Mercurial > vim
view src/structs.h @ 13016:e47e70300f30 v8.0.1384
patch 8.0.1384: not enough quickfix help; confusing winid
commit https://github.com/vim/vim/commit/74240d3febd1e3bc7cf086c647c9348b20716c33
Author: Bram Moolenaar <Bram@vim.org>
Date: Sun Dec 10 15:26:15 2017 +0100
patch 8.0.1384: not enough quickfix help; confusing winid
Problem: Not enough quickfix help; confusing winid.
Solution: Add more examples in the help. When the quickfix window is not
present, return zero for getqflist() with 'winid'. Add more tests
for jumping to quickfix list entries. (Yegappan Lakshmanan, closes
#2427)
author | Christian Brabandt <cb@256bit.org> |
---|---|
date | Sun, 10 Dec 2017 15:30:06 +0100 |
parents | 327e1264b9bf |
children | e0dcfd3dbb52 |
line wrap: on
line source
/* 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. */ /* * This file contains various definitions of structures that are used by Vim */ /* * There is something wrong in the SAS compiler that makes typedefs not * valid in include files. Has been fixed in version 6.58. */ #if defined(SASC) && SASC < 658 typedef long linenr_T; typedef int colnr_T; typedef unsigned short short_u; #endif /* * position in file or buffer */ typedef struct { linenr_T lnum; /* line number */ colnr_T col; /* column number */ #ifdef FEAT_VIRTUALEDIT colnr_T coladd; #endif } pos_T; #ifdef FEAT_VIRTUALEDIT # define INIT_POS_T(l, c, ca) {l, c, ca} #else # define INIT_POS_T(l, c, ca) {l, c} #endif /* * Same, but without coladd. */ typedef struct { linenr_T lnum; /* line number */ colnr_T col; /* column number */ } lpos_T; /* * Structure used for growing arrays. * This is used to store information that only grows, is deleted all at * once, and needs to be accessed by index. See ga_clear() and ga_grow(). */ typedef struct growarray { int ga_len; /* current number of items used */ int ga_maxlen; /* maximum number of items possible */ int ga_itemsize; /* sizeof(item) */ int ga_growsize; /* number of items to grow each time */ void *ga_data; /* pointer to the first item */ } garray_T; #define GA_EMPTY {0, 0, 0, 0, NULL} typedef struct window_S win_T; typedef struct wininfo_S wininfo_T; typedef struct frame_S frame_T; typedef int scid_T; /* script ID */ typedef struct file_buffer buf_T; /* forward declaration */ typedef struct terminal_S term_T; #ifdef FEAT_MENU typedef struct VimMenu vimmenu_T; #endif /* * Reference to a buffer that stores the value of buf_free_count. * bufref_valid() only needs to check "buf" when the count differs. */ typedef struct { buf_T *br_buf; int br_fnum; int br_buf_free_count; } bufref_T; /* * This is here because regexp.h needs pos_T and below regprog_T is used. */ #include "regexp.h" /* * This is here because gui.h needs the pos_T and win_T, and win_T needs gui.h * for scrollbar_T. */ #ifdef FEAT_GUI # include "gui.h" #else # ifdef FEAT_XCLIPBOARD # include <X11/Intrinsic.h> # endif # define guicolor_T long # define INVALCOLOR ((guicolor_T)0x1ffffff) #endif /* * marks: positions in a file * (a normal mark is a lnum/col pair, the same as a file position) */ /* (Note: for EBCDIC there are more than 26, because there are gaps in the * alphabet coding. To minimize changes to the code, I decided to just * increase the number of possible marks. */ #define NMARKS ('z' - 'a' + 1) /* max. # of named marks */ #define JUMPLISTSIZE 100 /* max. # of marks in jump list */ #define TAGSTACKSIZE 20 /* max. # of tags in tag stack */ typedef struct filemark { pos_T mark; /* cursor position */ int fnum; /* file number */ } fmark_T; /* Xtended file mark: also has a file name */ typedef struct xfilemark { fmark_T fmark; char_u *fname; /* file name, used when fnum == 0 */ #ifdef FEAT_VIMINFO time_T time_set; #endif } xfmark_T; /* * The taggy struct is used to store the information about a :tag command. */ typedef struct taggy { char_u *tagname; /* tag name */ fmark_T fmark; /* cursor position BEFORE ":tag" */ int cur_match; /* match number */ int cur_fnum; /* buffer number used for cur_match */ } taggy_T; /* * Structure that contains all options that are local to a window. * Used twice in a window: for the current buffer and for all buffers. * Also used in wininfo_T. */ typedef struct { #ifdef FEAT_ARABIC int wo_arab; # define w_p_arab w_onebuf_opt.wo_arab /* 'arabic' */ #endif #ifdef FEAT_LINEBREAK int wo_bri; # define w_p_bri w_onebuf_opt.wo_bri /* 'breakindent' */ char_u *wo_briopt; # define w_p_briopt w_onebuf_opt.wo_briopt /* 'breakindentopt' */ #endif #ifdef FEAT_DIFF int wo_diff; # define w_p_diff w_onebuf_opt.wo_diff /* 'diff' */ #endif #ifdef FEAT_FOLDING long wo_fdc; # define w_p_fdc w_onebuf_opt.wo_fdc /* 'foldcolumn' */ int wo_fdc_save; # define w_p_fdc_save w_onebuf_opt.wo_fdc_save /* 'foldenable' saved for diff mode */ int wo_fen; # define w_p_fen w_onebuf_opt.wo_fen /* 'foldenable' */ int wo_fen_save; # define w_p_fen_save w_onebuf_opt.wo_fen_save /* 'foldenable' saved for diff mode */ char_u *wo_fdi; # define w_p_fdi w_onebuf_opt.wo_fdi /* 'foldignore' */ long wo_fdl; # define w_p_fdl w_onebuf_opt.wo_fdl /* 'foldlevel' */ int wo_fdl_save; # define w_p_fdl_save w_onebuf_opt.wo_fdl_save /* 'foldlevel' state saved for diff mode */ char_u *wo_fdm; # define w_p_fdm w_onebuf_opt.wo_fdm /* 'foldmethod' */ char_u *wo_fdm_save; # define w_p_fdm_save w_onebuf_opt.wo_fdm_save /* 'fdm' saved for diff mode */ long wo_fml; # define w_p_fml w_onebuf_opt.wo_fml /* 'foldminlines' */ long wo_fdn; # define w_p_fdn w_onebuf_opt.wo_fdn /* 'foldnestmax' */ # ifdef FEAT_EVAL char_u *wo_fde; # define w_p_fde w_onebuf_opt.wo_fde /* 'foldexpr' */ char_u *wo_fdt; # define w_p_fdt w_onebuf_opt.wo_fdt /* 'foldtext' */ # endif char_u *wo_fmr; # define w_p_fmr w_onebuf_opt.wo_fmr /* 'foldmarker' */ #endif #ifdef FEAT_LINEBREAK int wo_lbr; # define w_p_lbr w_onebuf_opt.wo_lbr /* 'linebreak' */ #endif int wo_list; #define w_p_list w_onebuf_opt.wo_list /* 'list' */ int wo_nu; #define w_p_nu w_onebuf_opt.wo_nu /* 'number' */ int wo_rnu; #define w_p_rnu w_onebuf_opt.wo_rnu /* 'relativenumber' */ #ifdef FEAT_LINEBREAK long wo_nuw; # define w_p_nuw w_onebuf_opt.wo_nuw /* 'numberwidth' */ #endif int wo_wfh; # define w_p_wfh w_onebuf_opt.wo_wfh /* 'winfixheight' */ int wo_wfw; # define w_p_wfw w_onebuf_opt.wo_wfw /* 'winfixwidth' */ #if defined(FEAT_QUICKFIX) int wo_pvw; # define w_p_pvw w_onebuf_opt.wo_pvw /* 'previewwindow' */ #endif #ifdef FEAT_RIGHTLEFT int wo_rl; # define w_p_rl w_onebuf_opt.wo_rl /* 'rightleft' */ char_u *wo_rlc; # define w_p_rlc w_onebuf_opt.wo_rlc /* 'rightleftcmd' */ #endif long wo_scr; #define w_p_scr w_onebuf_opt.wo_scr /* 'scroll' */ #ifdef FEAT_SPELL int wo_spell; # define w_p_spell w_onebuf_opt.wo_spell /* 'spell' */ #endif #ifdef FEAT_SYN_HL int wo_cuc; # define w_p_cuc w_onebuf_opt.wo_cuc /* 'cursorcolumn' */ int wo_cul; # define w_p_cul w_onebuf_opt.wo_cul /* 'cursorline' */ char_u *wo_cc; # define w_p_cc w_onebuf_opt.wo_cc /* 'colorcolumn' */ #endif #ifdef FEAT_STL_OPT char_u *wo_stl; #define w_p_stl w_onebuf_opt.wo_stl /* 'statusline' */ #endif #ifdef FEAT_SCROLLBIND int wo_scb; # define w_p_scb w_onebuf_opt.wo_scb /* 'scrollbind' */ int wo_diff_saved; /* options were saved for starting diff mode */ # define w_p_diff_saved w_onebuf_opt.wo_diff_saved int wo_scb_save; /* 'scrollbind' saved for diff mode*/ # define w_p_scb_save w_onebuf_opt.wo_scb_save #endif int wo_wrap; #define w_p_wrap w_onebuf_opt.wo_wrap /* 'wrap' */ #ifdef FEAT_DIFF int wo_wrap_save; /* 'wrap' state saved for diff mode*/ # define w_p_wrap_save w_onebuf_opt.wo_wrap_save #endif #ifdef FEAT_CONCEAL char_u *wo_cocu; /* 'concealcursor' */ # define w_p_cocu w_onebuf_opt.wo_cocu long wo_cole; /* 'conceallevel' */ # define w_p_cole w_onebuf_opt.wo_cole #endif #ifdef FEAT_CURSORBIND int wo_crb; # define w_p_crb w_onebuf_opt.wo_crb /* 'cursorbind' */ int wo_crb_save; /* 'cursorbind' state saved for diff mode*/ # define w_p_crb_save w_onebuf_opt.wo_crb_save #endif #ifdef FEAT_SIGNS char_u *wo_scl; # define w_p_scl w_onebuf_opt.wo_scl /* 'signcolumn' */ #endif #ifdef FEAT_TERMINAL char_u *wo_tk; #define w_p_tk w_onebuf_opt.wo_tk /* 'termkey' */ char_u *wo_tms; #define w_p_tms w_onebuf_opt.wo_tms /* 'termsize' */ #endif #ifdef FEAT_EVAL int wo_scriptID[WV_COUNT]; /* SIDs for window-local options */ # define w_p_scriptID w_onebuf_opt.wo_scriptID #endif } winopt_T; /* * Window info stored with a buffer. * * Two types of info are kept for a buffer which are associated with a * specific window: * 1. Each window can have a different line number associated with a buffer. * 2. The window-local options for a buffer work in a similar way. * The window-info is kept in a list at b_wininfo. It is kept in * most-recently-used order. */ struct wininfo_S { wininfo_T *wi_next; /* next entry or NULL for last entry */ wininfo_T *wi_prev; /* previous entry or NULL for first entry */ win_T *wi_win; /* pointer to window that did set wi_fpos */ pos_T wi_fpos; /* last cursor position in the file */ int wi_optset; /* TRUE when wi_opt has useful values */ winopt_T wi_opt; /* local window options */ #ifdef FEAT_FOLDING int wi_fold_manual; /* copy of w_fold_manual */ garray_T wi_folds; /* clone of w_folds */ #endif }; /* * Info used to pass info about a fold from the fold-detection code to the * code that displays the foldcolumn. */ typedef struct foldinfo { int fi_level; /* level of the fold; when this is zero the other fields are invalid */ int fi_lnum; /* line number where fold starts */ int fi_low_level; /* lowest fold level that starts in the same line */ } foldinfo_T; /* Structure to store info about the Visual area. */ typedef struct { pos_T vi_start; /* start pos of last VIsual */ pos_T vi_end; /* end position of last VIsual */ int vi_mode; /* VIsual_mode of last VIsual */ colnr_T vi_curswant; /* MAXCOL from w_curswant */ } visualinfo_T; /* * structures used for undo */ typedef struct u_entry u_entry_T; typedef struct u_header u_header_T; struct u_entry { u_entry_T *ue_next; /* pointer to next entry in list */ linenr_T ue_top; /* number of line above undo block */ linenr_T ue_bot; /* number of line below undo block */ linenr_T ue_lcount; /* linecount when u_save called */ char_u **ue_array; /* array of lines in undo block */ long ue_size; /* number of lines in ue_array */ #ifdef U_DEBUG int ue_magic; /* magic number to check allocation */ #endif }; struct u_header { /* The following have a pointer and a number. The number is used when * reading the undo file in u_read_undo() */ union { u_header_T *ptr; /* pointer to next undo header in list */ long seq; } uh_next; union { u_header_T *ptr; /* pointer to previous header in list */ long seq; } uh_prev; union { u_header_T *ptr; /* pointer to next header for alt. redo */ long seq; } uh_alt_next; union { u_header_T *ptr; /* pointer to previous header for alt. redo */ long seq; } uh_alt_prev; long uh_seq; /* sequence number, higher == newer undo */ int uh_walk; /* used by undo_time() */ u_entry_T *uh_entry; /* pointer to first entry */ u_entry_T *uh_getbot_entry; /* pointer to where ue_bot must be set */ pos_T uh_cursor; /* cursor position before saving */ #ifdef FEAT_VIRTUALEDIT long uh_cursor_vcol; #endif int uh_flags; /* see below */ pos_T uh_namedm[NMARKS]; /* marks before undo/after redo */ visualinfo_T uh_visual; /* Visual areas before undo/after redo */ time_T uh_time; /* timestamp when the change was made */ long uh_save_nr; /* set when the file was saved after the changes in this block */ #ifdef U_DEBUG int uh_magic; /* magic number to check allocation */ #endif }; /* values for uh_flags */ #define UH_CHANGED 0x01 /* b_changed flag before undo/after redo */ #define UH_EMPTYBUF 0x02 /* buffer was empty */ /* * structures used in undo.c */ #if VIM_SIZEOF_INT > 2 # define ALIGN_LONG /* longword alignment and use filler byte */ # define ALIGN_SIZE (sizeof(long)) #else # define ALIGN_SIZE (sizeof(short)) #endif #define ALIGN_MASK (ALIGN_SIZE - 1) typedef struct m_info minfo_T; /* * structure used to link chunks in one of the free chunk lists. */ struct m_info { #ifdef ALIGN_LONG long_u m_size; /* size of the chunk (including m_info) */ #else short_u m_size; /* size of the chunk (including m_info) */ #endif minfo_T *m_next; /* pointer to next free chunk in the list */ }; /* * things used in memfile.c */ typedef struct block_hdr bhdr_T; typedef struct memfile memfile_T; typedef long blocknr_T; /* * mf_hashtab_T is a chained hashtable with blocknr_T key and arbitrary * structures as items. This is an intrusive data structure: we require * that items begin with mf_hashitem_T which contains the key and linked * list pointers. List of items in each bucket is doubly-linked. */ typedef struct mf_hashitem_S mf_hashitem_T; struct mf_hashitem_S { mf_hashitem_T *mhi_next; mf_hashitem_T *mhi_prev; blocknr_T mhi_key; }; #define MHT_INIT_SIZE 64 typedef struct mf_hashtab_S { long_u mht_mask; /* mask used for hash value (nr of items * in array is "mht_mask" + 1) */ long_u mht_count; /* nr of items inserted into hashtable */ mf_hashitem_T **mht_buckets; /* points to mht_small_buckets or *dynamically allocated array */ mf_hashitem_T *mht_small_buckets[MHT_INIT_SIZE]; /* initial buckets */ char mht_fixed; /* non-zero value forbids growth */ } mf_hashtab_T; /* * for each (previously) used block in the memfile there is one block header. * * The block may be linked in the used list OR in the free list. * The used blocks are also kept in hash lists. * * The used list is a doubly linked list, most recently used block first. * The blocks in the used list have a block of memory allocated. * mf_used_count is the number of pages in the used list. * The hash lists are used to quickly find a block in the used list. * The free list is a single linked list, not sorted. * The blocks in the free list have no block of memory allocated and * the contents of the block in the file (if any) is irrelevant. */ struct block_hdr { mf_hashitem_T bh_hashitem; /* header for hash table and key */ #define bh_bnum bh_hashitem.mhi_key /* block number, part of bh_hashitem */ bhdr_T *bh_next; /* next block_hdr in free or used list */ bhdr_T *bh_prev; /* previous block_hdr in used list */ char_u *bh_data; /* pointer to memory (for used block) */ int bh_page_count; /* number of pages in this block */ #define BH_DIRTY 1 #define BH_LOCKED 2 char bh_flags; /* BH_DIRTY or BH_LOCKED */ }; /* * when a block with a negative number is flushed to the file, it gets * a positive number. Because the reference to the block is still the negative * number, we remember the translation to the new positive number in the * double linked trans lists. The structure is the same as the hash lists. */ typedef struct nr_trans NR_TRANS; struct nr_trans { mf_hashitem_T nt_hashitem; /* header for hash table and key */ #define nt_old_bnum nt_hashitem.mhi_key /* old, negative, number */ blocknr_T nt_new_bnum; /* new, positive, number */ }; typedef struct buffblock buffblock_T; typedef struct buffheader buffheader_T; /* * structure used to store one block of the stuff/redo/recording buffers */ struct buffblock { buffblock_T *b_next; /* pointer to next buffblock */ char_u b_str[1]; /* contents (actually longer) */ }; /* * header used for the stuff buffer and the redo buffer */ struct buffheader { buffblock_T bh_first; /* first (dummy) block of list */ buffblock_T *bh_curr; /* buffblock for appending */ int bh_index; /* index for reading */ int bh_space; /* space in bh_curr for appending */ }; typedef struct { buffheader_T sr_redobuff; buffheader_T sr_old_redobuff; } save_redo_T; /* * used for completion on the command line */ typedef struct expand { int xp_context; /* type of expansion */ char_u *xp_pattern; /* start of item to expand */ int xp_pattern_len; /* bytes in xp_pattern before cursor */ #if defined(FEAT_USR_CMDS) && defined(FEAT_EVAL) && defined(FEAT_CMDL_COMPL) char_u *xp_arg; /* completion function */ int xp_scriptID; /* SID for completion function */ #endif int xp_backslash; /* one of the XP_BS_ values */ #ifndef BACKSLASH_IN_FILENAME int xp_shell; /* TRUE for a shell command, more characters need to be escaped */ #endif int xp_numfiles; /* number of files found by file name completion */ char_u **xp_files; /* list of files */ char_u *xp_line; /* text being completed */ int xp_col; /* cursor position in line */ } expand_T; /* values for xp_backslash */ #define XP_BS_NONE 0 /* nothing special for backslashes */ #define XP_BS_ONE 1 /* uses one backslash before a space */ #define XP_BS_THREE 2 /* uses three backslashes before a space */ /* * Command modifiers ":vertical", ":browse", ":confirm" and ":hide" set a flag. * This needs to be saved for recursive commands, put them in a structure for * easy manipulation. */ typedef struct { int hide; /* TRUE when ":hide" was used */ # ifdef FEAT_BROWSE_CMD int browse; /* TRUE to invoke file dialog */ # endif int split; /* flags for win_split() */ int tab; /* > 0 when ":tab" was used */ # if defined(FEAT_GUI_DIALOG) || defined(FEAT_CON_DIALOG) int confirm; /* TRUE to invoke yes/no dialog */ # endif int keepalt; /* TRUE when ":keepalt" was used */ int keepmarks; /* TRUE when ":keepmarks" was used */ int keepjumps; /* TRUE when ":keepjumps" was used */ int lockmarks; /* TRUE when ":lockmarks" was used */ int keeppatterns; /* TRUE when ":keeppatterns" was used */ int noswapfile; /* TRUE when ":noswapfile" was used */ # ifdef FEAT_AUTOCMD char_u *save_ei; /* saved value of 'eventignore' */ # endif regmatch_T filter_regmatch; /* set by :filter /pat/ */ int filter_force; /* set for :filter! */ } cmdmod_T; #define MF_SEED_LEN 8 struct memfile { char_u *mf_fname; /* name of the file */ char_u *mf_ffname; /* idem, full path */ int mf_fd; /* file descriptor */ bhdr_T *mf_free_first; /* first block_hdr in free list */ bhdr_T *mf_used_first; /* mru block_hdr in used list */ bhdr_T *mf_used_last; /* lru block_hdr in used list */ unsigned mf_used_count; /* number of pages in used list */ unsigned mf_used_count_max; /* maximum number of pages in memory */ mf_hashtab_T mf_hash; /* hash lists */ mf_hashtab_T mf_trans; /* trans lists */ blocknr_T mf_blocknr_max; /* highest positive block number + 1*/ blocknr_T mf_blocknr_min; /* lowest negative block number - 1 */ blocknr_T mf_neg_count; /* number of negative blocks numbers */ blocknr_T mf_infile_count; /* number of pages in the file */ unsigned mf_page_size; /* number of bytes in a page */ int mf_dirty; /* TRUE if there are dirty blocks */ #ifdef FEAT_CRYPT buf_T *mf_buffer; /* buffer this memfile is for */ char_u mf_seed[MF_SEED_LEN]; /* seed for encryption */ /* Values for key, method and seed used for reading data blocks when * updating for a newly set key or method. Only when mf_old_key != NULL. */ char_u *mf_old_key; int mf_old_cm; char_u mf_old_seed[MF_SEED_LEN]; #endif }; /* * things used in memline.c */ /* * When searching for a specific line, we remember what blocks in the tree * are the branches leading to that block. This is stored in ml_stack. Each * entry is a pointer to info in a block (may be data block or pointer block) */ typedef struct info_pointer { blocknr_T ip_bnum; /* block number */ linenr_T ip_low; /* lowest lnum in this block */ linenr_T ip_high; /* highest lnum in this block */ int ip_index; /* index for block with current lnum */ } infoptr_T; /* block/index pair */ #ifdef FEAT_BYTEOFF typedef struct ml_chunksize { int mlcs_numlines; long mlcs_totalsize; } chunksize_T; /* Flags when calling ml_updatechunk() */ #define ML_CHNK_ADDLINE 1 #define ML_CHNK_DELLINE 2 #define ML_CHNK_UPDLINE 3 #endif /* * the memline structure holds all the information about a memline */ typedef struct memline { linenr_T ml_line_count; /* number of lines in the buffer */ memfile_T *ml_mfp; /* pointer to associated memfile */ #define ML_EMPTY 1 /* empty buffer */ #define ML_LINE_DIRTY 2 /* cached line was changed and allocated */ #define ML_LOCKED_DIRTY 4 /* ml_locked was changed */ #define ML_LOCKED_POS 8 /* ml_locked needs positive block number */ int ml_flags; infoptr_T *ml_stack; /* stack of pointer blocks (array of IPTRs) */ int ml_stack_top; /* current top of ml_stack */ int ml_stack_size; /* total number of entries in ml_stack */ linenr_T ml_line_lnum; /* line number of cached line, 0 if not valid */ char_u *ml_line_ptr; /* pointer to cached line */ bhdr_T *ml_locked; /* block used by last ml_get */ linenr_T ml_locked_low; /* first line in ml_locked */ linenr_T ml_locked_high; /* last line in ml_locked */ int ml_locked_lineadd; /* number of lines inserted in ml_locked */ #ifdef FEAT_BYTEOFF chunksize_T *ml_chunksize; int ml_numchunks; int ml_usedchunks; #endif } memline_T; #if defined(FEAT_SIGNS) || defined(PROTO) typedef struct signlist signlist_T; struct signlist { int id; /* unique identifier for each placed sign */ linenr_T lnum; /* line number which has this sign */ int typenr; /* typenr of sign */ signlist_T *next; /* next signlist entry */ # ifdef FEAT_NETBEANS_INTG signlist_T *prev; /* previous entry -- for easy reordering */ # endif }; /* type argument for buf_getsigntype() */ #define SIGN_ANY 0 #define SIGN_LINEHL 1 #define SIGN_ICON 2 #define SIGN_TEXT 3 #endif /* * Argument list: Array of file names. * Used for the global argument list and the argument lists local to a window. */ typedef struct arglist { garray_T al_ga; /* growarray with the array of file names */ int al_refcount; /* number of windows using this arglist */ int id; /* id of this arglist */ } alist_T; /* * For each argument remember the file name as it was given, and the buffer * number that contains the expanded file name (required for when ":cd" is * used. */ typedef struct argentry { char_u *ae_fname; /* file name as specified */ int ae_fnum; /* buffer number with expanded file name */ } aentry_T; #define ALIST(win) (win)->w_alist #define GARGLIST ((aentry_T *)global_alist.al_ga.ga_data) #define ARGLIST ((aentry_T *)ALIST(curwin)->al_ga.ga_data) #define WARGLIST(wp) ((aentry_T *)ALIST(wp)->al_ga.ga_data) #define AARGLIST(al) ((aentry_T *)((al)->al_ga.ga_data)) #define GARGCOUNT (global_alist.al_ga.ga_len) #define ARGCOUNT (ALIST(curwin)->al_ga.ga_len) #define WARGCOUNT(wp) (ALIST(wp)->al_ga.ga_len) /* * A list used for saving values of "emsg_silent". Used by ex_try() to save the * value of "emsg_silent" if it was non-zero. When this is done, the CSF_SILENT * flag below is set. */ typedef struct eslist_elem eslist_T; struct eslist_elem { int saved_emsg_silent; /* saved value of "emsg_silent" */ eslist_T *next; /* next element on the list */ }; /* * For conditional commands a stack is kept of nested conditionals. * When cs_idx < 0, there is no conditional command. */ #define CSTACK_LEN 50 struct condstack { short cs_flags[CSTACK_LEN]; /* CSF_ flags */ char cs_pending[CSTACK_LEN]; /* CSTP_: what's pending in ":finally"*/ union { void *csp_rv[CSTACK_LEN]; /* return typeval for pending return */ void *csp_ex[CSTACK_LEN]; /* exception for pending throw */ } cs_pend; void *cs_forinfo[CSTACK_LEN]; /* info used by ":for" */ int cs_line[CSTACK_LEN]; /* line nr of ":while"/":for" line */ int cs_idx; /* current entry, or -1 if none */ int cs_looplevel; /* nr of nested ":while"s and ":for"s */ int cs_trylevel; /* nr of nested ":try"s */ eslist_T *cs_emsg_silent_list; /* saved values of "emsg_silent" */ char cs_lflags; /* loop flags: CSL_ flags */ }; # define cs_rettv cs_pend.csp_rv # define cs_exception cs_pend.csp_ex /* There is no CSF_IF, the lack of CSF_WHILE, CSF_FOR and CSF_TRY means ":if" * was used. */ # define CSF_TRUE 0x0001 /* condition was TRUE */ # define CSF_ACTIVE 0x0002 /* current state is active */ # define CSF_ELSE 0x0004 /* ":else" has been passed */ # define CSF_WHILE 0x0008 /* is a ":while" */ # define CSF_FOR 0x0010 /* is a ":for" */ # define CSF_TRY 0x0100 /* is a ":try" */ # define CSF_FINALLY 0x0200 /* ":finally" has been passed */ # define CSF_THROWN 0x0400 /* exception thrown to this try conditional */ # define CSF_CAUGHT 0x0800 /* exception caught by this try conditional */ # define CSF_SILENT 0x1000 /* "emsg_silent" reset by ":try" */ /* Note that CSF_ELSE is only used when CSF_TRY and CSF_WHILE are unset * (an ":if"), and CSF_SILENT is only used when CSF_TRY is set. */ /* * What's pending for being reactivated at the ":endtry" of this try * conditional: */ # define CSTP_NONE 0 /* nothing pending in ":finally" clause */ # define CSTP_ERROR 1 /* an error is pending */ # define CSTP_INTERRUPT 2 /* an interrupt is pending */ # define CSTP_THROW 4 /* a throw is pending */ # define CSTP_BREAK 8 /* ":break" is pending */ # define CSTP_CONTINUE 16 /* ":continue" is pending */ # define CSTP_RETURN 24 /* ":return" is pending */ # define CSTP_FINISH 32 /* ":finish" is pending */ /* * Flags for the cs_lflags item in struct condstack. */ # define CSL_HAD_LOOP 1 /* just found ":while" or ":for" */ # define CSL_HAD_ENDLOOP 2 /* just found ":endwhile" or ":endfor" */ # define CSL_HAD_CONT 4 /* just found ":continue" */ # define CSL_HAD_FINA 8 /* just found ":finally" */ /* * A list of error messages that can be converted to an exception. "throw_msg" * is only set in the first element of the list. Usually, it points to the * original message stored in that element, but sometimes it points to a later * message in the list. See cause_errthrow() below. */ struct msglist { char_u *msg; /* original message */ char_u *throw_msg; /* msg to throw: usually original one */ struct msglist *next; /* next of several messages