/* vi:set ts=8 sts=4 sw=4 noet: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. * See README.txt for an overview of the Vim source code. */ /* * eval.c: Expression evaluation. */ #define USING_FLOAT_STUFF #include "vim.h" #if defined(FEAT_EVAL) || defined(PROTO) #ifdef VMS # include #endif #define DICT_MAXNEST 100 /* maximum nesting of lists and dicts */ static char *e_letunexp = N_("E18: Unexpected characters in :let"); static char *e_undefvar = N_("E121: Undefined variable: %s"); static char *e_missbrac = N_("E111: Missing ']'"); static char *e_dictrange = N_("E719: Cannot use [:] with a Dictionary"); static char *e_letwrong = N_("E734: Wrong variable type for %s="); static char *e_illvar = N_("E461: Illegal variable name: %s"); #ifdef FEAT_FLOAT static char *e_float_as_string = N_("E806: using Float as a String"); #endif #define NAMESPACE_CHAR (char_u *)"abglstvw" static dictitem_T globvars_var; /* variable used for g: */ #define globvarht globvardict.dv_hashtab /* * Old Vim variables such as "v:version" are also available without the "v:". * Also in functions. We need a special hashtable for them. */ static hashtab_T compat_hashtab; /* * When recursively copying lists and dicts we need to remember which ones we * have done to avoid endless recursiveness. This unique ID is used for that. * The last bit is used for previous_funccal, ignored when comparing. */ static int current_copyID = 0; /* * Array to hold the hashtab with variables local to each sourced script. * Each item holds a variable (nameless) that points to the dict_T. */ typedef struct { dictitem_T sv_var; dict_T sv_dict; } scriptvar_T; static garray_T ga_scripts = {0, 0, sizeof(scriptvar_T *), 4, NULL}; #define SCRIPT_SV(id) (((scriptvar_T **)ga_scripts.ga_data)[(id) - 1]) #define SCRIPT_VARS(id) (SCRIPT_SV(id)->sv_dict.dv_hashtab) static int echo_attr = 0; /* attributes used for ":echo" */ /* The names of packages that once were loaded are remembered. */ static garray_T ga_loaded = {0, 0, sizeof(char_u *), 4, NULL}; /* * Info used by a ":for" loop. */ typedef struct { int fi_semicolon; /* TRUE if ending in '; var]' */ int fi_varcount; /* nr of variables in the list */ listwatch_T fi_lw; /* keep an eye on the item used. */ list_T *fi_list; /* list being used */ } forinfo_T; /* * Array to hold the value of v: variables. * The value is in a dictitem, so that it can also be used in the v: scope. * The reason to use this table anyway is for very quick access to the * variables with the VV_ defines. */ /* values for vv_flags: */ #define VV_COMPAT 1 /* compatible, also used without "v:" */ #define VV_RO 2 /* read-only */ #define VV_RO_SBX 4 /* read-only in the sandbox */ #define VV_NAME(s, t) s, {{t, 0, {0}}, 0, {0}} static struct vimvar { char *vv_name; /* name of variable, without v: */ dictitem16_T vv_di; /* value and name for key (max 16 chars!) */ char vv_flags; /* VV_COMPAT, VV_RO, VV_RO_SBX */ } vimvars[VV_LEN] = { /* * The order here must match the VV_ defines in vim.h! * Initializing a union does not work, leave tv.vval empty to get zero's. */ {VV_NAME("count", VAR_NUMBER), VV_COMPAT+VV_RO}, {VV_NAME("count1", VAR_NUMBER), VV_RO}, {VV_NAME("prevcount", VAR_NUMBER), VV_RO}, {VV_NAME("errmsg", VAR_STRING), VV_COMPAT}, {VV_NAME("warningmsg", VAR_STRING), 0}, {VV_NAME("statusmsg", VAR_STRING), 0}, {VV_NAME("shell_error", VAR_NUMBER), VV_COMPAT+VV_RO}, {VV_NAME("this_session", VAR_STRING), VV_COMPAT}, {VV_NAME("version", VAR_NUMBER), VV_COMPAT+VV_RO}, {VV_NAME("lnum", VAR_NUMBER), VV_RO_SBX}, {VV_NAME("termresponse", VAR_STRING), VV_RO}, {VV_NAME("fname", VAR_STRING), VV_RO}, {VV_NAME("lang", VAR_STRING), VV_RO}, {VV_NAME("lc_time", VAR_STRING), VV_RO}, {VV_NAME("ctype", VAR_STRING), VV_RO}, {VV_NAME("charconvert_from", VAR_STRING), VV_RO}, {VV_NAME("charconvert_to", VAR_STRING), VV_RO}, {VV_NAME("fname_in", VAR_STRING), VV_RO}, {VV_NAME("fname_out", VAR_STRING), VV_RO}, {VV_NAME("fname_new", VAR_STRING), VV_RO}, {VV_NAME("fname_diff", VAR_STRING), VV_RO}, {VV_NAME("cmdarg", VAR_STRING), VV_RO}, {VV_NAME("foldstart", VAR_NUMBER), VV_RO_SBX}, {VV_NAME("foldend", VAR_NUMBER), VV_RO_SBX}, {VV_NAME("folddashes", VAR_STRING), VV_RO_SBX}, {VV_NAME("foldlevel", VAR_NUMBER), VV_RO_SBX}, {VV_NAME("progname", VAR_STRING), VV_RO}, {VV_NAME("servername", VAR_STRING), VV_RO}, {VV_NAME("dying", VAR_NUMBER), VV_RO}, {VV_NAME("exception", VAR_STRING), VV_RO}, {VV_NAME("throwpoint", VAR_STRING), VV_RO}, {VV_NAME("register", VAR_STRING), VV_RO}, {VV_NAME("cmdbang", VAR_NUMBER), VV_RO}, {VV_NAME("insertmode", VAR_STRING), VV_RO}, {VV_NAME("val", VAR_UNKNOWN), VV_RO}, {VV_NAME("key", VAR_UNKNOWN), VV_RO}, {VV_NAME("profiling", VAR_NUMBER), VV_RO}, {VV_NAME("fcs_reason", VAR_STRING), VV_RO}, {VV_NAME("fcs_choice", VAR_STRING), 0}, {VV_NAME("beval_bufnr", VAR_NUMBER), VV_RO}, {VV_NAME("beval_winnr", VAR_NUMBER), VV_RO}, {VV_NAME("beval_winid", VAR_NUMBER), VV_RO}, {VV_NAME("beval_lnum", VAR_NUMBER), VV_RO}, {VV_NAME("beval_col", VAR_NUMBER), VV_RO}, {VV_NAME("beval_text", VAR_STRING), VV_RO}, {VV_NAME("scrollstart", VAR_STRING), 0}, {VV_NAME("swapname", VAR_STRING), VV_RO}, {VV_NAME("swapchoice", VAR_STRING), 0}, {VV_NAME("swapcommand", VAR_STRING), VV_RO}, {VV_NAME("char", VAR_STRING), 0}, {VV_NAME("mouse_win", VAR_NUMBER), 0}, {VV_NAME("mouse_winid", VAR_NUMBER), 0}, {VV_NAME("mouse_lnum", VAR_NUMBER), 0}, {VV_NAME("mouse_col", VAR_NUMBER), 0}, {VV_NAME("operator", VAR_STRING), VV_RO}, {VV_NAME("searchforward", VAR_NUMBER), 0}, {VV_NAME("hlsearch", VAR_NUMBER), 0}, {VV_NAME("oldfiles", VAR_LIST), 0}, {VV_NAME("windowid", VAR_NUMBER), VV_RO}, {VV_NAME("progpath", VAR_STRING), VV_RO}, {VV_NAME("completed_item", VAR_DICT), VV_RO}, {VV_NAME("option_new", VAR_STRING), VV_RO}, {VV_NAME("option_old", VAR_STRING), VV_RO}, {VV_NAME("option_type", VAR_STRING), VV_RO}, {VV_NAME("errors", VAR_LIST), 0}, {VV_NAME("false", VAR_SPECIAL), VV_RO}, {VV_NAME("true", VAR_SPECIAL), VV_RO}, {VV_NAME("null", VAR_SPECIAL), VV_RO}, {VV_NAME("none", VAR_SPECIAL), VV_RO}, {VV_NAME("vim_did_enter", VAR_NUMBER), VV_RO}, {VV_NAME("testing", VAR_NUMBER), 0}, {VV_NAME("t_number", VAR_NUMBER), VV_RO}, {VV_NAME("t_string", VAR_NUMBER), VV_RO}, {VV_NAME("t_func", VAR_NUMBER), VV_RO}, {VV_NAME("t_list", VAR_NUMBER), VV_RO}, {VV_NAME("t_dict", VAR_NUMBER), VV_RO}, {VV_NAME("t_float", VAR_NUMBER), VV_RO}, {VV_NAME("t_bool", VAR_NUMBER), VV_RO}, {VV_NAME("t_none", VAR_NUMBER), VV_RO}, {VV_NAME("t_job", VAR_NUMBER), VV_RO}, {VV_NAME("t_channel", VAR_NUMBER), VV_RO}, {VV_NAME("termrfgresp", VAR_STRING), VV_RO}, {VV_NAME("termrbgresp", VAR_STRING), VV_RO}, {VV_NAME("termu7resp", VAR_STRING), VV_RO}, {VV_NAME("termstyleresp", VAR_STRING), VV_RO}, {VV_NAME("termblinkresp", VAR_STRING), VV_RO}, {VV_NAME("event", VAR_DICT), VV_RO}, }; /* shorthand */ #define vv_type vv_di.di_tv.v_type #define vv_nr vv_di.di_tv.vval.v_number #define vv_float vv_di.di_tv.vval.v_float #define vv_str vv_di.di_tv.vval.v_string #define vv_list vv_di.di_tv.vval.v_list #define vv_dict vv_di.di_tv.vval.v_dict #define vv_tv vv_di.di_tv static dictitem_T vimvars_var; /* variable used for v: */ #define vimvarht vimvardict.dv_hashtab static int ex_let_vars(char_u *arg, typval_T *tv, int copy, int semicolon, int var_count, char_u *nextchars); static char_u *skip_var_list(char_u *arg, int *var_count, int *semicolon); static char_u *skip_var_one(char_u *arg); static void list_glob_vars(int *first); static void list_buf_vars(int *first); static void list_win_vars(int *first); static void list_tab_vars(int *first); static void list_vim_vars(int *first); static void list_script_vars(int *first); static char_u *list_arg_vars(exarg_T *eap, char_u *arg, int *first); static char_u *ex_let_one(char_u *arg, typval_T *tv, int copy, char_u *endchars, char_u *op); static void set_var_lval(lval_T *lp, char_u *endp, typval_T *rettv, int copy, char_u *op); static int tv_op(typval_T *tv1, typval_T *tv2, char_u *op); static void ex_unletlock(exarg_T *eap, char_u *argstart, int deep); static int do_unlet_var(lval_T *lp, char_u *name_end, int forceit); static int do_lock_var(lval_T *lp, char_u *name_end, int deep, int lock); static void item_lock(typval_T *tv, int deep, int lock); static int eval2(char_u **arg, typval_T *rettv, int evaluate); static int eval3(char_u **arg, typval_T *rettv, int evaluate); static int eval4(char_u **arg, typval_T *rettv, int evaluate); static int eval5(char_u **arg, typval_T *rettv, int evaluate); static int eval6(char_u **arg, typval_T *rettv, int evaluate, int want_string); static int eval7(char_u **arg, typval_T *rettv, int evaluate, int want_string); static int eval_index(char_u **arg, typval_T *rettv, int evaluate, int verbose); static int get_string_tv(char_u **arg, typval_T *rettv, int evaluate); static int get_lit_string_tv(char_u **arg, typval_T *rettv, int evaluate); static int free_unref_items(int copyID); static int get_env_tv(char_u **arg, typval_T *rettv, int evaluate); static int get_env_len(char_u **arg); static char_u * make_expanded_name(char_u *in_start, char_u *expr_start, char_u *expr_end, char_u *in_end); static void check_vars(char_u *name, int len); static typval_T *alloc_string_tv(char_u *string); static void delete_var(hashtab_T *ht, hashitem_T *hi); static void list_one_var(dictitem_T *v, char_u *prefix, int *first); static void list_one_var_a(char_u *prefix, char_u *name, int type, char_u *string, int *first); static char_u *find_option_end(char_u **arg, int *opt_flags); /* for VIM_VERSION_ defines */ #include "version.h" #if defined(EBCDIC) || defined(PROTO) /* * Compare struct fst by function name. */ static int compare_func_name(const void *s1, const void *s2) { struct fst *p1 = (struct fst *)s1; struct fst *p2 = (struct fst *)s2; return STRCMP(p1->f_name, p2->f_name); } /* * Sort the function table by function name. * The sorting of the table above is ASCII dependant. * On machines using EBCDIC we have to sort it. */ static void sortFunctions(void) { int funcCnt = (int)(sizeof(functions) / sizeof(struct fst)) - 1; qsort(functions, (size_t)funcCnt, sizeof(struct fst), compare_func_name); } #endif /* * Initialize the global and v: variables. */ void eval_init(void) { int i; struct vimvar *p; init_var_dict(&globvardict, &globvars_var, VAR_DEF_SCOPE); init_var_dict(&vimvardict, &vimvars_var, VAR_SCOPE); vimvardict.dv_lock = VAR_FIXED; hash_init(&compat_hashtab); func_init(); for (i = 0; i < VV_LEN; ++i) { p = &vimvars[i]; if (STRLEN(p->vv_name) > 16) { IEMSG("INTERNAL: name too long, increase size of dictitem16_T"); getout(1); } STRCPY(p->vv_di.di_key, p->vv_name); if (p->vv_flags & VV_RO) p->vv_di.di_flags = DI_FLAGS_RO | DI_FLAGS_FIX; else if (p->vv_flags & VV_RO_SBX) p->vv_di.di_flags = DI_FLAGS_RO_SBX | DI_FLAGS_FIX; else p->vv_di.di_flags = DI_FLAGS_FIX; /* add to v: scope dict, unless the value is not always available */ if (p->vv_type != VAR_UNKNOWN) hash_add(&vimvarht, p->vv_di.di_key); if (p->vv_flags & VV_COMPAT) /* add to compat scope dict */ hash_add(&compat_hashtab, p->vv_di.di_key); } vimvars[VV_VERSION].vv_nr = VIM_VERSION_100; set_vim_var_nr(VV_SEARCHFORWARD, 1L); set_vim_var_nr(VV_HLSEARCH, 1L); set_vim_var_dict(VV_COMPLETED_ITEM, dict_alloc_lock(VAR_FIXED)); set_vim_var_list(VV_ERRORS, list_alloc()); set_vim_var_dict(VV_EVENT, dict_alloc_lock(VAR_FIXED)); set_vim_var_nr(VV_FALSE, VVAL_FALSE); set_vim_var_nr(VV_TRUE, VVAL_TRUE); set_vim_var_nr(VV_NONE, VVAL_NONE); set_vim_var_nr(VV_NULL, VVAL_NULL); set_vim_var_nr(VV_TYPE_NUMBER, VAR_TYPE_NUMBER); set_vim_var_nr(VV_TYPE_STRING, VAR_TYPE_STRING); set_vim_var_nr(VV_TYPE_FUNC, VAR_TYPE_FUNC); set_vim_var_nr(VV_TYPE_LIST, VAR_TYPE_LIST); set_vim_var_nr(VV_TYPE_DICT, VAR_TYPE_DICT); set_vim_var_nr(VV_TYPE_FLOAT, VAR_TYPE_FLOAT); set_vim_var_nr(VV_TYPE_BOOL, VAR_TYPE_BOOL); set_vim_var_nr(VV_TYPE_NONE, VAR_TYPE_NONE); set_vim_var_nr(VV_TYPE_JOB, VAR_TYPE_JOB); set_vim_var_nr(VV_TYPE_CHANNEL, VAR_TYPE_CHANNEL); set_reg_var(0); /* default for v:register is not 0 but '"' */ #ifdef EBCDIC /* * Sort the function table, to enable binary search. */ sortFunctions(); #endif } #if defined(EXITFREE) || defined(PROTO) void eval_clear(void) { int i; struct vimvar *p; for (i = 0; i < VV_LEN; ++i) { p = &vimvars[i]; if (p->vv_di.di_tv.v_type == VAR_STRING) VIM_CLEAR(p->vv_str); else if (p->vv_di.di_tv.v_type == VAR_LIST) { list_unref(p->vv_list); p->vv_list = NULL; } } hash_clear(&vimvarht); hash_init(&vimvarht); /* garbage_collect() will access it */ hash_clear(&compat_hashtab); free_scriptnames(); # if defined(FEAT_CMDL_COMPL) free_locales(); # endif /* global variables */ vars_clear(&globvarht); /* autoloaded script names */ ga_clear_strings(&ga_loaded); /* Script-local variables. First clear all the variables and in a second * loop free the scriptvar_T, because a variable in one script might hold * a reference to the whole scope of another script. */ for (i = 1; i <= ga_scripts.ga_len; ++i) vars_clear(&SCRIPT_VARS(i)); for (i = 1; i <= ga_scripts.ga_len; ++i) vim_free(SCRIPT_SV(i)); ga_clear(&ga_scripts); /* unreferenced lists and dicts */ (void)garbage_collect(FALSE); /* functions */ free_all_functions(); } #endif /* * Set an internal variable to a string value. Creates the variable if it does * not already exist. */ void set_internal_string_var(char_u *name, char_u *value) { char_u *val; typval_T *tvp; val = vim_strsave(value); if (val != NULL) { tvp = alloc_string_tv(val); if (tvp != NULL) { set_var(name, tvp, FALSE); free_tv(tvp); } } } static lval_T *redir_lval = NULL; #define EVALCMD_BUSY (redir_lval == (lval_T *)&redir_lval) static garray_T redir_ga; /* only valid when redir_lval is not NULL */ static char_u *redir_endp = NULL; static char_u *redir_varname = NULL; /* * Start recording command output to a variable * When "append" is TRUE append to an existing variable. * Returns OK if successfully completed the setup. FAIL otherwise. */ int var_redir_start(char_u *name, int append) { int save_emsg; int err; typval_T tv; /* Catch a bad name early. */ if (!eval_isnamec1(*name)) { EMSG(_(e_invarg)); return FAIL; } /* Make a copy of the name, it is used in redir_lval until redir ends. */ redir_varname = vim_strsave(name); if (redir_varname == NULL) return FAIL; redir_lval = (lval_T *)alloc_clear((unsigned)sizeof(lval_T)); if (redir_lval == NULL) { var_redir_stop(); return FAIL; } /* The output is stored in growarray "redir_ga" until redirection ends. */ ga_init2(&redir_ga, (int)sizeof(char), 500); /* Parse the variable name (can be a dict or list entry). */ redir_endp = get_lval(redir_varname, NULL, redir_lval, FALSE, FALSE, 0, FNE_CHECK_START); if (redir_endp == NULL || redir_lval->ll_name == NULL || *redir_endp != NUL) { clear_lval(redir_lval); if (redir_endp != NULL && *redir_endp != NUL) /* Trailing characters are present after the variable name */ EMSG(_(e_trailing)); else EMSG(_(e_invarg)); redir_endp = NULL; /* don't store a value, only cleanup */ var_redir_stop(); return FAIL; } /* check if we can write to the variable: set it to or append an empty * string */ save_emsg = did_emsg; did_emsg = FALSE; tv.v_type = VAR_STRING; tv.vval.v_string = (char_u *)""; if (append) set_var_lval(redir_lval, redir_endp, &tv, TRUE, (char_u *)"."); else set_var_lval(redir_lval, redir_endp, &tv, TRUE, (char_u *)"="); clear_lval(redir_lval); err = did_emsg; did_emsg |= save_emsg; if (err) { redir_endp = NULL; /* don't store a value, only cleanup */ var_redir_stop(); return FAIL; } return OK; } /* * Append "value[value_len]" to the variable set by var_redir_start(). * The actual appending is postponed until redirection ends, because the value * appended may in fact be the string we write to, changing it may cause freed * memory to be used: * :redir => foo * :let foo * :redir END */ void var_redir_str(char_u *value, int value_len) { int len; if (redir_lval == NULL) return; if (value_len == -1) len = (int)STRLEN(value); /* Append the entire string */ else len = value_len; /* Append only "value_len" characters */ if (ga_grow(&redir_ga, len) == OK) { mch_memmove((char *)redir_ga.ga_data + redir_ga.ga_len, value, len); redir_ga.ga_len += len; } else var_redir_stop(); } /* * Stop redirecting command output to a variable. * Frees the allocated memory. */ void var_redir_stop(void) { typval_T tv; if (EVALCMD_BUSY) { redir_lval = NULL; return; } if (redir_lval != NULL) { /* If there was no error: assign the text to the variable. */ if (redir_endp != NULL) { ga_append(&redir_ga, NUL); /* Append the trailing NUL. */ tv.v_type = VAR_STRING; tv.vval.v_string = redir_ga.ga_data; /* Call get_lval() again, if it's inside a Dict or List it may * have changed. */ redir_endp = get_lval(redir_varname, NULL, redir_lval, FALSE, FALSE, 0, FNE_CHECK_START); if (redir_endp != NULL && redir_lval->ll_name != NULL) set_var_lval(redir_lval, redir_endp, &tv, FALSE, (char_u *)"."); clear_lval(redir_lval); } /* free the collected output */ VIM_CLEAR(redir_ga.ga_data); VIM_CLEAR(redir_lval); } VIM_CLEAR(redir_varname); } # if defined(FEAT_MBYTE) || defined(PROTO) int eval_charconvert( char_u *enc_from, char_u *enc_to, char_u *fname_from, char_u *fname_to) { int err = FALSE; set_vim_var_string(VV_CC_FROM, enc_from, -1); set_vim_var_string(VV_CC_TO, enc_to, -1); set_vim_var_string(VV_FNAME_IN, fname_from, -1); set_vim_var_string(VV_FNAME_OUT, fname_to, -1); if (eval_to_bool(p_ccv, &err, NULL, FALSE)) err = TRUE; set_vim_var_string(VV_CC_FROM, NULL, -1); set_vim_var_string(VV_CC_TO, NULL, -1); set_vim_var_string(VV_FNAME_IN, NULL, -1); set_vim_var_string(VV_FNAME_OUT, NULL, -1); if (err) return FAIL; return OK; } # endif # if defined(FEAT_POSTSCRIPT) || defined(PROTO) int eval_printexpr(char_u *fname, char_u *args) { int err = FALSE; set_vim_var_string(VV_FNAME_IN, fname, -1); set_vim_var_string(VV_CMDARG, args, -1); if (eval_to_bool(p_pexpr, &err, NULL, FALSE)) err = TRUE; set_vim_var_string(VV_FNAME_IN, NULL, -1); set_vim_var_string(VV_CMDARG, NULL, -1); if (err) { mch_remove(fname); return FAIL; } return OK; } # endif # if defined(FEAT_DIFF) || defined(PROTO) void eval_diff( char_u *origfile, char_u *newfile, char_u *outfile) { int err = FALSE; set_vim_var_string(VV_FNAME_IN, origfile, -1); set_vim_var_string(VV_FNAME_NEW, newfile, -1); set_vim_var_string(VV_FNAME_OUT, outfile, -1); (void)eval_to_bool(p_dex, &err, NULL, FALSE); set_vim_var_string(VV_FNAME_IN, NULL, -1); set_vim_var_string(VV_FNAME_NEW, NULL, -1); set_vim_var_string(VV_FNAME_OUT, NULL, -1); } void eval_patch( char_u *origfile, char_u *difffile, char_u *outfile) { int err; set_vim_var_string(VV_FNAME_IN, origfile, -1); set_vim_var_string(VV_FNAME_DIFF, difffile, -1); set_vim_var_string(VV_FNAME_OUT, outfile, -1); (void)eval_to_bool(p_pex, &err, NULL, FALSE); set_vim_var_string(VV_FNAME_IN, NULL, -1); set_vim_var_string(VV_FNAME_DIFF, NULL, -1); set_vim_var_string(VV_FNAME_OUT, NULL, -1); } # endif /* * Top level evaluation function, returning a boolean. * Sets "error" to TRUE if there was an error. * Return TRUE or FALSE. */ int eval_to_bool( char_u *arg, int *error, char_u **nextcmd, int skip) /* only parse, don't execute */ { typval_T tv; varnumber_T retval = FALSE; if (skip) ++emsg_skip; if (eval0(arg, &tv, nextcmd, !skip) == FAIL) *error = TRUE; else { *error = FALSE; if (!skip) { retval = (get_tv_number_chk(&tv, error) != 0); clear_tv(&tv); } } if (skip) --emsg_skip; return (int)retval; } static int eval_expr_typval(typval_T *expr, typval_T *argv, int argc, typval_T *rettv) { char_u *s; int dummy; char_u buf[NUMBUFLEN]; if (expr->v_type == VAR_FUNC) { s = expr->vval.v_string; if (s == NULL || *s == NUL) return FAIL; if (call_func(s, (int)STRLEN(s), rettv, argc, argv, NULL, 0L, 0L, &dummy, TRUE, NULL, NULL) == FAIL) return FAIL; } else if (expr->v_type == VAR_PARTIAL) { partial_T *partial = expr->vval.v_partial; s = partial_name(partial); if (s == NULL || *s == NUL) return FAIL; if (call_func(s, (int)STRLEN(s), rettv, argc, argv, NULL, 0L, 0L, &dummy, TRUE, partial, NULL) == FAIL) return FAIL; } else { s = get_tv_string_buf_chk(expr, buf); if (s == NULL) return FAIL; s = skipwhite(s); if (eval1(&s, rettv, TRUE) == FAIL) return FAIL; if (*s != NUL) /* check for trailing chars after expr */ { EMSG2(_(e_invexpr2), s); return FAIL; } } return OK; } /* * Like eval_to_bool() but using a typval_T instead of a string. * Works for string, funcref and partial. */ int eval_expr_to_bool(typval_T *expr, int *error) { typval_T rettv; int res; if (eval_expr_typval(expr, NULL, 0, &rettv) == FAIL) { *error = TRUE; return FALSE; } res = (get_tv_number_chk(&rettv, error) != 0); clear_tv(&rettv); return res; } /* * Top level evaluation function, returning a string. If "skip" is TRUE, * only parsing to "nextcmd" is done, without reporting errors. Return * pointer to allocated memory, or NULL for failure or when "skip" is TRUE. */ char_u * eval_to_string_skip( char_u *arg, char_u **nextcmd, int skip) /* only parse, don't execute */ { typval_T tv; char_u *retval; if (skip) ++emsg_skip; if (eval0(arg, &tv, nextcmd, !skip) == FAIL || skip) retval = NULL; else { retval = vim_strsave(get_tv_string(&tv)); clear_tv(&tv); } if (skip) --emsg_skip; return retval; } /* * Skip over an expression at "*pp". * Return FAIL for an error, OK otherwise. */ int skip_expr(char_u **pp) { typval_T rettv; *pp = skipwhite(*pp); return eval1(pp, &rettv, FALSE); } /* * Top level evaluation function, returning a string. * When "convert" is TRUE convert a List into a sequence of lines and convert * a Float to a String. * Return pointer to allocated memory, or NULL for failure. */ char_u * eval_to_string( char_u *arg, char_u **nextcmd, int convert) { typval_T tv; char_u *retval; garray_T ga; #ifdef FEAT_FLOAT char_u numbuf[NUMBUFLEN]; #endif if (eval0(arg, &tv, nextcmd, TRUE) == FAIL) retval = NULL; else { if (convert && tv.v_type == VAR_LIST) { ga_init2(&ga, (int)sizeof(char), 80); if (tv.vval.v_list != NULL) { list_join(&ga, tv.vval.v_list, (char_u *)"\n", TRUE, FALSE, 0); if (tv.vval.v_list->lv_len > 0) ga_append(&ga, NL); } ga_append(&ga, NUL); retval = (char_u *)ga.ga_data; } #ifdef FEAT_FLOAT else if (convert && tv.v_type == VAR_FLOAT) { vim_snprintf((char *)numbuf, NUMBUFLEN, "%g", tv.vval.v_float); retval = vim_strsave(numbuf); } #endif else retval = vim_strsave(get_tv_string(&tv)); clear_tv(&tv); } return retval; } /* * Call eval_to_string() without using current local variables and using * textlock. When "use_sandbox" is TRUE use the sandbox. */ char_u * eval_to_string_safe( char_u *arg, char_u **nextcmd, int use_sandbox) { char_u *retval; void *save_funccalp; save_funccalp = save_funccal(); if (use_sandbox) ++sandbox; ++textlock; retval = eval_to_string(arg, nextcmd, FALSE); if (use_sandbox) --sandbox; --textlock; restore_funccal(save_funccalp); return retval; } /* * Top level evaluation function, returning a number. * Evaluates "expr" silently. * Returns -1 for an error. */ varnumber_T eval_to_number(char_u *expr) { typval_T rettv; varnumber_T retval; char_u *p = skipwhite(expr); ++emsg_off; if (eval1(&p, &rettv, TRUE) == FAIL) retval = -1; else { retval = get_tv_number_chk(&rettv, NULL); clear_tv(&rettv); } --emsg_off; return retval; } /* * Prepare v: variable "idx" to be used. * Save the current typeval in "save_tv". * When not used yet add the variable to the v: hashtable. */ static void prepare_vimvar(int idx, typval_T *save_tv) { *save_tv = vimvars[idx].vv_tv; if (vimvars[idx].vv_type == VAR_UNKNOWN) hash_add(&vimvarht, vimvars[idx].vv_di.di_key); } /* * Restore v: variable "idx" to typeval "save_tv". * When no longer defined, remove the variable from the v: hashtable. */ static void restore_vimvar(int idx, typval_T *save_tv) { hashitem_T *hi; vimvars[idx].vv_tv = *save_tv; if (vimvars[idx].vv_type == VAR_UNKNOWN) { hi = hash_find(&vimvarht, vimvars[idx].vv_di.di_key); if (HASHITEM_EMPTY(hi)) internal_error("restore_vimvar()"); else hash_remove(&vimvarht, hi); } } #if defined(FEAT_SPELL) || defined(PROTO) /* * Evaluate an expression to a list with suggestions. * For the "expr:" part of 'spellsuggest'. * Returns NULL when there is an error. */ list_T * eval_spell_expr(char_u *badword, char_u *expr) { typval_T save_val; typval_T rettv; list_T *list = NULL; char_u *p = skipwhite(expr); /* Set "v:val" to the bad word. */ prepare_vimvar(VV_VAL, &save_val); vimvars[VV_VAL].vv_type = VAR_STRING; vimvars[VV_VAL].vv_str = badword; if (p_verbose == 0) ++emsg_off; if (eval1(&p, &rettv, TRUE) == OK) { if (rettv.v_type != VAR_LIST) clear_tv(&rettv); else list = rettv.vval.v_list; } if (p_verbose == 0) --emsg_off; restore_vimvar(VV_VAL, &save_val); return list; } /* * "list" is supposed to contain two items: a word and a number. Return the * word in "pp" and the number as the return value. * Return -1 if anything isn't right. * Used to get the good word and score from the eval_spell_expr() result. */ int get_spellword(list_T *list, char_u **pp) { listitem_T *li; li = list->lv_first; if (li == NULL) return -1; *pp = get_tv_string(&li->li_tv); li = li->li_next; if (li == NULL) return -1; return (int)get_tv_number(&li->li_tv); } #endif /* * Top level evaluation function. * Returns an allocated typval_T with the result. * Returns NULL when there is an error. */ typval_T * eval_expr(char_u *arg, char_u **nextcmd) { typval_T *tv; tv = (typval_T *)alloc(sizeof(typval_T)); if (tv != NULL && eval0(arg, tv, nextcmd, TRUE) == FAIL) VIM_CLEAR(tv); return tv; } /* * Call some Vim script function and return the result in "*rettv". * Uses argv[argc] for the function arguments. Only Number and String * arguments are currently supported. * Returns OK or FAIL. */ int call_vim_function( char_u *func, int argc, char_u **argv, int safe, /* use the sandbox */ int str_arg_only, /* all arguments are strings */ typval_T *rettv) { typval_T *argvars; varnumber_T n; int len; int i; int doesrange; void *save_funccalp = NULL; int ret; argvars = (typval_T *)alloc((unsigned)((argc + 1) * sizeof(typval_T))); if (argvars == NULL) return FAIL; for (i = 0; i < argc; i++) { /* Pass a NULL or empty argument as an empty string */ if (argv[i] == NULL || *argv[i] == NUL) { argvars[i].v_type = VAR_STRING; argvars[i].vval.v_string = (char_u *)""; continue; } if (str_arg_only) len = 0; else { /* Recognize a number argument, the others must be strings. A dash * is a string too. */ vim_str2nr(argv[i], NULL, &len, STR2NR_ALL, &n, NULL, 0); if (len == 1 && *argv[i] == '-') len = 0; } if (len != 0 && len == (int)STRLEN(argv[i])) { argvars[i].v_type = VAR_NUMBER; argvars[i].vval.v_number = n; } else { argvars[i].v_type = VAR_STRING; argvars[i].vval.v_string = argv[i]; } } if (safe) { save_funccalp = save_funccal(); ++sandbox; } rettv->v_type = VAR_UNKNOWN; /* clear_tv() uses this */ ret = call_func(func, (int)STRLEN(func), rettv, argc, argvars, NULL, curwin->w_cursor.lnum, curwin->w_cursor.lnum, &doesrange, TRUE, NULL, NULL); if (safe) { --sandbox; restore_funccal(save_funccalp); } vim_free(argvars); if (ret == FAIL) clear_tv(rettv); return ret; } /* * Call Vim script function "func" and return the result as a number. * Returns -1 when calling the function fails. * Uses argv[argc] for the function arguments. */ varnumber_T call_func_retnr( char_u *func, int argc, char_u **argv, int safe) /* use the sandbox */ { typval_T rettv; varnumber_T retval; /* All arguments are passed as strings, no conversion to number. */ if (call_vim_function(func, argc, argv, safe, TRUE, &rettv) == FAIL) return -1; retval = get_tv_number_chk(&rettv, NULL); clear_tv(&rettv); return retval; } #if (defined(FEAT_USR_CMDS) && defined(FEAT_CMDL_COMPL)) \ || defined(FEAT_COMPL_FUNC) || defined(PROTO) # if (defined(FEAT_USR_CMDS) && defined(FEAT_CMDL_COMPL)) || defined(PROTO) /* * Call Vim script function "func" and return the result as a string. * Returns NULL when calling the function fails. * Uses argv[argc] for the function arguments. */ void * call_func_retstr( char_u *func, int argc, char_u **argv, int safe) /* use the sandbox */ { typval_T rettv; char_u *retval; /* All arguments are passed as strings, no conversion to number. */ if (call_vim_function(func, argc, argv, safe, TRUE, &rettv) == FAIL) return NULL; retval = vim_strsave(get_tv_string(&rettv)); clear_tv(&rettv); return retval; } # endif /* * Call Vim script function "func" and return the result as a List. * Uses argv[argc] for the function arguments. * Returns NULL when there is something wrong. */ void * call_func_retlist( char_u *func, int argc, char_u **argv, int safe) /* use the sandbox */ { typval_T rettv; /* All arguments are passed as strings, no conversion to number. */ if (call_vim_function(func, argc, argv, safe, TRUE, &rettv) == FAIL) return NULL; if (rettv.v_type != VAR_LIST) { clear_tv(&rettv); return NULL; } return rettv.vval.v_list; } #endif #ifdef FEAT_FOLDING /* * Evaluate 'foldexpr'. Returns the foldlevel, and any character preceding * it in "*cp". Doesn't give error messages. */ int eval_foldexpr(char_u *arg, int *cp) { typval_T tv; varnumber_T retval; char_u *s; int use_sandbox = was_set_insecurely((char_u *)"foldexpr", OPT_LOCAL); ++emsg_off; if (use_sandbox) ++sandbox; ++textlock; *cp = NUL; if (eval0(arg, &tv, NULL, TRUE) == FAIL) retval = 0; else { /* If the result is a number, just return the number. */ if (tv.v_type == VAR_NUMBER) retval = tv.vval.v_number; else if (tv.v_type != VAR_STRING || tv.vval.v_string == NULL) retval = 0; else { /* If the result is a string, check if there is a non-digit before * the number. */ s = tv.vval.v_string; if (!VIM_ISDIGIT(*s) && *s != '-') *cp = *s++; retval = atol((char *)s); } clear_tv(&tv); } --emsg_off; if (use_sandbox) --sandbox; --textlock; return (int)retval; } #endif /* * ":let" list all variable values * ":let var1 var2" list variable values * ":let var = expr" assignment command. * ":let var += expr" assignment command. * ":let var -= expr" assignment command. * ":let var .= expr" assignment command. * ":let [var1, var2] = expr" unpack list. */ void ex_let(exarg_T *eap) { char_u *arg = eap->arg; char_u *expr = NULL; typval_T rettv; int i; int var_count = 0; int semicolon = 0; char_u op[2]; char_u *argend; int first = TRUE; argend = skip_var_list(arg, &var_count, &semicolon); if (argend == NULL) return; if (argend > arg && argend[-1] == '.') /* for var.='str' */ --argend; expr = skipwhite(argend); if (*expr != '=' && !(vim_strchr((char_u *)"+-.", *expr) != NULL && expr[1] == '=')) { /* * ":let" without "=": list variables */ if (*arg == '[') EMSG(_(e_invarg)); else if (!ends_excmd(*arg)) /* ":let var1 var2" */ arg = list_arg_vars(eap, arg, &first); else if (!eap->skip) { /* ":let" */ list_glob_vars(&first); list_buf_vars(&first); list_win_vars(&first); list_tab_vars(&first); list_script_vars(&first); list_func_vars(&first); list_vim_vars(&first); } eap->nextcmd = check_nextcmd(arg); } else { op[0] = '='; op[1] = NUL; if (*expr != '=') { if (vim_strchr((char_u *)"+-.", *expr) != NULL) op[0] = *expr; /* +=, -= or .= */ expr = skipwhite(expr + 2); } else expr = skipwhite(expr + 1); if (eap->skip) ++emsg_skip; i = eval0(expr, &rettv, &eap->nextcmd, !eap->skip); if (eap->skip) { if (i != FAIL) clear_tv(&rettv); --emsg_skip; } else if (i != FAIL) { (void)ex_let_vars(eap->arg, &rettv, FALSE, semicolon, var_count, op); clear_tv(&rettv); } } } /* * Assign the typevalue "tv" to the variable or variables at "arg_start". * Handles both "var" with any type and "[var, var; var]" with a list type. * When "nextchars" is not NULL it points to a string with characters that * must appear after the variable(s). Use "+", "-" or "." for add, subtract * or concatenate. * Returns OK or FAIL; */ static int ex_let_vars( char_u *arg_start, typval_T *tv, int copy, /* copy values from "tv", don't move */ int semicolon, /* from skip_var_list() */ int var_count, /* from skip_var_list() */ char_u *nextchars) { char_u *arg = arg_start; list_T *l; int i; listitem_T *item; typval_T ltv; if (*arg != '[') { /* * ":let var = expr" or ":for var in list" */ if (ex_let_one(arg, tv, copy, nextchars, nextchars) == NULL) return FAIL; return OK; } /* * ":let [v1, v2] = list" or ":for [v1, v2] in listlist" */ if (tv->v_type != VAR_LIST || (l = tv->vval.v_list) == NULL) { EMSG(_(e_listreq)); return FAIL; } i = list_len(l); if (semicolon == 0 && var_count < i) { EMSG(_("E687: Less targets than List items")); return FAIL; } if (var_count - semicolon > i) { EMSG(_("E688: More targets than List items")); return FAIL; } item = l->lv_first; while (*arg != ']') { arg = skipwhite(arg + 1); arg = ex_let_one(arg, &item->li_tv, TRUE, (char_u *)",;]", nextchars); item = item->li_next; if (arg == NULL) return FAIL; arg = skipwhite(arg); if (*arg == ';') { /* Put the rest of the list (may be empty) in the var after ';'. * Create a new list for this. */ l = list_alloc(); if (l == NULL) return FAIL; while (item != NULL) { list_append_tv(l, &item->li_tv); item = item->li_next; } ltv.v_type = VAR_LIST; ltv.v_lock = 0; ltv.vval.v_list = l; l->lv_refcount = 1; arg = ex_let_one(skipwhite(arg + 1), <v, FALSE, (char_u *)"]", nextchars); clear_tv(<v); if (arg == NULL) return FAIL; break; } else if (*arg != ',' && *arg != ']') { internal_error("ex_let_vars()"); return FAIL; } } return OK; } /* * Skip over assignable variable "var" or list of variables "[var, var]". * Used for ":let varvar = expr" and ":for varvar in expr". * For "[var, var]" increment "*var_count" for each variable. * for "[var, var; var]" set "semicolon". * Return NULL for an error. */ static char_u * skip_var_list( char_u *arg, int *var_count, int *semicolon) { char_u *p, *s; if (*arg == '[') { /* "[var, var]": find the matching ']'. */ p = arg; for (;;) { p = skipwhite(p + 1); /* skip whites after '[', ';' or ',' */ s = skip_var_one(p); if (s == p) { EMSG2(_(e_invarg2), p); return NULL; } ++*var_count; p = skipwhite(s); if (*p == ']') break; else if (*p == ';') { if (*semicolon == 1) { EMSG(_("Double ; in list of variables")); return NULL; } *semicolon = 1; } else if (*p != ',') { EMSG2(_(e_invarg2), p); return NULL; } } return p + 1; } else return skip_var_one(arg); } /* * Skip one (assignable) variable name, including @r, $VAR, &option, d.key, * l[idx]. */ static char_u * skip_var_one(char_u *arg) { if (*arg == '@' && arg[1] != NUL) return arg + 2; return find_name_end(*arg == '$' || *arg == '&' ? arg + 1 : arg, NULL, NULL, FNE_INCL_BR | FNE_CHECK_START); } /* * List variables for hashtab "ht" with prefix "prefix". * If "empty" is TRUE also list NULL strings as empty strings. */ void list_hashtable_vars( hashtab_T *ht, char_u *prefix, int empty, int *first) { hashitem_T *hi; dictitem_T *di; int todo; todo = (int)ht->ht_used; for (hi = ht->ht_array; todo > 0 && !got_int; ++hi) { if (!HASHITEM_EMPTY(hi)) { --todo; di = HI2DI(hi); if (empty || di->di_tv.v_type != VAR_STRING || di->di_tv.vval.v_string != NULL) list_one_var(di, prefix, first); } } } /* * List global variables. */ static void list_glob_vars(int *first) { list_hashtable_vars(&globvarht, (char_u *)"", TRUE, first); } /* * List buffer variables. */ static void list_buf_vars(int *first) { list_hashtable_vars(&curbuf->b_vars->dv_hashtab, (char_u *)"b:", TRUE, first); } /* * List window variables. */ static void list_win_vars(int *first) { list_hashtable_vars(&curwin->w_vars->dv_hashtab, (char_u *)"w:", TRUE, first); } /* * List tab page variables. */ static void list_tab_vars(int *first) { list_hashtable_vars(&curtab->tp_vars->dv_hashtab, (char_u *)"t:", TRUE, first); } /* * List Vim variables. */ static void list_vim_vars(int *first) { list_hashtable_vars(&vimvarht, (char_u *)"v:", FALSE, first); } /* * List script-local variables, if there is a script. */ static void list_script_vars(int *first) { if (current_SID > 0 && current_SID <= ga_scripts.ga_len) list_hashtable_vars(&SCRIPT_VARS(current_SID), (char_u *)"s:", FALSE, first); } /* * List variables in "arg". */ static char_u * list_arg_vars(exarg_T *eap, char_u *arg, int *first) { int error = FALSE; int len; char_u *name; char_u *name_start; char_u *arg_subsc; char_u *tofree; typval_T tv; while (!ends_excmd(*arg) && !got_int) { if (error || eap->skip) { arg = find_name_end(arg, NULL, NULL, FNE_INCL_BR | FNE_CHECK_START); if (!VIM_ISWHITE(*arg) && !ends_excmd(*arg)) { emsg_severe = TRUE; EMSG(_(e_trailing)); break; } } else { /* get_name_len() takes care of expanding curly braces */ name_start = name = arg; len = get_name_len(&arg, &tofree, TRUE, TRUE); if (len <= 0) { /* This is mainly to keep test 49 working: when expanding * curly braces fails overrule the exception error message. */ if (len < 0 && !aborting()) { emsg_severe = TRUE; EMSG2(_(e_invarg2), arg); break; } error = TRUE; } else { if (tofree != NULL) name = tofree; if (get_var_tv(name, len, &tv, NULL, TRUE, FALSE) == FAIL) error = TRUE; else { /* handle d.key, l[idx], f(expr) */ arg_subsc = arg; if (handle_subscript(&arg, &tv, TRUE, TRUE) == FAIL) error = TRUE; else { if (arg == arg_subsc && len == 2 && name[1] == ':') { switch (*name) { case 'g': list_glob_vars(first); break; case 'b': list_buf_vars(first); break; case 'w': list_win_vars(first); break; case 't': list_tab_vars(first); break; case 'v': list_vim_vars(first); break; case 's': list_script_vars(first); break; case 'l': list_func_vars(first); break; default: EMSG2(_("E738: Can't list variables for %s"), name); } } else { char_u numbuf[NUMBUFLEN]; char_u *tf; int c; char_u *s; s = echo_string(&tv, &tf, numbuf, 0); c = *arg; *arg = NUL; list_one_var_a((char_u *)"", arg == arg_subsc ? name : name_start, tv.v_type, s == NULL ? (char_u *)"" : s, first); *arg = c; vim_free(tf); } clear_tv(&tv); } } } vim_free(tofree); } arg = skipwhite(arg); } return arg; } /* * Set one item of ":let var = expr" or ":let [v1, v2] = list" to its value. * Returns a pointer to the char just after the var name. * Returns NULL if there is an error. */ static char_u * ex_let_one( char_u *arg, /* points to variable name */ typval_T *tv, /* value to assign to variable */ int copy, /* copy value from "tv" */ char_u *endchars, /* valid chars after variable name or NULL */ char_u *op) /* "+", "-", "." or NULL*/ { int c1; char_u *name; char_u *p; char_u *arg_end = NULL; int len; int opt_flags; char_u *tofree = NULL; /* * ":let $VAR = expr": Set environment variable. */ if (*arg == '$') { /* Find the end of the name. */ ++arg; name = arg; len = get_env_len(&arg); if (len == 0) EMSG2(_(e_invarg2), name - 1); else { if (op != NULL && (*op == '+' || *op == '-')) EMSG2(_(e_letwrong), op); else if (endchars != NULL && vim_strchr(endchars, *skipwhite(arg)) == NULL) EMSG(_(e_letunexp)); else if (!check_secure()) { c1 = name[len]; name[len] = NUL; p = get_tv_string_chk(tv); if (p != NULL && op != NULL && *op == '.') { int mustfree = FALSE; char_u *s = vim_getenv(name, &mustfree); if (s != NULL) { p = tofree = concat_str(s, p); if (mustfree) vim_free(s); } } if (p != NULL) { vim_setenv(name, p); if (STRICMP(name, "HOME") == 0) init_homedir(); else if (didset_vim && STRICMP(name, "VIM") == 0) didset_vim = FALSE; else if (didset_vimruntime && STRICMP(name, "VIMRUNTIME") == 0) didset_vimruntime = FALSE; arg_end = arg; } name[len] = c1; vim_free(tofree); } } } /* * ":let &option = expr": Set option value. * ":let &l:option = expr": Set local option value. * ":let &g:option = expr": Set global option value. */ else if (*arg == '&') { /* Find the end of the name. */ p = find_option_end(&arg, &opt_flags); if (p == NULL || (endchars != NULL && vim_strchr(endchars, *skipwhite(p)) == NULL)) EMSG(_(e_letunexp)); else { long n; int opt_type; long numval; char_u *stringval = NULL; char_u *s; c1 = *p; *p = NUL; n = (long)get_tv_number(tv); s = get_tv_string_chk(tv); /* != NULL if number or string */ if (s != NULL && op != NULL && *op != '=') { opt_type = get_option_value(arg, &numval, &stringval, opt_flags); if ((opt_type == 1 && *op == '.') || (opt_type == 0 && *op != '.')) { EMSG2(_(e_letwrong), op); s = NULL; /* don't set the value */ } else { if (opt_type == 1) /* number */ { if (*op == '+') n = numval + n; else n = numval - n; } else if (opt_type == 0 && stringval != NULL) /* string */ { s = concat_str(stringval, s); vim_free(stringval); stringval = s; } } } if (s != NULL) { set_option_value(arg, n, s, opt_flags); arg_end = p; } *p = c1; vim_free(stringval); } } /* * ":let @r = expr": Set register contents. */ else if (*arg == '@') { ++arg; if (op != NULL && (*op == '+' || *op == '-')) EMSG2(_(e_letwrong), op); else if (endchars != NULL && vim_strchr(endchars, *skipwhite(arg + 1)) == NULL) EMSG(_(e_letunexp)); else { char_u *ptofree = NULL; char_u *s; p = get_tv_string_chk(tv); if (p != NULL && op != NULL && *op == '.') { s = get_reg_contents(*arg == '@' ? '"' : *arg, GREG_EXPR_SRC); if (s != NULL) { p = ptofree = concat_str(s, p); vim_free(s); } } if (p != NULL) { write_reg_contents(*arg == '@' ? '"' : *arg, p, -1, FALSE); arg_end = arg + 1; } vim_free(ptofree); } } /* * ":let var = expr": Set internal variable. * ":let {expr} = expr": Idem, name made with curly braces */ else if (eval_isnamec1(*arg) || *arg == '{') { lval_T lv; p = get_lval(arg, tv, &lv, FALSE, FALSE, 0, FNE_CHECK_START); if (p != NULL && lv.ll_name != NULL) { if (endchars != NULL && vim_strchr(endchars, *skipwhite(p)) == NULL) EMSG(_(e_letunexp)); else { set_var_lval(&lv, p, tv, copy, op); arg_end = p; } } clear_lval(&lv); } else EMSG2(_(e_invarg2), arg); return arg_end; } /* * Get an lval: variable, Dict item or List item that can be assigned a value * to: "name", "na{me}", "name[expr]", "name[expr:expr]", "name[expr][expr]", * "name.key", "name.key[expr]" etc. * Indexing only works if "name" is an existing List or Dictionary. * "name" points to the start of the name. * If "rettv" is not NULL it points to the value to be assigned. * "unlet" is TRUE for ":unlet": slightly different behavior when something is * wrong; must end in space or cmd separator. * * flags: * GLV_QUIET: do not give error messages * GLV_READ_ONLY: will not change the variable * GLV_NO_AUTOLOAD: do not use script autoloading * * Returns a pointer to just after the name, including indexes. * When an evaluation error occurs "lp->ll_name" is NULL; * Returns NULL for a parsing error. Still need to free items in "lp"! */ char_u * get_lval( char_u *name, typval_T *rettv, lval_T *lp, int unlet, int skip, int flags, /* GLV_ values */ int fne_flags) /* flags for find_name_end() */ { char_u *p; char_u *expr_start, *expr_end; int cc; dictitem_T *v; typval_T var1; typval_T var2; int empty1 = FALSE; listitem_T *ni; char_u *key = NULL; int len; hashtab_T *ht; int quiet = flags & GLV_QUIET; /* Clear everything in "lp". */ vim_memset(lp, 0, sizeof(lval_T)); if (skip) { /* When skipping just find the end of the name. */ lp->ll_name = name; return find_name_end(name, NULL, NULL, FNE_INCL_BR | fne_flags); } /* Find the end of the name. */ p = find_name_end(name, &expr_start, &expr_end, fne_flags); if (expr_start != NULL) { /* Don't expand the name when we already know there is an error. */ if (unlet && !VIM_ISWHITE(*p) && !ends_excmd(*p) && *p != '[' && *p != '.') { EMSG(_(e_trailing)); return NULL; } lp->ll_exp_name = make_expanded_name(name, expr_start, expr_end, p); if (lp->ll_exp_name == NULL) { /* Report an invalid expression in braces, unless the * expression evaluation has been cancelled due to an * aborting error, an interrupt, or an exception. */ if (!aborting() && !quiet) { emsg_severe = TRUE; EMSG2(_(e_invarg2), name); return NULL; } } lp->ll_name = lp->ll_exp_name; } else lp->ll_name = name; /* Without [idx] or .key we are done. */ if ((*p != '[' && *p != '.') || lp->ll_name == NULL) return p; cc = *p; *p = NUL; /* Only pass &ht when we would write to the variable, it prevents autoload * as well. */ v = find_var(lp->ll_name, (flags & GLV_READ_ONLY) ? NULL : &ht, flags & GLV_NO_AUTOLOAD); if (v == NULL && !quiet) EMSG2(_(e_undefvar), lp->ll_name); *p = cc; if (v == NULL) return NULL; /* * Loop until no more [idx] or .key is following. */ lp->ll_tv = &v->di_tv; var1.v_type = VAR_UNKNOWN; var2.v_type = VAR_UNKNOWN; while (*p == '[' || (*p == '.' && lp->ll_tv->v_type == VAR_DICT)) { if (!(lp->ll_tv->v_type == VAR_LIST && lp->ll_tv->vval.v_list != NULL) && !(lp->ll_tv->v_type == VAR_DICT && lp->ll_tv->vval.v_dict != NULL)) { if (!quiet) EMSG(_("E689: Can only index a List or Dictionary")); return NULL; } if (lp->ll_range) { if (!quiet) EMSG(_("E708: [:] must come last")); return NULL; } len = -1; if (*p == '.') { key = p + 1; for (len = 0; ASCII_ISALNUM(key[len]) || key[len] == '_'; ++len) ; if (len == 0) { if (!quiet) EMSG(_(e_emptykey)); return NULL; } p = key + len; } else { /* Get the index [expr] or the first index [expr: ]. */ p = skipwhite(p + 1); if (*p == ':') empty1 = TRUE; else { empty1 = FALSE; if (eval1(&p, &var1, TRUE) == FAIL) /* recursive! */ return NULL; if (get_tv_string_chk(&var1) == NULL) { /* not a number or string */ clear_tv(&var1); return NULL; } } /* Optionally get the second index [ :expr]. */ if (*p == ':') { if (lp->ll_tv->v_type == VAR_DICT) { if (!quiet) EMSG(_(e_dictrange)); clear_tv(&var1); return NULL; } if (rettv != NULL && (rettv->v_type != VAR_LIST || rettv->vval.v_list == NULL)) { if (!quiet) EMSG(_("E709: [:] requires a List value")); clear_tv(&var1); return NULL; } p = skipwhite(p + 1); if (*p == ']') lp->ll_empty2 = TRUE; else { lp->ll_empty2 = FALSE; if (eval1(&p, &var2, TRUE) == FAIL) /* recursive! */ { clear_tv(&var1); return NULL; } if (get_tv_string_chk(&var2) == NULL) { /* not a number or string */ clear_tv(&var1); clear_tv(&var2); return NULL; } } lp->ll_range = TRUE; } else lp->ll_range = FALSE; if (*p != ']') { if (!quiet) EMSG(_(e_missbrac)); clear_tv(&var1); clear_tv(&var2); return NULL; } /* Skip to past ']'. */ ++p; } if (lp->ll_tv->v_type == VAR_DICT) { if (len == -1) { /* "[key]": get key from "var1" */ key = get_tv_string_chk(&var1); /* is number or string */ if (key == NULL) { clear_tv(&var1); return NULL; } } lp->ll_list = NULL; lp->ll_dict = lp->ll_tv->vval.v_dict; lp->ll_di = dict_find(lp->ll_dict, key, len); /* When assigning to a scope dictionary check that a function and * variable name is valid (only variable name unless it is l: or * g: dictionary). Disallow overwriting a builtin function. */ if (rettv != NULL && lp->ll_dict->dv_scope != 0) { int prevval; int wrong; if (len != -1) { prevval = key[len]; key[len] = NUL; } else prevval = 0; /* avoid compiler warning */ wrong = (lp->ll_dict->dv_scope == VAR_DEF_SCOPE && rettv->v_type == VAR_FUNC && var_check_func_name(key, lp->ll_di == NULL)) || !valid_varname(key); if (len != -1) key[len] = prevval; if (wrong) return NULL; } if (lp->ll_di == NULL) { /* Can't add "v:" variable. */ if (lp->ll_dict == &vimvardict) { EMSG2(_(e_illvar), name); return NULL; } /* Key does not exist in dict: may need to add it. */ if (*p == '[' || *p == '.' || unlet) { if (!quiet) EMSG2(_(e_dictkey), key); clear_tv(&var1); return NULL; } if (len == -1) lp->ll_newkey = vim_strsave(key); else lp->ll_newkey = vim_strnsave(key, len); clear_tv(&var1); if (lp->ll_newkey == NULL) p = NULL; break; } /* existing variable, need to check if it can be changed */ else if ((flags & GLV_READ_ONLY) == 0 && var_check_ro(lp->ll_di->di_flags, name, FALSE)) { clear_tv(&var1); return NULL; } clear_tv(&var1); lp->ll_tv = &lp->ll_di->di_tv; } else { /* * Get the number and item for the only or first index of the List. */ if (empty1) lp->ll_n1 = 0; else /* is number or string */ lp->ll_n1 = (long)get_tv_number(&var1); clear_tv(&var1); lp->ll_dict = NULL; lp->ll_list = lp->ll_tv->vval.v_list; lp->ll_li = list_find(lp->ll_list, lp->ll_n1); if (lp->ll_li == NULL) { if (lp->ll_n1 < 0) { lp->ll_n1 = 0; lp->ll_li = list_find(lp->ll_list, lp->ll_n1); } } if (lp->ll_li == NULL) { clear_tv(&var2); if (!quiet) EMSGN(_(e_listidx), lp->ll_n1); return NULL; } /* * May need to find the item or absolute index for the second * index of a range. * When no index given: "lp->ll_empty2" is TRUE. * Otherwise "lp->ll_n2" is set to the second index. */ if (lp->ll_range && !lp->ll_empty2) { lp->ll_n2 = (long)get_tv_number(&var2); /* is number or string */ clear_tv(&var2); if (lp->ll_n2 < 0) { ni = list_find(lp->ll_list, lp->ll_n2); if (ni == NULL) { if (!quiet) EMSGN(_(e_listidx), lp->ll_n2); return NULL; } lp->ll_n2 = list_idx_of_item(lp->ll_list, ni); } /* Check that lp->ll_n2 isn't before lp->ll_n1. */ if (lp->ll_n1 < 0) lp->ll_n1 = list_idx_of_item(lp->ll_list, lp->ll_li); if (lp->ll_n2 < lp->ll_n1) { if (!quiet) EMSGN(_(e_listidx), lp->ll_n2); return NULL; } } lp->ll_tv = &lp->ll_li->li_tv; } } clear_tv(&var1); return p; } /* * Clear lval "lp" that was filled by get_lval(). */ void clear_lval(lval_T *lp) { vim_free(lp->ll_exp_name); vim_free(lp->ll_newkey); } /* * Set a variable that was parsed by get_lval() to "rettv". * "endp" points to just after the parsed name. * "op" is NULL, "+" for "+=", "-" for "-=", "." for ".=" or "=" for "=". */ static void set_var_lval( lval_T *lp, char_u *endp, typval_T *rettv, int copy, char_u *op) { int cc; listitem_T *ri; dictitem_T *di; if (lp->ll_tv == NULL) { cc = *endp; *endp = NUL; if (op != NULL && *op != '=') { typval_T tv; /* handle +=, -= and .= */ di = NULL; if (get_var_tv(lp->ll_name, (int)STRLEN(lp->ll_name), &tv, &di, TRUE, FALSE) == OK) { if ((di == NULL || (!var_check_ro(di->di_flags, lp->ll_name, FALSE) && !tv_check_lock(di->di_tv.v_lock, lp->ll_name, FALSE))) && tv_op(&tv, rettv, op) == OK) set_var(lp->ll_name, &tv, FALSE); clear_tv(&tv); } } else set_var(lp->ll_name, rettv, copy); *endp = cc; } else if (tv_check_lock(lp->ll_newkey == NULL ? lp->ll_tv->v_lock : lp->ll_tv->vval.v_dict->dv_lock, lp->ll_name, FALSE)) ; else if (lp->ll_range) { listitem_T *ll_li = lp->ll_li; int ll_n1 = lp->ll_n1; /* * Check whether any of the list items is locked */ for (ri = rettv->vval.v_list->lv_first; ri != NULL && ll_li != NULL; ) { if (tv_check_lock(ll_li->li_tv.v_lock, lp->ll_name, FALSE)) return; ri = ri->li_next; if (ri == NULL || (!lp->ll_empty2 && lp->ll_n2 == ll_n1)) break; ll_li = ll_li->li_next; ++ll_n1; } /* * Assign the List values to the list items. */ for (ri = rettv->vval.v_list->lv_first; ri != NULL; ) { if (op != NULL && *op != '=') tv_op(&lp->ll_li->li_tv, &ri->li_tv, op); else { clear_tv(&lp->ll_li->li_tv); copy_tv(&ri->li_tv, &lp->ll_li->li_tv); } ri = ri->li_next; if (ri == NULL || (!lp->ll_empty2 && lp->ll_n2 == lp->ll_n1)) break; if (lp->ll_li->li_next == NULL) { /* Need to add an empty item. */ if (list_append_number(lp->ll_list, 0) == FAIL) { ri = NULL; break; } } lp->ll_li = lp->ll_li->li_next; ++lp->ll_n1; } if (ri != NULL) EMSG(_("E710: List value has more items than target")); else if (lp->ll_empty2 ? (lp->ll_li != NULL && lp->ll_li->li_next != NULL) : lp->ll_n1 != lp->ll_n2) EMSG(_("E711: List value has not enough items")); } else { /* * Assign to a List or Dictionary item. */ if (lp->ll_newkey != NULL) { if (op != NULL && *op != '=') { EMSG2(_(e_letwrong), op); return; } /* Need to add an item to the Dictionary. */ di = dictitem_alloc(lp->ll_newkey); if (di == NULL) return; if (dict_add(lp->ll_tv->vval.v_dict, di) == FAIL) { vim_free(di); return; } lp->ll_tv = &di->di_tv; } else if (op != NULL && *op != '=') { tv_op(lp->ll_tv, rettv, op); return; } else clear_tv(lp->ll_tv); /* * Assign the value to the variable or list item. */ if (copy) copy_tv(rettv, lp->ll_tv); else { *lp->ll_tv = *rettv; lp->ll_tv->v_lock = 0; init_tv(rettv); } } } /* * Handle "tv1 += tv2", "tv1 -= tv2" and "tv1 .