , , SEQ_DIST_SLOT);
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} while (symbol < POS_SLOTS);
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} while (symbol < DIST_SLOTS);
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#else
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#else
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rc_bit_case(probs[symbol], , , SEQ_POS_SLOT0);
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rc_bit_case(probs[symbol], , , SEQ_DIST_SLOT0);
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rc_bit_case(probs[symbol], , , SEQ_POS_SLOT1);
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rc_bit_case(probs[symbol], , , SEQ_DIST_SLOT1);
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rc_bit_case(probs[symbol], , , SEQ_POS_SLOT2);
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rc_bit_case(probs[symbol], , , SEQ_DIST_SLOT2);
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rc_bit_case(probs[symbol], , , SEQ_POS_SLOT3);
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rc_bit_case(probs[symbol], , , SEQ_DIST_SLOT3);
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rc_bit_case(probs[symbol], , , SEQ_POS_SLOT4);
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rc_bit_case(probs[symbol], , , SEQ_DIST_SLOT4);
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rc_bit_case(probs[symbol], , , SEQ_POS_SLOT5);
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rc_bit_case(probs[symbol], , , SEQ_DIST_SLOT5);
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#endif
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#endif
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// Get rid of the highest bit that was needed for
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// Get rid of the highest bit that was needed for
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// indexing of the probability array.
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// indexing of the probability array.
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symbol -= POS_SLOTS;
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symbol -= DIST_SLOTS;
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assert(symbol <= 63);
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assert(symbol <= 63);
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if (symbol < START_POS_MODEL_INDEX) {
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if (symbol < DIST_MODEL_START) {
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// Match distances [0, 3] have only two bits.
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// Match distances [0, 3] have only two bits.
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rep0 = symbol;
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rep0 = symbol;
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} else {
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} else {
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assert(limit >= 1 && limit <= 30);
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assert(limit >= 1 && limit <= 30);
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rep0 = 2 + (symbol & 1);
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rep0 = 2 + (symbol & 1);
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if (symbol < END_POS_MODEL_INDEX) {
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if (symbol < DIST_MODEL_END) {
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// Prepare to decode the low bits for
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// Prepare to decode the low bits for
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// a distance of [4, 127].
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// a distance of [4, 127].
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assert(limit <= 5);
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assert(limit <= 5);
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@ -553,12 +553,12 @@ lzma_decode(lzma_coder *restrict coder, lzma_dict *restrict dictptr,
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- symbol - 1;
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- symbol - 1;
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symbol = 1;
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symbol = 1;
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offset = 0;
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offset = 0;
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case SEQ_POS_MODEL:
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case SEQ_DIST_MODEL:
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#ifdef HAVE_SMALL
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#ifdef HAVE_SMALL
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do {
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do {
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rc_bit(probs[symbol], ,
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rc_bit(probs[symbol], ,
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rep0 += 1 << offset,
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rep0 += 1 << offset,
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SEQ_POS_MODEL);
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SEQ_DIST_MODEL);
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} while (++offset < limit);
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} while (++offset < limit);
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#else
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#else
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switch (limit) {
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switch (limit) {
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@ -566,25 +566,25 @@ lzma_decode(lzma_coder *restrict coder, lzma_dict *restrict dictptr,
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assert(offset == 0);
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assert(offset == 0);
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rc_bit(probs[symbol], ,
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rc_bit(probs[symbol], ,
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rep0 += 1,
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rep0 += 1,
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SEQ_POS_MODEL);
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SEQ_DIST_MODEL);
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++offset;
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++offset;
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--limit;
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--limit;
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case 4:
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case 4:
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rc_bit(probs[symbol], ,
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rc_bit(probs[symbol], ,
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rep0 += 1 << offset,
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rep0 += 1 << offset,
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SEQ_POS_MODEL);
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SEQ_DIST_MODEL);
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++offset;
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++offset;
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--limit;
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--limit;
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case 3:
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case 3:
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rc_bit(probs[symbol], ,
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rc_bit(probs[symbol], ,
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rep0 += 1 << offset,
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rep0 += 1 << offset,
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SEQ_POS_MODEL);
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SEQ_DIST_MODEL);
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++offset;
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++offset;
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--limit;
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--limit;
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case 2:
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case 2:
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rc_bit(probs[symbol], ,
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rc_bit(probs[symbol], ,
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rep0 += 1 << offset,
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rep0 += 1 << offset,
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SEQ_POS_MODEL);
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SEQ_DIST_MODEL);
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++offset;
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++offset;
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--limit;
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--limit;
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case 1:
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case 1:
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@ -596,7 +596,7 @@ lzma_decode(lzma_coder *restrict coder, lzma_dict *restrict dictptr,
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// "symbol".
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// "symbol".