in a row */ }; /* * The exception types. */ typedef enum { ET_USER, /* exception caused by ":throw" command */ ET_ERROR, /* error exception */ ET_INTERRUPT /* interrupt exception triggered by Ctrl-C */ } except_type_T; /* * Structure describing an exception. * (don't use "struct exception", it's used by the math library). */ typedef struct vim_exception except_T; struct vim_exception { except_type_T type; /* exception type */ char_u *value; /* exception value */ struct msglist *messages; /* message(s) causing error exception */ char_u *throw_name; /* name of the throw point */ linenr_T throw_lnum; /* line number of the throw point */ except_T *caught; /* next exception on the caught stack */ }; /* * Structure to save the error/interrupt/exception state between calls to * enter_cleanup() and leave_cleanup(). Must be allocated as an automatic * variable by the (common) caller of these functions. */ typedef struct cleanup_stuff cleanup_T; struct cleanup_stuff { int pending; /* error/interrupt/exception state */ except_T *exception; /* exception value */ }; #ifdef FEAT_SYN_HL /* struct passed to in_id_list() */ struct sp_syn { int inc_tag; /* ":syn include" unique tag */ short id; /* highlight group ID of item */ short *cont_in_list; /* cont.in group IDs, if non-zero */ }; /* * Each keyword has one keyentry, which is linked in a hash list. */ typedef struct keyentry keyentry_T; struct keyentry { keyentry_T *ke_next; /* next entry with identical "keyword[]" */ struct sp_syn k_syn; /* struct passed to in_id_list() */ short *next_list; /* ID list for next match (if non-zero) */ int flags; int k_char; /* conceal substitute character */ char_u keyword[1]; /* actually longer */ }; /* * Struct used to store one state of the state stack. */ typedef struct buf_state { int bs_idx; /* index of pattern */ int bs_flags; /* flags for pattern */ #ifdef FEAT_CONCEAL int bs_seqnr; /* stores si_seqnr */ int bs_cchar; /* stores si_cchar */ #endif reg_extmatch_T *bs_extmatch; /* external matches from start pattern */ } bufstate_T; /* * syn_state contains the syntax state stack for the start of one line. * Used by b_sst_array[]. */ typedef struct syn_state synstate_T; struct syn_state { synstate_T *sst_next; /* next entry in used or free list */ linenr_T sst_lnum; /* line number for this state */ union { bufstate_T sst_stack[SST_FIX_STATES]; /* short state stack */ garray_T sst_ga; /* growarray for long state stack */ } sst_union; int sst_next_flags; /* flags for sst_next_list */ int sst_stacksize; /* number of states on the stack */ short *sst_next_list; /* "nextgroup" list in this state * (this is a copy, don't free it! */ disptick_T sst_tick; /* tick when last displayed */ linenr_T sst_change_lnum;/* when non-zero, change in this line * may have made the state invalid */ }; #endif /* FEAT_SYN_HL */ /* * Structure shared between syntax.c, screen.c and gui_x11.c. */ typedef struct attr_entry { short ae_attr; /* HL_BOLD, etc. */ union { struct { char_u *start; /* start escape sequence */ char_u *stop; /* stop escape sequence */ } term; struct { /* These colors need to be > 8 bits to hold 256. */ short_u fg_color; /* foreground color number */ short_u bg_color; /* background color number */ # ifdef FEAT_TERMGUICOLORS guicolor_T fg_rgb; /* foreground color RGB */ guicolor_T bg_rgb; /* background color RGB */ # endif } cterm; # ifdef FEAT_GUI struct { guicolor_T fg_color; /* foreground color handle */ guicolor_T bg_color; /* background color handle */ guicolor_T sp_color; /* special color handle */ GuiFont font; /* font handle */ # ifdef FEAT_XFONTSET GuiFontset fontset; /* fontset handle */ # endif } gui; # endif } ae_u; } attrentry_T; #ifdef USE_ICONV # ifdef HAVE_ICONV_H # include <iconv.h> # else # if defined(MACOS_X) # include <sys/errno.h> # ifndef EILSEQ # define EILSEQ ENOENT /* Early MacOS X does not have EILSEQ */ # endif typedef struct _iconv_t *iconv_t; # else # include <errno.h> # endif typedef void *iconv_t; # endif #endif /* * Used for the typeahead buffer: typebuf. */ typedef struct { char_u *tb_buf; /* buffer for typed characters */ char_u *tb_noremap; /* mapping flags for characters in tb_buf[] */ int tb_buflen; /* size of tb_buf[] */ int tb_off; /* current position in tb_buf[] */ int tb_len; /* number of valid bytes in tb_buf[] */ int tb_maplen; /* nr of mapped bytes in tb_buf[] */ int tb_silent; /* nr of silently mapped bytes in tb_buf[] */ int tb_no_abbr_cnt; /* nr of bytes without abbrev. in tb_buf[] */ int tb_change_cnt; /* nr of time tb_buf was changed; never zero */ } typebuf_T; /* Struct to hold the saved typeahead for save_typeahead(). */ typedef struct { typebuf_T save_typebuf; int typebuf_valid; /* TRUE when save_typebuf valid */ int old_char; int old_mod_mask; buffheader_T save_readbuf1; buffheader_T save_readbuf2; #ifdef USE_INPUT_BUF char_u *save_inputbuf; #endif } tasave_T; /* * Used for conversion of terminal I/O and script files. */ typedef struct { int vc_type; /* zero or one of the CONV_ values */ int vc_factor; /* max. expansion factor */ # ifdef WIN3264 int vc_cpfrom; /* codepage to convert from (CONV_CODEPAGE) */ int vc_cpto; /* codepage to convert to (CONV_CODEPAGE) */ # endif # ifdef USE_ICONV iconv_t vc_fd; /* for CONV_ICONV */ # endif int vc_fail; /* fail for invalid char, don't use '?' */ } vimconv_T; /* * Structure used for reading from the viminfo file. */ typedef struct { char_u *vir_line; /* text of the current line */ FILE *vir_fd; /* file descriptor */ #ifdef FEAT_MBYTE vimconv_T vir_conv; /* encoding conversion */ #endif int vir_version; /* viminfo version detected or -1 */ garray_T vir_barlines; /* lines starting with | */ } vir_T; #define CONV_NONE 0 #define CONV_TO_UTF8 1 #define CONV_9_TO_UTF8 2 #define CONV_TO_LATIN1 3 #define CONV_TO_LATIN9 4 #define CONV_ICONV 5 #ifdef WIN3264 # define CONV_CODEPAGE 10 /* codepage -> codepage */ #endif #ifdef MACOS_X # define CONV_MAC_LATIN1 20 # define CONV_LATIN1_MAC 21 # define CONV_MAC_UTF8 22 # define CONV_UTF8_MAC 23 #endif /* * Structure used for mappings and abbreviations. */ typedef struct mapblock mapblock_T; struct mapblock { mapblock_T *m_next; /* next mapblock in list */ char_u *m_keys; /* mapped from, lhs */ char_u *m_str; /* mapped to, rhs */ char_u *m_orig_str; /* rhs as entered by the user */ int m_keylen; /* strlen(m_keys) */ int m_mode; /* valid mode */ int m_noremap; /* if non-zero no re-mapping for m_str */ char m_silent; /* <silent> used, don't echo commands */ char m_nowait; /* <nowait> used */ #ifdef FEAT_EVAL char m_expr; /* <expr> used, m_str is an expression */ scid_T m_script_ID; /* ID of script where map was defined */ #endif }; /* * Used for highlighting in the status line. */ struct stl_hlrec { char_u *start; int userhl; /* 0: no HL, 1-9: User HL, < 0 for syn ID */ }; /* * Syntax items - usually buffer-specific. */ /* Item for a hashtable. "hi_key" can be one of three values: * NULL: Never been used * HI_KEY_REMOVED: Entry was removed * Otherwise: Used item, pointer to the actual key; this usually is * inside the item, subtract an offset to locate the item. * This reduces the size of hashitem by 1/3. */ typedef struct hashitem_S { long_u hi_hash; /* cached hash number of hi_key */ char_u *hi_key; } hashitem_T; /* The address of "hash_removed" is used as a magic number for hi_key to * indicate a removed item. */ #define HI_KEY_REMOVED &hash_removed #define HASHITEM_EMPTY(hi) ((hi)->hi_key == NULL || (hi)->hi_key == &hash_removed) /* Initial size for a hashtable. Our items are relatively small and growing * is expensive, thus use 16 as a start. Must be a power of 2. */ #define HT_INIT_SIZE 16 typedef struct hashtable_S { long_u ht_mask; /* mask used for hash value (nr of items in * array is "ht_mask" + 1) */ long_u ht_used; /* number of items used */ long_u ht_filled; /* number of items used + removed */ int ht_locked; /* counter for hash_lock() */ int ht_error; /* when set growing failed, can't add more items before growing works */ hashitem_T *ht_array; /* points to the array, allocated when it's not "ht_smallarray" */ hashitem_T ht_smallarray[HT_INIT_SIZE]; /* initial array */ } hashtab_T; typedef long_u hash_T; /* Type for hi_hash */ #ifdef FEAT_NUM64 /* Use 64-bit Number. */ # ifdef WIN3264 # ifdef PROTO typedef long varnumber_T; typedef unsigned long uvarnumber_T; #define VARNUM_MIN LONG_MIN #define VARNUM_MAX LONG_MAX #define UVARNUM_MAX ULONG_MAX # else typedef __int64 varnumber_T; typedef unsigned __int64 uvarnumber_T; #define VARNUM_MIN _I64_MIN #define VARNUM_MAX _I64_MAX #define UVARNUM_MAX _UI64_MAX # endif # elif defined(HAVE_STDINT_H) typedef int64_t varnumber_T; typedef uint64_t uvarnumber_T; #define VARNUM_MIN INT64_MIN #define VARNUM_MAX INT64_MAX #define UVARNUM_MAX UINT64_MAX # else typedef long varnumber_T; typedef unsigned long uvarnumber_T; #define VARNUM_MIN LONG_MIN #define VARNUM_MAX LONG_MAX #define UVARNUM_MAX ULONG_MAX # endif #else /* Use 32-bit Number. */ # if VIM_SIZEOF_INT <= 3 /* use long if int is smaller than 32 bits */ typedef long varnumber_T; typedef unsigned long uvarnumber_T; #define VARNUM_MIN LONG_MIN #define VARNUM_MAX LONG_MAX #define UVARNUM_MAX ULONG_MAX # else typedef int varnumber_T; typedef unsigned int uvarnumber_T; #define VARNUM_MIN INT_MIN #define VARNUM_MAX INT_MAX #define UVARNUM_MAX UINT_MAX # endif #endif typedef double float_T; typedef struct listvar_S list_T; typedef struct dictvar_S dict_T; typedef struct partial_S partial_T; typedef struct jobvar_S job_T; typedef struct readq_S readq_T; typedef struct writeq_S writeq_T; typedef struct jsonq_S jsonq_T; typedef struct cbq_S cbq_T; typedef struct channel_S channel_T; typedef enum { VAR_UNKNOWN = 0, VAR_NUMBER, /* "v_number" is used */ VAR_STRING, /* "v_string" is used */ VAR_FUNC, /* "v_string" is function name */ VAR_PARTIAL, /* "v_partial" is used */ VAR_LIST, /* "v_list" is used */ VAR_DICT, /* "v_dict" is used */ VAR_FLOAT, /* "v_float" is used */ VAR_SPECIAL, /* "v_number" is used */ VAR_JOB, /* "v_job" is used */ VAR_CHANNEL /* "v_channel" is used */ } vartype_T; /* * Structure to hold an internal variable without a name. */ typedef struct { vartype_T v_type; char v_lock; /* see below: VAR_LOCKED, VAR_FIXED */ union { varnumber_T v_number; /* number value */ #ifdef FEAT_FLOAT float_T v_float; /* floating number value */ #endif char_u *v_string; /* string value (can be NULL!) */ list_T *v_list; /* list value (can be NULL!) */ dict_T *v_dict; /* dict value (can be NULL!) */ partial_T *v_partial; /* closure: function with args */ #ifdef FEAT_JOB_CHANNEL job_T *v_job; /* job value (can be NULL!) */ channel_T *v_channel; /* channel value (can be NULL!) */ #endif } vval; } typval_T; /* Values for "dv_scope". */ #define VAR_SCOPE 1 /* a:, v:, s:, etc. scope dictionaries */ #define VAR_DEF_SCOPE 2 /* l:, g: scope dictionaries: here funcrefs are not allowed to mask existing functions */ /* Values for "v_lock". */ #define VAR_LOCKED 1 /* locked with lock(), can use unlock() */ #define VAR_FIXED 2 /* locked forever */ /* * Structure to hold an item of a list: an internal variable without a name. */ typedef struct listitem_S listitem_T; struct listitem_S { listitem_T *li_next; /* next item in list */ listitem_T *li_prev; /* previous item in list */ typval_T li_tv; /* type and value of the variable */ }; /* * Struct used by those that are using an item in a list. */ typedef struct listwatch_S listwatch_T; struct listwatch_S { listitem_T *lw_item; /* item being watched */ listwatch_T *lw_next; /* next watcher */ }; /* * Structure to hold info about a list. */ struct listvar_S { listitem_T *lv_first; /* first item, NULL if none */ listitem_T *lv_last; /* last item, NULL if none */ int lv_refcount; /* reference count */ int lv_len; /* number of items */ listwatch_T *lv_watch; /* first watcher, NULL if none */ int lv_idx; /* cached index of an item */ listitem_T *lv_idx_item; /* when not NULL item at index "lv_idx" */ int lv_copyID; /* ID used by deepcopy() */ list_T *lv_copylist; /* copied list used by deepcopy() */ char lv_lock; /* zero, VAR_LOCKED, VAR_FIXED */ list_T *lv_used_next; /* next list in used lists list */ list_T *lv_used_prev; /* previous list in used lists list */ }; /* * Static list with 10 items. Use init_static_list() to initialize. */ typedef struct { list_T sl_list; /* must be first */ listitem_T sl_items[10]; } staticList10_T; /* * Structure to hold an item of a Dictionary. * Also used for a variable. * The key is copied into "di_key" to avoid an extra alloc/free for it. */ struct dictitem_S { typval_T di_tv; /* type and value of the variable */ char_u di_flags; /* flags (only used for variable) */ char_u di_key[1]; /* key (actually longer!) */ }; typedef