/* * Copyright (C) 2009 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #ifndef PINYINIME_ANDPY_INCLUDE_MATRIXSEARCH_H__ #define PINYINIME_ANDPY_INCLUDE_MATRIXSEARCH_H__ #include #include "./atomdictbase.h" #include "./dicttrie.h" #include "./searchutility.h" #include "./spellingtrie.h" #include "./splparser.h" namespace ime_pinyin { static const unsigned kMaxRowNum = kMaxSearchSteps; typedef struct { // MileStoneHandle objects for the system and user dictionaries. MileStoneHandle dict_handles[2]; // From which DMI node. -1 means it's from root. PoolPosType dmi_fr; // The spelling id for the Pinyin string from the previous DMI to this node. // If it is a half id like Shengmu, the node pointed by dict_node is the first // node with this Shengmu, uint16 spl_id; // What's the level of the dict node. Level of root is 0, but root is never // recorded by dict_node. unsigned char dict_level : 7; // If this node is for composing phrase, this bit is 1. unsigned char c_phrase : 1; // Whether the spl_id is parsed with a split character at the end. unsigned char splid_end_split : 1; // What's the length of the spelling string for this match, for the whole // word. unsigned char splstr_len : 7; // Used to indicate whether all spelling ids from the root are full spelling // ids. This information is useful for keymapping mode(not finished). Because // in this mode, there is no clear boundaries, we prefer those results which // have full spelling ids. unsigned char all_full_id : 1; } DictMatchInfo, *PDictMatchInfo; typedef struct MatrixNode { LemmaIdType id; float score; MatrixNode* from; // From which DMI node. Used to trace the spelling segmentation. PoolPosType dmi_fr; uint16 step; } MatrixNode, *PMatrixNode; typedef struct { // The MatrixNode position in the matrix pool PoolPosType mtrx_nd_pos; // The DictMatchInfo position in the DictMatchInfo pool. PoolPosType dmi_pos; uint16 mtrx_nd_num; uint16 dmi_num : 15; // Used to indicate whether there are dmi nodes in this step with full // spelling id. This information is used to decide whether a substring of a // valid Pinyin should be extended. // // Example1: shoudao // When the last char 'o' is added, the parser will find "dao" is a valid // Pinyin, and because all dmi nodes at location 'd' (including those for // "shoud", and those for "d") have Shengmu id only, so it is not necessary // to extend "ao", otherwise the result may be "shoud ao", that is not // reasonable. // // Example2: hengao // When the last 'o' is added, the parser finds "gao" is a valid Pinyin. // Because some dmi nodes at 'g' has Shengmu ids (hen'g and g), but some dmi // nodes at 'g' has full ids ('heng'), so it is necessary to extend "ao", thus // "heng ao" can also be the result. // // Similarly, "ganga" is expanded to "gang a". // // For Pinyin string "xian", because "xian" is a valid Pinyin, because all dmi // nodes at 'x' only have Shengmu ids, the parser will not try "x ian" (and it // is not valid either). If the parser uses break in the loop, the result // always be "xian"; but if the parser uses continue in the loop, "xi an" will // also be tried. This behaviour can be set via the function // set_xi_an_switch(). uint16 dmi_has_full_id : 1; // Points to a MatrixNode of the current step to indicate which choice the // user selects. MatrixNode* mtrx_nd_fixed; } MatrixRow, *PMatrixRow; // When user inputs and selects candidates, the fixed lemma ids are stored in // lma_id_ of class MatrixSearch, and fixed_lmas_ is used to indicate how many // lemmas from the beginning are fixed. If user deletes Pinyin characters one // by one from the end, these fixed lemmas can be unlocked one by one when // necessary. Whenever user deletes a Chinese character and its spelling string // in these fixed lemmas, all fixed lemmas will be merged together into a unit // named ComposingPhrase with a lemma id kLemmaIdComposing, and this composing // phrase will be the first lemma in the sentence. Because it contains some // modified lemmas (by deleting a character), these merged lemmas are called // sub lemmas (sublma), and each of them are represented individually, so that // when user deletes Pinyin characters from the end, these sub lemmas