// File: lzham_match_accel.h // See Copyright Notice and license at the end of include/lzham.h #pragma once #include "lzham_lzbase.h" #include "lzham_threading.h" namespace lzham { const uint cMatchAccelMaxSupportedProbes = 128; struct node { uint m_left; uint m_right; }; LZHAM_DEFINE_BITWISE_MOVABLE(node); #pragma pack(push, 1) struct dict_match { uint m_dist; uint16 m_len; inline uint get_dist() const { return m_dist & 0x7FFFFFFF; } inline uint get_len() const { return m_len + 2; } inline bool is_last() const { return (int)m_dist < 0; } }; #pragma pack(pop) LZHAM_DEFINE_BITWISE_MOVABLE(dict_match); class search_accelerator { public: search_accelerator(); // If all_matches is true, the match finder returns all found matches with no filtering. // Otherwise, the finder will tend to return lists of matches with mostly unique lengths. // For each length, it will discard matches with worse distances (in the coding sense). bool init(CLZBase* pLZBase, task_pool* pPool, uint max_helper_threads, uint max_dict_size, uint max_matches, bool all_matches, uint max_probes); void reset(); void flush(); inline uint get_max_dict_size() const { return m_max_dict_size; } inline uint get_max_dict_size_mask() const { return m_max_dict_size_mask; } inline uint get_cur_dict_size() const { return m_cur_dict_size; } inline uint get_lookahead_pos() const { return m_lookahead_pos; } inline uint get_lookahead_size() const { return m_lookahead_size; } inline uint get_char(int delta_pos) const { return m_dict[(m_lookahead_pos + delta_pos) & m_max_dict_size_mask]; } inline uint get_char(uint cur_dict_pos, int delta_pos) const { return m_dict[(cur_dict_pos + delta_pos) & m_max_dict_size_mask]; } inline const uint8* get_ptr(uint pos) const { return &m_dict[pos]; } uint get_max_helper_threads() const { return m_max_helper_threads; } inline uint operator[](uint pos) const { return m_dict[pos]; } uint get_max_add_bytes() const; bool add_bytes_begin(uint num_bytes, const uint8* pBytes); inline atomic32_t get_num_completed_helper_threads() const { return m_num_completed_helper_threads; } void add_bytes_end(); // Returns the lookahead's raw position/size/dict_size at the time add_bytes_begin() is called. inline uint get_fill_lookahead_pos() const { return m_fill_lookahead_pos; } inline uint get_fill_lookahead_size() const { return m_fill_lookahead_size; } inline uint get_fill_dict_size() const { return m_fill_dict_size; } uint get_len2_match(uint lookahead_ofs); dict_match* find_matches(uint lookahead_ofs, bool spin = true); void advance_bytes(uint num_bytes); LZHAM_FORCE_INLINE uint get_match_len(uint lookahead_ofs, int dist, uint max_match_len, uint start_match_len = 0) const { LZHAM_ASSERT(lookahead_ofs < m_lookahead_size); LZHAM_ASSERT(start_match_len <= max_match_len); LZHAM_ASSERT(max_match_len <= (get_lookahead_size() - lookahead_ofs)); const int find_dict_size = m_cur_dict_size + lookahead_ofs; if (dist > find_dict_size) return 0; const uint comp_pos = static_cast((m_lookahead_pos + lookahead_ofs - dist) & m_max_dict_size_mask); const uint lookahead_pos = (m_lookahead_pos + lookahead_ofs) & m_max_dict_size_mask; const uint8* pComp = &m_dict[comp_pos]; const uint8* pLookahead = &m_dict[lookahead_pos]; uint match_len; for (match_len = start_match_len; match_len < max_match_len; match_len++) if (pComp[match_len] != pLookahead[match_len]) break; return match_len; } public: CLZBase* m_pLZBase; task_pool* m_pTask_pool; uint m_max_helper_threads; uint m_max_dict_size; uint m_max_dict_size_mask; uint m_lookahead_pos; uint m_lookahead_size; uint m_cur_dict_size; lzham::vector m_dict; enum { cHashSize = 65536 }; lzham::vector m_hash; lzham::vector m_nodes; lzham::vector m_matches; lzham::vector m_match_refs; lzham::vector m_hash_thread_index; enum { cDigramHashSize = 4096 }; lzham::vector m_digram_hash; lzham::vector m_digram_next; uint m_fill_lookahead_pos; uint m_fill_lookahead_size; uint m_fill_dict_size; uint m_max_probes; uint m_max_matches; bool m_all_matches; volatile atomic32_t m_next_match_ref; volatile atomic32_t m_num_completed_helper_threads; void find_all_matches_callback(uint64 data, void* pData_ptr); bool find_all_matches(uint num_bytes); bool find_len2_matches(); }; } // namespace lzham