Mercurial > vim
view src/typval.c @ 20603:c2570baa2e4c v8.2.0855
patch 8.2.0855: GUI tests fail because the test doesn't use a modifier
Commit: https://github.com/vim/vim/commit/ebe9d34aa07037cff2188a8dd424ee1f59cbb0bf
Author: Bram Moolenaar <Bram@vim.org>
Date: Sat May 30 21:52:54 2020 +0200
patch 8.2.0855: GUI tests fail because the test doesn't use a modifier
Problem: GUI tests fail because the test doesn't use a modifier.
Solution: Add "\{xxx}" to be able to encode a modifier.
| author | Bram Moolenaar <Bram@vim.org> |
|---|---|
| date | Sat, 30 May 2020 22:00:04 +0200 |
| parents | f502455965c0 |
| children | 8bce783af0cb |
line wrap: on
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/* vi:set ts=8 sts=4 sw=4 noet: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. * See README.txt for an overview of the Vim source code. */ /* * typval.c: functions that deal with a typval */ #include "vim.h" #if defined(FEAT_EVAL) || defined(PROTO) /* * Allocate memory for a variable type-value, and make it empty (0 or NULL * value). */ typval_T * alloc_tv(void) { return ALLOC_CLEAR_ONE(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. */ 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_BLOB: blob_unref(varp->vval.v_blob); 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_ANY: case VAR_UNKNOWN: case VAR_VOID: case VAR_BOOL: 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_BLOB: blob_unref(varp->vval.v_blob); varp->vval.v_blob = 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_BOOL: 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: case VAR_ANY: case VAR_VOID: 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) CLEAR_POINTER(varp); } /* * Get the number value of a variable. * If it is a String variable, uses vim_str2nr(). * For incompatible types, return 0. * tv_get_number_chk() is similar to tv_get_number(), but informs the * caller of incompatible types: it sets *denote to TRUE if "denote" * is not NULL or returns -1 otherwise. */ varnumber_T tv_get_number(typval_T *varp) { int error = FALSE; return tv_get_number_chk(varp, &error); // return 0L on error } varnumber_T tv_get_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, FALSE); 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_BOOL: case VAR_SPECIAL: return varp->vval.v_number == VVAL_TRUE ? 1 : 0; 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_BLOB: emsg(_("E974: Using a Blob as a Number")); break; case VAR_UNKNOWN: case VAR_ANY: case VAR_VOID: internal_error_no_abort("tv_get_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 tv_get_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_BOOL: emsg(_("E362: Using a boolean value 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_BLOB: emsg(_("E975: Using a Blob as a Float")); break; case VAR_UNKNOWN: case VAR_ANY: case VAR_VOID: internal_error_no_abort("tv_get_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. * tv_get_string() uses a single, static buffer. YOU CAN ONLY USE IT ONCE! * tv_get_string_buf() uses a given buffer. * If the String variable has never been set, return an empty string. * Never returns NULL; * tv_get_string_chk() and tv_get_string_buf_chk() are similar, but return * NULL on error. */ char_u * tv_get_string(typval_T *varp) { static char_u mybuf[NUMBUFLEN]; return tv_get_string_buf(varp, mybuf); } char_u * tv_get_string_buf(typval_T *varp, char_u *buf) { char_u *res = tv_get_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 * tv_get_string_chk(typval_T *varp) { static char_u mybuf[NUMBUFLEN]; return tv_get_string_buf_chk(varp, mybuf); } char_u * tv_get_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_BOOL: case VAR_SPECIAL: STRCPY(buf, get_var_special_name(varp->vval.v_number)); return buf; case VAR_BLOB: emsg(_("E976: using Blob as a String")); break; 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(MSWIN) 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: case VAR_ANY: case VAR_VOID: emsg(_(e_inval_string)); break; } return NULL; } /* * Turn a typeval into a string. Similar to tv_get_string_buf() but uses * string() on Dict, List, etc. */ char_u * tv_stringify(typval_T *varp, char_u *buf) { if (varp->v_type == VAR_LIST || varp->v_type == VAR_DICT || varp->v_type == VAR_BLOB || varp->v_type == VAR_FUNC || varp->v_type == VAR_PARTIAL || varp->v_type == VAR_FLOAT) { typval_T tmp; f_string(varp, &tmp); tv_get_string_buf(&tmp, buf); clear_tv(varp); *varp = tmp; return tmp.vval.v_string; } return tv_get_string_buf(varp, buf); } /* * Return TRUE if typeval "tv" and its value are set to be locked (immutable). * Also give an error message, using "name" or _("name") when use_gettext is * TRUE. */ int tv_check_lock(typval_T *tv, char_u *name, int use_gettext) { int lock = 0; switch (tv->v_type) { case VAR_BLOB: if (tv->vval.v_blob != NULL) lock = tv->vval.v_blob->bv_lock; break; case VAR_LIST: if (tv->vval.v_list != NULL) lock = tv->vval.v_list->lv_lock; break; case VAR_DICT: if (tv->vval.v_dict != NULL) lock = tv->vval.v_dict->dv_lock; break; default: break; } return var_check_lock(tv->v_lock, name, use_gettext) || (lock != 0 && var_check_lock(lock, name, use_gettext)); } /* * 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, blob 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_BOOL: 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_BLOB: if (from->vval.v_blob == NULL) to->vval.v_blob = NULL; else { to->vval.v_blob = from->vval.v_blob; ++to->vval.v_blob->bv_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: case VAR_ANY: case VAR_VOID: internal_error_no_abort("copy_tv(UNKNOWN)"); break; } } /* * 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 ic) // ignore case { int i; varnumber_T n1, n2; char_u *s1, *s2; char_u buf1[NUMBUFLEN], buf2[NUMBUFLEN]; int type_is = type == EXPR_IS || type == EXPR_ISNOT; if (type_is && typ1->v_type != typ2->v_type) { // For "is" a different type always means FALSE, for "notis" // it means TRUE. n1 = (type == EXPR_ISNOT); } else if (typ1->v_type == VAR_BLOB || typ2->v_type == VAR_BLOB) { if (type_is) { n1 = (typ1->v_type == typ2->v_type && typ1->vval.v_blob == typ2->vval.v_blob); if (type == EXPR_ISNOT) n1 = !n1; } else if (typ1->v_type != typ2->v_type || (type != EXPR_EQUAL && type != EXPR_NEQUAL)) { if (typ1->v_type != typ2->v_type) emsg(_("E977: Can only compare Blob with Blob")); else emsg(_(e_invalblob)); clear_tv(typ1); return FAIL; } else { // Compare two Blobs for being equal or unequal. n1 = blob_equal(typ1->vval.v_blob, typ2->vval.v_blob); if (type == EXPR_NEQUAL) n1 = !n1; } } 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 == EXPR_ISNOT) n1 = !n1; } else if (typ1->v_type != typ2->v_type || (type != EXPR_EQUAL && type != EXPR_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 == EXPR_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 == EXPR_ISNOT) n1 = !n1; } else if (typ1->v_type != typ2->v_type || (type != EXPR_EQUAL && type != EXPR_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 == EXPR_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 != EXPR_EQUAL && type != EXPR_NEQUAL && type != EXPR_IS && type != EXPR_ISNOT) { 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 both partials are NULL, then they are equal. // Otherwise they are not equal. n1 = (typ1->vval.v_partial == typ2->vval.v_partial); 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 == EXPR_NEQUAL || type == EXPR_ISNOT) 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 != EXPR_MATCH && type != EXPR_NOMATCH) { float_T f1, f2; f1 = tv_get_float(typ1); f2 = tv_get_float(typ2); n1 = FALSE; switch (type) { case EXPR_IS: case EXPR_EQUAL: n1 = (f1 == f2); break; case EXPR_ISNOT: case EXPR_NEQUAL: n1 = (f1 != f2); break; case EXPR_GREATER: n1 = (f1 > f2); break; case EXPR_GEQUAL: n1 = (f1 >= f2); break; case EXPR_SMALLER: n1 = (f1 < f2); break; case EXPR_SEQUAL: n1 = (f1 <= f2); break; case EXPR_UNKNOWN: case EXPR_MATCH: default: 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 != EXPR_MATCH && type != EXPR_NOMATCH) { n1 = tv_get_number(typ1); n2 = tv_get_number(typ2); switch (type) { case EXPR_IS: case EXPR_EQUAL: n1 = (n1 == n2); break; case EXPR_ISNOT: case EXPR_NEQUAL: n1 = (n1 != n2); break; case EXPR_GREATER: n1 = (n1 > n2); break; case EXPR_GEQUAL: n1 = (n1 >= n2); break; case EXPR_SMALLER: n1 = (n1 < n2); break; case EXPR_SEQUAL: n1 = (n1 <= n2); break; case EXPR_UNKNOWN: case EXPR_MATCH: default: break; // avoid gcc warning } } else { s1 = tv_get_string_buf(typ1, buf1); s2 = tv_get_string_buf(typ2, buf2); if (type != EXPR_MATCH && type != EXPR_NOMATCH) i = ic ? MB_STRICMP(s1, s2) : STRCMP(s1, s2); else i = 0; n1 = FALSE; switch (type) { case EXPR_IS: case EXPR_EQUAL: n1 = (i == 0); break; case EXPR_ISNOT: case EXPR_NEQUAL: n1 = (i != 0); break; case EXPR_GREATER: n1 = (i > 0); break; case EXPR_GEQUAL: n1 = (i >= 0); break; case EXPR_SMALLER: n1 = (i < 0); break; case EXPR_SEQUAL: n1 = (i <= 0); break; case EXPR_MATCH: case EXPR_NOMATCH: n1 = pattern_match(s2, s1, ic); if (type == EXPR_NOMATCH) n1 = !n1; break; default: break; // avoid gcc warning } } clear_tv(typ1); typ1->v_type = VAR_NUMBER; typ1->vval.v_number = n1; return OK; } char_u * typval_tostring(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; } /* * Return TRUE if typeval "tv" is locked: Either that value is locked itself * or it refers to a List or Dictionary that is locked. */ int tv_islocked(typval_T *tv) { return (tv->v_lock & VAR_LOCKED) || (tv->v_type == VAR_LIST && tv->vval.v_list != NULL && (tv->vval.v_list->lv_lock & VAR_LOCKED)) || (tv->v_type == VAR_DICT && tv->vval.v_dict != NULL && (tv->vval.v_dict->dv_lock & VAR_LOCKED)); } 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; static int tv_equal_recurse_limit; // 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_BLOB: return blob_equal(tv1->vval.v_blob, tv2->vval.v_blob); case VAR_NUMBER: case VAR_BOOL: case VAR_SPECIAL: return tv1->vval.v_number == tv2->vval.v_number; case VAR_STRING: s1 = tv_get_string_buf(tv1, buf1); s2 = tv_get_string_buf(tv2, buf2); return ((ic ? MB_STRICMP(s1, s2) : STRCMP(s1, s2)) == 0); 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_PARTIAL: return tv1->vval.v_partial == tv2->vval.v_partial; case VAR_FUNC: return tv1->vval.v_string == tv2->vval.v_string; case VAR_UNKNOWN: case VAR_ANY: case VAR_VOID: break; } // VAR_UNKNOWN can be the result of a invalid expression, let's say it // does not equal anything, not even itself. return FALSE; } /* * 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) semsg(_("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) semsg(_(e_unknown_option), *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 number constant. Also deals with "0z" for blob. * Return OK or FAIL. */ int get_number_tv( char_u **arg, typval_T *rettv, int evaluate, int want_string UNUSED) { int len; #ifdef FEAT_FLOAT char_u *p; 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. // With script version 2 and later the leading digit can be // omitted. // Don't look for a float after the "." operator, so that // ":let vers = 1.2.3" doesn't fail. if (**arg == '.') p = *arg; else p = skipdigits(*arg + 1); 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 if (**arg == '0' && ((*arg)[1] == 'z' || (*arg)[1] == 'Z')) { char_u *bp; blob_T *blob = NULL; // init for gcc // Blob