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rc_bit_last(probs[symbol], ,
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rc_bit_last(probs[symbol], ,
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rep0 += 1 << offset,
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rep0 += 1 << offset,
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SEQ_POS_MODEL);
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SEQ_DIST_MODEL);
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||||||
}
|
}
|
||||||
#endif
|
#endif
|
||||||
} else {
|
} else {
|
||||||
|
@ -637,7 +637,7 @@ lzma_decode(lzma_coder *restrict coder, lzma_dict *restrict dictptr,
|
||||||
rc_bit(coder->pos_align[symbol], ,
|
rc_bit(coder->pos_align[symbol], ,
|
||||||
rep0 += 4, SEQ_ALIGN2);
|
rep0 += 4, SEQ_ALIGN2);
|
||||||
case SEQ_ALIGN3:
|
case SEQ_ALIGN3:
|
||||||
// Like in SEQ_POS_MODEL, we don't
|
// Like in SEQ_DIST_MODEL, we don't
|
||||||
// need "symbol" for anything else
|
// need "symbol" for anything else
|
||||||
// than indexing the probability array.
|
// than indexing the probability array.
|
||||||
rc_bit_last(coder->pos_align[symbol], ,
|
rc_bit_last(coder->pos_align[symbol], ,
|
||||||
|
@ -891,10 +891,10 @@ lzma_decoder_reset(lzma_coder *coder, const void *opt)
|
||||||
bit_reset(coder->is_rep2[i]);
|
bit_reset(coder->is_rep2[i]);
|
||||||
}
|
}
|
||||||
|
|
||||||
for (uint32_t i = 0; i < LEN_TO_POS_STATES; ++i)
|
for (uint32_t i = 0; i < DIST_STATES; ++i)
|
||||||
bittree_reset(coder->pos_slot[i], POS_SLOT_BITS);
|
bittree_reset(coder->dist_slot[i], DIST_SLOT_BITS);
|
||||||
|
|
||||||
for (uint32_t i = 0; i < FULL_DISTANCES - END_POS_MODEL_INDEX; ++i)
|
for (uint32_t i = 0; i < FULL_DISTANCES - DIST_MODEL_END; ++i)
|
||||||
bit_reset(coder->pos_special[i]);
|
bit_reset(coder->pos_special[i]);
|
||||||
|
|
||||||
bittree_reset(coder->pos_align, ALIGN_BITS);
|
bittree_reset(coder->pos_align, ALIGN_BITS);
|
||||||
|
|
|
@ -148,28 +148,28 @@ match(lzma_coder *coder, const uint32_t pos_state,
|
||||||
length(&coder->rc, &coder->match_len_encoder, pos_state, len,
|
length(&coder->rc, &coder->match_len_encoder, pos_state, len,
|
||||||
coder->fast_mode);
|
coder->fast_mode);
|
||||||
|
|
||||||
const uint32_t pos_slot = get_pos_slot(distance);
|
const uint32_t dist_slot = get_dist_slot(distance);
|
||||||
const uint32_t len_to_pos_state = get_len_to_pos_state(len);
|
const uint32_t dist_state = get_dist_state(len);
|
||||||
rc_bittree(&coder->rc, coder->pos_slot[len_to_pos_state],
|
rc_bittree(&coder->rc, coder->dist_slot[dist_state],
|
||||||
POS_SLOT_BITS, pos_slot);
|
DIST_SLOT_BITS, dist_slot);
|
||||||
|
|
||||||
if (pos_slot >= START_POS_MODEL_INDEX) {
|
if (dist_slot >= DIST_MODEL_START) {
|
||||||
const uint32_t footer_bits = (pos_slot >> 1) - 1;
|
const uint32_t footer_bits = (dist_slot >> 1) - 1;
|
||||||
const uint32_t base = (2 | (pos_slot & 1)) << footer_bits;
|
const uint32_t base = (2 | (dist_slot & 1)) << footer_bits;
|
||||||
const uint32_t pos_reduced = distance - base;
|
const uint32_t dist_reduced = distance - base;
|
||||||
|
|
||||||
if (pos_slot < END_POS_MODEL_INDEX) {
|
if (dist_slot < DIST_MODEL_END) {
|
||||||
// Careful here: base - pos_slot - 1 can be -1, but
|
// Careful here: base - dist_slot - 1 can be -1, but
|
||||||
// rc_bittree_reverse starts at probs[1], not probs[0].
|
// rc_bittree_reverse starts at probs[1], not probs[0].
|
||||||
rc_bittree_reverse(&coder->rc,
|
rc_bittree_reverse(&coder->rc,
|
||||||
coder->pos_special + base - pos_slot - 1,
|
coder->dist_special + base - dist_slot - 1,
|
||||||
footer_bits, pos_reduced);
|
footer_bits, dist_reduced);
|
||||||
} else {
|
} else {
|
||||||
rc_direct(&coder->rc, pos_reduced >> ALIGN_BITS,
|
rc_direct(&coder->rc, dist_reduced >> ALIGN_BITS,
|
||||||
footer_bits - ALIGN_BITS);
|
footer_bits - ALIGN_BITS);
|
||||||
rc_bittree_reverse(
|
rc_bittree_reverse(
|
||||||
&coder->rc, coder->pos_align,
|
&coder->rc, coder->dist_align,
|
||||||
ALIGN_BITS, pos_reduced & ALIGN_MASK);
|
ALIGN_BITS, dist_reduced & ALIGN_MASK);
|
||||||
++coder->align_price_count;
|
++coder->align_price_count;
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
@ -247,7 +247,7 @@ encode_symbol(lzma_coder *coder, lzma_mf *mf,
|
||||||
rc_bit(&coder->rc,
|
rc_bit(&coder->rc,
|
||||||
&coder->is_match[coder->state][pos_state], 1);
|
&coder->is_match[coder->state][pos_state], 1);
|
||||||
|
|
||||||
if (back < REP_DISTANCES) {
|
if (back < REPS) {
|
||||||
// It's a repeated match i.e. the same distance
|
// It's a repeated match i.e. the same distance
|
||||||
// has been used earlier.