can also // be unlocked one by one. typedef struct { uint16 spl_ids[kMaxRowNum]; uint16 spl_start[kMaxRowNum]; char16 chn_str[kMaxRowNum]; // Chinese string. uint16 sublma_start[kMaxRowNum]; // Counted in Chinese characters. unsigned sublma_num; uint16 length; // Counted in Chinese characters. } ComposingPhrase, *TComposingPhrase; class MatrixSearch { private: // If it is true, prediction list by string whose length is greater than 1 // will be limited to a reasonable number. static const bool kPredictLimitGt1 = false; // If it is true, the engine will prefer long history based prediction, // for example, when user inputs "BeiJing", we prefer "DaXue", etc., which are // based on the two-character history. static const bool kPreferLongHistoryPredict = true; // If it is true, prediction will only be based on user dictionary. this flag // is for debug purpose. static const bool kOnlyUserDictPredict = false; // The maximum buffer to store LmaPsbItems. static const unsigned kMaxLmaPsbItems = 1450; // How many rows for each step. static const unsigned kMaxNodeARow = 5; // The maximum length of the sentence candidates counted in chinese // characters static const unsigned kMaxSentenceLength = 16; // The size of the matrix node pool. static const unsigned kMtrxNdPoolSize = 200; // The size of the DMI node pool. static const unsigned kDmiPoolSize = 800; // Used to indicate whether this object has been initialized. bool inited_; // Spelling trie. const SpellingTrie* spl_trie_; // Used to indicate this switcher status: when "xian" is parseed, should // "xi an" also be extended. Default is false. // These cases include: xia, xian, xiang, zhuan, jiang..., etc. The string // should be valid for a FULL spelling, or a combination of two spellings, // first of which is a FULL id too. So even it is true, "da" will never be // split into "d a", because "d" is not a full spelling id. bool xi_an_enabled_; // System dictionary. DictTrie* dict_trie_; // Spelling parser. SpellingParser* spl_parser_; // The maximum allowed length of spelling string (such as a Pinyin string). unsigned max_sps_len_; // The maximum allowed length of a result Chinese string. unsigned max_hzs_len_; // Pinyin string. Max length: kMaxRowNum - 1 char pys_[kMaxRowNum]; // The length of the string that has been decoded successfully. unsigned pys_decoded_len_; // Shared buffer for multiple purposes. unsigned* share_buf_; MatrixNode* mtrx_nd_pool_; PoolPosType mtrx_nd_pool_used_; // How many nodes used in the pool DictMatchInfo* dmi_pool_; PoolPosType dmi_pool_used_; // How many items used in the pool MatrixRow* matrix_; // The first row is for starting DictExtPara* dep_; // Parameter used to extend DMI nodes. NPredictItem* npre_items_; // Used to do prediction unsigned npre_items_len_; // The starting positions and lemma ids for the full sentence candidate. unsigned lma_id_num_; uint16 lma_start_[kMaxRowNum]; // Counted in spelling ids. LemmaIdType lma_id_[kMaxRowNum]; unsigned fixed_lmas_; // If fixed_lmas_ is bigger than i, Element i is used to indicate whether // the i'th lemma id in lma_id_ is the first candidate for that step. // If all candidates are the first one for that step, the whole string can be // decoded by the engine automatically, so no need to add it to user // dictionary. (We are considering to add it to user dictionary in the // future). uint8 fixed_lmas_no1_[kMaxRowNum]; // Composing phrase ComposingPhrase c_phrase_; // If dmi_c_phrase_ is true, the decoder will try to match the // composing phrase (And definitely it will match successfully). If it // is false, the decoder will try to match lemmas items in dictionaries. bool dmi_c_phrase_; // The starting positions and spelling ids for the first full sentence // candidate. unsigned spl_id_num_; // Number of splling ids uint16 spl_start_[kMaxRowNum]; // Starting positions uint16 spl_id_[kMaxRowNum]; // Spelling ids // Used to remember the last fixed position, counted in Hanzi. unsigned fixed_hzs_; // Lemma Items with possibility score, two purposes: // 1. In Viterbi decoding, this buffer is used to get all possible candidates // for current step; // 2. When the search is done, this buffer is used to get candiates from