= tv2" * Returns OK or FAIL. */ static int tv_op(typval_T *tv1, typval_T *tv2, char_u *op) { varnumber_T n; char_u numbuf[NUMBUFLEN]; char_u *s; /* Can't do anything with a Funcref, Dict, v:true on the right. */ if (tv2->v_type != VAR_FUNC && tv2->v_type != VAR_DICT && tv2->v_type != VAR_SPECIAL) { switch (tv1->v_type) { case VAR_UNKNOWN: case VAR_DICT: case VAR_FUNC: case VAR_PARTIAL: case VAR_SPECIAL: case VAR_JOB: case VAR_CHANNEL: break; case VAR_LIST: if (*op != '+' || tv2->v_type != VAR_LIST) break; /* List += List */ if (tv1->vval.v_list != NULL && tv2->vval.v_list != NULL) list_extend(tv1->vval.v_list, tv2->vval.v_list, NULL); return OK; case VAR_NUMBER: case VAR_STRING: if (tv2->v_type == VAR_LIST) break; if (*op == '+' || *op == '-') { /* nr += nr or nr -= nr*/ n = get_tv_number(tv1); #ifdef FEAT_FLOAT if (tv2->v_type == VAR_FLOAT) { float_T f = n; if (*op == '+') f += tv2->vval.v_float; else f -= tv2->vval.v_float; clear_tv(tv1); tv1->v_type = VAR_FLOAT; tv1->vval.v_float = f; } else #endif { if (*op == '+') n += get_tv_number(tv2); else n -= get_tv_number(tv2); clear_tv(tv1); tv1->v_type = VAR_NUMBER; tv1->vval.v_number = n; } } else { if (tv2->v_type == VAR_FLOAT) break; /* str .= str */ s = get_tv_string(tv1); s = concat_str(s, get_tv_string_buf(tv2, numbuf)); clear_tv(tv1); tv1->v_type = VAR_STRING; tv1->vval.v_string = s; } return OK; case VAR_FLOAT: #ifdef FEAT_FLOAT { float_T f; if (*op == '.' || (tv2->v_type != VAR_FLOAT && tv2->v_type != VAR_NUMBER && tv2->v_type != VAR_STRING)) break; if (tv2->v_type == VAR_FLOAT) f = tv2->vval.v_float; else f = get_tv_number(tv2); if (*op == '+') tv1->vval.v_float += f; else tv1->vval.v_float -= f; } #endif return OK; } } EMSG2(_(e_letwrong), op); return FAIL; } /* * Evaluate the expression used in a ":for var in expr" command. * "arg" points to "var". * Set "*errp" to TRUE for an error, FALSE otherwise; * Return a pointer that holds the info. Null when there is an error. */ void * eval_for_line( char_u *arg, int *errp, char_u **nextcmdp, int skip) { forinfo_T *fi; char_u *expr; typval_T tv; list_T *l; *errp = TRUE; /* default: there is an error */ fi = (forinfo_T *)alloc_clear(sizeof(forinfo_T)); if (fi == NULL) return NULL; expr = skip_var_list(arg, &fi->fi_varcount, &fi->fi_semicolon); if (expr == NULL) return fi; expr = skipwhite(expr); if (expr[0] != 'i' || expr[1] != 'n' || !VIM_ISWHITE(expr[2])) { EMSG(_("E690: Missing \"in\" after :for")); return fi; } if (skip) ++emsg_skip; if (eval0(skipwhite(expr + 2), &tv, nextcmdp, !skip) == OK) { *errp = FALSE; if (!skip) { l = tv.vval.v_list; if (tv.v_type != VAR_LIST) { EMSG(_(e_listreq)); clear_tv(&tv); } else if (l == NULL) { /* a null list is like an empty list: do nothing */ clear_tv(&tv); } else { /* No need to increment the refcount, it's already set for the * list being used in "tv". */ fi->fi_list = l; list_add_watch(l, &fi->fi_lw); fi->fi_lw.lw_item = l->lv_first; } } } if (skip) --emsg_skip; return fi; } /* * Use the first item in a ":for" list. Advance to the next. * Assign the values to the variable (list). "arg" points to the first one. * Return TRUE when a valid item was found, FALSE when at end of list or * something wrong. */ int next_for_item(void *fi_void, char_u *arg) { forinfo_T *fi = (forinfo_T *)fi_void; int result; listitem_T *item; item = fi->fi_lw.lw_item; if (item == NULL) result = FALSE; else { fi->fi_lw.lw_item = item->li_next; result = (ex_let_vars(arg, &item->li_tv, TRUE, fi->fi_semicolon, fi->fi_varcount, NULL) == OK); } return result; } /* * Free the structure used to store info used by ":for". */ void free_for_info(void *fi_void) { forinfo_T *fi = (forinfo_T *)fi_void; if (fi != NULL && fi->fi_list != NULL) { list_rem_watch(fi->fi_list, &fi->fi_lw); list_unref(fi->fi_list); } vim_free(fi); } #if defined(FEAT_CMDL_COMPL) || defined(PROTO) void set_context_for_expression( expand_T *xp, char_u *arg, cmdidx_T cmdidx) { int got_eq = FALSE; int c; char_u *p; if (cmdidx == CMD_let) { xp->xp_context = EXPAND_USER_VARS; if (vim_strpbrk(arg, (char_u *)"\"'+-*/%.=!?~|&$([<>,#") == NULL) { /* ":let var1 var2 ...": find last space. */ for (p = arg + STRLEN(arg); p >= arg; ) { xp->xp_pattern = p; MB_PTR_BACK(arg, p); if (VIM_ISWHITE(*p)) break; } return; } } else xp->xp_context = cmdidx == CMD_call ? EXPAND_FUNCTIONS : EXPAND_EXPRESSION; while ((xp->xp_pattern = vim_strpbrk(arg, (char_u *)"\"'+-*/%.=!?~|&$([<>,#")) != NULL) { c = *xp->xp_pattern; if (c == '&') { c = xp->xp_pattern[1]; if (c == '&') { ++xp->xp_pattern; xp->xp_context = cmdidx != CMD_let || got_eq ? EXPAND_EXPRESSION : EXPAND_NOTHING; } else if (c != ' ') { xp->xp_context = EXPAND_SETTINGS; if ((c == 'l' || c == 'g') && xp->xp_pattern[2] == ':') xp->xp_pattern += 2; } } else if (c == '$') { /* environment variable */ xp->xp_context = EXPAND_ENV_VARS; } else if (c == '=') { got_eq = TRUE; xp->xp_context = EXPAND_EXPRESSION; } else if (c == '#' && xp->xp_context == EXPAND_EXPRESSION) { /* Autoload function/variable contains '#'. */ break; } else if ((c == '<' || c == '#') && xp->xp_context == EXPAND_FUNCTIONS && vim_strchr(xp->xp_pattern, '(') == NULL) { /* Function name can start with "" and contain '#'. */ break; } else if (cmdidx != CMD_let || got_eq) { if (c == '"') /* string */ { while ((c = *++xp->xp_pattern) != NUL && c != '"') if (c == '\\' && xp->xp_pattern[1] != NUL) ++xp->xp_pattern; xp->xp_context = EXPAND_NOTHING; } else if (c == '\'') /* literal string */ { /* Trick: '' is like stopping and starting a literal string. */ while ((c = *++xp->xp_pattern) != NUL && c != '\'') /* skip */ ; xp->xp_context = EXPAND_NOTHING; } else if (c == '|') { if (xp->xp_pattern[1] == '|') { ++xp->xp_pattern; xp->xp_context = EXPAND_EXPRESSION; } else xp->xp_context = EXPAND_COMMANDS; } else xp->xp_context = EXPAND_EXPRESSION; } else /* Doesn't look like something valid, expand as an expression * anyway. */ xp->xp_context = EXPAND_EXPRESSION; arg = xp->xp_pattern; if (*arg != NUL) while ((c = *++arg) != NUL && (c == ' ' || c == '\t')) /* skip */ ; } xp->xp_pattern = arg; } #endif /* FEAT_CMDL_COMPL */ /* * ":unlet[!] var1 ... " command. */ void ex_unlet(exarg_T *eap) { ex_unletlock(eap, eap->arg, 0); } /* * ":lockvar" and ":unlockvar" commands */ void ex_lockvar(exarg_T *eap) { char_u *arg = eap->arg; int deep = 2; if (eap->forceit) deep = -1; else if (vim_isdigit(*arg)) { deep = getdigits(&arg); arg = skipwhite(arg); } ex_unletlock(eap, arg, deep); } /* * ":unlet", ":lockvar" and ":unlockvar" are quite similar. */ static void ex_unletlock( exarg_T *eap, char_u *argstart, int deep) { char_u *arg = argstart; char_u *name_end; int error = FALSE; lval_T lv; do { /* Parse the name and find the end. */ name_end = get_lval(arg, NULL, &lv, TRUE, eap->skip || error, 0, FNE_CHECK_START); if (lv.ll_name == NULL) error = TRUE; /* error but continue parsing */ if (name_end == NULL || (!VIM_ISWHITE(*name_end) && !ends_excmd(*name_end))) { if (name_end != NULL) { emsg_severe = TRUE; EMSG(_(e_trailing)); } if (!(eap->skip || error)) clear_lval(&lv); break; } if (!error && !eap->skip) { if (eap->cmdidx == CMD_unlet) { if (do_unlet_var(&lv, name_end, eap->forceit) == FAIL) error = TRUE; } else { if (do_lock_var(&lv, name_end, deep, eap->cmdidx == CMD_lockvar) == FAIL) error = TRUE; } } if (!eap->skip) clear_lval(&lv); arg = skipwhite(name_end); } while (!ends_excmd(*arg)); eap->nextcmd = check_nextcmd(arg); } static int do_unlet_var( lval_T *lp, char_u *name_end, int forceit) { int ret = OK; int cc; if (lp->ll_tv == NULL) { cc = *name_end; *name_end = NUL; /* Normal name or expanded name. */ if (do_unlet(lp->ll_name, forceit) == FAIL) ret = FAIL; *name_end = cc; } else if ((lp->ll_list != NULL && tv_check_lock(lp->ll_list->lv_lock, lp->ll_name, FALSE)) || (lp->ll_dict != NULL && tv_check_lock(lp->ll_dict->dv_lock, lp->ll_name, FALSE))) return FAIL; else if (lp->ll_range) { listitem_T *li; listitem_T *ll_li = lp->ll_li; int ll_n1 = lp->ll_n1; while (ll_li != NULL && (lp->ll_empty2 || lp->ll_n2 >= ll_n1)) { li = ll_li->li_next; if (tv_check_lock(ll_li->li_tv.v_lock, lp->ll_name, FALSE)) return FAIL; ll_li = li; ++ll_n1; } /* Delete a range of List items. */ while (lp->ll_li != NULL && (lp->ll_empty2 || lp->ll_n2 >= lp->ll_n1)) { li = lp->ll_li->li_next; listitem_remove(lp->ll_list, lp->ll_li); lp->ll_li = li; ++lp->ll_n1; } } else { if (lp->ll_list != NULL) /* unlet a List item. */ listitem_remove(lp->ll_list, lp->ll_li); else /* unlet a Dictionary item. */ dictitem_remove(lp->ll_dict, lp->ll_di); } return ret; } /* * "unlet" a variable. Return OK if it existed, FAIL if not. * When "forceit" is TRUE don't complain if the variable doesn't exist. */ int do_unlet(char_u *name, int forceit) { hashtab_T *ht; hashitem_T *hi; char_u *varname; dict_T *d; dictitem_T *di; ht = find_var_ht(name, &varname); if (ht != NULL && *varname != NUL) { d = get_current_funccal_dict(ht); if (d == NULL) { if (ht == &globvarht) d = &globvardict; else if (ht == &compat_hashtab) d = &vimvardict; else { di = find_var_in_ht(ht, *name, (char_u *)"", FALSE); d = di == NULL ? NULL : di->di_tv.vval.v_dict; } if (d == NULL) { internal_error("do_unlet()"); return FAIL; } } hi = hash_find(ht, varname); if (HASHITEM_EMPTY(hi)) hi = find_hi_in_scoped_ht(name, &ht); if (hi != NULL && !HASHITEM_EMPTY(hi)) { di = HI2DI(hi); if (var_check_fixed(di->di_flags, name, FALSE) || var_check_ro(di->di_flags, name, FALSE) || tv_check_lock(d->dv_lock, name, FALSE)) return FAIL; delete_var(ht, hi); return OK; } } if (forceit) return OK; EMSG2(_("E108: No such variable: \"%s\""), name); return FAIL; } /* * Lock or unlock variable indicated by "lp". * "deep" is the levels to go (-1 for unlimited); * "lock" is TRUE for ":lockvar", FALSE for ":unlockvar". */ static int do_lock_var( lval_T *lp, char_u *name_end, int deep, int lock) { int ret = OK; int cc; dictitem_T *di; if (deep == 0) /* nothing to do */ return OK; if (lp->ll_tv == NULL) { cc = *name_end; *name_end = NUL; /* Normal name or expanded name. */ di = find_var(lp->ll_name, NULL, TRUE); if (di == NULL) ret = FAIL; else if ((di->di_flags & DI_FLAGS_FIX) && di->di_tv.v_type != VAR_DICT && di->di_tv.v_type != VAR_LIST) /* For historic reasons this error is not given for a list or dict. * E.g., the b: dict could be locked/unlocked. */ EMSG2(_("E940: Cannot lock or unlock variable %s"), lp->ll_name); else { if (lock) di->di_flags |= DI_FLAGS_LOCK; else di->di_flags &= ~DI_FLAGS_LOCK; item_lock(&di->di_tv, deep, lock); } *name_end = cc; } else if (lp->ll_range) { listitem_T *li = lp->ll_li; /* (un)lock a range of List items. */ while (li != NULL && (lp->ll_empty2 || lp->ll_n2 >= lp->ll_n1)) { item_lock(&li->li_tv, deep, lock); li = li->li_next; ++lp->ll_n1; } } else if (lp->ll_list != NULL) /* (un)lock a List item. */ item_lock(&lp->ll_li->li_tv, deep, lock); else /* (un)lock a Dictionary item. */ item_lock(&lp->ll_di->di_tv, deep, lock); return ret; } /* * Lock or unlock an item. "deep" is nr of levels to go. */ static void item_lock(typval_T *tv, int deep, int lock) { static int recurse = 0; list_T *l; listitem_T *li; dict_T *d; hashitem_T *hi; int todo; if (recurse >= DICT_MAXNEST) { EMSG(_("E743: variable nested too deep for (un)lock")); return; } if (deep == 0) return; ++recurse; /* lock/unlock the item itself */ if (lock) tv->v_lock |= VAR_LOCKED; else tv->v_lock &= ~VAR_LOCKED; switch (tv->v_type) { case VAR_UNKNOWN: case VAR_NUMBER: case VAR_STRING: case VAR_FUNC: case VAR_PARTIAL: case VAR_FLOAT: case VAR_SPECIAL: case VAR_JOB: case VAR_CHANNEL: break; case VAR_LIST: if ((l = tv->vval.v_list) != NULL) { if (lock) l->lv_lock |= VAR_LOCKED; else l->lv_lock &= ~VAR_LOCKED; if (deep < 0 || deep > 1) /* recursive: lock/unlock the items the List contains */ for (li = l->lv_first; li != NULL; li = li->li_next) item_lock(&li->li_tv, deep - 1, lock); } break; case VAR_DICT: if ((d = tv->vval.v_dict) != NULL) { if (lock) d->dv_lock |= VAR_LOCKED; else d->dv_lock &= ~VAR_LOCKED; if (deep < 0 || deep > 1) { /* recursive: lock/unlock the items the List contains */ todo = (int)d->dv_hashtab.ht_used; for (hi = d->dv_hashtab.ht_array; todo > 0; ++hi) { if (!HASHITEM_EMPTY(hi)) { --todo; item_lock(&HI2DI(hi)->di_tv, deep - 1, lock); } } } } } --recurse; } #if (defined(FEAT_MENU) && defined(FEAT_MULTI_LANG)) || defined(PROTO) /* * Delete all "menutrans_" variables. */ void del_menutrans_vars(void) { hashitem_T *hi; int todo; hash_lock(&globvarht); todo = (int)globvarht.ht_used; for (hi = globvarht.ht_array; todo > 0 && !got_int; ++hi) { if (!HASHITEM_EMPTY(hi)) { --todo; if (STRNCMP(HI2DI(hi)->di_key, "menutrans_", 10) == 0) delete_var(&globvarht, hi); } } hash_unlock(&globvarht); } #endif #if defined(FEAT_CMDL_COMPL) || defined(PROTO) /* * Local string buffer for the next two functions to store a variable name * with its prefix. Allocated in cat_prefix_varname(), freed later in * get_user_var_name(). */ static char_u *cat_prefix_varname(int prefix, char_u *name); static char_u *varnamebuf = NULL; static int varnamebuflen = 0; /* * Function to concatenate a prefix and a variable name. */ static char_u * cat_prefix_varname(int prefix, char_u *name) { int len; len = (int)STRLEN(name) + 3; if (len > varnamebuflen) { vim_free(varnamebuf); len += 10; /* some additional space */ varnamebuf = alloc(len); if (varnamebuf == NULL) { varnamebuflen = 0; return NULL; } varnamebuflen = len; } *varnamebuf = prefix; varnamebuf[1] = ':'; STRCPY(varnamebuf + 2, name); return varnamebuf; } /* * Function given to ExpandGeneric() to obtain the list of user defined * (global/buffer/window/built-in) variable names. */ char_u * get_user_var_name(expand_T *xp, int idx) { static long_u gdone; static long_u bdone; static long_u wdone; static long_u tdone; static int vidx; static hashitem_T *hi; hashtab_T *ht; if (idx == 0) { gdone = bdone = wdone = vidx = 0; tdone = 0; } /* Global variables */ if (gdone < globvarht.ht_used) { if (gdone++ == 0) hi = globvarht.ht_array; else ++hi; while (HASHITEM_EMPTY(hi)) ++hi; if (STRNCMP("g:", xp->xp_pattern, 2) == 0) return cat_prefix_varname('g', hi->hi_key); return hi->hi_key; } /* b: variables */ ht = &curbuf->b_vars->dv_hashtab; if (bdone < ht->ht_used) { if (bdone++ == 0) hi = ht->ht_array; else ++hi; while (HASHITEM_EMPTY(hi)) ++hi; return cat_prefix_varname('b', hi->hi_key); } /* w: variables */ ht = &curwin->w_vars->dv_hashtab; if (wdone < ht->ht_used) { if (wdone++ == 0) hi = ht->ht_array; else ++hi; while (HASHITEM_EMPTY(hi)) ++hi; return cat_prefix_varname('w', hi->hi_key); } /* t: variables */ ht = &curtab->tp_vars->dv_hashtab; if (tdone < ht->ht_used) { if (tdone++ == 0) hi = ht->ht_array; else ++hi; while (HASHITEM_EMPTY(hi)) ++hi; return cat_prefix_varname('t', hi->hi_key); } /* v: variables */ if (vidx < VV_LEN) return cat_prefix_varname('v', (char_u *)vimvars[vidx++].vv_name); VIM_CLEAR(varnamebuf); varnamebuflen = 0; return NULL; } #endif /* FEAT_CMDL_COMPL */ /* * Return TRUE if "pat" matches "text". * Does not use 'cpo' and always uses 'magic'. */ static int pattern_match(char_u *pat, char_u *text, int ic) { int matches = FALSE; char_u *save_cpo; regmatch_T regmatch; /* avoid 'l' flag in 'cpoptions' */ save_cpo = p_cpo; p_cpo = (char_u *)""; regmatch.regprog = vim_regcomp(pat, RE_MAGIC + RE_STRING); if (regmatch.regprog != NULL) { regmatch.rm_ic = ic; matches = vim_regexec_nl(®match, text, (colnr_T)0); vim_regfree(regmatch.regprog); } p_cpo = save_cpo; return matches; } /* * The "evaluate" argument: When FALSE, the argument is only parsed but not * executed. The function may return OK, but the rettv will be of type * VAR_UNKNOWN. The function still returns FAIL for a syntax error. */ /* * Handle zero level expression. * This calls eval1() and handles error message and nextcmd. * Put the result in "rettv" when returning OK and "evaluate" is TRUE. * Note: "rettv.v_lock" is not set. * Return OK or FAIL. */ int eval0( char_u *arg, typval_T *rettv, char_u **nextcmd, int evaluate) { int ret; char_u *p; p = skipwhite(arg); ret = eval1(&p, rettv, evaluate); if (ret == FAIL || !ends_excmd(*p)) { if (ret != FAIL) clear_tv(rettv); /* * Report the invalid expression unless the expression evaluation has * been cancelled due to an aborting error, an interrupt, or an * exception. */ if (!aborting()) EMSG2(_(e_invexpr2), arg); ret = FAIL; } if (nextcmd != NULL) *nextcmd = check_nextcmd(p); return ret; } /* * Handle top level expression: * expr2 ? expr1 : expr1 * * "arg" must point to the first non-white of the expression. * "arg" is advanced to the next non-white after the recognized expression. * * Note: "rettv.v_lock" is not set. * * Return OK or FAIL. */ int eval1(char_u **arg, typval_T *rettv, int evaluate) { int result; typval_T var2; /* * Get the first variable. */ if (eval2(arg, rettv, evaluate) == FAIL) return FAIL; if ((*arg)[0] == '?') { result = FALSE; if (evaluate) { int error = FALSE; if (get_tv_number_chk(rettv, &error) != 0) result = TRUE; clear_tv(rettv); if (error) return FAIL; } /* * Get the second variable. */ *arg = skipwhite(*arg + 1); if (eval1(arg, rettv, evaluate && result) == FAIL) /* recursive! */ return FAIL; /* * Check for the ":". */ if ((*arg)[0] != ':') { EMSG(_("E109: Missing ':' after '?'")); if (evaluate && result) clear_tv(rettv); return FAIL; } /* * Get the third variable. */ *arg = skipwhite(*arg + 1); if (eval1(arg, &var2, evaluate && !result) == FAIL) /* recursive! */ { if (evaluate && result) clear_tv(rettv); return FAIL; } if (evaluate && !result) *rettv = var2; } return OK; } /* * Handle first level expression: * expr2 || expr2 || expr2 logical OR * * "arg" must point to the first non-white of the expression. * "arg" is advanced to the next non-white after the recognized expression. * * Return OK or FAIL. */ static int eval2(char_u **arg, typval_T *rettv, int evaluate) { typval_T var2; long result; int first; int error = FALSE; /* * Get the first variable. */ if (eval3(arg, rettv, evaluate) == FAIL) return FAIL; /* * Repeat until there is no following "||". */ first = TRUE; result = FALSE; while ((*arg)[0] == '|' && (*arg)[1] == '|') { if (evaluate && first) { if (get_tv_number_chk(rettv, &error) != 0) result = TRUE; clear_tv(rettv); if (error) return FAIL; first = FALSE; } /* * Get the second variable. */ *arg = skipwhite(*arg + 2); if (eval3(arg, &var2, evaluate && !result) == FAIL) return FAIL; /* * Compute the result. */ if (evaluate && !result) { if (get_tv_number_chk(&var2, &error) != 0) result = TRUE; clear_tv(&var2); if (error) return FAIL; } if (evaluate) { rettv->v_type = VAR_NUMBER; rettv->vval.v_number = result; } } return OK; } /* * Handle second level expression: * expr3 && expr3 && expr3 logical AND * * "arg" must point to the first non-white of the expression. * "arg" is advanced to the next non-white after the recognized expression. * * Return OK or FAIL. */ static int eval3(char_u **arg, typval_T *rettv, int evaluate) { typval_T var2; long result; int first; int error = FALSE; /* * Get the first variable. */ if (eval4(arg, rettv, evaluate) == FAIL) return FAIL; /* * Repeat until there is no following "&&". */ first = TRUE; result = TRUE; while ((*arg)[0] == '&' && (*arg)[1] == '&') { if (evaluate && first) { if (get_tv_number_chk(rettv, &error) == 0) result = FALSE; clear_tv(rettv); if (error) return FAIL; first = FALSE; } /* * Get the second variable. */ *arg = skipwhite(*arg + 2); if (eval4(arg, &var2, evaluate && result) == FAIL) return FAIL; /* * Compute the result. */ if (evaluate && result) { if (get_tv_number_chk(&var2, &error) == 0) result = FALSE; clear_tv(&var2); if (error) return FAIL; } if (evaluate) { rettv->v_type = VAR_NUMBER; rettv->vval.v_number = result; } } return OK; } /* * Handle third level expression: * var1 == var2 * var1 =~ var2 * var1 != var2 * var1 !~ var2 * var1 > var2 * var1 >= var2 * var1 < var2 * var1 <= var2 * var1 is var2 * var1 isnot var2 * * "arg" must point to the first non-white of the expression. * "arg" is advanced to the next non-white after the recognized expression. * * Return OK or FAIL. */ static int eval4(char_u **arg, typval_T *rettv, int evaluate) { typval_T var2; char_u *p; int i; exptype_T type = TYPE_UNKNOWN; int type_is = FALSE; /* TRUE for "is" and "isnot" */ int len = 2; int ic; /* * Get the first variable. */ if (eval5(arg, rettv, evaluate) == FAIL) return FAIL; p = *arg; switch (p[0]) { case '=': if (p[1] == '=') type = TYPE_EQUAL; else if (p[1] == '~') type = TYPE_MATCH; break; case '!': if (p[1] == '=') type = TYPE_NEQUAL; else if (p[1] == '~') type = TYPE_NOMATCH; break; case '>': if (p[1] != '=') { type = TYPE_GREATER; len = 1; } else type = TYPE_GEQUAL; break; case '<': if (p[1] != '=') { type = TYPE_SMALLER; len = 1; } else type = TYPE_SEQUAL; break; case 'i': if (p[1] == 's') { if (p[2] == 'n' && p[3] == 'o' && p[4] == 't') len = 5; i = p[len]; if (!isalnum(i) && i != '_') { type = len == 2 ? TYPE_EQUAL : TYPE_NEQUAL; type_is = TRUE; } } break; } /* * If there is a comparative operator, use it. */ if (type != TYPE_UNKNOWN) { /* extra question mark appended: ignore case */ if (p[len] == '?') { ic = TRUE; ++len; } /* extra '#' appended: match case */ else if (p[len] == '#') { ic = FALSE; ++len; } /* nothing appended: use 'ignorecase' */ else ic = p_ic; /* * Get the second variable. */ *arg = skipwhite(p + len); if (eval5(arg, &var2, evaluate) == FAIL) { clear_tv(rettv); return FAIL; } if (evaluate) { int ret = typval_compare(rettv, &var2, type, type_is, ic); clear_tv(&var2); return ret; } } return OK; } /* * Handle fourth level expression: * + number addition * - number subtraction * . string concatenation * * "arg" must point to the first non-white of the expression. * "arg" is advanced to the next non-white after the recognized expression. * * Return OK or FAIL. */ static int eval5(char_u **arg, typval_T *rettv, int evaluate) { typval_T var2; typval_T var3; int op; varnumber_T n1, n2; #ifdef FEAT_FLOAT float_T f1 = 0, f2 = 0; #endif char_u *s1, *s2; char_u buf1[NUMBUFLEN], buf2[NUMBUFLEN]; char_u *p; /* * Get the first variable. */ if (eval6(arg, rettv, evaluate, FALSE) == FAIL) return FAIL; /* * Repeat computing, until no '+', '-' or '.' is following. */ for (;;) { op = **arg; if (op != '+' && op != '-' && op != '.') break; if ((op != '+' || rettv->v_type != VAR_LIST) #ifdef FEAT_FLOAT && (op == '.' || rettv->v_type != VAR_FLOAT) #endif ) { /* For "list + ...", an illegal use of the first operand as * a number cannot be determined before evaluating the 2nd * operand: if this is also a list, all is ok. * For "something . ...", "something - ..." or "non-list + ...", * we know that the first operand needs to be a string or number * without evaluating the 2nd operand. So check before to avoid * side effects after an error. */ if (evaluate && get_tv_string_chk(rettv) == NULL) { clear_tv(rettv); return FAIL; } } /* * Get the second variable. */ *arg = skipwhite(*arg + 1); if (eval6(arg, &var2, evaluate, op == '.') == FAIL) { clear_tv(rettv); return FAIL; } if (evaluate) { /* * Compute the result. */ if (op == '.') { s1 = get_tv_string_buf(rettv, buf1); /* already checked */ s2 = get_tv_string_buf_chk(&var2, buf2); if (s2 == NULL) /* type error ? */ { clear_tv(rettv); clear_tv(&var2); return FAIL; } p = concat_str(s1, s2); clear_tv(rettv); rettv->v_type = VAR_STRING; rettv->vval.v_string = p; } else if (op == '+' && rettv->v_type == VAR_LIST && var2.v_type == VAR_LIST) { /* concatenate Lists */ if (list_concat(rettv->vval.v_list, var2.vval.v_list, &var3) == FAIL) { clear_tv(rettv); clear_tv(&var2); return FAIL; } clear_tv(rettv); *rettv = var3; } else { int error = FALSE; #ifdef FEAT_FLOAT if (rettv->v_type == VAR_FLOAT) { f1 = rettv->vval.v_float; n1 = 0; } else #endif { n1 = get_tv_number_chk(rettv, &error); if (error) { /* This can only happen for "list + non-list". For * "non-list + ..." or "something - ...", we returned * before evaluating the 2nd operand. */ clear_tv(rettv); return FAIL; } #ifdef FEAT_FLOAT if (var2.v_type == VAR_FLOAT) f1 = n1; #endif } #ifdef FEAT_FLOAT if (var2.v_type == VAR_FLOAT) { f2 = var2.vval.v_float; n2 = 0; } else #endif { n2 = get_tv_number_chk(&var2, &error); if (error) { clear_tv(rettv); clear_tv(&var2); return FAIL; } #ifdef FEAT_FLOAT if (rettv->v_type == VAR_FLOAT) f2 = n2; #endif } clear_tv(rettv); #ifdef FEAT_FLOAT /* If there is a float on either side the result is a float. */ if (rettv->v_type == VAR_FLOAT || var2.v_type == VAR_FLOAT) { if (op == '+') f1 = f1 + f2; else f1 = f1 - f2; rettv->v_type = VAR_FLOAT; rettv->vval.v_float = f1; } else #endif { if (op == '+') n1 = n1 + n2; else n1 = n1 - n2; rettv->v_type = VAR_NUMBER; rettv->vval.v_number = n1; } } clear_tv(&var2); } } return OK; } /* * Handle fifth level expression: * * number multiplication * / number division * % number modulo * * "arg" must point to the first non-white of the expression. * "arg" is advanced to the next non-white after the recognized expression. * * Return OK or FAIL. */ static int eval6( char_u **arg, typval_T *rettv, int evaluate, int want_string) /* after "." operator */ { typval_T var2; int op; varnumber_T n1, n2; #ifdef FEAT_FLOAT int use_float = FALSE; float_T f1 = 0, f2; #endif int error = FALSE; /* * Get the first variable. */ if (eval7(arg, rettv, evaluate, want_string) == FAIL) return FAIL; /* * Repeat computing, until no '*', '/' or '%' is following. */ for (;;) { op = **arg; if (op != '*' && op != '/' && op != '%') break; if (evaluate) { #ifdef FEAT_FLOAT if (rettv->v_type == VAR_FLOAT) { f1 = rettv->vval.v_float; use_float = TRUE; n1 = 0; } else #endif n1 = get_tv_number_chk(rettv, &error); clear_tv(rettv); if (error) return FAIL; } else n1 = 0; /* * Get the second variable. */ *arg = skipwhite(*arg + 1); if (eval7(arg, &var2, evaluate, FALSE) == FAIL) return FAIL; if (evaluate) { #ifdef FEAT_FLOAT if (var2.v_type == VAR_FLOAT) { if (!use_float) { f1 = n1; use_float = TRUE; } f2 = var2.vval.v_float; n2 = 0; } else #endif { n2 = get_tv_number_chk(&var2, &error); clear_tv(&var2); if (error) return FAIL; #ifdef FEAT_FLOAT if (use_float) f2 = n2; #endif } /* * Compute the result. * When either side is a float the result is a float. */ #ifdef FEAT_FLOAT if (use_float) { if (op == '*') f1 = f1 * f2; else if (op == '/') { # ifdef VMS /* VMS crashes on divide by zero, work around it */ if (f2 == 0.0) { if (f1 == 0) f1 = -1 * __F_FLT_MAX - 1L; /* similar to NaN */ else if (f1 < 0) f1 = -1 * __F_FLT_MAX; else f1 = __F_FLT_MAX; } else f1 = f1 / f2; # else /* We rely on the floating point library to handle divide * by zero to result in "inf" and not a crash. */ f1 = f1 / f2; # endif } else { EMSG(_("E804: Cannot use '%' with Float")); return FAIL; } rettv->v_type = VAR_FLOAT; rettv->vval.v_float = f1; } else #endif { if (op == '*') n1 = n1 * n2; else if (op == '/') { if (n2 == 0) /* give an error message? */ { if (n1 == 0) n1 = VARNUM_MIN; /* similar to NaN */ else if (n1 < 0) n1 = -VARNUM_MAX; else n1 = VARNUM_MAX; } else n1 = n1 / n2; } else { if (n2 == 0) /* give an error message? */ n1 = 0; else n1 = n1 % n2; } rettv->v_type = VAR_NUMBER; rettv->vval.v_number = n1; } } } return OK; } /* * Handle sixth level expression: * number number constant * "string" string constant * 'string' literal string constant * &option-name option value * @r register contents * identifier variable value * function() function call * $VAR environment variable * (expression) nested expression * [expr, expr] List * {key: val, key: val} Dictionary * * Also handle: * ! in front logical NOT * - in front unary minus * + in front unary plus (ignored) * trailing [] subscript in String or List * trailing .name entry in Dictionary * * "arg" must point to the first non-white of the expression. * "arg" is advanced to the next non-white after the recognized expression. * * Return OK or FAIL. */ static int eval7( char_u **arg, typval_T *rettv, int evaluate, int want_string UNUSED) /* after "." operator */ { varnumber_T n; int len; char_u *s; char_u *start_leader, *end_leader; int ret = OK; char_u *alias; /* * Initialise variable so that clear_tv() can't mistake this for a * string and free a string that isn't there. */ rettv->v_type = VAR_UNKNOWN; /* * Skip '!', '-' and '+' characters. They are handled later. */ start_leader = *arg; while (**arg == '!' || **arg == '-' || **arg == '+') *arg = skipwhite(*arg + 1); end_leader = *arg; switch (**arg) { /* * Number constant. */ case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': { #ifdef FEAT_FLOAT char_u *p = skipdigits(*arg + 1); int get_float = FALSE; /* We accept a float when the format matches * "[0-9]\+\.