struct dictitem_S dictitem_T; /* A dictitem with a 16 character key (plus NUL). */ struct dictitem16_S { typval_T di_tv; /* type and value of the variable */ char_u di_flags; /* flags (only used for variable) */ char_u di_key[17]; /* key */ }; typedef struct dictitem16_S dictitem16_T; #define DI_FLAGS_RO 1 /* "di_flags" value: read-only variable */ #define DI_FLAGS_RO_SBX 2 /* "di_flags" value: read-only in the sandbox */ #define DI_FLAGS_FIX 4 /* "di_flags" value: fixed: no :unlet or remove() */ #define DI_FLAGS_LOCK 8 /* "di_flags" value: locked variable */ #define DI_FLAGS_ALLOC 16 /* "di_flags" value: separately allocated */ /* * Structure to hold info about a Dictionary. */ struct dictvar_S { char dv_lock; /* zero, VAR_LOCKED, VAR_FIXED */ char dv_scope; /* zero, VAR_SCOPE, VAR_DEF_SCOPE */ int dv_refcount; /* reference count */ int dv_copyID; /* ID used by deepcopy() */ hashtab_T dv_hashtab; /* hashtab that refers to the items */ dict_T *dv_copydict; /* copied dict used by deepcopy() */ dict_T *dv_used_next; /* next dict in used dicts list */ dict_T *dv_used_prev; /* previous dict in used dicts list */ }; #if defined(FEAT_EVAL) || defined(PROTO) typedef struct funccall_S funccall_T; /* * Structure to hold info for a user function. */ typedef struct { int uf_varargs; /* variable nr of arguments */ int uf_flags; int uf_calls; /* nr of active calls */ int uf_cleared; /* func_clear() was already called */ garray_T uf_args; /* arguments */ garray_T uf_lines; /* function lines */ #ifdef FEAT_PROFILE int uf_profiling; /* TRUE when func is being profiled */ /* profiling the function as a whole */ int uf_tm_count; /* nr of calls */ proftime_T uf_tm_total; /* time spent in function + children */ proftime_T uf_tm_self; /* time spent in function itself */ proftime_T uf_tm_children; /* time spent in children this call */ /* profiling the function per line */ int *uf_tml_count; /* nr of times line was executed */ proftime_T *uf_tml_total; /* time spent in a line + children */ proftime_T *uf_tml_self; /* time spent in a line itself */ proftime_T uf_tml_start; /* start time for current line */ proftime_T uf_tml_children; /* time spent in children for this line */ proftime_T uf_tml_wait; /* start wait time for current line */ int uf_tml_idx; /* index of line being timed; -1 if none */ int uf_tml_execed; /* line being timed was executed */ #endif scid_T uf_script_ID; /* ID of script where function was defined, used for s: variables */ int uf_refcount; /* reference count, see func_name_refcount() */ funccall_T *uf_scoped; /* l: local variables for closure */ char_u uf_name[1]; /* name of function (actually longer); can start with <SNR>123_ (<SNR> is K_SPECIAL KS_EXTRA KE_SNR) */ } ufunc_T; #define MAX_FUNC_ARGS 20 /* maximum number of function arguments */ #define VAR_SHORT_LEN 20 /* short variable name length */ #define FIXVAR_CNT 12 /* number of fixed variables */ /* structure to hold info for a function that is currently being executed. */ struct funccall_S { ufunc_T *func; /* function being called */ int linenr; /* next line to be executed */ int returned; /* ":return" used */ struct /* fixed variables for arguments */ { dictitem_T var; /* variable (without room for name) */ char_u room[VAR_SHORT_LEN]; /* room for the name */ } fixvar[FIXVAR_CNT]; dict_T l_vars; /* l: local function variables */ dictitem_T l_vars_var; /* variable for l: scope */ dict_T l_avars; /* a: argument variables */ dictitem_T l_avars_var; /* variable for a: scope */ list_T l_varlist; /* list for a:000 */ listitem_T l_listitems[MAX_FUNC_ARGS]; /* listitems for a:000 */ typval_T *rettv; /* return value */ linenr_T breakpoint; /* next line with breakpoint or zero */ int dbg_tick; /* debug_tick when breakpoint was set */ int level; /* top nesting level of executed function */ #ifdef FEAT_PROFILE proftime_T prof_child; /* time spent in a child */ #endif funccall_T *caller; /* calling function or NULL */ /* for closure */ int fc_refcount; /* number of user functions that reference this * funccal */ int fc_copyID; /* for garbage collection */ garray_T fc_funcs; /* list of ufunc_T* which keep a reference to * "func" */ }; /* * Struct used by trans_function_name() */ typedef struct { dict_T *fd_dict; /* Dictionary used */ char_u *fd_newkey; /* new key in "dict" in allocated memory */ dictitem_T *fd_di; /* Dictionary item used */ } funcdict_T; #else /* dummy typedefs for function prototypes */ typedef struct { int dummy; } ufunc_T; typedef struct { int dummy; } funcdict_T; #endif struct partial_S { int pt_refcount; /* reference count */ char_u *pt_name; /* function name; when NULL use * pt_func->uf_name */ ufunc_T *pt_func; /* function pointer; when NULL lookup function * with pt_name */ int pt_auto; /* when TRUE the partial was created for using dict.member in handle_subscript() */ int pt_argc; /* number of arguments */ typval_T *pt_argv; /* arguments in allocated array */ dict_T *pt_dict; /* dict for "self" */ }; /* Information returned by get_tty_info(). */ typedef struct { int backspace; /* what the Backspace key produces */ int enter; /* what the Enter key produces */ int interrupt; /* interrupt character */ int nl_does_cr; /* TRUE when a NL is expanded to CR-NL on output */ } ttyinfo_T; /* Status of a job. Order matters! */ typedef enum { JOB_FAILED, JOB_STARTED, JOB_ENDED, /* detected job done */ JOB_FINISHED /* job done and cleanup done */ } jobstatus_T; /* * Structure to hold info about a Job. */ struct jobvar_S { job_T *jv_next; job_T *jv_prev; #ifdef UNIX pid_t jv_pid; #endif #ifdef WIN32 PROCESS_INFORMATION jv_proc_info; HANDLE jv_job_object; #endif char_u *jv_tty_in; /* controlling tty input, allocated */ char_u *jv_tty_out; /* controlling tty output, allocated */ jobstatus_T jv_status; char_u *jv_stoponexit; /* allocated */ int jv_exitval; char_u *jv_exit_cb; /* allocated */ partial_T *jv_exit_partial; buf_T *jv_in_buf; /* buffer from "in-name" */ int jv_refcount; /* reference count */ int jv_copyID; channel_T *jv_channel; /* channel for I/O, reference counted */ }; /* * Structures to hold info about a Channel. */ struct readq_S { char_u *rq_buffer; long_u rq_buflen; readq_T *rq_next; readq_T *rq_prev; }; struct writeq_S { garray_T wq_ga; writeq_T *wq_next; writeq_T *wq_prev; }; struct jsonq_S { typval_T *jq_value; jsonq_T *jq_next; jsonq_T *jq_prev; int jq_no_callback; /* TRUE when no callback was found */ }; struct cbq_S { char_u *cq_callback; partial_T *cq_partial; int cq_seq_nr; cbq_T *cq_next; cbq_T *cq_prev; }; /* mode for a channel */ typedef enum { MODE_NL = 0, MODE_RAW, MODE_JSON, MODE_JS } ch_mode_T; typedef enum { JIO_PIPE, /* default */ JIO_NULL, JIO_FILE, JIO_BUFFER, JIO_OUT } job_io_T; #define CH_PART_FD(part) ch_part[part].ch_fd /* Ordering matters, it is used in for loops: IN is last, only SOCK/OUT/ERR * are polled. */ typedef enum { PART_SOCK = 0, #define CH_SOCK_FD CH_PART_FD(PART_SOCK) #ifdef FEAT_JOB_CHANNEL PART_OUT, # define CH_OUT_FD CH_PART_FD(PART_OUT) PART_ERR, # define CH_ERR_FD CH_PART_FD(PART_ERR) PART_IN, # define CH_IN_FD CH_PART_FD(PART_IN) #endif PART_COUNT } ch_part_T; #define INVALID_FD (-1) /* The per-fd info for a channel. */ typedef struct { sock_T ch_fd; /* socket/stdin/stdout/stderr, -1 if not used */ # if defined(UNIX) && !defined(HAVE_SELECT) int ch_poll_idx; /* used by channel_poll_setup() */ # endif #ifdef FEAT_GUI_X11 XtInputId ch_inputHandler; /* Cookie for input */ #endif #ifdef FEAT_GUI_GTK gint ch_inputHandler; /* Cookie for input */ #endif ch_mode_T ch_mode; job_io_T ch_io; int ch_timeout; /* request timeout in msec */ readq_T ch_head; /* header for circular raw read queue */ jsonq_T ch_json_head; /* header for circular json read queue */ int ch_block_id; /* ID that channel_read_json_block() is waiting for */ /* When ch_wait_len is non-zero use ch_deadline to wait for incomplete * message to be complete. The value is the length of the incomplete * message when the deadline was set. If it gets longer (something was * received) the deadline is reset. */ size_t ch_wait_len; #ifdef WIN32 DWORD ch_deadline; #else struct timeval ch_deadline; #endif int ch_block_write; /* for testing: 0 when not used, -1 when write * does not block, 1 simulate blocking */ int ch_nonblocking; /* write() is non-blocking */ writeq_T ch_writeque; /* header for write queue */ cbq_T ch_cb_head; /* dummy node for per-request callbacks */ char_u *ch_callback; /* call when a msg is not handled */ partial_T *ch_partial; bufref_T ch_bufref; /* buffer to read from or write to */ int ch_nomodifiable; /* TRUE when buffer can be 'nomodifiable' */ int ch_nomod_error; /* TRUE when e_modifiable was given */ int ch_buf_append; /* write appended lines instead top-bot */ linenr_T ch_buf_top; /* next line to send */ linenr_T ch_buf_bot; /* last line to send */ } chanpart_T; struct channel_S { channel_T *ch_next; channel_T *ch_prev; int ch_id; /* ID of the channel */ int ch_last_msg_id; /* ID of the last message */ chanpart_T ch_part[PART_COUNT]; /* info for socket, out, err and in */ int ch_write_text_mode; /* write buffer lines with CR, not NL */ char *ch_hostname; /* only for socket, allocated */ int ch_port; /* only for socket */ int ch_to_be_closed; /* bitset of readable fds to be closed. * When all readable fds have been closed, * set to (1 << PART_COUNT). */ int ch_to_be_freed; /* When TRUE channel must be freed when it's * safe to invoke callbacks. */ int ch_error; /* When TRUE an error was reported. Avoids * giving pages full of error messages when * the other side has exited, only mention the * first error until the connection works * again. */ void (*ch_nb_close_cb)(void); /* callback for Netbeans when channel is * closed */ #ifdef WIN32 int ch_named_pipe; /* using named pipe instead of pty */ #endif char_u *ch_callback; /* call when any msg is not handled */ partial_T *ch_partial; char_u *ch_close_cb; /* call when channel is closed */ partial_T *ch_close_partial; int ch_drop_never; int ch_keep_open; /* do not close on read error */ job_T *ch_job; /* Job that uses this channel; this does not * count as a reference to avoid a circular * reference, the job refers to the channel. */ int ch_job_killed; /* TRUE when there was a job and it was killed * or we know it died. */ int ch_refcount; /* reference count */ int ch_copyID; }; #define JO_MODE 0x0001 /* channel mode */ #define JO_IN_MODE 0x0002 /* stdin mode */ #define JO_OUT_MODE 0x0004 /* stdout mode */ #define JO_ERR_MODE 0x0008 /* stderr mode */ #define JO_CALLBACK 0x0010 /* channel callback */ #define JO_OUT_CALLBACK 0x0020 /* stdout callback */ #define JO_ERR_CALLBACK 0x0040 /* stderr callback */ #define JO_CLOSE_CALLBACK 0x0080 /* "close_cb" */ #define JO_WAITTIME 0x0100 /* only for ch_open() */ #define JO_TIMEOUT 0x0200 /* all timeouts */ #define JO_OUT_TIMEOUT 0x0400 /* stdout timeouts */ #define JO_ERR_TIMEOUT 0x0800 /* stderr timeouts */ #define JO_PART 0x1000 /* "part" */ #define JO_ID 0x2000 /* "id" */ #define JO_STOPONEXIT 0x4000 /* "stoponexit" */ #define JO_EXIT_CB 0x8000 /* "exit_cb" */ #define JO_OUT_IO 0x10000 /* "out_io" */ #define JO_ERR_IO 0x20000 /* "err_io" (JO_OUT_IO << 1) */ #define JO_IN_IO 0x40000 /* "in_io" (JO_OUT_IO << 2) */ #define JO_OUT_NAME 0x80000 /* "out_name" */ #define JO_ERR_NAME 0x100000 /* "err_name" (JO_OUT_NAME << 1) */ #define JO_IN_NAME 0x200000 /* "in_name" (JO_OUT_NAME << 2) */ #define JO_IN_TOP 0x400000 /* "in_top" */ #define JO_IN_BOT 0x800000 /* "in_bot" */ #define JO_OUT_BUF 0x1000000 /* "out_buf" */ #define JO_ERR_BUF 0x2000000 /* "err_buf" (JO_OUT_BUF << 1) */ #define JO_IN_BUF 0x4000000 /* "in_buf" (JO_OUT_BUF << 2) */ #define JO_CHANNEL 0x8000000 /* "channel" */ #define JO_BLOCK_WRITE 0x10000000 /* "block_write" */ #define JO_OUT_MODIFIABLE 0x20000000 /* "out_modifiable" */ #define JO_ERR_MODIFIABLE 0x40000000 /* "err_modifiable" (JO_OUT_ << 1) */ #define JO_ALL 0x7fffffff #define JO2_OUT_MSG 0x0001 /* "out_msg" */ #define JO2_ERR_MSG 0x0002 /* "err_msg" (JO_OUT_ << 1) */ #define JO2_TERM_NAME 0x0004 /* "term_name" */ #define JO2_TERM_FINISH 0x0008 /* "term_finish" */ #define JO2_ENV 0x0010 /* "env" */ #define JO2_CWD 0x0020 /* "cwd" */ #define JO2_TERM_ROWS 0x0040 /* "term_rows" */ #define JO2_TERM_COLS 0x0080 /* "term_cols" */ #define JO2_VERTICAL 0x0100 /* "vertical" */ #define JO2_CURWIN 0x0200 /* "curwin" */ #define JO2_HIDDEN 0x0400 /* "hidden" */ #define JO2_TERM_OPENCMD 0x0800 /* "term_opencmd" */ #define JO2_EOF_CHARS 0x1000 /* "eof_chars" */ #define JO2_ALL 0x1FFF #define JO_MODE_ALL (JO_MODE + JO_IN_MODE + JO_OUT_MODE + JO_ERR_MODE) #define JO_CB_ALL \ (JO_CALLBACK + JO_OUT_CALLBACK + JO_ERR_CALLBACK + JO_CLOSE_CALLBACK) #define JO_TIMEOUT_ALL (JO_TIMEOUT + JO_OUT_TIMEOUT + JO_ERR_TIMEOUT) /* * Options for job and channel commands. */ typedef struct { int jo_set; /* JO_ bits for values that were set */ int jo_set2; /* JO2_ bits for values that were set */ ch_mode_T jo_mode; ch_mode_T jo_in_mode; ch_mode_T jo_out_mode; ch_mode_T jo_err_mode; job_io_T jo_io[4]; /* PART_OUT, PART_ERR, PART_IN */ char_u jo_io_name_buf[4][NUMBUFLEN]; char_u *jo_io_name[4]; /* not allocated! */ int jo_io_buf[4]; int jo_pty; int jo_modifiable[4]; int jo_message[4]; channel_T *jo_channel; linenr_T jo_in_top; linenr_T jo_in_bot; char_u *jo_callback; /* not allocated! */ partial_T *jo_partial; /* not referenced! */ char_u *jo_out_cb; /* not allocated! */ partial_T *jo_out_partial; /* not referenced! */ char_u *jo_err_cb; /* not allocated! */ partial_T *jo_err_partial; /* not referenced! */ char_u *jo_close_cb; /* not allocated! */ partial_T *jo_close_partial; /* not referenced! */ char_u *jo_exit_cb; /* not allocated! */ partial_T *jo_exit_partial; /* not referenced! */ int jo_drop_never; int jo_waittime; int jo_timeout; int jo_out_timeout; int jo_err_timeout; int jo_block_write; /* for testing only */ int jo_part; int jo_id; char_u jo_soe_buf[NUMBUFLEN]; char_u *jo_stoponexit; dict_T *jo_env; /* environment variables */ char_u jo_cwd_buf[NUMBUFLEN]; char_u *jo_cwd; #ifdef FEAT_TERMINAL /* when non-zero run the job in a terminal window of this size */ int jo_term_rows; int jo_term_cols; int jo_vertical; int jo_curwin; int jo_hidden; char_u *jo_term_name; char_u *jo_term_opencmd; int jo_term_finish; char_u *jo_eof_chars; #endif } jobopt_T; /* structure used for explicit stack while garbage collecting hash tables */ typedef struct ht_stack_S { hashtab_T *ht; struct ht_stack_S *prev; } ht_stack_T; /* structure used for explicit stack while garbage collecting lists */ typedef struct list_stack_S { list_T *list; struct list_stack_S *prev; } list_stack_T; /* values for b_syn_spell: what to do with toplevel text */ #define SYNSPL_DEFAULT 0 /* spell check if @Spell not defined */ #define SYNSPL_TOP 1 /* spell check toplevel text */ #define SYNSPL_NOTOP 2 /* don't spell check toplevel text */ /* avoid #ifdefs for when b_spell is not available */ #ifdef FEAT_SPELL # define B_SPELL(buf) ((buf)->b_spell) #else # define B_SPELL(buf) (0) #endif #ifdef FEAT_QUICKFIX typedef struct qf_info_S qf_info_T; #endif #ifdef FEAT_PROFILE /* * Used for :syntime: timing of executing a syntax pattern. */ typedef struct { proftime_T total; /* total time used */ proftime_T slowest; /* time of slowest call */ long count; /* nr of times used */ long match; /* nr of times matched */ } syn_time_T; #endif #ifdef FEAT_CRYPT /* * Structure to hold the type of encryption and the state of encryption or * decryption. */ typedef struct { int method_nr; void *method_state; /* method-specific state information */ } cryptstate_T; /* values for method_nr */ # define CRYPT_M_ZIP 0 # define CRYPT_M_BF 1 # define CRYPT_M_BF2 2 # define CRYPT_M_COUNT 3 /* number of crypt methods */ #endif /* * These are items normally related to a buffer. But when using ":ownsyntax" * a window may have its own instance. */ typedef struct { #ifdef FEAT_SYN_HL hashtab_T b_keywtab; /* syntax keywords hash table */ hashtab_T b_keywtab_ic; /* idem, ignore case */ int b_syn_error; /* TRUE when error occurred in HL */ # ifdef FEAT_RELTIME int b_syn_slow; /* TRUE when 'redrawtime' reached */ # endif int b_syn_ic; /* ignore case for :syn cmds */ int b_syn_spell; /* SYNSPL_ values */ garray_T b_syn_patterns; /* table for syntax patterns */ garray_T b_syn_clusters; /* table for syntax clusters */ int b_spell_cluster_id; /* @Spell cluster ID or 0 */ int b_nospell_cluster_id; /* @NoSpell cluster ID or 0 */ int b_syn_containedin; /* TRUE when there is an item with a "containedin" argument */ int b_syn_sync_flags; /* flags about how to sync */ short b_syn_sync_id; /* group to sync on */ long b_syn_sync_minlines; /* minimal sync lines offset */ long b_syn_sync_maxlines; /* maximal sync lines offset */ long b_syn_sync_linebreaks; /* offset for multi-line pattern */ char_u *b_syn_linecont_pat; /* line continuation pattern */ regprog_T *b_syn_linecont_prog; /* line continuation program */ #ifdef FEAT_PROFILE syn_time_T b_syn_linecont_time; #endif int b_syn_linecont_ic; /* ignore-case flag for above */ int b_syn_topgrp; /* for ":syntax include" */ # ifdef FEAT_CONCEAL int b_syn_conceal; /* auto-conceal for :syn cmds */ # endif # ifdef FEAT_FOLDING int b_syn_folditems; /* number of patterns with the HL_FOLD flag set */ # endif /* * b_sst_array[] contains the state stack for a number of lines, for the * start of that line (col == 0). This avoids having to recompute the * syntax state too often. * b_sst_array[] is allocated to hold the state for all displayed lines, * and states for 1 out of about 20 other lines. * b_sst_array pointer to an array of synstate_T * b_sst_len number of entries in b_sst_array[] * b_sst_first pointer to first used entry in b_sst_array[] or NULL * b_sst_firstfree pointer to first free entry in b_sst_array[] or NULL * b_sst_freecount number of free entries in b_sst_array[] * b_sst_check_lnum entries after this lnum need to be checked for * validity (MAXLNUM means no check needed) */ synstate_T *b_sst_array; int b_sst_len; synstate_T *b_sst_first; synstate_T *b_sst_firstfree; int b_sst_freecount; linenr_T b_sst_check_lnum; short_u b_sst_lasttick; /* last display tick */ #endif /* FEAT_SYN_HL */ #ifdef FEAT_SPELL /* for spell checking */ garray_T b_langp; /* list of pointers to slang_T, see spell.c */ char_u b_spell_ismw[256];/* flags: is midword char */ # ifdef FEAT_MBYTE char_u *b_spell_ismw_mb; /* multi-byte midword chars */ # endif char_u *b_p_spc; /* 'spellcapcheck' */ regprog_T *b_cap_prog; /* program for 'spellcapcheck' */ char_u *b_p_spf; /* 'spellfile' */ char_u *b_p_spl; /* 'spelllang' */ # ifdef FEAT_MBYTE int b_cjk; /* all CJK letters as OK */ # endif #endif #if !defined(FEAT_SYN_HL) && !defined(FEAT_SPELL) int dummy; #endif char_u b_syn_chartab[32]; /* syntax iskeyword option */ char_u *b_syn_isk; /* iskeyword option */ } synblock_T; /* * buffer: structure that holds information about one file * * Several windows can share a single Buffer * A buffer is unallocated if there is no memfile for it. * A buffer is new if the associated file has never been loaded yet. */ struct file_buffer { memline_T b_ml; /* associated memline (also contains line count) */ buf_T *b_next; /* links in list of buffers */ buf_T *b_prev; int b_nwindows; /* nr of windows open on this buffer */ int b_flags; /* various BF_ flags */ #ifdef FEAT_AUTOCMD int b_locked; /* Buffer is being closed or referenced, don't let autocommands wipe it out. */ #endif /* * b_ffname has the full path of the file (NULL for no name). * b_sfname is the name as the user typed it (or NULL). * b_fname is the same as b_sfname, unless ":cd" has been done, * then it is the same as b_ffname (NULL for no name). */ char_u *b_ffname; /* full path file name */ char_u *b_sfname; /* short file name */ char_u *b_fname; /* current file name */ #ifdef UNIX int b_dev_valid; /* TRUE when b_dev has a valid number */ dev_t b_dev; /* device number */ ino_t b_ino; /* inode number */ #endif #ifdef FEAT_CW_EDITOR FSSpec b_FSSpec; /* MacOS File Identification */ #endif #ifdef VMS char b_fab_rfm; /* Record format */ char b_fab_rat; /* Record attribute */ unsigned int b_fab_mrs; /* Max record size */ #endif int b_fnum; /* buffer number for this file. */ char_u b_key[VIM_SIZEOF_INT * 2 + 1]; /* key used for buf_hashtab, holds b_fnum as hex string */ int b_changed; /* 'modified': Set to TRUE if something in the file has been changed and not written out. */ dictitem16_T b_ct_di; /* holds the b:changedtick value in b_ct_di.di_tv.vval.v_number; incremented for each change, also for undo */ #define CHANGEDTICK(buf) ((buf)->b_ct_di.di_tv.vval.v_number) int b_saving; /* Set to TRUE if we are in the middle of saving the buffer. */ /* * Changes to a buffer require updating of the display. To minimize the * work, remember changes made and update everything at once. */ int b_mod_set; /* TRUE when there are changes since the last time the display was updated */ linenr_T b_mod_top; /* topmost lnum that was changed */ linenr_T b_mod_bot; /* lnum below last changed line, AFTER the change */ long b_mod_xlines; /* number of extra buffer lines inserted; negative when lines were deleted */ wininfo_T *b_wininfo; /* list of last used info for each window */ long b_mtime; /* last change time of original file */ long b_mtime_read; /* last change time when reading */ off_T b_orig_size; /* size of original file in bytes */ int b_orig_mode; /* mode of original file */ #ifdef FEAT_VIMINFO time_T b_last_used; /* time when the buffer was last used; used * for viminfo */ #endif pos_T b_namedm[NMARKS]; /* current named marks (mark.c) */ /* These variables are set when VIsual_active becomes FALSE */ visualinfo_T b_visual; #ifdef FEAT_EVAL int b_visual_mode_eval; /* b_visual.vi_mode for visualmode() */ #endif pos_T b_last_cursor; /* cursor position when last unloading this buffer */ pos_T b_last_insert; /* where Insert mode was left */ pos_T b_last_change; /* position of last change: '. mark */ #ifdef FEAT_JUMPLIST /* * the changelist contains old change positions */ pos_T b_changelist[JUMPLISTSIZE]; int b_changelistlen; /* number of active entries */ int b_new_change; /* set by u_savecommon() */ #endif /* * Character table, only used in charset.c for 'iskeyword' * 32 bytes of 8 bits: 1 bit per character 0-255. */ char_u b_chartab[32]; #ifdef FEAT_LOCALMAP /* Table used for mappings local to a buffer. */ mapblock_T *(b_maphash[256]); /* First abbreviation local to a buffer. */ mapblock_T *b_first_abbr; #endif #ifdef FEAT_USR_CMDS /* User commands local to the buffer. */ garray_T b_ucmds; #endif /* * start and end of an operator, also used for '[ and '] */ pos_T b_op_start; pos_T b_op_start_orig; /* used for Insstart_orig */ pos_T b_op_end; #ifdef FEAT_VIMINFO int b_marks_read; /* Have we read viminfo marks yet? */ #endif /* * The following only used in undo.c. */ u_header_T *b_u_oldhead; /* pointer to oldest header */ u_header_T *b_u_newhead; /* pointer to newest header; may not be valid if b_u_curhead is not NULL */ u_header_T *b_u_curhead; /* pointer to current header */ int b_u_numhead; /* current number of headers */ int b_u_synced; /* entry lists are synced */ long b_u_seq_last; /* last used undo sequence number */ long b_u_save_nr_last; /* counter for last file write */ long b_u_seq_cur; /* hu_seq of header below which we are now */ time_T b_u_time_cur; /* uh_time of header below which we are now */ long b_u_save_nr_cur; /* file write nr after which we are now */ /* * variables for "U" command in undo.c */ char_u *b_u_line_ptr; /* saved line for "U" command */ linenr_T b_u_line_lnum; /* line number of line in u_line */ colnr_T b_u_line_colnr; /* optional column number */ #ifdef FEAT_INS_EXPAND int b_scanned; /* ^N/^P have scanned this buffer */ #endif /* flags for use of ":lmap" and IM control */ long b_p_iminsert; /* input mode for insert */ long b_p_imsearch; /* input mode for search */ #define B_IMODE_USE_INSERT -1 /* Use b_p_iminsert value for search */ #define B_IMODE_NONE 0 /* Input via none */ #define B_IMODE_LMAP 1 /* Input via langmap */ #define B_IMODE_IM 2 /* Input via input method */ #define B_IMODE_LAST 2 #ifdef FEAT_KEYMAP short b_kmap_state; /* using "lmap" mappings */ # define KEYMAP_INIT 1 /* 'keymap' was set, call keymap_init() */ # define KEYMAP_LOADED 2 /* 'keymap' mappings have been loaded */ garray_T b_kmap_ga; /* the keymap table */ #endif /* * Options local to a buffer. * They are here because their value depends on the type of file * or contents of the file being edited. */ int b_p_initialized; /* set when options initialized */ #ifdef FEAT_EVAL int b_p_scriptID[BV_COUNT]; /* SIDs for buffer-local options */ #endif int b_p_ai; /* 'autoindent' */ int b_p_ai_nopaste; /* b_p_ai saved for paste mode */ char_u *b_p_bkc; /* 'backupcopy' */ unsigned b_bkc_flags; /* flags for 'backupcopy' */ int b_p_ci; /* 'copyindent' */ int b_p_bin; /* 'binary' */ #ifdef FEAT_MBYTE int b_p_bomb; /* 'bomb' */ #endif char_u *b_p_bh; /* 'bufhidden' */ char_u *b_p_bt; /* 'buftype' */ #ifdef FEAT_QUICKFIX #define BUF_HAS_QF_ENTRY 1 #define BUF_HAS_LL_ENTRY 2 int b_has_qf_entry; #endif int b_p_bl; /* 'buflisted' */ #ifdef FEAT_CINDENT int b_p_cin; /* 'cindent' */ char_u *b_p_cino; /* 'cinoptions' */ char_u *b_p_cink; /* 'cinkeys' */ #endif #if defined(FEAT_CINDENT) || defined(FEAT_SMARTINDENT) char_u *b_p_cinw; /* 'cinwords' */ #endif #ifdef FEAT_COMMENTS char_u *b_p_com; /* 'comments' */ #endif #ifdef FEAT_FOLDING char_u *b_p_cms; /* 'commentstring' */ #endif #ifdef FEAT_INS_EXPAND char_u *b_p_cpt; /* 'complete' */ #endif #ifdef FEAT_COMPL_FUNC char_u *b_p_cfu; /* 'completefunc' */ char_u *b_p_ofu; /* 'omnifunc' */ #endif int b_p_eol; /* 'endofline' */ int b_p_fixeol; /* 'fixendofline' */ int b_p_et; /* 'expandtab' */ int b_p_et_nobin; /* b_p_et saved for binary mode */ int b_p_et_nopaste; /* b_p_et saved for paste mode */ #ifdef FEAT_MBYTE char_u *b_p_fenc; /* 'fileencoding' */ #endif char_u *b_p_ff; /* 'fileformat' */ #ifdef FEAT_AUTOCMD char_u *b_p_ft; /* 'filetype' */ #endif char_u *b_p_fo; /* 'formatoptions' */ char_u *b_p_flp; /* 'formatlistpat' */ int b_p_inf; /* 'infercase' */ char_u *b_p_isk; /* 'iskeyword' */ #ifdef FEAT_FIND_ID char_u *b_p_def; /* 'define' local value */ char_u *b_p_inc; /* 'include' */ # ifdef FEAT_EVAL char_u *b_p_inex; /* 'includeexpr' */ long_u b_p_inex_flags; /* flags for 'includeexpr' */ # endif #endif #if defined(FEAT_CINDENT) && defined(FEAT_EVAL) char_u *b_p_inde; /* 'indentexpr' */ long_u b_p_inde_flags; /* flags for 'indentexpr' */ char_u *b_p_indk; /* 'indentkeys' */ #endif char_u *b_p_fp; /* 'formatprg' */ #if defined(FEAT_EVAL) char_u *b_p_fex; /* 'formatexpr' */ long_u b_p_fex_flags; /* flags for 'formatexpr' */ #endif #ifdef FEAT_CRYPT char_u *b_p_key; /* 'key' */ #endif char_u *b_p_kp; /* 'keywordprg' */ #ifdef FEAT_LISP int b_p_lisp; /* 'lisp' */ #endif #ifdef FEAT_MBYTE char_u *b_p_menc; /* 'makeencoding' */ #endif char_u *b_p_mps; /* 'matchpairs' */ int b_p_ml; /* 'modeline' */ int b_p_ml_nobin; /* b_p_ml saved for binary mode */ int b_p_ma; /* 'modifiable' */ char_u *b_p_nf; /* 'nrformats' */ int b_p_pi; /* 'preserveindent' */ #ifdef FEAT_TEXTOBJ char_u *b_p_qe; /* 'quoteescape' */ #endif int b_p_ro; /* 'readonly' */ long b_p_sw; /* 'shiftwidth' */ int b_p_sn; /* 'shortname' */ #ifdef FEAT_SMARTINDENT int b_p_si; /* 'smartindent' */ #endif long b_p_sts; /* 'softtabstop' */ long b_p_sts_nopaste; /* b_p_sts saved for paste mode */ #ifdef FEAT_SEARCHPATH char_u *b_p_sua; /* 'suffixesadd' */ #endif int b_p_swf; /* 'swapfile' */ #ifdef FEAT_SYN_HL long b_p_smc; /* 'synmaxcol' */ char_u *b_p_syn; /* 'syntax' */ #endif long b_p_ts; /* 'tabstop' */ int b_p_tx; /* 'textmode' */ long b_p_tw; /* 'textwidth' */ long b_p_tw_nobin; /* b_p_tw saved for binary mode */ long b_p_tw_nopaste; /* b_p_tw saved for paste mode */ long b_p_wm; /* 'wrapmargin' */ long b_p_wm_nobin; /* b_p_wm saved for binary mode */ long b_p_wm_nopaste; /* b_p_wm saved for paste mode */ #ifdef FEAT_KEYMAP char_u *b_p_keymap; /* 'keymap' */ #endif /* local values for options which are normally global */ #ifdef FEAT_QUICKFIX char_u *b_p_gp; /* 'grepprg' local value */ char_u *b_p_mp; /* 'makeprg' local value */ char_u *b_p_efm; /* 'errorformat' local value */ #endif char_u *b_p_ep; /* 'equalprg' local value */ char_u *b_p_path; /* 'path' local value */ int b_p_ar; /* 'autoread' local value */ char_u *b_p_tags; /* 'tags' local value */ char_u *b_p_tc; /* 'tagcase' local value */ unsigned b_tc_flags; /* flags for 'tagcase' */ #ifdef FEAT_INS_EXPAND char_u *b_p_dict; /* 'dictionary' local value */ char_u *b_p_tsr; /* 'thesaurus' local value */ #endif long b_p_ul; /* 'undolevels' local value */ #ifdef FEAT_PERSISTENT_UNDO int b_p_udf; /* 'undofile' */ #endif #ifdef FEAT_LISP char_u *b_p_lw; /* 'lispwords' local value */ #endif /* end of buffer options */ #ifdef FEAT_CINDENT /* values set from b_p_cino */ int b_ind_level; int b_ind_open_imag; int b_ind_no_brace; int b_ind_first_open; int b_ind_open_extra; int b_ind_close_extra; int b_ind_open_left_imag; int b_ind_jump_label; int b_ind_case; int b_ind_case_code; int b_ind_case_break; int b_ind_param; int b_ind_func_type; int b_ind_comment; int b_ind_in_comment; int b_ind_in_comment2; int b_ind_cpp_baseclass; int b_ind_continuation; int b_ind_unclosed; int b_ind_unclosed2; int b_ind_unclosed_noignore; int b_ind_unclosed_wrapped; int b_ind_unclosed_whiteok; int b_ind_matching_paren; int b_ind_paren_prev; int b_ind_maxparen; int b_ind_maxcomment; int b_ind_scopedecl; int b_ind_scopedecl_code; int b_ind_java; int b_ind_js; int b_ind_keep_case_label; int b_ind_hash_comment; int b_ind_cpp_namespace; int b_ind_if_for_while; int b_ind_cpp_extern_c; #endif linenr_T b_no_eol_lnum; /* non-zero lnum when last line of next binary * write should not have an end-of-line */ int b_start_eol; /* last line had eol when it was read */ int b_start_ffc; /* first char of 'ff' when edit started */ #ifdef FEAT_MBYTE char_u *b_start_fenc; /* 'fileencoding' when edit started or NULL */ int b_bad_char; /* "++bad=" argument when edit started or 0 */ int b_start_bomb; /* 'bomb' when it was read */ #endif #ifdef FEAT_EVAL dictitem_T b_bufvar; /* variable for "b:" Dictionary */ dict_T *b_vars; /* internal variables, local to buffer */ #endif #if defined(FEAT_BEVAL) && defined(FEAT_EVAL) char_u *b_p_bexpr; /* 'balloonexpr' local value */ long_u b_p_bexpr_flags;/* flags for 'balloonexpr' */ #endif #ifdef FEAT_CRYPT char_u *b_p_cm; /* 'cryptmethod' */ #endif /* When a buffer is created, it starts without a swap file. b_may_swap is * then set to indicate that a swap file may be opened later. It is reset * if a swap file could not be opened. */ int b_may_swap; int b_did_warn; /* Set to 1 if user has been warned on first change of a read-only file */ /* Two special kinds of buffers: * help buffer - used for help files, won't use a swap file. * spell buffer - used for spell info, never displayed and doesn't have a * file name. */ int b_help; /* TRUE for help file buffer (when set b_p_bt is "help") */ #ifdef FEAT_SPELL int b_spell; /* TRUE for a spell file buffer, most fields are not used! Use the B_SPELL macro to access b_spell without #ifdef. */ #endif int b_shortname; /* this file has an 8.3 file name */ #ifdef FEAT_MZSCHEME void *b_mzscheme_ref; /* The MzScheme reference to this buffer */ #endif #ifdef FEAT_PERL void *b_perl_private; #endif #ifdef FEAT_PYTHON void *b_python_ref; /* The Python reference to this buffer */ #endif #ifdef FEAT_PYTHON3 void *b_python3_ref; /* The Python3 reference to this buffer */ #endif #ifdef FEAT_TCL void *b_tcl_ref; #endif #ifdef FEAT_RUBY void *b_ruby_ref; #endif #if defined(FEAT_SYN_HL) || defined(FEAT_SPELL) synblock_T b_s; /* Info related to syntax highlighting. w_s * normally points to this, but some windows * may use a different synblock_T. */ #endif #ifdef FEAT_SIGNS signlist_T *b_signlist; /* list of signs to draw */ # ifdef FEAT_NETBEANS_INTG int b_has_sign_column; /* Flag that is set when a first sign is * added and remains set until the end of * the netbeans session. */ # endif #endif #ifdef FEAT_NETBEANS_INTG int b_netbeans_file; /* TRUE when buffer is owned by NetBeans */ int b_was_netbeans_file;/* TRUE if b_netbeans_file was once set */ #endif #ifdef FEAT_JOB_CHANNEL int b_write_to_channel; /* TRUE when appended lines are written to * a channel. */ #endif #ifdef FEAT_CRYPT cryptstate_T *b_cryptstate; /* Encryption state while reading or writing * the file. NULL when not using encryption. */ #endif int b_mapped_ctrl_c; /* modes where CTRL-C is mapped */ #ifdef FEAT_TERMINAL term_T *b_term; /* When not NULL this buffer is for a terminal * window. */ #endif }; /* file_buffer */ #ifdef FEAT_DIFF /* * Stuff for diff mode. */ # define DB_COUNT 8 /* up to eight buffers can be diff'ed */ /* * Each diffblock defines where a block of lines starts in each of the buffers * and how many lines it occupies in that buffer. When the lines are missing * in the buffer the df_count[] is zero. This is all counted in * buffer lines. * There is always at least one unchanged line in between the diffs. * Otherwise it would have been included in the diff above or below it. * df_lnum[] + df_count[] is the lnum below the change. When in one buffer * lines have been inserted, in the other buffer df_lnum[] is the line below * the insertion and df_count[] is zero. When appending lines at the end of * the buffer, df_lnum[] is one beyond the end! * This is using a linked list, because the number of differences is expected * to be reasonable small. The list is sorted on lnum. */ typedef struct diffblock_S diff_T; struct diffblock_S { diff_T *df_next; linenr_T df_lnum[DB_COUNT]; /* line number in buffer */ linenr_T df_count[DB_COUNT]; /* nr of inserted/changed lines */ }; #endif #define SNAP_HELP_IDX 0 #ifdef FEAT_AUTOCMD # define SNAP_AUCMD_IDX 1 # define SNAP_COUNT 2 #else # define SNAP_COUNT 1 #endif /* * Tab pages point to the top frame of each tab page. * Note: Most values are NOT valid for the current tab page! Use "curwin", * "firstwin", etc. for that. "tp_topframe" is always valid and can be * compared against "topframe" to find the current tab page. */ typedef struct tabpage_S tabpage_T; struct tabpage_S { tabpage_T *tp_next; /* next tabpage or NULL */ frame_T *tp_topframe; /* topframe for the windows */ win_T *tp_curwin; /* current window in this Tab page */ win_T *tp_prevwin; /* previous window in this Tab page */ win_T *tp_firstwin; /* first window in this Tab page */ win_T *tp_lastwin; /* last window in this Tab page */ long tp_old_Rows; /* Rows when Tab page was left */ long tp_old_Columns; /* Columns when Tab page was left */ long tp_ch_used; /* value of 'cmdheight' when frame size was set */ #ifdef FEAT_GUI int tp_prev_which_scrollbars[3]; /* previous value of which_scrollbars */ #endif #ifdef FEAT_DIFF diff_T *tp_first_diff; buf_T *(tp_diffbuf[DB_COUNT]); int tp_diff_invalid; /* list of diffs is outdated */ #endif frame_T *(tp_snapshot[SNAP_COUNT]); /* window layout snapshots */ #ifdef FEAT_EVAL dictitem_T tp_winvar; /* variable for "t:" Dictionary */ dict_T *tp_vars; /* internal variables, local to tab page */ #endif #ifdef FEAT_PYTHON void *tp_python_ref; /* The Python value for this tab page */ #endif #ifdef FEAT_PYTHON3 void *tp_python3_ref; /* The Python value for this tab page */ #endif }; /* * Structure to cache info for displayed lines in w_lines[]. * Each logical line has one entry. * The entry tells how the logical line is currently displayed in the window. * This is updated when displaying the window. * When the display is changed (e.g., when clearing the screen) w_lines_valid * is changed to exclude invalid entries. * When making changes to the buffer, wl_valid is reset to indicate wl_size * may not reflect what is actually in the buffer. When wl_valid is FALSE, * the entries can only be used to count the number of displayed lines used. * wl_lnum and wl_lastlnum are invalid too. */ typedef struct w_line { linenr_T wl_lnum; /* buffer line number for logical line */ short_u wl_size; /* height in screen lines */ char wl_valid; /* TRUE values are valid for text in buffer */ #ifdef FEAT_FOLDING char wl_folded; /* TRUE when this is a range of folded lines */ linenr_T wl_lastlnum; /* last buffer line number for logical line */ #endif } wline_T; /* * Windows are kept in a tree of frames. Each frame has a column (FR_COL) * or row (FR_ROW) layout or is a leaf, which has a window. */ struct frame_S { char fr_layout; /* FR_LEAF, FR_COL or FR_ROW */ int fr_width; int fr_newwidth; /* new width used in win_equal_rec() */ int fr_height; int fr_newheight; /* new height used in win_equal_rec() */ frame_T *fr_parent; /* containing frame or NULL */ frame_T *fr_next; /* frame right or below in same parent, NULL for first */ frame_T *fr_prev; /* frame left or above in same parent, NULL for last */ /* fr_child and fr_win are mutually exclusive */ frame_T *fr_child; /* first contained frame */ win_T *fr_win; /* window that fills this frame */ }; #define FR_LEAF 0 /* frame is a leaf */ #define FR_ROW 1 /* frame with a row of windows */ #define FR_COL 2 /* frame with a column of windows */ /* * Struct used for highlighting 'hlsearch' matches, matches defined by * ":match" and matches defined by match functions. * For 'hlsearch' there is one pattern for all windows. For ":match" and the * match functions there is a different pattern for each window. */ typedef struct { regmmatch_T rm; /* points to the regexp program; contains last found match (may continue in next line) */ buf_T *buf; /* the buffer to search for a match */ linenr_T lnum; /* the line to search for a match */ int attr; /* attributes to be used for a match */ int attr_cur; /* attributes currently active in win_line() */ linenr_T first_lnum; /* first lnum to search for multi-line pat */ colnr_T startcol; /* in win_line() points to char where HL starts */ colnr_T endcol; /* in win_line() points to char where HL ends */ int is_addpos; /* position specified directly by matchaddpos(). TRUE/FALSE */ #ifdef FEAT_RELTIME proftime_T tm; /* for a time limit */ #endif } match_T; /* number of positions supported