// This is an open source non-commercial project. Dear PVS-Studio, please check // it. PVS-Studio Static Code Analyzer for C, C++ and C#: http://www.viva64.com #include #include #include "nvim/ascii.h" #include "nvim/charset.h" #include "nvim/cursor.h" #include "nvim/edit.h" #include "nvim/indent.h" #include "nvim/indent_c.h" #include "nvim/mark.h" #include "nvim/memline.h" #include "nvim/memory.h" #include "nvim/option.h" #include "nvim/search.h" #include "nvim/strings.h" #include "nvim/vim.h" // Find result cache for cpp_baseclass typedef struct { int found; lpos_T lpos; } cpp_baseclass_cache_T; #ifdef INCLUDE_GENERATED_DECLARATIONS # include "indent_c.c.generated.h" #endif // Find the start of a comment, not knowing if we are in a comment right now. // Search starts at w_cursor.lnum and goes backwards. // Return NULL when not inside a comment. static pos_T *ind_find_start_comment(void) // XXX { return find_start_comment(curbuf->b_ind_maxcomment); } pos_T *find_start_comment(int ind_maxcomment) // XXX { pos_T *pos; int64_t cur_maxcomment = ind_maxcomment; for (;;) { pos = findmatchlimit(NULL, '*', FM_BACKWARD, cur_maxcomment); if (pos == NULL) { break; } // Check if the comment start we found is inside a string. // If it is then restrict the search to below this line and try again. if (!is_pos_in_string((char_u *)ml_get(pos->lnum), pos->col)) { break; } cur_maxcomment = curwin->w_cursor.lnum - pos->lnum - 1; if (cur_maxcomment <= 0) { pos = NULL; break; } } return pos; } /// Find the start of a comment or raw string, not knowing if we are in a /// comment or raw string right now. /// Search starts at w_cursor.lnum and goes backwards. /// If is_raw is given and returns start of raw_string, sets it to true. /// /// @returns NULL when not inside a comment or raw string. /// /// @note "CORS" -> Comment Or Raw String static pos_T *ind_find_start_CORS(linenr_T *is_raw) { // XXX static pos_T comment_pos_copy; pos_T *comment_pos = find_start_comment(curbuf->b_ind_maxcomment); if (comment_pos != NULL) { // Need to make a copy of the static pos in findmatchlimit(), // calling find_start_rawstring() may change it. comment_pos_copy = *comment_pos; comment_pos = &comment_pos_copy; } pos_T *rs_pos = find_start_rawstring(curbuf->b_ind_maxcomment); // If comment_pos is before rs_pos the raw string is inside the comment. // If rs_pos is before comment_pos the comment is inside the raw string. if (comment_pos == NULL || (rs_pos != NULL && lt(*rs_pos, *comment_pos))) { if (is_raw != NULL && rs_pos != NULL) { *is_raw = rs_pos->lnum; } return rs_pos; } return comment_pos; } // Find the start of a raw string, not knowing if we are in one right now. // Search starts at w_cursor.lnum and goes backwards. // Return NULL when not inside a raw string. static pos_T *find_start_rawstring(int ind_maxcomment) // XXX { pos_T *pos; long cur_maxcomment = ind_maxcomment; for (;;) { pos = findmatchlimit(NULL, 'R', FM_BACKWARD, cur_maxcomment); if (pos == NULL) { break; } // Check if the raw string start we found is inside a string. // If it is then restrict the search to below this line and try again. if (!is_pos_in_string((char_u *)ml_get(pos->lnum), pos->col)) { break; } cur_maxcomment = curwin->w_cursor.lnum - pos->lnum - 1; if (cur_maxcomment <= 0) { pos = NULL; break; } } return pos; } // Skip to the end of a "string" and a 'c' character. // If there is no string or character, return argument unmodified. static const char_u *skip_string(const char_u *p) { int i; // We loop, because strings may be concatenated: "date""time". for (;; p++) { if (p[0] == '\'') { // 'c' or '\n' or '\000' if (p[1] == NUL) { // ' at end of line break; } i = 2; if (p[1] == '\\' && p[2] != NUL) { // '\n' or '\000' i++; while (ascii_isdigit(p[i - 1])) { // '\000' i++; } } if (p[i - 1] != NUL && p[i] == '\'') { // check for trailing ' p += i; continue; } } else if (p[0] == '"') { // start of string for (++p; p[0]; p++) { if (p[0] == '\\' && p[1] != NUL) { p++; } else if (p[0] == '"') { // end of string break; } } if (p[0] == '"') { continue; // continue for another string } } else if (p[0] == 'R' && p[1] == '"') { // Raw string: R"[delim](...)