/* vi:set ts=8 sts=4 sw=4: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. * See README.txt for an overview of the Vim source code. */ /* * spell.c: code for spell checking * * The spell checking mechanism uses a tree (aka trie). Each node in the tree * has a list of bytes that can appear (siblings). For each byte there is a * pointer to the node with the byte that follows in the word (child). * * A NUL byte is used where the word may end. The bytes are sorted, so that * binary searching can be used and the NUL bytes are at the start. The * number of possible bytes is stored before the list of bytes. * * The tree uses two arrays: "byts" stores the characters, "idxs" stores * either the next index or flags. The tree starts at index 0. For example, * to lookup "vi" this sequence is followed: * i = 0 * len = byts[i] * n = where "v" appears in byts[i + 1] to byts[i + len] * i = idxs[n] * len = byts[i] * n = where "i" appears in byts[i + 1] to byts[i + len] * i = idxs[n] * len = byts[i] * find that byts[i + 1] is 0, idxs[i + 1] has flags for "vi". * * There are two word trees: one with case-folded words and one with words in * original case. The second one is only used for keep-case words and is * usually small. * * There is one additional tree for when prefixes are not applied when * generating the .spl file. This tree stores all the possible prefixes, as * if they were words. At each word (prefix) end the prefix nr is stored, the * following word must support this prefix nr. And the condition nr is * stored, used to lookup the condition that the word must match with. * * Thanks to Olaf Seibert for providing an example implementation of this tree * and the compression mechanism. * * Matching involves checking the caps type: Onecap ALLCAP KeepCap. * * Why doesn't Vim use aspell/ispell/myspell/etc.? * See ":help develop-spell". */ /* * Use this to adjust the score after finding suggestions, based on the * suggested word sounding like the bad word. This is much faster than doing * it for every possible suggestion. * Disadvantage: When "the" is typed as "hte" it sounds different and goes * down in the list. * Used when 'spellsuggest' is set to "best". */ #define RESCORE(word_score, sound_score) ((3 * word_score + sound_score) / 4) /* * The double scoring mechanism is based on the principle that there are two * kinds of spelling mistakes: * 1. You know how to spell the word, but mistype something. This results in * a small editing distance (character swapped/omitted/inserted) and * possibly a word that sounds completely different. * 2. You don't know how to spell the word and type something that sounds * right. The edit distance can be big but the word is similar after * sound-folding. * Since scores for these two mistakes will be very different we use a list * for each. * The sound-folding is slow, only do double scoring when 'spellsuggest' is * "double". */ /* * Vim spell file format:

* * * * * *

: * ... * * * * ... * * 10 bytes "VIMspell08" * 1 byte number of regions following (8 supported) * 2 bytes Region name: ca, au, etc. Lower case. * First is region 1. * * 1 byte Number of bytes in (should be 128). * N bytes List of flags (first one is for character 128): * 0x01 word character CF_WORD * 0x02 upper-case character CF_UPPER * 2 bytes Number of bytes in . * N bytes Folded characters, first one is for character 128. * * 2 bytes Number of bytes in . * N bytes Characters that are word characters only when used * in the middle of a word. * * 2 bytes Number of items following. * * : * * 1 byte Length of . * * N bytes Condition for the prefix. * * * : ... * ... * * * 2 bytes number of items, MSB first. * * : * * 1 byte length of * * N bytes "from" part of replacement * * 1 byte length of * * N bytes "to" part of replacement * * 1 byte flags for soundsalike conversion: * SAL_F0LLOWUP * SAL_COLLAPSE * SAL_REM_ACCENTS * SAL_SOFO: SOFOFROM and SOFOTO used instead of SAL * * 2 bytes number of items following * * : * * 1-2 bytes length of (2 bytes for SAL_SOFO) * * N bytes "from" part of soundsalike * * 1-2 bytes length of (2 bytes for SAL_SOFO) * * N bytes "to" part of soundsalike * * 2 bytes length of , MSB first * * N bytes String with sequences of similar characters, * separated by slashes. * * * : * * : * * : * * * : ... * * 4 bytes Number of nodes following. MSB first. * * : ... * * 1 byte Number of siblings in this node. The siblings * follow in sorted order. * * : [ * | [] [] * | ] * * 1 byte Byte value of the sibling. Special cases: * BY_NOFLAGS: End of word without flags and for all * regions. * For PREFIXTREE and * follow. * BY_FLAGS: End of word, follow. * For PREFIXTREE and * follow for rare prefix. * BY_FLAGS2: End of word, and * follow. Not used in PREFIXTREE. * BY_PFX_NC: For PREFIXTREE and * follow for non-combining * prefix. * BY_PFX_RNC: For PREFIXTREE and * follow for non-combining * rare prefix. * BY_INDEX: Child of sibling is shared, * and follow. * * 3 bytes Index of child for this sibling, MSB first. * * 1 byte byte value of the sibling. * * 1 byte bitmask of: * WF_ALLCAP word must have only capitals * WF_ONECAP first char of word must be capital * WF_KEEPCAP keep-case word * WF_FIXCAP keep-case word, all caps not allowed * WF_RARE rare word * WF_BANNED bad word * WF_REGION follows * WF_PFX follows * * 1 byte Only used when there are postponed prefixes. * Bitmask of: * WF_HAS_AFF >> 8 word includes affix * * 1 byte Bitmask for regions in which word is valid. When * omitted it's valid in all regions. * Lowest bit is for region 1. * * 1 byte ID of prefix that can be used with this word. For * PREFIXTREE used for the required prefix ID. * * 2 bytes Prefix condition number, index in list * from HEADER. * * All text characters are in 'encoding', but stored as single bytes. */ #if defined(MSDOS) || defined(WIN16) || defined(WIN32) || defined(_WIN64) # include /* for lseek(), must be before vim.h */ #endif #include "vim.h" #if defined(FEAT_SYN_HL) || defined(PROTO) #ifdef HAVE_FCNTL_H # include #endif #define MAXWLEN 250 /* Assume max. word len is this many bytes. Some places assume a word length fits in a byte, thus it can't be above 255. */ /* Type used for indexes in the word tree need to be at least 3 bytes. If int * is 8 bytes we could use something smaller, but what? */ #if SIZEOF_INT > 2 typedef int idx_T; #else typedef long idx_T; #endif /* Flags used for a word. Only the lowest byte can be used, the region byte * comes above it. */ #define WF_REGION 0x01 /* region byte follows */ #define WF_ONECAP 0x02 /* word with one capital (or all capitals) */ #define WF_ALLCAP 0x04 /* word must be all capitals */ #define WF_RARE 0x08 /* rare word */ #define WF_BANNED 0x10 /* bad word */ #define WF_PFX 0x20 /* prefix ID follows */ #define WF_FIXCAP 0x40 /* keep-case word, allcap not allowed */ #define WF_KEEPCAP 0x80 /* keep-case word */ /* for , shifted up one byte to be used in wn_flags */ #define WF_HAS_AFF 0x0100 /* word includes affix */ #define WF_CAPMASK (WF_ONECAP | WF_ALLCAP | WF_KEEPCAP | WF_FIXCAP) /* flags for postponed prefixes. Must be above prefixID (one byte) * and prefcondnr (two bytes). */ #define WF_RAREPFX 0x1000000 /* in sl_pidxs: flag for rare postponed * prefix */ #define WF_PFX_NC 0x2000000 /* in sl_pidxs: flag for non-combining * postponed prefix */ /* Special byte values for . Some are only used in the tree for * postponed prefixes, some only in the other trees. This is a bit messy... */ #define BY_NOFLAGS 0 /* end of word without flags or region; for * postponed prefix: not rare, combining */ #define BY_FLAGS 1 /* end of word, flags byte follows; for * postponed prefix: rare, combining */ #define BY_INDEX 2 /* child is shared, index follows */ #define BY_FLAGS2 3 /* end of word, two flags bytes follow; never * used in prefix tree */ #define BY_PFX_NC 3 /* postponed prefix: not rare, not combining */ #define BY_PFX_RNC 4 /* postponed prefix: rare, not combining */ #define BY_SPECIAL BY_PFX_RNC /* highest special byte value */ /* Info from "REP" and "SAL" entries in ".aff" file used in si_rep, sl_rep, * and si_sal. Not for sl_sal! * One replacement: from "ft_from" to "ft_to". */ typedef struct fromto_S { char_u *ft_from; char_u *ft_to; } fromto_T; /* Info from "SAL" entries in ".aff" file used in sl_sal. * The info is split for quick processing by spell_soundfold(). * Note that "sm_oneof" and "sm_rules" point into sm_lead. */ typedef struct salitem_S { char_u *sm_lead; /* leading letters */ int sm_leadlen; /* length of "sm_lead" */ char_u *sm_oneof; /* letters from () or NULL */ char_u *sm_rules; /* rules like ^, $, priority */ char_u *sm_to; /* replacement. */ #ifdef FEAT_MBYTE int *sm_lead_w; /* wide character copy of "sm_lead" */ int *sm_oneof_w; /* wide character copy of "sm_oneof" */ int *sm_to_w; /* wide character copy of "sm_to" */ #endif } salitem_T; #ifdef FEAT_MBYTE typedef int salfirst_T; #else typedef short salfirst_T; #endif /* * Structure used to store words and other info for one language, loaded from * a .spl file. * The main access is through the tree in "sl_fbyts/sl_fidxs", storing the * case-folded words. "sl_kbyts/sl_kidxs" is for keep-case words. * * The "byts" array stores the possible bytes in each tree node, preceded by * the number of possible bytes, sorted on byte value: * ... * The "idxs" array stores the index of the child node corresponding to the * byte in "byts". * Exception: when the byte is zero, the word may end here and "idxs" holds * the flags, region mask and prefixID for the word. There may be several * zeros in sequence for alternative flag/region combinations. */ typedef struct slang_S slang_T; struct slang_S { slang_T *sl_next; /* next language */ char_u *sl_name; /* language name "en", "en.rare", "nl", etc. */ char_u *sl_fname; /* name of .spl file */ int sl_add; /* TRUE if it's a .add file. */ char_u *sl_fbyts; /* case-folded word bytes */ idx_T *sl_fidxs; /* case-folded word indexes */ char_u *sl_kbyts; /* keep-case word bytes */ idx_T *sl_kidxs; /* keep-case word indexes */ char_u *sl_pbyts; /* prefix tree word bytes */ idx_T *sl_pidxs; /* prefix tree word indexes */ char_u sl_regions[17]; /* table with up to 8 region names plus NUL */ char_u *sl_midword; /* MIDWORD string or NULL */ int sl_prefixcnt; /* number of items in "sl_prefprog" */ regprog_T **sl_prefprog; /* table with regprogs for prefixes */ garray_T sl_rep; /* list of fromto_T entries from REP lines */ short sl_rep_first[256]; /* indexes where byte first appears, -1 if there is none */ garray_T sl_sal; /* list of salitem_T entries from SAL lines */ salfirst_T sl_sal_first[256]; /* indexes where byte first appears, -1 if there is none */ int sl_sofo; /* SOFOFROM and SOFOTO instead of SAL items: * "sl_sal_first" maps chars, when has_mbyte * "sl_sal" is a list of wide char lists. */ int sl_followup; /* SAL followup */ int sl_collapse; /* SAL collapse_result */ int sl_rem_accents; /* SAL remove_accents */ int sl_has_map; /* TRUE if there is a MAP line */ #ifdef FEAT_MBYTE hashtab_T sl_map_hash; /* MAP for multi-byte chars */ int sl_map_array[256]; /* MAP for first 256 chars */ #else char_u sl_map_array[256]; /* MAP for first 256 chars */ #endif }; /* First language that is loaded, start of the linked list of loaded * languages. */ static slang_T *first_lang = NULL; /* Flags used in .spl file for soundsalike flags. */ #define SAL_F0LLOWUP 1 #define SAL_COLLAPSE 2 #define SAL_REM_ACCENTS 4 #define SAL_SOFO 8 /* SOFOFROM and SOFOTO instead of SAL */ /* * Structure used in "b_langp", filled from 'spelllang'. */ typedef struct langp_S { slang_T *lp_slang; /* info for this language (NULL for last one) */ int lp_region; /* bitmask for region or REGION_ALL */ } langp_T; #define LANGP_ENTRY(ga, i) (((langp_T *)(ga).ga_data) + (i)) #define REGION_ALL 0xff /* word valid in all regions */ /* Result values. Lower number is accepted over higher one. */ #define SP_BANNED -1 #define SP_OK 0 #define SP_RARE 1 #define SP_LOCAL 2 #define SP_BAD 3 #define VIMSPELLMAGIC "VIMspell08" /* string at start of Vim spell file */ #define VIMSPELLMAGICL 10 /* file used for "zG" and "zW" */ static char_u *int_wordlist = NULL; /* * Information used when looking for suggestions. */ typedef struct suginfo_S { garray_T su_ga; /* suggestions, contains "suggest_T" */ int su_maxcount; /* max. number of suggestions displayed */ int su_maxscore; /* maximum score for adding to su_ga */ garray_T su_sga; /* like su_ga, sound-folded scoring */ char_u *su_badptr; /* start of bad word in line */ int su_badlen; /* length of detected bad word in line */ int su_badflags; /* caps flags for bad word */ char_u su_badword[MAXWLEN]; /* bad word truncated at su_badlen */ char_u su_fbadword[MAXWLEN]; /* su_badword case-folded */ hashtab_T su_banned; /* table with banned words */ } suginfo_T; /* One word suggestion. Used in "si_ga". */ typedef struct suggest_S { char_u *st_word; /* suggested word, allocated string */ int st_orglen; /* length of replaced text */ int st_score; /* lower is better */ int st_altscore; /* used when st_score compares equal */ int st_salscore; /* st_score is for soundalike */ int st_had_bonus; /* bonus already included in score */ } suggest_T; #define SUG(ga, i) (((suggest_T *)(ga).ga_data)[i]) /* Number of suggestions kept when cleaning up. When rescore_suggestions() is * called the score may change, thus we need to keep more than what is * displayed. */ #define SUG_CLEAN_COUNT(su) ((su)->su_maxcount < 50 ? 50 : (su)->su_maxcount) /* Threshold for sorting and cleaning up suggestions. Don't want to keep lots * of suggestions that are not going to be displayed. */ #define SUG_MAX_COUNT(su) ((su)->su_maxcount + 50) /* score for various changes */ #define SCORE_SPLIT 149 /* split bad word */ #define SCORE_ICASE 52 /* slightly different case */ #define SCORE_REGION 70 /* word is for different region */ #define SCORE_RARE 180 /* rare word */ #define SCORE_SWAP 90 /* swap two characters */ #define SCORE_SWAP3 110 /* swap two characters in three */ #define SCORE_REP 87 /* REP replacement */ #define SCORE_SUBST 93 /* substitute a character */ #define SCORE_SIMILAR 33 /* substitute a similar character */ #define SCORE_DEL 94 /* delete a character */ #define SCORE_DELDUP 64 /* delete a duplicated character */ #define SCORE_INS 96 /* insert a character */ #define SCORE_INSDUP 66 /* insert a duplicate character */ #define SCORE_NONWORD 103 /* change non-word to word char */ #define SCORE_FILE 30 /* suggestion from a file */ #define SCORE_MAXINIT 350 /* Initial maximum score: higher == slower. * 350 allows for about three changes. */ #define SCORE_BIG SCORE_INS * 3 /* big difference */ #define SCORE_MAXMAX 999999 /* accept any score */ /* * Structure to store info for word matching. */ typedef struct matchinf_S { langp_T *mi_lp; /* info for language and region */ /* pointers to original text to be checked */ char_u *mi_word; /* start of word being checked */ char_u *mi_end; /* end of matching word so far */ char_u *mi_fend; /* next char to be added to mi_fword */ char_u *mi_cend; /* char after what was used for mi_capflags */ /* case-folded text */ char_u mi_fword[MAXWLEN + 1]; /* mi_word case-folded */ int mi_fwordlen; /* nr of valid bytes in mi_fword */ /* for when checking word after a prefix */ int mi_prefarridx; /* index in sl_pidxs with list of prefixID/condition */ int mi_prefcnt; /* number of entries at mi_prefarridx */ int mi_prefixlen; /* byte length of prefix */ /* others */ int mi_result; /* result so far: SP_BAD, SP_OK, etc. */ int mi_capflags; /* WF_ONECAP WF_ALLCAP WF_KEEPCAP */ buf_T *mi_buf; /* buffer being checked */ } matchinf_T; /* * The tables used for recognizing word characters according to spelling. * These are only used for the first 256 characters of 'encoding'. */ typedef struct spelltab_S { char_u st_isw[256]; /* flags: is word char */ char_u st_isu[256]; /* flags: is uppercase char */ char_u st_fold[256]; /* chars: folded case */ char_u st_upper[256]; /* chars: upper case */ } spelltab_T; static spelltab_T spelltab; static int did_set_spelltab; #define CF_WORD 0x01 #define CF_UPPER 0x02 static void clear_spell_chartab __ARGS((spelltab_T *sp)); static int set_spell_finish __ARGS((spelltab_T *new_st)); static int spell_iswordp __ARGS((char_u *p, buf_T *buf)); static int spell_iswordp_nmw __ARGS((char_u *p)); #ifdef FEAT_MBYTE static int spell_iswordp_w __ARGS((int *p, buf_T *buf)); #endif static void write_spell_prefcond __ARGS((FILE *fd, garray_T *gap)); /* * For finding suggestions: At each node in the tree these states are tried: */ typedef enum { STATE_START = 0, /* At start of node check for NUL bytes (goodword * ends); if badword ends there is a match, otherwise * try splitting word. */ STATE_NOPREFIX, /* try without prefix */ STATE_SPLITUNDO, /* Undo splitting. */ STATE_ENDNUL, /* Past NUL bytes at start of the node. */ STATE_PLAIN, /* Use each byte of the node. */ STATE_DEL, /* Delete a byte from the bad word. */ STATE_INS, /* Insert a byte in the bad word. */ STATE_SWAP, /* Swap two bytes. */ STATE_UNSWAP, /* Undo swap two characters. */ STATE_SWAP3, /* Swap two characters over three. */ STATE_UNSWAP3, /* Undo Swap two characters over three. */ STATE_UNROT3L, /* Undo rotate three characters left */ STATE_UNROT3R, /* Undo rotate three characters right */ STATE_REP_INI, /* Prepare for using REP items. */ STATE_REP, /* Use matching REP items from the .aff file. */ STATE_REP_UNDO, /* Undo a REP item replacement. */ STATE_FINAL /* End of this node. */ } state_T; /* * Struct to keep the state at each level in suggest_try_change(). */ typedef struct trystate_S { state_T ts_state; /* state at this level, STATE_ */ int ts_score; /* score */ idx_T ts_arridx; /* index in tree array, start of node */ short ts_curi; /* index in list of child nodes */ char_u ts_fidx; /* index in fword[], case-folded bad word */ char_u ts_fidxtry; /* ts_fidx at which bytes may be changed */ char_u ts_twordlen; /* valid length of tword[] */ char_u ts_prefixdepth; /* stack depth for end of prefix or PREFIXTREE * or NOPREFIX */ #ifdef FEAT_MBYTE char_u ts_tcharlen; /* number of bytes in tword character */ char_u ts_tcharidx; /* current byte index in tword character */ char_u ts_isdiff; /* DIFF_ values */ char_u ts_fcharstart; /* index in fword where badword char started */ #endif char_u ts_save_prewordlen; /* saved "prewordlen" */ char_u ts_save_splitoff; /* su_splitoff saved here */ char_u ts_save_badflags; /* su_badflags saved here */ } trystate_T; /* values for ts_isdiff */ #define DIFF_NONE 0 /* no different byte (yet) */ #define DIFF_YES 1 /* different byte found */ #define DIFF_INSERT 2 /* inserting character */ /* special values ts_prefixdepth */ #define PREFIXTREE 0xfe /* walking through the prefix tree */ #define NOPREFIX 0xff /* not using prefixes */ /* mode values for find_word */ #define FIND_FOLDWORD 0 /* find word case-folded */ #define FIND_KEEPWORD 1 /* find keep-case word */ #define FIND_PREFIX 2 /* find word after prefix */ static slang_T *slang_alloc __ARGS((char_u *lang)); static void slang_free __ARGS((slang_T *lp)); static void slang_clear __ARGS((slang_T *lp)); static void find_word __ARGS((matchinf_T *mip, int mode)); static int valid_word_prefix __ARGS((int totprefcnt, int arridx, int flags, char_u *word, slang_T *slang)); static void find_prefix __ARGS((matchinf_T *mip)); static int fold_more __ARGS((matchinf_T *mip)); static int spell_valid_case __ARGS((int wordflags, int treeflags)); static int no_spell_checking __ARGS((void)); static void spell_load_lang __ARGS((char_u *lang)); static char_u *spell_enc __ARGS((void)); static void int_wordlist_spl __ARGS((char_u *fname)); static void spell_load_cb __ARGS((char_u *fname, void *cookie)); static slang_T *spell_load_file __ARGS((char_u *fname, char_u *lang, slang_T *old_lp, int silent)); static char_u *read_cnt_string __ARGS((FILE *fd, int cnt_bytes, int *lenp)); static int set_sofo __ARGS((slang_T *lp, char_u *from, char_u *to)); static void set_sal_first __ARGS((slang_T *lp)); #ifdef FEAT_MBYTE static int *mb_str2wide __ARGS((char_u *s)); #endif static idx_T read_tree __ARGS((FILE *fd, char_u *byts, idx_T *idxs, int maxidx, int startidx, int prefixtree, int maxprefcondnr)); static void clear_midword __ARGS((buf_T *buf)); static void use_midword __ARGS((slang_T *lp, buf_T *buf)); static int find_region __ARGS((char_u *rp, char_u *region)); static int captype __ARGS((char_u *word, char_u *end)); static void spell_reload_one __ARGS((char_u *fname, int added_word)); static int set_spell_charflags __ARGS((char_u *flags, int cnt, char_u *upp)); static int set_spell_chartab __ARGS((char_u *fol, char_u *low, char_u *upp)); static void write_spell_chartab __ARGS((FILE *fd)); static int spell_casefold __ARGS((char_u *p, int len, char_u *buf, int buflen)); static void spell_find_suggest __ARGS((char_u *badptr, suginfo_T *su, int maxcount, int banbadword, int need_cap)); #ifdef FEAT_EVAL static void spell_suggest_expr __ARGS((suginfo_T *su, char_u *expr)); #endif static void spell_suggest_file __ARGS((suginfo_T *su, char_u *fname)); static void spell_suggest_intern __ARGS((suginfo_T *su)); static void spell_find_cleanup __ARGS((suginfo_T *su)); static void onecap_copy __ARGS((char_u *word, char_u *wcopy, int upper)); static void allcap_copy __ARGS((char_u *word, char_u *wcopy)); static void suggest_try_special __ARGS((suginfo_T *su)); static void suggest_try_change __ARGS((suginfo_T *su)); static int try_deeper __ARGS((suginfo_T *su, trystate_T *stack, int depth, int score_add)); static void find_keepcap_word __ARGS((slang_T *slang, char_u *fword, char_u *kword)); static void score_comp_sal __ARGS((suginfo_T *su)); static void score_combine __ARGS((suginfo_T *su)); static int stp_sal_score __ARGS((suggest_T *stp, suginfo_T *su, slang_T *slang, char_u *badsound)); static void suggest_try_soundalike __ARGS((suginfo_T *su)); static void make_case_word __ARGS((char_u *fword, char_u *cword, int flags)); static void set_map_str __ARGS((slang_T *lp, char_u *map)); static int similar_chars __ARGS((slang_T *slang, int c1, int c2)); static void add_suggestion __ARGS((suginfo_T *su, garray_T *gap, char_u *goodword, int badlen, int score, int altscore, int had_bonus)); static void add_banned __ARGS((suginfo_T *su, char_u *word)); static int was_banned __ARGS((suginfo_T *su, char_u *word)); static void free_banned __ARGS((suginfo_T *su)); static void rescore_suggestions __ARGS((suginfo_T *su)); static int cleanup_suggestions __ARGS((garray_T *gap, int maxscore, int keep)); static void spell_soundfold __ARGS((slang_T *slang, char_u *inword, int folded, char_u *res)); static void spell_soundfold_sofo __ARGS((slang_T *slang, char_u *inword, char_u *res)); static void spell_soundfold_sal __ARGS((slang_T *slang, char_u *inword, char_u *res)); #ifdef FEAT_MBYTE static void spell_soundfold_wsal __ARGS((slang_T *slang, char_u *inword, char_u *res)); #endif static int soundalike_score __ARGS((char_u *goodsound, char_u *badsound)); static int spell_edit_score __ARGS((char_u *badword, char_u *goodword)); static void dump_word __ARGS((char_u *word, int round, int flags, linenr_T lnum)); static linenr_T apply_prefixes __ARGS((slang_T *slang, char_u *word, int round, int flags, linenr_T startlnum)); /* * Use our own character-case definitions, because the current locale may * differ from what the .spl file uses. * These must not be called with negative number! */ #ifndef FEAT_MBYTE /* Non-multi-byte implementation. */ # define SPELL_TOFOLD(c) ((c) < 256 ? spelltab.st_fold[c] : (c)) # define SPELL_TOUPPER(c) ((c) < 256 ? spelltab.st_upper[c] : (c)) # define SPELL_ISUPPER(c) ((c) < 256 ? spelltab.st_isu[c] : FALSE) #else /* Multi-byte implementation. For Unicode we can call utf_*(), but don't do * that for ASCII, because we don't want to use 'casemap' here. Otherwise use * the "w" library function for characters above 255 if available. */ # ifdef HAVE_TOWLOWER # define SPELL_TOFOLD(c) (enc_utf8 && (c) >= 128 ? utf_fold(c) \ : (c) < 256 ? spelltab.st_fold[c] : towlower(c)) # else # define SPELL_TOFOLD(c) (enc_utf8 && (c) >= 128 ? utf_fold(c) \ : (c) < 256 ? spelltab.st_fold[c] : (c)) # endif # ifdef HAVE_TOWUPPER # define SPELL_TOUPPER(c) (enc_utf8 && (c) >= 128 ? utf_toupper(c) \ : (c) < 256 ? spelltab.st_upper[c] : towupper(c)) # else # define SPELL_TOUPPER(c) (enc_utf8 && (c) >= 128 ? utf_toupper(c) \ : (c) < 256 ? spelltab.st_upper[c] : (c)) # endif # ifdef HAVE_ISWUPPER # define SPELL_ISUPPER(c) (enc_utf8 && (c) >= 128 ? utf_isupper(c) \ : (c) < 256 ? spelltab.st_isu[c] : iswupper(c)) # else # define SPELL_ISUPPER(c) (enc_utf8 && (c) >= 128 ? utf_isupper(c) \ : (c) < 256 ? spelltab.st_isu[c] : (c)) # endif #endif static char *e_format = N_("E759: Format error in spell file"); static char *e_spell_trunc = N_("E758: Truncated spell file"); /* * Main spell-checking function. * "ptr" points to a character that could be the start of a word. * "*attrp" is set to the attributes for a badly spelled word. For a non-word * or when it's OK it remains unchanged. * This must only be called when 'spelllang' is not empty. * * "capcol" is used to check for a Capitalised word after the end of a * sentence. If it's zero then perform the check. Return the column where to * check next, or -1 when no sentence end was found. If it's NULL then don't * worry. * * Returns the length of the word in bytes, also when it's OK, so that the * caller can skip over the word. */ int spell_check(wp, ptr, attrp, capcol) win_T *wp; /* current window */ char_u *ptr; int *attrp; int *capcol; /* column to check for Capital */ { matchinf_T mi; /* Most things are put in "mi" so that it can be passed to functions quickly. */ int nrlen = 0; /* found a number first */ int c; /* A word never starts at a space or a control character. Return quickly * then, skipping over the character. */ if (*ptr <= ' ') return 1; /* A number is always OK. Also skip hexadecimal numbers 0xFF99 and * 0X99FF. But when a word character follows do check spelling to find * "3GPP". */ if (*ptr >= '0' && *ptr <= '9') { if (*ptr == '0' && (ptr[1] == 'x' || ptr[1] == 'X')) mi.mi_end = skiphex(ptr + 2); else { mi.mi_end = skipdigits(ptr); nrlen = mi.mi_end - ptr; } if (!spell_iswordp(mi.mi_end, wp->w_buffer)) return (int)(mi.mi_end - ptr); /* Try including the digits in the word. */ mi.mi_fend = ptr + nrlen; } else mi.mi_fend = ptr; /* Find the normal end of the word (until the next non-word character). */ mi.mi_word = ptr; if (spell_iswordp(mi.mi_fend, wp->w_buffer)) { do { mb_ptr_adv(mi.mi_fend); } while (*mi.mi_fend != NUL && spell_iswordp(mi.mi_fend, wp->w_buffer)); if (capcol != NULL && *capcol == 0 && wp->w_buffer->b_cap_prog != NULL) { /* Check word starting with capital letter. */ #ifdef FEAT_MBYTE c = mb_ptr2char(ptr); #else c = *ptr; #endif if (!SPELL_ISUPPER(c)) { *attrp = highlight_attr[HLF_SPC]; return (int)(mi.mi_fend - ptr); } } } if (capcol != NULL) *capcol = -1; /* We always use the characters up to the next non-word character, * also for bad words. */ mi.mi_end = mi.mi_fend; /* Check caps type later. */ mi.mi_capflags = 0; mi.mi_cend = NULL; mi.mi_buf = wp->w_buffer; /* Include one non-word character so that we can check for the * word end. */ if (*mi.mi_fend != NUL) mb_ptr_adv(mi.mi_fend); (void)spell_casefold(ptr, (int)(mi.mi_fend - ptr), mi.mi_fword, MAXWLEN + 1); mi.mi_fwordlen = STRLEN(mi.mi_fword); /* The word is bad unless we recognize it. */ mi.mi_result = SP_BAD; /* * Loop over the languages specified in 'spelllang'. * We check them all, because a matching word may be longer than an * already found matching word. */ for (mi.mi_lp = LANGP_ENTRY(wp->w_buffer->b_langp, 0); mi.mi_lp->lp_slang != NULL; ++mi.mi_lp) { /* Check for a matching word in case-folded words. */ find_word(&mi, FIND_FOLDWORD); /* Check for a matching word in keep-case words. */ find_word(&mi, FIND_KEEPWORD); /* Check for matching prefixes. */ find_prefix(&mi); } if (mi.mi_result != SP_OK) { /* If we found a number skip over it. Allows for "42nd". Do flag * rare and local words, e.g., "3GPP". */ if (nrlen > 0) { if (mi.mi_result == SP_BAD || mi.mi_result == SP_BANNED) return nrlen; } /* When we are at a non-word character there is no error, just * skip over the character (try looking for a word after it). */ else if (!spell_iswordp_nmw(ptr)) { if (capcol != NULL && wp->w_buffer->b_cap_prog != NULL) { regmatch_T regmatch; /* Check for end of sentence. */ regmatch.regprog = wp->w_buffer->b_cap_prog; regmatch.rm_ic = FALSE; if (vim_regexec(®match, ptr, 0)) *capcol = (int)(regmatch.endp[0] - ptr); } #ifdef FEAT_MBYTE if (has_mbyte) return mb_ptr2len_check(ptr); #endif return 1; } if (mi.mi_result == SP_BAD || mi.mi_result == SP_BANNED) *attrp = highlight_attr[HLF_SPB]; else if (mi.mi_result == SP_RARE) *attrp = highlight_attr[HLF_SPR]; else *attrp = highlight_attr[HLF_SPL]; } return (int)(mi.mi_end - ptr); } /* * Check if the word at "mip->mi_word" is in the tree. * When "mode" is FIND_FOLDWORD check in fold-case word tree. * When "mode" is FIND_KEEPWORD check in keep-case word tree. * When "mode" is FIND_PREFIX check for word after prefix in fold-case word * tree. * * For a match mip->mi_result is updated. */ static void find_word(mip, mode) matchinf_T *mip; int mode; { idx_T arridx = 0; int endlen[MAXWLEN]; /* length at possible word endings */ idx_T endidx[MAXWLEN]; /* possible word endings */ int endidxcnt = 0; int len; int wlen = 0; int flen; int c; char_u *ptr; idx_T lo, hi, m; #ifdef FEAT_MBYTE char_u *s; char_u *p; #endif int res = SP_BAD; slang_T *slang = mip->mi_lp->lp_slang; unsigned flags; char_u *byts; idx_T *idxs; if (mode == FIND_KEEPWORD) { /* Check for word with matching case in keep-case tree. */ ptr = mip->mi_word; flen = 9999; /* no case folding, always enough bytes */ byts = slang->sl_kbyts; idxs = slang->sl_kidxs; } else { /* Check for case-folded in case-folded tree. */ ptr = mip->mi_fword; flen = mip->mi_fwordlen; /* available case-folded bytes */ byts = slang->sl_fbyts; idxs = slang->sl_fidxs; if (mode == FIND_PREFIX) { /* Skip over the prefix. */ wlen = mip->mi_prefixlen; flen -= mip->mi_prefixlen; } } if (byts == NULL) return; /* array is empty */ /* * Repeat advancing in the tree until: * - there is a byte that doesn't match, * - we reach the end of the tree, * - or we reach the end of the line. */ for (;;) { if (flen <= 0 && *mip->mi_fend != NUL) flen = fold_more(mip); len = byts[arridx++]; /* If the first possible byte is a zero the word could end here. * Remember this index, we first check for the longest word. */ if (byts[arridx] == 0) { if (endidxcnt == MAXWLEN) { /* Must be a corrupted spell file. */ EMSG(_(e_format)); return; } endlen[endidxcnt] = wlen; endidx[endidxcnt++] = arridx++; --len; /* Skip over the zeros, there can be several flag/region * combinations. */ while (len > 0 && byts[arridx] == 0) { ++arridx; --len; } if (len == 0) break; /* no children, word must end here */ } /* Stop looking at end of the line. */ if (ptr[wlen] == NUL) break; /* Perform a binary search in the list of accepted bytes. */ c = ptr[wlen]; if (c == TAB) /* is handled like */ c = ' '; lo = arridx; hi = arridx + len - 1; while (lo < hi) { m = (lo + hi) / 2; if (byts[m] > c) hi = m - 1; else if (byts[m] < c) lo = m + 1; else { lo = hi = m; break; } } /* Stop if there is no matching byte. */ if (hi < lo || byts[lo] != c) break; /* Continue at the child (if there is one). */ arridx = idxs[lo]; ++wlen; --flen; /* One space in the good word may stand for several spaces in the * checked word. */ if (c == ' ') { for (;;) { if (flen <= 0 && *mip->mi_fend != NUL) flen = fold_more(mip); if (ptr[wlen] != ' ' && ptr[wlen] != TAB) break; ++wlen; --flen; } } } /* * Verify that one of the possible endings is valid. Try the longest * first. */ while (endidxcnt > 0) { --endidxcnt; arridx = endidx[endidxcnt]; wlen = endlen[endidxcnt]; #ifdef FEAT_MBYTE if ((*mb_head_off)(ptr, ptr + wlen) > 0) continue; /* not at first byte of character */ #endif if (spell_iswordp(ptr + wlen, mip->mi_buf)) continue; /* next char is a word character */ #ifdef FEAT_MBYTE if (mode != FIND_KEEPWORD && has_mbyte) { /* Compute byte length in original word, length may change * when folding case. This can be slow, take a shortcut when the * case-folded word is equal to the keep-case word. */ p = mip->mi_word; if (STRNCMP(ptr, p, wlen) != 0) { for (s = ptr; s < ptr + wlen; mb_ptr_adv(s)) mb_ptr_adv(p); wlen = p - mip->mi_word; } } #endif /* Check flags and region. For FIND_PREFIX check the condition and * prefix ID. * Repeat this if there are more flags/region alternatives until there * is a match. */ res = SP_BAD; for (len = byts[arridx - 1]; len > 0 && byts[arridx] == 0; --len, ++arridx) { flags = idxs[arridx]; /* For the fold-case tree check that the case of the checked word * matches with what the word in the tree requires. * For keep-case tree the case is always right. For prefixes we * don't bother to check. */ if (mode == FIND_FOLDWORD) { if (mip->mi_cend != mip->mi_word + wlen) { /* mi_capflags was set for a different word length, need * to do it again. */ mip->mi_cend = mip->mi_word + wlen; mip->mi_capflags = captype(mip->mi_word, mip->mi_cend); } if (mip->mi_capflags == WF_KEEPCAP || !spell_valid_case(mip->mi_capflags, flags)) continue; } /* When mode is FIND_PREFIX the word must support the prefix: * check the prefix ID and the condition. Do that for the list at * mip->mi_prefarridx that find_prefix() filled. */ if (mode == FIND_PREFIX) { /* The prefix ID is stored two bytes above the flags. */ c = valid_word_prefix(mip->mi_prefcnt, mip->mi_prefarridx, flags, mip->mi_fword + mip->mi_prefixlen, slang); if (c == 0) continue; /* Use the WF_RARE flag for a rare prefix. */ if (c & WF_RAREPFX) flags |= WF_RARE; } if (flags & WF_BANNED) res = SP_BANNED; else if (flags & WF_REGION) { /* Check region. */ if ((mip->mi_lp->lp_region & (flags >> 16)) != 0) res = SP_OK; else res = SP_LOCAL; } else if (flags & WF_RARE) res = SP_RARE; else res = SP_OK; /* Always use the longest match and the best result. */ if (mip->mi_result > res) { mip->mi_result = res; mip->mi_end = mip->mi_word + wlen; } else if (mip->mi_result == res && mip->mi_end < mip->mi_word + wlen) mip->mi_end = mip->mi_word + wlen; if (res == SP_OK) break; } if (res == SP_OK) break; } } /* * Return non-zero if the prefix indicated by "arridx" matches with the prefix * ID in "flags" for the word "word". * The WF_RAREPFX flag is included in the return value for a rare prefix. */ static int valid_word_prefix(totprefcnt, arridx, flags, word, slang) int totprefcnt; /* nr of prefix IDs */ int arridx; /* idx in sl_pidxs[] */ int flags; char_u *word; slang_T *slang; { int prefcnt; int pidx; regprog_T *rp; regmatch_T regmatch; int prefid; prefid = (unsigned)flags >> 24; for (prefcnt = totprefcnt - 1; prefcnt >= 0; --prefcnt) { pidx = slang->sl_pidxs[arridx + prefcnt]; /* Check the prefix ID. */ if (prefid != (pidx & 0xff)) continue; /* Check if the prefix doesn't combine and the word already has a * suffix. */ if ((flags & WF_HAS_AFF) && (pidx & WF_PFX_NC)) continue; /* Check the condition, if there is one. The condition index is * stored in the two bytes above the prefix ID byte. */ rp = slang->sl_prefprog[((unsigned)pidx >> 8) & 0xffff]; if (rp != NULL) { regmatch.regprog = rp; regmatch.rm_ic = FALSE; if (!vim_regexec(®match, word, 0)) continue; } /* It's a match! Return the WF_RAREPFX flag. */ return pidx; } return 0; } /* * Check if the word at "mip->mi_word" has a matching prefix. * If it does, then check the following word. * * For a match mip->mi_result is updated. */ static void find_prefix(mip) matchinf_T *mip; { idx_T arridx = 0; int len; int wlen = 0; int flen; int c; char_u *ptr; idx_T lo, hi, m; slang_T *slang = mip->mi_lp->lp_slang; char_u *byts; idx_T *idxs; byts = slang->sl_pbyts; if (byts == NULL) return; /* array is empty */ /* We use the case-folded word here, since prefixes are always * case-folded. */ ptr = mip->mi_fword; flen = mip->mi_fwordlen; /* available case-folded bytes */ idxs = slang->sl_pidxs; /* * Repeat advancing in the tree until: * - there is a byte that doesn't match, * - we reach the end of the tree, * - or we reach the end of the line. */ for (;;) { if (flen == 0 && *mip->mi_fend != NUL) flen = fold_more(mip); len = byts[arridx++]; /* If the first possible byte is a zero the prefix could end here. * Check if the following word matches and supports the prefix. */ if (byts[arridx] == 0) { /* There can be several prefixes with different conditions. We * try them all, since we don't know which one will give the * longest match. The word is the same each time, pass the list * of possible prefixes to find_word(). */ mip->mi_prefarridx = arridx; mip->mi_prefcnt = len; while (len > 0 && byts[arridx] == 0) { ++arridx; --len; } mip->mi_prefcnt -= len; /* Find the word that comes after the prefix. */ mip->mi_prefixlen = wlen; find_word(mip, FIND_PREFIX); if (len == 0) break; /* no children, word must end here */ } /* Stop looking at end of the line. */ if (ptr[wlen] == NUL) break; /* Perform a binary search in the list of accepted bytes. */ c = ptr[wlen]; lo = arridx; hi = arridx + len - 1; while (lo < hi) { m = (lo + hi) / 2; if (byts[m] > c) hi = m - 1; else if (byts[m] < c) lo = m + 1; else { lo = hi = m; break; } } /* Stop if there is no matching byte. */ if (hi < lo || byts[lo] != c) break; /* Continue at the child (if there is one). */ arridx = idxs[lo]; ++wlen; --flen; } } /* * Need to fold at least one more character. Do until next non-word character * for efficiency. * Return the length of the folded chars in bytes. */ static int fold_more(mip) matchinf_T *mip; { int flen; char_u *p; p = mip->mi_fend; do { mb_ptr_adv(mip->mi_fend); } while (*mip->mi_fend != NUL && spell_iswordp(mip->mi_fend, mip->mi_buf)); /* Include the non-word character so that we can check for the * word end. */ if (*mip->mi_fend != NUL) mb_ptr_adv(mip->mi_fend); (void)spell_casefold(p, (int)(mip->mi_fend - p), mip->mi_fword + mip->mi_fwordlen, MAXWLEN - mip->mi_fwordlen); flen = STRLEN(mip->mi_fword + mip->mi_fwordlen); mip->mi_fwordlen += flen; return flen; } /* * Check case flags for a word. Return TRUE if the word has the requested * case. */ static int spell_valid_case(wordflags, treeflags) int wordflags; /* flags for the checked word. */ int treeflags; /* flags for the word in the spell tree */ { return ((wordflags == WF_ALLCAP && (treeflags & WF_FIXCAP) == 0) || ((treeflags & (WF_ALLCAP | WF_KEEPCAP)) == 0 && ((treeflags & WF_ONECAP) == 0 || wordflags == WF_ONECAP))); } /* * Return TRUE if spell checking is not enabled. */ static int no_spell_checking() { if (!curwin->w_p_spell || *curbuf->b_p_spl == NUL) { EMSG(_("E756: Spell checking is not enabled")); return TRUE; } return FALSE; } /* * Move to next spell error. * "curline" is TRUE for "z?": find word under/after cursor in the same line. * Return OK if found, FAIL otherwise. */ int spell_move_to(dir, allwords, curline) int dir; /* FORWARD or BACKWARD */ int allwords; /* TRUE for "[s" and "]s" */ int curline; { linenr_T lnum; pos_T found_pos; char_u *line; char_u *p; char_u *endp; int attr; int len; int has_syntax = syntax_present(curbuf); int col; int can_spell; char_u *buf = NULL; int buflen = 0; int skip = 0; int capcol = -1; if (no_spell_checking()) return FAIL; /* * Start looking for bad word at the start of the line, because we can't * start halfway a word, we don't know where the it starts or ends. * * When searching backwards, we continue in the line to find the last * bad word (in the cursor line: before the cursor). * * We concatenate the start of the next line, so that wrapped words work * (e.g. "etcetera"). Doesn't work when searching backwards * though... */ lnum = curwin->w_cursor.lnum; found_pos.lnum = 0; while (!got_int) { line = ml_get(lnum); len = STRLEN(line); if (buflen < len + MAXWLEN + 2) { vim_free(buf); buflen = len + MAXWLEN + 2; buf = alloc(buflen); if (buf == NULL) break; } /* In first line check first word for Capital. */ if (lnum == 1) capcol = 0; /* For checking first word with a capital skip white space. */ if (capcol == 0) capcol = skipwhite(line) - line; /* Copy the line into "buf" and append the start of the next line if * possible. */ STRCPY(buf, line); if (lnum < curbuf->b_ml.ml_line_count) spell_cat_line(buf + STRLEN(buf), ml_get(lnum + 1), MAXWLEN); p = buf + skip; endp = buf + len; while (p < endp) { /* When searching backward don't search after the cursor. */ if (dir == BACKWARD && lnum == curwin->w_cursor.lnum && (colnr_T)(p - buf) >= curwin->w_cursor.col) break; /* start of word */ attr = 0; len = spell_check(curwin, p, &attr, &capcol); if (attr != 0) { /* We found a bad word. Check the attribute. */ if (allwords || attr == highlight_attr[HLF_SPB]) { /* When searching forward only accept a bad word after * the cursor. */ if (dir == BACKWARD || lnum > curwin->w_cursor.lnum || (lnum == curwin->w_cursor.lnum && (colnr_T)(curline ? p - buf + len : p - buf) > curwin->w_cursor.col)) { if (has_syntax) { col = p - buf; (void)syn_get_id(lnum, (colnr_T)col, FALSE, &can_spell); } else can_spell = TRUE; if (can_spell) { found_pos.lnum = lnum; found_pos.col = p - buf; #ifdef FEAT_VIRTUALEDIT found_pos.coladd = 0; #endif if (dir == FORWARD) { /* No need to search further. */ curwin->w_cursor = found_pos; vim_free(buf); return OK; } } } } } /* advance to character after the word */ p += len; capcol -= len; } if (curline) break; /* only check cursor line */ /* Advance to next line. */ if (dir == BACKWARD) { if (found_pos.lnum != 0) { /* Use the last match in the line. */ curwin->w_cursor = found_pos; vim_free(buf); return OK; } if (lnum == 1) break; --lnum; capcol = -1; } else { if (lnum == curbuf->b_ml.ml_line_count) break; ++lnum; /* Skip the characters at the start of the next line that were * included in a match crossing line boundaries. */ if (attr == 0) skip = p - endp; else skip = 0; /* Capscol skips over the inserted space. */ --capcol; /* But after empty line check first word in next line */ if (*skipwhite(line) == NUL) capcol = 0; } line_breakcheck(); } vim_free(buf); return FAIL; } /* * For spell checking: concatenate the start of the following line "line" into * "buf", blanking-out special characters. Copy less then "maxlen" bytes. */ void spell_cat_line(buf, line, maxlen) char_u *buf; char_u *line; int maxlen; { char_u *p; int n; p = skipwhite(line); while (vim_strchr((char_u *)"*#/\"\t", *p) != NULL) p = skipwhite(p + 1); if (*p != NUL) { *buf = ' '; vim_strncpy(buf + 1, line, maxlen - 2); n = p - line; if (n >= maxlen) n = maxlen - 1; vim_memset(buf + 1, ' ', n); } } /* * Load word list(s) for "lang" from Vim spell file(s). * "lang" must be the language without the region: e.g., "en". */ static void spell_load_lang(lang) char_u *lang; { char_u fname_enc[85]; int r; char_u langcp[MAXWLEN + 1]; /* Copy the language name to pass it to spell_load_cb() as a cookie. * It's truncated when an error is detected. */ STRCPY(langcp, lang); /* * Find the first spell file for "lang" in 'runtimepath' and load it. */ vim_snprintf((char *)fname_enc, sizeof(fname_enc) - 5, "spell/%s.%s.spl", lang, spell_enc()); r = do_in_runtimepath(fname_enc, FALSE, spell_load_cb, &langcp); if (r == FAIL && *langcp != NUL) { /* Try loading the ASCII version. */ vim_snprintf((char *)fname_enc, sizeof(fname_enc) - 5, "spell/%s.ascii.spl", lang); r = do_in_runtimepath(fname_enc, FALSE, spell_load_cb, &langcp); } if (r == FAIL) smsg((char_u *)_("Warning: Cannot find word list \"%s\""), fname_enc + 6); else if (*langcp != NUL) { /* Load all the additions. */ STRCPY(fname_enc + STRLEN(fname_enc) - 3, "add.spl"); do_in_runtimepath(fname_enc, TRUE, spell_load_cb, &langcp); } } /* * Return the encoding used for spell checking: Use 'encoding', except that we * use "latin1" for "latin9". And limit to 60 characters (just in case). */ static char_u * spell_enc() { #ifdef FEAT_MBYTE if (STRLEN(p_enc) < 60 && STRCMP(p_enc, "iso-8859-15") != 0) return p_enc; #endif return (char_u *)"latin1"; } /* * Get the name of the .spl file for the internal wordlist into * "fname[MAXPATHL]". */ static void int_wordlist_spl(fname) char_u *fname; { vim_snprintf((char *)fname, MAXPATHL, "%s.%s.spl", int_wordlist, spell_enc()); } /* * Allocate a new slang_T. * Caller must fill "sl_next". */ static slang_T * slang_alloc(lang) char_u *lang; { slang_T *lp; lp = (slang_T *)alloc_clear(sizeof(slang_T)); if (lp != NULL) { lp->sl_name = vim_strsave(lang); ga_init2(&lp->sl_rep, sizeof(fromto_T), 10); } return lp; } /* * Free the contents of an slang_T and the structure itself. */ static void slang_free(lp) slang_T *lp; { vim_free(lp->sl_name); vim_free(lp->sl_fname); slang_clear(lp); vim_free(lp); } /* * Clear an slang_T so that the file can be reloaded. */ static void slang_clear(lp) slang_T *lp; { garray_T *gap; fromto_T *ftp; salitem_T *smp; int i; vim_free(lp->sl_fbyts); lp->sl_fbyts = NULL; vim_free(lp->sl_kbyts); lp->sl_kbyts = NULL; vim_free(lp->sl_pbyts); lp->sl_pbyts = NULL; vim_free(lp->sl_fidxs); lp->sl_fidxs = NULL; vim_free(lp->sl_kidxs); lp->sl_kidxs = NULL; vim_free(lp->sl_pidxs); lp->sl_pidxs = NULL; gap = &lp->sl_rep; while (gap->ga_len > 0) { ftp = &((fromto_T *)gap->ga_data)[--gap->ga_len]; vim_free(ftp->ft_from); vim_free(ftp->ft_to); } ga_clear(gap); gap = &lp->sl_sal; if (lp->sl_sofo) { /* "ga_len" is set to 1 without adding an item for latin1 */ if (gap->ga_data != NULL) /* SOFOFROM and SOFOTO items: free lists of wide characters. */ for (i = 0; i < gap->ga_len; ++i) vim_free(((int **)gap->ga_data)[i]); } else /* SAL items: free salitem_T items */ while (gap->ga_len > 0) { smp = &((salitem_T *)gap->ga_data)[--gap->ga_len]; vim_free(smp->sm_lead); /* Don't free sm_oneof and sm_rules, they point into sm_lead. */ vim_free(smp->sm_to); #ifdef FEAT_MBYTE vim_free(smp->sm_lead_w); vim_free(smp->sm_oneof_w); vim_free(smp->sm_to_w); #endif } ga_clear(gap); for (i = 0; i < lp->sl_prefixcnt; ++i) vim_free(lp->sl_prefprog[i]); lp->sl_prefixcnt = 0; vim_free(lp->sl_prefprog); lp->sl_prefprog = NULL; vim_free(lp->sl_midword); lp->sl_midword = NULL; #ifdef FEAT_MBYTE { int todo = lp->sl_map_hash.ht_used; hashitem_T *hi; for (hi = lp->sl_map_hash.ht_array; todo > 0; ++hi) if (!HASHITEM_EMPTY(hi)) { --todo; vim_free(hi->hi_key); } } hash_clear(&lp->sl_map_hash); #endif } /* * Load one spell file and store the info into a slang_T. * Invoked through do_in_runtimepath(). */ static void spell_load_cb(fname, cookie) char_u *fname; void *cookie; /* points to the language name */ { (void)spell_load_file(fname, (char_u *)cookie, NULL, FALSE); } /* * Load one spell file and store the info into a slang_T. * * This is invoked in two ways: * - From spell_load_cb() to load a spell file for the first time. "lang" is * the language name, "old_lp" is NULL. Will allocate an slang_T. * - To reload a spell file that was changed. "lang" is NULL and "old_lp" * points to the existing slang_T. * Returns the slang_T the spell file was loaded into. NULL for error. */ static slang_T * spell_load_file(fname, lang, old_lp, silent) char_u *fname; char_u *lang; slang_T *old_lp; int silent; /* no error if file doesn't exist */ { FILE *fd; char_u buf[MAXWLEN + 1]; char_u *p; char_u *bp; idx_T *ip; int i; int n; int len; int round; char_u *save_sourcing_name = sourcing_name; linenr_T save_sourcing_lnum = sourcing_lnum; int cnt, ccnt; char_u *fol; slang_T *lp = NULL; garray_T *gap; fromto_T *ftp; salitem_T *smp; short *first; idx_T idx; int c = 0; fd = mch_fopen((char *)fname, "r"); if (fd == NULL) { if (!silent) EMSG2(_(e_notopen), fname); else if (p_verbose > 2) { verbose_enter(); smsg((char_u *)e_notopen, fname); verbose_leave(); } goto endFAIL; } if (p_verbose > 2) { verbose_enter(); smsg((char_u *)_("Reading spell file \"%s\""), fname); verbose_leave(); } if (old_lp == NULL) { lp = slang_alloc(lang); if (lp == NULL) goto endFAIL; /* Remember the file name, used to reload the file when it's updated. */ lp->sl_fname = vim_strsave(fname); if (lp->sl_fname == NULL) goto endFAIL; /* Check for .add.spl. */ lp->sl_add = strstr((char *)gettail(fname), ".add.") != NULL; } else lp = old_lp; /* Set sourcing_name, so that error messages mention the file name. */ sourcing_name = fname; sourcing_lnum = 0; /*

: * ... * * * * ... */ for (i = 0; i < VIMSPELLMAGICL; ++i) buf[i] = getc(fd); /* */ if (STRNCMP(buf, VIMSPELLMAGIC, VIMSPELLMAGICL) != 0) { EMSG(_("E757: Wrong file ID in spell file")); goto endFAIL; } cnt = getc(fd); /* */ if (cnt < 0) { truncerr: EMSG(_(e_spell_trunc)); goto endFAIL; } if (cnt > 8) { formerr: EMSG(_(e_format)); goto endFAIL; } for (i = 0; i < cnt; ++i) { lp->sl_regions[i * 2] = getc(fd); /* */ lp->sl_regions[i * 2 + 1] = getc(fd); } lp->sl_regions[cnt * 2] = NUL; /* */ p = read_cnt_string(fd, 1, &cnt); if (cnt < 0) goto endFAIL; /* */ fol = read_cnt_string(fd, 2, &ccnt); if (ccnt < 0) { vim_free(p); goto endFAIL; } /* Set the word-char flags and fill SPELL_ISUPPER() table. */ if (p != NULL && fol != NULL) i = set_spell_charflags(p, cnt, fol); vim_free(p); vim_free(fol); /* When is zero then must also be zero. */ if ((p == NULL) != (fol == NULL)) goto formerr; /* */ lp->sl_midword = read_cnt_string(fd, 2, &cnt); if (cnt < 0) goto endFAIL; /* ... */ cnt = (getc(fd) << 8) + getc(fd); /* */ if (cnt > 0) { lp->sl_prefprog = (regprog_T **)alloc_clear( (unsigned)sizeof(regprog_T *) * cnt); if (lp->sl_prefprog == NULL) goto endFAIL; lp->sl_prefixcnt = cnt; for (i = 0; i < cnt; ++i) { /* : */ n = getc(fd); /* */ if (n < 0) goto formerr; /* When is zero we have an empty condition. Otherwise * compile the regexp program used to check for the condition. */ if (n > 0) { buf[0] = '^'; /* always match at one position only */ p = buf + 1; while (n-- > 0) *p++ = getc(fd); /* */ *p = NUL; lp->sl_prefprog[i] = vim_regcomp(buf, RE_MAGIC + RE_STRING); } } } /* : ... * ... * */ cnt = (getc(fd) << 8) + getc(fd); /* */ if (cnt < 0) goto formerr; gap = &lp->sl_rep; if (ga_grow(gap, cnt) == FAIL) goto endFAIL; /* : */ for (; gap->ga_len < cnt; ++gap->ga_len) { ftp = &((fromto_T *)gap->ga_data)[gap->ga_len]; ftp->ft_from = read_cnt_string(fd, 1, &i); if (i <= 0) goto endFAIL; ftp->ft_to = read_cnt_string(fd, 1, &i); if (i <= 0) { vim_free(ftp->ft_from); goto endFAIL; } } /* Fill the first-index table. */ first = lp->sl_rep_first; for (i = 0; i < 256; ++i) first[i] = -1; for (i = 0; i < gap->ga_len; ++i) { ftp = &((fromto_T *)gap->ga_data)[i]; if (first[*ftp->ft_from] == -1) first[*ftp->ft_from] = i; } i = getc(fd); /* */ if (i & SAL_F0LLOWUP) lp->sl_followup = TRUE; if (i & SAL_COLLAPSE) lp->sl_collapse = TRUE; if (i & SAL_REM_ACCENTS) lp->sl_rem_accents = TRUE; if (i & SAL_SOFO) lp->sl_sofo = TRUE; else lp->sl_sofo = FALSE; cnt = (getc(fd) << 8) + getc(fd); /* */ if (cnt < 0) goto formerr; if (lp->sl_sofo) { /* * SOFOFROM and SOFOTO items come in one and */ if (cnt != 1) goto formerr; /* */ bp = read_cnt_string(fd, 2, &cnt); if (cnt < 0) goto endFAIL; /* */ fol = read_cnt_string(fd, 2, &cnt); if (cnt < 0) { vim_free(bp); goto endFAIL; } /* Store the info in lp->sl_sal and/or lp->sl_sal_first. */ if (bp != NULL && fol != NULL) i = set_sofo(lp, bp, fol); else if (bp != NULL || fol != NULL) i = FAIL; /* only one of two strings is an error */ else i = OK; vim_free(bp); vim_free(fol); if (i == FAIL) goto formerr; } else { /* * SAL items */ gap = &lp->sl_sal; ga_init2(gap, sizeof(salitem_T), 10); if (ga_grow(gap, cnt) == FAIL) goto endFAIL; /* : */ for (; gap->ga_len < cnt; ++gap->ga_len) { smp = &((salitem_T *)gap->ga_data)[gap->ga_len]; ccnt = getc(fd); /* */ if (ccnt < 0) goto formerr; if ((p = alloc(ccnt + 2)) == NULL) goto endFAIL; smp->sm_lead = p; /* Read up to the first special char into sm_lead. */ for (i = 0; i < ccnt; ++i) { c = getc(fd); /* */ if (vim_strchr((char_u *)"0123456789(-<^$", c) != NULL) break; *p++ = c; } smp->sm_leadlen = p - smp->sm_lead; *p++ = NUL; /* Put (abc) chars in sm_oneof, if any. */ if (c == '(') { smp->sm_oneof = p; for (++i; i < ccnt; ++i) { c = getc(fd); /* */ if (c == ')') break; *p++ = c; } *p++ = NUL; if (++i < ccnt) c = getc(fd); } else smp->sm_oneof = NULL; /* Any following chars go in sm_rules. */ smp->sm_rules = p; if (i < ccnt) /* store the char we got while checking for end of sm_lead */ *p++ = c; for (++i; i < ccnt; ++i) *p++ = getc(fd); /* */ *p++ = NUL; /* */ smp->sm_to = read_cnt_string(fd, 1, &ccnt); if (ccnt < 0) { vim_free(smp->sm_lead); goto formerr; } #ifdef FEAT_MBYTE if (has_mbyte) { /* convert the multi-byte strings to wide char strings */ smp->sm_lead_w = mb_str2wide(smp->sm_lead); smp->sm_leadlen = mb_charlen(smp->sm_lead); if (smp->sm_oneof == NULL) smp->sm_oneof_w = NULL; else smp->sm_oneof_w = mb_str2wide(smp->sm_oneof); if (smp->sm_to == NULL) smp->sm_to_w = NULL; else smp->sm_to_w = mb_str2wide(smp->sm_to); if (smp->sm_lead_w == NULL || (smp->sm_oneof_w == NULL && smp->sm_oneof != NULL) || (smp->sm_to_w == NULL && smp->sm_to != NULL)) { vim_free(smp->sm_lead); vim_free(smp->sm_to); vim_free(smp->sm_lead_w); vim_free(smp->sm_oneof_w); vim_free(smp->sm_to_w); goto endFAIL; } } #endif } /* Fill the first-index table. */ set_sal_first(lp); } /* */ p = read_cnt_string(fd, 2, &cnt); if (cnt < 0) goto endFAIL; if (p != NULL) { set_map_str(lp, p); vim_free(p); } /* round 1: * round 2: * round 3: */ for (round = 1; round <= 3; ++round) { /* The tree size was computed when writing the file, so that we can * allocate it as one long block. */ len = (getc(fd) << 24) + (getc(fd) << 16) + (getc(fd) << 8) + getc(fd); if (len < 0) goto truncerr; if (len > 0) { /* Allocate the byte array. */ bp = lalloc((long_u)len, TRUE); if (bp == NULL) goto endFAIL; if (round == 1) lp->sl_fbyts = bp; else if (round == 2) lp->sl_kbyts = bp; else lp->sl_pbyts = bp; /* Allocate the index array. */ ip = (idx_T *)lalloc_clear((long_u)(len * sizeof(int)), TRUE); if (ip == NULL) goto endFAIL; if (round == 1) lp->sl_fidxs = ip; else if (round == 2) lp->sl_kidxs = ip; else lp->sl_pidxs = ip; /* Read the tree and store it in the array. */ idx = read_tree(fd, bp, ip, len, 0, round == 3, lp->sl_prefixcnt); if (idx == -1) goto truncerr; if (idx < 0) goto formerr; } } /* For a new file link it in the list of spell files. */ if (old_lp == NULL) { lp->sl_next = first_lang; first_lang = lp; } goto endOK; endFAIL: if (lang != NULL) /* truncating the name signals the error to spell_load_lang() */ *lang = NUL; if (lp != NULL && old_lp == NULL) { slang_free(lp); lp = NULL; } endOK: if (fd != NULL) fclose(fd); sourcing_name = save_sourcing_name; sourcing_lnum = save_sourcing_lnum; return lp; } /* * Read a length field from "fd" in "cnt_bytes" bytes. * Allocate memory, read the string into it and add a NUL at the end. * Returns NULL when the count is zero. * Sets "*cntp" to -1 when there is an error, length of the result otherwise. */ static char_u * read_cnt_string(fd, cnt_bytes, cntp) FILE *fd; int cnt_bytes; int *cntp; { int cnt = 0; int i; char_u *str; /* read the length bytes, MSB first */ for (i = 0; i < cnt_bytes; ++i) cnt = (cnt << 8) + getc(fd); if (cnt < 0) { EMSG(_(e_spell_trunc)); *cntp = -1; return NULL; } *cntp = cnt; if (cnt == 0) return NULL; /* nothing to read, return NULL */ /* allocate memory */ str = alloc((unsigned)cnt + 1); if (str == NULL) { *cntp = -1; return NULL; } /* Read the string. Doesn't check for truncated file. */ for (i = 0; i < cnt; ++i) str[i] = getc(fd); str[i] = NUL; return str; } /* * Set the SOFOFROM and SOFOTO items in language "lp". * Returns FAIL when there is something wrong. */ static int set_sofo(lp, from, to) slang_T *lp; char_u *from; char_u *to; { int i; #ifdef FEAT_MBYTE garray_T *gap; char_u *s; char_u *p; int c; int *inp; if (has_mbyte) { /* Use "sl_sal" as an array with 256 pointers to a list of wide * characters. The index is the low byte of the character. * The list contains from-to pairs with a terminating NUL. * sl_sal_first[] is used for latin1 "from" characters. */ gap = &lp->sl_sal; ga_init2(gap, sizeof(int *), 1); if (ga_grow(gap, 256) == FAIL) return FAIL; vim_memset(gap->ga_data, 0, sizeof(int *) * 256); gap->ga_len = 256; /* First count the number of items for each list. Temporarily use * sl_sal_first[] for this. */ for (p = from, s = to; *p != NUL && *s != NUL; ) { c = mb_ptr2char_adv(&p); mb_ptr_adv(s); if (c >= 256) ++lp->sl_sal_first[c & 0xff]; } if (*p != NUL || *s != NUL) /* lengths differ */ return FAIL; /* Allocate the lists. */ for (i = 0; i < 256; ++i) if (lp->sl_sal_first[i] > 0) { p = alloc(sizeof(int) * (lp->sl_sal_first[i] * 2 + 1)); if (p == NULL) return FAIL; ((int **)gap->ga_data)[i] = (int *)p; *(int *)p = 0; } /* Put the characters up to 255 in sl_sal_first[] the rest in a sl_sal * list. */ vim_memset(lp->sl_sal_first, 0, sizeof(salfirst_T) * 256); for (p = from, s = to; *p != NUL && *s != NUL; ) { c = mb_ptr2char_adv(&p); i = mb_ptr2char_adv(&s); if (c >= 256) { /* Append the from-to chars at the end of the list with * the low byte. */ inp = ((int **)gap->ga_data)[c & 0xff]; while (*inp != 0) ++inp; *inp++ = c; /* from char */ *inp++ = i; /* to char */ *inp++ = NUL; /* NUL at the end */ } else /* mapping byte to char is done in sl_sal_first[] */ lp->sl_sal_first[c] = i; } } else #endif { /* mapping bytes to bytes is done in sl_sal_first[] */ if (STRLEN(from) != STRLEN(to)) return FAIL; for (i = 0; to[i] != NUL; ++i) lp->sl_sal_first[from[i]] = to[i]; lp->sl_sal.ga_len = 1; /* indicates we have soundfolding */ } return OK; } /* * Fill the first-index table for "lp". */ static void set_sal_first(lp) slang_T *lp; { salfirst_T *sfirst; int i; salitem_T *smp; int c; garray_T *gap = &lp->sl_sal; sfirst = lp->sl_sal_first; for (i = 0; i < 256; ++i) sfirst[i] = -1; smp = (salitem_T *)gap->ga_data; for (i = 0; i < gap->ga_len; ++i) { #ifdef FEAT_MBYTE if (has_mbyte) /* Use the lowest byte of the first character. For latin1 it's * the character, for other encodings it should differ for most * characters. */ c = *smp[i].sm_lead_w & 0xff; else #endif c = *smp[i].sm_lead; if (sfirst[c] == -1) { sfirst[c] = i; #ifdef FEAT_MBYTE if (has_mbyte) { int n; /* Make sure all entries with this byte are following each * other. Move the ones that are in the wrong position. Do * keep the same ordering! */ while (i + 1 < gap->ga_len && (*smp[i + 1].sm_lead_w & 0xff) == c) /* Skip over entry with same index byte. */ ++i; for (n = 1; i + n < gap->ga_len; ++n) if ((*smp[i + n].sm_lead_w & 0xff) == c) { salitem_T tsal; /* Move entry with same index byte after the entries * we already found. */ ++i; --n; tsal = smp[i + n]; mch_memmove(smp + i + 1, smp + i, sizeof(salitem_T) * n); smp[i] = tsal; } } #endif } } } #ifdef FEAT_MBYTE /* * Turn a multi-byte string into a wide character string. * Return it in allocated memory (NULL for out-of-memory) */ static int * mb_str2wide(s) char_u *s; { int *res; char_u *p; int i = 0; res = (int *)alloc(sizeof(int) * (mb_charlen(s) + 1)); if (res != NULL) { for (p = s; *p != NUL; ) res[i++] = mb_ptr2char_adv(&p); res[i] = NUL; } return res; } #endif /* * Read one row of siblings from the spell file and store it in the byte array * "byts" and index array "idxs". Recursively read the children. * * NOTE: The code here must match put_node(). * * Returns the index follosing the siblings. * Returns -1 if the file is shorter than expected. * Returns -2 if there is a format error. */ static idx_T read_tree(fd, byts, idxs, maxidx, startidx, prefixtree, maxprefcondnr) FILE *fd; char_u *byts; idx_T *idxs; int maxidx; /* size of arrays */ idx_T startidx; /* current index in "byts" and "idxs" */ int prefixtree; /* TRUE for reading PREFIXTREE */ int maxprefcondnr; /* maximum for */ { int len; int i; int n; idx_T idx = startidx; int c; int c2; #define SHARED_MASK 0x8000000 len = getc(fd); /* */ if (len <= 0) return -1; if (startidx + len >= maxidx) return -2; byts[idx++] = len; /* Read the byte values, flag/region bytes and shared indexes. */ for (i = 1; i <= len; ++i) { c = getc(fd); /* */ if (c < 0) return -1; if (c <= BY_SPECIAL) { if (c == BY_NOFLAGS && !prefixtree) { /* No flags, all regions. */ idxs[idx] = 0; c = 0; } else if (c != BY_INDEX) { if (prefixtree) { /* Read the prefix ID and the condition nr. In idxs[] * store the prefix ID in the low byte, the condition * index shifted up 8 bits. */ c2 = getc(fd); /* */ n = (getc(fd) << 8) + getc(fd); /* */ if (n >= maxprefcondnr) return -2; c2 += (n << 8); /* the byte value is misused to pass two flags: rare * and non-combining. */ if (c == BY_FLAGS || c == BY_PFX_RNC) c2 |= WF_RAREPFX; if (c == BY_PFX_NC || c == BY_PFX_RNC) c2 |= WF_PFX_NC; c = c2; } else /* c must be BY_FLAGS or BY_FLAGS2 */ { /* Read flags and optional region and prefix ID. In * idxs[] the flags go in the low two bytes, region above * that and prefix ID above the region. */ c2 = c; c = getc(fd); /* */ if (c2 == BY_FLAGS2) c = (getc(fd) << 8) + c; /* */ if (c & WF_REGION) c = (getc(fd) << 16) + c; /* */ if (c & WF_PFX) c = (getc(fd) << 24) + c; /* */ } idxs[idx] = c; c = 0; } else /* c == BY_INDEX */ { /* */ n = (getc(fd) << 16) + (getc(fd) << 8) + getc(fd); if (n < 0 || n >= maxidx) return -2; idxs[idx] = n + SHARED_MASK; c = getc(fd); /* */ } } byts[idx++] = c; } /* Recursively read the children for non-shared siblings. * Skip the end-of-word ones (zero byte value) and the shared ones (and * remove SHARED_MASK) */ for (i = 1; i <= len; ++i) if (byts[startidx + i] != 0) { if (idxs[startidx + i] & SHARED_MASK) idxs[startidx + i] &= ~SHARED_MASK; else { idxs[startidx + i] = idx; idx = read_tree(fd, byts, idxs, maxidx, idx, prefixtree, maxprefcondnr); if (idx < 0) break; } } return idx; } /* * Parse 'spelllang' and set buf->b_langp accordingly. * Returns NULL if it's OK, an error message otherwise. */ char_u * did_set_spelllang(buf) buf_T *buf; { garray_T ga; char_u *splp; char_u *region; char_u region_cp[3]; int filename; int region_mask; slang_T *lp; int c; char_u lang[MAXWLEN + 1]; char_u spf_name[MAXPATHL]; int len; char_u *p; int round; char_u *spf; char_u *use_region = NULL; int dont_use_region = FALSE; ga_init2(&ga, sizeof(langp_T), 2); clear_midword(buf); /* loop over comma separated language names. */ for (splp = buf->b_p_spl; *splp != NUL; ) { /* Get one language name. */ copy_option_part(&splp, lang, MAXWLEN, ","); region = NULL; len = STRLEN(lang); /* If the name ends in ".spl" use it as the name of the spell file. * If there is a region name let "region" point to it and remove it * from the name. */ if (len > 4 && fnamecmp(lang + len - 4, ".spl") == 0) { filename = TRUE; /* Locate a region and remove it from the file name. */ p = vim_strchr(gettail(lang), '_'); if (p != NULL && ASCII_ISALPHA(p[1]) && ASCII_ISALPHA(p[2]) && !ASCII_ISALPHA(p[3])) { vim_strncpy(region_cp, p + 1, 2); mch_memmove(p, p + 3, len - (p - lang) - 2); len -= 3; region = region_cp; } else dont_use_region = TRUE; /* Check if we loaded this language before. */ for (lp = first_lang; lp != NULL; lp = lp->sl_next) if (fullpathcmp(lang, lp->sl_fname, FALSE) == FPC_SAME) break; } else { filename = FALSE; if (len > 3 && lang[len - 3] == '_') { region = lang + len - 2; len -= 3; lang[len] = NUL; } else dont_use_region = TRUE; /* Check if we loaded this language before. */ for (lp = first_lang; lp != NULL; lp = lp->sl_next) if (STRICMP(lang, lp->sl_name) == 0) break; } if (region != NULL) { /* If the region differs from what was used before then don't * use it for 'spellfile'. */ if (use_region != NULL && STRCMP(region, use_region) != 0) dont_use_region = TRUE; use_region = region; } /* If not found try loading the language now. */ if (lp == NULL) { if (filename) (void)spell_load_file(lang, lang, NULL, FALSE); else spell_load_lang(lang); } /* * Loop over the languages, there can be several files for "lang". */ for (lp = first_lang; lp != NULL; lp = lp->sl_next) if (filename ? fullpathcmp(lang, lp->sl_fname, FALSE) == FPC_SAME : STRICMP(lang, lp->sl_name) == 0) { region_mask = REGION_ALL; if (!filename && region != NULL) { /* find region in sl_regions */ c = find_region(lp->sl_regions, region); if (c == REGION_ALL) { if (lp->sl_add) { if (*lp->sl_regions != NUL) /* This addition file is for other regions. */ region_mask = 0; } else /* This is probably an error. Give a warning and * accept the words anyway. */ smsg((char_u *) _("Warning: region %s not supported"), region); } else region_mask = 1 << c; } if (region_mask != 0) { if (ga_grow(&ga, 1) == FAIL) { ga_clear(&ga); return e_outofmem; } LANGP_ENTRY(ga, ga.ga_len)->lp_slang = lp; LANGP_ENTRY(ga, ga.ga_len)->lp_region = region_mask; ++ga.ga_len; use_midword(lp, buf); } } } /* round 0: load int_wordlist, if possible. * round 1: load first name in 'spellfile'. * round 2: load second name in 'spellfile. * etc. */ spf = curbuf->b_p_spf; for (round = 0; round == 0 || *spf != NUL; ++round) { if (round == 0) { /* Internal wordlist, if there is one. */ if (int_wordlist == NULL) continue; int_wordlist_spl(spf_name); } else { /* One entry in 'spellfile'. */ copy_option_part(&spf, spf_name, MAXPATHL - 5, ","); STRCAT(spf_name, ".spl"); /* If it was already found above then skip it. */ for (c = 0; c < ga.ga_len; ++c) if (fullpathcmp(spf_name, LANGP_ENTRY(ga, c)->lp_slang->sl_fname, FALSE) == FPC_SAME) break; if (c < ga.ga_len) continue; } /* Check if it was loaded already. */ for (lp = first_lang; lp != NULL; lp = lp->sl_next) if (fullpathcmp(spf_name, lp->sl_fname, FALSE) == FPC_SAME) break; if (lp == NULL) { /* Not loaded, try loading it now. The language name includes the * region name, the region is ignored otherwise. for int_wordlist * use an arbitrary name. */ if (round == 0) STRCPY(lang, "internal wordlist"); else { vim_strncpy(lang, gettail(spf_name), MAXWLEN); p = vim_strchr(lang, '.'); if (p != NULL) *p = NUL; /* truncate at ".encoding.add" */ } lp = spell_load_file(spf_name, lang, NULL, TRUE); } if (lp != NULL && ga_grow(&ga, 1) == OK) { region_mask = REGION_ALL; if (use_region != NULL && !dont_use_region) { /* find region in sl_regions */ c = find_region(lp->sl_regions, use_region); if (c != REGION_ALL) region_mask = 1 << c; else if (*lp->sl_regions != NUL) /* This spell file is for other regions. */ region_mask = 0; } if (region_mask != 0) { LANGP_ENTRY(ga, ga.ga_len)->lp_slang = lp; LANGP_ENTRY(ga, ga.ga_len)->lp_region = region_mask; ++ga.ga_len; use_midword(lp, buf); } } } /* Add a NULL entry to mark the end of the list. */ if (ga_grow(&ga, 1) == FAIL) { ga_clear(&ga); return e_outofmem; } LANGP_ENTRY(ga, ga.ga_len)->lp_slang = NULL; ++ga.ga_len; /* Everything is fine, store the new b_langp value. */ ga_clear(&buf->b_langp); buf->b_langp = ga; return NULL; } /* * Clear the midword characters for buffer "buf". */ static void clear_midword(buf) buf_T *buf; { vim_memset(buf->b_spell_ismw, 0, 256); #ifdef FEAT_MBYTE vim_free(buf->b_spell_ismw_mb); buf->b_spell_ismw_mb = NULL; #endif } /* * Use the "sl_midword" field of language "lp" for buffer "buf". * They add up to any currently used midword characters. */ static void use_midword(lp, buf) slang_T *lp; buf_T *buf; { char_u *p; if (lp->sl_midword == NULL) /* there aren't any */ return; for (p = lp->sl_midword; *p != NUL; ) #ifdef FEAT_MBYTE if (has_mbyte) { int c, l, n; char_u *bp; c = mb_ptr2char(p); l = mb_ptr2len_check(p); if (c < 256) buf->b_spell_ismw[c] = TRUE; else if (buf->b_spell_ismw_mb == NULL) /* First multi-byte char in "b_spell_ismw_mb". */ buf->b_spell_ismw_mb = vim_strnsave(p, l); else { /* Append multi-byte chars to "b_spell_ismw_mb". */ n = STRLEN(buf->b_spell_ismw_mb); bp = vim_strnsave(buf->b_spell_ismw_mb, n + l); if (bp != NULL) { vim_free(buf->b_spell_ismw_mb); buf->b_spell_ismw_mb = bp; vim_strncpy(bp + n, p, l); } } p += l; } else #endif buf->b_spell_ismw[*p++] = TRUE; } /* * Find the region "region[2]" in "rp" (points to "sl_regions"). * Each region is simply stored as the two characters of it's name. * Returns the index if found (first is 0), REGION_ALL if not found. */ static int find_region(rp, region) char_u *rp; char_u *region; { int i; for (i = 0; ; i += 2) { if (rp[i] == NUL) return REGION_ALL; if (rp[i] == region[0] && rp[i + 1] == region[1]) break; } return i / 2; } /* * Return case type of word: * w word 0 * Word WF_ONECAP * W WORD WF_ALLCAP * WoRd wOrd WF_KEEPCAP */ static int captype(word, end) char_u *word; char_u *end; /* When NULL use up to NUL byte. */ { char_u *p; int c; int firstcap; int allcap; int past_second = FALSE; /* past second word char */ /* find first letter */ for (p = word; !spell_iswordp_nmw(p); mb_ptr_adv(p)) if (end == NULL ? *p == NUL : p >= end) return 0; /* only non-word characters, illegal word */ #ifdef FEAT_MBYTE if (has_mbyte) c = mb_ptr2char_adv(&p); else #endif c = *p++; firstcap = allcap = SPELL_ISUPPER(c); /* * Need to check all letters to find a word with mixed upper/lower. * But a word with an upper char only at start is a ONECAP. */ for ( ; end == NULL ? *p != NUL : p < end; mb_ptr_adv(p)) if (spell_iswordp_nmw(p)) { #ifdef FEAT_MBYTE c = mb_ptr2char(p); #else c = *p; #endif if (!SPELL_ISUPPER(c)) { /* UUl -> KEEPCAP */ if (past_second && allcap) return WF_KEEPCAP; allcap = FALSE; } else if (!allcap) /* UlU -> KEEPCAP */ return WF_KEEPCAP; past_second = TRUE; } if (allcap) return WF_ALLCAP; if (firstcap) return WF_ONECAP; return 0; } # if defined(FEAT_MBYTE) || defined(EXITFREE) || defined(PROTO) /* * Free all languages. */ void spell_free_all() { slang_T *lp; buf_T *buf; char_u fname[MAXPATHL]; /* Go through all buffers and handle 'spelllang'. */ for (buf = firstbuf; buf != NULL; buf = buf->b_next) ga_clear(&buf->b_langp); while (first_lang != NULL) { lp = first_lang; first_lang = lp->sl_next; slang_free(lp); } if (int_wordlist != NULL) { /* Delete the internal wordlist and its .spl file */ mch_remove(int_wordlist); int_wordlist_spl(fname); mch_remove(fname); vim_free(int_wordlist); int_wordlist = NULL; } init_spell_chartab(); } # endif # if defined(FEAT_MBYTE) || defined(PROTO) /* * Clear all spelling tables and reload them. * Used after 'encoding' is set and when ":mkspell" was used. */ void spell_reload() { buf_T *buf; win_T *wp; /* Initialize the table for spell_iswordp(). */ init_spell_chartab(); /* Unload all allocated memory. */ spell_free_all(); /* Go through all buffers and handle 'spelllang'. */ for (buf = firstbuf; buf != NULL; buf = buf->b_next) { /* Only load the wordlists when 'spelllang' is set and there is a * window for this buffer in which 'spell' is set. */ if (*buf->b_p_spl != NUL) { FOR_ALL_WINDOWS(wp) if (wp->w_buffer == buf && wp->w_p_spell) { (void)did_set_spelllang(buf); # ifdef FEAT_WINDOWS break; # endif } } } } # endif /* * Reload the spell file "fname" if it's loaded. */ static void spell_reload_one(fname, added_word) char_u *fname; int added_word; /* invoked through "zg" */ { slang_T *lp; int didit = FALSE; for (lp = first_lang; lp != NULL; lp = lp->sl_next) if (fullpathcmp(fname, lp->sl_fname, FALSE) == FPC_SAME) { slang_clear(lp); (void)spell_load_file(fname, NULL, lp, FALSE); redraw_all_later(NOT_VALID); didit = TRUE; } /* When "zg" was used and the file wasn't loaded yet, should redo * 'spelllang' to get it loaded. */ if (added_word && !didit) did_set_spelllang(curbuf); } /* * Functions for ":mkspell". */ #define MAXLINELEN 500 /* Maximum length in bytes of a line in a .aff and .dic file. */ /* * Main structure to store the contents of a ".aff" file. */ typedef struct afffile_S { char_u *af_enc; /* "SET", normalized, alloc'ed string or NULL */ int af_rar; /* RAR ID for rare word */ int af_kep; /* KEP ID for keep-case word */ int af_bad; /* BAD ID for banned word */ int af_pfxpostpone; /* postpone prefixes without chop string */ hashtab_T af_pref; /* hashtable for prefixes, affheader_T */ hashtab_T af_suff; /* hashtable for suffixes, affheader_T */ } afffile_T; typedef struct affentry_S affentry_T; /* Affix entry from ".aff" file. Used for prefixes and suffixes. */ struct affentry_S { affentry_T *ae_next; /* next affix with same name/number */ char_u *ae_chop; /* text to chop off basic word (can be NULL) */ char_u *ae_add; /* text to add to basic word (can be NULL) */ char_u *ae_cond; /* condition (NULL for ".") */ regprog_T *ae_prog; /* regexp program for ae_cond or NULL */ int ae_rare; /* rare affix */ }; /* Affix header from ".aff" file. Used for af_pref and af_suff. */ typedef struct affheader_S { char_u ah_key[2]; /* key for hashtable == name of affix entry */ int ah_newID; /* prefix ID after renumbering */ int ah_combine; /* suffix may combine with prefix */ affentry_T *ah_first; /* first affix entry */ } affheader_T; #define HI2AH(hi) ((affheader_T *)(hi)->hi_key) /* * Structure that is used to store the items in the word tree. This avoids * the need to keep track of each allocated thing, it's freed all at once * after ":mkspell" is done. */ #define SBLOCKSIZE 16000 /* size of sb_data */ typedef struct sblock_S sblock_T; struct sblock_S { sblock_T *sb_next; /* next block in list */ int sb_used; /* nr of bytes already in use */ char_u sb_data[1]; /* data, actually longer */ }; /* * A node in the tree. */ typedef struct wordnode_S wordnode_T; struct wordnode_S { union /* shared to save space */ { char_u hashkey[6]; /* room for the hash key */ int index; /* index in written nodes (valid after first round) */ } wn_u1; union /* shared to save space */ { wordnode_T *next; /* next node with same hash key */ wordnode_T *wnode; /* parent node that will write this node */ } wn_u2; wordnode_T *wn_child; /* child (next byte in word) */ wordnode_T *wn_sibling; /* next sibling (alternate byte in word, always sorted) */ char_u wn_byte; /* Byte for this node. NUL for word end */ short_u wn_flags; /* when wn_byte is NUL: WF_ flags */ short wn_region; /* when wn_byte is NUL: region mask; for PREFIXTREE it's the prefcondnr */ char_u wn_prefixID; /* supported/required prefix ID or 0 */ }; #define WN_MASK 0xffff /* mask relevant bits of "wn_flags" */ #define HI2WN(hi) (wordnode_T *)((hi)->hi_key) /* * Info used while reading the spell files. */ typedef struct spellinfo_S { wordnode_T *si_foldroot; /* tree with case-folded words */ long si_foldwcount; /* nr of words in si_foldroot */ wordnode_T *si_keeproot; /* tree with keep-case words */ long si_keepwcount; /* nr of words in si_keeproot */ wordnode_T *si_prefroot; /* tree with postponed prefixes */ sblock_T *si_blocks; /* memory blocks used */ int si_ascii; /* handling only ASCII words */ int si_add; /* addition file */ int si_clear_chartab; /* when TRUE clear char tables */ int si_region; /* region mask */ vimconv_T si_conv; /* for conversion to 'encoding' */ int si_memtot; /* runtime memory used */ int si_verbose; /* verbose messages */ int si_region_count; /* number of regions supported (1 when there are no regions) */ char_u si_region_name[16]; /* region names (if count > 1) */ garray_T si_rep; /* list of fromto_T entries from REP lines */ garray_T si_sal; /* list of fromto_T entries from SAL lines */ char_u *si_sofofr; /* SOFOFROM text */ char_u *si_sofoto; /* SOFOTO text */ int si_followup; /* soundsalike: ? */ int si_collapse; /* soundsalike: ? */ int si_rem_accents; /* soundsalike: remove accents */ garray_T si_map; /* MAP info concatenated */ char_u *si_midword; /* MIDWORD chars, alloc'ed string or NULL */ garray_T si_prefcond; /* table with conditions for postponed * prefixes, each stored as a string */ int si_newID; /* current value for ah_newID */ } spellinfo_T; static afffile_T *spell_read_aff __ARGS((char_u *fname, spellinfo_T *spin)); static int str_equal __ARGS((char_u *s1, char_u *s2)); static void add_fromto __ARGS((spellinfo_T *spin, garray_T *gap, char_u *from, char_u *to)); static int sal_to_bool __ARGS((char_u *s)); static int has_non_ascii __ARGS((char_u *s)); static void spell_free_aff __ARGS((afffile_T *aff)); static int spell_read_dic __ARGS((char_u *fname, spellinfo_T *spin, afffile_T *affile)); static char_u *get_pfxlist __ARGS((afffile_T *affile, char_u *afflist, sblock_T **blp)); static int store_aff_word __ARGS((char_u *word, spellinfo_T *spin, char_u *afflist, afffile_T *affile, hashtab_T *ht, hashtab_T *xht, int comb, int flags, char_u *pfxlist)); static int spell_read_wordfile __ARGS((char_u *fname, spellinfo_T *spin)); static void *getroom __ARGS((sblock_T **blp, size_t len)); static char_u *getroom_save __ARGS((sblock_T **blp, char_u *s)); static void free_blocks __ARGS((sblock_T *bl)); static wordnode_T *wordtree_alloc __ARGS((sblock_T **blp)); static int store_word __ARGS((char_u *word, spellinfo_T *spin, int flags, int region, char_u *pfxlist)); static int tree_add_word __ARGS((char_u *word, wordnode_T *tree, int flags, int region, int prefixID, sblock_T **blp)); static void wordtree_compress __ARGS((wordnode_T *root, spellinfo_T *spin)); static int node_compress __ARGS((wordnode_T *node, hashtab_T *ht, int *tot)); static int node_equal __ARGS((wordnode_T *n1, wordnode_T *n2)); static void write_vim_spell __ARGS((char_u *fname, spellinfo_T *spin)); static void clear_node __ARGS((wordnode_T *node)); static int put_node __ARGS((FILE *fd, wordnode_T *node, int index, int regionmask, int prefixtree)); static void mkspell __ARGS((int fcount, char_u **fnames, int ascii, int overwrite, int added_word)); static void init_spellfile __ARGS((void)); /* values for wn_flags used in the postponed prefixes tree */ #define PFX_FLAGS -1 /* not rare, combining */ #define PFX_FLAGS_R -2 /* rare, combining */ #define PFX_FLAGS_NC -3 /* not rare, not combining */ #define PFX_FLAGS_RNC -4 /* rare, not combining */ /* * Read the affix file "fname". * Returns an afffile_T, NULL for complete failure. */ static afffile_T * spell_read_aff(fname, spin) char_u *fname; spellinfo_T *spin; { FILE *fd; afffile_T *aff; char_u rline[MAXLINELEN]; char_u *line; char_u *pc = NULL; #define MAXITEMCNT 7 char_u *(items[MAXITEMCNT]); int itemcnt; char_u *p; int lnum = 0; affheader_T *cur_aff = NULL; int aff_todo = 0; hashtab_T *tp; char_u *low = NULL; char_u *fol = NULL; char_u *upp = NULL; static char *e_affname = N_("Affix name too long in %s line %d: %s"); int do_rep; int do_sal; int do_map; int do_midword; int do_sofo; int found_map = FALSE; hashitem_T *hi; /* * Open the file. */ fd = mch_fopen((char *)fname, "r"); if (fd == NULL) { EMSG2(_(e_notopen), fname); return NULL; } if (spin->si_verbose || p_verbose > 2) { if (!spin->si_verbose) verbose_enter(); smsg((char_u *)_("Reading affix file %s ..."), fname); out_flush(); if (!spin->si_verbose) verbose_leave(); } /* Only do REP lines when not done in another .aff file already. */ do_rep = spin->si_rep.ga_len == 0; /* Only do SAL lines when not done in another .aff file already. */ do_sal = spin->si_sal.ga_len == 0; /* Only do MAP lines when not done in another .aff file already. */ do_map = spin->si_map.ga_len == 0; /* Only do MIDWORD line when not done in another .aff file already */ do_midword = spin->si_midword == NULL; /* Only do SOFOFROM and SOFOTO when not done in another .aff file already */ do_sofo = spin->si_sofofr == NULL; /* * Allocate and init the afffile_T structure. */ aff = (afffile_T *)getroom(&spin->si_blocks, sizeof(afffile_T)); if (aff == NULL) return NULL; hash_init(&aff->af_pref); hash_init(&aff->af_suff); /* * Read all the lines in the file one by one. */ while (!vim_fgets(rline, MAXLINELEN, fd) && !got_int) { line_breakcheck(); ++lnum; /* Skip comment lines. */ if (*rline == '#') continue; /* Convert from "SET" to 'encoding' when needed. */ vim_free(pc); #ifdef FEAT_MBYTE if (spin->si_conv.vc_type != CONV_NONE) { pc = string_convert(&spin->si_conv, rline, NULL); if (pc == NULL) { smsg((char_u *)_("Conversion failure for word in %s line %d: %s"), fname, lnum, rline); continue; } line = pc; } else #endif { pc = NULL; line = rline; } /* Split the line up in white separated items. Put a NUL after each * item. */ itemcnt = 0; for (p = line; ; ) { while (*p != NUL && *p <= ' ') /* skip white space and CR/NL */ ++p; if (*p == NUL) break; if (itemcnt == MAXITEMCNT) /* too many items */ break; items[itemcnt++] = p; while (*p > ' ') /* skip until white space or CR/NL */ ++p; if (*p == NUL) break; *p++ = NUL; } /* Handle non-empty lines. */ if (itemcnt > 0) { if (STRCMP(items[0], "SET") == 0 && itemcnt == 2 && aff->af_enc == NULL) { #ifdef FEAT_MBYTE /* Setup for conversion from "ENC" to 'encoding'. */ aff->af_enc = enc_canonize(items[1]); if (aff->af_enc != NULL && !spin->si_ascii && convert_setup(&spin->si_conv, aff->af_enc, p_enc) == FAIL) smsg((char_u *)_("Conversion in %s not supported: from %s to %s"), fname, aff->af_enc, p_enc); spin->si_conv.vc_fail = TRUE; #else smsg((char_u *)_("Conversion in %s not supported"), fname); #endif } else if (STRCMP(items[0], "MIDWORD") == 0 && itemcnt == 2) { if (do_midword) spin->si_midword = vim_strsave(items[1]); } else if (STRCMP(items[0], "NOSPLITSUGS") == 0 && itemcnt == 1) { /* ignored, we always split */ } else if (STRCMP(items[0], "TRY") == 0 && itemcnt == 2) { /* ignored, we look in the tree for what chars may appear */ } else if (STRCMP(items[0], "RAR") == 0 && itemcnt == 2 && aff->af_rar == 0) { aff->af_rar = items[1][0]; if (items[1][1] != NUL) smsg((char_u *)_(e_affname), fname, lnum, items[1]); } else if (STRCMP(items[0], "KEP") == 0 && itemcnt == 2 && aff->af_kep == 0) { aff->af_kep = items[1][0]; if (items[1][1] != NUL) smsg((char_u *)_(e_affname), fname, lnum, items[1]); } else if (STRCMP(items[0], "BAD") == 0 && itemcnt == 2 && aff->af_bad == 0) { aff->af_bad = items[1][0]; if (items[1][1] != NUL) smsg((char_u *)_(e_affname), fname, lnum, items[1]); } else if (STRCMP(items[0], "PFXPOSTPONE") == 0 && itemcnt == 1) { aff->af_pfxpostpone = TRUE; } else if ((STRCMP(items[0], "PFX") == 0 || STRCMP(items[0], "SFX") == 0) && aff_todo == 0 && itemcnt >= 4) { /* Myspell allows extra text after the item, but that might * mean mistakes go unnoticed. Require a comment-starter. */ if (itemcnt > 4 && *items[4] != '#') smsg((char_u *)_("Trailing text in %s line %d: %s"), fname, lnum, items[4]); /* New affix letter. */ cur_aff = (affheader_T *)getroom(&spin->si_blocks, sizeof(affheader_T)); if (cur_aff == NULL) break; cur_aff->ah_key[0] = *items[1]; /* TODO: multi-byte? */ cur_aff->ah_key[1] = NUL; if (items[1][1] != NUL) smsg((char_u *)_(e_affname), fname, lnum, items[1]); if (*items[2] == 'Y') cur_aff->ah_combine = TRUE; else if (*items[2] != 'N') smsg((char_u *)_("Expected Y or N in %s line %d: %s"), fname, lnum, items[2]); if (*items[0] == 'P') { tp = &aff->af_pref; /* Use a new number in the .spl file later, to be able to * handle multiple .aff files. */ if (aff->af_pfxpostpone) cur_aff->ah_newID = ++spin->si_newID; } else tp = &aff->af_suff; aff_todo = atoi((char *)items[3]); hi = hash_find(tp, cur_aff->ah_key); if (!HASHITEM_EMPTY(hi)) { smsg((char_u *)_("Duplicate affix in %s line %d: %s"), fname, lnum, items[1]); aff_todo = 0; } else hash_add(tp, cur_aff->ah_key); } else if ((STRCMP(items[0], "PFX") == 0 || STRCMP(items[0], "SFX") == 0) && aff_todo > 0 && STRCMP(cur_aff->ah_key, items[1]) == 0 && itemcnt >= 5) { affentry_T *aff_entry; int rare = FALSE; int lasti = 5; /* Check for "rare" after the other info. */ if (itemcnt > 5 && STRICMP(items[5], "rare") == 0) { rare = TRUE; lasti = 6; } /* Myspell allows extra text after the item, but that might * mean mistakes go unnoticed. Require a comment-starter. */ if (itemcnt > lasti && *items[lasti] != '#') smsg((char_u *)_("Trailing text in %s line %d: %s"), fname, lnum, items[lasti]); /* New item for an affix letter. */ --aff_todo; aff_entry = (affentry_T *)getroom(&spin->si_blocks, sizeof(affentry_T)); if (aff_entry == NULL) break; aff_entry->ae_rare = rare; if (STRCMP(items[2], "0") != 0) aff_entry->ae_chop = getroom_save(&spin->si_blocks, items[2]); if (STRCMP(items[3], "0") != 0) aff_entry->ae_add = getroom_save(&spin->si_blocks, items[3]); /* Don't use an affix entry with non-ASCII characters when * "spin->si_ascii" is TRUE. */ if (!spin->si_ascii || !