|
// has been used earlier.
|
||||||
rc_bit(&coder->rc, &coder->is_rep[coder->state], 1);
|
rc_bit(&coder->rc, &coder->is_rep[coder->state], 1);
|
||||||
|
@ -255,7 +255,7 @@ encode_symbol(lzma_coder *coder, lzma_mf *mf,
|
||||||
} else {
|
} else {
|
||||||
// Normal match
|
// Normal match
|
||||||
rc_bit(&coder->rc, &coder->is_rep[coder->state], 0);
|
rc_bit(&coder->rc, &coder->is_rep[coder->state], 0);
|
||||||
match(coder, pos_state, back - REP_DISTANCES, len);
|
match(coder, pos_state, back - REPS, len);
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
|
@ -353,9 +353,9 @@ lzma_lzma_encode(lzma_coder *restrict coder, lzma_mf *restrict mf,
|
||||||
|
|
||||||
// Get optimal match (repeat position and length).
|
// Get optimal match (repeat position and length).
|
||||||
// Value ranges for pos:
|
// Value ranges for pos:
|
||||||
// - [0, REP_DISTANCES): repeated match
|
// - [0, REPS): repeated match
|
||||||
// - [REP_DISTANCES, UINT32_MAX):
|
// - [REPS, UINT32_MAX):
|
||||||
// match at (pos - REP_DISTANCES)
|
// match at (pos - REPS)
|
||||||
// - UINT32_MAX: not a match but a literal
|
// - UINT32_MAX: not a match but a literal
|
||||||
// Value ranges for len:
|
// Value ranges for len:
|
||||||
// - [MATCH_LEN_MIN, MATCH_LEN_MAX]
|
// - [MATCH_LEN_MIN, MATCH_LEN_MAX]
|
||||||
|
@ -487,7 +487,7 @@ lzma_lzma_encoder_reset(lzma_coder *coder, const lzma_options_lzma *options)
|
||||||
|
|
||||||
// State
|
// State
|
||||||
coder->state = STATE_LIT_LIT;
|
coder->state = STATE_LIT_LIT;
|
||||||
for (size_t i = 0; i < REP_DISTANCES; ++i)
|
for (size_t i = 0; i < REPS; ++i)
|
||||||
coder->reps[i] = 0;
|
coder->reps[i] = 0;
|
||||||
|
|
||||||
literal_init(coder->literal, options->lc, options->lp);
|
literal_init(coder->literal, options->lc, options->lp);
|
||||||
|
@ -505,14 +505,14 @@ lzma_lzma_encoder_reset(lzma_coder *coder, const lzma_options_lzma *options)
|
||||||
bit_reset(coder->is_rep2[i]);
|
bit_reset(coder->is_rep2[i]);
|
||||||
}
|
}
|
||||||
|
|
||||||
for (size_t i = 0; i < FULL_DISTANCES - END_POS_MODEL_INDEX; ++i)
|
for (size_t i = 0; i < FULL_DISTANCES - DIST_MODEL_END; ++i)
|
||||||
bit_reset(coder->pos_special[i]);
|
bit_reset(coder->dist_special[i]);
|
||||||
|
|
||||||
// Bit tree encoders
|
// Bit tree encoders
|
||||||
for (size_t i = 0; i < LEN_TO_POS_STATES; ++i)
|
for (size_t i = 0; i < DIST_STATES; ++i)
|
||||||
bittree_reset(coder->pos_slot[i], POS_SLOT_BITS);
|
bittree_reset(coder->dist_slot[i], DIST_SLOT_BITS);
|
||||||
|
|
||||||
bittree_reset(coder->pos_align, ALIGN_BITS);
|
bittree_reset(coder->dist_align, ALIGN_BITS);
|
||||||
|
|
||||||
// Length encoders
|
// Length encoders
|
||||||
length_encoder_reset(&coder->match_len_encoder,
|
length_encoder_reset(&coder->match_len_encoder,
|
||||||
|
|
|
@ -46,7 +46,7 @@ lzma_lzma_optimum_fast(lzma_coder *restrict coder, lzma_mf *restrict mf,
|
||||||
uint32_t rep_len = 0;
|
uint32_t rep_len = 0;
|
||||||
uint32_t rep_index = 0;
|
uint32_t rep_index = 0;
|
||||||
|
|
||||||
for (uint32_t i = 0; i < REP_DISTANCES; ++i) {
|
for (uint32_t i = 0; i < REPS; ++i) {
|
||||||
// Pointer to the beginning of the match candidate
|
// Pointer to the beginning of the match candidate
|
||||||
const uint8_t *const buf_back = buf - coder->reps[i] - 1;
|
const uint8_t *const buf_back = buf - coder->reps[i] - 1;
|
||||||
|
|
||||||
|
@ -79,8 +79,7 @@ lzma_lzma_optimum_fast(lzma_coder *restrict coder, lzma_mf *restrict mf,
|
||||||
// We didn't find a long enough repeated match. Encode it as a normal
|
// We didn't find a long enough repeated match. Encode it as a normal
|
||||||
// match if the match length is at least nice_len.