[delim]" const char *delim = (char *)p + 2; const char *paren = vim_strchr((char *)delim, '('); if (paren != NULL) { const ptrdiff_t delim_len = paren - delim; for (p += 3; *p; p++) { if (p[0] == ')' && STRNCMP(p + 1, delim, delim_len) == 0 && p[delim_len + 1] == '"') { p += delim_len + 1; break; } } if (p[0] == '"') { continue; // continue for another string } } } break; // no string found } if (!*p) { p--; // backup from NUL } return p; } /// @returns true if "line[col]" is inside a C string. int is_pos_in_string(const char_u *line, colnr_T col) { const char_u *p; for (p = line; *p && (colnr_T)(p - line) < col; p++) { p = skip_string(p); } return !((colnr_T)(p - line) <= col); } // Functions for C-indenting. // Most of this originally comes from Eric Fischer. // Below "XXX" means that this function may unlock the current line. /// @return true if the string "line" starts with a word from 'cinwords'. bool cin_is_cinword(const char *line) { bool retval = false; size_t cinw_len = strlen(curbuf->b_p_cinw) + 1; char_u *cinw_buf = xmalloc(cinw_len); line = skipwhite((char *)line); for (char *cinw = curbuf->b_p_cinw; *cinw;) { size_t len = copy_option_part(&cinw, (char *)cinw_buf, cinw_len, ","); if (STRNCMP(line, cinw_buf, len) == 0 && (!vim_iswordc(line[len]) || !vim_iswordc(line[len - 1]))) { retval = true; break; } } xfree(cinw_buf); return retval; } // Skip over white space and C comments within the line. // Also skip over Perl/shell comments if desired. static const char_u *cin_skipcomment(const char_u *s) { while (*s) { const char_u *prev_s = s; s = (char_u *)skipwhite((char *)s); // Perl/shell # comment comment continues until eol. Require a space // before # to avoid recognizing $#array. if (curbuf->b_ind_hash_comment != 0 && s != prev_s && *s == '#') { s += STRLEN(s); break; } if (*s != '/') { break; } s++; if (*s == '/') { // slash-slash comment continues till eol s += STRLEN(s); break; } if (*s != '*') { break; } for (++s; *s; s++) { // skip slash-star comment if (s[0] == '*' && s[1] == '/') { s += 2; break; } } } return s; } /// Return true if there is no code at *s. White space and comments are /// not considered code. static int cin_nocode(const char_u *s) { return *cin_skipcomment(s) == NUL; } // Check previous lines for a "//" line comment, skipping over blank lines. static pos_T *find_line_comment(void) // XXX { static pos_T pos; char_u *line; char_u *p; pos = curwin->w_cursor; while (--pos.lnum > 0) { line = (char_u *)ml_get(pos.lnum); p = (char_u *)skipwhite((char *)line); if (cin_islinecomment(p)) { pos.col = (int)(p - line); return &pos; } if (*p != NUL) { break; } } return NULL; } /// Checks if `text` starts with "key:". static bool cin_has_js_key(const char_u *text) { const char_u *s = (char_u *)skipwhite((char *)text); char_u quote = 0; if (*s == '\'' || *s == '"') { // can be 'key': or "key": quote = *s; s++; } if (!vim_isIDc(*s)) { // need at least one ID character return false; } while (vim_isIDc(*s)) { s++; } if (*s && *s == quote) { s++; } s = cin_skipcomment(s); // "::" is not a label, it's C++ return (*s == ':' && s[1] != ':'); } /// Checks if string matches "label:"; move to character after ':' if true. /// "*s" must point to the start of the