the // first un-fixed step and show them to the user. LmaPsbItem lpi_items_[kMaxLmaPsbItems]; unsigned lpi_total_; // Assign the pointers with NULL. The caller makes sure that all pointers are // not valid before calling it. This function only will be called in the // construction function and free_resource(). void reset_pointers_to_null(); bool alloc_resource(); void free_resource(); // Reset the search space totally. bool reset_search0(); // Reset the search space from ch_pos step. For example, if the original // input Pinyin is "an", reset_search(1) will reset the search space to the // result of "a". If the given position is out of range, return false. // if clear_fixed_this_step is true, and the ch_pos step is a fixed step, // clear its fixed status. if clear_dmi_his_step is true, clear the DMI nodes. // If clear_mtrx_this_sTep is true, clear the mtrx nodes of this step. // The DMI nodes will be kept. // // Note: this function should not destroy content of pys_. bool reset_search(unsigned ch_pos, bool clear_fixed_this_step, bool clear_dmi_this_step, bool clear_mtrx_this_step); // Delete a part of the content in pys_. void del_in_pys(unsigned start, unsigned len); // Delete a spelling id and its corresponding Chinese character, and merge // the fixed lemmas into the composing phrase. // del_spl_pos indicates which spelling id needs to be delete. // This function will update the lemma and spelling segmentation information. // The caller guarantees that fixed_lmas_ > 0 and del_spl_pos is within // the fixed lemmas. void merge_fixed_lmas(unsigned del_spl_pos); // Get spelling start posistions and ids. The result will be stored in // spl_id_num_, spl_start_[], spl_id_[]. // fixed_hzs_ will be also assigned. void get_spl_start_id(); // Get all lemma ids with match the given spelling id stream(shorter than the // maximum length of a word). // If pfullsent is not NULL, means the full sentence candidate may be the // same with the coming lemma string, if so, remove that lemma. // The result is sorted in descendant order by the frequency score. unsigned get_lpis(const uint16* splid_str, unsigned splid_str_len, LmaPsbItem* lma_buf, unsigned max_lma_buf, const char16* pfullsent, bool sort_by_psb); uint16 get_lemma_str(LemmaIdType id_lemma, char16* str_buf, uint16 str_max); uint16 get_lemma_splids(LemmaIdType id_lemma, uint16* splids, uint16 splids_max, bool arg_valid); // Extend a DMI node with a spelling id. ext_len is the length of the rows // to extend, actually, it is the size of the spelling string of splid. // return value can be 1 or 0. // 1 means a new DMI is filled in (dmi_pool_used_ is the next blank DMI in // the pool). // 0 means either the dmi node can not be extended with splid, or the splid // is a Shengmu id, which is only used to get lpi_items, or the result node // in DictTrie has no son, it is not nccessary to keep the new DMI. // // This function modifies the content of lpi_items_ and lpi_total_. // lpi_items_ is used to get the LmaPsbItem list, lpi_total_ returns the size. // The function's returned value has no relation with the value of lpi_num. // // If dmi == NULL, this function will extend the root node of DictTrie // // This function will not change dmi_nd_pool_used_. Please change it after // calling this function if necessary. // // The caller should guarantees that NULL != dep. unsigned extend_dmi(DictExtPara* dep, DictMatchInfo* dmi_s); // Extend dmi for the composing phrase. unsigned extend_dmi_c(DictExtPara* dep, DictMatchInfo* dmi_s); // Extend a MatrixNode with the give LmaPsbItem list. // res_row is the destination row number. // This function does not change mtrx_nd_pool_used_. Please change it after // calling this function if necessary. // return 0 always. unsigned extend_mtrx_nd(MatrixNode* mtrx_nd, LmaPsbItem lpi_items[], unsigned lpi_num, PoolPosType dmi_fr, unsigned res_row); // Try to find a dmi node at step_to position, and the found dmi node should // match the given spelling id strings. PoolPosType match_dmi(unsigned step_to, uint16 spl_ids[], uint16 spl_id_num); bool add_char(char ch); bool prepare_add_char(char ch); // Called after prepare_add_char, so the input char has been saved. bool