Mercurial > vim
view src/spell.h @ 33980:0078805790af
runtime(netrw): prevent E11 on FocusGained autocommand (#13718)
Commit: https://github.com/vim/vim/commit/fbd72d2d47257267bc6e3fe093ef8c225369ab79
Author: Christian Brabandt <cb@256bit.org>
Date: Tue Dec 19 20:22:18 2023 +0100
runtime(netrw): prevent E11 on FocusGained autocommand (https://github.com/vim/vim/issues/13718)
Signed-off-by: Christian Brabandt <cb@256bit.org>
author | Christian Brabandt <cb@256bit.org> |
---|---|
date | Tue, 19 Dec 2023 20:30:07 +0100 |
parents | ce04a773d598 |
children |
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/* vi:set ts=8 sts=4 sw=4 noet: * * 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.h: common code for spell checking, used by spell.c and spellfile.c. */ // Use SPELL_PRINTTREE for debugging: dump the word tree after adding a word. // Only use it for small word lists! #if 0 # define SPELL_PRINTTREE #endif // Use SPELL_COMPRESS_ALWAYS for debugging: compress the word tree after // adding a word. Only use it for small word lists! #if 0 # define SPELL_COMPRESS_ALWAYS #endif // Use DEBUG_TRIEWALK to print the changes made in suggest_trie_walk() for a // specific word. #if 0 # define DEBUG_TRIEWALK #endif #define MAXWLEN 254 // 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. // Must be >= PFD_NOTSPECIAL. #define MAXREGIONS 8 // Number of regions supported. // Type used for indexes in the word tree need to be at least 4 bytes. If int // is 8 bytes we could use something smaller, but what? typedef int idx_T; typedef int salfirst_T; /* * 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: * <len> <byte1> <byte2> ... * 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 affixID for the word. There may be several * zeros in sequence for alternative flag/region/affixID 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 long sl_fbyts_len; // length of sl_fbyts 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_info; // infotext string or NULL char_u sl_regions[MAXREGIONS * 2 + 1]; // table with up to 8 region names plus NUL char_u *sl_midword; // MIDWORD string or NULL hashtab_T sl_wordcount; // hashtable with word count, wordcount_T int sl_compmax; // COMPOUNDWORDMAX (default: MAXWLEN) int sl_compminlen; // COMPOUNDMIN (default: 0) int sl_compsylmax; // COMPOUNDSYLMAX (default: MAXWLEN) int sl_compoptions; // COMP_* flags garray_T sl_comppat; // CHECKCOMPOUNDPATTERN items regprog_T *sl_compprog; // COMPOUNDRULE turned into a regexp progrm // (NULL when no compounding) char_u *sl_comprules; // all COMPOUNDRULE concatenated (or NULL) char_u *sl_compstartflags; // flags for first compound word char_u *sl_compallflags; // all flags for compound words char_u sl_nobreak; // When TRUE: no spaces between words char_u *sl_syllable; // SYLLABLE repeatable chars or NULL garray_T sl_syl_items; // syllable items 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_followup; // SAL followup int sl_collapse; // SAL collapse_result int sl_rem_accents; // SAL remove_accents 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. garray_T sl_repsal; // list of fromto_T entries from REPSAL lines short sl_repsal_first[256]; // sl_rep_first for REPSAL lines int sl_nosplitsugs; // don't suggest splitting a word int sl_nocompoundsugs; // don't suggest compounding // Info from the .sug file. Loaded on demand. time_t sl_sugtime; // timestamp for .sug file char_u *sl_sbyts; // soundfolded word bytes idx_T *sl_sidxs; // soundfolded word indexes buf_T *sl_sugbuf; // buffer with word number table int sl_sugloaded; // TRUE when .sug file was loaded or failed to // load int sl_has_map; // TRUE if there is a MAP line hashtab_T sl_map_hash; // MAP for multi-byte chars int sl_map_array[256]; // MAP for first 256 chars hashtab_T sl_sounddone; // table with soundfolded words that have // handled, see add_sound_suggest() }; #ifdef VMS # define SPL_FNAME_TMPL "%s_%s.spl" # define SPL_FNAME_ADD "_add." # define SPL_FNAME_ASCII "_ascii." #else # define SPL_FNAME_TMPL "%s.