|
// match if the match length is at least nice_len.
|
||||||
if (len_main >= nice_len) {
|
if (len_main >= nice_len) {
|
||||||
*back_res = coder->matches[matches_count - 1].dist
|
*back_res = coder->matches[matches_count - 1].dist + REPS;
|
||||||
+ REP_DISTANCES;
|
|
||||||
*len_res = len_main;
|
*len_res = len_main;
|
||||||
mf_skip(mf, len_main - 1);
|
mf_skip(mf, len_main - 1);
|
||||||
return;
|
return;
|
||||||
|
@ -155,7 +154,7 @@ lzma_lzma_optimum_fast(lzma_coder *restrict coder, lzma_mf *restrict mf,
|
||||||
|
|
||||||
const uint32_t limit = len_main - 1;
|
const uint32_t limit = len_main - 1;
|
||||||
|
|
||||||
for (uint32_t i = 0; i < REP_DISTANCES; ++i) {
|
for (uint32_t i = 0; i < REPS; ++i) {
|
||||||
const uint8_t *const buf_back = buf - coder->reps[i] - 1;
|
const uint8_t *const buf_back = buf - coder->reps[i] - 1;
|
||||||
|
|
||||||
if (not_equal_16(buf, buf_back))
|
if (not_equal_16(buf, buf_back))
|
||||||
|
@ -172,7 +171,7 @@ lzma_lzma_optimum_fast(lzma_coder *restrict coder, lzma_mf *restrict mf,
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
*back_res = back_main + REP_DISTANCES;
|
*back_res = back_main + REPS;
|
||||||
*len_res = len_main;
|
*len_res = len_main;
|
||||||
mf_skip(mf, len_main - 2);
|
mf_skip(mf, len_main - 2);
|
||||||
return;
|
return;
|
||||||
|
|
|
@ -108,18 +108,18 @@ get_rep_price(const lzma_coder *const coder, const uint32_t rep_index,
|
||||||
|
|
||||||
|
|
||||||
static inline uint32_t
|
static inline uint32_t
|
||||||
get_pos_len_price(const lzma_coder *const coder, const uint32_t pos,
|
get_dist_len_price(const lzma_coder *const coder, const uint32_t dist,
|
||||||
const uint32_t len, const uint32_t pos_state)
|
const uint32_t len, const uint32_t pos_state)
|
||||||
{
|
{
|
||||||
const uint32_t len_to_pos_state = get_len_to_pos_state(len);
|
const uint32_t dist_state = get_dist_state(len);
|
||||||
uint32_t price;
|
uint32_t price;
|
||||||
|
|
||||||
if (pos < FULL_DISTANCES) {
|
if (dist < FULL_DISTANCES) {
|
||||||
price = coder->distances_prices[len_to_pos_state][pos];
|
price = coder->dist_prices[dist_state][dist];
|
||||||
} else {
|
} else {
|
||||||
const uint32_t pos_slot = get_pos_slot_2(pos);
|
const uint32_t dist_slot = get_dist_slot_2(dist);
|
||||||
price = coder->pos_slot_prices[len_to_pos_state][pos_slot]
|
price = coder->dist_slot_prices[dist_state][dist_slot]
|
||||||
+ coder->align_prices[pos & ALIGN_MASK];
|
+ coder->align_prices[dist & ALIGN_MASK];
|
||||||
}
|
}
|
||||||
|
|
||||||
price += get_len_price(&coder->match_len_encoder, len, pos_state);
|
price += get_len_price(&coder->match_len_encoder, len, pos_state);
|
||||||
|
@ -129,55 +129,53 @@ get_pos_len_price(const lzma_coder *const coder, const uint32_t pos,
|
||||||
|
|
||||||
|
|
||||||
static void
|
static void
|
||||||
fill_distances_prices(lzma_coder *coder)
|
fill_dist_prices(lzma_coder *coder)
|
||||||
{
|
{
|
||||||
for (uint32_t len_to_pos_state = 0;
|
for (uint32_t dist_state = 0; dist_state < DIST_STATES; ++dist_state) {
|
||||||
len_to_pos_state < LEN_TO_POS_STATES;
|
|
||||||
++len_to_pos_state) {
|
|
||||||
|
|
||||||
uint32_t *const pos_slot_prices
|
uint32_t *const dist_slot_prices
|
||||||
= coder->pos_slot_prices[len_to_pos_state];
|
= coder->dist_slot_prices[dist_state];
|
||||||
|
|
||||||
// Price to encode the pos_slot.
|
// Price to encode the dist_slot.