constant: 0z0123456789abcdef if (evaluate) blob = blob_alloc(); for (bp = *arg + 2; vim_isxdigit(bp[0]); bp += 2) { if (!vim_isxdigit(bp[1])) { if (blob != NULL) { emsg(_("E973: Blob literal should have an even number of hex characters")); ga_clear(&blob->bv_ga); VIM_CLEAR(blob); } return FAIL; } if (blob != NULL) ga_append(&blob->bv_ga, (hex2nr(*bp) << 4) + hex2nr(*(bp+1))); if (bp[2] == '.' && vim_isxdigit(bp[3])) ++bp; } if (blob != NULL) rettv_blob_set(rettv, blob); *arg = bp; } else { varnumber_T n; // decimal, hex or octal number vim_str2nr(*arg, NULL, &len, current_sctx.sc_version >= 4 ? STR2NR_NO_OCT + STR2NR_QUOTE : STR2NR_ALL, &n, NULL, 0, TRUE); if (len == 0) { semsg(_(e_invexpr2), *arg); return FAIL; } *arg += len; if (evaluate) { rettv->v_type = VAR_NUMBER; rettv->vval.v_number = n; } } return OK; } /* * Allocate a variable for a string constant. * Return OK or FAIL. */ int get_string_tv(char_u **arg, typval_T *rettv, int evaluate) { char_u *p; char_u *name; int extra = 0; int len; // 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 "\<x>" form occupies at least 4 characters, and produces up // to 21 characters (3 * 6 for the char and 3 for a modifier): // reserve space for 18 extra. // Each byte in the char could be encoded as K_SPECIAL K_EXTRA x. if (*p == '<') extra += 18; } } if (*p != '"') { semsg(_("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. len = (int)(p - *arg + extra); name = alloc(len); 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; // For "\u" store the number according to // 'encoding'. if (c != 'X') name += (*mb_char2bytes)(nr, name); else *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.: "\<C-W>" or "\{C-W}" case '<': case '{': { int flags = FSK_KEYCODE | FSK_IN_STRING; if (*p == '<') flags |= FSK_SIMPLIFY; else flags |= FSK_CURLY; extra = trans_special(&p, name, flags, NULL); if (extra != 0) { name += extra; if (name >= rettv->vval.v_string + len) iemsg("get_string_tv() used more space than allocated"); 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. */ 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 != '\'') { semsg(_("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((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 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); } /* * 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. */ 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; } /* * Get the lnum from the first argument. * Also accepts ".", "$", etc., but that only works for the current buffer. * Returns -1 on error. */ linenr_T tv_get_lnum(typval_T *argvars) { linenr_T lnum; lnum = (linenr_T)tv_get_number_chk(&argvars[0], NULL); if (lnum == 0) // no valid number, try using arg like line() { int fnum; pos_T *fp = var2fpos(&argvars[0], TRUE, &fnum); if (fp != NULL) lnum = fp->lnum; } return lnum; } /* * Get the lnum from the first argument. * Also accepts "$", then "buf" is used. * Returns 0 on error. */ linenr_T tv_get_lnum_buf(typval_T *argvars, buf_T *buf) { if (argvars[0].v_type == VAR_STRING && argvars[0].vval.v_string != NULL && argvars[0].vval.v_string[0] == '$' && buf != NULL) return buf->b_ml.ml_line_count; return (linenr_T)tv_get_number_chk(&argvars[0], NULL); } /* * Get buffer by number or pattern. */ buf_T * tv_get_buf(typval_T *tv, int curtab_only) { char_u *name = tv->vval.v_string; buf_T *buf; if (tv->v_type == VAR_NUMBER) return buflist_findnr((int)tv->vval.v_number); if (tv->v_type != VAR_STRING) return NULL; if (name == NULL || *name == NUL) return curbuf; if (name[0] == '$' && name[1] == NUL) return lastbuf; buf = buflist_find_by_name(name, curtab_only); // If not found, try expanding the name, like done for bufexists(). if (buf == NULL) buf = find_buffer(tv); return buf; } #endif // FEAT_EVAL