[0-9]\+\([eE][+-]\?[0-9]\+\)\?". This is very * strict to avoid backwards compatibility problems. * Don't look for a float after the "." operator, so that * ":let vers = 1.2.3" doesn't fail. */ if (!want_string && p[0] == '.' && vim_isdigit(p[1])) { get_float = TRUE; p = skipdigits(p + 2); if (*p == 'e' || *p == 'E') { ++p; if (*p == '-' || *p == '+') ++p; if (!vim_isdigit(*p)) get_float = FALSE; else p = skipdigits(p + 1); } if (ASCII_ISALPHA(*p) || *p == '.') get_float = FALSE; } if (get_float) { float_T f; *arg += string2float(*arg, &f); if (evaluate) { rettv->v_type = VAR_FLOAT; rettv->vval.v_float = f; } } else #endif { vim_str2nr(*arg, NULL, &len, STR2NR_ALL, &n, NULL, 0); *arg += len; if (evaluate) { rettv->v_type = VAR_NUMBER; rettv->vval.v_number = n; } } break; } /* * String constant: "string". */ case '"': ret = get_string_tv(arg, rettv, evaluate); break; /* * Literal string constant: 'str''ing'. */ case '\'': ret = get_lit_string_tv(arg, rettv, evaluate); break; /* * List: [expr, expr] */ case '[': ret = get_list_tv(arg, rettv, evaluate); break; /* * Lambda: {arg, arg -> expr} * Dictionary: {key: val, key: val} */ case '{': ret = get_lambda_tv(arg, rettv, evaluate); if (ret == NOTDONE) ret = get_dict_tv(arg, rettv, evaluate); break; /* * Option value: &name */ case '&': ret = get_option_tv(arg, rettv, evaluate); break; /* * Environment variable: $VAR. */ case '$': ret = get_env_tv(arg, rettv, evaluate); break; /* * Register contents: @r. */ case '@': ++*arg; if (evaluate) { rettv->v_type = VAR_STRING; rettv->vval.v_string = get_reg_contents(**arg, GREG_EXPR_SRC); } if (**arg != NUL) ++*arg; break; /* * nested expression: (expression). */ case '(': *arg = skipwhite(*arg + 1); ret = eval1(arg, rettv, evaluate); /* recursive! */ if (**arg == ')') ++*arg; else if (ret == OK) { EMSG(_("E110: Missing ')'")); clear_tv(rettv); ret = FAIL; } break; default: ret = NOTDONE; break; } if (ret == NOTDONE) { /* * Must be a variable or function name. * Can also be a curly-braces kind of name: {expr}. */ s = *arg; len = get_name_len(arg, &alias, evaluate, TRUE); if (alias != NULL) s = alias; if (len <= 0) ret = FAIL; else { if (**arg == '(') /* recursive! */ { partial_T *partial; if (!evaluate) check_vars(s, len); /* If "s" is the name of a variable of type VAR_FUNC * use its contents. */ s = deref_func_name(s, &len, &partial, !evaluate); /* Need to make a copy, in case evaluating the arguments makes * the name invalid. */ s = vim_strsave(s); if (s == NULL) ret = FAIL; else /* Invoke the function. */ ret = get_func_tv(s, len, rettv, arg, curwin->w_cursor.lnum, curwin->w_cursor.lnum, &len, evaluate, partial, NULL); vim_free(s); /* If evaluate is FALSE rettv->v_type was not set in * get_func_tv, but it's needed in handle_subscript() to parse * what follows. So set it here. */ if (rettv->v_type == VAR_UNKNOWN && !evaluate && **arg == '(') { rettv->vval.v_string = NULL; rettv->v_type = VAR_FUNC; } /* Stop the expression evaluation when immediately * aborting on error, or when an interrupt occurred or * an exception was thrown but not caught. */ if (aborting()) { if (ret == OK) clear_tv(rettv); ret = FAIL; } } else if (evaluate) ret = get_var_tv(s, len, rettv, NULL, TRUE, FALSE); else { check_vars(s, len); ret = OK; } } vim_free(alias); } *arg = skipwhite(*arg); /* Handle following '[', '(' and '.' for expr[expr], expr.name, * expr(expr). */ if (ret == OK) ret = handle_subscript(arg, rettv, evaluate, TRUE); /* * Apply logical NOT and unary '-', from right to left, ignore '+'. */ if (ret == OK && evaluate && end_leader > start_leader) { int error = FALSE; varnumber_T val = 0; #ifdef FEAT_FLOAT float_T f = 0.0; if (rettv->v_type == VAR_FLOAT) f = rettv->vval.v_float; else #endif val = get_tv_number_chk(rettv, &error); if (error) { clear_tv(rettv); ret = FAIL; } else { while (end_leader > start_leader) { --end_leader; if (*end_leader == '!') { #ifdef FEAT_FLOAT if (rettv->v_type == VAR_FLOAT) f = !f; else #endif val = !val; } else if (*end_leader == '-') { #ifdef FEAT_FLOAT if (rettv->v_type == VAR_FLOAT) f = -f; else #endif val = -val; } } #ifdef FEAT_FLOAT if (rettv->v_type == VAR_FLOAT) { clear_tv(rettv); rettv->vval.v_float = f; } else #endif { clear_tv(rettv); rettv->v_type = VAR_NUMBER; rettv->vval.v_number = val; } } } return ret; } /* * Evaluate an "[expr]" or "[expr:expr]" index. Also "dict.key". * "*arg" points to the '[' or '.'. * Returns FAIL or OK. "*arg" is advanced to after the ']'. */ static int eval_index( char_u **arg, typval_T *rettv, int evaluate, int verbose) /* give error messages */ { int empty1 = FALSE, empty2 = FALSE; typval_T var1, var2; long n1, n2 = 0; long len = -1; int range = FALSE; char_u *s; char_u *key = NULL; switch (rettv->v_type) { case VAR_FUNC: case VAR_PARTIAL: if (verbose) EMSG(_("E695: Cannot index a Funcref")); return FAIL; case VAR_FLOAT: #ifdef FEAT_FLOAT if (verbose) EMSG(_(e_float_as_string)); return FAIL; #endif case VAR_SPECIAL: case VAR_JOB: case VAR_CHANNEL: if (verbose) EMSG(_("E909: Cannot index a special variable")); return FAIL; case VAR_UNKNOWN: if (evaluate) return FAIL; /* FALLTHROUGH */ case VAR_STRING: case VAR_NUMBER: case VAR_LIST: case VAR_DICT: break; } init_tv(&var1); init_tv(&var2); if (**arg == '.') { /* * dict.name */ key = *arg + 1; for (len = 0; ASCII_ISALNUM(key[len]) || key[len] == '_'; ++len) ; if (len == 0) return FAIL; *arg = skipwhite(key + len); } else { /* * something[idx] * * Get the (first) variable from inside the []. */ *arg = skipwhite(*arg + 1); if (**arg == ':') empty1 = TRUE; else if (eval1(arg, &var1, evaluate) == FAIL) /* recursive! */ return FAIL; else if (evaluate && get_tv_string_chk(&var1) == NULL) { /* not a number or string */ clear_tv(&var1); return FAIL; } /* * Get the second variable from inside the [:]. */ if (**arg == ':') { range = TRUE; *arg = skipwhite(*arg + 1); if (**arg == ']') empty2 = TRUE; else if (eval1(arg, &var2, evaluate) == FAIL) /* recursive! */ { if (!empty1) clear_tv(&var1); return FAIL; } else if (evaluate && get_tv_string_chk(&var2) == NULL) { /* not a number or string */ if (!empty1) clear_tv(&var1); clear_tv(&var2); return FAIL; } } /* Check for the ']'. */ if (**arg != ']') { if (verbose) EMSG(_(e_missbrac)); clear_tv(&var1); if (range) clear_tv(&var2); return FAIL; } *arg = skipwhite(*arg + 1); /* skip the ']' */ } if (evaluate) { n1 = 0; if (!empty1 && rettv->v_type != VAR_DICT) { n1 = get_tv_number(&var1); clear_tv(&var1); } if (range) { if (empty2) n2 = -1; else { n2 = get_tv_number(&var2); clear_tv(&var2); } } switch (rettv->v_type) { case VAR_UNKNOWN: case VAR_FUNC: case VAR_PARTIAL: case VAR_FLOAT: case VAR_SPECIAL: case VAR_JOB: case VAR_CHANNEL: break; /* not evaluating, skipping over subscript */ case VAR_NUMBER: case VAR_STRING: s = get_tv_string(rettv); len = (long)STRLEN(s); if (range) { /* The resulting variable is a substring. If the indexes * are out of range the result is empty. */ if (n1 < 0) { n1 = len + n1; if (n1 < 0) n1 = 0; } if (n2 < 0) n2 = len + n2; else if (n2 >= len) n2 = len; if (n1 >= len || n2 < 0 || n1 > n2) s = NULL; else s = vim_strnsave(s + n1, (int)(n2 - n1 + 1)); } else { /* The resulting variable is a string of a single * character. If the index is too big or negative the * result is empty. */ if (n1 >= len || n1 < 0) s = NULL; else s = vim_strnsave(s + n1, 1); } clear_tv(rettv); rettv->v_type = VAR_STRING; rettv->vval.v_string = s; break; case VAR_LIST: len = list_len(rettv->vval.v_list); if (n1 < 0) n1 = len + n1; if (!empty1 && (n1 < 0 || n1 >= len)) { /* For a range we allow invalid values and return an empty * list. A list index out of range is an error. */ if (!range) { if (verbose) EMSGN(_(e_listidx), n1); return FAIL; } n1 = len; } if (range) { list_T *l; listitem_T *item; if (n2 < 0) n2 = len + n2; else if (n2 >= len) n2 = len - 1; if (!empty2 && (n2 < 0 || n2 + 1 < n1)) n2 = -1; l = list_alloc(); if (l == NULL) return FAIL; for (item = list_find(rettv->vval.v_list, n1); n1 <= n2; ++n1) { if (list_append_tv(l, &item->li_tv) == FAIL) { list_free(l); return FAIL; } item = item->li_next; } clear_tv(rettv); rettv_list_set(rettv, l); } else { copy_tv(&list_find(rettv->vval.v_list, n1)->li_tv, &var1); clear_tv(rettv); *rettv = var1; } break; case VAR_DICT: if (range) { if (verbose) EMSG(_(e_dictrange)); if (len == -1) clear_tv(&var1); return FAIL; } { dictitem_T *item; if (len == -1) { key = get_tv_string_chk(&var1); if (key == NULL) { clear_tv(&var1); return FAIL; } } item = dict_find(rettv->vval.v_dict, key, (int)len); if (item == NULL && verbose) EMSG2(_(e_dictkey), key); if (len == -1) clear_tv(&var1); if (item == NULL) return FAIL; copy_tv(&item->di_tv, &var1); clear_tv(rettv); *rettv = var1; } break; } } return OK; } /* * Get an option value. * "arg" points to the '&' or '+' before the option name. * "arg" is advanced to character after the option name. * Return OK or FAIL. */ int get_option_tv( char_u **arg, typval_T *rettv, /* when NULL, only check if option exists */ int evaluate) { char_u *option_end; long numval; char_u *stringval; int opt_type; int c; int working = (**arg == '+'); /* has("+option") */ int ret = OK; int opt_flags; /* * Isolate the option name and find its value. */ option_end = find_option_end(arg, &opt_flags); if (option_end == NULL) { if (rettv != NULL) EMSG2(_("E112: Option name missing: %s"), *arg); return FAIL; } if (!evaluate) { *arg = option_end; return OK; } c = *option_end; *option_end = NUL; opt_type = get_option_value(*arg, &numval, rettv == NULL ? NULL : &stringval, opt_flags); if (opt_type == -3) /* invalid name */ { if (rettv != NULL) EMSG2(_("E113: Unknown option: %s"), *arg); ret = FAIL; } else if (rettv != NULL) { if (opt_type == -2) /* hidden string option */ { rettv->v_type = VAR_STRING; rettv->vval.v_string = NULL; } else if (opt_type == -1) /* hidden number option */ { rettv->v_type = VAR_NUMBER; rettv->vval.v_number = 0; } else if (opt_type == 1) /* number option */ { rettv->v_type = VAR_NUMBER; rettv->vval.v_number = numval; } else /* string option */ { rettv->v_type = VAR_STRING; rettv->vval.v_string = stringval; } } else if (working && (opt_type == -2 || opt_type == -1)) ret = FAIL; *option_end = c; /* put back for error messages */ *arg = option_end; return ret; } /* * Allocate a variable for a string constant. * Return OK or FAIL. */ static int get_string_tv(char_u **arg, typval_T *rettv, int evaluate) { char_u *p; char_u *name; int extra = 0; /* * Find the end of the string, skipping backslashed characters. */ for (p = *arg + 1; *p != NUL && *p != '"'; MB_PTR_ADV(p)) { if (*p == '\\' && p[1] != NUL) { ++p; /* A "\" form occupies at least 4 characters, and produces up * to 6 characters: reserve space for 2 extra */ if (*p == '<') extra += 2; } } if (*p != '"') { EMSG2(_("E114: Missing quote: %s"), *arg); return FAIL; } /* If only parsing, set *arg and return here */ if (!evaluate) { *arg = p + 1; return OK; } /* * Copy the string into allocated memory, handling backslashed * characters. */ name = alloc((unsigned)(p - *arg + extra)); if (name == NULL) return FAIL; rettv->v_type = VAR_STRING; rettv->vval.v_string = name; for (p = *arg + 1; *p != NUL && *p != '"'; ) { if (*p == '\\') { switch (*++p) { case 'b': *name++ = BS; ++p; break; case 'e': *name++ = ESC; ++p; break; case 'f': *name++ = FF; ++p; break; case 'n': *name++ = NL; ++p; break; case 'r': *name++ = CAR; ++p; break; case 't': *name++ = TAB; ++p; break; case 'X': /* hex: "\x1", "\x12" */ case 'x': case 'u': /* Unicode: "\u0023" */ case 'U': if (vim_isxdigit(p[1])) { int n, nr; int c = toupper(*p); if (c == 'X') n = 2; else if (*p == 'u') n = 4; else n = 8; nr = 0; while (--n >= 0 && vim_isxdigit(p[1])) { ++p; nr = (nr << 4) + hex2nr(*p); } ++p; #ifdef FEAT_MBYTE /* For "\u" store the number according to * 'encoding'. */ if (c != 'X') name += (*mb_char2bytes)(nr, name); else #endif *name++ = nr; } break; /* octal: "\1", "\12", "\123" */ case '0': case '1': case '2': case '3': case '4': case '5': case '6': case '7': *name = *p++ - '0'; if (*p >= '0' && *p <= '7') { *name = (*name << 3) + *p++ - '0'; if (*p >= '0' && *p <= '7') *name = (*name << 3) + *p++ - '0'; } ++name; break; /* Special key, e.g.: "\" */ case '<': extra = trans_special(&p, name, TRUE, TRUE); if (extra != 0) { name += extra; break; } /* FALLTHROUGH */ default: MB_COPY_CHAR(p, name); break; } } else MB_COPY_CHAR(p, name); } *name = NUL; if (*p != NUL) /* just in case */ ++p; *arg = p; return OK; } /* * Allocate a variable for a 'str''ing' constant. * Return OK or FAIL. */ static int get_lit_string_tv(char_u **arg, typval_T *rettv, int evaluate) { char_u *p; char_u *str; int reduce = 0; /* * Find the end of the string, skipping ''. */ for (p = *arg + 1; *p != NUL; MB_PTR_ADV(p)) { if (*p == '\'') { if (p[1] != '\'') break; ++reduce; ++p; } } if (*p != '\'') { EMSG2(_("E115: Missing quote: %s"), *arg); return FAIL; } /* If only parsing return after setting "*arg" */ if (!evaluate) { *arg = p + 1; return OK; } /* * Copy the string into allocated memory, handling '' to ' reduction. */ str = alloc((unsigned)((p - *arg) - reduce)); if (str == NULL) return FAIL; rettv->v_type = VAR_STRING; rettv->vval.v_string = str; for (p = *arg + 1; *p != NUL; ) { if (*p == '\'') { if (p[1] != '\'') break; ++p; } MB_COPY_CHAR(p, str); } *str = NUL; *arg = p + 1; return OK; } /* * Return the function name of the partial. */ char_u * partial_name(partial_T *pt) { if (pt->pt_name != NULL) return pt->pt_name; return pt->pt_func->uf_name; } static void partial_free(partial_T *pt) { int i; for (i = 0; i < pt->pt_argc; ++i) clear_tv(&pt->pt_argv[i]); vim_free(pt->pt_argv); dict_unref(pt->pt_dict); if (pt->pt_name != NULL) { func_unref(pt->pt_name); vim_free(pt->pt_name); } else func_ptr_unref(pt->pt_func); vim_free(pt); } /* * Unreference a closure: decrement the reference count and free it when it * becomes zero. */ void partial_unref(partial_T *pt) { if (pt != NULL && --pt->pt_refcount <= 0) partial_free(pt); } static int tv_equal_recurse_limit; static int func_equal( typval_T *tv1, typval_T *tv2, int ic) /* ignore case */ { char_u *s1, *s2; dict_T *d1, *d2; int a1, a2; int i; /* empty and NULL function name considered the same */ s1 = tv1->v_type == VAR_FUNC ? tv1->vval.v_string : partial_name(tv1->vval.v_partial); if (s1 != NULL && *s1 == NUL) s1 = NULL; s2 = tv2->v_type == VAR_FUNC ? tv2->vval.v_string : partial_name(tv2->vval.v_partial); if (s2 != NULL && *s2 == NUL) s2 = NULL; if (s1 == NULL || s2 == NULL) { if (s1 != s2) return FALSE; } else if (STRCMP(s1, s2) != 0) return FALSE; /* empty dict and NULL dict is different */ d1 = tv1->v_type == VAR_FUNC ? NULL : tv1->vval.v_partial->pt_dict; d2 = tv2->v_type == VAR_FUNC ? NULL : tv2->vval.v_partial->pt_dict; if (d1 == NULL || d2 == NULL) { if (d1 != d2) return FALSE; } else if (!dict_equal(d1, d2, ic, TRUE)) return FALSE; /* empty list and no list considered the same */ a1 = tv1->v_type == VAR_FUNC ? 0 : tv1->vval.v_partial->pt_argc; a2 = tv2->v_type == VAR_FUNC ? 0 : tv2->vval.v_partial->pt_argc; if (a1 != a2) return FALSE; for (i = 0; i < a1; ++i) if (!tv_equal(tv1->vval.v_partial->pt_argv + i, tv2->vval.v_partial->pt_argv + i, ic, TRUE)) return FALSE; return TRUE; } /* * Return TRUE if "tv1" and "tv2" have the same value. * Compares the items just like "==" would compare them, but strings and * numbers are different. Floats and numbers are also different. */ int tv_equal( typval_T *tv1, typval_T *tv2, int ic, /* ignore case */ int recursive) /* TRUE when used recursively */ { char_u buf1[NUMBUFLEN], buf2[NUMBUFLEN]; char_u *s1, *s2; static int recursive_cnt = 0; /* catch recursive loops */ int r; /* Catch lists and dicts that have an endless loop by limiting * recursiveness to a limit. We guess they are equal then. * A fixed limit has the problem of still taking an awful long time. * Reduce the limit every time running into it. That should work fine for * deeply linked structures that are not recursively linked and catch * recursiveness quickly. */ if (!recursive) tv_equal_recurse_limit = 1000; if (recursive_cnt >= tv_equal_recurse_limit) { --tv_equal_recurse_limit; return TRUE; } /* For VAR_FUNC and VAR_PARTIAL compare the function name, bound dict and * arguments. */ if ((tv1->v_type == VAR_FUNC || (tv1->v_type == VAR_PARTIAL && tv1->vval.v_partial != NULL)) && (tv2->v_type == VAR_FUNC || (tv2->v_type == VAR_PARTIAL && tv2->vval.v_partial != NULL))) { ++recursive_cnt; r = func_equal(tv1, tv2, ic); --recursive_cnt; return r; } if (tv1->v_type != tv2->v_type) return FALSE; switch (tv1->v_type) { case VAR_LIST: ++recursive_cnt; r = list_equal(tv1->vval.v_list, tv2->vval.v_list, ic, TRUE); --recursive_cnt; return r; case VAR_DICT: ++recursive_cnt; r = dict_equal(tv1->vval.v_dict, tv2->vval.v_dict, ic, TRUE); --recursive_cnt; return r; case VAR_NUMBER: return tv1->vval.v_number == tv2->vval.v_number; case VAR_STRING: s1 = get_tv_string_buf(tv1, buf1); s2 = get_tv_string_buf(tv2, buf2); return ((ic ? MB_STRICMP(s1, s2) : STRCMP(s1, s2)) == 0); case VAR_SPECIAL: return tv1->vval.v_number == tv2->vval.v_number; case VAR_FLOAT: #ifdef FEAT_FLOAT return tv1->vval.v_float == tv2->vval.v_float; #endif case VAR_JOB: #ifdef FEAT_JOB_CHANNEL return tv1->vval.v_job == tv2->vval.v_job; #endif case VAR_CHANNEL: #ifdef FEAT_JOB_CHANNEL return tv1->vval.v_channel == tv2->vval.v_channel; #endif case VAR_FUNC: case VAR_PARTIAL: case VAR_UNKNOWN: break; } /* VAR_UNKNOWN can be the result of a invalid expression, let's say it * does not equal anything, not even itself. */ return FALSE; } /* * Return the next (unique) copy ID. * Used for serializing nested structures. */ int get_copyID(void) { current_copyID += COPYID_INC; return current_copyID; } /* * Garbage collection for lists and dictionaries. * * We use reference counts to be able to free most items right away when they * are no longer used. But for composite items it's possible that it becomes * unused while the reference count is > 0: When there is a recursive * reference. Example: * :let l = [1, 2, 3] * :let d = {9: l} * :let l[1] = d * * Since this is quite unusual we handle this with garbage collection: every * once in a while find out which lists and dicts are not referenced from any * variable. * * Here is a good reference text about garbage collection (refers to Python * but it applies to all reference-counting mechanisms): * http://python.ca/nas/python/gc/ */ /* * Do garbage collection for lists and dicts. * When "testing" is TRUE this is called from test_garbagecollect_now(). * Return TRUE if some memory was freed. */ int garbage_collect(int testing) { int copyID; int abort = FALSE; buf_T *buf; win_T *wp; int i; int did_free = FALSE; tabpage_T *tp; if (!testing) { /* Only do this once. */ want_garbage_collect = FALSE; may_garbage_collect = FALSE; garbage_collect_at_exit = FALSE; } /* We advance by two because we add one for items referenced through * previous_funccal. */ copyID = get_copyID(); /* * 1. Go through all accessible variables and mark all lists and dicts * with copyID. */ /* Don't free variables in the previous_funccal list unless they are only * referenced through previous_funccal. This must be first, because if * the item is referenced elsewhere the funccal must not be freed. */ abort = abort || set_ref_in_previous_funccal(copyID); /* script-local variables */ for (i = 1; i <= ga_scripts.ga_len; ++i) abort = abort || set_ref_in_ht(&SCRIPT_VARS(i), copyID, NULL); /* buffer-local variables */ FOR_ALL_BUFFERS(buf) abort = abort || set_ref_in_item(&buf->b_bufvar.di_tv, copyID, NULL, NULL); /* window-local variables */ FOR_ALL_TAB_WINDOWS(tp, wp) abort = abort || set_ref_in_item(&wp->w_winvar.di_tv, copyID, NULL, NULL); #ifdef FEAT_AUTOCMD if (aucmd_win != NULL) abort = abort || set_ref_in_item(&aucmd_win->w_winvar.di_tv, copyID, NULL, NULL); #endif /* tabpage-local variables */ FOR_ALL_TABPAGES(tp) abort = abort || set_ref_in_item(&tp->tp_winvar.di_tv, copyID, NULL, NULL); /* global variables */ abort = abort || set_ref_in_ht(&globvarht, copyID, NULL); /* function-local variables */ abort = abort || set_ref_in_call_stack(copyID); /* named functions (matters for closures) */ abort = abort || set_ref_in_functions(copyID); /* function call arguments, if v:testing is set. */ abort = abort || set_ref_in_func_args(copyID); /* v: vars */ abort = abort || set_ref_in_ht(&vimvarht, copyID, NULL); #ifdef FEAT_LUA abort = abort || set_ref_in_lua(copyID); #endif #ifdef FEAT_PYTHON abort = abort || set_ref_in_python(copyID); #endif #ifdef FEAT_PYTHON3 abort = abort || set_ref_in_python3(copyID); #endif #ifdef FEAT_JOB_CHANNEL abort = abort || set_ref_in_channel(copyID); abort = abort || set_ref_in_job(copyID); #endif #ifdef FEAT_NETBEANS_INTG abort = abort || set_ref_in_nb_channel(copyID); #endif #ifdef FEAT_TIMERS abort = abort || set_ref_in_timer(copyID); #endif #ifdef FEAT_QUICKFIX abort = abort || set_ref_in_quickfix(copyID); #endif #ifdef FEAT_TERMINAL abort = abort || set_ref_in_term(copyID); #endif if (!abort) { /* * 2. Free lists and dictionaries that are not referenced. */ did_free = free_unref_items(copyID); /* * 3. Check if any funccal can be freed now. * This may call us back recursively. */ free_unref_funccal(copyID, testing); } else if (p_verbose > 0) { verb_msg((char_u *)_("Not enough memory to set references, garbage collection aborted!")); } return did_free; } /* * Free lists, dictionaries, channels and jobs that are no longer referenced. */ static int free_unref_items(int copyID) { int did_free = FALSE; /* Let all "free" functions know that we are here. This means no * dictionaries, lists, channels or jobs are to be freed, because we will * do that here. */ in_free_unref_items = TRUE; /* * PASS 1: free the contents of the items. We don't free the items * themselves yet, so that it is possible to decrement refcount counters */ /* Go through the list of dicts and free items without the copyID. */ did_free |= dict_free_nonref(copyID); /* Go through the list of lists and free items without the copyID. */ did_free |= list_free_nonref(copyID); #ifdef FEAT_JOB_CHANNEL /* Go through the list of jobs and free items without the copyID. This * must happen before doing channels, because jobs refer to channels, but * the reference from the channel to the job isn't tracked. */ did_free |= free_unused_jobs_contents(copyID, COPYID_MASK); /* Go through the list of channels and free items without the copyID. */ did_free |= free_unused_channels_contents(copyID, COPYID_MASK); #endif /* * PASS 2: free the items themselves. */ dict_free_items(copyID); list_free_items(copyID); #ifdef FEAT_JOB_CHANNEL /* Go through the list of jobs and free items without the copyID. This * must happen before doing channels, because jobs refer to channels, but * the reference from the channel to the job isn't tracked. */ free_unused_jobs(copyID, COPYID_MASK); /* Go through the list of channels and free items without the copyID. */ free_unused_channels(copyID, COPYID_MASK); #endif in_free_unref_items = FALSE; return did_free; } /* * Mark all lists and dicts referenced through hashtab "ht" with "copyID". * "list_stack" is used to add lists to be marked. Can be NULL. * * Returns TRUE if setting references failed somehow. */ int set_ref_in_ht(hashtab_T *ht, int copyID, list_stack_T **list_stack) { int todo; int abort = FALSE; hashitem_T *hi; hashtab_T *cur_ht; ht_stack_T *ht_stack = NULL; ht_stack_T *tempitem; cur_ht = ht; for (;;) { if (!abort) { /* Mark each item in the hashtab. If the item contains a hashtab * it is added to ht_stack, if it contains a list it is added to * list_stack. */ todo = (int)cur_ht->ht_used; for (hi = cur_ht->ht_array; todo > 0; ++hi) if (!HASHITEM_EMPTY(hi)) { --todo; abort = abort || set_ref_in_item(&HI2DI(hi)->di_tv, copyID, &ht_stack, list_stack); } } if (ht_stack == NULL) break; /* take an item from the stack */ cur_ht = ht_stack->ht; tempitem = ht_stack; ht_stack = ht_stack->prev; free(tempitem); } return abort; } /* * Mark all lists and dicts referenced through list "l" with "copyID". * "ht_stack" is used to add hashtabs to be marked. Can be NULL. * * Returns TRUE if setting references failed somehow. */ int set_ref_in_list(list_T *l, int copyID, ht_stack_T **ht_stack) { listitem_T *li; int abort = FALSE; list_T *cur_l; list_stack_T *list_stack = NULL; list_stack_T *tempitem; cur_l = l; for (;;) { if (!abort) /* Mark each item in the list. If the item contains a hashtab * it is added to ht_stack, if it contains a list it is added to * list_stack. */ for (li = cur_l->lv_first; !abort && li != NULL; li = li->li_next) abort = abort || set_ref_in_item(&li->li_tv, copyID, ht_stack, &list_stack); if (list_stack == NULL) break; /* take an item from the stack */ cur_l = list_stack->list; tempitem = list_stack; list_stack = list_stack->prev; free(tempitem); } return abort; } /* * Mark all lists and dicts referenced through typval "tv" with "copyID". * "list_stack" is used to add lists to be marked. Can be NULL. * "ht_stack" is used to add hashtabs to be marked. Can be NULL. * * Returns TRUE if setting references failed somehow. */ int set_ref_in_item( typval_T *tv, int copyID, ht_stack_T **ht_stack, list_stack_T **list_stack) { int abort = FALSE; if (tv->v_type == VAR_DICT) { dict_T *dd = tv->vval.v_dict; if (dd != NULL && dd->dv_copyID != copyID) { /* Didn't see this dict yet. */ dd->dv_copyID = copyID; if (ht_stack == NULL) { abort = set_ref_in_ht(&dd->dv_hashtab, copyID, list_stack); } else { ht_stack_T *newitem = (ht_stack_T*)malloc(sizeof(ht_stack_T)); if (newitem == NULL) abort = TRUE; else { newitem->ht = &dd->dv_hashtab; newitem->prev = *ht_stack; *ht_stack = newitem; } } } } else if (tv->v_type == VAR_LIST) { list_T *ll = tv->vval.v_list; if (ll != NULL && ll->lv_copyID != copyID) { /* Didn't see this list yet. */ ll->lv_copyID = copyID; if (list_stack == NULL) { abort = set_ref_in_list(ll, copyID, ht_stack); } else { list_stack_T *newitem = (list_stack_T*)malloc( sizeof(list_stack_T)); if (newitem == NULL) abort = TRUE; else { newitem->list = ll; newitem->prev = *list_stack; *list_stack = newitem; } } } } else if (tv->v_type == VAR_FUNC) { abort = set_ref_in_func(tv->vval.v_string, NULL, copyID); } else if (tv->v_type == VAR_PARTIAL) { partial_T *pt = tv->vval.v_partial; int i; /* A partial does not have a copyID, because it cannot contain itself. */ if (pt != NULL) { abort = set_ref_in_func(pt->pt_name, pt->pt_func, copyID); if (pt->pt_dict != NULL) { typval_T dtv; dtv.v_type = VAR_DICT; dtv.vval.v_dict = pt->pt_dict; set_ref_in_item(&dtv, copyID, ht_stack, list_stack); } for (i = 0; i < pt->pt_argc; ++i) abort = abort || set_ref_in_item(&pt->pt_argv[i], copyID, ht_stack, list_stack); } } #ifdef FEAT_JOB_CHANNEL else if (tv->v_type == VAR_JOB) { job_T *job = tv->vval.v_job; typval_T dtv; if (job != NULL && job->jv_copyID != copyID) { job->jv_copyID = copyID; if (job->jv_channel != NULL) { dtv.v_type = VAR_CHANNEL; dtv.vval.v_channel = job->jv_channel; set_ref_in_item(&dtv, copyID, ht_stack, list_stack); } if (job->jv_exit_partial != NULL) { dtv.v_type = VAR_PARTIAL; dtv.vval.v_partial = job->jv_exit_partial; set_ref_in_item(&dtv, copyID, ht_stack, list_stack); } } } else if (tv->v_type == VAR_CHANNEL) { channel_T *ch =tv->vval.v_channel; ch_part_T part; typval_T dtv; jsonq_T *jq; cbq_T *cq; if (ch != NULL && ch->ch_copyID != copyID) { ch->ch_copyID = copyID; for (part = PART_SOCK; part < PART_COUNT; ++part) { for (jq = ch->ch_part[part].ch_json_head.jq_next; jq != NULL; jq = jq->jq_next) set_ref_in_item(jq->jq_value, copyID, ht_stack, list_stack); for (cq = ch->ch_part[part].ch_cb_head.cq_next; cq != NULL; cq = cq->cq_next) if (cq->cq_partial != NULL) { dtv.v_type = VAR_PARTIAL; dtv.vval.v_partial = cq->cq_partial; set_ref_in_item(&dtv, copyID, ht_stack, list_stack); } if (ch->ch_part[part].ch_partial != NULL) { dtv.v_type = VAR_PARTIAL; dtv.vval.v_partial = ch->ch_part[part].ch_partial; set_ref_in_item(&dtv, copyID, ht_stack, list_stack); } } if (ch->ch_partial != NULL) { dtv.v_type = VAR_PARTIAL; dtv.vval.v_partial = ch->ch_partial; set_ref_in_item(&dtv, copyID, ht_stack, list_stack); } if (ch->ch_close_partial != NULL) { dtv.v_type = VAR_PARTIAL; dtv.vval.v_partial = ch->ch_close_partial; set_ref_in_item(&dtv, copyID, ht_stack, list_stack); } } } #endif return abort; } static char * get_var_special_name(int nr) { switch (nr) { case VVAL_FALSE: return "v:false"; case VVAL_TRUE: return "v:true"; case VVAL_NONE: return "v:none"; case VVAL_NULL: return "v:null"; } internal_error("get_var_special_name()"); return "42"; } /* * Return a string with the string representation of a variable. * If the memory is allocated "tofree" is set to it, otherwise NULL. * "numbuf" is used for a number. * When "copyID" is not NULL replace recursive lists and dicts with "...". * When both "echo_style" and "composite_val" are FALSE, put quotes around * stings as "string()", otherwise does not put quotes around strings, as * ":echo" displays values. * When "restore_copyID" is FALSE, repeated items in dictionaries and lists * are replaced with "...". * May return NULL. */ char_u * echo_string_core( typval_T *tv, char_u **tofree, char_u *numbuf, int copyID, int echo_style, int restore_copyID, int composite_val) { static int recurse = 0; char_u *r = NULL; if (recurse >= DICT_MAXNEST) { if (!did_echo_string_emsg) { /* Only give this message once for a recursive call to avoid * flooding the user with errors. And stop iterating over lists * and dicts. */ did_echo_string_emsg = TRUE; EMSG(_("E724: variable nested too deep for displaying")); } *tofree = NULL; return (char_u *)"{E724}"; } ++recurse; switch (tv->v_type) { case VAR_STRING: if (echo_style && !composite_val) { *tofree = NULL; r = tv->vval.v_string; if (r == NULL) r = (char_u *)""; } else { *tofree = string_quote(tv->vval.v_string, FALSE); r = *tofree; } break; case VAR_FUNC: if (echo_style) { *tofree = NULL; r = tv->vval.v_string; } else { *tofree = string_quote(tv->vval.v_string, TRUE); r = *tofree; } break; case VAR_PARTIAL: { partial_T *pt = tv->vval.v_partial; char_u *fname = string_quote(pt == NULL ? NULL : partial_name(pt), FALSE); garray_T ga; int i; char_u *tf; ga_init2(&ga, 1, 100); ga_concat(&ga, (char_u *)"function("); if (fname != NULL) { ga_concat(&ga, fname); vim_free(fname); } if (pt != NULL && pt->pt_argc > 0) { ga_concat(&ga, (char_u *)", ["); for (i = 0; i < pt->pt_argc; ++i) { if (i > 0) ga_concat(&ga, (char_u *)", "); ga_concat(&ga, tv2string(&pt->pt_argv[i], &tf, numbuf, copyID)); vim_free(tf); } ga_concat(&ga, (char_u *)"]"); } if (pt != NULL && pt->pt_dict != NULL) { typval_T dtv; ga_concat(&ga, (char_u *)", "); dtv.v_type = VAR_DICT; dtv.vval.v_dict = pt->pt_dict; ga_concat(&ga, tv2string(&dtv, &tf, numbuf, copyID)); vim_free(tf); } ga_concat(&ga, (char_u *)")"); *tofree = ga.ga_data; r = *tofree; break; } case VAR_LIST: if (tv->vval.v_list == NULL) { *tofree = NULL; r = NULL; } else if (copyID != 0 && tv->vval.v_list->lv_copyID == copyID && tv->vval.v_list->lv_len > 0) { *tofree = NULL; r = (char_u *)"[...]"; } else { int old_copyID = tv->vval.v_list->lv_copyID; tv->vval.v_list->lv_copyID = copyID; *tofree = list2string(tv, copyID, restore_copyID); if (restore_copyID) tv->vval.v_list->lv_copyID = old_copyID; r = *tofree; } break; case VAR_DICT: if (tv->vval.v_dict == NULL) { *tofree = NULL; r = NULL; } else if (copyID != 0 && tv->vval.v_dict->dv_copyID == copyID && tv->vval.v_dict->dv_hashtab.ht_used != 0) { *tofree = NULL; r = (char_u *)"{...}"; } else { int old_copyID = tv->vval.v_dict->dv_copyID; tv->vval.v_dict->dv_copyID = copyID; *tofree = dict2string(tv, copyID, restore_copyID); if (restore_copyID) tv->vval.v_dict->dv_copyID = old_copyID; r = *tofree; } break; case VAR_NUMBER: case VAR_UNKNOWN: *tofree = NULL; r = get_tv_string_buf(tv, numbuf); break; case VAR_JOB: case VAR_CHANNEL: *tofree = NULL; r = get_tv_string_buf(tv, numbuf); if (composite_val) { *tofree = string_quote(r, FALSE); r = *tofree; } break; case VAR_FLOAT: #ifdef FEAT_FLOAT *tofree = NULL; vim_snprintf((char *)numbuf, NUMBUFLEN, "%g", tv->vval.v_float); r = numbuf; break; #endif case VAR_SPECIAL: *tofree = NULL; r = (char_u *)get_var_special_name(tv->vval.v_number); break; } if (--recurse == 0) did_echo_string_emsg = FALSE; return r; } /* * Return a string with the string representation of a variable. * If the memory is allocated "tofree" is set to it, otherwise NULL. * "numbuf" is used for a number. * Does not put quotes around strings, as ":echo" displays values. * When "copyID" is not NULL replace recursive lists and dicts with "...". * May return NULL. */ char_u * echo_string( typval_T *tv, char_u **tofree, char_u *numbuf, int copyID) { return echo_string_core(tv, tofree, numbuf, copyID, TRUE, FALSE, FALSE); } /* * Return a string with the string representation of a variable. * If the memory is allocated "tofree" is set to it, otherwise NULL. * "numbuf" is used for a number. * Puts quotes around strings, so that they can be parsed back by eval(). * May return NULL. */ char_u * tv2string( typval_T *tv, char_u **tofree, char_u *numbuf, int copyID) { return echo_string_core(tv, tofree, numbuf, copyID, FALSE, TRUE, FALSE); } /* * Return string "str" in ' quotes, doubling ' characters. * If "str" is NULL an empty string is assumed. * If "function" is TRUE make it function('string'). */ char_u * string_quote(char_u *str, int function) { unsigned len; char_u *p, *r, *s; len = (function ? 13 : 3); if (str != NULL) { len += (unsigned)STRLEN(str); for (p = str; *p != NUL; MB_PTR_ADV(p)) if (*p == '\'') ++len; } s = r = alloc(len); if (r != NULL) { if (function) { STRCPY(r, "function('"); r += 10; } else *r++ = '\''; if (str != NULL) for (p = str; *p != NUL; ) { if (*p == '\'') *r++ = '\''; MB_COPY_CHAR(p, r); } *r++ = '\''; if (function) *r++ = ')'; *r++ = NUL; } return s; } #if defined(FEAT_FLOAT) || defined(PROTO) /* * Convert the string "text" to a floating point number. * This uses strtod(). setlocale(LC_NUMERIC, "C") has been used to make sure * this always uses a decimal point. * Returns the length of the text that was consumed. */ int string2float( char_u *text, float_T *value) /* result stored here */ { char *s = (char *)text; float_T f; /* MS-Windows does not deal with "inf" and "nan" properly. */ if (STRNICMP(text, "inf", 3) == 0) { *value = INFINITY; return 3; } if (STRNICMP(text, "-inf", 3) == 0) { *value = -INFINITY; return 4; } if (STRNICMP(text, "nan", 3) == 0) { *value = NAN; return 3; } f = strtod(s, &s); *value = f; return (int)((char_u *)s - text); } #endif /* * Get the value of an environment variable. * "arg" is pointing to the '$'. It is advanced to after the name. * If the environment variable was not set, silently assume it is empty. * Return FAIL if the name is invalid. */ static int get_env_tv(char_u **arg, typval_T *rettv, int evaluate) { char_u *string = NULL; int len; int cc; char_u *name; int mustfree = FALSE; ++*arg; name = *arg; len = get_env_len(arg); if (evaluate) { if (len == 0) return FAIL; /* invalid empty name */ cc = name[len]; name[len] = NUL; /* first try vim_getenv(), fast for normal environment vars */ string = vim_getenv(name, &mustfree); if (string != NULL && *string != NUL) { if (!mustfree) string = vim_strsave(string); } else { if (mustfree) vim_free(string); /* next try expanding things like $VIM and ${HOME} */ string = expand_env_save(name - 1); if (string != NULL && *string == '$') VIM_CLEAR(string); } name[len] = cc; rettv->v_type = VAR_STRING; rettv->vval.v_string = string; } return OK; } /* * Translate a String variable into a position. * Returns NULL when there is an error. */ pos_T * var2fpos( typval_T *varp, int dollar_lnum, /* TRUE when $ is last line */ int *fnum) /* set to fnum for '0, 'A, etc. */ { char_u *name; static pos_T pos; pos_T *pp; /* Argument can be [lnum, col, coladd]. */ if (varp->v_type == VAR_LIST) { list_T *l; int len; int error = FALSE; listitem_T *li; l = varp->vval.v_list; if (l == NULL) return NULL; /* Get the line number */ pos.lnum = list_find_nr(l, 0L, &error); if (error || pos.lnum <= 0 || pos.lnum > curbuf->b_ml.ml_line_count) return NULL; /* invalid line number */ /* Get the column number */ pos.col = list_find_nr(l, 1L, &error); if (error) return NULL; len = (long)STRLEN(ml_get(pos.lnum)); /* We accept "$" for the column number: last column. */ li = list_find(l, 1L); if (li != NULL && li->li_tv.v_type == VAR_STRING && li->li_tv.vval.v_string != NULL && STRCMP(li->li_tv.vval.v_string, "$") == 0) pos.col = len + 1; /* Accept a position up to the NUL after the line. */ if (pos.col == 0 || (int)pos.col > len + 1) return NULL; /* invalid column number */ --pos.col; #ifdef FEAT_VIRTUALEDIT /* Get the virtual offset. Defaults to zero. */ pos.coladd = list_find_nr(l, 2L, &error); if (error) pos.coladd = 0; #endif return &pos; } name = get_tv_string_chk(varp); if (name == NULL) return NULL; if (name[0] == '.') /* cursor */ return &curwin->w_cursor; if (name[0] == 'v' && name[1] == NUL) /* Visual start */ { if (VIsual_active) return &VIsual; return &curwin->w_cursor; } if (name[0] == '\'') /* mark */ { pp = getmark_buf_fnum(curbuf, name[1], FALSE, fnum); if (pp == NULL || pp == (pos_T *)-1 || pp->lnum <= 0) return NULL; return pp; } #ifdef FEAT_VIRTUALEDIT pos.coladd = 0; #endif if (name[0] == 'w' && dollar_lnum) { pos.col = 0; if (name[1] == '0') /* "w0": first visible line */ { update_topline(); /* In silent Ex mode topline is zero, but that's not a valid line * number; use one instead. */ pos.lnum = curwin->w_topline > 0 ? curwin->w_topline : 1; return &pos; } else if (name[1] == '$') /* "w$": last visible line */ { validate_botline(); /* In silent Ex mode botline is zero, return zero then. */ pos.lnum = curwin->w_botline > 0 ? curwin->w_botline - 1 : 0; return &pos; } } else if (name[0] == '$') /* last column or line */ { if (dollar_lnum) { pos.lnum = curbuf->b_ml.ml_line_count; pos.col = 0; } else { pos.lnum = curwin->w_cursor.lnum; pos.col = (colnr_T)STRLEN(ml_get_curline()); } return &pos; } return NULL; } /* * Convert list in "arg" into a position and optional file number. * When "fnump" is NULL there is no file number, only 3 items. * Note that the column is passed on as-is, the caller may want to decrement * it to use 1 for the first column. * Return FAIL when conversion is not possible, doesn't check the position for * validity. */ int list2fpos( typval_T *arg, pos_T *posp, int *fnump, colnr_T *curswantp) { list_T *l = arg->vval.v_list; long i = 0; long n; /* List must be: [fnum, lnum, col, coladd, curswant], where "fnum" is only * there when "fnump" isn't NULL; "coladd" and "curswant" are optional. */ if (arg->v_type != VAR_LIST || l == NULL || l->lv_len < (fnump == NULL ? 2 : 3) || l->lv_len > (fnump == NULL ? 4 : 5)) return FAIL; if (fnump != NULL) { n = list_find_nr(l, i++, NULL); /* fnum */ if (n < 0) return FAIL; if (n == 0) n = curbuf->b_fnum; /* current buffer */ *fnump = n; } n = list_find_nr(l, i++, NULL); /* lnum */ if (n < 0) return FAIL; posp->lnum = n; n = list_find_nr(l, i++, NULL); /* col */ if (n < 0) return FAIL; posp->col = n; #ifdef FEAT_VIRTUALEDIT n = list_find_nr(l, i, NULL); /* off */ if (n < 0) posp->coladd = 0; else posp->coladd = n; #endif if (curswantp != NULL) *curswantp = list_find_nr(l, i + 1, NULL); /* curswant */ return OK; } /* * Get the length of an environment variable name. * Advance "arg" to the first character after the name. * Return 0 for error. */ static int get_env_len(char_u **arg) { char_u *p; int len; for (p = *arg; vim_isIDc(*p); ++p) ; if (p == *arg) /* no name found */ return 0; len = (int)(p - *arg); *arg = p; return len; } /* * Get the length of the name of a function or internal variable. * "arg" is advanced to the first non-white character after the name. * Return 0 if something is wrong. */ int get_id_len(char_u **arg) { char_u *p; int len; /* Find the end of the name. */ for (p = *arg; eval_isnamec(*p); ++p) { if (*p == ':') { /* "s:" is start of "s:var", but "n:" is not and can be used in * slice "[n:]". Also "xx:" is not a namespace. */ len = (int)(p - *arg); if ((len == 1 && vim_strchr(NAMESPACE_CHAR, **arg) == NULL) || len > 1) break; } } if (p == *arg) /* no name found */ return 0; len = (int)(p - *arg); *arg = skipwhite(p); return len; } /* * Get the length of the name of a variable or function. * Only the name is recognized, does not handle ".key" or "[idx]". * "arg" is advanced to the first non-white character after the name. * Return -1 if curly braces expansion failed. * Return 0 if something else is wrong. * If the name contains 'magic' {}'s, expand them and return the * expanded name in an allocated string via 'alias' - caller must free. */ int get_name_len( char_u **arg, char_u **alias, int evaluate, int verbose) { int len; char_u *p; char_u *expr_start; char_u *expr_end; *alias = NULL; /* default to no alias */ if ((*arg)[0] == K_SPECIAL && (*arg)[1] == KS_EXTRA && (*arg)[2] == (int)KE_SNR) { /* hard coded , already translated */ *arg += 3; return get_id_len(arg) + 3; } len = eval_fname_script(*arg); if (len > 0) { /* literal "", "s:" or "" */ *arg += len; } /* * Find the end of the name; check for {} construction. */ p = find_name_end(*arg, &expr_start, &expr_end, len > 0 ? 0 : FNE_CHECK_START); if (expr_start != NULL) { char_u *temp_string; if (!evaluate) { len += (int)(p - *arg); *arg = skipwhite(p); return len; } /* * Include any etc in the expanded string: * Thus the -len here. */ temp_string = make_expanded_name(*arg - len, expr_start, expr_end, p); if (temp_string == NULL) return -1; *alias = temp_string; *arg = skipwhite(p); return (int)STRLEN(temp_string); } len += get_id_len(arg); if (len == 0 && verbose) EMSG2(_(e_invexpr2), *arg); return len; } /* * Find the end of a variable or function name, taking care of magic braces. * If "expr_start" is not NULL then "expr_start" and "expr_end" are set to the * start and end of the first magic braces item. * "flags" can have FNE_INCL_BR and FNE_CHECK_START. * Return a pointer to just after the name. Equal to "arg" if there is no * valid name. */ char_u * find_name_end( char_u *arg, char_u **expr_start, char_u **expr_end, int flags) { int mb_nest = 0; int br_nest = 0; char_u *p; int len; if (expr_start != NULL) { *expr_start = NULL; *expr_end = NULL; } /* Quick check for valid starting character. */ if ((flags & FNE_CHECK_START) && !eval_isnamec1(*arg) && *arg != '{') return arg; for (p = arg; *p != NUL && (eval_isnamec(*p) || *p == '{' || ((flags & FNE_INCL_BR) && (*p == '[' || *p == '.')) || mb_nest != 0 || br_nest != 0); MB_PTR_ADV(p)) { if (*p == '\'') { /* skip over 'string' to avoid counting [ and ] inside it. */ for (p = p + 1; *p != NUL && *p != '\''; MB_PTR_ADV(p)) ; if (*p == NUL) break; } else if (*p == '"') { /* skip over "str\"ing" to avoid counting [ and ] inside it. */ for (p = p + 1; *p != NUL && *p != '"'; MB_PTR_ADV(p)) if (*p == '\\' && p[1] != NUL) ++p; if (*p == NUL) break; } else if (br_nest == 0 && mb_nest == 0 && *p == ':') { /* "s:" is start of "s:var", but "n:" is not and can be used in * slice "[n:]". Also "xx:" is not a namespace. But {ns}: is. */ len = (int)(p - arg); if ((len == 1 && vim_strchr(NAMESPACE_CHAR, *arg) == NULL) || (len > 1 && p[-1] != '}')) break; } if (mb_nest == 0) { if (*p == '[') ++br_nest; else if (*p == ']') --br_nest; } if (br_nest == 0) { if (*p == '{') { mb_nest++; if (expr_start != NULL && *expr_start == NULL) *expr_start = p; } else if (*p == '}') { mb_nest--; if (expr_start != NULL && mb_nest == 0 && *expr_end == NULL) *expr_end = p; } } } return p; } /* * Expands out the 'magic' {}'s in a variable/function name. * Note that this can call itself recursively, to deal with * constructs like foo{bar}{baz}{bam} * The four pointer arguments point to "foo{expre}ss{ion}bar" * "in_start" ^ * "expr_start" ^ * "expr_end" ^ * "in_end" ^ * * Returns a new allocated string, which the caller must free. * Returns NULL for failure. */ static char_u * make_expanded_name( char_u *in_start, char_u *expr_start, char_u *expr_end, char_u *in_end) { char_u c1; char_u *retval = NULL; char_u *temp_result; char_u *nextcmd = NULL; if (expr_end == NULL || in_end == NULL) return NULL; *expr_start = NUL; *expr_end = NUL; c1 = *in_end; *in_end = NUL; temp_result = eval_to_string(expr_start + 1, &nextcmd, FALSE); if (temp_result != NULL && nextcmd == NULL) { retval = alloc((unsigned)(STRLEN(temp_result) + (expr_start - in_start) + (in_end - expr_end) + 1)); if (retval != NULL) { STRCPY(retval, in_start); STRCAT(retval, temp_result); STRCAT(retval, expr_end + 1); } } vim_free(temp_result); *in_end = c1; /* put char back for error messages */ *expr_start = '{'; *expr_end = '}'; if (retval != NULL) { temp_result = find_name_end(retval, &expr_start, &expr_end, 0); if (expr_start != NULL) { /* Further expansion! */ temp_result = make_expanded_name(retval, expr_start, expr_end, temp_result); vim_free(retval); retval = temp_result; } } return retval; } /* * Return TRUE if character "c" can be used in a variable or function name. * Does not include '{' or '}' for magic braces. */ int eval_isnamec(int c) { return (ASCII_ISALNUM(c) || c == '_' || c == ':' || c == AUTOLOAD_CHAR); } /* * Return TRUE if character "c" can be used as the first character in a * variable or function name (excluding '{' and '}'). */ int eval_isnamec1(int c) { return (ASCII_ISALPHA(c) || c == '_'); } /* * Set number v: variable to "val". */ void set_vim_var_nr(int idx, varnumber_T val) { vimvars[idx].vv_nr = val; } /* * Get number v: variable value. */ varnumber_T get_vim_var_nr(int idx) { return vimvars[idx].vv_nr; } /* * Get string v: variable value. Uses a static buffer, can only be used once. * If the String variable has never been set, return an empty string. * Never returns NULL; */ char_u * get_vim_var_str(int idx) { return get_tv_string(&vimvars[idx].vv_tv); } /* * Get List v: variable value. Caller must take care of reference count when * needed. */ list_T * get_vim_var_list(int idx) { return vimvars[idx].vv_list; } /* * Get Dict v: variable value. Caller must take care of reference count when * needed. */ dict_T * get_vim_var_dict(int idx) { return vimvars[idx].vv_dict; } /* * Set v:char to character "c". */ void set_vim_var_char(int c) { char_u buf[MB_MAXBYTES + 1]; #ifdef FEAT_MBYTE if (has_mbyte) buf[(*mb_char2bytes)(c, buf)] = NUL; else #endif { buf[0] = c; buf[1] = NUL; } set_vim_var_string(VV_CHAR, buf, -1); } /* * Set v:count to "count" and v:count1 to "count1". * When "set_prevcount" is TRUE first set v:prevcount from v:count. */ void set_vcount( long count, long count1, int set_prevcount) { if (set_prevcount) vimvars[VV_PREVCOUNT].vv_nr = vimvars[VV_COUNT].vv_nr; vimvars[VV_COUNT].vv_nr = count; vimvars[VV_COUNT1].vv_nr = count1; } /* * Set string v: variable to a copy of "val". */ void set_vim_var_string( int idx, char_u *val, int len) /* length of "val" to use or -1 (whole string) */ { clear_tv(&vimvars[idx].vv_di.di_tv); vimvars[idx].vv_type = VAR_STRING; if (val == NULL) vimvars[idx].vv_str = NULL; else if (len == -1) vimvars[idx].vv_str = vim_strsave(val); else vimvars[idx].vv_str = vim_strnsave(val, len); } /* * Set List v: variable to "val". */ void set_vim_var_list(int idx, list_T *val) { clear_tv(&vimvars[idx].vv_di.di_tv); vimvars[idx].vv_type = VAR_LIST; vimvars[idx].vv_list = val; if (val != NULL) ++val->lv_refcount; } /* * Set Dictionary v: variable to "val". */ void set_vim_var_dict(int idx, dict_T *val) { clear_tv(&vimvars[idx].vv_di.di_tv); vimvars[idx].vv_type = VAR_DICT; vimvars[idx].vv_dict = val; if (val != NULL) { ++val->dv_refcount; dict_set_items_ro(val); } } /* * Set v:register if needed. */ void set_reg_var(int c) { char_u regname; if (c == 0 || c == ' ') regname = '"'; else regname = c; /* Avoid free/alloc when the value is already right. */ if (vimvars[VV_REG].vv_str == NULL || vimvars[VV_REG].vv_str[0] != c) set_vim_var_string(VV_REG, ®name, 1); } /* * Get or set v:exception. If "oldval" == NULL, return the current value. * Otherwise, restore the value to "oldval" and return NULL. * Must always be called in pairs to save and restore v:exception! Does not * take care of memory allocations. */ char_u * v_exception(char_u *oldval) { if (oldval == NULL) return vimvars[VV_EXCEPTION].vv_str; vimvars[VV_EXCEPTION].vv_str = oldval; return NULL; } /* * Get or set v:throwpoint. If "oldval" == NULL, return the current value. * Otherwise, restore the value to "oldval" and return NULL. * Must always be called in pairs to save and restore v:throwpoint! Does not * take care of memory allocations. */ char_u * v_throwpoint(char_u *oldval) { if (oldval == NULL) return vimvars[VV_THROWPOINT].vv_str; vimvars[VV_THROWPOINT].vv_str = oldval; return NULL; } #if defined(FEAT_AUTOCMD) || defined(PROTO) /* * Set v:cmdarg. * If "eap" != NULL, use "eap" to generate the value and return the old value. * If "oldarg" != NULL, restore the value to "oldarg" and return NULL. * Must always be called in pairs! */ char_u * set_cmdarg(exarg_T *eap, char_u *oldarg) { char_u *oldval; char_u *newval; unsigned len; oldval = vimvars[VV_CMDARG].vv_str; if (eap == NULL) { vim_free(oldval); vimvars[VV_CMDARG].vv_str = oldarg; return NULL; } if (eap->force_bin == FORCE_BIN) len = 6; else if (eap->force_bin == FORCE_NOBIN) len = 8; else len = 0; if (eap->read_edit) len += 7; if (eap->force_ff != 0) len += (unsigned)STRLEN(eap->cmd + eap->force_ff) + 6; # ifdef FEAT_MBYTE if (eap->force_enc != 0) len += (unsigned)STRLEN(eap->cmd + eap->force_enc) + 7; if (eap->bad_char != 0) len += 7 + 4; /* " ++bad=" + "keep" or "drop" */ # endif newval = alloc(len + 1); if (newval == NULL) return NULL; if (eap->force_bin == FORCE_BIN) sprintf((char *)newval, " ++bin"); else if (eap->force_bin == FORCE_NOBIN) sprintf((char *)newval, " ++nobin"); else *newval = NUL; if (eap->read_edit) STRCAT(newval, " ++edit"); if (eap->force_ff != 0) sprintf((char *)newval + STRLEN(newval), " ++ff=%s", eap->cmd + eap->force_ff); # ifdef FEAT_MBYTE if (eap->force_enc != 0) sprintf((char *)newval + STRLEN(newval), " ++enc=%s", eap->cmd + eap->force_enc); if (eap->bad_char == BAD_KEEP) STRCPY(newval + STRLEN(newval), " ++bad=keep"); else if (eap->bad_char == BAD_DROP) STRCPY(newval + STRLEN(newval), " ++bad=drop"); else if (eap->bad_char != 0) sprintf((char *)newval + STRLEN(newval), " ++bad=%c", eap->bad_char); # endif vimvars[VV_CMDARG].vv_str = newval; return oldval; } #endif /* * Get the value of internal variable "name". * Return OK or FAIL. If OK is returned "rettv" must be cleared. */ int get_var_tv( char_u *name, int len, /* length of "name" */ typval_T *rettv, /* NULL when only checking existence */ dictitem_T **dip, /* non-NULL when typval's dict item is needed */ int verbose, /* may give error message */ int no_autoload) /* do not use script autoloading */ { int ret = OK; typval_T *tv = NULL; dictitem_T *v; int cc; /* truncate the name, so that we can use strcmp() */ cc = name[len]; name[len] = NUL; /* * Check for user-defined variables. */ v = find_var(name, NULL, no_autoload); if (v != NULL) { tv = &v->di_tv; if (dip != NULL) *dip = v; } if (tv == NULL) { if (rettv != NULL && verbose) EMSG2(_(e_undefvar), name); ret = FAIL; } else if (rettv != NULL) copy_tv(tv, rettv); name[len] = cc; return ret; } /* * Check if variable "name[len]" is a local variable or an argument. * If so, "*eval_lavars_used" is set to TRUE. */ static void check_vars(char_u *name, int len) { int cc; char_u *varname; hashtab_T *ht; if (eval_lavars_used == NULL) return; /* truncate the name, so that we can use strcmp() */ cc = name[len]; name[len] = NUL; ht = find_var_ht(name, &varname); if (ht == get_funccal_local_ht() || ht == get_funccal_args_ht()) { if (find_var(name, NULL, TRUE) != NULL) *eval_lavars_used = TRUE; } name[len] = cc; } /* * Handle expr[expr], expr[expr:expr] subscript and .name lookup. * Also handle function call with Funcref variable: func(expr) * Can all be combined: dict.func(expr)[idx]['func'](expr) */ int handle_subscript( char_u **arg, typval_T *rettv, int evaluate, /* do more than finding the end */ int verbose) /* give error messages */ { int ret = OK; dict_T *selfdict = NULL; char_u *s; int len; typval_T functv; while (ret == OK && (**arg == '[' || (**arg == '.' && rettv->v_type == VAR_DICT) || (**arg == '(' && (!evaluate || rettv->v_type == VAR_FUNC || rettv->v_type == VAR_PARTIAL))) && !VIM_ISWHITE(*(*arg - 1))) { if (**arg == '(') { partial_T *pt = NULL; /* need to copy the funcref so that we can clear rettv */ if (evaluate) { functv = *rettv; rettv->v_type = VAR_UNKNOWN; /* Invoke the function. Recursive! */ if (functv.v_type == VAR_PARTIAL) { pt = functv.vval.v_partial; s = partial_name(pt); } else s = functv.vval.v_string; } else s = (char_u *)""; ret = get_func_tv(s, (int)STRLEN(s), rettv, arg, curwin->w_cursor.lnum, curwin->w_cursor.lnum, &len, evaluate, pt, selfdict); /* Clear the funcref afterwards, so that deleting it while * evaluating the arguments is possible (see test55). */ if (evaluate) clear_tv(&functv); /* Stop the expression evaluation when immediately aborting on * error, or when an interrupt occurred or an exception was thrown * but not caught. */ if (aborting()) { if (ret == OK) clear_tv(rettv); ret = FAIL; } dict_unref(selfdict); selfdict = NULL; } else /* **arg == '[' || **arg == '.' */ { dict_unref(selfdict); if (rettv->v_type == VAR_DICT) { selfdict = rettv->vval.v_dict; if (selfdict != NULL) ++selfdict->dv_refcount; } else selfdict = NULL; if (eval_index(arg, rettv, evaluate, verbose) == FAIL) { clear_tv(rettv); ret = FAIL; } } } /* Turn "dict.Func" into a partial for "Func" bound to "dict". * Don't do this when "Func" is already a partial that was bound * explicitly (pt_auto is FALSE). */ if (selfdict != NULL && (rettv->v_type == VAR_FUNC || (rettv->v_type == VAR_PARTIAL && (rettv->vval.v_partial->pt_auto || rettv->vval.v_partial->pt_dict == NULL)))) selfdict = make_partial(selfdict, rettv); dict_unref(selfdict); return ret; } /* * Allocate memory for a variable type-value, and make it empty (0 or NULL * value). */ typval_T * alloc_tv(void) { return (typval_T *)alloc_clear((unsigned)sizeof(typval_T)); } /* * Allocate memory for a variable type-value, and assign a string to it. * The string "s" must have been allocated, it is consumed. * Return NULL for out of memory, the variable otherwise. */ static typval_T * alloc_string_tv(char_u *s) { typval_T *rettv; rettv = alloc_tv(); if (rettv != NULL) { rettv->v_type = VAR_STRING; rettv->vval.v_string = s; } else vim_free(s); return rettv; } /* * Free the memory for a variable type-value. */ void free_tv(typval_T *varp) { if (varp != NULL) { switch (varp->v_type) { case VAR_FUNC: func_unref(varp->vval.v_string); /* FALLTHROUGH */ case VAR_STRING: vim_free(varp->vval.v_string); break; case VAR_PARTIAL: partial_unref(varp->vval.v_partial); break; case VAR_LIST: list_unref(varp->vval.v_list); break; case VAR_DICT: dict_unref(varp->vval.v_dict); break; case VAR_JOB: #ifdef FEAT_JOB_CHANNEL job_unref(varp->vval.v_job); break; #endif case VAR_CHANNEL: #ifdef FEAT_JOB_CHANNEL channel_unref(varp->vval.v_channel); break; #endif case VAR_NUMBER: case VAR_FLOAT: case VAR_UNKNOWN: case VAR_SPECIAL: break; } vim_free(varp); } } /* * Free the memory for a variable value and set the value to NULL or 0. */ void clear_tv(typval_T *varp) { if (varp != NULL) { switch (varp->v_type) { case VAR_FUNC: func_unref(varp->vval.v_string); /* FALLTHROUGH */ case VAR_STRING: VIM_CLEAR(varp->vval.v_string); break; case VAR_PARTIAL: partial_unref(varp->vval.v_partial); varp->vval.v_partial = NULL; break; case VAR_LIST: list_unref(varp->vval.v_list); varp->vval.v_list = NULL; break; case VAR_DICT: dict_unref(varp->vval.v_dict); varp->vval.v_dict = NULL; break; case VAR_NUMBER: case VAR_SPECIAL: varp->vval.v_number = 0; break; case VAR_FLOAT: #ifdef FEAT_FLOAT varp->vval.v_float = 0.0; break; #endif case VAR_JOB: #ifdef FEAT_JOB_CHANNEL job_unref(varp->vval.v_job); varp->vval.v_job = NULL; #endif break; case VAR_CHANNEL: #ifdef FEAT_JOB_CHANNEL channel_unref(varp->vval.v_channel); varp->vval.v_channel = NULL; #endif case VAR_UNKNOWN: break; } varp->v_lock = 0; } } /* * Set the value of a variable to NULL without freeing items. */ void init_tv(typval_T *varp) { if (varp != NULL) vim_memset(varp, 0, sizeof(typval_T)); } /* * Get the number value of a variable. * If it is a String variable, uses vim_str2nr(). * For incompatible types, return 0. * get_tv_number_chk() is similar to get_tv_number(), but informs the * caller of incompatible types: it sets *denote to TRUE if "denote" * is not NULL or returns -1 otherwise. */ varnumber_T get_tv_number(typval_T *varp) { int error = FALSE; return get_tv_number_chk(varp, &error); /* return 0L on error */ } varnumber_T get_tv_number_chk(typval_T *varp, int *denote) { varnumber_T n = 0L; switch (varp->v_type) { case VAR_NUMBER: return varp->vval.v_number; case VAR_FLOAT: #ifdef FEAT_FLOAT EMSG(_("E805: Using a Float as a Number")); break; #endif case VAR_FUNC: case VAR_PARTIAL: EMSG(_("E703: Using a Funcref as a Number")); break; case VAR_STRING: if (varp->vval.v_string != NULL) vim_str2nr(varp->vval.v_string, NULL, NULL, STR2NR_ALL, &n, NULL, 0); return n; case VAR_LIST: EMSG(_("E745: Using a List as a Number")); break; case VAR_DICT: EMSG(_("E728: Using a Dictionary as a Number")); break; case VAR_SPECIAL: return varp->vval.v_number == VVAL_TRUE ? 1 : 0; break; case VAR_JOB: #ifdef FEAT_JOB_CHANNEL EMSG(_("E910: Using a Job as a Number")); break; #endif case VAR_CHANNEL: #ifdef FEAT_JOB_CHANNEL EMSG(_("E913: Using a Channel as a Number")); break; #endif case VAR_UNKNOWN: internal_error("get_tv_number(UNKNOWN)"); break; } if (denote == NULL) /* useful for values that must be unsigned */ n = -1; else *denote = TRUE; return n; } #ifdef FEAT_FLOAT float_T get_tv_float(typval_T *varp) { switch (varp->v_type) { case VAR_NUMBER: return (float_T)(varp->vval.v_number); case VAR_FLOAT: return varp->vval.v_float; case VAR_FUNC: case VAR_PARTIAL: EMSG(_("E891: Using a Funcref as a Float")); break; case VAR_STRING: EMSG(_("E892: Using a String as a Float")); break; case VAR_LIST: EMSG(_("E893: Using a List as a Float")); break; case VAR_DICT: EMSG(_("E894: Using a Dictionary as a Float")); break; case VAR_SPECIAL: EMSG(_("E907: Using a special value as a Float")); break; case VAR_JOB: # ifdef FEAT_JOB_CHANNEL EMSG(_("E911: Using a Job as a Float")); break; # endif case VAR_CHANNEL: # ifdef FEAT_JOB_CHANNEL EMSG(_("E914: Using a Channel as a Float")); break; # endif case VAR_UNKNOWN: internal_error("get_tv_float(UNKNOWN)"); break; } return 0; } #endif /* * Get the string value of a variable. * If it is a Number variable, the number is converted into a string. * get_tv_string() uses a single, static buffer. YOU CAN ONLY USE IT ONCE! * get_tv_string_buf() uses a given buffer. * If the String variable has never been set, return an empty string. * Never returns NULL; * get_tv_string_chk() and get_tv_string_buf_chk() are similar, but return * NULL on error. */ char_u * get_tv_string(typval_T *varp) { static char_u mybuf[NUMBUFLEN]; return get_tv_string_buf(varp, mybuf); } char_u * get_tv_string_buf(typval_T *varp, char_u *buf) { char_u *res = get_tv_string_buf_chk(varp, buf); return res != NULL ? res : (char_u *)""; } /* * Careful: This uses a single, static buffer. YOU CAN ONLY USE IT ONCE! */ char_u * get_tv_string_chk(typval_T *varp) { static char_u mybuf[NUMBUFLEN]; return get_tv_string_buf_chk(varp, mybuf); } char_u * get_tv_string_buf_chk(typval_T *varp, char_u *buf) { switch (varp->v_type) { case VAR_NUMBER: vim_snprintf((char *)buf, NUMBUFLEN, "%lld", (varnumber_T)varp->vval.v_number); return buf; case VAR_FUNC: case VAR_PARTIAL: EMSG(_("E729: using Funcref as a String")); break; case VAR_LIST: EMSG(_("E730: using List as a String")); break; case VAR_DICT: EMSG(_("E731: using Dictionary as a String")); break; case VAR_FLOAT: #ifdef FEAT_FLOAT EMSG(_(e_float_as_string)); break; #endif case VAR_STRING: if (varp->vval.v_string != NULL) return varp->vval.v_string; return (char_u *)""; case VAR_SPECIAL: STRCPY(buf, get_var_special_name(varp->vval.v_number)); return buf; case VAR_JOB: #ifdef FEAT_JOB_CHANNEL { job_T *job = varp->vval.v_job; char *status; if (job == NULL) return (char_u *)"no process"; status = job->jv_status == JOB_FAILED ? "fail" : job->jv_status >= JOB_ENDED ? "dead" : "run"; # ifdef UNIX vim_snprintf((char *)buf, NUMBUFLEN, "process %ld %s", (long)job->jv_pid, status); # elif defined(WIN32) vim_snprintf((char *)buf, NUMBUFLEN, "process %ld %s", (long)job->jv_proc_info.dwProcessId, status); # else /* fall-back */ vim_snprintf((char *)buf, NUMBUFLEN, "process ? %s", status); # endif return buf; } #endif break; case VAR_CHANNEL: #ifdef FEAT_JOB_CHANNEL { channel_T *channel = varp->vval.v_channel; char *status = channel_status(channel, -1); if (channel == NULL) vim_snprintf((char *)buf, NUMBUFLEN, "channel %s", status); else vim_snprintf((char *)buf, NUMBUFLEN, "channel %d %s", channel->ch_id, status); return buf; } #endif break; case VAR_UNKNOWN: EMSG(_("E908: using an invalid value as a String")); break; } return NULL; } /* * Find variable "name" in the list of variables. * Return a pointer to it if found, NULL if not found. * Careful: "a:0" variables don't have a name. * When "htp" is not NULL we are writing to the variable, set "htp" to the * hashtab_T used. */ dictitem_T * find_var(char_u *name, hashtab_T **htp, int no_autoload) { char_u *varname; hashtab_T *ht; dictitem_T *ret = NULL; ht = find_var_ht(name, &varname); if (htp != NULL) *htp = ht; if (ht == NULL) return NULL; ret = find_var_in_ht(ht, *name, varname, no_autoload || htp != NULL); if (ret != NULL) return ret; /* Search in parent scope for lambda */ return find_var_in_scoped_ht(name, no_autoload || htp != NULL); } /* * Find variable "varname" in hashtab "ht" with name "htname". * Returns NULL if not found. */ dictitem_T * find_var_in_ht( hashtab_T *ht, int htname, char_u *varname, int no_autoload) { hashitem_T *hi; if (*varname == NUL) { /* Must be something like "s:", otherwise "ht" would be NULL. */ switch (htname) { case 's': return &SCRIPT_SV(current_SID)->sv_var; case 'g': return &globvars_var; case 'v': return &vimvars_var; case 'b': return &curbuf->b_bufvar; case 'w': return &curwin->w_winvar; case 't': return &curtab->tp_winvar; case 'l': return get_funccal_local_var(); case 'a': return get_funccal_args_var(); } return NULL; } hi = hash_find(ht, varname); if (HASHITEM_EMPTY(hi)) { /* For global variables we may try auto-loading the script. If it * worked find the variable again. Don't auto-load a script if it was * loaded already, otherwise it would be loaded every time when * checking if a function name is a Funcref variable. */ if (ht == &globvarht && !no_autoload) { /* Note: script_autoload() may make "hi" invalid. It must either * be obtained again or not used. */ if (!script_autoload(varname, FALSE) || aborting()) return NULL; hi = hash_find(ht, varname); } if (HASHITEM_EMPTY(hi)) return NULL; } return HI2DI(hi); } /* * Find the hashtab used for a variable name. * Return NULL if the name is not valid. * Set "varname" to the start of name without ':'. */ hashtab_T * find_var_ht(char_u *name, char_u **varname) { hashitem_T *hi; hashtab_T *ht; if (name[0] == NUL) return NULL; if (name[1] != ':') { /* The name must not start with a colon or #. */ if (name[0] == ':' || name[0] == AUTOLOAD_CHAR) return NULL; *varname = name; /* "version" is "v:version" in all scopes */ hi = hash_find(&compat_hashtab, name); if (!HASHITEM_EMPTY(hi)) return &compat_hashtab; ht = get_funccal_local_ht(); if (ht == NULL) return &globvarht; /* global variable */ return ht; /* local variable */ } *varname = name + 2; if (*name == 'g') /* global variable */ return &globvarht; /* There must be no ':' or '#' in the rest of the name, unless g: is used */ if (vim_strchr(name + 2, ':') != NULL || vim_strchr(name + 2, AUTOLOAD_CHAR) != NULL) return NULL; if (*name == 'b') /* buffer variable */ return &curbuf->b_vars->dv_hashtab; if (*name == 'w') /* window variable */ return &curwin->w_vars->dv_hashtab; if (*name == 't') /* tab page variable */ return &curtab->tp_vars->dv_hashtab; if (*name == 'v') /* v: variable */ return &vimvarht; if (*name == 'a') /* a: function argument */ return get_funccal_args_ht(); if (*name == 'l') /* l: local function variable */ return get_funccal_local_ht(); if (*name == 's' /* script variable */ && current_SID > 0 && current_SID <= ga_scripts.ga_len) return &SCRIPT_VARS(current_SID); return NULL; } /* * Get the string value of a (global/local) variable. * Note: see get_tv_string() for how long the pointer remains valid. * Returns NULL when it doesn't exist. */ char_u * get_var_value(char_u *name) { dictitem_T *v; v = find_var(name, NULL, FALSE); if (v == NULL) return NULL; return get_tv_string(&v->di_tv); } /* * Allocate a new hashtab for a sourced script. It will be used while * sourcing this script and when executing functions defined in the script. */ void new_script_vars(scid_T id) { int i; hashtab_T *ht; scriptvar_T *sv; if (ga_grow(&ga_scripts, (int)(id - ga_scripts.ga_len)) == OK) { /* Re-allocating ga_data means that an ht_array pointing to * ht_smallarray becomes invalid. We can recognize this: ht_mask is * at its init value. Also reset "v_dict", it's always the same. */ for (i = 1; i <= ga_scripts.ga_len; ++i) { ht = &SCRIPT_VARS(i); if (ht->ht_mask == HT_INIT_SIZE - 1) ht->ht_array = ht->ht_smallarray; sv = SCRIPT_SV(i); sv->sv_var.di_tv.vval.v_dict = &sv->sv_dict; } while (ga_scripts.ga_len < id) { sv = SCRIPT_SV(ga_scripts.ga_len + 1) = (scriptvar_T *)alloc_clear(sizeof(scriptvar_T)); init_var_dict(&sv->sv_dict, &sv->sv_var, VAR_SCOPE); ++ga_scripts.ga_len; } } } /* * Initialize dictionary "dict" as a scope and set variable "dict_var" to * point to it. */ void init_var_dict(dict_T *dict, dictitem_T *dict_var, int scope) { hash_init(&dict->dv_hashtab); dict->dv_lock = 0; dict->dv_scope = scope; dict->dv_refcount = DO_NOT_FREE_CNT; dict->dv_copyID = 0; dict_var->di_tv.vval.v_dict = dict; dict_var->di_tv.v_type = VAR_DICT; dict_var->di_tv.v_lock = VAR_FIXED; dict_var->di_flags = DI_FLAGS_RO | DI_FLAGS_FIX; dict_var->di_key[0] = NUL; } /* * Unreference a dictionary initialized by init_var_dict(). */ void unref_var_dict(dict_T *dict) { /* Now the dict needs to be freed if no one else is using it, go back to * normal reference counting. */ dict->dv_refcount -= DO_NOT_FREE_CNT - 1; dict_unref(dict); } /* * Clean up a list of internal variables. * Frees all allocated variables and the value they contain. * Clears hashtab "ht", does not free it. */ void vars_clear(hashtab_T *ht) { vars_clear_ext(ht, TRUE); } /* * Like vars_clear(), but only free the value if "free_val" is TRUE. */ void vars_clear_ext(hashtab_T *ht, int free_val) { int todo; hashitem_T *hi; dictitem_T *v; hash_lock(ht); todo = (int)ht->ht_used; for (hi = ht->ht_array; todo > 0; ++hi) { if (!HASHITEM_EMPTY(hi)) { --todo; /* Free the variable. Don't remove it from the hashtab, * ht_array might change then. hash_clear() takes care of it * later. */ v = HI2DI(hi); if (free_val) clear_tv(&v->di_tv); if (v->di_flags & DI_FLAGS_ALLOC) vim_free(v); } } hash_clear(ht); ht->ht_used = 0; } /* * Delete a variable from hashtab "ht" at item "hi". * Clear the variable value and free the dictitem. */ static void delete_var(hashtab_T *ht, hashitem_T *hi) { dictitem_T *di = HI2DI(hi); hash_remove(ht, hi); clear_tv(&di->di_tv); vim_free(di); } /* * List the value of one internal variable. */ static void list_one_var(dictitem_T *v, char_u *prefix, int *first) { char_u *tofree; char_u *s; char_u numbuf[NUMBUFLEN]; s = echo_string(&v->di_tv, &tofree, numbuf, get_copyID()); list_one_var_a(prefix, v->di_key, v->di_tv.v_type, s == NULL ? (char_u *)"" : s, first); vim_free(tofree); } static void list_one_var_a( char_u *prefix, char_u *name, int type, char_u *string, int *first) /* when TRUE clear rest of screen and set to FALSE */ { /* don't use msg() or msg_attr() to avoid overwriting "v:statusmsg" */ msg_start(); msg_puts(prefix); if (name != NULL) /* "a:" vars don't have a name stored */ msg_puts(name); msg_putchar(' '); msg_advance(22); if (type == VAR_NUMBER) msg_putchar('#'); else if (type == VAR_FUNC || type == VAR_PARTIAL) msg_putchar('*'); else if (type == VAR_LIST) { msg_putchar('['); if (*string == '[') ++string; } else if (type == VAR_DICT) { msg_putchar('{'); if (*string == '{') ++string; } else msg_putchar(' '); msg_outtrans(string); if (type == VAR_FUNC || type == VAR_PARTIAL) msg_puts((char_u *)"()"); if (*first) { msg_clr_eos(); *first = FALSE; } } /* * Set variable "name" to value in "tv". * If the variable already exists, the value is updated. * Otherwise the variable is created. */ void set_var( char_u *name, typval_T *tv, int copy) /* make copy of value in "tv" */ { dictitem_T *v; char_u *varname; hashtab_T *ht; ht = find_var_ht(name, &varname); if (ht == NULL || *varname == NUL) { EMSG2(_(e_illvar), name); return; } v = find_var_in_ht(ht, 0, varname, TRUE); /* Search in parent scope which is possible to reference from lambda */ if (v == NULL) v = find_var_in_scoped_ht(name, TRUE); if ((tv->v_type == VAR_FUNC || tv->v_type == VAR_PARTIAL) && var_check_func_name(name, v == NULL)) return; if (v != NULL) { /* existing variable, need to clear the value */ if (var_check_ro(v->di_flags, name, FALSE) || tv_check_lock(v->di_tv.v_lock, name, FALSE)) return; /* * Handle setting internal v: variables separately where needed to * prevent changing the type. */ if (ht == &vimvarht) { if (v->di_tv.v_type == VAR_STRING) { vim_free(v->di_tv.vval.v_string); if (copy || tv->v_type != VAR_STRING) v->di_tv.vval.v_string = vim_strsave(get_tv_string(tv)); else { /* Take over the string to avoid an extra alloc/free. */ v->di_tv.vval.v_string = tv->vval.v_string; tv->vval.v_string = NULL; } return; } else if (v->di_tv.v_type == VAR_NUMBER) { v->di_tv.vval.v_number = get_tv_number(tv); if (STRCMP(varname, "searchforward") == 0) set_search_direction(v->di_tv.vval.v_number ? '/' : '?'); #ifdef FEAT_SEARCH_EXTRA else if (STRCMP(varname, "hlsearch") == 0) { no_hlsearch = !v->di_tv.vval.v_number; redraw_all_later(SOME_VALID); } #endif return; } else if (v->di_tv.v_type != tv->v_type) internal_error("set_var()"); } clear_tv(&v->di_tv); } else /* add a new variable */ { /* Can't add "v:" variable. */ if (ht == &vimvarht) { EMSG2(_(e_illvar), name); return; } /* Make sure the variable name is valid. */ if (!valid_varname(varname)) return; v = (dictitem_T *)alloc((unsigned)(sizeof(dictitem_T) + STRLEN(varname))); if (v == NULL) return; STRCPY(v->di_key, varname); if (hash_add(ht, DI2HIKEY(v)) == FAIL) { vim_free(v); return; } v->di_flags = DI_FLAGS_ALLOC; } if (copy || tv->v_type == VAR_NUMBER || tv->v_type == VAR_FLOAT) copy_tv(tv, &v->di_tv); else { v->di_tv = *tv; v->di_tv.v_lock = 0; init_tv(tv); } } /* * Return TRUE if di_flags "flags" indicates variable "name" is read-only. * Also give an error message. */ int var_check_ro(int flags, char_u *name, int use_gettext) { if (flags & DI_FLAGS_RO) { EMSG2(_(e_readonlyvar), use_gettext ? (char_u *)_(name) : name); return TRUE; } if ((flags & DI_FLAGS_RO_SBX) && sandbox) { EMSG2(_(e_readonlysbx), use_gettext ? (char_u *)_(name) : name); return TRUE; } return FALSE; } /* * Return TRUE if di_flags "flags" indicates variable "name" is fixed. * Also give an error message. */ int var_check_fixed(int flags, char_u *name, int use_gettext) { if (flags & DI_FLAGS_FIX) { EMSG2(_("E795: Cannot delete variable %s"), use_gettext ? (char_u *)_(name) : name); return TRUE; } return FALSE; } /* * Check if a funcref is assigned to a valid variable name. * Return TRUE and give an error if not. */ int var_check_func_name( char_u *name, /* points to start of variable name */ int new_var) /* TRUE when creating the variable */ { /* Allow for w: b: s: and t:. */ if (!