|
||||||
for (uint32_t pos_slot = 0;
|
for (uint32_t dist_slot = 0;
|
||||||
pos_slot < coder->dist_table_size; ++pos_slot)
|
dist_slot < coder->dist_table_size; ++dist_slot)
|
||||||
pos_slot_prices[pos_slot] = rc_bittree_price(
|
dist_slot_prices[dist_slot] = rc_bittree_price(
|
||||||
coder->pos_slot[len_to_pos_state],
|
coder->dist_slot[dist_state],
|
||||||
POS_SLOT_BITS, pos_slot);
|
DIST_SLOT_BITS, dist_slot);
|
||||||
|
|
||||||
// For matches with distance >= FULL_DISTANCES, add the price
|
// For matches with distance >= FULL_DISTANCES, add the price
|
||||||
// of the direct bits part of the match distance. (Align bits
|
// of the direct bits part of the match distance. (Align bits
|
||||||
// are handled by fill_align_prices()).
|
// are handled by fill_align_prices()).
|
||||||
for (uint32_t pos_slot = END_POS_MODEL_INDEX;
|
for (uint32_t dist_slot = DIST_MODEL_END;
|
||||||
pos_slot < coder->dist_table_size; ++pos_slot)
|
dist_slot < coder->dist_table_size;
|
||||||
pos_slot_prices[pos_slot] += rc_direct_price(
|
++dist_slot)
|
||||||
((pos_slot >> 1) - 1) - ALIGN_BITS);
|
dist_slot_prices[dist_slot] += rc_direct_price(
|
||||||
|
((dist_slot >> 1) - 1) - ALIGN_BITS);
|
||||||
|
|
||||||
// Distances in the range [0, 3] are fully encoded with
|
// Distances in the range [0, 3] are fully encoded with
|
||||||
// pos_slot, so they are used for coder->distances_prices
|
// dist_slot, so they are used for coder->dist_prices
|
||||||
// as is.
|
// as is.
|
||||||
for (uint32_t i = 0; i < START_POS_MODEL_INDEX; ++i)
|
for (uint32_t i = 0; i < DIST_MODEL_START; ++i)
|
||||||
coder->distances_prices[len_to_pos_state][i]
|
coder->dist_prices[dist_state][i]
|
||||||
= pos_slot_prices[i];
|
= dist_slot_prices[i];
|
||||||
}
|
}
|
||||||
|
|
||||||
// Distances in the range [4, 127] depend on pos_slot and pos_special.
|
// Distances in the range [4, 127] depend on dist_slot and
|
||||||
// We do this in a loop separate from the above loop to avoid
|
// dist_special. We do this in a loop separate from the above
|
||||||
// redundant calls to get_pos_slot().
|
// loop to avoid redundant calls to get_dist_slot().
|
||||||
for (uint32_t i = START_POS_MODEL_INDEX; i < FULL_DISTANCES; ++i) {
|
for (uint32_t i = DIST_MODEL_START; i < FULL_DISTANCES; ++i) {
|
||||||
const uint32_t pos_slot = get_pos_slot(i);
|
const uint32_t dist_slot = get_dist_slot(i);
|
||||||
const uint32_t footer_bits = ((pos_slot >> 1) - 1);
|
const uint32_t footer_bits = ((dist_slot >> 1) - 1);
|
||||||
const uint32_t base = (2 | (pos_slot & 1)) << footer_bits;
|
const uint32_t base = (2 | (dist_slot & 1)) << footer_bits;
|
||||||
const uint32_t price = rc_bittree_reverse_price(
|
const uint32_t price = rc_bittree_reverse_price(
|
||||||
coder->pos_special + base - pos_slot - 1,
|
coder->dist_special + base - dist_slot - 1,
|
||||||
footer_bits, i - base);
|
footer_bits, i - base);
|
||||||
|
|
||||||
for (uint32_t len_to_pos_state = 0;
|
for (uint32_t dist_state = 0; dist_state < DIST_STATES;
|
||||||
len_to_pos_state < LEN_TO_POS_STATES;
|
++dist_state)
|
||||||
++len_to_pos_state)
|
coder->dist_prices[dist_state][i]
|
||||||
coder->distances_prices[len_to_pos_state][i]
|
= price + coder->dist_slot_prices[
|
||||||
= price + coder->pos_slot_prices[
|
dist_state][dist_slot];
|
||||||
len_to_pos_state][pos_slot];
|
|
||||||
}
|
}
|
||||||
|
|
||||||
coder->match_price_count = 0;
|
coder->match_price_count = 0;
|
||||||
|
@ -188,9 +186,9 @@ fill_distances_prices(lzma_coder *coder)
|
||||||
static void
|
static void
|
||||||
fill_align_prices(lzma_coder *coder)
|
fill_align_prices(lzma_coder *coder)
|
||||||
{
|
{
|
||||||
for (uint32_t i = 0; i < ALIGN_TABLE_SIZE; ++i)
|
for (uint32_t i = 0; i < ALIGN_SIZE; ++i)
|
||||||
coder->align_prices[i] = rc_bittree_reverse_price(
|
coder->align_prices[i] = rc_bittree_reverse_price(
|
||||||
coder->pos_align, ALIGN_BITS, i);
|
coder->dist_align, ALIGN_BITS, i);