by matchaddpos() */ #define MAXPOSMATCH 8 /* * Same as lpos_T, but with additional field len. */ typedef struct { linenr_T lnum; /* line number */ colnr_T col; /* column number */ int len; /* length: 0 - to the end of line */ } llpos_T; /* * posmatch_T provides an array for storing match items for matchaddpos() * function. */ typedef struct posmatch posmatch_T; struct posmatch { llpos_T pos[MAXPOSMATCH]; /* array of positions */ int cur; /* internal position counter */ linenr_T toplnum; /* top buffer line */ linenr_T botlnum; /* bottom buffer line */ }; /* * matchitem_T provides a linked list for storing match items for ":match" and * the match functions. */ typedef struct matchitem matchitem_T; struct matchitem { matchitem_T *next; int id; /* match ID */ int priority; /* match priority */ char_u *pattern; /* pattern to highlight */ int hlg_id; /* highlight group ID */ regmmatch_T match; /* regexp program for pattern */ posmatch_T pos; /* position matches */ match_T hl; /* struct for doing the actual highlighting */ #ifdef FEAT_CONCEAL int conceal_char; /* cchar for Conceal highlighting */ #endif }; #ifdef FEAT_MENU typedef struct { int wb_startcol; int wb_endcol; vimmenu_T *wb_menu; } winbar_item_T; #endif /* * Structure which contains all information that belongs to a window * * All row numbers are relative to the start of the window, except w_winrow. */ struct window_S { int w_id; /* unique window ID */ buf_T *w_buffer; /* buffer we are a window into (used often, keep it the first item!) */ #if defined(FEAT_SYN_HL) || defined(FEAT_SPELL) synblock_T *w_s; /* for :ownsyntax */ #endif win_T *w_prev; /* link to previous window */ win_T *w_next; /* link to next window */ #ifdef FEAT_AUTOCMD int w_closing; /* window is being closed, don't let autocommands close it too. */ #endif frame_T *w_frame; /* frame containing this window */ pos_T w_cursor; /* cursor position in buffer */ colnr_T w_curswant; /* The column we'd like to be at. This is used to try to stay in the same column for up/down cursor motions. */ int w_set_curswant; /* If set, then update w_curswant the next time through cursupdate() to the current virtual column */ /* * the next seven are used to update the visual part */ char w_old_visual_mode; /* last known VIsual_mode */ linenr_T w_old_cursor_lnum; /* last known end of visual part */ colnr_T w_old_cursor_fcol; /* first column for block visual part */ colnr_T w_old_cursor_lcol; /* last column for block visual part */ linenr_T w_old_visual_lnum; /* last known start of visual part */ colnr_T w_old_visual_col; /* last known start of visual part */ colnr_T w_old_curswant; /* last known value of Curswant */ /* * "w_topline", "w_leftcol" and "w_skipcol" specify the offsets for * displaying the buffer. */ linenr_T w_topline; /* buffer line number of the line at the top of the window */ #ifdef FEAT_AUTOCMD char w_topline_was_set; /* flag set to TRUE when topline is set, e.g. by winrestview() */ #endif #ifdef FEAT_DIFF int w_topfill; /* number of filler lines above w_topline */ int w_old_topfill; /* w_topfill at last redraw */ int w_botfill; /* TRUE when filler lines are actually below w_topline (at end of file) */ int w_old_botfill; /* w_botfill at last redraw */ #endif colnr_T w_leftcol; /* window column number of the left most character in the window; used when 'wrap' is off */ colnr_T w_skipcol; /* starting column when a single line doesn't fit in the window */ /* * Layout of the window in the screen. * May need to add "msg_scrolled" to "w_winrow" in rare situations. */ int w_winrow; /* first row of window in screen */ int w_height; /* number of rows in window, excluding status/command/winbar line(s) */ int w_status_height; /* number of status lines (0 or 1) */ int w_wincol; /* Leftmost column of window in screen. */ int w_width; /* Width of window, excluding separation. */ int w_vsep_width; /* Number of separator columns (0 or 1). */ /* * === start of cached values ==== */ /* * Recomputing is minimized by storing the result of computations. * Use functions in screen.c to check if they are valid and to update. * w_valid is a bitfield of flags, which indicate if specific values are * valid or need to be recomputed. See screen.c for values. */ int w_valid; pos_T w_valid_cursor; /* last known position of w_cursor, used to adjust w_valid */ colnr_T w_valid_leftcol; /* last known w_leftcol */ /* * w_cline_height is the number of physical lines taken by the buffer line * that the cursor is on. We use this to avoid extra calls to plines(). */ int w_cline_height; /* current size of cursor line */ #ifdef FEAT_FOLDING int w_cline_folded; /* cursor line is folded */ #endif int w_cline_row; /* starting row of the cursor line */ colnr_T w_virtcol; /* column number of the cursor in the buffer line, as opposed to the column number we're at on the screen. This makes a difference on lines which span more than one screen line or when w_leftcol is non-zero */ /* * w_wrow and w_wcol specify the cursor position in the window. * This is related to positions in the window, not in the display or * buffer, thus w_wrow is relative to w_winrow. */ int w_wrow, w_wcol; /* cursor position in window */ linenr_T w_botline; /* number of the line below the bottom of the window */ int w_empty_rows; /* number of ~ rows in window */ #ifdef FEAT_DIFF int w_filler_rows; /* number of filler rows at the end of the window */ #endif /* * Info about the lines currently in the window is remembered to avoid * recomputing it every time. The allocated size of w_lines[] is Rows. * Only the w_lines_valid entries are actually valid. * When the display is up-to-date w_lines[0].wl_lnum is equal to w_topline * and w_lines[w_lines_valid - 1].wl_lnum is equal to w_botline. * Between changing text and updating the display w_lines[] represents * what is currently displayed. wl_valid is reset to indicated this. * This is used for efficient redrawing. */ int w_lines_valid; /* number of valid entries */ wline_T *w_lines; #ifdef FEAT_FOLDING garray_T w_folds; /* array of nested folds */ char w_fold_manual; /* when TRUE: some folds are opened/closed manually */ char w_foldinvalid; /* when TRUE: folding needs to be recomputed */ #endif #ifdef FEAT_LINEBREAK int w_nrwidth; /* width of 'number' and 'relativenumber' column being used */ #endif /* * === end of cached values === */ int w_redr_type; /* type of redraw to be performed on win */ int w_upd_rows; /* number of window lines to update when w_redr_type is REDRAW_TOP */ linenr_T w_redraw_top; /* when != 0: first line needing redraw */ linenr_T w_redraw_bot; /* when != 0: last line needing redraw */ int w_redr_status; /* if TRUE status line must be redrawn */ #ifdef FEAT_CMDL_INFO /* remember what is shown in the ruler for this window (if 'ruler' set) */ pos_T w_ru_cursor; /* cursor position shown in ruler */ colnr_T w_ru_virtcol; /* virtcol shown in ruler */ linenr_T w_ru_topline; /* topline shown in ruler */ linenr_T w_ru_line_count; /* line count used for ruler */ # ifdef FEAT_DIFF int w_ru_topfill; /* topfill shown in ruler */ # endif char w_ru_empty; /* TRUE if ruler shows 0-1 (empty line) */ #endif int w_alt_fnum; /* alternate file (for # and CTRL-^) */ alist_T *w_alist; /* pointer to arglist for this window */ int w_arg_idx; /* current index in argument list (can be out of range!) */ int w_arg_idx_invalid; /* editing another file than w_arg_idx */ char_u *w_localdir; /* absolute path of local directory or NULL */ #ifdef FEAT_MENU vimmenu_T *w_winbar; /* The root of the WinBar menu hierarchy. */ winbar_item_T *w_winbar_items; /* list of items in the WinBar */ int w_winbar_height; /* 1 if there is a window toolbar */ #endif /* * Options local to a window. * They are local because they influence the layout of the window or * depend on the window layout. * There are two values: w_onebuf_opt is local to the buffer currently in * this window, w_allbuf_opt is for all buffers in this window. */ winopt_T w_onebuf_opt; winopt_T w_allbuf_opt; /* A few options have local flags for P_INSECURE. */ #ifdef FEAT_STL_OPT long_u w_p_stl_flags; /* flags for 'statusline' */ #endif #ifdef FEAT_EVAL long_u w_p_fde_flags; /* flags for 'foldexpr' */ long_u w_p_fdt_flags; /* flags for 'foldtext' */ #endif #ifdef FEAT_SYN_HL int *w_p_cc_cols; /* array of columns to highlight or NULL */ #endif #ifdef FEAT_LINEBREAK int w_p_brimin; /* minimum width for breakindent */ int w_p_brishift; /* additional shift for breakindent */ int w_p_brisbr; /* sbr in 'briopt' */ #endif /* transform a pointer to a "onebuf" option into a "allbuf" option */ #define GLOBAL_WO(p) ((char *)p + sizeof(winopt_T)) #ifdef FEAT_SCROLLBIND long w_scbind_pos; #endif #ifdef FEAT_EVAL dictitem_T w_winvar; /* variable for "w:" Dictionary */ dict_T *w_vars; /* internal variables, local to window */ #endif #if defined(FEAT_RIGHTLEFT) && defined(FEAT_FKMAP) int w_farsi; /* for the window dependent Farsi functions */ #endif /* * The w_prev_pcmark field is used to check whether we really did jump to * a new line after setting the w_pcmark. If not, then we revert to * using the previous w_pcmark. */ pos_T w_pcmark; /* previous context mark */ pos_T w_prev_pcmark; /* previous w_pcmark */ #ifdef FEAT_JUMPLIST /* * the jumplist contains old cursor positions */ xfmark_T w_jumplist[JUMPLISTSIZE]; int w_jumplistlen; /* number of active entries */ int w_jumplistidx; /* current position */ int w_changelistidx; /* current position in b_changelist */ #endif #ifdef FEAT_SEARCH_EXTRA matchitem_T *w_match_head; /* head of match list */ int w_next_match_id; /* next match ID */ #endif /* * the tagstack grows from 0 upwards: * entry 0: older * entry 1: newer * entry 2: newest */ taggy_T w_tagstack[TAGSTACKSIZE]; /* the tag stack */ int w_tagstackidx; /* idx just below active entry */ int w_tagstacklen; /* number of tags on stack */ /* * w_fraction is the fractional row of the cursor within the window, from * 0 at the top row to FRACTION_MULT at the last row. * w_prev_fraction_row was the actual cursor row when w_fraction was last * calculated. */ int w_fraction; int w_prev_fraction_row; #ifdef FEAT_GUI scrollbar_T w_scrollbars[2]; /* vert. Scrollbars for this window */ #endif #ifdef FEAT_LINEBREAK linenr_T w_nrwidth_line_count; /* line count when ml_nrwidth_width * was computed. */ long w_nuw_cached; /* 'numberwidth' option cached */ int w_nrwidth_width; /* nr of chars to print line count. */ #endif #ifdef FEAT_QUICKFIX qf_info_T *w_llist; /* Location list for this window */ /* * Location list reference used in the location list window. * In a non-location list window, w_llist_ref is NULL. */ qf_info_T *w_llist_ref; #endif #ifdef FEAT_MZSCHEME void *w_mzscheme_ref; /* The MzScheme value for this window */ #endif #ifdef FEAT_PERL void *w_perl_private; #endif #ifdef FEAT_PYTHON void *w_python_ref; /* The Python value for this window */ #endif #ifdef FEAT_PYTHON3 void *w_python3_ref; /* The Python value for this window */ #endif #ifdef FEAT_TCL void *w_tcl_ref; #endif #ifdef FEAT_RUBY void *w_ruby_ref; #endif }; /* * Arguments for operators. */ typedef struct oparg_S { int op_type; /* current pending operator type */ int regname; /* register to use for the operator */ int motion_type; /* type of the current cursor motion */ int motion_force; /* force motion type: 'v', 'V' or CTRL-V */ int use_reg_one; /* TRUE if delete uses reg 1 even when not linewise */ int inclusive; /* TRUE if char motion is inclusive (only valid when motion_type is MCHAR */ int end_adjusted; /* backuped b_op_end one char (only used by do_format()) */ pos_T start; /* start of the operator */ pos_T end; /* end of the operator */ pos_T cursor_start; /* cursor position before motion for "gw" */ long line_count; /* number of lines from op_start to op_end (inclusive) */ int empty; /* op_start and op_end the same (only used by do_change()) */ int is_VIsual; /* operator on Visual area */ int block_mode; /* current operator is Visual block mode */ colnr_T start_vcol; /* start col for block mode operator */ colnr_T end_vcol; /* end col for block mode operator */ #ifdef FEAT_AUTOCMD long prev_opcount; /* ca.opcount saved for K_CURSORHOLD */ long prev_count0; /* ca.count0 saved for K_CURSORHOLD */ #endif } oparg_T; /* * Arguments for Normal mode commands. */ typedef struct cmdarg_S { oparg_T *oap; /* Operator arguments */ int prechar; /* prefix character (optional, always 'g') */ int cmdchar; /* command character */ int nchar; /* next command character (optional) */ #ifdef FEAT_MBYTE int ncharC1; /* first composing character (optional) */ int ncharC2; /* second composing character (optional) */ #endif int extra_char; /* yet another character (optional) */ long opcount; /* count before an operator */ long count0; /* count before command, default 0 */ long count1; /* count before command, default 1 */ int arg; /* extra argument from nv_cmds[] */ int retval; /* return: CA_* values */ char_u *searchbuf; /* return: pointer to search pattern or NULL */ } cmdarg_T; /* values for retval: */ #define CA_COMMAND_BUSY 1 /* skip restarting edit() once */ #define CA_NO_ADJ_OP_END 2 /* don't adjust operator end */ #ifdef CURSOR_SHAPE /* * struct to store values from 'guicursor' and 'mouseshape' */ /* Indexes in shape_table[] */ #define SHAPE_IDX_N 0 /* Normal mode */ #define SHAPE_IDX_V 1 /* Visual mode */ #define SHAPE_IDX_I 2 /* Insert mode */ #define SHAPE_IDX_R 3 /* Replace mode */ #define SHAPE_IDX_C 4 /* Command line Normal mode */ #define SHAPE_IDX_CI 5 /* Command line Insert mode */ #define SHAPE_IDX_CR 6 /* Command line Replace mode */ #define SHAPE_IDX_O 7 /* Operator-pending mode */ #define SHAPE_IDX_VE 8 /* Visual mode with 'selection' exclusive */ #define SHAPE_IDX_CLINE 9 /* On command line */ #define SHAPE_IDX_STATUS 10 /* A status line */ #define SHAPE_IDX_SDRAG 11 /* dragging a status line */ #define SHAPE_IDX_VSEP 12 /* A vertical separator line */ #define SHAPE_IDX_VDRAG 13 /* dragging a vertical separator line */ #define SHAPE_IDX_MORE 14 /* Hit-return or More */ #define SHAPE_IDX_MOREL 15 /* Hit-return or More in last line */ #define SHAPE_IDX_SM 16 /* showing matching paren */ #define SHAPE_IDX_COUNT 17 #define SHAPE_BLOCK 0 /* block cursor */ #define SHAPE_HOR 1 /* horizontal bar cursor */ #define SHAPE_VER 2 /* vertical bar cursor */ #define MSHAPE_NUMBERED 1000 /* offset for shapes identified by number */ #define MSHAPE_HIDE 1 /* hide mouse pointer */ #define SHAPE_MOUSE 1 /* used for mouse pointer shape */ #define SHAPE_CURSOR 2 /* used for text cursor shape */ typedef struct cursor_entry { int shape; /* one of the SHAPE_ defines */ int mshape; /* one of the MSHAPE defines */ int percentage; /* percentage of cell for bar */ long blinkwait; /* blinking, wait time before blinking starts */ long blinkon; /* blinking, on time */ long blinkoff; /* blinking, off time */ int id; /* highlight group ID */ int id_lm; /* highlight group ID for :lmap mode */ char *name; /* mode name (fixed) */ char used_for; /* SHAPE_MOUSE and/or SHAPE_CURSOR */ } cursorentry_T; #endif /* CURSOR_SHAPE */ #ifdef FEAT_MENU /* Indices into vimmenu_T->strings[] and vimmenu_T->noremap[] for each mode */ #define MENU_INDEX_INVALID -1 #define MENU_INDEX_NORMAL 0 #define MENU_INDEX_VISUAL 1 #define MENU_INDEX_SELECT 2 #define MENU_INDEX_OP_PENDING 3 #define MENU_INDEX_INSERT 4 #define MENU_INDEX_CMDLINE 5 #define MENU_INDEX_TIP 6 #define MENU_MODES 7 /* Menu modes */ #define MENU_NORMAL_MODE (1 << MENU_INDEX_NORMAL) #define MENU_VISUAL_MODE (1 << MENU_INDEX_VISUAL) #define MENU_SELECT_MODE (1 << MENU_INDEX_SELECT) #define MENU_OP_PENDING_MODE (1 << MENU_INDEX_OP_PENDING) #define MENU_INSERT_MODE (1 << MENU_INDEX_INSERT) #define MENU_CMDLINE_MODE (1 << MENU_INDEX_CMDLINE) #define MENU_TIP_MODE (1 << MENU_INDEX_TIP) #define MENU_ALL_MODES ((1 << MENU_INDEX_TIP) - 1) /*note MENU_INDEX_TIP is not a 'real' mode*/ /* Start a menu name with this to not include it on the main menu bar */ #define MNU_HIDDEN_CHAR ']' struct VimMenu { int modes; /* Which modes is this menu visible for? */ int enabled; /* for which modes the menu is enabled */ char_u *name; /* Name of menu, possibly translated */ char_u *dname; /* Displayed Name ("name" without '&') */ #ifdef FEAT_MULTI_LANG char_u *en_name; /* "name" untranslated, NULL when "name" * was not translated */ char_u *en_dname; /* "dname" untranslated, NULL when "dname" * was not translated */ #endif int mnemonic; /* mnemonic key (after '&') */ char_u *actext; /* accelerator text (after TAB) */ int priority; /* Menu order priority */ #ifdef FEAT_GUI void (*cb)(vimmenu_T *); /* Call-back routine */ #endif #ifdef FEAT_TOOLBAR char_u *iconfile; /* name of file for icon or NULL */ int iconidx; /* icon index (-1 if not set) */ int icon_builtin; /* icon names is BuiltIn{nr} */ #endif char_u *strings[MENU_MODES]; /* Mapped string for each mode */ int noremap[MENU_MODES]; /* A REMAP_ flag for each mode */ char silent[MENU_MODES]; /* A silent flag for each mode */ vimmenu_T *children; /* Children of sub-menu */ vimmenu_T *parent; /* Parent of menu */ vimmenu_T *next; /* Next item in menu */ #ifdef FEAT_GUI_X11 Widget id; /* Manage this to enable item */ Widget submenu_id; /* If this is submenu, add children here */ #endif #ifdef FEAT_GUI_GTK GtkWidget *id; /* Manage this to enable item */ GtkWidget *submenu_id; /* If this is submenu, add children here */ # if defined(GTK_CHECK_VERSION) && !GTK_CHECK_VERSION(3,4,0) GtkWidget *tearoff_handle; # endif GtkWidget *label; /* Used by "set wak=" code. */ #endif #ifdef FEAT_GUI_MOTIF int sensitive; /* turn button on/off */ char **xpm; /* pixmap data */ char *xpm_fname; /* file with pixmap data */ #endif #ifdef FEAT_GUI_ATHENA Pixmap image; /* Toolbar image */ #endif #ifdef FEAT_BEVAL_TIP BalloonEval *tip; /* tooltip for this menu item */ #endif #ifdef FEAT_GUI_W32 UINT id; /* Id of menu item */ HMENU submenu_id; /* If this is submenu, add children here */ HWND tearoff_handle; /* hWnd of tearoff if created */ #endif #ifdef FEAT_GUI_MAC /* MenuHandle id; */ /* short index; */ /* the item index within the father menu */ short menu_id; /* the menu id to which this item belong */ short submenu_id; /* the menu id of the children (could be get through some tricks) */ MenuHandle menu_handle; MenuHandle submenu_handle; #endif #ifdef FEAT_GUI_PHOTON PtWidget_t *id; PtWidget_t *submenu_id; #endif }; #else /* For generating prototypes when FEAT_MENU isn't defined. */ typedef int vimmenu_T; #endif /* FEAT_MENU */ /* * Struct to save values in before executing autocommands for a buffer that is * not the current buffer. Without FEAT_AUTOCMD only "curbuf" is remembered. */ typedef struct { buf_T *save_curbuf; /* saved curbuf */ #ifdef FEAT_AUTOCMD int use_aucmd_win; /* using aucmd_win */ win_T *save_curwin; /* saved curwin */ win_T *new_curwin; /* new curwin */ bufref_T new_curbuf; /* new curbuf */ char_u *globaldir; /* saved value of globaldir */ #endif } aco_save_T; /* * Generic option table item, only used for printer at the moment. */ typedef struct { const char *name; int hasnum; long number; char_u *string; /* points into option string */ int strlen; int present; } option_table_T; /* * Structure to hold printing color and font attributes. */ typedef struct { long_u fg_color; long_u bg_color; int bold; int italic; int underline; int undercurl; } prt_text_attr_T; /* * Structure passed back to the generic printer code. */ typedef struct { int n_collated_copies; int n_uncollated_copies; int duplex; int chars_per_line; int lines_per_page; int has_color; prt_text_attr_T number; #ifdef FEAT_SYN_HL int modec; int do_syntax; #endif int user_abort; char_u *jobname; #ifdef FEAT_POSTSCRIPT char_u *outfile; char_u *arguments; #endif } prt_settings_T; #define PRINT_NUMBER_WIDTH 8 /* * Used for popup menu items. */ typedef struct { char_u *pum_text; /* main menu text */ char_u *pum_kind; /* extra kind text (may be truncated) */ char_u *pum_extra; /* extra menu text (may be truncated) */ char_u *pum_info; /* extra info */ } pumitem_T; /* * Structure used for get_tagfname(). */ typedef struct { char_u *tn_tags; /* value of 'tags' when starting */ char_u *tn_np; /* current position in tn_tags */ int tn_did_filefind_init; int tn_hf_idx; void *tn_search_ctx; } tagname_T; /* * Array indexes used for cptext argument of ins_compl_add(). */ #define CPT_ABBR 0 /* "abbr" */ #define CPT_MENU 1 /* "menu" */ #define CPT_KIND 2 /* "kind" */ #define CPT_INFO 3 /* "info" */ #define CPT_COUNT 4 /* Number of entries */ typedef struct { UINT32_T total[2]; UINT32_T state[8]; char_u buffer[64]; } context_sha256_T; /* * Structure used for reading in json_decode(). */ struct js_reader { char_u *js_buf; /* text to be decoded */ char_u *js_end; /* NUL in js_buf */ int js_used; /* bytes used from js_buf */ int (*js_fill)(struct js_reader *); /* function to fill the buffer or NULL; * return TRUE when the buffer was filled */ void *js_cookie; /* can be used by js_fill */ int js_cookie_arg; /* can be used by js_fill */ }; typedef struct js_reader js_read_T; typedef struct timer_S timer_T; struct timer_S { long tr_id; #ifdef FEAT_TIMERS timer_T *tr_next; timer_T *tr_prev; proftime_T tr_due; /* when the callback is to be invoked */ char tr_firing; /* when TRUE callback is being called */ char tr_paused; /* when TRUE callback is not invoked */ int tr_repeat; /* number of times to repeat, -1 forever */ long tr_interval; /* msec */ char_u *tr_callback; /* allocated */ partial_T *tr_partial; int tr_emsg_count; #endif }; /* Maximum number of commands from + or -c arguments. */ #define MAX_ARG_CMDS 10 /* values for "window_layout" */ #define WIN_HOR 1 /* "-o" horizontally split windows */ #define WIN_VER 2 /* "-O" vertically split windows */ #define WIN_TABS 3 /* "-p" windows on tab pages */ /* Struct for various parameters passed between main() and other functions. */ typedef struct { int argc; char **argv; char_u *fname; /* first file to edit */ int evim_mode; /* started as "evim" */ char_u *use_vimrc; /* vimrc from -u argument */ int n_commands; /* no. of commands from + or -c */ char_u *commands[MAX_ARG_CMDS]; /* commands from + or -c arg. */ char_u cmds_tofree[MAX_ARG_CMDS]; /* commands that need free() */ int n_pre_commands; /* no. of commands from --cmd */ char_u *pre_commands[MAX_ARG_CMDS]; /* commands from --cmd argument */ int edit_type; /* type of editing to do */ char_u *tagname; /* tag from -t argument */ #ifdef FEAT_QUICKFIX char_u *use_ef; /* 'errorfile' from -q argument */ #endif int want_full_screen; int not_a_term; /* no warning for missing term? */ int tty_fail; /* exit if not a tty */ char_u *term; /* specified terminal name */ #ifdef FEAT_CRYPT int ask_for_key; /* -x argument */ #endif int no_swap_file; /* "-n" argument used */ #ifdef FEAT_EVAL int use_debug_break_level; #endif int window_count; /* number of windows to use */ int window_layout; /* 0, WIN_HOR, WIN_VER or WIN_TABS */ #ifdef FEAT_CLIENTSERVER int serverArg; /* TRUE when argument for a server */ char_u *serverName_arg; /* cmdline arg for server name */ char_u *serverStr; /* remote server command */ char_u *serverStrEnc; /* encoding of serverStr */ char_u *servername; /* allocated name for our server */ #endif #if !defined(UNIX) # define EXPAND_FILENAMES int literal; /* don't expand file names */ #endif #ifdef MSWIN int full_path; /* file name argument was full path */ #endif #ifdef FEAT_DIFF int diff_mode; /* start with 'diff' set */ #endif } mparm_T; /* * Structure returned by get_lval() and used by set_var_lval(). * For a plain name: * "name" points to the variable name. * "exp_name" is NULL. * "tv" is NULL * For a magic braces name: * "name" points to the expanded variable name. * "exp_name" is non-NULL, to be freed later. * "tv" is NULL * For an index in a list: * "name" points to the (expanded) variable name. * "exp_name" NULL or non-NULL, to be freed later. * "tv" points to the (first) list item value * "li" points to the (first) list item * "range", "n1", "n2" and "empty2" indicate what items are used. * For an existing Dict item: * "name" points to the (expanded) variable name. * "exp_name" NULL or non-NULL, to be freed later. * "tv" points to the dict item value * "newkey" is NULL * For a non-existing Dict item: * "name" points to the (expanded) variable name. * "exp_name" NULL or non-NULL, to be freed later. * "tv" points to the Dictionary typval_T * "newkey" is the key for the new item. */ typedef struct lval_S { char_u *ll_name; /* start of variable name (can be NULL) */ char_u *ll_exp_name; /* NULL or expanded name in allocated memory. */ typval_T *ll_tv; /* Typeval of item being used. If "newkey" isn't NULL it's the Dict to which to add the item. */ listitem_T *ll_li; /* The list item or NULL. */ list_T *ll_list; /* The list or NULL. */ int ll_range; /* TRUE when a [i:j] range was used */ long ll_n1; /* First index for list */ long ll_n2; /* Second index for list range */ int ll_empty2; /* Second index is empty: [i:] */ dict_T *ll_dict; /* The Dictionary or NULL */ dictitem_T *ll_di; /* The dictitem or NULL */ char_u *ll_newkey; /* New key for Dict in alloc. mem or NULL. */ } lval_T; /* Structure used to save the current state. Used when executing Normal mode * commands while in any other mode. */ typedef struct { int save_msg_scroll; int save_restart_edit; int save_msg_didout; int save_State; int save_insertmode; int save_finish_op; int save_opcount; tasave_T tabuf; } save_state_T;