(has_non_ascii(aff_entry->ae_chop) || has_non_ascii(aff_entry->ae_add))) { aff_entry->ae_next = cur_aff->ah_first; cur_aff->ah_first = aff_entry; if (STRCMP(items[4], ".") != 0) { char_u buf[MAXLINELEN]; aff_entry->ae_cond = getroom_save(&spin->si_blocks, items[4]); if (*items[0] == 'P') sprintf((char *)buf, "^%s", items[4]); else sprintf((char *)buf, "%s$", items[4]); aff_entry->ae_prog = vim_regcomp(buf, RE_MAGIC + RE_STRING); } /* For postponed prefixes we need an entry in si_prefcond * for the condition. Use an existing one if possible. */ if (*items[0] == 'P' && aff->af_pfxpostpone && aff_entry->ae_chop == NULL) { int idx; char_u **pp; int n; for (idx = spin->si_prefcond.ga_len - 1; idx >= 0; --idx) { p = ((char_u **)spin->si_prefcond.ga_data)[idx]; if (str_equal(p, aff_entry->ae_cond)) break; } if (idx < 0 && ga_grow(&spin->si_prefcond, 1) == OK) { /* Not found, add a new condition. */ idx = spin->si_prefcond.ga_len++; pp = ((char_u **)spin->si_prefcond.ga_data) + idx; if (aff_entry->ae_cond == NULL) *pp = NULL; else *pp = getroom_save(&spin->si_blocks, aff_entry->ae_cond); } /* Add the prefix to the prefix tree. */ if (aff_entry->ae_add == NULL) p = (char_u *)""; else p = aff_entry->ae_add; if (rare) { if (cur_aff->ah_combine) n = PFX_FLAGS_R; else n = PFX_FLAGS_RNC; } else { if (cur_aff->ah_combine) n = PFX_FLAGS; else n = PFX_FLAGS_NC; } tree_add_word(p, spin->si_prefroot, n, idx, cur_aff->ah_newID, &spin->si_blocks); } } } else if (STRCMP(items[0], "FOL") == 0 && itemcnt == 2) { if (fol != NULL) smsg((char_u *)_("Duplicate FOL in %s line %d"), fname, lnum); else fol = vim_strsave(items[1]); } else if (STRCMP(items[0], "LOW") == 0 && itemcnt == 2) { if (low != NULL) smsg((char_u *)_("Duplicate LOW in %s line %d"), fname, lnum); else low = vim_strsave(items[1]); } else if (STRCMP(items[0], "UPP") == 0 && itemcnt == 2) { if (upp != NULL) smsg((char_u *)_("Duplicate UPP in %s line %d"), fname, lnum); else upp = vim_strsave(items[1]); } else if (STRCMP(items[0], "REP") == 0 && itemcnt == 2) { /* Ignore REP count */; if (!isdigit(*items[1])) smsg((char_u *)_("Expected REP count in %s line %d"), fname, lnum); } else if (STRCMP(items[0], "REP") == 0 && itemcnt == 3) { /* REP item */ if (do_rep) add_fromto(spin, &spin->si_rep, items[1], items[2]); } else if (STRCMP(items[0], "MAP") == 0 && itemcnt == 2) { /* MAP item or count */ if (!found_map) { /* First line contains the count. */ found_map = TRUE; if (!isdigit(*items[1])) smsg((char_u *)_("Expected MAP count in %s line %d"), fname, lnum); } else if (do_map) { int c; /* Check that every character appears only once. */ for (p = items[1]; *p != NUL; ) { #ifdef FEAT_MBYTE c = mb_ptr2char_adv(&p); #else c = *p++; #endif if ((spin->si_map.ga_len > 0 && vim_strchr(spin->si_map.ga_data, c) != NULL) || vim_strchr(p, c) != NULL) smsg((char_u *)_("Duplicate character in MAP in %s line %d"), fname, lnum); } /* We simply concatenate all the MAP strings, separated by * slashes. */ ga_concat(&spin->si_map, items[1]); ga_append(&spin->si_map, '/'); } } else if (STRCMP(items[0], "SAL") == 0 && itemcnt == 3) { if (do_sal) { /* SAL item (sounds-a-like) * Either one of the known keys or a from-to pair. */ if (STRCMP(items[1], "followup") == 0) spin->si_followup = sal_to_bool(items[2]); else if (STRCMP(items[1], "collapse_result") == 0) spin->si_collapse = sal_to_bool(items[2]); else if (STRCMP(items[1], "remove_accents") == 0) spin->si_rem_accents = sal_to_bool(items[2]); else /* when "to" is "_" it means empty */ add_fromto(spin, &spin->si_sal, items[1], STRCMP(items[2], "_") == 0 ? (char_u *)"" : items[2]); } } else if (STRCMP(items[0], "SOFOFROM") == 0 && itemcnt == 2 && (!do_sofo || spin->si_sofofr == NULL)) { if (do_sofo) spin->si_sofofr = vim_strsave(items[1]); } else if (STRCMP(items[0], "SOFOTO") == 0 && itemcnt == 2 && (!do_sofo || spin->si_sofoto == NULL)) { if (do_sofo) spin->si_sofoto = vim_strsave(items[1]); } else smsg((char_u *)_("Unrecognized item in %s line %d: %s"), fname, lnum, items[0]); } } if (do_sofo && (spin->si_sofofr == NULL) != (spin->si_sofoto == NULL)) smsg((char_u *)_("Missing SOFO%s line in %s"), spin->si_sofofr == NULL ? "FROM" : "TO", fname); if (spin->si_sofofr != NULL && spin->si_sal.ga_len > 0) smsg((char_u *)_("Both SAL and SOFO lines in %s"), fname); if (fol != NULL || low != NULL || upp != NULL) { if (spin->si_clear_chartab) { /* Clear the char type tables, don't want to use any of the * currently used spell properties. */ init_spell_chartab(); spin->si_clear_chartab = FALSE; } /* * Don't write a word table for an ASCII file, so that we don't check * for conflicts with a word table that matches 'encoding'. * Don't write one for utf-8 either, we use utf_*() and * mb_get_class(), the list of chars in the file will be incomplete. */ if (!spin->si_ascii #ifdef FEAT_MBYTE && !enc_utf8 #endif ) { if (fol == NULL || low == NULL || upp == NULL) smsg((char_u *)_("Missing FOL/LOW/UPP line in %s"), fname); else (void)set_spell_chartab(fol, low, upp); } vim_free(fol); vim_free(low); vim_free(upp); } vim_free(pc); fclose(fd); return aff; } /* * Return TRUE if strings "s1" and "s2" are equal. Also consider both being * NULL as equal. */ static int str_equal(s1, s2) char_u *s1; char_u *s2; { if (s1 == NULL || s2 == NULL) return s1 == s2; return STRCMP(s1, s2) == 0; } /* * Add a from-to item to "gap". Used for REP and SAL items. * They are stored case-folded. */ static void add_fromto(spin, gap, from, to) spellinfo_T *spin; garray_T *gap; char_u *from; char_u *to; { fromto_T *ftp; char_u word[MAXWLEN]; if (ga_grow(gap, 1) == OK) { ftp = ((fromto_T *)gap->ga_data) + gap->ga_len; (void)spell_casefold(from, STRLEN(from), word, MAXWLEN); ftp->ft_from = getroom_save(&spin->si_blocks, word); (void)spell_casefold(to, STRLEN(to), word, MAXWLEN); ftp->ft_to = getroom_save(&spin->si_blocks, word); ++gap->ga_len; } } /* * Convert a boolean argument in a SAL line to TRUE or FALSE; */ static int sal_to_bool(s) char_u *s; { return STRCMP(s, "1") == 0 || STRCMP(s, "true") == 0; } /* * Return TRUE if string "s" contains a non-ASCII character (128 or higher). * When "s" is NULL FALSE is returned. */ static int has_non_ascii(s) char_u *s; { char_u *p; if (s != NULL) for (p = s; *p != NUL; ++p) if (*p >= 128) return TRUE; return FALSE; } /* * Free the structure filled by spell_read_aff(). */ static void spell_free_aff(aff) afffile_T *aff; { hashtab_T *ht; hashitem_T *hi; int todo; affheader_T *ah; affentry_T *ae; vim_free(aff->af_enc); /* All this trouble to free the "ae_prog" items... */ for (ht = &aff->af_pref; ; ht = &aff->af_suff) { todo = ht->ht_used; for (hi = ht->ht_array; todo > 0; ++hi) { if (!HASHITEM_EMPTY(hi)) { --todo; ah = HI2AH(hi); for (ae = ah->ah_first; ae != NULL; ae = ae->ae_next) vim_free(ae->ae_prog); } } if (ht == &aff->af_suff) break; } hash_clear(&aff->af_pref); hash_clear(&aff->af_suff); } /* * Read dictionary file "fname". * Returns OK or FAIL; */ static int spell_read_dic(fname, spin, affile) char_u *fname; spellinfo_T *spin; afffile_T *affile; { hashtab_T ht; char_u line[MAXLINELEN]; char_u *afflist; char_u *pfxlist; char_u *dw; char_u *pc; char_u *w; int l; hash_T hash; hashitem_T *hi; FILE *fd; int lnum = 1; int non_ascii = 0; int retval = OK; char_u message[MAXLINELEN + MAXWLEN]; int flags; /* * Open the file. */ fd = mch_fopen((char *)fname, "r"); if (fd == NULL) { EMSG2(_(e_notopen), fname); return FAIL; } /* The hashtable is only used to detect duplicated words. */ hash_init(&ht); spin->si_foldwcount = 0; spin->si_keepwcount = 0; if (spin->si_verbose || p_verbose > 2) { if (!spin->si_verbose) verbose_enter(); smsg((char_u *)_("Reading dictionary file %s ..."), fname); out_flush(); if (!spin->si_verbose) verbose_leave(); } /* Read and ignore the first line: word count. */ (void)vim_fgets(line, MAXLINELEN, fd); if (!vim_isdigit(*skipwhite(line))) EMSG2(_("E760: No word count in %s"), fname); /* * Read all the lines in the file one by one. * The words are converted to 'encoding' here, before being added to * the hashtable. */ while (!vim_fgets(line, MAXLINELEN, fd) && !got_int) { line_breakcheck(); ++lnum; if (line[0] == '#') continue; /* comment line */ /* Remove CR, LF and white space from the end. White space halfway * the word is kept to allow e.g., "et al.". */ l = STRLEN(line); while (l > 0 && line[l - 1] <= ' ') --l; if (l == 0) continue; /* empty line */ line[l] = NUL; /* Find the optional affix names. */ afflist = vim_strchr(line, '/'); if (afflist != NULL) *afflist++ = NUL; /* Skip non-ASCII words when "spin->si_ascii" is TRUE. */ if (spin->si_ascii && has_non_ascii(line)) { ++non_ascii; continue; } #ifdef FEAT_MBYTE /* Convert from "SET" to 'encoding' when needed. */ if (spin->si_conv.vc_type != CONV_NONE) { pc = string_convert(&spin->si_conv, line, NULL); if (pc == NULL) { smsg((char_u *)_("Conversion failure for word in %s line %d: %s"), fname, lnum, line); continue; } w = pc; } else #endif { pc = NULL; w = line; } /* This takes time, print a message now and then. */ if (spin->si_verbose && (lnum & 0x3ff) == 0) { vim_snprintf((char *)message, sizeof(message), _("line %6d, word %6d - %s"), lnum, spin->si_foldwcount + spin->si_keepwcount, w); msg_start(); msg_puts_long_attr(message, 0); msg_clr_eos(); msg_didout = FALSE; msg_col = 0; out_flush(); } /* Store the word in the hashtable to be able to find duplicates. */ dw = (char_u *)getroom_save(&spin->si_blocks, w); if (dw == NULL) retval = FAIL; vim_free(pc); if (retval == FAIL) break; hash = hash_hash(dw); hi = hash_lookup(&ht, dw, hash); if (!HASHITEM_EMPTY(hi)) smsg((char_u *)_("Duplicate word in %s line %d: %s"), fname, lnum, dw); else hash_add_item(&ht, hi, dw, hash); flags = 0; pfxlist = NULL; if (afflist != NULL) { /* Check for affix name that stands for keep-case word and stands * for rare word (if defined). */ if (affile->af_kep != NUL && vim_strchr(afflist, affile->af_kep) != NULL) flags |= WF_KEEPCAP | WF_FIXCAP; if (affile->af_rar != NUL && vim_strchr(afflist, affile->af_rar) != NULL) flags |= WF_RARE; if (affile->af_bad != NUL && vim_strchr(afflist, affile->af_bad) != NULL) flags |= WF_BANNED; if (affile->af_pfxpostpone) /* Need to store the list of prefix IDs with the word. */ pfxlist = get_pfxlist(affile, afflist, &spin->si_blocks); } /* Add the word to the word tree(s). */ if (store_word(dw, spin, flags, spin->si_region, pfxlist) == FAIL) retval = FAIL; if (afflist != NULL) { /* Find all matching suffixes and add the resulting words. * Additionally do matching prefixes that combine. */ if (store_aff_word(dw, spin, afflist, affile, &affile->af_suff, &affile->af_pref, FALSE, flags, pfxlist) == FAIL) retval = FAIL; /* Find all matching prefixes and add the resulting words. */ if (store_aff_word(dw, spin, afflist, affile, &affile->af_pref, NULL, FALSE, flags, pfxlist) == FAIL) retval = FAIL; } } if (spin->si_ascii && non_ascii > 0) smsg((char_u *)_("Ignored %d words with non-ASCII characters"), non_ascii); hash_clear(&ht); fclose(fd); return retval; } /* * Get the list of prefix IDs from the affix list "afflist". * Used for PFXPOSTPONE. * Returns a string allocated with getroom(). NULL when there are no prefixes * or when out of memory. */ static char_u * get_pfxlist(affile, afflist, blp) afffile_T *affile; char_u *afflist; sblock_T **blp; { char_u *p; int cnt; int round; char_u *res = NULL; char_u key[2]; hashitem_T *hi; key[1] = NUL; /* round 1: count the number of prefix IDs. * round 2: move prefix IDs to "res" */ for (round = 1; round <= 2; ++round) { cnt = 0; for (p = afflist; *p != NUL; ++p) { key[0] = *p; hi = hash_find(&affile->af_pref, key); if (!HASHITEM_EMPTY(hi)) { /* This is a prefix ID, use the new number. */ if (round == 2) res[cnt] = HI2AH(hi)->ah_newID; ++cnt; } } if (round == 1 && cnt > 0) res = getroom(blp, cnt + 1); if (res == NULL) break; } if (res != NULL) res[cnt] = NUL; return res; } /* * Apply affixes to a word and store the resulting words. * "ht" is the hashtable with affentry_T that need to be applied, either * prefixes or suffixes. * "xht", when not NULL, is the prefix hashtable, to be used additionally on * the resulting words for combining affixes. * * Returns FAIL when out of memory. */ static int store_aff_word(word, spin, afflist, affile, ht, xht, comb, flags, pfxlist) char_u *word; /* basic word start */ spellinfo_T *spin; /* spell info */ char_u *afflist; /* list of names of supported affixes */ afffile_T *affile; hashtab_T *ht; hashtab_T *xht; int comb; /* only use affixes that combine */ int flags; /* flags for the word */ char_u *pfxlist; /* list of prefix IDs */ { int todo; hashitem_T *hi; affheader_T *ah; affentry_T *ae; regmatch_T regmatch; char_u newword[MAXWLEN]; int retval = OK; int i; char_u *p; int use_flags; char_u *use_pfxlist; todo = ht->ht_used; for (hi = ht->ht_array; todo > 0 && retval == OK; ++hi) { if (!HASHITEM_EMPTY(hi)) { --todo; ah = HI2AH(hi); /* Check that the affix combines, if required, and that the word * supports this affix. */ if ((!comb || ah->ah_combine) && vim_strchr(afflist, *ah->ah_key) != NULL) { /* Loop over all affix entries with this name. */ for (ae = ah->ah_first; ae != NULL; ae = ae->ae_next) { /* Check the condition. It's not logical to match case * here, but it is required for compatibility with * Myspell. * For prefixes, when "PFXPOSTPONE" was used, only do * prefixes with a chop string. */ regmatch.regprog = ae->ae_prog; regmatch.rm_ic = FALSE; if ((xht != NULL || !affile->af_pfxpostpone || ae->ae_chop != NULL) && (ae->ae_prog == NULL || vim_regexec(®match, word, (colnr_T)0))) { /* Match. Remove the chop and add the affix. */ if (xht == NULL) { /* prefix: chop/add at the start of the word */ if (ae->ae_add == NULL) *newword = NUL; else STRCPY(newword, ae->ae_add); p = word; if (ae->ae_chop != NULL) { /* Skip chop string. */ #ifdef FEAT_MBYTE if (has_mbyte) { i = mb_charlen(ae->ae_chop); for ( ; i > 0; --i) mb_ptr_adv(p); } else #endif p += STRLEN(ae->ae_chop); } STRCAT(newword, p); } else { /* suffix: chop/add at the end of the word */ STRCPY(newword, word); if (ae->ae_chop != NULL) { /* Remove chop string. */ p = newword + STRLEN(newword); i = MB_CHARLEN(ae->ae_chop); for ( ; i > 0; --i) mb_ptr_back(newword, p); *p = NUL; } if (ae->ae_add != NULL) STRCAT(newword, ae->ae_add); } /* Obey the "rare" flag of the affix. */ if (ae->ae_rare) use_flags = flags | WF_RARE; else use_flags = flags; use_pfxlist = pfxlist; /* When there are postponed prefixes... */ if (spin->si_prefroot != NULL && spin->si_prefroot->wn_sibling != NULL) { /* ... add a flag to indicate an affix was used. */ use_flags |= WF_HAS_AFF; /* ... don't use a prefix list if combining * affixes is not allowed */ if (!ah->ah_combine || comb) use_pfxlist = NULL; } /* Store the modified word. */ if (store_word(newword, spin, use_flags, spin->si_region, use_pfxlist) == FAIL) retval = FAIL; /* When added a suffix and combining is allowed also * try adding prefixes additionally. */ if (xht != NULL && ah->ah_combine) if (store_aff_word(newword, spin, afflist, affile, xht, NULL, TRUE, use_flags, use_pfxlist) == FAIL) retval = FAIL; } } } } } return retval; } /* * Read a file with a list of words. */ static int spell_read_wordfile(fname, spin) char_u *fname; spellinfo_T *spin; { FILE *fd; long lnum = 0; char_u rline[MAXLINELEN]; char_u *line; char_u *pc = NULL; char_u *p; int l; int retval = OK; int did_word = FALSE; int non_ascii = 0; int flags; int regionmask; /* * Open the file. */ fd = mch_fopen((char *)fname, "r"); if (fd == NULL) { EMSG2(_(e_notopen), fname); return FAIL; } if (spin->si_verbose || p_verbose > 2) { if (!spin->si_verbose) verbose_enter(); smsg((char_u *)_("Reading word file %s ..."), fname); out_flush(); if (!spin->si_verbose) verbose_leave(); } /* * Read all the lines in the file one by one. */ while (!vim_fgets(rline, MAXLINELEN, fd) && !got_int) { line_breakcheck(); ++lnum; /* Skip comment lines. */ if (*rline == '#') continue; /* Remove CR, LF and white space from the end. */ l = STRLEN(rline); while (l > 0 && rline[l - 1] <= ' ') --l; if (l == 0) continue; /* empty or blank line */ rline[l] = NUL; /* Convert from "=encoding={encoding}" to 'encoding' when needed. */ vim_free(pc); #ifdef FEAT_MBYTE if (spin->si_conv.vc_type != CONV_NONE) { pc = string_convert(&spin->si_conv, rline, NULL); if (pc == NULL) { smsg((char_u *)_("Conversion failure for word in %s line %d: %s"), fname, lnum, rline); continue; } line = pc; } else #endif { pc = NULL; line = rline; } if (*line == '/') { ++line; if (STRNCMP(line, "encoding=", 9) == 0) { if (spin->si_conv.vc_type != CONV_NONE) smsg((char_u *)_("Duplicate /encoding= line ignored in %s line %d: %s"), fname, lnum, line - 1); else if (did_word) smsg((char_u *)_("/encoding= line after word ignored in %s line %d: %s"), fname, lnum, line - 1); else { #ifdef FEAT_MBYTE char_u *enc; /* Setup for conversion to 'encoding'. */ line += 10; enc = enc_canonize(line); if (enc != NULL && !spin->si_ascii && convert_setup(&spin->si_conv, enc, p_enc) == FAIL) smsg((char_u *)_("Conversion in %s not supported: from %s to %s"), fname, line, p_enc); vim_free(enc); spin->si_conv.vc_fail = TRUE; #else smsg((char_u *)_("Conversion in %s not supported"), fname); #endif } continue; } if (STRNCMP(line, "regions=", 8) == 0) { if (spin->si_region_count > 1) smsg((char_u *)_("Duplicate /regions= line ignored in %s line %d: %s"), fname, lnum, line); else { line += 8; if (STRLEN(line) > 16) smsg((char_u *)_("Too many regions in %s line %d: %s"), fname, lnum, line); else { spin->si_region_count = STRLEN(line) / 2; STRCPY(spin->si_region_name, line); /* Adjust the mask for a word valid in all regions. */ spin->si_region = (1 << spin->si_region_count) - 1; } } continue; } smsg((char_u *)_("/ line ignored in %s line %d: %s"), fname, lnum, line - 1); continue; } flags = 0; regionmask = spin->si_region; /* Check for flags and region after a slash. */ p = vim_strchr(line, '/'); if (p != NULL) { *p++ = NUL; while (*p != NUL) { if (*p == '=') /* keep-case word */ flags |= WF_KEEPCAP | WF_FIXCAP; else if (*p == '!') /* Bad, bad, wicked word. */ flags |= WF_BANNED; else if (*p == '?') /* Rare word. */ flags |= WF_RARE; else if (VIM_ISDIGIT(*p)) /* region number(s) */ { if ((flags & WF_REGION) == 0) /* first one */ regionmask = 0; flags |= WF_REGION; l = *p - '0'; if (l > spin->si_region_count) { smsg((char_u *)_("Invalid region nr in %s line %d: %s"), fname, lnum, p); break; } regionmask |= 1 << (l - 1); } else { smsg((char_u *)_("Unrecognized flags in %s line %d: %s"), fname, lnum, p); break; } ++p; } } /* Skip non-ASCII words when "spin->si_ascii" is TRUE. */ if (spin->si_ascii && has_non_ascii(line)) { ++non_ascii; continue; } /* Normal word: store it. */ if (store_word(line, spin, flags, regionmask, NULL) == FAIL) { retval = FAIL; break; } did_word = TRUE; } vim_free(pc); fclose(fd); if (spin->si_ascii && non_ascii > 0 && (spin->si_verbose || p_verbose > 2)) { if (p_verbose > 2) verbose_enter(); smsg((char_u *)_("Ignored %d words with non-ASCII characters"), non_ascii); if (p_verbose > 2) verbose_leave(); } return retval; } /* * Get part of an sblock_T, "len" bytes long. * This avoids calling free() for every little struct we use. * The memory is cleared to all zeros. * Returns NULL when out of memory. */ static void * getroom(blp, len) sblock_T **blp; size_t len; /* length needed */ { char_u *p; sblock_T *bl = *blp; if (bl == NULL || bl->sb_used + len > SBLOCKSIZE) { /* Allocate a block of memory. This is not freed until much later. */ bl = (sblock_T *)alloc_clear((unsigned)(sizeof(sblock_T) + SBLOCKSIZE)); if (bl == NULL) return NULL; bl->sb_next = *blp; *blp = bl; bl->sb_used = 0; } p = bl->sb_data + bl->sb_used; bl->sb_used += len; return p; } /* * Make a copy of a string into memory allocated with getroom(). */ static char_u * getroom_save(blp, s) sblock_T **blp; char_u *s; { char_u *sc; sc = (char_u *)getroom(blp, STRLEN(s) + 1); if (sc != NULL) STRCPY(sc, s); return sc; } /* * Free the list of allocated sblock_T. */ static void free_blocks(bl) sblock_T *bl; { sblock_T *next; while (bl != NULL) { next = bl->sb_next; vim_free(bl); bl = next; } } /* * Allocate the root of a word tree. */ static wordnode_T * wordtree_alloc(blp) sblock_T **blp; { return (wordnode_T *)getroom(blp, sizeof(wordnode_T)); } /* * Store a word in the tree(s). * Always store it in the case-folded tree. For a keep-case word this is * useful when the word can also be used with all caps (no WF_FIXCAP flag) and * used to find suggestions. * For a keep-case word also store it in the keep-case tree. * When "pfxlist" is not NULL store the word for each postponed prefix ID. */ static int store_word(word, spin, flags, region, pfxlist) char_u *word; spellinfo_T *spin; int flags; /* extra flags, WF_BANNED */ int region; /* supported region(s) */ char_u *pfxlist; /* list of prefix IDs or NULL */ { int len = STRLEN(word); int ct = captype(word, word + len); char_u foldword[MAXWLEN]; int res = OK; char_u *p; (void)spell_casefold(word, len, foldword, MAXWLEN); for (p = pfxlist; res == OK; ++p) { res = tree_add_word(foldword, spin->si_foldroot, ct | flags, region, p == NULL ? 0 : *p, &spin->si_blocks); if (p == NULL || *p == NUL) break; } ++spin->si_foldwcount; if (res == OK && (ct == WF_KEEPCAP || flags & WF_KEEPCAP)) { for (p = pfxlist; res == OK; ++p) { res = tree_add_word(word, spin->si_keeproot, flags, region, p == NULL ? 0 : *p, &spin->si_blocks); if (p == NULL || *p == NUL) break; } ++spin->si_keepwcount; } return res; } /* * Add word "word" to a word tree at "root". * When "flags" < 0 we are adding to the prefix tree where flags is used for * "rare" and "region" is the condition nr. * Returns FAIL when out of memory. */ static int tree_add_word(word, root, flags, region, prefixID, blp) char_u *word; wordnode_T *root; int flags; int region; int prefixID; sblock_T **blp; { wordnode_T *node = root; wordnode_T *np; wordnode_T **prev = NULL; int i; /* Add each byte of the word to the tree, including the NUL at the end. */ for (i = 0; ; ++i) { /* Look for the sibling that has the same character. They are sorted * on byte value, thus stop searching when a sibling is found with a * higher byte value. For zero bytes (end of word) the sorting is * done on flags and then on prefixID */ while (node != NULL && (node->wn_byte < word[i] || (node->wn_byte == NUL && (flags < 0 ? node->wn_prefixID < prefixID : node->wn_flags < (flags & WN_MASK) || (node->wn_flags == (flags & WN_MASK) && node->wn_prefixID < prefixID))))) { prev = &node->wn_sibling; node = *prev; } if (node == NULL || node->wn_byte != word[i] || (word[i] == NUL && (flags < 0 || node->wn_flags != (flags & WN_MASK) || node->wn_prefixID != prefixID))) { /* Allocate a new node. */ np = (wordnode_T *)getroom(blp, sizeof(wordnode_T)); if (np == NULL) return FAIL; np->wn_byte = word[i]; *prev = np; np->wn_sibling = node; node = np; } if (word[i] == NUL) { node->wn_flags = flags; node->wn_region |= region; node->wn_prefixID = prefixID; break; } prev = &node->wn_child; node = *prev; } return OK; } /* * Compress a tree: find tails that are identical and can be shared. */ static void wordtree_compress(root, spin) wordnode_T *root; spellinfo_T *spin; { hashtab_T ht; int n; int tot = 0; if (root != NULL) { hash_init(&ht); n = node_compress(root, &ht, &tot); if (spin->si_verbose || p_verbose > 2) { if (!spin->si_verbose) verbose_enter(); smsg((char_u *)_("Compressed %d of %d nodes; %d%% remaining"), n, tot, (tot - n) * 100 / tot); if (p_verbose > 2) verbose_leave(); } hash_clear(&ht); } } /* * Compress a node, its siblings and its children, depth first. * Returns the number of compressed nodes. */ static int node_compress(node, ht, tot) wordnode_T *node; hashtab_T *ht; int *tot; /* total count of nodes before compressing, incremented while going through the tree */ { wordnode_T *np; wordnode_T *tp; wordnode_T *child; hash_T hash; hashitem_T *hi; int len = 0; unsigned nr, n; int compressed = 0; /* * Go through the list of siblings. Compress each child and then try * finding an identical child to replace it. * Note that with "child" we mean not just the node that is pointed to, * but the whole list of siblings, of which the node is the first. */ for (np = node; np != NULL; np = np->wn_sibling) { ++len; if ((child = np->wn_child) != NULL) { /* Compress the child. This fills hashkey. */ compressed += node_compress(child, ht, tot); /* Try to find an identical child. */ hash = hash_hash(child->wn_u1.hashkey); hi = hash_lookup(ht, child->wn_u1.hashkey, hash); tp = NULL; if (!HASHITEM_EMPTY(hi)) { /* There are children with an identical hash value. Now check * if there is one that is really identical. */ for (tp = HI2WN(hi); tp != NULL; tp = tp->wn_u2.next) if (node_equal(child, tp)) { /* Found one! Now use that child in place of the * current one. This means the current child is * dropped from the tree. */ np->wn_child = tp; ++compressed; break; } if (tp == NULL) { /* No other child with this hash value equals the child of * the node, add it to the linked list after the first * item. */ tp = HI2WN(hi); child->wn_u2.next = tp->wn_u2.next; tp->wn_u2.next = child; } } else /* No other child has this hash value, add it to the * hashtable. */ hash_add_item(ht, hi, child->wn_u1.hashkey, hash); } } *tot += len; /* * Make a hash key for the node and its siblings, so that we can quickly * find a lookalike node. This must be done after compressing the sibling * list, otherwise the hash key would become invalid by the compression. */ node->wn_u1.hashkey[0] = len; nr = 0; for (np = node; np != NULL; np = np->wn_sibling) { if (np->wn_byte == NUL) /* end node: use wn_flags, wn_region and wn_prefixID */ n = np->wn_flags + (np->wn_region << 8) + (np->wn_prefixID << 16); else /* byte node: use the byte value and the child pointer */ n = np->wn_byte + ((long_u)np->wn_child << 8); nr = nr * 101 + n; } /* Avoid NUL bytes, it terminates the hash key. */ n = nr & 0xff; node->wn_u1.hashkey[1] = n == 0 ? 1 : n; n = (nr >> 8) & 0xff; node->wn_u1.hashkey[2] = n == 0 ? 1 : n; n = (nr >> 16) & 0xff; node->wn_u1.hashkey[3] = n == 0 ? 1 : n; n = (nr >> 24) & 0xff; node->wn_u1.hashkey[4] = n == 0 ? 1 : n; node->wn_u1.hashkey[5] = NUL; return compressed; } /* * Return TRUE when two nodes have identical siblings and children. */ static int node_equal(n1, n2) wordnode_T *n1; wordnode_T *n2; { wordnode_T *p1; wordnode_T *p2; for (p1 = n1, p2 = n2; p1 != NULL && p2 != NULL; p1 = p1->wn_sibling, p2 = p2->wn_sibling) if (p1->wn_byte != p2->wn_byte || (p1->wn_byte == NUL ? (p1->wn_flags != p2->wn_flags || p1->wn_region != p2->wn_region || p1->wn_prefixID != p2->wn_prefixID) : (p1->wn_child != p2->wn_child))) break; return p1 == NULL && p2 == NULL; } /* * Write a number to file "fd", MSB first, in "len" bytes. */ void put_bytes(fd, nr, len) FILE *fd; long_u nr; int len; { int i; for (i = len - 1; i >= 0; --i) putc((int)(nr >> (i * 8)), fd); } static int #ifdef __BORLANDC__ _RTLENTRYF #endif rep_compare __ARGS((const void *s1, const void *s2)); /* * Function given to qsort() to sort the REP items on "from" string. */ static int #ifdef __BORLANDC__ _RTLENTRYF #endif rep_compare(s1, s2) const void *s1; const void *s2; { fromto_T *p1 = (fromto_T *)s1; fromto_T *p2 = (fromto_T *)s2; return STRCMP(p1->ft_from, p2->ft_from); } /* * Write the Vim spell file "fname". */ static void write_vim_spell(fname, spin) char_u *fname; spellinfo_T *spin; { FILE *fd; int regionmask; int round; wordnode_T *tree; int nodecount; int i; int l; garray_T *gap; fromto_T *ftp; char_u *p; int rr; fd = mch_fopen((char *)fname, "w"); if (fd == NULL) { EMSG2(_(e_notopen), fname); return; } /*