|
||||||
|
|
||||||
coder->align_price_count = 0;
|
coder->align_price_count = 0;
|
||||||
return;
|
return;
|
||||||
|
@ -296,10 +294,10 @@ helper1(lzma_coder *restrict coder, lzma_mf *restrict mf,
|
||||||
|
|
||||||
const uint8_t *const buf = mf_ptr(mf) - 1;
|
const uint8_t *const buf = mf_ptr(mf) - 1;
|
||||||
|
|
||||||
uint32_t rep_lens[REP_DISTANCES];
|
uint32_t rep_lens[REPS];
|
||||||
uint32_t rep_max_index = 0;
|
uint32_t rep_max_index = 0;
|
||||||
|
|
||||||
for (uint32_t i = 0; i < REP_DISTANCES; ++i) {
|
for (uint32_t i = 0; i < REPS; ++i) {
|
||||||
const uint8_t *const buf_back = buf - coder->reps[i] - 1;
|
const uint8_t *const buf_back = buf - coder->reps[i] - 1;
|
||||||
|
|
||||||
if (not_equal_16(buf, buf_back)) {
|
if (not_equal_16(buf, buf_back)) {
|
||||||
|
@ -326,8 +324,7 @@ helper1(lzma_coder *restrict coder, lzma_mf *restrict mf,
|
||||||
|
|
||||||
|
|
||||||
if (len_main >= nice_len) {
|
if (len_main >= nice_len) {
|
||||||
*back_res = coder->matches[matches_count - 1].dist
|
*back_res = coder->matches[matches_count - 1].dist + REPS;
|
||||||
+ REP_DISTANCES;
|
|
||||||
*len_res = len_main;
|
*len_res = len_main;
|
||||||
mf_skip(mf, len_main - 1);
|
mf_skip(mf, len_main - 1);
|
||||||
return UINT32_MAX;
|
return UINT32_MAX;
|
||||||
|
@ -381,7 +378,7 @@ helper1(lzma_coder *restrict coder, lzma_mf *restrict mf,
|
||||||
|
|
||||||
coder->opts[1].pos_prev = 0;
|
coder->opts[1].pos_prev = 0;
|
||||||
|
|
||||||
for (uint32_t i = 0; i < REP_DISTANCES; ++i)
|
for (uint32_t i = 0; i < REPS; ++i)
|
||||||
coder->opts[0].backs[i] = coder->reps[i];
|
coder->opts[0].backs[i] = coder->reps[i];
|
||||||
|
|
||||||
uint32_t len = len_end;
|
uint32_t len = len_end;
|
||||||
|
@ -390,7 +387,7 @@ helper1(lzma_coder *restrict coder, lzma_mf *restrict mf,
|
||||||
} while (--len >= 2);
|
} while (--len >= 2);
|
||||||
|
|
||||||
|
|
||||||
for (uint32_t i = 0; i < REP_DISTANCES; ++i) {
|
for (uint32_t i = 0; i < REPS; ++i) {
|
||||||
uint32_t rep_len = rep_lens[i];
|
uint32_t rep_len = rep_lens[i];
|
||||||
if (rep_len < 2)
|
if (rep_len < 2)
|
||||||
continue;
|
continue;
|
||||||
|
@ -426,14 +423,13 @@ helper1(lzma_coder *restrict coder, lzma_mf *restrict mf,
|
||||||
for(; ; ++len) {
|
for(; ; ++len) {
|
||||||
const uint32_t dist = coder->matches[i].dist;
|
const uint32_t dist = coder->matches[i].dist;
|
||||||
const uint32_t cur_and_len_price = normal_match_price
|
const uint32_t cur_and_len_price = normal_match_price
|
||||||
+ get_pos_len_price(coder,
|
+ get_dist_len_price(coder,
|
||||||
dist, len, pos_state);
|
dist, len, pos_state);
|
||||||
|
|
||||||
if (cur_and_len_price < coder->opts[len].price) {
|
if (cur_and_len_price < coder->opts[len].price) {
|
||||||
coder->opts[len].price = cur_and_len_price;
|
coder->opts[len].price = cur_and_len_price;
|
||||||
coder->opts[len].pos_prev = 0;
|
coder->opts[len].pos_prev = 0;
|
||||||
coder->opts[len].back_prev
|
coder->opts[len].back_prev = dist + REPS;
|
||||||
= dist + REP_DISTANCES;
|
|
||||||
coder->opts[len].prev_1_is_literal = false;
|
coder->opts[len].prev_1_is_literal = false;
|
||||||
}
|
}
|
||||||
|
|
||||||
|
@ -463,7 +459,7 @@ helper2(lzma_coder *coder, uint32_t *reps, const uint8_t *buf,
|
||||||
if (coder->opts[cur].prev_2) {
|
if (coder->opts[cur].prev_2) {
|
||||||
state = coder->opts[coder->opts[cur].pos_prev_2].state;
|
state = coder->opts[coder->opts[cur].pos_prev_2].state;
|
||||||
|
|
||||||
if (coder->opts[cur].back_prev_2 < REP_DISTANCES)
|
if (coder->opts[cur].back_prev_2 < REPS)
|
||||||
update_long_rep(state);
|
update_long_rep(state);
|
||||||
else
|
else
|
||||||
update_match(state);
|
update_match(state);
|
||||||
|
@ -492,33 +488,33 @@ helper2(lzma_coder *coder, uint32_t *reps, const uint8_t *buf,
|
||||||
update_long_rep(state);
|
update_long_rep(state);
|
||||||
} else {
|
} else {
|
||||||
pos = coder->opts[cur].back_prev;
|
pos = coder->opts[cur].back_prev;