label, if there is one. static bool cin_islabel_skip(const char_u **s) FUNC_ATTR_NONNULL_ALL { if (!vim_isIDc(**s)) { // need at least one ID character return false; } while (vim_isIDc(**s)) { (*s)++; } *s = cin_skipcomment(*s); // "::" is not a label, it's C++ return **s == ':' && *++*s != ':'; } // Recognize a label: "label:". // Note: curwin->w_cursor must be where we are looking for the label. bool cin_islabel(void) // XXX { const char_u *s = cin_skipcomment((char_u *)get_cursor_line_ptr()); // Exclude "default" from labels, since it should be indented // like a switch label. Same for C++ scope declarations. if (cin_isdefault(s)) { return false; } if (cin_isscopedecl(s)) { return false; } if (!cin_islabel_skip(&s)) { return false; } // Only accept a label if the previous line is terminated or is a case // label. pos_T cursor_save; pos_T *trypos; const char_u *line; cursor_save = curwin->w_cursor; while (curwin->w_cursor.lnum > 1) { curwin->w_cursor.lnum--; // If we're in a comment or raw string now, skip to the start of // it. curwin->w_cursor.col = 0; if ((trypos = ind_find_start_CORS(NULL)) != NULL) { // XXX curwin->w_cursor = *trypos; } line = (char_u *)get_cursor_line_ptr(); if (cin_ispreproc(line)) { // ignore #defines, #if, etc. continue; } if (*(line = cin_skipcomment(line)) == NUL) { continue; } curwin->w_cursor = cursor_save; if (cin_isterminated(line, true, false) || cin_isscopedecl(line) || cin_iscase(line, true) || (cin_islabel_skip(&line) && cin_nocode(line))) { return true; } return false; } curwin->w_cursor = cursor_save; return true; // label at start of file??? } // Recognize structure initialization and enumerations: // "[typedef] [static|public|protected|private] enum" // "[typedef] [static|public|protected|private] = {" static int cin_isinit(void) { const char_u *s; static char *skip[] = { "static", "public", "protected", "private" }; s = cin_skipcomment((char_u *)get_cursor_line_ptr()); if (cin_starts_with(s, "typedef")) { s = cin_skipcomment(s + 7); } for (;;) { int i, l; for (i = 0; i < (int)ARRAY_SIZE(skip); i++) { l = (int)strlen(skip[i]); if (cin_starts_with(s, skip[i])) { s = cin_skipcomment(s + l); l = 0; break; } } if (l != 0) { break; } } if (cin_starts_with(s, "enum")) { return true; } if (cin_ends_in(s, (char_u *)"=", (char_u *)"{")) { return true; } return false; } /// Recognize a switch label: "case .*:" or "default:". /// /// @param strict Allow relaxed check of case statement for JS bool cin_iscase(const char_u *s, bool strict) { s = cin_skipcomment(s); if (cin_starts_with(s, "case")) { for (s += 4; *s; s++) { s = cin_skipcomment(s); if (*s == NUL) { break; } if (*s == ':') { if (s[1] == ':') { // skip over "::" for C++ s++; } else { return true; } } if (*s == '\'' && s[1] && s[2] == '\'') { s += 2; // skip over ':' } else if (*s == '/' && (s[1] == '*' || s[1] == '/')) { return false; // stop at comment } else if (*s == '"') { // JS etc. if (strict) { return false; // stop at string } else { return true; } } } return false; } if (cin_isdefault(s)) { return true; } return false; } // Recognize a "default" switch label. static int cin_isdefault(const char_u *s) { return STRNCMP(s, "default", 7) == 0 && *(s = cin_skipcomment(s + 7)) == ':' && s[1] != ':'; } /// Recognize a scope declaration label set in 'cinscopedecls'. bool cin_isscopedecl(const char_u *p) { const char_u *s = cin_skipcomment(p); const size_t cinsd_len = strlen(curbuf->b_p_cinsd) + 1; char_u *cinsd_buf = xmalloc(cinsd_len); bool found = false; for (char *cinsd = curbuf->b_p_cinsd; *cinsd;) { const size_t len = copy_option_part(&cinsd, (char *)cinsd_buf, cinsd_len, ","); if (STRNCMP(s, cinsd_buf, len) == 0) { const char_u *skip = cin_skipcomment(s + len); if (*skip == ':' && skip[1] != ':') { found = true; break; } } } xfree(cinsd_buf); return found; } // Maximum number of lines to search back for a "namespace" line. #define FIND_NAMESPACE_LIM 20 // Recognize a "namespace" scope declaration. static bool cin_is_cpp_namespace(const char_u *s) { const char_u *p; bool has_name = false; bool has_name_start = false; s = cin_skipcomment(s); if (STRNCMP(s, "inline", 6) == 0 && (s[6] == NUL || !vim_iswordc(s[6]))) { s = cin_skipcomment((char_u *)skipwhite((char *)s + 6)); } if (STRNCMP(s, "namespace", 9) == 0 && (s[9] == NUL || !vim_iswordc(s[9]))) { p = cin_skipcomment((char_u *)skipwhite((char *)s + 9)); while (*p != NUL) { if (ascii_iswhite(*p)) { has_name = true; // found end of a name p = cin_skipcomment((char_u *)skipwhite((char *)p)); } else if (*p == '{') { break; } else if (vim_iswordc(*p)) { has_name_start = true; if (has_name) { return false; // word character after skipping past name } p++; } else if (p[0] == ':' && p[1] == ':' && vim_iswordc(p[2])) { if (!has_name_start || has_name) { return false; } // C++ 17 nested namespace p += 3; } else { return false; } } return true; } return false; } // Return a pointer to the first non-empty non-comment character after a ':'. // Return NULL if not found. // case 234: a = b; // ^ static const char_u *after_label(const char_u *l) { for (; *l; l++) { if (*l == ':') { if (l[1] == ':') { // skip over "::" for C++ l++; } else if (!cin_iscase(l + 1, false)) { break; } } else if (*l == '\'' && l[1] && l[2] == '\'') { l += 2; // skip over 'x' } } if (*l == NUL) { return NULL; } l = cin_skipcomment(l + 1); if (*l == NUL) { return NULL; } return l; } // Get indent of line "lnum", skipping a label. // Return 0 if there is nothing after the label. static int get_indent_nolabel(linenr_T lnum) // XXX { const char_u *l; pos_T fp; colnr_T col; const char_u *p; l = (char_u *)ml_get(lnum); p = after_label(l); if (p == NULL) { return 0; } fp.col = (colnr_T)(p - l); fp.lnum = lnum; getvcol(curwin, &fp, &col, NULL, NULL); return (int)col; } // Find indent for line "lnum", ignoring any case or jump label. // Also return a pointer to the text (after the label) in "pp". // label: if (asdf && asdfasdf) // ^ static int skip_label(linenr_T lnum, const char_u **pp) { const char_u *l; int amount; pos_T cursor_save; cursor_save = curwin->w_cursor; curwin->w_cursor.lnum = lnum; l = (char_u *)get_cursor_line_ptr(); // XXX if (cin_iscase(l, false) || cin_isscopedecl(l) || cin_islabel()) { amount = get_indent_nolabel(lnum); l = after_label((char_u *)get_cursor_line_ptr()); if (l == NULL) { // just in case l = (char_u *)get_cursor_line_ptr(); } } else { amount = get_indent(); l = (char_u *)get_cursor_line_ptr(); } *pp = l; curwin->w_cursor = cursor_save; return amount; } // Return the indent of the first variable name after a type in a declaration. // int a, indent of "a" // static struct foo b, indent of "b" // enum bla c, indent of "c" // Returns zero when it doesn't look like a declaration. static int cin_first_id_amount(void) { char_u *line, *p, *s; int len; pos_T fp; colnr_T col; line = (char_u *)get_cursor_line_ptr(); p = (char_u *)skipwhite((char *)line); len = (int)((char_u *)skiptowhite((char *)p) - p); if (len == 6 && STRNCMP(p, "static", 6) == 0) { p = (char_u *)skipwhite((char *)p + 6); len = (int)((char_u *)skiptowhite((char *)p) - p); } if (len == 6 && STRNCMP(p, "struct", 6) == 0) { p = (char_u *)skipwhite((char *)p + 6); } else if (len == 4 && STRNCMP(p, "enum", 4) == 0) { p = (char_u *)skipwhite((char *)p + 4); } else if ((len == 8 && STRNCMP(p, "unsigned", 8) == 0) || (len == 6 && STRNCMP(p, "signed", 6) == 0)) { s = (char_u *)skipwhite((char *)p + len); if ((STRNCMP(s, "int", 3) == 0 && ascii_iswhite(s[3])) || (STRNCMP(s, "long", 4) == 0 && ascii_iswhite(s[4])) || (STRNCMP(s, "short", 5) == 0 && ascii_iswhite(s[5])) || (STRNCMP(s, "char", 4) == 0 && ascii_iswhite(s[4]))) { p = s; } } for (len = 0; vim_isIDc(p[len]); len++) {} if (len == 0 || !ascii_iswhite(p[len]) || cin_nocode(p)) { return 0; } p = (char_u *)skipwhite((char *)p + len); fp.lnum = curwin->w_cursor.lnum; fp.col = (colnr_T)(p - line); getvcol(curwin, &fp, &col, NULL, NULL); return (int)col; } // Return the indent of the first non-blank after an equal sign. // char *foo = "here"; // Return zero if no (useful) equal sign found. // Return -1 if the line above "lnum" ends in a backslash. // foo = "asdf{backslash} // asdf{backslash} // here"; static int cin_get_equal_amount(linenr_T lnum) { const char_u *line; const char_u *s; colnr_T col; pos_T fp; if (lnum > 1) { line = (char_u *)ml_get(lnum - 1); if (*line != NUL && line[STRLEN(line) - 1] == '\\') { return -1; } } s = (char_u *)ml_get(lnum); line = s; while (*s != NUL && vim_strchr("=;{}\"'", *s) == NULL) { if (cin_iscomment(s)) { // ignore comments s = cin_skipcomment(s); } else { s++; } } if (*s != '=') { return 0; } s = (char_u *)skipwhite((char *)s + 1); if (cin_nocode(s)) { return 0; } if (*s == '"') { // nice alignment for continued strings s++; } fp.lnum = lnum; fp.col = (colnr_T)(s - line); getvcol(curwin, &fp, &col, NULL, NULL); return (int)col; } // Recognize a preprocessor statement: Any line that starts with '#'. static int cin_ispreproc(const char_u *s) { if (*skipwhite((char *)s) == '#') { return true; } return false; } /// Return true if line "*pp" at "*lnump" is a preprocessor statement or a /// continuation line of a preprocessor statement. Decrease "*lnump" to the /// start and return the line in "*pp". /// Put the amount of indent in "*amount". static int cin_ispreproc_cont(const char_u **pp, linenr_T *lnump, int *amount) { const char_u *line = *pp; linenr_T lnum = *lnump; int retval = false; int candidate_amount = *amount; if (*line != NUL && line[STRLEN(line) - 1] == '\\') { candidate_amount = get_indent_lnum(lnum); } for (;;) { if (cin_ispreproc(line)) { retval = true; *lnump = lnum; break; } if (lnum == 1) { break; } line = (char_u *)ml_get(--lnum); if (*line == NUL || line[STRLEN(line) - 1] != '\\') { break; } } if (lnum != *lnump) { *pp = (char_u *)ml_get(*lnump); } if (retval) { *amount = candidate_amount; } return retval; } // Recognize the start of a C or C++ comment. static int cin_iscomment(const char_u *p) { return p[0] == '/' && (p[1] == '*' || p[1] == '/'); } // Recognize the start of a "//" comment. static int cin_islinecomment(const char_u *p) { return p[0] == '/' && p[1] == '/'; } /// Recognize a line that starts with '{' or '}', or ends with ';', ',', '{' or /// '}'. /// Don't consider "} else" a terminated line. /// If a line begins with an "else", only consider it terminated if no unmatched /// opening braces follow (handle "else { foo();" correctly). /// /// @param incl_open include '{' at the end as terminator /// @param incl_comma recognize a trailing comma /// /// @return the character terminating the line (ending char's have precedence if /// both apply in order to determine initializations). static char_u cin_isterminated(const char_u *s, int incl_open, int incl_comma) { char_u found_start = 0; unsigned n_open = 0; int is_else = false; s = cin_skipcomment(s); if (*s == '{' || (*s == '}' && !cin_iselse(s))) { found_start = *s; } if (!found_start) { is_else = cin_iselse(s); } while (*s) { // skip over comments, "" strings and 'c'haracters s = skip_string(cin_skipcomment(s)); if (*s == '}' && n_open > 0) { n_open--; } if ((!is_else || n_open == 0) && (*s == ';' || *s == '}' || (incl_comma && *s == ',')) && cin_nocode(s + 1)) { return *s; } else if (*s == '{') { if (incl_open && cin_nocode(s + 1)) { return *s; } else { n_open++; } } if (*s) { s++; } } return found_start; } /// Recognizes the basic picture of a function declaration -- it needs to /// have an open paren somewhere and a close paren at the end of the line and /// no semicolons anywhere. /// When a line ends in a comma we continue looking in the next line. /// /// @param[in] sp Points to a string with the line. When looking at other /// lines it must be restored to the line. When it's NULL fetch /// lines here. /// @param[in] first_lnum Where to start looking. /// @param[in] min_lnum The line before which we will not be looking. static int cin_isfuncdecl(const char_u **sp, linenr_T first_lnum, linenr_T min_lnum) { const char_u *s; linenr_T lnum = first_lnum; linenr_T save_lnum = curwin->w_cursor.lnum; int retval = false; pos_T *trypos; int just_started = true; if (sp == NULL) { s = (char_u *)ml_get(lnum); } else { s = *sp; } curwin->w_cursor.lnum = lnum; if (find_last_paren(s, '(', ')') && (trypos = find_match_paren(curbuf->b_ind_maxparen)) != NULL) { lnum = trypos->lnum; if (lnum < min_lnum) { curwin->w_cursor.lnum = save_lnum; return false; } s = (char_u *)ml_get(lnum); } curwin->w_cursor.lnum = save_lnum; // Ignore line starting with #. if (cin_ispreproc(s)) { return false; } while (*s && *s != '(' && *s != ';' && *s != '\'' && *s != '"') { // ignore comments if (cin_iscomment(s)) { s = cin_skipcomment(s); } else if (*s == ':') { if (*(s + 1) == ':') { s += 2; } else { // To avoid a mistake in the following situation: // A::A(int a, int b) // : a(0) // <--not a function decl // , b(0) // {... return false; } } else { s++; } } if (*s != '(') { return false; // ';', ' or " before any () or no '(' } while (*s && *s != ';' && *s != '\'' && *s != '"') { if (*s == ')' && cin_nocode(s + 1)) { // ')' at the end: may have found a match // Check for the previous line not to end in a backslash: // #if defined(x) && {backslash} // defined(y) lnum = first_lnum - 1; s = (char_u *)ml_get(lnum); if (*s == NUL || s[STRLEN(s) - 1] != '\\') { retval = true; } goto done; } if ((*s == ',' && cin_nocode(s + 1)) || s[1] == NUL || cin_nocode(s)) { int comma = (*s == ','); // ',' at the end: continue looking in the next line. // At the end: check for ',' in the next line, for this style: // func(arg1 // , arg2) for (;;) { if (lnum >= curbuf->b_ml.ml_line_count) { break; } s = (char_u *)ml_get(++lnum); if (!cin_ispreproc(s)) { break; } } if (lnum >= curbuf->b_ml.ml_line_count) { break; } // Require a comma at end of the line or a comma or ')' at the // start of next line. s = (char_u *)skipwhite((char *)s); if (!just_started && (!comma && *s != ',' && *s != ')')) { break; } just_started = false; } else if (cin_iscomment(s)) { // ignore comments s = cin_skipcomment(s); } else { s++; just_started = false; } } done: if (lnum != first_lnum && sp != NULL) { *sp = (char_u *)ml_get(first_lnum); } return retval; } static int cin_isif(const char_u *p) { return STRNCMP(p, "if", 2) == 0 && !vim_isIDc(p[2]); } static int cin_iselse(const char_u *p) { if (*p == '}') { // accept "} else" p = cin_skipcomment(p + 1); } return STRNCMP(p, "else", 4) == 0 && !vim_isIDc(p[4]); } static int cin_isdo(const char_u *p) { return STRNCMP(p, "do", 2) == 0 && !vim_isIDc(p[2]); } // Check if this is a "while" that should have a matching "do". // We only accept a "while (condition) ;", with only white space between the // ')' and ';'. The condition may be spread over several lines. static int cin_iswhileofdo(const