: ... * * * * ... */ /* */ if (fwrite(VIMSPELLMAGIC, VIMSPELLMAGICL, (size_t)1, fd) != 1) EMSG(_(e_write)); /* write the region names if there is more than one */ if (spin->si_region_count > 1) { putc(spin->si_region_count, fd); /* ... */ fwrite(spin->si_region_name, (size_t)(spin->si_region_count * 2), (size_t)1, fd); regionmask = (1 << spin->si_region_count) - 1; } else { putc(0, fd); regionmask = 0; } /* * Write the table with character flags and table for case folding. * * Skip this for ASCII, the table may conflict with the one used for * 'encoding'. * Also skip this for an .add.spl file, the main spell file must contain * the table (avoids that it conflicts). File is shorter too. */ if (spin->si_ascii || spin->si_add) { putc(0, fd); putc(0, fd); putc(0, fd); } else write_spell_chartab(fd); if (spin->si_midword == NULL) put_bytes(fd, 0L, 2); /* */ else { i = STRLEN(spin->si_midword); put_bytes(fd, (long_u)i, 2); /* */ fwrite(spin->si_midword, (size_t)i, (size_t)1, fd); /* */ } /* Write the prefix conditions. */ write_spell_prefcond(fd, &spin->si_prefcond); /* : ... * ... * */ /* Sort the REP items. */ qsort(spin->si_rep.ga_data, (size_t)spin->si_rep.ga_len, sizeof(fromto_T), rep_compare); /* round 1: REP items * round 2: SAL items (unless SOFO is used) */ for (round = 1; round <= 2; ++round) { if (round == 1) gap = &spin->si_rep; else { gap = &spin->si_sal; i = 0; if (spin->si_followup) i |= SAL_F0LLOWUP; if (spin->si_collapse) i |= SAL_COLLAPSE; if (spin->si_rem_accents) i |= SAL_REM_ACCENTS; if (spin->si_sofofr != NULL && spin->si_sofoto != NULL) i |= SAL_SOFO; putc(i, fd); /* */ if (i & SAL_SOFO) break; } put_bytes(fd, (long_u)gap->ga_len, 2); /* or */ for (i = 0; i < gap->ga_len; ++i) { /* : */ /* : */ ftp = &((fromto_T *)gap->ga_data)[i]; for (rr = 1; rr <= 2; ++rr) { p = rr == 1 ? ftp->ft_from : ftp->ft_to; l = STRLEN(p); putc(l, fd); fwrite(p, l, (size_t)1, fd); } } } /* SOFOFROM and SOFOTO */ if (spin->si_sofofr != NULL && spin->si_sofoto != NULL) { put_bytes(fd, 1L, 2); /* */ l = STRLEN(spin->si_sofofr); put_bytes(fd, (long_u)l, 2); /* */ fwrite(spin->si_sofofr, l, (size_t)1, fd); /* */ l = STRLEN(spin->si_sofoto); put_bytes(fd, (long_u)l, 2); /* */ fwrite(spin->si_sofoto, l, (size_t)1, fd); /* */ } put_bytes(fd, (long_u)spin->si_map.ga_len, 2); /* */ if (spin->si_map.ga_len > 0) /* */ fwrite(spin->si_map.ga_data, (size_t)spin->si_map.ga_len, (size_t)1, fd); /* * */ spin->si_memtot = 0; for (round = 1; round <= 3; ++round) { if (round == 1) tree = spin->si_foldroot; else if (round == 2) tree = spin->si_keeproot; else tree = spin->si_prefroot; /* Clear the index and wnode fields in the tree. */ clear_node(tree); /* Count the number of nodes. Needed to be able to allocate the * memory when reading the nodes. Also fills in index for shared * nodes. */ nodecount = put_node(NULL, tree, 0, regionmask, round == 3); /* number of nodes in 4 bytes */ put_bytes(fd, (long_u)nodecount, 4); /* */ spin->si_memtot += nodecount + nodecount * sizeof(int); /* Write the nodes. */ (void)put_node(fd, tree, 0, regionmask, round == 3); } fclose(fd); } /* * Clear the index and wnode fields of "node", it siblings and its * children. This is needed because they are a union with other items to save * space. */ static void clear_node(node) wordnode_T *node; { wordnode_T *np; if (node != NULL) for (np = node; np != NULL; np = np->wn_sibling) { np->wn_u1.index = 0; np->wn_u2.wnode = NULL; if (np->wn_byte != NUL) clear_node(np->wn_child); } } /* * Dump a word tree at node "node". * * This first writes the list of possible bytes (siblings). Then for each * byte recursively write the children. * * NOTE: The code here must match the code in read_tree(), since assumptions * are made about the indexes (so that we don't have to write them in the * file). * * Returns the number of nodes used. */ static int put_node(fd, node, index, regionmask, prefixtree) FILE *fd; /* NULL when only counting */ wordnode_T *node; int index; int regionmask; int prefixtree; /* TRUE for PREFIXTREE */ { int newindex = index; int siblingcount = 0; wordnode_T *np; int flags; /* If "node" is zero the tree is empty. */ if (node == NULL) return 0; /* Store the index where this node is written. */ node->wn_u1.index = index; /* Count the number of siblings. */ for (np = node; np != NULL; np = np->wn_sibling) ++siblingcount; /* Write the sibling count. */ if (fd != NULL) putc(siblingcount, fd); /* */ /* Write each sibling byte and optionally extra info. */ for (np = node; np != NULL; np = np->wn_sibling) { if (np->wn_byte == 0) { if (fd != NULL) { /* For a NUL byte (end of word) write the flags etc. */ if (prefixtree) { /* In PREFIXTREE write the required prefixID and the * associated condition nr (stored in wn_region). The * byte value is misused to store the "rare" and "not * combining" flags */ if (np->wn_flags == (short_u)PFX_FLAGS_R) putc(BY_FLAGS, fd); /* */ else if (np->wn_flags == (short_u)PFX_FLAGS_NC) putc(BY_PFX_NC, fd); else if (np->wn_flags == (short_u)PFX_FLAGS_RNC) putc(BY_PFX_RNC, fd); else putc(BY_NOFLAGS, fd); putc(np->wn_prefixID, fd); /* */ put_bytes(fd, (long_u)np->wn_region, 2); /* */ } else { /* For word trees we write the flag/region items. */ flags = np->wn_flags; if (regionmask != 0 && np->wn_region != regionmask) flags |= WF_REGION; if (np->wn_prefixID != 0) flags |= WF_PFX; if (flags == 0) { /* word without flags or region */ putc(BY_NOFLAGS, fd); /* */ } else { if (np->wn_flags >= 0x100) { putc(BY_FLAGS2, fd); /* */ putc(flags, fd); /* */ putc((unsigned)flags >> 8, fd); /* */ } else { putc(BY_FLAGS, fd); /* */ putc(flags, fd); /* */ } if (flags & WF_REGION) putc(np->wn_region, fd); /* */ if (flags & WF_PFX) putc(np->wn_prefixID, fd); /* */ } } } } else { if (np->wn_child->wn_u1.index != 0 && np->wn_child->wn_u2.wnode != node) { /* The child is written elsewhere, write the reference. */ if (fd != NULL) { putc(BY_INDEX, fd); /* */ /* */ put_bytes(fd, (long_u)np->wn_child->wn_u1.index, 3); } } else if (np->wn_child->wn_u2.wnode == NULL) /* We will write the child below and give it an index. */ np->wn_child->wn_u2.wnode = node; if (fd != NULL) if (putc(np->wn_byte, fd) == EOF) /* or */ { EMSG(_(e_write)); return 0; } } } /* Space used in the array when reading: one for each sibling and one for * the count. */ newindex += siblingcount + 1; /* Recursively dump the children of each sibling. */ for (np = node; np != NULL; np = np->wn_sibling) if (np->wn_byte != 0 && np->wn_child->wn_u2.wnode == node) newindex = put_node(fd, np->wn_child, newindex, regionmask, prefixtree); return newindex; } /* * ":mkspell [-ascii] outfile infile ..." * ":mkspell [-ascii] addfile" */ void ex_mkspell(eap) exarg_T *eap; { int fcount; char_u **fnames; char_u *arg = eap->arg; int ascii = FALSE; if (STRNCMP(arg, "-ascii", 6) == 0) { ascii = TRUE; arg = skipwhite(arg + 6); } /* Expand all the remaining arguments (e.g., $VIMRUNTIME). */ if (get_arglist_exp(arg, &fcount, &fnames) == OK) { mkspell(fcount, fnames, ascii, eap->forceit, FALSE); FreeWild(fcount, fnames); } } /* * Create a Vim spell file from one or more word lists. * "fnames[0]" is the output file name. * "fnames[fcount - 1]" is the last input file name. * Exception: when "fnames[0]" ends in ".add" it's used as the input file name * and ".spl" is appended to make the output file name. */ static void mkspell(fcount, fnames, ascii, overwrite, added_word) int fcount; char_u **fnames; int ascii; /* -ascii argument given */ int overwrite; /* overwrite existing output file */ int added_word; /* invoked through "zg" */ { char_u fname[MAXPATHL]; char_u wfname[MAXPATHL]; char_u **innames; int incount; afffile_T *(afile[8]); int i; int len; struct stat st; int error = FALSE; spellinfo_T spin; vim_memset(&spin, 0, sizeof(spin)); spin.si_verbose = !added_word; spin.si_ascii = ascii; spin.si_followup = TRUE; spin.si_rem_accents = TRUE; ga_init2(&spin.si_rep, (int)sizeof(fromto_T), 20); ga_init2(&spin.si_sal, (int)sizeof(fromto_T), 20); ga_init2(&spin.si_map, (int)sizeof(char_u), 100); ga_init2(&spin.si_prefcond, (int)sizeof(char_u *), 50); /* default: fnames[0] is output file, following are input files */ innames = &fnames[1]; incount = fcount - 1; if (fcount >= 1) { len = STRLEN(fnames[0]); if (fcount == 1 && len > 4 && STRCMP(fnames[0] + len - 4, ".add") == 0) { /* For ":mkspell path/en.latin1.add" output file is * "path/en.latin1.add.spl". */ innames = &fnames[0]; incount = 1; vim_snprintf((char *)wfname, sizeof(wfname), "%s.spl", fnames[0]); } else if (fcount == 1) { /* For ":mkspell path/vim" output file is "path/vim.latin1.spl". */ innames = &fnames[0]; incount = 1; vim_snprintf((char *)wfname, sizeof(wfname), "%s.%s.spl", fnames[0], spin.si_ascii ? (char_u *)"ascii" : spell_enc()); } else if (len > 4 && STRCMP(fnames[0] + len - 4, ".spl") == 0) { /* Name ends in ".spl", use as the file name. */ vim_strncpy(wfname, fnames[0], sizeof(wfname) - 1); } else /* Name should be language, make the file name from it. */ vim_snprintf((char *)wfname, sizeof(wfname), "%s.%s.spl", fnames[0], spin.si_ascii ? (char_u *)"ascii" : spell_enc()); /* Check for .ascii.spl. */ if (strstr((char *)gettail(wfname), ".ascii.") != NULL) spin.si_ascii = TRUE; /* Check for .add.spl. */ if (strstr((char *)gettail(wfname), ".add.") != NULL) spin.si_add = TRUE; } if (incount <= 0) EMSG(_(e_invarg)); /* need at least output and input names */ else if (vim_strchr(gettail(wfname), '_') != NULL) EMSG(_("E751: Output file name must not have region name")); else if (incount > 8) EMSG(_("E754: Only up to 8 regions supported")); else { /* Check for overwriting before doing things that may take a lot of * time. */ if (!overwrite && mch_stat((char *)wfname, &st) >= 0) { EMSG(_(e_exists)); return; } if (mch_isdir(wfname)) { EMSG2(_(e_isadir2), wfname); return; } /* * Init the aff and dic pointers. * Get the region names if there are more than 2 arguments. */ for (i = 0; i < incount; ++i) { afile[i] = NULL; if (incount > 1) { len = STRLEN(innames[i]); if (STRLEN(gettail(innames[i])) < 5 || innames[i][len - 3] != '_') { EMSG2(_("E755: Invalid region in %s"), innames[i]); return; } spin.si_region_name[i * 2] = TOLOWER_ASC(innames[i][len - 2]); spin.si_region_name[i * 2 + 1] = TOLOWER_ASC(innames[i][len - 1]); } } spin.si_region_count = incount; spin.si_foldroot = wordtree_alloc(&spin.si_blocks); spin.si_keeproot = wordtree_alloc(&spin.si_blocks); spin.si_prefroot = wordtree_alloc(&spin.si_blocks); if (spin.si_foldroot == NULL || spin.si_keeproot == NULL || spin.si_prefroot == NULL) { error = TRUE; return; } /* When not producing a .add.spl file clear the character table when * we encounter one in the .aff file. This means we dump the current * one in the .spl file if the .aff file doesn't define one. That's * better than guessing the contents, the table will match a * previously loaded spell file. */ if (!spin.si_add) spin.si_clear_chartab = TRUE; /* * Read all the .aff and .dic files. * Text is converted to 'encoding'. * Words are stored in the case-folded and keep-case trees. */ for (i = 0; i < incount && !error; ++i) { spin.si_conv.vc_type = CONV_NONE; spin.si_region = 1 << i; vim_snprintf((char *)fname, sizeof(fname), "%s.aff", innames[i]); if (mch_stat((char *)fname, &st) >= 0) { /* Read the .aff file. Will init "spin->si_conv" based on the * "SET" line. */ afile[i] = spell_read_aff(fname, &spin); if (afile[i] == NULL) error = TRUE; else { /* Read the .dic file and store the words in the trees. */ vim_snprintf((char *)fname, sizeof(fname), "%s.dic", innames[i]); if (spell_read_dic(fname, &spin, afile[i]) == FAIL) error = TRUE; } } else { /* No .aff file, try reading the file as a word list. Store * the words in the trees. */ if (spell_read_wordfile(innames[i], &spin) == FAIL) error = TRUE; } #ifdef FEAT_MBYTE /* Free any conversion stuff. */ convert_setup(&spin.si_conv, NULL, NULL); #endif } if (!error) { /* * Remove the dummy NUL from the start of the tree root. */ spin.si_foldroot = spin.si_foldroot->wn_sibling; spin.si_keeproot = spin.si_keeproot->wn_sibling; spin.si_prefroot = spin.si_prefroot->wn_sibling; /* * Combine tails in the tree. */ if (!added_word || p_verbose > 2) { if (added_word) verbose_enter(); MSG(_("Compressing word tree...")); out_flush(); if (added_word) verbose_leave(); } wordtree_compress(spin.si_foldroot, &spin); wordtree_compress(spin.si_keeproot, &spin); wordtree_compress(spin.si_prefroot, &spin); } if (!error) { /* * Write the info in the spell file. */ if (!added_word || p_verbose > 2) { if (added_word) verbose_enter(); smsg((char_u *)_("Writing spell file %s ..."), wfname); out_flush(); if (added_word) verbose_leave(); } write_vim_spell(wfname, &spin); if (!added_word || p_verbose > 2) { if (added_word) verbose_enter(); MSG(_("Done!")); smsg((char_u *)_("Estimated runtime memory use: %d bytes"), spin.si_memtot); out_flush(); if (added_word) verbose_leave(); } /* If the file is loaded need to reload it. */ spell_reload_one(wfname, added_word); } /* Free the allocated memory. */ ga_clear(&spin.si_rep); ga_clear(&spin.si_sal); ga_clear(&spin.si_map); ga_clear(&spin.si_prefcond); vim_free(spin.si_midword); vim_free(spin.si_sofofr); vim_free(spin.si_sofoto); /* Free the .aff file structures. */ for (i = 0; i < incount; ++i) if (afile[i] != NULL) spell_free_aff(afile[i]); /* Free all the bits and pieces at once. */ free_blocks(spin.si_blocks); } } /* * ":[count]spellgood {word}" * ":[count]spellwrong {word}" */ void ex_spell(eap) exarg_T *eap; { spell_add_word(eap->arg, STRLEN(eap->arg), eap->cmdidx == CMD_spellwrong, eap->forceit ? 0 : (int)eap->line2); } /* * Add "word[len]" to 'spellfile' as a good or bad word. */ void spell_add_word(word, len, bad, index) char_u *word; int len; int bad; int index; /* "zG" and "zW": zero, otherwise index in 'spellfile' */ { FILE *fd; buf_T *buf = NULL; int new_spf = FALSE; struct stat st; char_u *fname; char_u fnamebuf[MAXPATHL]; char_u line[MAXWLEN * 2]; long fpos, fpos_next = 0; int i; char_u *spf; if (index == 0) /* use internal wordlist */ { if (int_wordlist == NULL) { int_wordlist = vim_tempname('s'); if (int_wordlist == NULL) return; } fname = int_wordlist; } else { /* If 'spellfile' isn't set figure out a good default value. */ if (*curbuf->b_p_spf == NUL) { init_spellfile(); new_spf = TRUE; } if (*curbuf->b_p_spf == NUL) { EMSG(_("E764: 'spellfile' is not set")); return; } for (spf = curbuf->b_p_spf, i = 1; *spf != NUL; ++i) { copy_option_part(&spf, fnamebuf, MAXPATHL, ","); if (i == index) break; if (*spf == NUL) { EMSGN(_("E765: 'spellfile' does not have %ld enties"), index); return; } } /* Check that the user isn't editing the .add file somewhere. */ buf = buflist_findname_exp(fnamebuf); if (buf != NULL && buf->b_ml.ml_mfp == NULL) buf = NULL; if (buf != NULL && bufIsChanged(buf)) { EMSG(_(e_bufloaded)); return; } fname = fnamebuf; } if (bad) { /* When the word also appears as good word we need to remove that one, * since its flags sort before the one with WF_BANNED. */ fd = mch_fopen((char *)fname, "r"); if (fd != NULL) { while (!vim_fgets(line, MAXWLEN * 2, fd)) { fpos = fpos_next; fpos_next = ftell(fd); if (STRNCMP(word, line, len) == 0 && (line[len] == '/' || line[len] < ' ')) { /* Found duplicate word. Remove it by writing a '#' at * the start of the line. Mixing reading and writing * doesn't work for all systems, close the file first. */ fclose(fd); fd = mch_fopen((char *)fname, "r+"); if (fd == NULL) break; if (fseek(fd, fpos, SEEK_SET) == 0) fputc('#', fd); fseek(fd, fpos_next, SEEK_SET); } } fclose(fd); } } fd = mch_fopen((char *)fname, "a"); if (fd == NULL && new_spf) { /* We just initialized the 'spellfile' option and can't open the file. * We may need to create the "spell" directory first. We already * checked the runtime directory is writable in init_spellfile(). */ STRCPY(NameBuff, fname); *gettail_sep(NameBuff) = NUL; if (mch_stat((char *)NameBuff, &st) < 0) { /* The directory doesn't exist. Try creating it and opening the * file again. */ vim_mkdir(NameBuff, 0755); fd = mch_fopen((char *)fname, "a"); } } if (fd == NULL) EMSG2(_(e_notopen), fname); else { if (bad) fprintf(fd, "%.*s/!\n", len, word); else fprintf(fd, "%.*s\n", len, word); fclose(fd); /* Update the .add.spl file. */ mkspell(1, &fname, FALSE, TRUE, TRUE); /* If the .add file is edited somewhere, reload it. */ if (buf != NULL) buf_reload(buf); redraw_all_later(NOT_VALID); } } /* * Initialize 'spellfile' for the current buffer. */ static void init_spellfile() { char_u buf[MAXPATHL]; int l; slang_T *sl; char_u *rtp; char_u *lend; if (*curbuf->b_p_spl != NUL && curbuf->b_langp.ga_len > 0) { /* Find the end of the language name. Exclude the region. */ for (lend = curbuf->b_p_spl; *lend != NUL && vim_strchr((char_u *)",._", *lend) == NULL; ++lend) ; /* Loop over all entries in 'runtimepath'. Use the first one where we * are allowed to write. */ rtp = p_rtp; while (*rtp != NUL) { /* Copy the path from 'runtimepath' to buf[]. */ copy_option_part(&rtp, buf, MAXPATHL, ","); if (filewritable(buf) == 2) { /* Use the first language name from 'spelllang' and the * encoding used in the first loaded .spl file. */ sl = LANGP_ENTRY(curbuf->b_langp, 0)->lp_slang; l = STRLEN(buf); vim_snprintf((char *)buf + l, MAXPATHL - l, "/spell/%.*s.%s.add", (int)(lend - curbuf->b_p_spl), curbuf->b_p_spl, strstr((char *)gettail(sl->sl_fname), ".ascii.") != NULL ? (char_u *)"ascii" : spell_enc()); set_option_value((char_u *)"spellfile", 0L, buf, OPT_LOCAL); break; } } } } /* * Init the chartab used for spelling for ASCII. * EBCDIC is not supported! */ static void clear_spell_chartab(sp) spelltab_T *sp; { int i; /* Init everything to FALSE. */ vim_memset(sp->st_isw, FALSE, sizeof(sp->st_isw)); vim_memset(sp->st_isu, FALSE, sizeof(sp->st_isu)); for (i = 0; i < 256; ++i) { sp->st_fold[i] = i; sp->st_upper[i] = i; } /* We include digits. A word shouldn't start with a digit, but handling * that is done separately. */ for (i = '0'; i <= '9'; ++i) sp->st_isw[i] = TRUE; for (i = 'A'; i <= 'Z'; ++i) { sp->st_isw[i] = TRUE; sp->st_isu[i] = TRUE; sp->st_fold[i] = i + 0x20; } for (i = 'a'; i <= 'z'; ++i) { sp->st_isw[i] = TRUE; sp->st_upper[i] = i - 0x20; } } /* * Init the chartab used for spelling. Only depends on 'encoding'. * Called once while starting up and when 'encoding' changes. * The default is to use isalpha(), but the spell file should define the word * characters to make it possible that 'encoding' differs from the current * locale. For utf-8 we don't use isalpha() but our own functions. */ void init_spell_chartab() { int i; did_set_spelltab = FALSE; clear_spell_chartab(&spelltab); #ifdef FEAT_MBYTE if (enc_dbcs) { /* DBCS: assume double-wide characters are word characters. */ for (i = 128; i <= 255; ++i) if (MB_BYTE2LEN(i) == 2) spelltab.st_isw[i] = TRUE; } else if (enc_utf8) { for (i = 128; i < 256; ++i) { spelltab.st_isu[i] = utf_isupper(i); spelltab.st_isw[i] = spelltab.st_isu[i] || utf_islower(i); spelltab.st_fold[i] = utf_fold(i); spelltab.st_upper[i] = utf_toupper(i); } } else #endif { /* Rough guess: use locale-dependent library functions. */ for (i = 128; i < 256; ++i) { if (MB_ISUPPER(i)) { spelltab.st_isw[i] = TRUE; spelltab.st_isu[i] = TRUE; spelltab.st_fold[i] = MB_TOLOWER(i); } else if (MB_ISLOWER(i)) { spelltab.st_isw[i] = TRUE; spelltab.st_upper[i] = MB_TOUPPER(i); } } } } static char *e_affform = N_("E761: Format error in affix file FOL, LOW or UPP"); static char *e_affrange = N_("E762: Character in FOL, LOW or UPP is out of range"); /* * Set the spell character tables from strings in the affix file. */ static int set_spell_chartab(fol, low, upp) char_u *fol; char_u *low; char_u *upp; { /* We build the new tables here first, so that we can compare with the * previous one. */ spelltab_T new_st; char_u *pf = fol, *pl = low, *pu = upp; int f, l, u; clear_spell_chartab(&new_st); while (*pf != NUL) { if (*pl == NUL || *pu == NUL) { EMSG(_(e_affform)); return FAIL; } #ifdef FEAT_MBYTE f = mb_ptr2char_adv(&pf); l = mb_ptr2char_adv(&pl); u = mb_ptr2char_adv(&pu); #else f = *pf++; l = *pl++; u = *pu++; #endif /* Every character that appears is a word character. */ if (f < 256) new_st.st_isw[f] = TRUE; if (l < 256) new_st.st_isw[l] = TRUE; if (u < 256) new_st.st_isw[u] = TRUE; /* if "LOW" and "FOL" are not the same the "LOW" char needs * case-folding */ if (l < 256 && l != f) { if (f >= 256) { EMSG(_(e_affrange)); return FAIL; } new_st.st_fold[l] = f; } /* if "UPP" and "FOL" are not the same the "UPP" char needs * case-folding, it's upper case and the "UPP" is the upper case of * "FOL" . */ if (u < 256 && u != f) { if (f >= 256) { EMSG(_(e_affrange)); return FAIL; } new_st.st_fold[u] = f; new_st.st_isu[u] = TRUE; new_st.st_upper[f] = u; } } if (*pl != NUL || *pu != NUL) { EMSG(_(e_affform)); return FAIL; } return set_spell_finish(&new_st); } /* * Set the spell character tables from strings in the .spl file. */ static int set_spell_charflags(flags, cnt, fol) char_u *flags; int cnt; /* length of "flags" */ char_u *fol; { /* We build the new tables here first, so that we can compare with the * previous one. */ spelltab_T new_st; int i; char_u *p = fol; int c; clear_spell_chartab(&new_st); for (i = 0; i < 128; ++i) { if (i < cnt) { new_st.st_isw[i + 128] = (flags[i] & CF_WORD) != 0; new_st.st_isu[i + 128] = (flags[i] & CF_UPPER) != 0; } if (*p != NUL) { #ifdef FEAT_MBYTE c = mb_ptr2char_adv(&p); #else c = *p++; #endif new_st.st_fold[i + 128] = c; if (i + 128 != c && new_st.st_isu[i + 128] && c < 256) new_st.st_upper[c] = i + 128; } } return set_spell_finish(&new_st); } static int set_spell_finish(new_st) spelltab_T *new_st; { int i; if (did_set_spelltab) { /* check that it's the same table */ for (i = 0; i < 256; ++i) { if (spelltab.st_isw[i] != new_st->st_isw[i] || spelltab.st_isu[i] != new_st->st_isu[i] || spelltab.st_fold[i] != new_st->st_fold[i] || spelltab.st_upper[i] != new_st->st_upper[i]) { EMSG(_("E763: Word characters differ between spell files")); return FAIL; } } } else { /* copy the new spelltab into the one being used */ spelltab = *new_st; did_set_spelltab = TRUE; } return OK; } /* * Return TRUE if "p" points to a word character. * As a special case we see "midword" characters as word character when it is * followed by a word character. This finds they'there but not 'they there'. * Thus this only works properly when past the first character of the word. */ static int spell_iswordp(p, buf) char_u *p; buf_T *buf; /* buffer used */ { #ifdef FEAT_MBYTE char_u *s; int l; int c; if (has_mbyte) { l = MB_BYTE2LEN(*p); s = p; if (l == 1) { /* be quick for ASCII */ if (buf->b_spell_ismw[*p]) { s = p + 1; /* skip a mid-word character */ l = MB_BYTE2LEN(*s); } } else { c = mb_ptr2char(p); if (c < 256 ? buf->b_spell_ismw[c] : (buf->b_spell_ismw_mb != NULL && vim_strchr(buf->b_spell_ismw_mb, c) != NULL)) { s = p + l; l = MB_BYTE2LEN(*s); } } c = mb_ptr2char(s); if (c > 255) return mb_get_class(s) >= 2; return spelltab.st_isw[c]; } #endif return spelltab.st_isw[buf->b_spell_ismw[*p] ? p[1] : p[0]]; } /* * Return TRUE if "p" points to a word character. * Unlike spell_iswordp() this