(vim_strchr((char_u *)"wbst", name[0]) != NULL && name[1] == ':') && !ASCII_ISUPPER((name[0] != NUL && name[1] == ':') ? name[2] : name[0])) { EMSG2(_("E704: Funcref variable name must start with a capital: %s"), name); return TRUE; } /* Don't allow hiding a function. When "v" is not NULL we might be * assigning another function to the same var, the type is checked * below. */ if (new_var && function_exists(name, FALSE)) { EMSG2(_("E705: Variable name conflicts with existing function: %s"), name); return TRUE; } return FALSE; } /* * Check if a variable name is valid. * Return FALSE and give an error if not. */ int valid_varname(char_u *varname) { char_u *p; for (p = varname; *p != NUL; ++p) if (!eval_isnamec1(*p) && (p == varname || !VIM_ISDIGIT(*p)) && *p != AUTOLOAD_CHAR) { EMSG2(_(e_illvar), varname); return FALSE; } return TRUE; } /* * Return TRUE if typeval "tv" is set to be locked (immutable). * Also give an error message, using "name" or _("name") when use_gettext is * TRUE. */ int tv_check_lock(int lock, char_u *name, int use_gettext) { if (lock & VAR_LOCKED) { EMSG2(_("E741: Value is locked: %s"), name == NULL ? (char_u *)_("Unknown") : use_gettext ? (char_u *)_(name) : name); return TRUE; } if (lock & VAR_FIXED) { EMSG2(_("E742: Cannot change value of %s"), name == NULL ? (char_u *)_("Unknown") : use_gettext ? (char_u *)_(name) : name); return TRUE; } return FALSE; } /* * Copy the values from typval_T "from" to typval_T "to". * When needed allocates string or increases reference count. * Does not make a copy of a list or dict but copies the reference! * It is OK for "from" and "to" to point to the same item. This is used to * make a copy later. */ void copy_tv(typval_T *from, typval_T *to) { to->v_type = from->v_type; to->v_lock = 0; switch (from->v_type) { case VAR_NUMBER: case VAR_SPECIAL: to->vval.v_number = from->vval.v_number; break; case VAR_FLOAT: #ifdef FEAT_FLOAT to->vval.v_float = from->vval.v_float; break; #endif case VAR_JOB: #ifdef FEAT_JOB_CHANNEL to->vval.v_job = from->vval.v_job; if (to->vval.v_job != NULL) ++to->vval.v_job->jv_refcount; break; #endif case VAR_CHANNEL: #ifdef FEAT_JOB_CHANNEL to->vval.v_channel = from->vval.v_channel; if (to->vval.v_channel != NULL) ++to->vval.v_channel->ch_refcount; break; #endif case VAR_STRING: case VAR_FUNC: if (from->vval.v_string == NULL) to->vval.v_string = NULL; else { to->vval.v_string = vim_strsave(from->vval.v_string); if (from->v_type == VAR_FUNC) func_ref(to->vval.v_string); } break; case VAR_PARTIAL: if (from->vval.v_partial == NULL) to->vval.v_partial = NULL; else { to->vval.v_partial = from->vval.v_partial; ++to->vval.v_partial->pt_refcount; } break; case VAR_LIST: if (from->vval.v_list == NULL) to->vval.v_list = NULL; else { to->vval.v_list = from->vval.v_list; ++to->vval.v_list->lv_refcount; } break; case VAR_DICT: if (from->vval.v_dict == NULL) to->vval.v_dict = NULL; else { to->vval.v_dict = from->vval.v_dict; ++to->vval.v_dict->dv_refcount; } break; case VAR_UNKNOWN: internal_error("copy_tv(UNKNOWN)"); break; } } /* * Make a copy of an item. * Lists and Dictionaries are also copied. A deep copy if "deep" is set. * For deepcopy() "copyID" is zero for a full copy or the ID for when a * reference to an already copied list/dict can be used. * Returns FAIL or OK. */ int item_copy( typval_T *from, typval_T *to, int deep, int copyID) { static int recurse = 0; int ret = OK; if (recurse >= DICT_MAXNEST) { EMSG(_("E698: variable nested too deep for making a copy")); return FAIL; } ++recurse; switch (from->v_type) { case VAR_NUMBER: case VAR_FLOAT: case VAR_STRING: case VAR_FUNC: case VAR_PARTIAL: case VAR_SPECIAL: case VAR_JOB: case VAR_CHANNEL: copy_tv(from, to); break; case VAR_LIST: to->v_type = VAR_LIST; to->v_lock = 0; if (from->vval.v_list == NULL) to->vval.v_list = NULL; else if (copyID != 0 && from->vval.v_list->lv_copyID == copyID) { /* use the copy made earlier */ to->vval.v_list = from->vval.v_list->lv_copylist; ++to->vval.v_list->lv_refcount; } else to->vval.v_list = list_copy(from->vval.v_list, deep, copyID); if (to->vval.v_list == NULL) ret = FAIL; break; case VAR_DICT: to->v_type = VAR_DICT; to->v_lock = 0; if (from->vval.v_dict == NULL) to->vval.v_dict = NULL; else if (copyID != 0 && from->vval.v_dict->dv_copyID == copyID) { /* use the copy made earlier */ to->vval.v_dict = from->vval.v_dict->dv_copydict; ++to->vval.v_dict->dv_refcount; } else to->vval.v_dict = dict_copy(from->vval.v_dict, deep, copyID); if (to->vval.v_dict == NULL) ret = FAIL; break; case VAR_UNKNOWN: internal_error("item_copy(UNKNOWN)"); ret = FAIL; } --recurse; return ret; } /* * This function is used by f_input() and f_inputdialog() functions. The third * argument to f_input() specifies the type of completion to use at the * prompt. The third argument to f_inputdialog() specifies the value to return * when the user cancels the prompt. */ void get_user_input( typval_T *argvars, typval_T *rettv, int inputdialog, int secret) { char_u *prompt = get_tv_string_chk(&argvars[0]); char_u *p = NULL; int c; char_u buf[NUMBUFLEN]; int cmd_silent_save = cmd_silent; char_u *defstr = (char_u *)""; int xp_type = EXPAND_NOTHING; char_u *xp_arg = NULL; rettv->v_type = VAR_STRING; rettv->vval.v_string = NULL; #ifdef NO_CONSOLE_INPUT /* While starting up, there is no place to enter text. When running tests * with --not-a-term we assume feedkeys() will be used. */ if (no_console_input() && !is_not_a_term()) return; #endif cmd_silent = FALSE; /* Want to see the prompt. */ if (prompt != NULL) { /* Only the part of the message after the last NL is considered as * prompt for the command line */ p = vim_strrchr(prompt, '\n'); if (p == NULL) p = prompt; else { ++p; c = *p; *p = NUL; msg_start(); msg_clr_eos(); msg_puts_attr(prompt, echo_attr); msg_didout = FALSE; msg_starthere(); *p = c; } cmdline_row = msg_row; if (argvars[1].v_type != VAR_UNKNOWN) { defstr = get_tv_string_buf_chk(&argvars[1], buf); if (defstr != NULL) stuffReadbuffSpec(defstr); if (!inputdialog && argvars[2].v_type != VAR_UNKNOWN) { char_u *xp_name; int xp_namelen; long argt; /* input() with a third argument: completion */ rettv->vval.v_string = NULL; xp_name = get_tv_string_buf_chk(&argvars[2], buf); if (xp_name == NULL) return; xp_namelen = (int)STRLEN(xp_name); if (parse_compl_arg(xp_name, xp_namelen, &xp_type, &argt, &xp_arg) == FAIL) return; } } if (defstr != NULL) { int save_ex_normal_busy = ex_normal_busy; ex_normal_busy = 0; rettv->vval.v_string = getcmdline_prompt(secret ? NUL : '@', p, echo_attr, xp_type, xp_arg); ex_normal_busy = save_ex_normal_busy; } if (inputdialog && rettv->vval.v_string == NULL && argvars[1].v_type != VAR_UNKNOWN && argvars[2].v_type != VAR_UNKNOWN) rettv->vval.v_string = vim_strsave(get_tv_string_buf( &argvars[2], buf)); vim_free(xp_arg); /* since the user typed this, no need to wait for return */ need_wait_return = FALSE; msg_didout = FALSE; } cmd_silent = cmd_silent_save; } /* * ":echo expr1 ..." print each argument separated with a space, add a * newline at the end. * ":echon expr1 ..." print each argument plain. */ void ex_echo(exarg_T *eap) { char_u *arg = eap->arg; typval_T rettv; char_u *tofree; char_u *p; int needclr = TRUE; int atstart = TRUE; char_u numbuf[NUMBUFLEN]; if (eap->skip) ++emsg_skip; while (*arg != NUL && *arg != '|' && *arg != '\n' && !got_int) { /* If eval1() causes an error message the text from the command may * still need to be cleared. E.g., "echo 22,44". */ need_clr_eos = needclr; p = arg; if (eval1(&arg, &rettv, !eap->skip) == FAIL) { /* * Report the invalid expression unless the expression evaluation * has been cancelled due to an aborting error, an interrupt, or an * exception. */ if (!aborting()) EMSG2(_(e_invexpr2), p); need_clr_eos = FALSE; break; } need_clr_eos = FALSE; if (!eap->skip) { if (atstart) { atstart = FALSE; /* Call msg_start() after eval1(), evaluating the expression * may cause a message to appear. */ if (eap->cmdidx == CMD_echo) { /* Mark the saved text as finishing the line, so that what * follows is displayed on a new line when scrolling back * at the more prompt. */ msg_sb_eol(); msg_start(); } } else if (eap->cmdidx == CMD_echo) msg_puts_attr((char_u *)" ", echo_attr); p = echo_string(&rettv, &tofree, numbuf, get_copyID()); if (p != NULL) for ( ; *p != NUL && !got_int; ++p) { if (*p == '\n' || *p == '\r' || *p == TAB) { if (*p != TAB && needclr) { /* remove any text still there from the command */ msg_clr_eos(); needclr = FALSE; } msg_putchar_attr(*p, echo_attr); } else { #ifdef FEAT_MBYTE if (has_mbyte) { int i = (*mb_ptr2len)(p); (void)msg_outtrans_len_attr(p, i, echo_attr); p += i - 1; } else #endif (void)msg_outtrans_len_attr(p, 1, echo_attr); } } vim_free(tofree); } clear_tv(&rettv); arg = skipwhite(arg); } eap->nextcmd = check_nextcmd(arg); if (eap->skip) --emsg_skip; else { /* remove text that may still be there from the command */ if (needclr) msg_clr_eos(); if (eap->cmdidx == CMD_echo) msg_end(); } } /* * ":echohl {name}". */ void ex_echohl(exarg_T *eap) { echo_attr = syn_name2attr(eap->arg); } /* * ":execute expr1 ..." execute the result of an expression. * ":echomsg expr1 ..." Print a message * ":echoerr expr1 ..." Print an error * Each gets spaces around each argument and a newline at the end for * echo commands */ void ex_execute(exarg_T *eap) { char_u *arg = eap->arg; typval_T rettv; int ret = OK; char_u *p; garray_T ga; int len; int save_did_emsg; ga_init2(&ga, 1, 80); if (eap->skip) ++emsg_skip; while (*arg != NUL && *arg != '|' && *arg != '\n') { p = arg; if (eval1(&arg, &rettv, !eap->skip) == FAIL) { /* * Report the invalid expression unless the expression evaluation * has been cancelled due to an aborting error, an interrupt, or an * exception. */ if (!aborting()) EMSG2(_(e_invexpr2), p); ret = FAIL; break; } if (!eap->skip) { p = get_tv_string(&rettv); len = (int)STRLEN(p); if (ga_grow(&ga, len + 2) == FAIL) { clear_tv(&rettv); ret = FAIL; break; } if (ga.ga_len) ((char_u *)(ga.ga_data))[ga.ga_len++] = ' '; STRCPY((char_u *)(ga.ga_data) + ga.ga_len, p); ga.ga_len += len; } clear_tv(&rettv); arg = skipwhite(arg); } if (ret != FAIL && ga.ga_data != NULL) { if (eap->cmdidx == CMD_echomsg || eap->cmdidx == CMD_echoerr) { /* Mark the already saved text as finishing the line, so that what * follows is displayed on a new line when scrolling back at the * more prompt. */ msg_sb_eol(); } if (eap->cmdidx == CMD_echomsg) { MSG_ATTR(ga.ga_data, echo_attr); out_flush(); } else if (eap->cmdidx == CMD_echoerr) { /* We don't want to abort following commands, restore did_emsg. */ save_did_emsg = did_emsg; EMSG((char_u *)ga.ga_data); if (!force_abort) did_emsg = save_did_emsg; } else if (eap->cmdidx == CMD_execute) do_cmdline((char_u *)ga.ga_data, eap->getline, eap->cookie, DOCMD_NOWAIT|DOCMD_VERBOSE); } ga_clear(&ga); if (eap->skip) --emsg_skip; eap->nextcmd = check_nextcmd(arg); } /* * Find window specified by "vp" in tabpage "tp". */ win_T * find_win_by_nr( typval_T *vp, tabpage_T *tp) /* NULL for current tab page */ { win_T *wp; int nr; nr = (int)get_tv_number_chk(vp, NULL); if (nr < 0) return NULL; if (nr == 0) return curwin; FOR_ALL_WINDOWS_IN_TAB(tp, wp) { if (nr >= LOWEST_WIN_ID) { if (wp->w_id == nr) return wp; } else if (--nr <= 0) break; } if (nr >= LOWEST_WIN_ID) return NULL; return wp; } /* * Find window specified by "wvp" in tabpage "tvp". */ win_T * find_tabwin( typval_T *wvp, /* VAR_UNKNOWN for current window */ typval_T *tvp) /* VAR_UNKNOWN for current tab page */ { win_T *wp = NULL; tabpage_T *tp = NULL; long n; if (wvp->v_type != VAR_UNKNOWN) { if (tvp->v_type != VAR_UNKNOWN) { n = (long)get_tv_number(tvp); if (n >= 0) tp = find_tabpage(n); } else tp = curtab; if (tp != NULL) wp = find_win_by_nr(wvp, tp); } else wp = curwin; return wp; } /* * getwinvar() and gettabwinvar() */ void getwinvar( typval_T *argvars, typval_T *rettv, int off) /* 1 for gettabwinvar() */ { win_T *win; char_u *varname; dictitem_T *v; tabpage_T *tp = NULL; int done = FALSE; win_T *oldcurwin; tabpage_T *oldtabpage; int need_switch_win; if (off == 1) tp = find_tabpage((int)get_tv_number_chk(&argvars[0], NULL)); else tp = curtab; win = find_win_by_nr(&argvars[off], tp); varname = get_tv_string_chk(&argvars[off + 1]); ++emsg_off; rettv->v_type = VAR_STRING; rettv->vval.v_string = NULL; if (win != NULL && varname != NULL) { /* Set curwin to be our win, temporarily. Also set the tabpage, * otherwise the window is not valid. Only do this when needed, * autocommands get blocked. */ need_switch_win = !(tp == curtab && win == curwin); if (!need_switch_win || switch_win(&oldcurwin, &oldtabpage, win, tp, TRUE) == OK) { if (*varname == '&') { if (varname[1] == NUL) { /* get all window-local options in a dict */ dict_T *opts = get_winbuf_options(FALSE); if (opts != NULL) { rettv_dict_set(rettv, opts); done = TRUE; } } else if (get_option_tv(&varname, rettv, 1) == OK) /* window-local-option */ done = TRUE; } else { /* Look up the variable. */ /* Let getwinvar({nr}, "") return the "w:" dictionary. */ v = find_var_in_ht(&win->w_vars->dv_hashtab, 'w', varname, FALSE); if (v != NULL) { copy_tv(&v->di_tv, rettv); done = TRUE; } } } if (need_switch_win) /* restore previous notion of curwin */ restore_win(oldcurwin, oldtabpage, TRUE); } if (!done && argvars[off + 2].v_type != VAR_UNKNOWN) /* use the default return value */ copy_tv(&argvars[off + 2], rettv); --emsg_off; } /* * "setwinvar()" and "settabwinvar()" functions */ void setwinvar(typval_T *argvars, typval_T *rettv UNUSED, int off) { win_T *win; win_T *save_curwin; tabpage_T *save_curtab; int need_switch_win; char_u *varname, *winvarname; typval_T *varp; char_u nbuf[NUMBUFLEN]; tabpage_T *tp = NULL; if (check_restricted() || check_secure()) return; if (off == 1) tp = find_tabpage((int)get_tv_number_chk(&argvars[0], NULL)); else tp = curtab; win = find_win_by_nr(&argvars[off], tp); varname = get_tv_string_chk(&argvars[off + 1]); varp = &argvars[off + 2]; if (win != NULL && varname != NULL && varp != NULL) { need_switch_win = !(tp == curtab && win == curwin); if (!need_switch_win || switch_win(&save_curwin, &save_curtab, win, tp, TRUE) == OK) { if (*varname == '&') { long numval; char_u *strval; int error = FALSE; ++varname; numval = (long)get_tv_number_chk(varp, &error); strval = get_tv_string_buf_chk(varp, nbuf); if (!error && strval != NULL) set_option_value(varname, numval, strval, OPT_LOCAL); } else { winvarname = alloc((unsigned)STRLEN(varname) + 3); if (winvarname != NULL) { STRCPY(winvarname, "w:"); STRCPY(winvarname + 2, varname); set_var(winvarname, varp, TRUE); vim_free(winvarname); } } } if (need_switch_win) restore_win(save_curwin, save_curtab, TRUE); } } /* * Skip over the name of an option: "&option", "&g:option" or "&l:option". * "arg" points to the "&" or '+' when called, to "option" when returning. * Returns NULL when no option name found. Otherwise pointer to the char * after the option name. */ static char_u * find_option_end(char_u **arg, int *opt_flags) { char_u *p = *arg; ++p; if (*p == 'g' && p[1] == ':') { *opt_flags = OPT_GLOBAL; p += 2; } else if (*p == 'l' && p[1] == ':') { *opt_flags = OPT_LOCAL; p += 2; } else *opt_flags = 0; if (!ASCII_ISALPHA(*p)) return NULL; *arg = p; if (p[0] == 't' && p[1] == '_' && p[2] != NUL && p[3] != NUL) p += 4; /* termcap option */ else while (ASCII_ISALPHA(*p)) ++p; return p; } /* * Return the autoload script name for a function or variable name. * Returns NULL when out of memory. */ char_u * autoload_name(char_u *name) { char_u *p; char_u *scriptname; /* Get the script file name: replace '#' with '/', append ".vim". */ scriptname = alloc((unsigned)(STRLEN(name) + 14)); if (scriptname == NULL) return FALSE; STRCPY(scriptname, "autoload/"); STRCAT(scriptname, name); *vim_strrchr(scriptname, AUTOLOAD_CHAR) = NUL; STRCAT(scriptname, ".vim"); while ((p = vim_strchr(scriptname, AUTOLOAD_CHAR)) != NULL) *p = '/'; return scriptname; } /* * If "name" has a package name try autoloading the script for it. * Return TRUE if a package was loaded. */ int script_autoload( char_u *name, int reload) /* load script again when already loaded */ { char_u *p; char_u *scriptname, *tofree; int ret = FALSE; int i; /* If there is no '#' after name[0] there is no package name. */ p = vim_strchr(name, AUTOLOAD_CHAR); if (p == NULL || p == name) return FALSE; tofree = scriptname = autoload_name(name); /* Find the name in the list of previously loaded package names. Skip * "autoload/", it's always the same. */ for (i = 0; i < ga_loaded.ga_len; ++i) if (STRCMP(((char_u **)ga_loaded.ga_data)[i] + 9, scriptname + 9) == 0) break; if (!reload && i < ga_loaded.ga_len) ret = FALSE; /* was loaded already */ else { /* Remember the name if it wasn't loaded already. */ if (i == ga_loaded.ga_len && ga_grow(&ga_loaded, 1) == OK) { ((char_u **)ga_loaded.ga_data)[ga_loaded.ga_len++] = scriptname; tofree = NULL; } /* Try loading the package from $VIMRUNTIME/autoload/.vim */ if (source_runtime(scriptname, 0) == OK) ret = TRUE; } vim_free(tofree); return ret; } #if defined(FEAT_VIMINFO) || defined(FEAT_SESSION) typedef enum { VAR_FLAVOUR_DEFAULT, /* doesn't start with uppercase */ VAR_FLAVOUR_SESSION, /* starts with uppercase, some lower */ VAR_FLAVOUR_VIMINFO /* all uppercase */ } var_flavour_T; static var_flavour_T var_flavour(char_u *varname); static var_flavour_T var_flavour(char_u *varname) { char_u *p = varname; if (ASCII_ISUPPER(*p)) { while (*(++p)) if (ASCII_ISLOWER(*p)) return VAR_FLAVOUR_SESSION; return VAR_FLAVOUR_VIMINFO; } else return VAR_FLAVOUR_DEFAULT; } #endif #if defined(FEAT_VIMINFO) || defined(PROTO) /* * Restore global vars that start with a capital from the viminfo file */ int read_viminfo_varlist(vir_T *virp, int writing) { char_u *tab; int type = VAR_NUMBER; typval_T tv; void *save_funccal; if (!writing && (find_viminfo_parameter('!') != NULL)) { tab = vim_strchr(virp->vir_line + 1, '\t'); if (tab != NULL) { *tab++ = '\0'; /* isolate the variable name */ switch (*tab) { case 'S': type = VAR_STRING; break; #ifdef FEAT_FLOAT case 'F': type = VAR_FLOAT; break; #endif case 'D': type = VAR_DICT; break; case 'L': type = VAR_LIST; break; case 'X': type = VAR_SPECIAL; break; } tab = vim_strchr(tab, '\t'); if (tab != NULL) { tv.v_type = type; if (type == VAR_STRING || type == VAR_DICT || type == VAR_LIST) tv.vval.v_string = viminfo_readstring(virp, (int)(tab - virp->vir_line + 1), TRUE); #ifdef FEAT_FLOAT else if (type == VAR_FLOAT) (void)string2float(tab + 1, &tv.vval.v_float); #endif else tv.vval.v_number = atol((char *)tab + 1); if (type == VAR_DICT || type == VAR_LIST) { typval_T *etv = eval_expr(tv.vval.v_string, NULL); if (etv == NULL) /* Failed to parse back the dict or list, use it as a * string. */ tv.v_type = VAR_STRING; else { vim_free(tv.vval.v_string); tv = *etv; vim_free(etv); } } /* when in a function use global variables */ save_funccal = clear_current_funccal(); set_var(virp->vir_line + 1, &tv, FALSE); restore_current_funccal(save_funccal); if (tv.v_type == VAR_STRING) vim_free(tv.vval.v_string); else if (tv.v_type == VAR_DICT || tv.v_type == VAR_LIST) clear_tv(&tv); } } } return viminfo_readline(virp); } /* * Write global vars that start with a capital to the viminfo file */ void write_viminfo_varlist(FILE *fp) { hashitem_T *hi; dictitem_T *this_var; int todo; char *s = ""; char_u *p; char_u *tofree; char_u numbuf[NUMBUFLEN]; if (find_viminfo_parameter('!') == NULL) return; fputs(_("\n# global variables:\n"), fp); todo = (int)globvarht.ht_used; for (hi = globvarht.ht_array; todo > 0; ++hi) { if (!HASHITEM_EMPTY(hi)) { --todo; this_var = HI2DI(hi); if (var_flavour(this_var->di_key) == VAR_FLAVOUR_VIMINFO) { switch (this_var->di_tv.v_type) { case VAR_STRING: s = "STR"; break; case VAR_NUMBER: s = "NUM"; break; case VAR_FLOAT: s = "FLO"; break; case VAR_DICT: s = "DIC"; break; case VAR_LIST: s = "LIS"; break; case VAR_SPECIAL: s = "XPL"; break; case VAR_UNKNOWN: case VAR_FUNC: case VAR_PARTIAL: case VAR_JOB: case VAR_CHANNEL: continue; } fprintf(fp, "!%s\t%s\t", this_var->di_key, s); p = echo_string(&this_var->di_tv, &tofree, numbuf, 0); if (p != NULL) viminfo_writestring(fp, p); vim_free(tofree); } } } } #endif #if defined(FEAT_SESSION) || defined(PROTO) int store_session_globals(FILE *fd) { hashitem_T *hi; dictitem_T *this_var; int todo; char_u *p, *t; todo = (int)globvarht.ht_used; for (hi = globvarht.ht_array; todo > 0; ++hi) { if (!HASHITEM_EMPTY(hi)) { --todo; this_var = HI2DI(hi); if ((this_var->di_tv.v_type == VAR_NUMBER || this_var->di_tv.v_type == VAR_STRING) && var_flavour(this_var->di_key) == VAR_FLAVOUR_SESSION) { /* Escape special characters with a backslash. Turn a LF and * CR into \n and \r. */ p = vim_strsave_escaped(get_tv_string(&this_var->di_tv), (char_u *)"\\\"\n\r"); if (p == NULL) /* out of memory */ break; for (t = p; *t != NUL; ++t) if (*t == '\n') *t = 'n'; else if (*t == '\r') *t = 'r'; if ((fprintf(fd, "let %s = %c%s%c", this_var->di_key, (this_var->di_tv.v_type == VAR_STRING) ? '"' : ' ', p, (this_var->di_tv.v_type == VAR_STRING) ? '"' : ' ') < 0) || put_eol(fd) == FAIL) { vim_free(p); return FAIL; } vim_free(p); } #ifdef FEAT_FLOAT else if (this_var->di_tv.v_type == VAR_FLOAT && var_flavour(this_var->di_key) == VAR_FLAVOUR_SESSION) { float_T f = this_var->di_tv.vval.v_float; int sign = ' '; if (f < 0) { f = -f; sign = '-'; } if ((fprintf(fd, "let %s = %c%f", this_var->di_key, sign, f) < 0) || put_eol(fd) == FAIL) return FAIL; } #endif } } return OK; } #endif /* * Display script name where an item was last set. * Should only be invoked when 'verbose' is non-zero. */ void last_set_msg(scid_T scriptID) { char_u *p; if (scriptID != 0) { p = home_replace_save(NULL, get_scriptname(scriptID)); if (p != NULL) { verbose_enter(); MSG_PUTS(_("\n\tLast set from ")); MSG_PUTS(p); vim_free(p); verbose_leave(); } } } /* reset v:option_new, v:option_old and v:option_type */ void reset_v_option_vars(void) { set_vim_var_string(VV_OPTION_NEW, NULL, -1); set_vim_var_string(VV_OPTION_OLD, NULL, -1); set_vim_var_string(VV_OPTION_TYPE, NULL, -1); } /* * Prepare "gap" for an assert error and add the sourcing position. */ void prepare_assert_error(garray_T *gap) { char buf[NUMBUFLEN]; ga_init2(gap, 1, 100); if (sourcing_name != NULL) { ga_concat(gap, sourcing_name); if (sourcing_lnum > 0) ga_concat(gap, (char_u *)" "); } if (sourcing_lnum > 0) { sprintf(buf, "line %ld", (long)sourcing_lnum); ga_concat(gap, (char_u *)buf); } if (sourcing_name != NULL || sourcing_lnum > 0) ga_concat(gap, (char_u *)": "); } /* * Add an assert error to v:errors. */ void assert_error(garray_T *gap) { struct vimvar *vp = &vimvars[VV_ERRORS]; if (vp->vv_type != VAR_LIST || vimvars[VV_ERRORS].vv_list == NULL) /* Make sure v:errors is a list. */ set_vim_var_list(VV_ERRORS, list_alloc()); list_append_string(vimvars[VV_ERRORS].vv_list, gap->ga_data, gap->ga_len); } void assert_equal_common(typval_T *argvars, assert_type_T atype) { garray_T ga; if (tv_equal(&argvars[0], &argvars[1], FALSE, FALSE) != (atype == ASSERT_EQUAL)) { prepare_assert_error(&ga); fill_assert_error(&ga, &argvars[2], NULL, &argvars[0], &argvars[1], atype); assert_error(&ga); ga_clear(&ga); } } void assert_equalfile(typval_T *argvars) { char_u buf1[NUMBUFLEN]; char_u buf2[NUMBUFLEN]; char_u *fname1 = get_tv_string_buf_chk(&argvars[0], buf1); char_u *fname2 = get_tv_string_buf_chk(&argvars[1], buf2); garray_T ga; FILE *fd1; FILE *fd2; if (fname1 == NULL || fname2 == NULL) return; IObuff[0] = NUL; fd1 = mch_fopen((char *)fname1, READBIN); if (fd1 == NULL) { vim_snprintf((char *)IObuff, IOSIZE, (char *)e_notread, fname1); } else { fd2 = mch_fopen((char *)fname2, READBIN); if (fd2 == NULL) { fclose(fd1); vim_snprintf((char *)IObuff, IOSIZE, (char *)e_notread, fname2); } else { int c1, c2; long count = 0; for (;;) { c1 = fgetc(fd1); c2 = fgetc(fd2); if (c1 == EOF) { if (c2 != EOF) STRCPY(IObuff, "first file is shorter"); break; } else if (c2 == EOF) { STRCPY(IObuff, "second file is shorter"); break; } else if (c1 != c2) { vim_snprintf((char *)IObuff, IOSIZE, "difference at byte %ld", count); break; } ++count; } fclose(fd1); fclose(fd2); } } if (IObuff[0] != NUL) { prepare_assert_error(&ga); ga_concat(&ga, IObuff); assert_error(&ga); ga_clear(&ga); } } void assert_match_common(typval_T *argvars, assert_type_T atype) { garray_T ga; char_u buf1[NUMBUFLEN]; char_u buf2[NUMBUFLEN]; char_u *pat = get_tv_string_buf_chk(&argvars[0], buf1); char_u *text = get_tv_string_buf_chk(&argvars[1], buf2); if (pat == NULL || text == NULL) EMSG(_(e_invarg)); else if (pattern_match(pat, text, FALSE) != (atype == ASSERT_MATCH)) { prepare_assert_error(&ga); fill_assert_error(&ga, &argvars[2], NULL, &argvars[0], &argvars[1], atype); assert_error(&ga); ga_clear(&ga); } } void assert_inrange(typval_T *argvars) { garray_T ga; int error = FALSE; varnumber_T lower = get_tv_number_chk(&argvars[0], &error); varnumber_T upper = get_tv_number_chk(&argvars[1], &error); varnumber_T actual = get_tv_number_chk(&argvars[2], &error); char_u *tofree; char msg[200]; char_u numbuf[NUMBUFLEN]; if (error) return; if (actual < lower || actual > upper) { prepare_assert_error(&ga); if (argvars[3].v_type != VAR_UNKNOWN) { ga_concat(&ga, tv2string(&argvars[3], &tofree, numbuf, 0)); vim_free(tofree); } else { vim_snprintf(msg, 200, "Expected range %ld - %ld, but got %ld", (long)lower, (long)upper, (long)actual); ga_concat(&ga, (char_u *)msg); } assert_error(&ga); ga_clear(&ga); } } /* * Common for assert_true() and assert_false(). */ void assert_bool(typval_T *argvars, int isTrue) { int error = FALSE; garray_T ga; if (argvars[0].v_type == VAR_SPECIAL && argvars[0].vval.v_number == (isTrue ? VVAL_TRUE : VVAL_FALSE)) return; if (argvars[0].v_type != VAR_NUMBER || (get_tv_number_chk(&argvars[0], &error) == 0) == isTrue || error) { prepare_assert_error(&ga); fill_assert_error(&ga, &argvars[1], (char_u *)(isTrue ? "True" : "False"), NULL, &argvars[0], ASSERT_OTHER); assert_error(&ga); ga_clear(&ga); } } void assert_report(typval_T *argvars) { garray_T ga; prepare_assert_error(&ga); ga_concat(&ga, get_tv_string(&argvars[0])); assert_error(&ga); ga_clear(&ga); } void assert_exception(typval_T *argvars) { garray_T ga; char_u *error = get_tv_string_chk(&argvars[0]); if (vimvars[VV_EXCEPTION].vv_str == NULL) { prepare_assert_error(&ga); ga_concat(&ga, (char_u *)"v:exception is not set"); assert_error(&ga); ga_clear(&ga); } else if (error != NULL && strstr((char *)vimvars[VV_EXCEPTION].vv_str, (char *)error) == NULL) { prepare_assert_error(&ga); fill_assert_error(&ga, &argvars[1], NULL, &argvars[0], &vimvars[VV_EXCEPTION].vv_tv, ASSERT_OTHER); assert_error(&ga); ga_clear(&ga); } } void assert_beeps(typval_T *argvars) { char_u *cmd = get_tv_string_chk(&argvars[0]); garray_T ga; called_vim_beep = FALSE; suppress_errthrow = TRUE; emsg_silent = FALSE; do_cmdline_cmd(cmd); if (!called_vim_beep) { prepare_assert_error(&ga); ga_concat(&ga, (char_u *)"command did not beep: "); ga_concat(&ga, cmd); assert_error(&ga); ga_clear(&ga); } suppress_errthrow = FALSE; emsg_on_display = FALSE; } void assert_fails(typval_T *argvars) { char_u *cmd = get_tv_string_chk(&argvars[0]); garray_T ga; called_emsg = FALSE; suppress_errthrow = TRUE; emsg_silent = TRUE; do_cmdline_cmd(cmd); if (!called_emsg) { prepare_assert_error(&ga); ga_concat(&ga, (char_u *)"command did not fail: "); ga_concat(&ga, cmd); assert_error(&ga); ga_clear(&ga); } else if (argvars[1].v_type != VAR_UNKNOWN) { char_u buf[NUMBUFLEN]; char *error = (char *)get_tv_string_buf_chk(&argvars[1], buf); if (error == NULL || strstr((char *)vimvars[VV_ERRMSG].vv_str, error) == NULL) { prepare_assert_error(&ga); fill_assert_error(&ga, &argvars[2], NULL, &argvars[1], &vimvars[VV_ERRMSG].vv_tv, ASSERT_OTHER); assert_error(&ga); ga_clear(&ga); } } called_emsg = FALSE; suppress_errthrow = FALSE; emsg_silent = FALSE; emsg_on_display = FALSE; set_vim_var_string(VV_ERRMSG, NULL, 0); } /* * Append "str" to "gap", escaping unprintable characters. * Changes NL to \n, CR to \r, etc. */ static void ga_concat_esc(garray_T *gap, char_u *str) { char_u *p; char_u buf[NUMBUFLEN]; if (str == NULL) { ga_concat(gap, (char_u *)"NULL"); return; } for (p = str; *p != NUL; ++p) switch (*p) { case BS: ga_concat(gap, (char_u *)"\\b"); break; case ESC: ga_concat(gap, (char_u *)"\\e"); break; case FF: ga_concat(gap, (char_u *)"\\f"); break; case NL: ga_concat(gap, (char_u *)"\\n"); break; case TAB: ga_concat(gap, (char_u *)"\\t"); break; case CAR: ga_concat(gap, (char_u *)"\\r"); break; case '\\': ga_concat(gap, (char_u *)"\\\\"); break; default: if (*p < ' ') { vim_snprintf((char *)buf, NUMBUFLEN, "\\x%02x", *p); ga_concat(gap, buf); } else ga_append(gap, *p); break; } } /* * Fill "gap" with information about an assert error. */ void fill_assert_error( garray_T *gap, typval_T *opt_msg_tv, char_u *exp_str, typval_T *exp_tv, typval_T *got_tv, assert_type_T atype) { char_u numbuf[NUMBUFLEN]; char_u *tofree; if (opt_msg_tv->v_type != VAR_UNKNOWN) { ga_concat(gap, echo_string(opt_msg_tv, &tofree, numbuf, 0)); vim_free(tofree); ga_concat(gap, (char_u *)": "); } if (atype == ASSERT_MATCH || atype == ASSERT_NOTMATCH) ga_concat(gap, (char_u *)"Pattern "); else if (atype == ASSERT_NOTEQUAL) ga_concat(gap, (char_u *)"Expected not equal to "); else ga_concat(gap, (char_u *)"Expected "); if (exp_str == NULL) { ga_concat_esc(gap, tv2string(exp_tv, &tofree, numbuf, 0)); vim_free(tofree); } else ga_concat_esc(gap, exp_str); if (atype != ASSERT_NOTEQUAL) { if (atype == ASSERT_MATCH) ga_concat(gap, (char_u *)" does not match "); else if (atype == ASSERT_NOTMATCH) ga_concat(gap, (char_u *)" does match "); else ga_concat(gap, (char_u *)" but got "); ga_concat_esc(gap, tv2string(got_tv, &tofree, numbuf, 0)); vim_free(tofree); } } /* * Compare "typ1" and "typ2". Put the result in "typ1". */ int typval_compare( typval_T *typ1, /* first operand */ typval_T *typ2, /* second operand */ exptype_T type, /* operator */ int type_is, /* TRUE for "is" and "isnot" */ int ic) /* ignore case */ { int i; varnumber_T n1, n2; char_u *s1, *s2; char_u buf1[NUMBUFLEN], buf2[NUMBUFLEN]; if (type_is && typ1->v_type != typ2->v_type) { /* For "is" a different type always means FALSE, for "notis" * it means TRUE. */ n1 = (type == TYPE_NEQUAL); } else if (typ1->v_type == VAR_LIST || typ2->v_type == VAR_LIST) { if (type_is) { n1 = (typ1->v_type == typ2->v_type && typ1->vval.v_list == typ2->vval.v_list); if (type == TYPE_NEQUAL) n1 = !n1; } else if (typ1->v_type != typ2->v_type || (type != TYPE_EQUAL && type != TYPE_NEQUAL)) { if (typ1->v_type != typ2->v_type) EMSG(_("E691: Can only compare List with List")); else EMSG(_("E692: Invalid operation for List")); clear_tv(typ1); return FAIL; } else { /* Compare two Lists for being equal or unequal. */ n1 = list_equal(typ1->vval.v_list, typ2->vval.v_list, ic, FALSE); if (type == TYPE_NEQUAL) n1 = !n1; } } else if (typ1->v_type == VAR_DICT || typ2->v_type == VAR_DICT) { if (type_is) { n1 = (typ1->v_type == typ2->v_type && typ1->vval.v_dict == typ2->vval.v_dict); if (type == TYPE_NEQUAL) n1 = !n1; } else if (typ1->v_type != typ2->v_type || (type != TYPE_EQUAL && type != TYPE_NEQUAL)) { if (typ1->v_type != typ2->v_type) EMSG(_("E735: Can only compare Dictionary with Dictionary")); else EMSG(_("E736: Invalid operation for Dictionary")); clear_tv(typ1); return FAIL; } else { /* Compare two Dictionaries for being equal or unequal. */ n1 = dict_equal(typ1->vval.v_dict, typ2->vval.v_dict, ic, FALSE); if (type == TYPE_NEQUAL) n1 = !n1; } } else if (typ1->v_type == VAR_FUNC || typ2->v_type == VAR_FUNC || typ1->v_type == VAR_PARTIAL || typ2->v_type == VAR_PARTIAL) { if (type != TYPE_EQUAL && type != TYPE_NEQUAL) { EMSG(_("E694: Invalid operation for Funcrefs")); clear_tv(typ1); return FAIL; } if ((typ1->v_type == VAR_PARTIAL && typ1->vval.v_partial == NULL) || (typ2->v_type == VAR_PARTIAL && typ2->vval.v_partial == NULL)) /* when a partial is NULL assume not equal */ n1 = FALSE; else if (type_is) { if (typ1->v_type == VAR_FUNC && typ2->v_type == VAR_FUNC) /* strings are considered the same if their value is * the same */ n1 = tv_equal(typ1, typ2, ic, FALSE); else if (typ1->v_type == VAR_PARTIAL && typ2->v_type == VAR_PARTIAL) n1 = (typ1->vval.v_partial == typ2->vval.v_partial); else n1 = FALSE; } else n1 = tv_equal(typ1, typ2, ic, FALSE); if (type == TYPE_NEQUAL) n1 = !n1; } #ifdef FEAT_FLOAT /* * If one of the two variables is a float, compare as a float. * When using "=~" or "!