|
||||||
if (pos < REP_DISTANCES)
|
if (pos < REPS)
|
||||||
update_long_rep(state);
|
update_long_rep(state);
|
||||||
else
|
else
|
||||||
update_match(state);
|
update_match(state);
|
||||||
}
|
}
|
||||||
|
|
||||||
if (pos < REP_DISTANCES) {
|
if (pos < REPS) {
|
||||||
reps[0] = coder->opts[pos_prev].backs[pos];
|
reps[0] = coder->opts[pos_prev].backs[pos];
|
||||||
|
|
||||||
uint32_t i;
|
uint32_t i;
|
||||||
for (i = 1; i <= pos; ++i)
|
for (i = 1; i <= pos; ++i)
|
||||||
reps[i] = coder->opts[pos_prev].backs[i - 1];
|
reps[i] = coder->opts[pos_prev].backs[i - 1];
|
||||||
|
|
||||||
for (; i < REP_DISTANCES; ++i)
|
for (; i < REPS; ++i)
|
||||||
reps[i] = coder->opts[pos_prev].backs[i];
|
reps[i] = coder->opts[pos_prev].backs[i];
|
||||||
|
|
||||||
} else {
|
} else {
|
||||||
reps[0] = pos - REP_DISTANCES;
|
reps[0] = pos - REPS;
|
||||||
|
|
||||||
for (uint32_t i = 1; i < REP_DISTANCES; ++i)
|
for (uint32_t i = 1; i < REPS; ++i)
|
||||||
reps[i] = coder->opts[pos_prev].backs[i - 1];
|
reps[i] = coder->opts[pos_prev].backs[i - 1];
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
coder->opts[cur].state = state;
|
coder->opts[cur].state = state;
|
||||||
|
|
||||||
for (uint32_t i = 0; i < REP_DISTANCES; ++i)
|
for (uint32_t i = 0; i < REPS; ++i)
|
||||||
coder->opts[cur].backs[i] = reps[i];
|
coder->opts[cur].backs[i] = reps[i];
|
||||||
|
|
||||||
const uint32_t cur_price = coder->opts[cur].price;
|
const uint32_t cur_price = coder->opts[cur].price;
|
||||||
|
@ -611,7 +607,7 @@ helper2(lzma_coder *coder, uint32_t *reps, const uint8_t *buf,
|
||||||
|
|
||||||
uint32_t start_len = 2; // speed optimization
|
uint32_t start_len = 2; // speed optimization
|
||||||
|
|
||||||
for (uint32_t rep_index = 0; rep_index < REP_DISTANCES; ++rep_index) {
|
for (uint32_t rep_index = 0; rep_index < REPS; ++rep_index) {
|
||||||
const uint8_t *const buf_back = buf - reps[rep_index] - 1;
|
const uint8_t *const buf_back = buf - reps[rep_index] - 1;
|
||||||
if (not_equal_16(buf, buf_back))
|
if (not_equal_16(buf, buf_back))
|
||||||
continue;
|
continue;
|
||||||
|
@ -728,14 +724,14 @@ helper2(lzma_coder *coder, uint32_t *reps, const uint8_t *buf,
|
||||||
for (uint32_t len_test = start_len; ; ++len_test) {
|
for (uint32_t len_test = start_len; ; ++len_test) {
|
||||||
const uint32_t cur_back = coder->matches[i].dist;
|
const uint32_t cur_back = coder->matches[i].dist;
|
||||||
uint32_t cur_and_len_price = normal_match_price
|
uint32_t cur_and_len_price = normal_match_price
|
||||||
+ get_pos_len_price(coder,
|
+ get_dist_len_price(coder,
|
||||||
cur_back, len_test, pos_state);
|
cur_back, len_test, pos_state);
|
||||||
|
|
||||||
if (cur_and_len_price < coder->opts[cur + len_test].price) {
|
if (cur_and_len_price < coder->opts[cur + len_test].price) {
|
||||||
coder->opts[cur + len_test].price = cur_and_len_price;
|
coder->opts[cur + len_test].price = cur_and_len_price;
|
||||||
coder->opts[cur + len_test].pos_prev = cur;
|
coder->opts[cur + len_test].pos_prev = cur;
|
||||||
coder->opts[cur + len_test].back_prev
|
coder->opts[cur + len_test].back_prev
|
||||||
= cur_back + REP_DISTANCES;
|
= cur_back + REPS;
|
||||||
coder->opts[cur + len_test].prev_1_is_literal = false;
|
coder->opts[cur + len_test].prev_1_is_literal = false;
|
||||||
}
|
}
|
||||||
|
|
||||||
|
@ -795,7 +791,7 @@ helper2(lzma_coder *coder, uint32_t *reps, const uint8_t *buf,
|
||||||
coder->opts[offset].prev_2 = true;
|
coder->opts[offset].prev_2 = true;
|
||||||
coder->opts[offset].pos_prev_2 = cur;
|
coder->opts[offset].pos_prev_2 = cur;
|
||||||
coder->opts[offset].back_prev_2
|
coder->opts[offset].back_prev_2
|
||||||
= cur_back + REP_DISTANCES;
|
= cur_back + REPS;
|
||||||
}
|
}
|
||||||
//}
|
//}
|
||||||
}
|
}
|
||||||
|
@ -831,9 +827,9 @@ lzma_lzma_optimum_normal(lzma_coder *restrict coder, lzma_mf *restrict mf,
|
||||||
// In liblzma they were moved into this single place.