doesn't check for "midword" characters. */ static int spell_iswordp_nmw(p) char_u *p; { #ifdef FEAT_MBYTE int c; if (has_mbyte) { c = mb_ptr2char(p); if (c > 255) return mb_get_class(p) >= 2; return spelltab.st_isw[c]; } #endif return spelltab.st_isw[*p]; } #ifdef FEAT_MBYTE /* * Return TRUE if "p" points to a word character. * Wide version of spell_iswordp(). */ static int spell_iswordp_w(p, buf) int *p; buf_T *buf; { int *s; if (*p < 256 ? buf->b_spell_ismw[*p] : (buf->b_spell_ismw_mb != NULL && vim_strchr(buf->b_spell_ismw_mb, *p) != NULL)) s = p + 1; else s = p; if (*s > 255) { if (enc_utf8) return utf_class(*s) >= 2; if (enc_dbcs) return dbcs_class((unsigned)*s >> 8, *s & 0xff) >= 2; return 0; } return spelltab.st_isw[*s]; } #endif /* * Write the table with prefix conditions to the .spl file. */ static void write_spell_prefcond(fd, gap) FILE *fd; garray_T *gap; { int i; char_u *p; int len; put_bytes(fd, (long_u)gap->ga_len, 2); /* */ for (i = 0; i < gap->ga_len; ++i) { /* : */ p = ((char_u **)gap->ga_data)[i]; if (p == NULL) fputc(0, fd); else { len = STRLEN(p); fputc(len, fd); fwrite(p, (size_t)len, (size_t)1, fd); } } } /* * Write the current tables into the .spl file. * This makes sure the same characters are recognized as word characters when * generating an when using a spell file. */ static void write_spell_chartab(fd) FILE *fd; { char_u charbuf[256 * 4]; int len = 0; int flags; int i; fputc(128, fd); /* */ for (i = 128; i < 256; ++i) { flags = 0; if (spelltab.st_isw[i]) flags |= CF_WORD; if (spelltab.st_isu[i]) flags |= CF_UPPER; fputc(flags, fd); /* */ #ifdef FEAT_MBYTE if (has_mbyte) len += mb_char2bytes(spelltab.st_fold[i], charbuf + len); else #endif charbuf[len++] = spelltab.st_fold[i]; } put_bytes(fd, (long_u)len, 2); /* */ fwrite(charbuf, (size_t)len, (size_t)1, fd); /* */ } /* * Case-fold "str[len]" into "buf[buflen]". The result is NUL terminated. * Uses the character definitions from the .spl file. * When using a multi-byte 'encoding' the length may change! * Returns FAIL when something wrong. */ static int spell_casefold(str, len, buf, buflen) char_u *str; int len; char_u *buf; int buflen; { int i; if (len >= buflen) { buf[0] = NUL; return FAIL; /* result will not fit */ } #ifdef FEAT_MBYTE if (has_mbyte) { int outi = 0; char_u *p; int c; /* Fold one character at a time. */ for (p = str; p < str + len; ) { if (outi + MB_MAXBYTES > buflen) { buf[outi] = NUL; return FAIL; } c = mb_ptr2char_adv(&p); outi += mb_char2bytes(SPELL_TOFOLD(c), buf + outi); } buf[outi] = NUL; } else #endif { /* Be quick for non-multibyte encodings. */ for (i = 0; i < len; ++i) buf[i] = spelltab.st_fold[str[i]]; buf[i] = NUL; } return OK; } #define SPS_BEST 1 #define SPS_FAST 2 #define SPS_DOUBLE 4 static int sps_flags = SPS_BEST; /* * Check the 'spellsuggest' option. Return FAIL if it's wrong. * Sets "sps_flags". */ int spell_check_sps() { char_u *p; char_u buf[MAXPATHL]; int f; sps_flags = 0; for (p = p_sps; *p != NUL; ) { copy_option_part(&p, buf, MAXPATHL, ","); f = 0; if (STRCMP(buf, "best") == 0) f = SPS_BEST; else if (STRCMP(buf, "fast") == 0) f = SPS_FAST; else if (STRCMP(buf, "double") == 0) f = SPS_DOUBLE; else if (STRNCMP(buf, "expr:", 5) != 0 && STRNCMP(buf, "file:", 5) != 0) f = -1; if (f == -1 || (sps_flags != 0 && f != 0)) { sps_flags = SPS_BEST; return FAIL; } if (f != 0) sps_flags = f; } if (sps_flags == 0) sps_flags = SPS_BEST; return OK; } /* Remember what "z?" replaced. */ static char_u *repl_from = NULL; static char_u *repl_to = NULL; /* * "z?": Find badly spelled word under or after the cursor. * Give suggestions for the properly spelled word. */ void spell_suggest() { char_u *line; pos_T prev_cursor = curwin->w_cursor; char_u wcopy[MAXWLEN + 2]; char_u *p; int i; int c; suginfo_T sug; suggest_T *stp; int mouse_used; int need_cap; regmatch_T regmatch; int endcol; char_u *line_copy = NULL; /* Find the start of the badly spelled word. */ if (spell_move_to(FORWARD, TRUE, TRUE) == FAIL || curwin->w_cursor.col > prev_cursor.col) { if (!curwin->w_p_spell || *curbuf->b_p_spl == NUL) return; /* No bad word or it starts after the cursor: use the word under the * cursor. */ curwin->w_cursor = prev_cursor; line = ml_get_curline(); p = line + curwin->w_cursor.col; /* Backup to before start of word. */ while (p > line && spell_iswordp_nmw(p)) mb_ptr_back(line, p); /* Forward to start of word. */ while (*p != NUL && !spell_iswordp_nmw(p)) mb_ptr_adv(p); if (!spell_iswordp_nmw(p)) /* No word found. */ { beep_flush(); return; } curwin->w_cursor.col = p - line; } /* Get the word and its length. */ line = ml_get_curline(); /* Figure out if the word should be capitalised. */ need_cap = FALSE; if (curbuf->b_cap_prog != NULL) { endcol = 0; if ((int)(skipwhite(line) - line) == (int)curwin->w_cursor.col) { /* At start of line, check if previous line is empty or sentence * ends there. */ if (curwin->w_cursor.lnum == 1) need_cap = TRUE; else { line = ml_get(curwin->w_cursor.lnum - 1); if (*skipwhite(line) == NUL) need_cap = TRUE; else { /* Append a space in place of the line break. */ line_copy = concat_str(line, (char_u *)" "); line = line_copy; endcol = STRLEN(line); } } } else endcol = curwin->w_cursor.col; if (endcol > 0) { /* Check if sentence ends before the bad word. */ regmatch.regprog = curbuf->b_cap_prog; regmatch.rm_ic = FALSE; p = line + endcol; for (;;) { mb_ptr_back(line, p); if (p == line || spell_iswordp_nmw(p)) break; if (vim_regexec(®match, p, 0) && regmatch.endp[0] == line + endcol) { need_cap = TRUE; break; } } } /* get the line again, we may have been using the previous one */ line = ml_get_curline(); vim_free(line_copy); } /* Get the list of suggestions */ spell_find_suggest(line + curwin->w_cursor.col, &sug, (int)Rows - 2, TRUE, need_cap); if (sug.su_ga.ga_len == 0) MSG(_("Sorry, no suggestions")); else { vim_free(repl_from); repl_from = NULL; vim_free(repl_to); repl_to = NULL; /* List the suggestions. */ msg_start(); lines_left = Rows; /* avoid more prompt */ vim_snprintf((char *)IObuff, IOSIZE, _("Change \"%.*s\" to:"), sug.su_badlen, sug.su_badptr); msg_puts(IObuff); msg_clr_eos(); msg_putchar('\n'); msg_scroll = TRUE; for (i = 0; i < sug.su_ga.ga_len; ++i) { stp = &SUG(sug.su_ga, i); /* The suggested word may replace only part of the bad word, add * the not replaced part. */ STRCPY(wcopy, stp->st_word); if (sug.su_badlen > stp->st_orglen) vim_strncpy(wcopy + STRLEN(wcopy), sug.su_badptr + stp->st_orglen, sug.su_badlen - stp->st_orglen); vim_snprintf((char *)IObuff, IOSIZE, _("%2d \"%s\""), i + 1, wcopy); msg_puts(IObuff); /* The word may replace more than "su_badlen". */ if (sug.su_badlen < stp->st_orglen) { vim_snprintf((char *)IObuff, IOSIZE, _(" < \"%.*s\""), stp->st_orglen, sug.su_badptr); msg_puts(IObuff); } if (p_verbose > 0) { /* Add the score. */ if (sps_flags & (SPS_DOUBLE | SPS_BEST)) vim_snprintf((char *)IObuff, IOSIZE, _(" (%s%d - %d)"), stp->st_salscore ? "s " : "", stp->st_score, stp->st_altscore); else vim_snprintf((char *)IObuff, IOSIZE, _(" (%d)"), stp->st_score); msg_advance(30); msg_puts(IObuff); } msg_putchar('\n'); } /* Ask for choice. */ i = prompt_for_number(&mouse_used); if (mouse_used) i -= lines_left; if (i > 0 && i <= sug.su_ga.ga_len && u_save_cursor() == OK) { /* Save the from and to text for :spellrepall. */ stp = &SUG(sug.su_ga, i - 1); repl_from = vim_strnsave(sug.su_badptr, stp->st_orglen); repl_to = vim_strsave(stp->st_word); /* Replace the word. */ p = alloc(STRLEN(line) - stp->st_orglen + STRLEN(stp->st_word) + 1); if (p != NULL) { c = sug.su_badptr - line; mch_memmove(p, line, c); STRCPY(p + c, stp->st_word); STRCAT(p, sug.su_badptr + stp->st_orglen); ml_replace(curwin->w_cursor.lnum, p, FALSE); curwin->w_cursor.col = c; changed_bytes(curwin->w_cursor.lnum, c); /* For redo we use a change-word command. */ ResetRedobuff(); AppendToRedobuff((char_u *)"ciw"); AppendToRedobuff(stp->st_word); AppendCharToRedobuff(ESC); } } else curwin->w_cursor = prev_cursor; } spell_find_cleanup(&sug); } /* * ":spellrepall" */ /*ARGSUSED*/ void ex_spellrepall(eap) exarg_T *eap; { pos_T pos = curwin->w_cursor; char_u *frompat; int addlen; char_u *line; char_u *p; int didone = FALSE; int save_ws = p_ws; if (repl_from == NULL || repl_to == NULL) { EMSG(_("E752: No previous spell replacement")); return; } addlen = STRLEN(repl_to) - STRLEN(repl_from); frompat = alloc(STRLEN(repl_from) + 7); if (frompat == NULL) return; sprintf((char *)frompat, "\\V\\<%s\\>", repl_from); p_ws = FALSE; curwin->w_cursor.lnum = 0; while (!got_int) { if (do_search(NULL, '/', frompat, 1L, SEARCH_KEEP) == 0 || u_save_cursor() == FAIL) break; /* Only replace when the right word isn't there yet. This happens * when changing "etc" to "etc.". */ line = ml_get_curline(); if (addlen <= 0 || STRNCMP(line + curwin->w_cursor.col, repl_to, STRLEN(repl_to)) != 0) { p = alloc(STRLEN(line) + addlen + 1); if (p == NULL) break; mch_memmove(p, line, curwin->w_cursor.col); STRCPY(p + curwin->w_cursor.col, repl_to); STRCAT(p, line + curwin->w_cursor.col + STRLEN(repl_from)); ml_replace(curwin->w_cursor.lnum, p, FALSE); changed_bytes(curwin->w_cursor.lnum, curwin->w_cursor.col); didone = TRUE; } curwin->w_cursor.col += STRLEN(repl_to); } p_ws = save_ws; curwin->w_cursor = pos; vim_free(frompat); if (!didone) EMSG2(_("E753: Not found: %s"), repl_from); } /* * Find spell suggestions for "word". Return them in the growarray "*gap" as * a list of allocated strings. */ void spell_suggest_list(gap, word, maxcount) garray_T *gap; char_u *word; int maxcount; /* maximum nr of suggestions */ { suginfo_T sug; int i; suggest_T *stp; char_u *wcopy; spell_find_suggest(word, &sug, maxcount, FALSE, FALSE); /* Make room in "gap". */ ga_init2(gap, sizeof(char_u *), sug.su_ga.ga_len + 1); if (ga_grow(gap, sug.su_ga.ga_len) == FAIL) return; for (i = 0; i < sug.su_ga.ga_len; ++i) { stp = &SUG(sug.su_ga, i); /* The suggested word may replace only part of "word", add the not * replaced part. */ wcopy = alloc(STRLEN(stp->st_word) + STRLEN(sug.su_badptr + stp->st_orglen) + 1); if (wcopy == NULL) break; STRCPY(wcopy, stp->st_word); STRCAT(wcopy, sug.su_badptr + stp->st_orglen); ((char_u **)gap->ga_data)[gap->ga_len++] = wcopy; } spell_find_cleanup(&sug); } /* * Find spell suggestions for the word at the start of "badptr". * Return the suggestions in "su->su_ga". * The maximum number of suggestions is "maxcount". * Note: does use info for the current window. * This is based on the mechanisms of Aspell, but completely reimplemented. */ static void spell_find_suggest(badptr, su, maxcount, banbadword, need_cap) char_u *badptr; suginfo_T *su; int maxcount; int banbadword; /* don't include badword in suggestions */ int need_cap; /* word should start with capital */ { int attr = 0; char_u buf[MAXPATHL]; char_u *p; int do_combine = FALSE; char_u *sps_copy; #ifdef FEAT_EVAL static int expr_busy = FALSE; #endif int c; /* * Set the info in "*su". */ vim_memset(su, 0, sizeof(suginfo_T)); ga_init2(&su->su_ga, (int)sizeof(suggest_T), 10); ga_init2(&su->su_sga, (int)sizeof(suggest_T), 10); if (*badptr == NUL) return; hash_init(&su->su_banned); su->su_badptr = badptr; su->su_badlen = spell_check(curwin, su->su_badptr, &attr, NULL); su->su_maxcount = maxcount; su->su_maxscore = SCORE_MAXINIT; if (su->su_badlen >= MAXWLEN) su->su_badlen = MAXWLEN - 1; /* just in case */ vim_strncpy(su->su_badword, su->su_badptr, su->su_badlen); (void)spell_casefold(su->su_badptr, su->su_badlen, su->su_fbadword, MAXWLEN); /* get caps flags for bad word */ su->su_badflags = captype(su->su_badptr, su->su_badptr + su->su_badlen); if (need_cap) su->su_badflags |= WF_ONECAP; /* If the word is not capitalised and spell_check() doesn't consider the * word to be bad then it might need to be capitalised. Add a suggestion * for that. */ #ifdef FEAT_MBYTE c = mb_ptr2char(su->su_badptr); #else c = *su->su_badptr; #endif if (!SPELL_ISUPPER(c) && attr == 0) { make_case_word(su->su_badword, buf, WF_ONECAP); add_suggestion(su, &su->su_ga, buf, su->su_badlen, SCORE_ICASE, 0, TRUE); } /* Ban the bad word itself. It may appear in another region. */ if (banbadword) add_banned(su, su->su_badword); /* Make a copy of 'spellsuggest', because the expression may change it. */ sps_copy = vim_strsave(p_sps); if (sps_copy == NULL) return; /* Loop over the items in 'spellsuggest'. */ for (p = sps_copy; *p != NUL; ) { copy_option_part(&p, buf, MAXPATHL, ","); if (STRNCMP(buf, "expr:", 5) == 0) { #ifdef FEAT_EVAL /* Evaluate an expression. Skip this when called recursively, * when using spellsuggest() in the expression. */ if (!expr_busy) { expr_busy = TRUE; spell_suggest_expr(su, buf + 5); expr_busy = FALSE; } #endif } else if (STRNCMP(buf, "file:", 5) == 0) /* Use list of suggestions in a file. */ spell_suggest_file(su, buf + 5); else { /* Use internal method. */ spell_suggest_intern(su); if (sps_flags & SPS_DOUBLE) do_combine = TRUE; } } vim_free(sps_copy); if (do_combine) /* Combine the two list of suggestions. This must be done last, * because sorting changes the order again. */ score_combine(su); } #ifdef FEAT_EVAL /* * Find suggestions by evaluating expression "expr". */ static void spell_suggest_expr(su, expr) suginfo_T *su; char_u *expr; { list_T *list; listitem_T *li; int score; char_u *p; /* The work is split up in a few parts to avoid having to export * suginfo_T. * First evaluate the expression and get the resulting list. */ list = eval_spell_expr(su->su_badword, expr); if (list != NULL) { /* Loop over the items in the list. */ for (li = list->lv_first; li != NULL; li = li->li_next) if (li->li_tv.v_type == VAR_LIST) { /* Get the word and the score from the items. */ score = get_spellword(li->li_tv.vval.v_list, &p); if (score >= 0) add_suggestion(su, &su->su_ga, p, su->su_badlen, score, 0, TRUE); } list_unref(list); } /* Sort the suggestions and truncate at "maxcount". */ (void)cleanup_suggestions(&su->su_ga, su->su_maxscore, su->su_maxcount); } #endif /* * Find suggestions a file "fname". */ static void spell_suggest_file(su, fname) suginfo_T *su; char_u *fname; { FILE *fd; char_u line[MAXWLEN * 2]; char_u *p; int len; char_u cword[MAXWLEN]; /* Open the file. */ fd = mch_fopen((char *)fname, "r"); if (fd == NULL) { EMSG2(_(e_notopen), fname); return; } /* Read it line by line. */ while (!vim_fgets(line, MAXWLEN * 2, fd) && !got_int) { line_breakcheck(); p = vim_strchr(line, '/'); if (p == NULL) continue; /* No Tab found, just skip the line. */ *p++ = NUL; if (STRICMP(su->su_badword, line) == 0) { /* Match! Isolate the good word, until CR or NL. */ for (len = 0; p[len] >= ' '; ++len) ; p[len] = NUL; /* If the suggestion doesn't have specific case duplicate the case * of the bad word. */ if (captype(p, NULL) == 0) { make_case_word(p, cword, su->su_badflags); p = cword; } add_suggestion(su, &su->su_ga, p, su->su_badlen, SCORE_FILE, 0, TRUE); } } fclose(fd); /* Sort the suggestions and truncate at "maxcount". */ (void)cleanup_suggestions(&su->su_ga, su->su_maxscore, su->su_maxcount); } /* * Find suggestions for the internal method indicated by "sps_flags". */ static void spell_suggest_intern(su) suginfo_T *su; { /* * 1. Try special cases, such as repeating a word: "the the" -> "the". * * Set a maximum score to limit the combination of operations that is * tried. */ suggest_try_special(su); /* * 2. Try inserting/deleting/swapping/changing a letter, use REP entries * from the .aff file and inserting a space (split the word). */ suggest_try_change(su); /* For the resulting top-scorers compute the sound-a-like score. */ if (sps_flags & SPS_DOUBLE) score_comp_sal(su); /* * 3. Try finding sound-a-like words. * * Only do this when we don't have a lot of suggestions yet, because it's * very slow and often doesn't find new suggestions. */ if ((sps_flags & SPS_DOUBLE) || (!(sps_flags & SPS_FAST) && su->su_ga.ga_len < SUG_CLEAN_COUNT(su))) { /* Allow a higher score now. */ su->su_maxscore = SCORE_MAXMAX; suggest_try_soundalike(su); } /* When CTRL-C was hit while searching do show the results. */ ui_breakcheck(); if (got_int) { (void)vgetc(); got_int = FALSE; } if ((sps_flags & SPS_DOUBLE) == 0 && su->su_ga.ga_len != 0) { if (sps_flags & SPS_BEST) /* Adjust the word score for how it sounds like. */ rescore_suggestions(su); /* Sort the suggestions and truncate at "maxcount". */ (void)cleanup_suggestions(&su->su_ga, su->su_maxscore, su->su_maxcount); } } /* * Free the info put in "*su" by spell_find_suggest(). */ static void spell_find_cleanup(su) suginfo_T *su; { int i; /* Free the suggestions. */ for (i = 0; i < su->su_ga.ga_len; ++i) vim_free(SUG(su->su_ga, i).st_word); ga_clear(&su->su_ga); for (i = 0; i < su->su_sga.ga_len; ++i) vim_free(SUG(su->su_sga, i).st_word); ga_clear(&su->su_sga); /* Free the banned words. */ free_banned(su); } /* * Make a copy of "word", with the first letter upper or lower cased, to * "wcopy[MAXWLEN]". "word" must not be empty. * The result is NUL terminated. */ static void onecap_copy(word, wcopy, upper) char_u *word; char_u *wcopy; int upper; /* TRUE: first letter made upper case */ { char_u *p; int c; int l; p = word; #ifdef FEAT_MBYTE if (has_mbyte) c = mb_ptr2char_adv(&p); else #endif c = *p++; if (upper) c = SPELL_TOUPPER(c); else c = SPELL_TOFOLD(c); #ifdef FEAT_MBYTE if (has_mbyte) l = mb_char2bytes(c, wcopy); else #endif { l = 1; wcopy[0] = c; } vim_strncpy(wcopy + l, p, MAXWLEN - l - 1); } /* * Make a copy of "word" with all the letters upper cased into * "wcopy[MAXWLEN]". The result is NUL terminated. */ static void allcap_copy(word, wcopy) char_u *word; char_u *wcopy; { char_u *s; char_u *d; int c; d = wcopy; for (s = word; *s != NUL; ) { #ifdef FEAT_MBYTE if (has_mbyte) c = mb_ptr2char_adv(&s); else #endif c = *s++; c = SPELL_TOUPPER(c); #ifdef FEAT_MBYTE if (has_mbyte) { if (d - wcopy >= MAXWLEN - MB_MAXBYTES) break; d += mb_char2bytes(c, d); } else #endif { if (d - wcopy >= MAXWLEN - 1) break; *d++ = c; } } *d = NUL; } /* * Try finding suggestions by recognizing specific situations. */ static void suggest_try_special(su) suginfo_T *su; { char_u *p; size_t len; int c; char_u word[MAXWLEN]; /* * Recognize a word that is repeated: "the the". */ p = skiptowhite(su->su_fbadword); len = p - su->su_fbadword; p = skipwhite(p); if (STRLEN(p) == len && STRNCMP(su->su_fbadword, p, len) == 0) { /* Include badflags: if the badword is onecap or allcap * use that for the goodword too: "The the" -> "The". */ c = su->su_fbadword[len]; su->su_fbadword[len] = NUL; make_case_word(su->su_fbadword, word, su->su_badflags); su->su_fbadword[len] = c; add_suggestion(su, &su->su_ga, word, su->su_badlen, SCORE_DEL, 0, TRUE); } } /* * Try finding suggestions by adding/removing/swapping letters. * * This uses a state machine. At each node in the tree we try various * operations. When trying if an operation work "depth" is increased and the * stack[] is used to store info. This allows combinations, thus insert one * character, replace one and delete another. The number of changes is * limited by su->su_maxscore, checked in try_deeper(). */ static void suggest_try_change(su) suginfo_T *su; { char_u fword[MAXWLEN]; /* copy of the bad word, case-folded */ char_u tword[MAXWLEN]; /* good word collected so far */ trystate_T stack[MAXWLEN]; char_u preword[MAXWLEN * 3]; /* word found with proper case (appended * to for word split) */ char_u prewordlen = 0; /* length of word in "preword" */ int splitoff = 0; /* index in tword after last split */ trystate_T *sp; int newscore; langp_T *lp; char_u *byts, *fbyts, *pbyts; idx_T *idxs, *fidxs, *pidxs; int depth; int c, c2, c3; int n; int flags; garray_T *gap; idx_T arridx; int len; char_u *p; fromto_T *ftp; int fl = 0, tl; int repextra = 0; /* extra bytes in fword[] from REP item */ /* We make a copy of the case-folded bad word, so that we can modify it * to find matches (esp. REP items). Append some more text, changing * chars after the bad word may help. */ STRCPY(fword, su->su_fbadword); n = STRLEN(fword); p = su->su_badptr + su->su_badlen; (void)spell_casefold(p, STRLEN(p), fword + n, MAXWLEN - n); for (lp = LANGP_ENTRY(curwin->w_buffer->b_langp, 0); lp->lp_slang != NULL; ++lp) { /* * Go through the whole case-fold tree, try changes at each node. * "tword[]" contains the word collected from nodes in the tree. * "fword[]" the word we are trying to match with (initially the bad * word). */ depth = 0; sp = &stack[0]; sp->ts_state = STATE_START; sp->ts_score = 0; sp->ts_curi = 1; sp->ts_fidx = 0; sp->ts_fidxtry = 0; sp->ts_twordlen = 0; sp->ts_arridx = 0; #ifdef FEAT_MBYTE sp->ts_tcharlen = 0; #endif /* * When there are postponed prefixes we need to use these first. At * the end of the prefix we continue in the case-fold tree. */ fbyts = lp->lp_slang->sl_fbyts; fidxs = lp->lp_slang->sl_fidxs; pbyts = lp->lp_slang->sl_pbyts; pidxs = lp->lp_slang->sl_pidxs; if (pbyts != NULL) { byts = pbyts; idxs = pidxs; sp->ts_prefixdepth = PREFIXTREE; sp->ts_state = STATE_NOPREFIX; /* try without prefix first */ } else { byts = fbyts; idxs = fidxs; sp->ts_prefixdepth = NOPREFIX; } /* * Loop to find all suggestions. At each round we either: * - For the current state try one operation, advance "ts_curi", * increase "depth". * - When a state is done go to the next, set "ts_state". * - When all states are tried decrease "depth". */ while (depth >= 0 && !got_int) { sp = &stack[depth]; switch (sp->ts_state) { case STATE_START: case STATE_NOPREFIX: /* * Start of node: Deal with NUL bytes, which means * tword[] may end here. */ arridx = sp->ts_arridx; /* current node in the tree */ len = byts[arridx]; /* bytes in this node */ arridx += sp->ts_curi; /* index of current byte */ if (sp->ts_prefixdepth == PREFIXTREE) { /* Skip over the NUL bytes, we use them later. */ for (n = 0; n < len && byts[arridx + n] == 0; ++n) ; sp->ts_curi += n; /* Always past NUL bytes now. */ n = (int)sp->ts_state; sp->ts_state = STATE_ENDNUL; /* At end of a prefix or at start of prefixtree: check for * following word. */ if (byts[arridx] == 0 || n == (int)STATE_NOPREFIX) { ++depth; stack[depth] = stack[depth - 1]; sp = &stack[depth]; sp->ts_prefixdepth = depth - 1; byts = fbyts; idxs = fidxs; sp->ts_state = STATE_START; sp->ts_curi = 1; /* start just after length byte */ sp->ts_arridx = 0; /* Move the prefix to preword[] so that * find_keepcap_word() works. */ prewordlen = splitoff = sp->ts_twordlen; mch_memmove(preword, tword, splitoff); } break; } if (sp->ts_curi > len || byts[arridx] != 0) { /* Past bytes in node and/or past NUL bytes. */ sp->ts_state = STATE_ENDNUL; break; } /* * End of word in tree. */ ++sp->ts_curi; /* eat one NUL byte */ flags = (int)idxs[arridx]; if (sp->ts_prefixdepth < MAXWLEN) { /* There was a prefix before the word. Check that the * prefix can be used with this word. */ /* Count the length of the NULs in the prefix. If there * are none this must be the first try without a prefix. */ n = stack[sp->ts_prefixdepth].ts_arridx; len = pbyts[n++]; for (c = 0; c < len && pbyts[n + c] == 0; ++c) ; if (c > 0) { /* The prefix ID is stored three bytes above the * flags. */ c = valid_word_prefix(c, n, flags, tword + splitoff, lp->lp_slang); if (c == 0) break; /* Use the WF_RARE flag for a rare prefix. */ if (c & WF_RAREPFX) flags |= WF_RARE; } } /* * Form the word with proper case in preword. * If there is a word from a previous split, append. */ tword[sp->ts_twordlen] = NUL; if (flags & WF_KEEPCAP) /* Must find the word in the keep-case tree. */ find_keepcap_word(lp->lp_slang, tword + splitoff, preword + prewordlen); else { /* Include badflags: if the badword is onecap or allcap * use that for the goodword too. But if the badword is * allcap and it's only one char long use onecap. */ c = su->su_badflags; if ((c & WF_ALLCAP) #ifdef FEAT_MBYTE && su->su_badlen == mb_ptr2len_check(su->su_badptr) #else && su->su_badlen == 1 #endif ) c = WF_ONECAP; make_case_word(tword + splitoff, preword + prewordlen, flags | c); } /* Don't use a banned word. It may appear again as a good * word, thus remember it. */ if (flags & WF_BANNED) { add_banned(su, preword + prewordlen); break; } if (was_banned(su, preword + prewordlen) || was_banned(su, preword)) break; newscore = 0; if ((flags & WF_REGION) && (((unsigned)flags >> 16) & lp->lp_region) == 0) newscore += SCORE_REGION; if (flags & WF_RARE) newscore += SCORE_RARE; if (!spell_valid_case(su->su_badflags, captype(preword + prewordlen, NULL))) newscore += SCORE_ICASE; if ((fword[sp->ts_fidx] == NUL || !spell_iswordp(fword + sp->ts_fidx, curbuf)) && sp->ts_fidx >= sp->ts_fidxtry) { /* The badword also ends: add suggestions. Give a penalty * when changing non-word char to word char, e.g., "thes," * -> "these". */ p = fword + sp->ts_fidx; #ifdef FEAT_MBYTE if (has_mbyte) mb_ptr_back(fword, p); else #endif --p; if (!spell_iswordp(p, curbuf)) { p = preword + STRLEN(preword); #ifdef FEAT_MBYTE if (has_mbyte) mb_ptr_back(preword, p); else #endif --p; if (spell_iswordp(p, curbuf)) newscore += SCORE_NONWORD; } add_suggestion(su, &su->su_ga, preword, sp->ts_fidx - repextra, sp->ts_score + newscore, 0, FALSE); } else if (sp->ts_fidx >= sp->ts_fidxtry #ifdef FEAT_MBYTE /* Don't split halfway a character. */ && (!has_mbyte || sp->ts_tcharlen == 0) #endif ) { /* The word in the tree ends but the badword * continues: try inserting a space and check that a valid * words starts at fword[sp->ts_fidx]. */ if (try_deeper(su, stack, depth, newscore + SCORE_SPLIT)) { /* Save things to be restored at STATE_SPLITUNDO. */ sp->ts_save_prewordlen = prewordlen; sp->ts_save_badflags = su->su_badflags; sp->ts_save_splitoff = splitoff; sp->ts_state = STATE_SPLITUNDO; ++depth; sp = &stack[depth]; /* Append a space to preword. */ STRCAT(preword, " "); prewordlen = STRLEN(preword); splitoff = sp->ts_twordlen; /* If the badword has a non-word character at this * position skip it. That means replacing the * non-word character with a space. */ if (!spell_iswordp_nmw(fword + sp->ts_fidx)) { sp->ts_score -= SCORE_SPLIT - SCORE_SUBST; #ifdef FEAT_MBYTE if (has_mbyte) sp->ts_fidx += MB_BYTE2LEN(fword[sp->ts_fidx]); else #endif ++sp->ts_fidx; } #ifdef FEAT_MBYTE if (has_mbyte) { int i = 0; /* Case-folding may change the number of bytes: * Count nr of chars in fword[ts_fidx] and * advance that many chars in su->su_badptr. */ for (p = fword; p < fword + sp->ts_fidx; mb_ptr_adv(p)) ++i; for (p = su->su_badptr; i > 0; mb_ptr_adv(p)) --i; } else #endif p = su->su_badptr + sp->ts_fidx; su->su_badflags = captype(p, su->su_badptr + su->su_badlen); /* Restart at top of the tree. */ sp->ts_arridx = 0; } } break; case STATE_SPLITUNDO: /* Undo the changes done for word split. */ su->su_badflags = sp->ts_save_badflags; splitoff = sp->ts_save_splitoff; prewordlen = sp->ts_save_prewordlen; /* Continue looking for NUL bytes. */ sp->ts_state = STATE_START; break; case STATE_ENDNUL: /* Past the NUL bytes in the node. */ if (fword[sp->ts_fidx] == NUL) { /* The badword ends, can't use the bytes in this node. */ sp->ts_state = STATE_DEL; break; } sp->ts_state = STATE_PLAIN; /*FALLTHROUGH*/ case STATE_PLAIN: /* * Go over all possible bytes at this node, add each to * tword[] and use child node. "ts_curi" is the index. */ arridx = sp->ts_arridx; if (sp->ts_curi > byts[arridx]) { /* Done all bytes at this node, do next state. When still * at already changed bytes skip the other tricks. */ if (sp->ts_fidx >= sp->ts_fidxtry) sp->ts_state = STATE_DEL; else sp->ts_state = STATE_FINAL; } else { arridx += sp->ts_curi++; c = byts[arridx]; /* Normal byte, go one level deeper. If it's not equal to * the byte in the bad word adjust the score. But don't * even try when the byte was already changed. */ if (c == fword[sp->ts_fidx] #ifdef FEAT_MBYTE || (sp->ts_tcharlen > 0 && sp->ts_isdiff != DIFF_NONE) #endif ) newscore = 0; else newscore = SCORE_SUBST; if ((newscore == 0 || sp->ts_fidx >= sp->ts_fidxtry) && try_deeper(su, stack, depth, newscore)) { ++depth; sp = &stack[depth]; ++sp->ts_fidx; tword[sp->ts_twordlen++] = c; sp->ts_arridx = idxs[arridx]; #ifdef FEAT_MBYTE if (newscore == SCORE_SUBST) sp->ts_isdiff = DIFF_YES; if (has_mbyte) { /* Multi-byte characters are a bit complicated to * handle: They differ when any of the bytes * differ and then their length may also differ. */ if (sp->ts_tcharlen == 0) { /* First byte. */ sp->ts_tcharidx = 0; sp->ts_tcharlen = MB_BYTE2LEN(c); sp->ts_fcharstart = sp->ts_fidx - 1; sp->ts_isdiff = (newscore != 0) ? DIFF_YES : DIFF_NONE; } else if (sp->ts_isdiff == DIFF_INSERT) /* When inserting trail bytes don't advance in * the bad word. */ --sp->ts_fidx; if (++sp->ts_tcharidx == sp->ts_tcharlen) { /* Last byte of character. */ if (sp->ts_isdiff == DIFF_YES) { /* Correct ts_fidx for the byte length of * the character (we didn't check that * before). */ sp->ts_fidx = sp->ts_fcharstart + MB_BYTE2LEN( fword[sp->ts_fcharstart]); /* For a similar character adjust score * from SCORE_SUBST to SCORE_SIMILAR. */ if (lp->lp_slang->sl_has_map && similar_chars(lp->lp_slang, mb_ptr2char(tword + sp->ts_twordlen - sp->ts_tcharlen), mb_ptr2char(fword + sp->ts_fcharstart))) sp->ts_score -= SCORE_SUBST - SCORE_SIMILAR; } else if (sp->ts_isdiff == DIFF_INSERT && sp->ts_twordlen > sp->ts_tcharlen) { /* If the previous character was the same, * thus doubling a character, give a bonus * to the score. */ p = tword + sp->ts_twordlen - sp->ts_tcharlen; c = mb_ptr2char(p); mb_ptr_back(tword, p); if (c == mb_ptr2char(p)) sp->ts_score -= SCORE_INS - SCORE_INSDUP; } /* Starting a new char, reset the length. */ sp->ts_tcharlen = 0; } } else #endif { /* If we found a similar char adjust the score. * We do this after calling try_deeper() because * it's slow. */ if (newscore != 0 && lp->lp_slang->sl_has_map && similar_chars(lp->lp_slang, c, fword[sp->ts_fidx - 1])) sp->ts_score -= SCORE_SUBST - SCORE_SIMILAR; } } } break; case STATE_DEL: #ifdef FEAT_MBYTE /* When past the first byte of a multi-byte char don't try * delete/insert/swap a character. */ if (has_mbyte && sp->ts_tcharlen > 0) { sp->ts_state = STATE_FINAL; break; } #endif /* * Try skipping one character in the bad word (delete it). */ sp->ts_state = STATE_INS; sp->ts_curi = 1; if (fword[sp->ts_fidx] != NUL && try_deeper(su, stack, depth, SCORE_DEL)) { ++depth; /* Advance over the character in fword[]. Give a bonus to * the score if the same character is following "nn" -> * "n". */ #ifdef FEAT_MBYTE if (has_mbyte) { c = mb_ptr2char(fword + sp->ts_fidx); stack[depth].ts_fidx += MB_BYTE2LEN(fword[sp->ts_fidx]); if (c == mb_ptr2char(fword + stack[depth].ts_fidx)) stack[depth].ts_score -= SCORE_DEL - SCORE_DELDUP; } else #endif { ++stack[depth].ts_fidx; if (fword[sp->ts_fidx] == fword[sp->ts_fidx + 1]) stack[depth].ts_score -= SCORE_DEL - SCORE_DELDUP; } break; } /*FALLTHROUGH*/ case STATE_INS: /* Insert one byte. Do this for each possible byte at this * node. */ n = sp->ts_arridx; if (sp->ts_curi > byts[n]) { /* Done all bytes at this node, do next state. */ sp->ts_state = STATE_SWAP; } else { /* Do one more byte at this node. Skip NUL bytes. */ n += sp->ts_curi++; c = byts[n]; if (c != 0 && try_deeper(su, stack, depth, SCORE_INS)) { ++depth; sp = &stack[depth]; tword[sp->ts_twordlen++] = c; sp->ts_arridx = idxs[n]; #ifdef FEAT_MBYTE if (has_mbyte) { fl = MB_BYTE2LEN(c); if (fl > 1) { /* There are following bytes for the same * character. We must find all bytes before * trying delete/insert/swap/etc. */ sp->ts_tcharlen = fl; sp->ts_tcharidx = 1; sp->ts_isdiff = DIFF_INSERT; } } else fl = 1; if (fl == 1) #endif { /* If the previous character was the same, thus * doubling a character, give a bonus to the * score. */ if (sp->ts_twordlen >= 2 && tword[sp->ts_twordlen - 2] == c) sp->ts_score -= SCORE_INS - SCORE_INSDUP; } } } break; case STATE_SWAP: /* * Swap two bytes in the bad word: "12" -> "21". * We change "fword" here, it's changed back afterwards. */ p = fword + sp->ts_fidx; c = *p; if (c == NUL) { /* End of word, can't swap or replace. */ sp->ts_state = STATE_FINAL; break; } #ifdef FEAT_MBYTE if (has_mbyte) { n = mb_ptr2len_check(p); c = mb_ptr2char(p); c2 = mb_ptr2char(p + n); } else #endif c2 = p[1]; if (c == c2) { /* Characters are identical, swap won't do anything. */ sp->ts_state = STATE_SWAP3; break; } if (c2 != NUL && try_deeper(su, stack, depth, SCORE_SWAP)) { sp->ts_state = STATE_UNSWAP; ++depth; #ifdef FEAT_MBYTE if (has_mbyte) { fl = mb_char2len(c2); mch_memmove(p, p + n, fl); mb_char2bytes(c, p + fl); stack[depth].ts_fidxtry = sp->ts_fidx + n + fl; } else #endif { p[0] = c2; p[1] = c; stack[depth].ts_fidxtry = sp->ts_fidx + 2; } } else /* If this swap doesn't work then SWAP3 won't either. */ sp->ts_state = STATE_REP_INI; break; case STATE_UNSWAP: /* Undo the STATE_SWAP swap: "21" -> "12". */ p = fword + sp->ts_fidx; #ifdef FEAT_MBYTE if (has_mbyte) { n = MB_BYTE2LEN(*p); c = mb_ptr2char(p + n); mch_memmove(p + MB_BYTE2LEN(p[n]), p, n); mb_char2bytes(c, p); } else #endif { c = *p; *p = p[1]; p[1] = c; } /*FALLTHROUGH*/ case STATE_SWAP3: /* Swap two bytes, skipping one: "123" -> "321". We change * "fword" here, it's changed back afterwards. */ p = fword + sp->ts_fidx; #ifdef FEAT_MBYTE if (has_mbyte) { n = mb_ptr2len_check(p); c = mb_ptr2char(p); fl = mb_ptr2len_check(p + n); c2 = mb_ptr2char(p + n); c3 = mb_ptr2char(p + n + fl); } else #endif { c = *p; c2 = p[1]; c3 = p[2]; } /* When characters are identical: "121" then SWAP3 result is * identical, ROT3L result is same as SWAP: "211", ROT3L * result is same as SWAP on next char: "112". Thus skip all * swapping. Also skip when c3 is NUL. */ if (c == c3 || c3 == NUL) { sp->ts_state = STATE_REP_INI; break; } if (try_deeper(su, stack, depth, SCORE_SWAP3)) { sp->ts_state = STATE_UNSWAP3; ++depth; #ifdef FEAT_MBYTE if (has_mbyte) { tl = mb_char2len(c3); mch_memmove(p, p + n + fl, tl); mb_char2bytes(c2, p + tl); mb_char2bytes(c, p + fl + tl); stack[depth].ts_fidxtry = sp->ts_fidx + n + fl + tl; } else #endif { p[0] = p[2]; p[2] = c; stack[depth].ts_fidxtry = sp->ts_fidx + 3; } } else sp->ts_state = STATE_REP_INI; break; case STATE_UNSWAP3: /* Undo STATE_SWAP3: "321" -> "123" */ p = fword + sp->ts_fidx; #ifdef FEAT_MBYTE if (has_mbyte) { n = MB_BYTE2LEN(*p); c2 = mb_ptr2char(p + n); fl = MB_BYTE2LEN(p[n]); c = mb_ptr2char(p + n + fl); tl = MB_BYTE2LEN(p[n + fl]); mch_memmove(p + fl + tl, p, n); mb_char2bytes(c, p); mb_char2bytes(c2, p + tl); } else #endif { c = *p; *p = p[2]; p[2] = c; } /* Rotate three characters left: "123" -> "231". We change * "fword" here, it's changed back afterwards. */ if (try_deeper(su, stack, depth, SCORE_SWAP3)) { sp->ts_state = STATE_UNROT3L; ++depth; p = fword + sp->ts_fidx; #ifdef FEAT_MBYTE if (has_mbyte) { n = mb_ptr2len_check(p); c = mb_ptr2char(p); fl = mb_ptr2len_check(p + n); fl += mb_ptr2len_check(p + n + fl); mch_memmove(p, p + n, fl); mb_char2bytes(c, p + fl); stack[depth].ts_fidxtry = sp->ts_fidx + n + fl; } else #endif { c = *p; *p = p[1]; p[1] = p[2]; p[2] = c; stack[depth].ts_fidxtry = sp->ts_fidx + 3; } } else sp->ts_state = STATE_REP_INI; break; case STATE_UNROT3L: /* Undo ROT3L: "231" -> "123" */ p = fword + sp->ts_fidx; #ifdef FEAT_MBYTE if (has_mbyte) { n = MB_BYTE2LEN(*p); n += MB_BYTE2LEN(p[n]); c = mb_ptr2char(p + n); tl = MB_BYTE2LEN(p[n]); mch_memmove(p + tl, p, n); mb_char2bytes(c, p); } else #endif { c = p[2]; p[2] = p[1]; p[1] = *p; *p = c; } /* Rotate three bytes right: "123" -> "312". We change * "fword" here, it's changed back afterwards. */ if (try_deeper(su, stack, depth, SCORE_SWAP3)) { sp->ts_state = STATE_UNROT3R; ++depth; p = fword + sp->ts_fidx; #ifdef FEAT_MBYTE if (has_mbyte) { n = mb_ptr2len_check(p); n += mb_ptr2len_check(p + n); c = mb_ptr2char(p + n); tl = mb_ptr2len_check(p + n); mch_memmove(p + tl, p, n); mb_char2bytes(c, p); stack[depth].ts_fidxtry = sp->ts_fidx + n + tl; } else #endif { c = p[2]; p[2] = p[1]; p[1] = *p; *p = c; stack[depth].ts_fidxtry = sp->ts_fidx + 3; } } else sp->ts_state = STATE_REP_INI; break; case STATE_UNROT3R: /* Undo ROT3R: "312" -> "123" */ p = fword + sp->ts_fidx; #ifdef FEAT_MBYTE if (has_mbyte) { c = mb_ptr2char(p); tl = MB_BYTE2LEN(*p); n = MB_BYTE2LEN(p[tl]); n += MB_BYTE2LEN(p[tl + n]); mch_memmove(p, p + tl, n); mb_char2bytes(c, p + n); } else #endif { c = *p; *p = p[1]; p[1] = p[2]; p[2] = c; } /*FALLTHROUGH*/ case STATE_REP_INI: /* Check if matching with REP items from the .aff file would * work. Quickly skip if there are no REP items or the score * is going to be too high anyway. */ gap = &lp->lp_slang->sl_rep; if (gap->ga_len == 0 || sp->ts_score + SCORE_REP >= su->su_maxscore) { sp->ts_state = STATE_FINAL; break; } /* Use the first byte to quickly find the first entry that * may match. If the index is -1 there is none. */ sp->ts_curi = lp->lp_slang->sl_rep_first[fword[sp->ts_fidx]]; if (sp->ts_curi < 0) { sp->ts_state = STATE_FINAL; break; } sp->ts_state = STATE_REP; /*FALLTHROUGH*/ case STATE_REP: /* Try matching with REP items from the .aff file. For each * match replace the characters and check if the resulting * word is valid. */ p = fword + sp->ts_fidx; gap = &lp->lp_slang->sl_rep; while (sp->ts_curi < gap->ga_len) { ftp = (fromto_T *)gap->ga_data + sp->ts_curi++; if (*ftp->ft_from != *p) { /* past possible matching entries */ sp->ts_curi = gap->ga_len; break; } if (STRNCMP(ftp->ft_from, p, STRLEN(ftp->ft_from)) == 0 && try_deeper(su, stack, depth, SCORE_REP)) { /* Need to undo this afterwards. */ sp->ts_state = STATE_REP_UNDO; /* Change the "from" to the "to" string. */ ++depth; fl = STRLEN(ftp->ft_from); tl = STRLEN(ftp->ft_to); if (fl != tl) { mch_memmove(p + tl, p + fl, STRLEN(p + fl) + 1); repextra += tl - fl; } mch_memmove(p, ftp->ft_to, tl); stack[depth].ts_fidxtry = sp->ts_fidx + tl; #ifdef FEAT_MBYTE stack[depth].ts_tcharlen = 0; #endif break; } } if (sp->ts_curi >= gap->ga_len) /* No (more) matches. */ sp->ts_state = STATE_FINAL; break; case STATE_REP_UNDO: /* Undo a REP replacement and continue with the next one. */ ftp = (fromto_T *)lp->lp_slang->sl_rep.ga_data + sp->ts_curi - 1; fl = STRLEN(ftp->ft_from); tl = STRLEN(ftp->ft_to); p = fword + sp->ts_fidx; if (fl != tl) { mch_memmove(p + fl, p + tl, STRLEN(p + tl) + 1); repextra -= tl - fl; } mch_memmove(p, ftp->ft_from, fl); sp->ts_state = STATE_REP; break; default: /* Did all possible states at this level, go up one level. */ --depth; if (depth >= 0 && stack[depth].ts_prefixdepth == PREFIXTREE) { /* Continue in or go back to the prefix tree. */ byts = pbyts; idxs = pidxs; splitoff = 0; } /* Don't check for CTRL-C too often, it takes time. */ line_breakcheck(); } } } } /* * Try going one level deeper in the tree. */ static int try_deeper(su, stack, depth, score_add) suginfo_T *su; trystate_T *stack; int depth; int score_add; { int newscore; /* Refuse to go deeper if the scrore is getting too big. */ newscore = stack[depth].ts_score + score_add; if (newscore >= su->su_maxscore) return FALSE; stack[depth + 1] = stack[depth]; stack[depth + 1].ts_state = STATE_START; stack[depth + 1].ts_score = newscore; stack[depth + 1].ts_curi = 1; /* start just after length byte */ return TRUE; } /* * "fword" is a good word with case folded. Find the matching keep-case * words and put it in "kword". * Theoretically there could be several keep-case words that result in the * same case-folded word, but we only find one... */ static void find_keepcap_word(slang, fword, kword) slang_T *slang; char_u *fword; char_u *kword; { char_u uword[MAXWLEN]; /* "fword" in upper-case */ int depth; idx_T tryidx; /* The following arrays are used at each depth in the tree. */ idx_T arridx[MAXWLEN]; int round[MAXWLEN]; int fwordidx[MAXWLEN]; int uwordidx[MAXWLEN]; int kwordlen[MAXWLEN]; int flen, ulen; int l; int len; int c; idx_T lo, hi, m; char_u *p; char_u *byts = slang->sl_kbyts; /* array with bytes of the words */ idx_T *idxs = slang->sl_kidxs; /* array with indexes */ if (byts == NULL) { /* array is empty: "cannot happen" */ *kword = NUL; return; } /* Make an all-cap version of "fword". */ allcap_copy(fword, uword); /* * Each character needs to be tried both case-folded and upper-case. * All this gets very complicated if we keep in mind that changing case * may change the byte length of a multi-byte character... */ depth = 0; arridx[0] = 0; round[0] = 0; fwordidx[0] = 0; uwordidx[0] = 0; kwordlen[0] = 0; while (depth >= 0) { if (fword[fwordidx[depth]] == NUL) { /* We are at the end of "fword". If the tree allows a word to end * here we have found a match. */ if (byts[arridx[depth] + 1] == 0) { kword[kwordlen[depth]] = NUL; return; } /* kword is getting too long, continue one level up */ --depth; } else if (++round[depth] > 2) { /* tried both fold-case and upper-case character, continue one * level up */ --depth; } else { /* * round[depth] == 1: Try using the folded-case character. * round[depth] == 2: Try using the upper-case character. */ #ifdef FEAT_MBYTE if (has_mbyte) { flen = mb_ptr2len_check(fword + fwordidx[depth]); ulen = mb_ptr2len_check(uword + uwordidx[depth]); } else #endif ulen = flen = 1; if (round[depth] == 1) { p = fword + fwordidx[depth]; l = flen; } else { p = uword + uwordidx[depth]; l = ulen; } for (tryidx = arridx[depth]; l > 0; --l) { /* Perform a binary search in the list of accepted bytes. */ len = byts[tryidx++]; c = *p++; lo = tryidx; hi = tryidx + len - 1; while (lo < hi) { m = (lo + hi) / 2; if (byts[m] > c) hi = m - 1; else if (byts[m] < c) lo = m + 1; else { lo = hi = m; break; } } /* Stop if there is no matching byte. */ if (hi < lo || byts[lo] != c) break; /* Continue at the child (if there is one). */ tryidx = idxs[lo]; } if (l == 0) { /* * Found the matching char. Copy it to "kword" and go a * level deeper. */ if (round[depth] == 1) { STRNCPY(kword + kwordlen[depth], fword + fwordidx[depth], flen); kwordlen[depth + 1] = kwordlen[depth] + flen; } else { STRNCPY(kword + kwordlen[depth], uword + uwordidx[depth], ulen); kwordlen[depth + 1] = kwordlen[depth] + ulen; } fwordidx[depth + 1] = fwordidx[depth] + flen; uwordidx[depth + 1] = uwordidx[depth] + ulen; ++depth; arridx[depth] = tryidx; round[depth] = 0; } } } /* Didn't find it: "cannot happen". */ *kword = NUL; } /* * Compute the sound-a-like score for suggestions in su->su_ga and add them to * su->su_sga. */ static void score_comp_sal(su) suginfo_T *su; { langp_T *lp; char_u badsound[MAXWLEN]; int i; suggest_T *stp; suggest_T *sstp; int score; if (ga_grow(&su->su_sga, su->su_ga.ga_len) == FAIL) return; /* Use the sound-folding of the first language that supports it. */ for (lp = LANGP_ENTRY(curwin->w_buffer->b_langp, 0); lp->lp_slang != NULL; ++lp) if (lp->lp_slang->sl_sal.ga_len > 0) { /* soundfold the bad word */ spell_soundfold(lp->lp_slang, su->su_fbadword, TRUE, badsound); for (i = 0; i < su->su_ga.ga_len; ++i) { stp = &SUG(su->su_ga, i); /* Case-fold the suggested word, sound-fold it and compute the * sound-a-like score. */ score = stp_sal_score(stp, su, lp->lp_slang, badsound); if (score < SCORE_MAXMAX) { /* Add the suggestion. */ sstp = &SUG(su->su_sga, su->su_sga.ga_len); sstp->st_word = vim_strsave(stp->st_word); if (sstp->st_word != NULL) { sstp->st_score = score; sstp->st_altscore = 0; sstp->st_orglen = stp->st_orglen; ++su->su_sga.ga_len; } } } break; } } /* * Combine the list of suggestions in su->su_ga and su->su_sga. * They are intwined. */ static void score_combine(su) suginfo_T *su; { int i; int j; garray_T ga; garray_T *gap; langp_T *lp; suggest_T *stp; char_u *p; char_u badsound[MAXWLEN]; int round; /* Add the alternate score to su_ga. */ for (lp = LANGP_ENTRY(curwin->w_buffer->b_langp, 0); lp->lp_slang != NULL; ++lp) { if (lp->lp_slang->sl_sal.ga_len > 0) { /* soundfold the bad word */ spell_soundfold(lp->lp_slang, su->su_fbadword, TRUE, badsound); for (i = 0; i < su->su_ga.ga_len; ++i) { stp = &SUG(su->su_ga, i); stp->st_altscore = stp_sal_score(stp, su, lp->lp_slang, badsound); if (stp->st_altscore == SCORE_MAXMAX) stp->st_score = (stp->st_score * 3 + SCORE_BIG) / 4; else stp->st_score = (stp->st_score * 3 + stp->st_altscore) / 4; stp->st_salscore = FALSE; } break; } } /* Add the alternate score to su_sga. */ for (i = 0; i < su->su_sga.ga_len; ++i) { stp = &SUG(su->su_sga, i); stp->st_altscore = spell_edit_score(su->su_badword, stp->st_word); if (stp->st_score == SCORE_MAXMAX) stp->st_score = (SCORE_BIG * 7 + stp->st_altscore) / 8; else stp->st_score = (stp->st_score * 7 + stp->st_altscore) / 8; stp->st_salscore = TRUE; } /* Sort the suggestions and truncate at "maxcount" for both lists. */ (void)cleanup_suggestions(&su->su_ga, su->su_maxscore, su->su_maxcount); (void)cleanup_suggestions(&su->su_sga, su->su_maxscore, su->su_maxcount); ga_init2(&ga, (int)sizeof(suginfo_T), 1); if (ga_grow(&ga, su->su_ga.ga_len + su->su_sga.ga_len) == FAIL) return; stp = &SUG(ga, 0); for (i = 0; i < su->su_ga.ga_len || i < su->su_sga.ga_len; ++i) { /* round 1: get a suggestion from su_ga * round 2: get a suggestion from su_sga */ for (round = 1; round <= 2; ++round) { gap = round == 1 ? &su->su_ga : &su->su_sga; if (i < gap->ga_len) { /* Don't add a word if it's already there. */ p = SUG(*gap, i).st_word; for (j = 0; j < ga.ga_len; ++j) if (STRCMP(stp[j].st_word, p) == 0) break; if (j == ga.ga_len) stp[ga.ga_len++] = SUG(*gap, i); else vim_free(p); } } } ga_clear(&su->su_ga); ga_clear(&su->su_sga); /* Truncate the list to the number of suggestions that will be displayed. */ if (ga.ga_len > su->su_maxcount) { for (i = su->su_maxcount; i < ga.ga_len; ++i) vim_free(stp[i].st_word); ga.ga_len = su->su_maxcount; } su->su_ga = ga; } /* * For the goodword in "stp" compute the soundalike score compared to the * badword. */ static int stp_sal_score(stp, su, slang, badsound) suggest_T *stp; suginfo_T *su; slang_T *slang; char_u *badsound; /* sound-folded badword */ { char_u *p; char_u badsound2[MAXWLEN]; char_u fword[MAXWLEN]; char_u goodsound[MAXWLEN]; if (stp->st_orglen <= su->su_badlen) p = badsound; else { /* soundfold the bad word with more characters following */ (void)spell_casefold(su->su_badptr, stp->st_orglen, fword, MAXWLEN); /* When joining two words the sound often changes a lot. E.g., "t he" * sounds like "t h" while "the" sounds like "@". Avoid that by * removing the space. Don't do it when the good word also contains a * space. */ if (vim_iswhite(su->su_badptr[su->su_badlen]) && *skiptowhite(stp->st_word) == NUL) for (p = fword; *(p = skiptowhite(p)) != NUL; ) mch_memmove(p, p + 1, STRLEN(p)); spell_soundfold(slang, fword, TRUE, badsound2); p = badsound2; } /* Sound-fold the word and compute the score for the difference. */ spell_soundfold(slang, stp->st_word, FALSE, goodsound); return soundalike_score(goodsound, p); } /* * Find suggestions by comparing the word in a sound-a-like form. */ static void suggest_try_soundalike(su) suginfo_T *su; { char_u salword[MAXWLEN]; char_u tword[MAXWLEN]; char_u tsalword[MAXWLEN]; idx_T arridx[MAXWLEN]; int curi[MAXWLEN]; langp_T *lp; char_u *byts; idx_T *idxs; int depth; int c; idx_T n; int round; int flags; int sound_score; /* Do this for all languages that support sound folding. */ for (lp = LANGP_ENTRY(curwin->w_buffer->b_langp, 0); lp->lp_slang != NULL; ++lp) { if (lp->lp_slang->sl_sal.ga_len > 0) { /* soundfold the bad word */ spell_soundfold(lp->lp_slang, su->su_fbadword, TRUE, salword); /* * Go through the whole tree, soundfold each word and compare. * round 1: use the case-folded tree. * round 2: use the keep-case tree. */ for (round = 1; round <= 2; ++round) { if (round == 1) { byts = lp->lp_slang->sl_fbyts; idxs = lp->lp_slang->sl_fidxs; } else { byts = lp->lp_slang->sl_kbyts; idxs = lp->lp_slang->sl_kidxs; if (byts == NULL) /* no keep-case words */ continue; } depth = 0; arridx[0] = 0; curi[0] = 1; while (depth >= 0 && !got_int) { if (curi[depth] > byts[arridx[depth]]) { /* Done all bytes at this node, go up one level. */ --depth; line_breakcheck(); } else { /* Do one more byte at this node. */ n = arridx[depth] + curi[depth]; ++curi[depth]; c = byts[n]; if (c == 0) { /* End of word, deal with the word. */ flags = (int)idxs[n]; if (round == 2 || (flags & WF_KEEPCAP) == 0) { tword[depth] = NUL; /* Sound-fold. Only in keep-case tree need to * case-fold the word. */ spell_soundfold(lp->lp_slang, tword, round == 1, tsalword); /* Compute the edit distance between the * sound-a-like words. */ sound_score = soundalike_score(salword, tsalword); if (sound_score < SCORE_MAXMAX) { char_u cword[MAXWLEN]; char_u *p; int score; flags |= su->su_badflags; if (round == 1 && (flags & WF_CAPMASK) != 0) { /* Need to fix case according to * "flags". */ make_case_word(tword, cword, flags); p = cword; } else p = tword; if (sps_flags & SPS_DOUBLE) add_suggestion(su, &su->su_sga, p, su->su_badlen, sound_score, 0, FALSE); else { /* Compute the score. */ score = spell_edit_score( su->su_badword, p); if (sps_flags & SPS_BEST) /* give a bonus for the good word * sounding the same as the bad * word */ add_suggestion(su, &su->su_ga, p, su->su_badlen, RESCORE(score, sound_score), sound_score, TRUE); else add_suggestion(su, &su->su_ga, p, su->su_badlen, score + sound_score, 0, FALSE); } } } /* Skip over other NUL bytes. */ while (byts[n + 1] == 0) { ++n; ++curi[depth]; } } else { /* Normal char, go one level deeper. */ tword[depth++] = c; arridx[depth] = idxs[n]; curi[depth] = 1; } } } } } } } /* * Copy "fword" to "cword", fixing case according to "flags". */ static void make_case_word(fword, cword, flags) char_u *fword; char_u *cword; int flags; { if (flags & WF_ALLCAP) /* Make it all upper-case */ allcap_copy(fword, cword); else if (flags & WF_ONECAP) /* Make the first letter upper-case */ onecap_copy(fword, cword, TRUE); else /* Use goodword as-is. */ STRCPY(cword, fword); } /* * Use map string "map" for languages "lp". */ static void set_map_str(lp, map) slang_T *lp; char_u *map; { char_u *p; int headc = 0; int c; int i; if (*map == NUL) { lp->sl_has_map = FALSE; return; } lp->sl_has_map = TRUE; /* Init the array and hash table empty. */ for (i = 0; i < 256; ++i) lp->sl_map_array[i] = 0; #ifdef FEAT_MBYTE hash_init(&lp->sl_map_hash); #endif /* * The similar characters are stored separated with slashes: * "aaa/bbb/ccc/". Fill sl_map_array[c] with the character before c and * before the same slash. For characters above 255 sl_map_hash is used. */ for (p = map; *p != NUL; ) { #ifdef FEAT_MBYTE c = mb_ptr2char_adv(&p); #else c = *p++; #endif if (c == '/') headc = 0; else { if (headc == 0) headc = c; #ifdef FEAT_MBYTE /* Characters above 255 don't fit in sl_map_array[], put them in * the hash table. Each entry is the char, a NUL the headchar and * a NUL. */ if (c >= 256) { int cl = mb_char2len(c); int headcl = mb_char2len(headc); char_u *b; hash_T hash; hashitem_T *hi; b = alloc((unsigned)(cl + headcl + 2)); if (b == NULL) return; mb_char2bytes(c, b); b[cl] = NUL; mb_char2bytes(headc, b + cl + 1); b[cl + 1 + headcl] = NUL; hash = hash_hash(b); hi = hash_lookup(&lp->sl_map_hash, b, hash); if (HASHITEM_EMPTY(hi)) hash_add_item(&lp->sl_map_hash, hi, b, hash); else { /* This should have been checked when generating the .spl * file. */ EMSG(_("E999: duplicate char in MAP entry")); vim_free(b); } } else #endif lp->sl_map_array[c] = headc; } } } /* * Return TRUE if "c1" and "c2" are similar characters according to the MAP * lines in the .aff file. */ static int similar_chars(slang, c1, c2) slang_T *slang; int c1; int c2; { int m1, m2; #ifdef FEAT_MBYTE char_u buf[MB_MAXBYTES]; hashitem_T *hi; if (c1 >= 256) { buf[mb_char2bytes(c1, buf)] = 0; hi = hash_find(&slang->sl_map_hash, buf); if (HASHITEM_EMPTY(hi)) m1 = 0; else m1 = mb_ptr2char(hi->hi_key + STRLEN(hi->hi_key) + 1); } else #endif m1 = slang->sl_map_array[c1]; if (m1 == 0) return FALSE; #ifdef FEAT_MBYTE if (c2 >= 256) { buf[mb_char2bytes(c2, buf)] = 0; hi = hash_find(&slang->sl_map_hash, buf); if (HASHITEM_EMPTY(hi)) m2 = 0; else m2 = mb_ptr2char(hi->hi_key + STRLEN(hi->hi_key) + 1); } else #endif m2 = slang->sl_map_array[c2]; return m1 == m2; } /* * Add a suggestion to the list of suggestions. * Do not add a duplicate suggestion or suggestions with a bad score. * When "use_score" is not zero it's used, otherwise the score is computed * with spell_edit_score(). */ static void add_suggestion(su, gap, goodword, badlen, score, altscore, had_bonus) suginfo_T *su; garray_T *gap; char_u *goodword; int badlen; /* length of bad word used */ int score; int altscore; int had_bonus; /* value for st_had_bonus */ { suggest_T *stp; int i; char_u *p = NULL; int c = 0; /* Check that the word wasn't banned. */ if (was_banned(su, goodword)) return; /* If past "su_badlen" and the rest is identical stop at "su_badlen". * Remove the common part from "goodword". */ i = badlen - su->su_badlen; if (i > 0) { /* This assumes there was no case folding or it didn't change the * length... */ p = goodword + STRLEN(goodword) - i; if (p > goodword && STRNICMP(su->su_badptr + su->su_badlen, p, i) == 0) { badlen = su->su_badlen; c = *p; *p = NUL; } else p = NULL; } else if (i < 0) { /* When replacing part of the word check that we actually change * something. For "the the" a suggestion can be replacing the first * "the" with itself, since "the" wasn't banned. */ if (badlen == (int)STRLEN(goodword) && STRNCMP(su->su_badword, goodword, badlen) == 0) return; } if (score <= su->su_maxscore) { /* Check if the word is already there. Also check the length that is * being replaced "thes," -> "these" is a different suggestion from * "thes" -> "these". */ stp = &SUG(*gap, 0); for (i = gap->ga_len - 1; i >= 0; --i) if (STRCMP(stp[i].st_word, goodword) == 0 && stp[i].st_orglen == badlen) { /* Found it. Remember the lowest score. */ if (stp[i].st_score > score) { stp[i].st_score = score; stp[i].st_altscore = altscore; stp[i].st_had_bonus = had_bonus; } break; } if (i < 0 && ga_grow(gap, 1) == OK) { /* Add a suggestion. */ stp = &SUG(*gap, gap->ga_len); stp->st_word = vim_strsave(goodword); if (stp->st_word != NULL) { stp->st_score = score; stp->st_altscore = altscore; stp->st_had_bonus = had_bonus; stp->st_orglen = badlen; ++gap->ga_len; /* If we have too many suggestions now, sort the list and keep * the best suggestions. */ if (gap->ga_len > SUG_MAX_COUNT(su)) su->su_maxscore = cleanup_suggestions(gap, su->su_maxscore, SUG_CLEAN_COUNT(su)); } } } if (p != NULL) *p = c; /* restore "goodword" */ } /* * Add a word to be banned. */ static void add_banned(su, word) suginfo_T *su; char_u *word; { char_u *s = vim_strsave(word); hash_T hash; hashitem_T *hi; if (s != NULL) { hash = hash_hash(s); hi = hash_lookup(&su->su_banned, s, hash); if (HASHITEM_EMPTY(hi)) hash_add_item(&su->su_banned, hi, s, hash); else vim_free(s); } } /* * Return TRUE if a word appears in the list of banned words. */ static int was_banned(su, word) suginfo_T *su; char_u *word; { hashitem_T *hi = hash_find(&su->su_banned, word); return !HASHITEM_EMPTY(hi); } /* * Free the banned words in "su". */ static void free_banned(su) suginfo_T *su; { int todo; hashitem_T *hi; todo = su->su_banned.ht_used; for (hi = su->su_banned.ht_array; todo > 0; ++hi) { if (!HASHITEM_EMPTY(hi)) { vim_free(hi->hi_key); --todo; } } hash_clear(&su->su_banned); } /* * Recompute the score if sound-folding is possible. This is slow, * thus only done for the final results. */ static void rescore_suggestions(su) suginfo_T *su; { langp_T *lp; suggest_T *stp; char_u sal_badword[MAXWLEN]; int i; for (lp = LANGP_ENTRY(curwin->w_buffer->b_langp, 0); lp->lp_slang != NULL; ++lp) { if (lp->lp_slang->sl_sal.ga_len > 0) { /* soundfold the bad word */ spell_soundfold(lp->lp_slang, su->su_fbadword, TRUE, sal_badword); for (i = 0; i < su->su_ga.ga_len; ++i) { stp = &SUG(su->su_ga, i); if (!stp->st_had_bonus) { stp->st_altscore = stp_sal_score(stp, su, lp->lp_slang, sal_badword); if (stp->st_altscore == SCORE_MAXMAX) stp->st_altscore = SCORE_BIG; stp->st_score = RESCORE(stp->st_score, stp->st_altscore); } } break; } } } static int #ifdef __BORLANDC__ _RTLENTRYF #endif sug_compare __ARGS((const void *s1, const void *s2)); /* * Function given to qsort() to sort the suggestions on st_score. */ static int #ifdef __BORLANDC__ _RTLENTRYF #endif sug_compare(s1, s2) const void *s1; const void *s2; { suggest_T *p1 = (suggest_T *)s1; suggest_T *p2 = (suggest_T *)s2; int n = p1->st_score - p2->st_score; if (n == 0) return p1->st_altscore - p2->st_altscore; return n; } /* * Cleanup the suggestions: * - Sort on score. * - Remove words that won't be displayed. * Returns the maximum score in the list or "maxscore" unmodified. */ static int cleanup_suggestions(gap, maxscore, keep) garray_T *gap; int maxscore; int keep; /* nr of suggestions to keep */ { suggest_T *stp = &SUG(*gap, 0); int i; /* Sort the list. */ qsort(gap->ga_data, (size_t)gap->ga_len, sizeof(suggest_T), sug_compare); /* Truncate the list to the number of suggestions that will be displayed. */ if (gap->ga_len > keep) { for (i = keep; i < gap->ga_len; ++i) vim_free(stp[i].st_word); gap->ga_len = keep; return stp[keep - 1].st_score; } return maxscore; } #if defined(FEAT_EVAL) || defined(PROTO) /* * Soundfold a string, for soundfold(). * Result is in allocated memory, NULL for an error. */ char_u * eval_soundfold(word) char_u *word; { langp_T *lp; char_u sound[MAXWLEN]; if (curwin->w_p_spell && *curbuf->b_p_spl != NUL) /* Use the sound-folding of the first language that supports it. */ for (lp = LANGP_ENTRY(curwin->w_buffer->b_langp, 0); lp->lp_slang != NULL; ++lp) if (lp->lp_slang->sl_sal.ga_len > 0) { /* soundfold the word */ spell_soundfold(lp->lp_slang, word, FALSE, sound); return vim_strsave(sound); } /* No language with sound folding, return word as-is. */ return vim_strsave(word); } #endif /* * Turn "inword" into its sound-a-like equivalent in "res[MAXWLEN]". */ static void spell_soundfold(slang, inword, folded, res) slang_T *slang; char_u *inword; int folded; /* "inword" is already case-folded */ char_u *res; { char_u fword[MAXWLEN]; char_u *word; if (slang->sl_sofo) /* SOFOFROM and SOFOTO used */ spell_soundfold_sofo(slang, inword, res); else { /* SAL items used. Requires the word to be case-folded. */ if (folded) word = inword; else { (void)spell_casefold(inword, STRLEN(inword), fword, MAXWLEN); word = fword; } #ifdef FEAT_MBYTE if (has_mbyte) spell_soundfold_wsal(slang, word, res); else #endif spell_soundfold_sal(slang, word, res); } } /* * Perform sound folding of "inword" into "res" according to SOFOFROM and * SOFOTO lines. */ static void spell_soundfold_sofo(slang, inword, res) slang_T *slang; char_u *inword; char_u *res; { char_u *s; int ri = 0; int c; #ifdef FEAT_MBYTE if (has_mbyte) { int prevc = 0; int *ip; /* The sl_sal_first[] table contains the translation for chars up to * 255, sl_sal the rest. */ for (s = inword; *s != NUL; ) { c = mb_ptr2char_adv(&s); if (enc_utf8 ? utf_class(c) == 0 : vim_iswhite(c)) c = ' '; else if (c < 256) c = slang->sl_sal_first[c]; else { ip = ((int **)slang->sl_sal.ga_data)[c & 0xff]; if (ip == NULL) /* empty list, can't match */ c = NUL; else for (;;) /* find "c" in the list */ { if (*ip == 0) /* not found */ { c = NUL; break; } if (*ip == c) /* match! */ { c = ip[1]; break; } ip += 2; } } if (c != NUL && c != prevc) { ri += mb_char2bytes(c, res + ri); if (ri + MB_MAXBYTES > MAXWLEN) break; prevc = c; } } } else #endif { /* The sl_sal_first[] table contains the translation. */ for (s = inword; (c = *s) != NUL; ++s) { if (vim_iswhite(c)) c = ' '; else c = slang->sl_sal_first[c]; if (c != NUL && (ri == 0 || res[ri - 1] != c)) res[ri++] = c; } } res[ri] = NUL; } static void spell_soundfold_sal(slang, inword, res) slang_T *slang; char_u *inword; char_u *res; { salitem_T *smp; char_u word[MAXWLEN]; char_u *s = inword; char_u *t; char_u *pf; int i, j, z; int reslen; int n, k = 0; int z0; int k0; int n0; int c; int pri; int p0 = -333; int c0; /* Remove accents, if wanted. We actually remove all non-word characters. * But keep white space. We need a copy, the word may be changed here. */ if (slang->sl_rem_accents) { t = word; while (*s != NUL) { if (vim_iswhite(*s)) { *t++ = ' '; s = skipwhite(s); } else { if (spell_iswordp_nmw(s)) *t++ = *s; ++s; } } *t = NUL; } else STRCPY(word, s); smp = (salitem_T *)slang->sl_sal.ga_data; /* * This comes from Aspell phonet.cpp. Converted from C++ to C. * Changed to keep spaces. */ i = reslen = z = 0; while ((c = word[i]) != NUL) { /* Start with the first rule that has the character in the word. */ n = slang->sl_sal_first[c]; z0 = 0; if (n >= 0) { /* check all rules for the same letter */ for (; (s = smp[n].sm_lead)[0] == c; ++n) { /* Quickly skip entries that don't match the word. Most * entries are less then three chars, optimize for that. */ k = smp[n].sm_leadlen; if (k > 1) { if (word[i + 1] != s[1]) continue; if (k > 2) { for (j = 2; j < k; ++j) if (word[i + j] != s[j]) break; if (j < k) continue; } } if ((pf = smp[n].sm_oneof) != NULL) { /* Check for match with one of the chars in "sm_oneof". */ while (*pf != NUL && *pf != word[i + k]) ++pf; if (*pf == NUL) continue; ++k; } s = smp[n].sm_rules; pri = 5; /* default priority */ p0 = *s; k0 = k; while (*s == '-' && k > 1) { k--; s++; } if (*s == '<') s++; if (VIM_ISDIGIT(*s)) { /* determine priority */ pri = *s - '0'; s++; } if (*s == '^' && *(s + 1) == '^') s++; if (*s == NUL || (*s == '^' && (i == 0 || !(word[i - 1] == ' ' || spell_iswordp(word + i - 1, curbuf))) && (*(s + 1) != '$' || (!spell_iswordp(word + i + k0, curbuf)))) || (*s == '$' && i > 0 && spell_iswordp(word + i - 1, curbuf) && (!spell_iswordp(word + i + k0, curbuf)))) { /* search for followup rules, if: */ /* followup and k > 1 and NO '-' in searchstring */ c0 = word[i + k - 1]; n0 = slang->sl_sal_first[c0]; if (slang->sl_followup && k > 1 && n0 >= 0 && p0 != '-' && word[i + k] != NUL) { /* test follow-up rule for "word[i + k]" */ for ( ; (s = smp[n0].sm_lead)[0] == c0; ++n0) { /* Quickly skip entries that don't match the word. * */ k0 = smp[n0].sm_leadlen; if (k0 > 1) { if (word[i + k] != s[1]) continue; if (k0 > 2) { pf = word + i + k + 1; for (j = 2; j < k0; ++j) if (*pf++ != s[j]) break; if (j < k0) continue; } } k0 += k - 1; if ((pf = smp[n0].sm_oneof) != NULL) { /* Check for match with one of the chars in * "sm_oneof". */ while (*pf != NUL && *pf != word[i + k0]) ++pf; if (*pf == NUL) continue; ++k0; } p0 = 5; s = smp[n0].sm_rules; while (*s == '-') { /* "k0" gets NOT reduced because * "if (k0 == k)" */ s++; } if (*s == '<') s++; if (VIM_ISDIGIT(*s)) { p0 = *s - '0'; s++; } if (*s == NUL /* *s == '^' cuts */ || (*s == '$' && !spell_iswordp(word + i + k0, curbuf))) { if (k0 == k) /* this is just a piece of the string */ continue; if (p0 < pri) /* priority too low */ continue; /* rule fits; stop search */ break; } } if (p0 >= pri && smp[n0].sm_lead[0] == c0) continue; } /* replace string */ s = smp[n].sm_to; if (s == NULL) s = (char_u *)""; pf = smp[n].sm_rules; p0 = (vim_strchr(pf, '<') != NULL) ? 1 : 0; if (p0 == 1 && z == 0) { /* rule with '<' is used */ if (reslen > 0 && *s != NUL && (res[reslen - 1] == c || res[reslen - 1] == *s)) reslen--; z0 = 1; z = 1; k0 = 0; while (*s != NUL && word[i + k0] != NUL) { word[i + k0] = *s; k0++; s++; } if (k > k0) mch_memmove(word + i + k0, word + i + k, STRLEN(word + i + k) + 1); /* new "actual letter" */ c = word[i]; } else { /* no '<' rule used */ i += k - 1; z = 0; while (*s != NUL && s[1] != NUL && reslen < MAXWLEN) { if (reslen == 0 || res[reslen - 1] != *s) res[reslen++] = *s; s++; } /* new "actual letter" */ c = *s; if (strstr((char *)pf, "^^") != NULL) { if (c != NUL) res[reslen++] = c; mch_memmove(word, word + i + 1, STRLEN(word + i + 1) + 1); i = 0; z0 = 1; } } break; } } } else if (vim_iswhite(c)) { c = ' '; k = 1; } if (z0 == 0) { if (k && !p0 && reslen < MAXWLEN && c != NUL && (!slang->sl_collapse || reslen == 0 || res[reslen - 1] != c)) /* condense only double letters */ res[reslen++] = c; i++; z = 0; k = 0; } } res[reslen] = NUL; } #ifdef FEAT_MBYTE /* * Turn "inword" into its sound-a-like equivalent in "res[MAXWLEN]". * Multi-byte version of spell_soundfold(). */ static void spell_soundfold_wsal(slang, inword, res) slang_T *slang; char_u *inword; char_u *res; { salitem_T *smp = (salitem_T *)slang->sl_sal.ga_data; int word[MAXWLEN]; int wres[MAXWLEN]; int l; char_u *s; int *ws; char_u *t; int *pf; int i, j, z; int reslen; int n, k = 0; int z0; int k0; int n0; int c; int pri; int p0 = -333; int c0; int did_white = FALSE; /* * Convert the multi-byte string to a wide-character string. * Remove accents, if wanted. We actually remove all non-word characters. * But keep white space. */ n = 0; for (s = inword; *s != NUL; ) { t = s; c = mb_ptr2char_adv(&s); if (slang->sl_rem_accents) { if (enc_utf8 ? utf_class(c) == 0 : vim_iswhite(c)) { if (did_white) continue; c = ' '; did_white = TRUE; } else { did_white = FALSE; if (!spell_iswordp_nmw(t)) continue; } } word[n++] = c; } word[n] = NUL; /* * This comes from Aspell phonet.cpp. * Converted from C++ to C. Added support for multi-byte chars. * Changed to keep spaces. */ i = reslen = z = 0; while ((c = word[i]) != NUL) { /* Start with the first rule that has the character in the word. */ n = slang->sl_sal_first[c & 0xff]; z0 = 0; if (n >= 0) { /* check all rules for the same index byte */ for (; ((ws = smp[n].sm_lead_w)[0] & 0xff) == (c & 0xff); ++n) { /* Quickly skip entries that don't match the word. Most * entries are less then three chars, optimize for that. */ if (c != ws[0]) continue; k = smp[n].sm_leadlen; if (k > 1) { if (word[i + 1] != ws[1]) continue; if (k > 2) { for (j = 2; j < k; ++j) if (word[i + j] != ws[j]) break; if (j < k) continue; } } if ((pf = smp[n].sm_oneof_w) != NULL) { /* Check for match with one of the chars in "sm_oneof". */ while (*pf != NUL && *pf != word[i + k]) ++pf; if (*pf == NUL) continue; ++k; } s = smp[n].sm_rules; pri = 5; /* default priority */ p0 = *s; k0 = k; while (*s == '-' && k > 1) { k--; s++; } if (*s == '<') s++; if (VIM_ISDIGIT(*s)) { /* determine priority */ pri = *s - '0'; s++; } if (*s == '^' && *(s + 1) == '^') s++; if (*s == NUL || (*s == '^' && (i == 0 || !(word[i - 1] == ' ' || spell_iswordp_w(word + i - 1, curbuf))) && (*(s + 1) != '$' || (!spell_iswordp_w(word + i + k0, curbuf)))) || (*s == '$' && i > 0 && spell_iswordp_w(word + i - 1, curbuf) && (!spell_iswordp_w(word + i + k0, curbuf)))) { /* search for followup rules, if: */ /* followup and k > 1 and NO '-' in searchstring */ c0 = word[i + k - 1]; n0 = slang->sl_sal_first[c0 & 0xff]; if (slang->sl_followup && k > 1 && n0 >= 0 && p0 != '-' && word[i + k] != NUL) { /* Test follow-up rule for "word[i + k]"; loop over * all entries with the same index byte. */ for ( ; ((ws = smp[n0].sm_lead_w)[0] & 0xff) == (c0 & 0xff); ++n0) { /* Quickly skip entries that don't match the word. */ if (c0 != ws[0]) continue; k0 = smp[n0].sm_leadlen; if (k0 > 1) { if (word[i + k] != ws[1]) continue; if (k0 > 2) { pf = word + i + k + 1; for (j = 2; j < k0; ++j) if (*pf++ != ws[j]) break; if (j < k0) continue; } } k0 += k - 1; if ((pf = smp[n0].sm_oneof_w) != NULL) { /* Check for match with one of the chars in * "sm_oneof". */ while (*pf != NUL && *pf != word[i + k0]) ++pf; if (*pf == NUL) continue; ++k0; } p0 = 5; s = smp[n0].sm_rules; while (*s == '-') { /* "k0" gets NOT reduced because * "if (k0 == k)" */ s++; } if (*s == '<') s++; if (VIM_ISDIGIT(*s)) { p0 = *s - '0'; s++; } if (*s == NUL /* *s == '^' cuts */ || (*s == '$' && !spell_iswordp_w(word + i + k0, curbuf))) { if (k0 == k) /* this is just a piece of the string */ continue; if (p0 < pri) /* priority too low */ continue; /* rule fits; stop search */ break; } } if (p0 >= pri && (smp[n0].sm_lead_w[0] & 0xff) == (c0 & 0xff)) continue; } /* replace string */ ws = smp[n].sm_to_w; s = smp[n].sm_rules; p0 = (vim_strchr(s, '<') != NULL) ? 1 : 0; if (p0 == 1 && z == 0) { /* rule with '<' is used */ if (reslen > 0 && ws != NULL && *ws != NUL && (wres[reslen - 1] == c || wres[reslen - 1] == *ws)) reslen--; z0 = 1; z = 1; k0 = 0; if (ws != NULL) while (*ws != NUL && word[i + k0] != NUL) { word[i + k0] = *ws; k0++; ws++; } if (k > k0) mch_memmove(word + i + k0, word + i + k, sizeof(int) * (STRLEN(word + i + k) + 1)); /* new "actual letter" */ c = word[i]; } else { /* no '<' rule used */ i += k - 1; z = 0; if (ws != NULL) while (*ws != NUL && ws[1] != NUL && reslen < MAXWLEN) { if (reslen == 0 || wres[reslen - 1] != *ws) wres[reslen++] = *ws; ws++; } /* new "actual letter" */ if (ws == NULL) c = NUL; else c = *ws; if (strstr((char *)s, "^^") != NULL) { if (c != NUL) wres[reslen++] = c; mch_memmove(word, word + i + 1, sizeof(int) * (STRLEN(word + i + 1) + 1)); i = 0; z0 = 1; } } break; } } } else if (vim_iswhite(c)) { c = ' '; k = 1; } if (z0 == 0) { if (k && !p0 && reslen < MAXWLEN && c != NUL && (!slang->sl_collapse || reslen == 0 || wres[reslen - 1] != c)) /* condense only double letters */ wres[reslen++] = c; i++; z = 0; k = 0; } } /* Convert wide characters in "wres" to a multi-byte string in "res". */ l = 0; for (n = 0; n < reslen; ++n) { l += mb_char2bytes(wres[n], res + l); if (l + MB_MAXBYTES > MAXWLEN) break; } res[l] = NUL; } #endif /* * Compute a score for two sound-a-like words. * This permits up to two inserts/deletes/swaps/etc. to keep things fast. * Instead of a generic loop we write out the code. That keeps it fast by * avoiding checks that will not be possible. */ static int soundalike_score(goodstart, badstart) char_u *goodstart; /* sound-folded good word */ char_u *badstart; /* sound-folded bad word */ { char_u *goodsound = goodstart; char_u *badsound = badstart; int goodlen; int badlen; int n; char_u *pl, *ps; char_u *pl2, *ps2; int score = 0; /* adding/inserting "*" at the start (word starts with vowel) shouldn't be * counted so much, vowels halfway the word aren't counted at all. */ if ((*badsound == '*' || *goodsound == '*') && *badsound != *goodsound) { score = SCORE_DEL / 2; if (*badsound == '*') ++badsound; else ++goodsound; } goodlen = STRLEN(goodsound); badlen = STRLEN(badsound); /* Return quickly if the lenghts are too different to be fixed by two * changes. */ n = goodlen - badlen; if (n < -2 || n > 2) return SCORE_MAXMAX; if (n > 0) { pl = goodsound; /* goodsound is longest */ ps = badsound; } else { pl = badsound; /* badsound is longest */ ps = goodsound; } /* Skip over the identical part. */ while (*pl == *ps && *pl != NUL) { ++pl; ++ps; } switch (n) { case -2: case 2: /* * Must delete two characters from "pl". */ ++pl; /* first delete */ while (*pl == *ps) { ++pl; ++ps; } /* strings must be equal after second delete */ if (STRCMP(pl + 1, ps) == 0) return score + SCORE_DEL * 2; /* Failed to compare. */ break; case -1: case 1: /* * Minimal one delete from "pl" required. */ /* 1: delete */ pl2 = pl + 1; ps2 = ps; while (*pl2 == *ps2) { if (*pl2 == NUL) /* reached the end */ return score + SCORE_DEL; ++pl2; ++ps2; } /* 2: delete then swap, then rest must be equal */ if (pl2[0] == ps2[1] && pl2[1] == ps2[0] && STRCMP(pl2 + 2, ps2 + 2) == 0) return score + SCORE_DEL + SCORE_SWAP; /* 3: delete then substitute, then the rest must be equal */ if (STRCMP(pl2 + 1, ps2 + 1) == 0) return score + SCORE_DEL + SCORE_SUBST; /* 4: first swap then delete */ if (pl[0] == ps[1] && pl[1] == ps[0]) { pl2 = pl + 2; /* swap, skip two chars */ ps2 = ps + 2; while (*pl2 == *ps2) { ++pl2; ++ps2; } /* delete a char and then strings must be equal */ if (STRCMP(pl2 + 1, ps2) == 0) return score + SCORE_SWAP + SCORE_DEL; } /* 5: first substitute then delete */ pl2 = pl + 1; /* substitute, skip one char */ ps2 = ps + 1; while (*pl2 == *ps2) { ++pl2; ++ps2; } /* delete a char and then strings must be equal */ if (STRCMP(pl2 + 1, ps2) == 0) return score + SCORE_SUBST + SCORE_DEL; /* Failed to compare. */ break; case 0: /* * Lenghts are equal, thus changes must result in same length: An * insert is only possible in combination with a delete. * 1: check if for identical strings */ if (*pl == NUL) return score; /* 2: swap */ if (pl[0] == ps[1] && pl[1] == ps[0]) { pl2 = pl + 2; /* swap, skip two chars */ ps2 = ps + 2; while (*pl2 == *ps2) { if (*pl2 == NUL) /* reached the end */ return score + SCORE_SWAP; ++pl2; ++ps2; } /* 3: swap and swap again */ if (pl2[0] == ps2[1] && pl2[1] == ps2[0] && STRCMP(pl2 + 2, ps2 + 2) == 0) return score + SCORE_SWAP + SCORE_SWAP; /* 4: swap and substitute */ if (STRCMP(pl2 + 1, ps2 + 1) == 0) return score + SCORE_SWAP + SCORE_SUBST; } /* 5: substitute */ pl2 = pl + 1; ps2 = ps + 1; while (*pl2 == *ps2) { if (*pl2 == NUL) /* reached the end */ return score + SCORE_SUBST; ++pl2; ++ps2; } /* 6: substitute and swap */ if (pl2[0] == ps2[1] && pl2[1] == ps2[0] && STRCMP(pl2 + 2, ps2 + 2) == 0) return score + SCORE_SUBST + SCORE_SWAP; /* 7: substitute and substitute */ if (STRCMP(pl2 + 1, ps2 + 1) == 0) return score + SCORE_SUBST + SCORE_SUBST; /* 8: insert then delete */ pl2 = pl; ps2 = ps + 1; while (*pl2 == *ps2) { ++pl2; ++ps2; } if (STRCMP(pl2 + 1, ps2) == 0) return score + SCORE_INS + SCORE_DEL; /* 9: delete then insert */ pl2 = pl + 1; ps2 = ps; while (*pl2 == *ps2) { ++pl2; ++ps2; } if (STRCMP(pl2, ps2 + 1) == 0) return score + SCORE_INS + SCORE_DEL; /* Failed to compare. */ break; } return SCORE_MAXMAX; } /* * Compute the "edit distance" to turn "badword" into "goodword". The less * deletes/inserts/substitutes/swaps are required the lower the score. * * The algorithm comes from Aspell editdist.cpp, edit_distance(). * It has been converted from C++ to C and modified to support multi-byte * characters. */ static int spell_edit_score(badword, goodword) char_u *badword; char_u *goodword; { int *cnt; int badlen, goodlen; /* lenghts including NUL */ int j, i; int t; int bc, gc; int pbc, pgc; #ifdef FEAT_MBYTE char_u *p; int wbadword[MAXWLEN]; int wgoodword[MAXWLEN]; if (has_mbyte) { /* Get the characters from the multi-byte strings and put them in an * int array for easy access. */ for (p = badword, badlen = 0; *p != NUL; ) wbadword[badlen++] = mb_ptr2char_adv(&p); wbadword[badlen++] = 0; for (p = goodword, goodlen = 0; *p != NUL; ) wgoodword[goodlen++] = mb_ptr2char_adv(&p); wgoodword[goodlen++] = 0; } else #endif { badlen = STRLEN(badword) + 1; goodlen = STRLEN(goodword) + 1; } /* We use "cnt" as an array: CNT(badword_idx, goodword_idx). */ #define CNT(a, b) cnt[(a) + (b) * (badlen + 1)] cnt = (int *)lalloc((long_u)(sizeof(int) * (badlen + 1) * (goodlen + 1)), TRUE); if (cnt == NULL) return 0; /* out of memory */ CNT(0, 0) = 0; for (j = 1; j <= goodlen; ++j) CNT(0, j) = CNT(0, j - 1) + SCORE_DEL; for (i = 1; i <= badlen; ++i) { CNT(i, 0) = CNT(i - 1, 0) + SCORE_INS; for (j = 1; j <= goodlen; ++j) { #ifdef FEAT_MBYTE if (has_mbyte) { bc = wbadword[i - 1]; gc = wgoodword[j - 1]; } else #endif { bc = badword[i - 1]; gc = goodword[j - 1]; } if (bc == gc) CNT(i, j) = CNT(i - 1, j - 1); else { /* Use a better score when there is only a case difference. */ if (SPELL_TOFOLD(bc) == SPELL_TOFOLD(gc)) CNT(i, j) = SCORE_ICASE + CNT(i - 1, j - 1); else CNT(i, j) = SCORE_SUBST + CNT(i - 1, j - 1); if (i > 1 && j > 1) { #ifdef FEAT_MBYTE if (has_mbyte) { pbc = wbadword[i - 2]; pgc = wgoodword[j - 2]; } else #endif { pbc = badword[i - 2]; pgc = goodword[j - 2]; } if (bc == pgc && pbc == gc) { t = SCORE_SWAP + CNT(i - 2, j - 2); if (t < CNT(i, j)) CNT(i, j) = t; } } t = SCORE_DEL + CNT(i - 1, j); if (t < CNT(i, j)) CNT(i, j) = t; t = SCORE_INS + CNT(i, j - 1); if (t < CNT(i, j)) CNT(i, j) = t; } } } i = CNT(badlen - 1, goodlen - 1); vim_free(cnt); return i; } /* * ":spelldump" */ /*ARGSUSED*/ void ex_spelldump(eap) exarg_T *eap; { buf_T *buf = curbuf; langp_T *lp; slang_T *slang; idx_T arridx[MAXWLEN]; int curi[MAXWLEN]; char_u word[MAXWLEN]; int c; char_u *byts; idx_T *idxs; linenr_T lnum = 0; int round; int depth; int n; int flags; char_u *region_names = NULL; /* region names being used */ int do_region = TRUE; /* dump region names and numbers */ char_u *p; if (no_spell_checking()) return; /* Create a new empty buffer by splitting the window. */ do_cmdline_cmd((char_u *)"new"); if (!bufempty() || !buf_valid(buf)) return; /* Find out if we can support regions: All languages must support the same * regions or none at all. */ for (lp = LANGP_ENTRY(buf->b_langp, 0); lp->lp_slang != NULL; ++lp) { p = lp->lp_slang->sl_regions; if (p[0] != 0) { if (region_names == NULL) /* first language with regions */ region_names = p; else if (STRCMP(region_names, p) != 0) { do_region = FALSE; /* region names are different */ break; } } } if (do_region && region_names != NULL) { vim_snprintf((char *)IObuff, IOSIZE, "/regions=%s", region_names); ml_append(lnum++, IObuff, (colnr_T)0, FALSE); } else do_region = FALSE; /* * Loop over all files loaded for the entries in 'spelllang'. */ for (lp = LANGP_ENTRY(buf->b_langp, 0); lp->lp_slang != NULL; ++lp) { slang = lp->lp_slang; vim_snprintf((char *)IObuff, IOSIZE, "# file: %s", slang->sl_fname); ml_append(lnum++, IObuff, (colnr_T)0, FALSE); /* round 1: case-folded tree * round 2: keep-case tree */ for (round = 1; round <= 2; ++round) { if (round == 1) { byts = slang->sl_fbyts; idxs = slang->sl_fidxs; } else { byts = slang->sl_kbyts; idxs = slang->sl_kidxs; } if (byts == NULL) continue; /* array is empty */ depth = 0; arridx[0] = 0; curi[0] = 1; while (depth >= 0 && !got_int) { if (curi[depth] > byts[arridx[depth]]) { /* Done all bytes at this node, go up one level. */ --depth; line_breakcheck(); } else { /* Do one more byte at this node. */ n = arridx[depth] + curi[depth]; ++curi[depth]; c = byts[n]; if (c == 0) { /* End of word, deal with the word. * Don't use keep-case words in the fold-case tree, * they will appear in the keep-case tree. * Only use the word when the region matches. */ flags = (int)idxs[n]; if ((round == 2 || (flags & WF_KEEPCAP) == 0) && (do_region || (flags & WF_REGION) == 0 || (((unsigned)flags >> 16) & lp->lp_region) != 0)) { word[depth] = NUL; if (!do_region) flags &= ~WF_REGION; /* Dump the basic word if there is no prefix or * when it's the first one. */ c = (unsigned)flags >> 24; if (c == 0 || curi[depth] == 2) dump_word(word, round, flags, lnum++); /* Apply the prefix, if there is one. */ if (c != 0) lnum = apply_prefixes(slang, word, round, flags, lnum); } } else { /* Normal char, go one level deeper. */ word[depth++] = c; arridx[depth] = idxs[n]; curi[depth] = 1; } } } } } /* Delete the empty line that we started with. */ if (curbuf->b_ml.ml_line_count > 1) ml_delete(curbuf->b_ml.ml_line_count, FALSE); redraw_later(NOT_VALID); } /* * Dump one word: apply case modifications and append a line to the buffer. */ static void dump_word(word, round, flags, lnum) char_u *word; int round; int flags; linenr_T lnum; { int keepcap = FALSE; char_u *p; char_u cword[MAXWLEN]; char_u badword[MAXWLEN + 10]; int i; if (round == 1 && (flags & WF_CAPMASK) != 0) { /* Need to fix case according to "flags". */ make_case_word(word, cword, flags); p = cword; } else { p = word; if (round == 2 && ((captype(word, NULL) & WF_KEEPCAP) == 0 || (flags & WF_FIXCAP) != 0)) keepcap = TRUE; } /* Add flags and regions after a slash. */ if ((flags & (WF_BANNED | WF_RARE | WF_REGION)) || keepcap) { STRCPY(badword, p); STRCAT(badword, "/"); if (keepcap) STRCAT(badword, "="); if (flags & WF_BANNED) STRCAT(badword, "!"); else if (flags & WF_RARE) STRCAT(badword, "?"); if (flags & WF_REGION) for (i = 0; i < 7; ++i) if (flags & (0x10000 << i)) sprintf((char *)badword + STRLEN(badword), "%d", i + 1); p = badword; } ml_append(lnum, p, (colnr_T)0, FALSE); } /* * For ":spelldump": Find matching prefixes for "word". Prepend each to * "word" and append a line to the buffer. * Return the updated line number. */ static linenr_T apply_prefixes(slang, word, round, flags, startlnum) slang_T *slang; char_u *word; /* case-folded word */ int round; int flags; /* flags with prefix ID */ linenr_T startlnum; { idx_T arridx[MAXWLEN]; int curi[MAXWLEN]; char_u prefix[MAXWLEN]; int c; char_u *byts; idx_T *idxs; linenr_T lnum = startlnum; int depth; int n; int len; int i; byts = slang->sl_pbyts; idxs = slang->sl_pidxs; if (byts != NULL) /* array not is empty */ { /* * Loop over all prefixes, building them byte-by-byte in prefix[]. * When at the end of a prefix check that it supports "flags". */ depth = 0; arridx[0] = 0; curi[0] = 1; while (depth >= 0 && !got_int) { n = arridx[depth]; len = byts[n]; if (curi[depth] > len) { /* Done all bytes at this node, go up one level. */ --depth; line_breakcheck(); } else { /* Do one more byte at this node. */ n += curi[depth]; ++curi[depth]; c = byts[n]; if (c == 0) { /* End of prefix, find out how many IDs there are. */ for (i = 1; i < len; ++i) if (byts[n + i] != 0) break; curi[depth] += i - 1; i = valid_word_prefix(i, n, flags, word, slang); if (i != 0) { vim_strncpy(prefix + depth, word, MAXWLEN - depth - 1); dump_word(prefix, round, (i & WF_RAREPFX) ? (flags | WF_RARE) : flags, lnum++); } } else { /* Normal char, go one level deeper. */ prefix[depth++] = c; arridx[depth] = idxs[n]; curi[depth] = 1; } } } } return lnum; } #endif /* FEAT_SYN_HL */