add_char_qwerty(); // Prepare candidates from the last fixed hanzi position. void prepare_candidates(); // Is the character in step pos a splitter character? // The caller guarantees that the position is valid. bool is_split_at(uint16 pos); void fill_dmi(DictMatchInfo* dmi, MileStoneHandle* handles, PoolPosType dmi_fr, uint16 spl_id, uint16 node_num, unsigned char dict_level, bool splid_end_split, unsigned char splstr_len, unsigned char all_full_id); unsigned inner_predict(const char16 fixed_scis_ids[], uint16 scis_num, char16 predict_buf[][kMaxPredictSize + 1], unsigned buf_len); // Add the first candidate to the user dictionary. bool try_add_cand0_to_userdict(); // Add a user lemma to the user dictionary. This lemma is a subset of // candidate 0. lma_from is from which lemma in lma_ids_, lma_num is the // number of lemmas to be combined together as a new lemma. The caller // gurantees that the combined new lemma's length is less or equal to // kMaxLemmaSize. bool add_lma_to_userdict(uint16 lma_from, uint16 lma_num, float score); // Update dictionary frequencies. void update_dict_freq(); void debug_print_dmi(PoolPosType dmi_pos, uint16 nest_level); public: MatrixSearch(); ~MatrixSearch(); bool init(const char* fn_sys_dict, const char* fn_usr_dict); bool init_fd(int sys_fd, long start_offset, long length, const char* fn_usr_dict); void set_max_lens(unsigned max_sps_len, unsigned max_hzs_len); void close(); void flush_cache(); void set_xi_an_switch(bool xi_an_enabled); bool get_xi_an_switch(); // Reset the search space. Equivalent to reset_search(0). // If inited, always return true; bool reset_search(); // Search a Pinyin string. // Return value is the position successfully parsed. unsigned search(const char* py, unsigned py_len); // Used to delete something in the Pinyin string kept by the engine, and do // a re-search. // Return value is the new length of Pinyin string kept by the engine which // is parsed successfully. // If is_pos_in_splid is false, pos is used to indicate that pos-th Pinyin // character needs to be deleted. If is_pos_in_splid is true, all Pinyin // characters for pos-th spelling id needs to be deleted. // If the deleted character(s) is just after a fixed lemma or sub lemma in // composing phrase, clear_fixed_this_step indicates whether we needs to // unlock the last fixed lemma or sub lemma. // If is_pos_in_splid is false, and pos-th character is in the range for the // fixed lemmas or composing string, this function will do nothing and just // return the result of the previous search. unsigned delsearch(unsigned pos, bool is_pos_in_splid, bool clear_fixed_this_step); // Get the number of candiates, called after search(). unsigned get_candidate_num(); // Get the Pinyin string stored by the engine. // *decoded_len returns the length of the successfully decoded string. const char* get_pystr(unsigned* decoded_len); // Get the spelling boundaries for the first sentence candidate. // Number of spellings will be returned. The number of valid elements in // spl_start is one more than the return value because the last one is used // to indicate the beginning of the next un-input speling. // For a Pinyin "women", the returned value is 2, spl_start is [0, 2, 5] . unsigned get_spl_start(const uint16*& spl_start); // Get one candiate string. If full sentence candidate is available, it will // be the first one. char16* get_candidate(unsigned cand_id, char16* cand_str, unsigned max_len); // Get the first candiate, which is a "full sentence". // retstr_len is not NULL, it will be used to return the string length. // If only_unfixed is true, only unfixed part will be fetched. char16* get_candidate0(char16* cand_str, unsigned max_len, uint16* retstr_len, bool only_unfixed); // Choose a candidate. The decoder will do a search after the fixed position. unsigned choose(unsigned cand_id); // Cancel the last choosing operation, and return the new number of choices. unsigned cancel_last_choice(); // Get the length of fixed Hanzis. unsigned get_fixedlen(); unsigned get_predicts(const char16 fixed_buf[], char16 predict_buf[][kMaxPredictSize + 1], unsigned buf_len); }; } // namespace ime_pinyin #endif // PINYINIME_ANDPY_INCLUDE_MATRIXSEARCH_H__