|
// In liblzma they were moved into this single place.
|
||||||
if (mf->read_ahead == 0) {
|
if (mf->read_ahead == 0) {
|
||||||
if (coder->match_price_count >= (1 << 7))
|
if (coder->match_price_count >= (1 << 7))
|
||||||
fill_distances_prices(coder);
|
fill_dist_prices(coder);
|
||||||
|
|
||||||
if (coder->align_price_count >= ALIGN_TABLE_SIZE)
|
if (coder->align_price_count >= ALIGN_SIZE)
|
||||||
fill_align_prices(coder);
|
fill_align_prices(coder);
|
||||||
}
|
}
|
||||||
|
|
||||||
|
@ -845,7 +841,7 @@ lzma_lzma_optimum_normal(lzma_coder *restrict coder, lzma_mf *restrict mf,
|
||||||
if (len_end == UINT32_MAX)
|
if (len_end == UINT32_MAX)
|
||||||
return;
|
return;
|
||||||
|
|
||||||
uint32_t reps[REP_DISTANCES];
|
uint32_t reps[REPS];
|
||||||
memcpy(reps, coder->reps, sizeof(reps));
|
memcpy(reps, coder->reps, sizeof(reps));
|
||||||
|
|
||||||
uint32_t cur;
|
uint32_t cur;
|
||||||
|
|
|
@ -64,7 +64,7 @@ typedef struct {
|
||||||
uint32_t pos_prev; // pos_next;
|
uint32_t pos_prev; // pos_next;
|
||||||
uint32_t back_prev;
|
uint32_t back_prev;
|
||||||
|
|
||||||
uint32_t backs[REP_DISTANCES];
|
uint32_t backs[REPS];
|
||||||
|
|
||||||
} lzma_optimal;
|
} lzma_optimal;
|
||||||
|
|
||||||
|
@ -77,7 +77,7 @@ struct lzma_coder_s {
|
||||||
lzma_lzma_state state;
|
lzma_lzma_state state;
|
||||||
|
|
||||||
/// The four most recent match distances
|
/// The four most recent match distances
|
||||||
uint32_t reps[REP_DISTANCES];
|
uint32_t reps[REPS];
|
||||||
|
|
||||||
/// Array of match candidates
|
/// Array of match candidates
|
||||||
lzma_match matches[MATCH_LEN_MAX + 1];
|
lzma_match matches[MATCH_LEN_MAX + 1];
|
||||||
|
@ -112,9 +112,9 @@ struct lzma_coder_s {
|
||||||
probability is_rep1[STATES];
|
probability is_rep1[STATES];
|
||||||
probability is_rep2[STATES];
|
probability is_rep2[STATES];
|
||||||
probability is_rep0_long[STATES][POS_STATES_MAX];
|
probability is_rep0_long[STATES][POS_STATES_MAX];
|
||||||
probability pos_slot[LEN_TO_POS_STATES][POS_SLOTS];
|
probability dist_slot[DIST_STATES][DIST_SLOTS];
|
||||||
probability pos_special[FULL_DISTANCES - END_POS_MODEL_INDEX];
|
probability dist_special[FULL_DISTANCES - DIST_MODEL_END];
|
||||||
probability pos_align[ALIGN_TABLE_SIZE];
|
probability dist_align[ALIGN_SIZE];
|
||||||
|
|
||||||
// These are the same as in lzma_decoder.c except that the encoders
|
// These are the same as in lzma_decoder.c except that the encoders
|
||||||
// include also price tables.
|
// include also price tables.
|
||||||
|
@ -122,12 +122,12 @@ struct lzma_coder_s {
|
||||||
lzma_length_encoder rep_len_encoder;
|
lzma_length_encoder rep_len_encoder;
|
||||||
|
|
||||||
// Price tables
|
// Price tables
|
||||||
uint32_t pos_slot_prices[LEN_TO_POS_STATES][POS_SLOTS];
|
uint32_t dist_slot_prices[DIST_STATES][DIST_SLOTS];
|
||||||
uint32_t distances_prices[LEN_TO_POS_STATES][FULL_DISTANCES];
|
uint32_t dist_prices[DIST_STATES][FULL_DISTANCES];
|
||||||
uint32_t dist_table_size;
|
uint32_t dist_table_size;
|
||||||
uint32_t match_price_count;
|
uint32_t match_price_count;
|
||||||
|
|
||||||
uint32_t align_prices[ALIGN_TABLE_SIZE];
|
uint32_t align_prices[ALIGN_SIZE];
|
||||||
uint32_t align_price_count;
|
uint32_t align_price_count;
|
||||||
|
|
||||||
// Optimal
|
// Optimal
|
||||||
|
|
Loading…
Reference in New Issue