~", always compare as string. */ else if ((typ1->v_type == VAR_FLOAT || typ2->v_type == VAR_FLOAT) && type != TYPE_MATCH && type != TYPE_NOMATCH) { float_T f1, f2; if (typ1->v_type == VAR_FLOAT) f1 = typ1->vval.v_float; else f1 = get_tv_number(typ1); if (typ2->v_type == VAR_FLOAT) f2 = typ2->vval.v_float; else f2 = get_tv_number(typ2); n1 = FALSE; switch (type) { case TYPE_EQUAL: n1 = (f1 == f2); break; case TYPE_NEQUAL: n1 = (f1 != f2); break; case TYPE_GREATER: n1 = (f1 > f2); break; case TYPE_GEQUAL: n1 = (f1 >= f2); break; case TYPE_SMALLER: n1 = (f1 < f2); break; case TYPE_SEQUAL: n1 = (f1 <= f2); break; case TYPE_UNKNOWN: case TYPE_MATCH: case TYPE_NOMATCH: break; /* avoid gcc warning */ } } #endif /* * If one of the two variables is a number, compare as a number. * When using "=~" or "!~", always compare as string. */ else if ((typ1->v_type == VAR_NUMBER || typ2->v_type == VAR_NUMBER) && type != TYPE_MATCH && type != TYPE_NOMATCH) { n1 = get_tv_number(typ1); n2 = get_tv_number(typ2); switch (type) { case TYPE_EQUAL: n1 = (n1 == n2); break; case TYPE_NEQUAL: n1 = (n1 != n2); break; case TYPE_GREATER: n1 = (n1 > n2); break; case TYPE_GEQUAL: n1 = (n1 >= n2); break; case TYPE_SMALLER: n1 = (n1 < n2); break; case TYPE_SEQUAL: n1 = (n1 <= n2); break; case TYPE_UNKNOWN: case TYPE_MATCH: case TYPE_NOMATCH: break; /* avoid gcc warning */ } } else { s1 = get_tv_string_buf(typ1, buf1); s2 = get_tv_string_buf(typ2, buf2); if (type != TYPE_MATCH && type != TYPE_NOMATCH) i = ic ? MB_STRICMP(s1, s2) : STRCMP(s1, s2); else i = 0; n1 = FALSE; switch (type) { case TYPE_EQUAL: n1 = (i == 0); break; case TYPE_NEQUAL: n1 = (i != 0); break; case TYPE_GREATER: n1 = (i > 0); break; case TYPE_GEQUAL: n1 = (i >= 0); break; case TYPE_SMALLER: n1 = (i < 0); break; case TYPE_SEQUAL: n1 = (i <= 0); break; case TYPE_MATCH: case TYPE_NOMATCH: n1 = pattern_match(s2, s1, ic); if (type == TYPE_NOMATCH) n1 = !n1; break; case TYPE_UNKNOWN: break; /* avoid gcc warning */ } } clear_tv(typ1); typ1->v_type = VAR_NUMBER; typ1->vval.v_number = n1; return OK; } char_u * typval_tostring(arg) typval_T *arg; { char_u *tofree; char_u numbuf[NUMBUFLEN]; char_u *ret = NULL; if (arg == NULL) return vim_strsave((char_u *)"(does not exist)"); ret = tv2string(arg, &tofree, numbuf, 0); /* Make a copy if we have a value but it's not in allocated memory. */ if (ret != NULL && tofree == NULL) ret = vim_strsave(ret); return ret; } int var_exists(char_u *var) { char_u *name; char_u *tofree; typval_T tv; int len = 0; int n = FALSE; /* get_name_len() takes care of expanding curly braces */ name = var; len = get_name_len(&var, &tofree, TRUE, FALSE); if (len > 0) { if (tofree != NULL) name = tofree; n = (get_var_tv(name, len, &tv, NULL, FALSE, TRUE) == OK); if (n) { /* handle d.key, l[idx], f(expr) */ n = (handle_subscript(&var, &tv, TRUE, FALSE) == OK); if (n) clear_tv(&tv); } } if (*var != NUL) n = FALSE; vim_free(tofree); return n; } #endif /* FEAT_EVAL */ #if defined(FEAT_MODIFY_FNAME) || defined(FEAT_EVAL) || defined(PROTO) #ifdef WIN3264 /* * Functions for ":8" filename modifier: get 8.3 version of a filename. */ static int get_short_pathname(char_u **fnamep, char_u **bufp, int *fnamelen); static int shortpath_for_invalid_fname(char_u **fname, char_u **bufp, int *fnamelen); static int shortpath_for_partial(char_u **fnamep, char_u **bufp, int *fnamelen); /* * Get the short path (8.3) for the filename in "fnamep". * Only works for a valid file name. * When the path gets longer "fnamep" is changed and the allocated buffer * is put in "bufp". * *fnamelen is the length of "fnamep" and set to 0 for a nonexistent path. * Returns OK on success, FAIL on failure. */ static int get_short_pathname(char_u **fnamep, char_u **bufp, int *fnamelen) { int l, len; char_u *newbuf; len = *fnamelen; l = GetShortPathName((LPSTR)*fnamep, (LPSTR)*fnamep, len); if (l > len - 1) { /* If that doesn't work (not enough space), then save the string * and try again with a new buffer big enough. */ newbuf = vim_strnsave(*fnamep, l); if (newbuf == NULL) return FAIL; vim_free(*bufp); *fnamep = *bufp = newbuf; /* Really should always succeed, as the buffer is big enough. */ l = GetShortPathName((LPSTR)*fnamep, (LPSTR)*fnamep, l+1); } *fnamelen = l; return OK; } /* * Get the short path (8.3) for the filename in "fname". The converted * path is returned in "bufp". * * Some of the directories specified in "fname" may not exist. This function * will shorten the existing directories at the beginning of the path and then * append the remaining non-existing path. * * fname - Pointer to the filename to shorten. On return, contains the * pointer to the shortened pathname * bufp - Pointer to an allocated buffer for the filename. * fnamelen - Length of the filename pointed to by fname * * Returns OK on success (or nothing done) and FAIL on failure (out of memory). */ static int shortpath_for_invalid_fname( char_u **fname, char_u **bufp, int *fnamelen) { char_u *short_fname, *save_fname, *pbuf_unused; char_u *endp, *save_endp; char_u ch; int old_len, len; int new_len, sfx_len; int retval = OK; /* Make a copy */ old_len = *fnamelen; save_fname = vim_strnsave(*fname, old_len); pbuf_unused = NULL; short_fname = NULL; endp = save_fname + old_len - 1; /* Find the end of the copy */ save_endp = endp; /* * Try shortening the supplied path till it succeeds by removing one * directory at a time from the tail of the path. */ len = 0; for (;;) { /* go back one path-separator */ while (endp > save_fname && !after_pathsep(save_fname, endp + 1)) --endp; if (endp <= save_fname) break; /* processed the complete path */ /* * Replace the path separator with a NUL and try to shorten the * resulting path. */ ch = *endp; *endp = 0; short_fname = save_fname; len = (int)STRLEN(short_fname) + 1; if (get_short_pathname(&short_fname, &pbuf_unused, &len) == FAIL) { retval = FAIL; goto theend; } *endp = ch; /* preserve the string */ if (len > 0) break; /* successfully shortened the path */ /* failed to shorten the path. Skip the path separator */ --endp; } if (len > 0) { /* * Succeeded in shortening the path. Now concatenate the shortened * path with the remaining path at the tail. */ /* Compute the length of the new path. */ sfx_len = (int)(save_endp - endp) + 1; new_len = len + sfx_len; *fnamelen = new_len; vim_free(*bufp); if (new_len > old_len) { /* There is not enough space in the currently allocated string, * copy it to a buffer big enough. */ *fname = *bufp = vim_strnsave(short_fname, new_len); if (*fname == NULL) { retval = FAIL; goto theend; } } else { /* Transfer short_fname to the main buffer (it's big enough), * unless get_short_pathname() did its work in-place. */ *fname = *bufp = save_fname; if (short_fname != save_fname) vim_strncpy(save_fname, short_fname, len); save_fname = NULL; } /* concat the not-shortened part of the path */ vim_strncpy(*fname + len, endp, sfx_len); (*fname)[new_len] = NUL; } theend: vim_free(pbuf_unused); vim_free(save_fname); return retval; } /* * Get a pathname for a partial path. * Returns OK for success, FAIL for failure. */ static int shortpath_for_partial( char_u **fnamep, char_u **bufp, int *fnamelen) { int sepcount, len, tflen; char_u *p; char_u *pbuf, *tfname; int hasTilde; /* Count up the path separators from the RHS.. so we know which part * of the path to return. */ sepcount = 0; for (p = *fnamep; p < *fnamep + *fnamelen; MB_PTR_ADV(p)) if (vim_ispathsep(*p)) ++sepcount; /* Need full path first (use expand_env() to remove a "~/") */ hasTilde = (**fnamep == '~'); if (hasTilde) pbuf = tfname = expand_env_save(*fnamep); else pbuf = tfname = FullName_save(*fnamep, FALSE); len = tflen = (int)STRLEN(tfname); if (get_short_pathname(&tfname, &pbuf, &len) == FAIL) return FAIL; if (len == 0) { /* Don't have a valid filename, so shorten the rest of the * path if we can. This CAN give us invalid 8.3 filenames, but * there's not a lot of point in guessing what it might be. */ len = tflen; if (shortpath_for_invalid_fname(&tfname, &pbuf, &len) == FAIL) return FAIL; } /* Count the paths backward to find the beginning of the desired string. */ for (p = tfname + len - 1; p >= tfname; --p) { #ifdef FEAT_MBYTE if (has_mbyte) p -= mb_head_off(tfname, p); #endif if (vim_ispathsep(*p)) { if (sepcount == 0 || (hasTilde && sepcount == 1)) break; else sepcount --; } } if (hasTilde) { --p; if (p >= tfname) *p = '~'; else return FAIL; } else ++p; /* Copy in the string - p indexes into tfname - allocated at pbuf */ vim_free(*bufp); *fnamelen = (int)STRLEN(p); *bufp = pbuf; *fnamep = p; return OK; } #endif /* WIN3264 */ /* * Adjust a filename, according to a string of modifiers. * *fnamep must be NUL terminated when called. When returning, the length is * determined by *fnamelen. * Returns VALID_ flags or -1 for failure. * When there is an error, *fnamep is set to NULL. */ int modify_fname( char_u *src, /* string with modifiers */ int *usedlen, /* characters after src that are used */ char_u **fnamep, /* file name so far */ char_u **bufp, /* buffer for allocated file name or NULL */ int *fnamelen) /* length of fnamep */ { int valid = 0; char_u *tail; char_u *s, *p, *pbuf; char_u dirname[MAXPATHL]; int c; int has_fullname = 0; #ifdef WIN3264 char_u *fname_start = *fnamep; int has_shortname = 0; #endif repeat: /* ":p" - full path/file_name */ if (src[*usedlen] == ':' && src[*usedlen + 1] == 'p') { has_fullname = 1; valid |= VALID_PATH; *usedlen += 2; /* Expand "~/path" for all systems and "~user/path" for Unix and VMS */ if ((*fnamep)[0] == '~' #if !defined(UNIX) && !(defined(VMS) && defined(USER_HOME)) && ((*fnamep)[1] == '/' # ifdef BACKSLASH_IN_FILENAME || (*fnamep)[1] == '\\' # endif || (*fnamep)[1] == NUL) #endif ) { *fnamep = expand_env_save(*fnamep); vim_free(*bufp); /* free any allocated file name */ *bufp = *fnamep; if (*fnamep == NULL) return -1; } /* When "/." or "/.." is used: force expansion to get rid of it. */ for (p = *fnamep; *p != NUL; MB_PTR_ADV(p)) { if (vim_ispathsep(*p) && p[1] == '.' && (p[2] == NUL || vim_ispathsep(p[2]) || (p[2] == '.' && (p[3] == NUL || vim_ispathsep(p[3]))))) break; } /* FullName_save() is slow, don't use it when not needed. */ if (*p != NUL || !vim_isAbsName(*fnamep)) { *fnamep = FullName_save(*fnamep, *p != NUL); vim_free(*bufp); /* free any allocated file name */ *bufp = *fnamep; if (*fnamep == NULL) return -1; } #ifdef WIN3264 # if _WIN32_WINNT >= 0x0500 if (vim_strchr(*fnamep, '~') != NULL) { /* Expand 8.3 filename to full path. Needed to make sure the same * file does not have two different names. * Note: problem does not occur if _WIN32_WINNT < 0x0500. */ p = alloc(_MAX_PATH + 1); if (p != NULL) { if (GetLongPathName((LPSTR)*fnamep, (LPSTR)p, _MAX_PATH)) { vim_free(*bufp); *bufp = *fnamep = p; } else vim_free(p); } } # endif #endif /* Append a path separator to a directory. */ if (mch_isdir(*fnamep)) { /* Make room for one or two extra characters. */ *fnamep = vim_strnsave(*fnamep, (int)STRLEN(*fnamep) + 2); vim_free(*bufp); /* free any allocated file name */ *bufp = *fnamep; if (*fnamep == NULL) return -1; add_pathsep(*fnamep); } } /* ":." - path relative to the current directory */ /* ":~" - path relative to the home directory */ /* ":8" - shortname path - postponed till after */ while (src[*usedlen] == ':' && ((c = src[*usedlen + 1]) == '.' || c == '~' || c == '8')) { *usedlen += 2; if (c == '8') { #ifdef WIN3264 has_shortname = 1; /* Postpone this. */ #endif continue; } pbuf = NULL; /* Need full path first (use expand_env() to remove a "~/") */ if (!has_fullname) { if (c == '.' && **fnamep == '~') p = pbuf = expand_env_save(*fnamep); else p = pbuf = FullName_save(*fnamep, FALSE); } else p = *fnamep; has_fullname = 0; if (p != NULL) { if (c == '.') { mch_dirname(dirname, MAXPATHL); s = shorten_fname(p, dirname); if (s != NULL) { *fnamep = s; if (pbuf != NULL) { vim_free(*bufp); /* free any allocated file name */ *bufp = pbuf; pbuf = NULL; } } } else { home_replace(NULL, p, dirname, MAXPATHL, TRUE); /* Only replace it when it starts with '~' */ if (*dirname == '~') { s = vim_strsave(dirname); if (s != NULL) { *fnamep = s; vim_free(*bufp); *bufp = s; } } } vim_free(pbuf); } } tail = gettail(*fnamep); *fnamelen = (int)STRLEN(*fnamep); /* ":h" - head, remove "/file_name", can be repeated */ /* Don't remove the first "/" or "c:\" */ while (src[*usedlen] == ':' && src[*usedlen + 1] == 'h') { valid |= VALID_HEAD; *usedlen += 2; s = get_past_head(*fnamep); while (tail > s && after_pathsep(s, tail)) MB_PTR_BACK(*fnamep, tail); *fnamelen = (int)(tail - *fnamep); #ifdef VMS if (*fnamelen > 0) *fnamelen += 1; /* the path separator is part of the path */ #endif if (*fnamelen == 0) { /* Result is empty. Turn it into "." to make ":cd %:h" work. */ p = vim_strsave((char_u *)"."); if (p == NULL) return -1; vim_free(*bufp); *bufp = *fnamep = tail = p; *fnamelen = 1; } else { while (tail > s && !after_pathsep(s, tail)) MB_PTR_BACK(*fnamep, tail); } } /* ":8" - shortname */ if (src[*usedlen] == ':' && src[*usedlen + 1] == '8') { *usedlen += 2; #ifdef WIN3264 has_shortname = 1; #endif } #ifdef WIN3264 /* * Handle ":8" after we have done 'heads' and before we do 'tails'. */ if (has_shortname) { /* Copy the string if it is shortened by :h and when it wasn't copied * yet, because we are going to change it in place. Avoids changing * the buffer name for "%:8". */ if (*fnamelen < (int)STRLEN(*fnamep) || *fnamep == fname_start) { p = vim_strnsave(*fnamep, *fnamelen); if (p == NULL) return -1; vim_free(*bufp); *bufp = *fnamep = p; } /* Split into two implementations - makes it easier. First is where * there isn't a full name already, second is where there is. */ if (!has_fullname && !vim_isAbsName(*fnamep)) { if (shortpath_for_partial(fnamep, bufp, fnamelen) == FAIL) return -1; } else { int l = *fnamelen; /* Simple case, already have the full-name. * Nearly always shorter, so try first time. */ if (get_short_pathname(fnamep, bufp, &l) == FAIL) return -1; if (l == 0) { /* Couldn't find the filename, search the paths. */ l = *fnamelen; if (shortpath_for_invalid_fname(fnamep, bufp, &l) == FAIL) return -1; } *fnamelen = l; } } #endif /* WIN3264 */ /* ":t" - tail, just the basename */ if (src[*usedlen] == ':' && src[*usedlen + 1] == 't') { *usedlen += 2; *fnamelen -= (int)(tail - *fnamep); *fnamep = tail; } /* ":e" - extension, can be repeated */ /* ":r" - root, without extension, can be repeated */ while (src[*usedlen] == ':' && (src[*usedlen + 1] == 'e' || src[*usedlen + 1] == 'r')) { /* find a '.' in the tail: * - for second :e: before the current fname * - otherwise: The last '.' */ if (src[*usedlen + 1] == 'e' && *fnamep > tail) s = *fnamep - 2; else s = *fnamep + *fnamelen - 1; for ( ; s > tail; --s) if (s[0] == '.') break; if (src[*usedlen + 1] == 'e') /* :e */ { if (s > tail) { *fnamelen += (int)(*fnamep - (s + 1)); *fnamep = s + 1; #ifdef VMS /* cut version from the extension */ s = *fnamep + *fnamelen - 1; for ( ; s > *fnamep; --s) if (s[0] == ';') break; if (s > *fnamep) *fnamelen = s - *fnamep; #endif } else if (*fnamep <= tail) *fnamelen = 0; } else /* :r */ { if (s > tail) /* remove one extension */ *fnamelen = (int)(s - *fnamep); } *usedlen += 2; } /* ":s?pat?foo?" - substitute */ /* ":gs?pat?foo?" - global substitute */ if (src[*usedlen] == ':' && (src[*usedlen + 1] == 's' || (src[*usedlen + 1] == 'g' && src[*usedlen + 2] == 's'))) { char_u *str; char_u *pat; char_u *sub; int sep; char_u *flags; int didit = FALSE; flags = (char_u *)""; s = src + *usedlen + 2; if (src[*usedlen + 1] == 'g') { flags = (char_u *)"g"; ++s; } sep = *s++; if (sep) { /* find end of pattern */ p = vim_strchr(s, sep); if (p != NULL) { pat = vim_strnsave(s, (int)(p - s)); if (pat != NULL) { s = p + 1; /* find end of substitution */ p = vim_strchr(s, sep); if (p != NULL) { sub = vim_strnsave(s, (int)(p - s)); str = vim_strnsave(*fnamep, *fnamelen); if (sub != NULL && str != NULL) { *usedlen = (int)(p + 1 - src); s = do_string_sub(str, pat, sub, NULL, flags); if (s != NULL) { *fnamep = s; *fnamelen = (int)STRLEN(s); vim_free(*bufp); *bufp = s; didit = TRUE; } } vim_free(sub); vim_free(str); } vim_free(pat); } } /* after using ":s", repeat all the modifiers */ if (didit) goto repeat; } } if (src[*usedlen] == ':' && src[*usedlen + 1] == 'S') { /* vim_strsave_shellescape() needs a NUL terminated string. */ c = (*fnamep)[*fnamelen]; if (c != NUL) (*fnamep)[*fnamelen] = NUL; p = vim_strsave_shellescape(*fnamep, FALSE, FALSE); if (c != NUL) (*fnamep)[*fnamelen] = c; if (p == NULL) return -1; vim_free(*bufp); *bufp = *fnamep = p; *fnamelen = (int)STRLEN(p); *usedlen += 2; } return valid; } /* * Perform a substitution on "str" with pattern "pat" and substitute "sub". * When "sub" is NULL "expr" is used, must be a VAR_FUNC or VAR_PARTIAL. * "flags" can be "g" to do a global substitute. * Returns an allocated string, NULL for error. */ char_u * do_string_sub( char_u *str, char_u *pat, char_u *sub, typval_T *expr, char_u *flags) { int sublen; regmatch_T regmatch; int i; int do_all; char_u *tail; char_u *end; garray_T ga; char_u *ret; char_u *save_cpo; char_u *zero_width = NULL; /* Make 'cpoptions' empty, so that the 'l' flag doesn't work here */ save_cpo = p_cpo; p_cpo = empty_option; ga_init2(&ga, 1, 200); do_all = (flags[0] == 'g'); regmatch.rm_ic = p_ic; regmatch.regprog = vim_regcomp(pat, RE_MAGIC + RE_STRING); if (regmatch.regprog != NULL) { tail = str; end = str + STRLEN(str); while (vim_regexec_nl(®match, str, (colnr_T)(tail - str))) { /* Skip empty match except for first match. */ if (regmatch.startp[0] == regmatch.endp[0]) { if (zero_width == regmatch.startp[0]) { /* avoid getting stuck on a match with an empty string */ i = MB_PTR2LEN(tail); mch_memmove((char_u *)ga.ga_data + ga.ga_len, tail, (size_t)i); ga.ga_len += i; tail += i; continue; } zero_width = regmatch.startp[0]; } /* * Get some space for a temporary buffer to do the substitution * into. It will contain: * - The text up to where the match is. * - The substituted text. * - The text after the match. */ sublen = vim_regsub(®match, sub, expr, tail, FALSE, TRUE, FALSE); if (ga_grow(&ga, (int)((end - tail) + sublen - (regmatch.endp[0] - regmatch.startp[0]))) == FAIL) { ga_clear(&ga); break; } /* copy the text up to where the match is */ i = (int)(regmatch.startp[0] - tail); mch_memmove((char_u *)ga.ga_data + ga.ga_len, tail, (size_t)i); /* add the substituted text */ (void)vim_regsub(®match, sub, expr, (char_u *)ga.ga_data + ga.ga_len + i, TRUE, TRUE, FALSE); ga.ga_len += i + sublen - 1; tail = regmatch.endp[0]; if (*tail == NUL) break; if (!do_all) break; } if (ga.ga_data != NULL) STRCPY((char *)ga.ga_data + ga.ga_len, tail); vim_regfree(regmatch.regprog); } ret = vim_strsave(ga.ga_data == NULL ? str : (char_u *)ga.ga_data); ga_clear(&ga); if (p_cpo == empty_option) p_cpo = save_cpo; else /* Darn, evaluating {sub} expression or {expr} changed the value. */ free_string_option(save_cpo); return ret; } static int filter_map_one(typval_T *tv, typval_T *expr, int map, int *remp) { typval_T rettv; typval_T argv[3]; int retval = FAIL; copy_tv(tv, &vimvars[VV_VAL].vv_tv); argv[0] = vimvars[VV_KEY].vv_tv; argv[1] = vimvars[VV_VAL].vv_tv; if (eval_expr_typval(expr, argv, 2, &rettv) == FAIL) goto theend; if (map) { /* map(): replace the list item value */ clear_tv(tv); rettv.v_lock = 0; *tv = rettv; } else { int error = FALSE; /* filter(): when expr is zero remove the item */ *remp = (get_tv_number_chk(&rettv, &error) == 0); clear_tv(&rettv); /* On type error, nothing has been removed; return FAIL to stop the * loop. The error message was given by get_tv_number_chk(). */ if (error) goto theend; } retval = OK; theend: clear_tv(&vimvars[VV_VAL].vv_tv); return retval; } /* * Implementation of map() and filter(). */ void filter_map(typval_T *argvars, typval_T *rettv, int map) { typval_T *expr; listitem_T *li, *nli; list_T *l = NULL; dictitem_T *di; hashtab_T *ht; hashitem_T *hi; dict_T *d = NULL; typval_T save_val; typval_T save_key; int rem; int todo; char_u *ermsg = (char_u *)(map ? "map()" : "filter()"); char_u *arg_errmsg = (char_u *)(map ? N_("map() argument") : N_("filter() argument")); int save_did_emsg; int idx = 0; if (argvars[0].v_type == VAR_LIST) { if ((l = argvars[0].vval.v_list) == NULL || (!map && tv_check_lock(l->lv_lock, arg_errmsg, TRUE))) return; } else if (argvars[0].v_type == VAR_DICT) { if ((d = argvars[0].vval.v_dict) == NULL || (!map && tv_check_lock(d->dv_lock, arg_errmsg, TRUE))) return; } else { EMSG2(_(e_listdictarg), ermsg); return; } expr = &argvars[1]; /* On type errors, the preceding call has already displayed an error * message. Avoid a misleading error message for an empty string that * was not passed as argument. */ if (expr->v_type != VAR_UNKNOWN) { prepare_vimvar(VV_VAL, &save_val); /* We reset "did_emsg" to be able to detect whether an error * occurred during evaluation of the expression. */ save_did_emsg = did_emsg; did_emsg = FALSE; prepare_vimvar(VV_KEY, &save_key); if (argvars[0].v_type == VAR_DICT) { vimvars[VV_KEY].vv_type = VAR_STRING; ht = &d->dv_hashtab; hash_lock(ht); todo = (int)ht->ht_used; for (hi = ht->ht_array; todo > 0; ++hi) { if (!HASHITEM_EMPTY(hi)) { int r; --todo; di = HI2DI(hi); if (map && (tv_check_lock(di->di_tv.v_lock, arg_errmsg, TRUE) || var_check_ro(di->di_flags, arg_errmsg, TRUE))) break; vimvars[VV_KEY].vv_str = vim_strsave(di->di_key); r = filter_map_one(&di->di_tv, expr, map, &rem); clear_tv(&vimvars[VV_KEY].vv_tv); if (r == FAIL || did_emsg) break; if (!map && rem) { if (var_check_fixed(di->di_flags, arg_errmsg, TRUE) || var_check_ro(di->di_flags, arg_errmsg, TRUE)) break; dictitem_remove(d, di); } } } hash_unlock(ht); } else { vimvars[VV_KEY].vv_type = VAR_NUMBER; for (li = l->lv_first; li != NULL; li = nli) { if (map && tv_check_lock(li->li_tv.v_lock, arg_errmsg, TRUE)) break; nli = li->li_next; vimvars[VV_KEY].vv_nr = idx; if (filter_map_one(&li->li_tv, expr, map, &rem) == FAIL || did_emsg) break; if (!map && rem) listitem_remove(l, li); ++idx; } } restore_vimvar(VV_KEY, &save_key); restore_vimvar(VV_VAL, &save_val); did_emsg |= save_did_emsg; } copy_tv(&argvars[0], rettv); } #endif /* defined(FEAT_MODIFY_FNAME) || defined(FEAT_EVAL) */