%s.spl" # define SPL_FNAME_ADD ".add." # define SPL_FNAME_ASCII ".ascii." #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_AFX 0x20 // affix ID follows #define WF_FIXCAP 0x40 // keep-case word, allcap not allowed #define WF_KEEPCAP 0x80 // keep-case word #define WF_CAPMASK (WF_ONECAP | WF_ALLCAP | WF_KEEPCAP | WF_FIXCAP) // for <flags2>, shifted up one byte to be used in wn_flags #define WF_HAS_AFF 0x0100 // word includes affix #define WF_NEEDCOMP 0x0200 // word only valid in compound #define WF_NOSUGGEST 0x0400 // word not to be suggested #define WF_COMPROOT 0x0800 // already compounded word, COMPOUNDROOT #define WF_NOCOMPBEF 0x1000 // no compounding before this word #define WF_NOCOMPAFT 0x2000 // no compounding after this word // flags for <pflags> #define WFP_RARE 0x01 // rare prefix #define WFP_NC 0x02 // prefix is not combining #define WFP_UP 0x04 // to-upper prefix #define WFP_COMPPERMIT 0x08 // prefix with COMPOUNDPERMITFLAG #define WFP_COMPFORBID 0x10 // prefix with COMPOUNDFORBIDFLAG // Flags for postponed prefixes in "sl_pidxs". Must be above affixID (one // byte) and prefcondnr (two bytes). #define WF_RAREPFX (WFP_RARE << 24) // rare postponed prefix #define WF_PFX_NC (WFP_NC << 24) // non-combining postponed prefix #define WF_PFX_UP (WFP_UP << 24) // to-upper postponed prefix #define WF_PFX_COMPPERMIT (WFP_COMPPERMIT << 24) // postponed prefix with // COMPOUNDPERMITFLAG #define WF_PFX_COMPFORBID (WFP_COMPFORBID << 24) // postponed prefix with // COMPOUNDFORBIDFLAG // flags for <compoptions> #define COMP_CHECKDUP 1 // CHECKCOMPOUNDDUP #define COMP_CHECKREP 2 // CHECKCOMPOUNDREP #define COMP_CHECKCASE 4 // CHECKCOMPOUNDCASE #define COMP_CHECKTRIPLE 8 // CHECKCOMPOUNDTRIPLE // Info from "REP", "REPSAL" and "SAL" entries in ".aff" file used in si_rep, // si_repsal, 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. 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" } salitem_T; // Values for SP_*ERROR are negative, positive values are used by // read_cnt_string(). #define SP_TRUNCERROR (-1) // spell file truncated error #define SP_FORMERROR (-2) // format error in spell file #define SP_OTHERERROR (-3) // other error while reading spell file /* * Structure used in "b_langp", filled from 'spelllang'. */ typedef struct langp_S { slang_T *lp_slang; // info for this language slang_T *lp_sallang; // language used for sound folding or NULL slang_T *lp_replang; // language used for REP items or NULL int lp_region; // bitmask for region or REGION_ALL } langp_T; #define LANGP_ENTRY(ga, i) (((langp_T *)(ga).ga_data) + (i)) #define VIMSUGMAGIC "VIMsug" // string at start of Vim .sug file #define VIMSUGMAGICL 6 #define VIMSUGVERSION 1 /* * 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; /* * 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! */ #if defined(HAVE_WCHAR_H) # include <wchar.h> // for towupper() and towlower() #endif // 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 ? (int)spelltab.st_fold[c] : (int)towlower(c)) #else # define SPELL_TOFOLD(c) (enc_utf8 && (c) >= 128 ? utf_fold(c) \ : (c) < 256 ? (int)spelltab.st_fold[c] : (c)) #endif #ifdef HAVE_TOWUPPER # define SPELL_TOUPPER(c) (enc_utf8 && (c) >= 128 ? utf_toupper(c) \ : (c) < 256 ? (int)spelltab.st_upper[c] : (int)towupper(c)) #else # define SPELL_TOUPPER(c) (enc_utf8 && (c) >= 128 ? utf_toupper(c) \ : (c) < 256 ? (int)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] : (FALSE)) #endif #ifdef FEAT_SPELL # ifdef IN_SPELL_C # define SPELL_EXTERN # define SPELL_INIT(x) x # else # define SPELL_EXTERN extern # define SPELL_INIT(x) # endif // First language that is loaded, start of the linked list of loaded // languages. SPELL_EXTERN slang_T *first_lang SPELL_INIT(= NULL); // file used for "zG" and "zW" SPELL_EXTERN char_u *int_wordlist SPELL_INIT(= NULL); SPELL_EXTERN spelltab_T spelltab; SPELL_EXTERN int did_set_spelltab; // Values for "what" argument of spell_add_word() #define SPELL_ADD_GOOD 0 #define SPELL_ADD_BAD 1 #define SPELL_ADD_RARE 2 typedef struct wordcount_S { short_u wc_count; // nr of times word was seen char_u wc_word[1]; // word, actually longer } wordcount_T; #define WC_KEY_OFF offsetof(wordcount_T, wc_word) #define HI2WC(hi) ((wordcount_T *)((hi)->hi_key - WC_KEY_OFF)) #define MAXWORDCOUNT 0xffff // Remember what "z?" replaced. SPELL_EXTERN char_u *repl_from SPELL_INIT(= NULL); SPELL_EXTERN char_u *repl_to SPELL_INIT(= NULL); #endif