char_u *p, linenr_T lnum) // XXX { pos_T cursor_save; pos_T *trypos; int retval = false; p = cin_skipcomment(p); if (*p == '}') { // accept "} while (cond);" p = cin_skipcomment(p + 1); } if (cin_starts_with(p, "while")) { cursor_save = curwin->w_cursor; curwin->w_cursor.lnum = lnum; curwin->w_cursor.col = 0; p = (char_u *)get_cursor_line_ptr(); while (*p && *p != 'w') { // skip any '}', until the 'w' of the "while" p++; curwin->w_cursor.col++; } if ((trypos = findmatchlimit(NULL, 0, 0, curbuf->b_ind_maxparen)) != NULL && *cin_skipcomment(ml_get_pos(trypos) + 1) == ';') { retval = true; } curwin->w_cursor = cursor_save; } return retval; } // Check whether in "p" there is an "if", "for" or "while" before "*poffset". // Return 0 if there is none. // Otherwise return !0 and update "*poffset" to point to the place where the // string was found. static int cin_is_if_for_while_before_offset(const char_u *line, int *poffset) { int offset = *poffset; if (offset-- < 2) { return 0; } while (offset > 2 && ascii_iswhite(line[offset])) { offset--; } offset -= 1; if (!STRNCMP(line + offset, "if", 2)) { goto probablyFound; } if (offset >= 1) { offset -= 1; if (!STRNCMP(line + offset, "for", 3)) { goto probablyFound; } if (offset >= 2) { offset -= 2; if (!STRNCMP(line + offset, "while", 5)) { goto probablyFound; } } } return 0; probablyFound: if (!offset || !vim_isIDc(line[offset - 1])) { *poffset = offset; return 1; } return 0; } /// Return true if we are at the end of a do-while. /// do /// nothing; /// while (foo /// && bar); <-- here /// Adjust the cursor to the line with "while". static int cin_iswhileofdo_end(int terminated) { const char_u *line; const char_u *p; const char_u *s; pos_T *trypos; int i; if (terminated != ';') { // there must be a ';' at the end return false; } p = line = (char_u *)get_cursor_line_ptr(); while (*p != NUL) { p = cin_skipcomment(p); if (*p == ')') { s = (char_u *)skipwhite((char *)p + 1); if (*s == ';' && cin_nocode(s + 1)) { // Found ");" at end of the line, now check there is "while" // before the matching '('. XXX i = (int)(p - line); curwin->w_cursor.col = i; trypos = find_match_paren(curbuf->b_ind_maxparen); if (trypos != NULL) { s = cin_skipcomment((char_u *)ml_get(trypos->lnum)); if (*s == '}') { // accept "} while (cond);" s = cin_skipcomment(s + 1); } if (cin_starts_with(s, "while")) { curwin->w_cursor.lnum = trypos->lnum; return true; } } // Searching may have made "line" invalid, get it again. line = (char_u *)get_cursor_line_ptr(); p = line + i; } } if (*p != NUL) { p++; } } return false; } static int cin_isbreak(const char_u *p) { return STRNCMP(p, "break", 5) == 0 && !vim_isIDc(p[5]); } // Find the position of a C++ base-class declaration or // constructor-initialization. eg: // // class MyClass : // baseClass <-- here // class MyClass : public baseClass, // anotherBaseClass <-- here (should probably lineup ??) // MyClass::MyClass(...) : // baseClass(...) <-- here (constructor-initialization) // // This is a lot of guessing. Watch out for "cond ? func() : foo". static int cin_is_cpp_baseclass(cpp_baseclass_cache_T *cached) { lpos_T *pos = &cached->lpos; // find position const char_u *s; int class_or_struct, lookfor_ctor_init, cpp_base_class; linenr_T lnum = curwin->w_cursor.lnum; const char_u *line = (char_u *)get_cursor_line_ptr(); if (pos->lnum <= lnum) { return cached->found; // Use the cached result } pos->col = 0; s = (char_u *)skipwhite((char *)line); if (*s == '#') { // skip #define FOO x ? (x) : x return false; } s = cin_skipcomment(s); if (*s == NUL) { return false; } cpp_base_class = lookfor_ctor_init = class_or_struct = false; // Search for a line starting with '#', empty, ending in ';' or containing // '{' or '}' and start below it. This handles the following situations: // a = cond ? // func() : // asdf; // func::foo() // : something // {} // Foo::Foo (int one, int two) // : something(4), // somethingelse(3) // {} while (lnum > 1) { line = (char_u *)ml_get(lnum - 1); s = (char_u *)skipwhite((char *)line); if (*s == '#' || *s == NUL) { break; } while (*s != NUL) { s = cin_skipcomment(s); if (*s == '{' || *s == '}' || (*s == ';' && cin_nocode(s + 1))) { break; } if (*s != NUL) { s++; } } if (*s != NUL) { break; } lnum--; } pos->lnum = lnum; line = (char_u *)ml_get(lnum); s = line; for (;;) { if (*s == NUL) { if (lnum == curwin->w_cursor.lnum) { break; } // Continue in the cursor line. line = (char_u *)ml_get(++lnum); s = line; } if (s == line) { // don't recognize "case (foo):" as a baseclass */ if (cin_iscase(s, false)) { break; } s = cin_skipcomment(line); if (*s == NUL) { continue; } } if (s[0] == '"' || (s[0] == 'R' && s[1] == '"')) { s = skip_string(s) + 1; } else if (s[0] == ':') { if (s[1] == ':') { // skip double colon. It can't be a constructor // initialization any more lookfor_ctor_init = false; s = cin_skipcomment(s + 2); } else if (lookfor_ctor_init || class_or_struct) { // we have something found, that looks like the start of // cpp-base-class-declaration or constructor-initialization cpp_base_class = true; lookfor_ctor_init = class_or_struct = false; pos->col = 0; s = cin_skipcomment(s + 1); } else { s = cin_skipcomment(s + 1); } } else if ((STRNCMP(s, "class", 5) == 0 && !vim_isIDc(s[5])) || (STRNCMP(s, "struct", 6) == 0 && !vim_isIDc(s[6]))) { class_or_struct = true; lookfor_ctor_init = false; if (*s == 'c') { s = cin_skipcomment(s + 5); } else { s = cin_skipcomment(s + 6); } } else { if (s[0] == '{' || s[0] == '}' || s[0] == ';') { cpp_base_class = lookfor_ctor_init = class_or_struct = false; } else if (s[0] == ')') { // Constructor-initialization is assumed if we come across // something like "):" class_or_struct = false; lookfor_ctor_init = true; } else if (s[0] == '?') { // Avoid seeing '() :' after '?' as constructor init. return false; } else if (!vim_isIDc(s[0])) { // if it is not an identifier, we are wrong class_or_struct = false; lookfor_ctor_init = false; } else if (pos->col == 0) { // it can't be a constructor-initialization any more lookfor_ctor_init = false; // the first statement starts here: lineup with this one... if (cpp_base_class) { pos->col = (colnr_T)(s - line); } } // When the line ends in a comma don't align with it. if (lnum == curwin->w_cursor.lnum && *s == ',' && cin_nocode(s + 1)) { pos->col = 0; } s = cin_skipcomment(s + 1); } } cached->found = cpp_base_class; if (cpp_base_class) { pos->lnum = lnum; } return cpp_base_class; } static int get_baseclass_amount(int col) { int amount; colnr_T vcol; pos_T *trypos; if (col == 0) { amount = get_indent(); if (find_last_paren((char_u *)get_cursor_line_ptr(), '(', ')') && (trypos = find_match_paren(curbuf->b_ind_maxparen)) != NULL) { amount = get_indent_lnum(trypos->lnum); // XXX } if (!cin_ends_in((char_u *)get_cursor_line_ptr(), (char_u *)",", NULL)) { amount += curbuf->b_ind_cpp_baseclass; } } else { curwin->w_cursor.col = col; getvcol(curwin, &curwin->w_cursor, &vcol, NULL, NULL); amount = (int)vcol; } if (amount < curbuf->b_ind_cpp_baseclass) { amount = curbuf->b_ind_cpp_baseclass; } return amount; } /// Return true if string "s" ends with the string "find", possibly followed by /// white space and comments. Skip strings and comments. /// Ignore "ignore" after "find" if it's not NULL. static int cin_ends_in(const char_u *s, const char_u *find, const char_u *ignore) { const char_u *p = s; const char_u *r; int len = (int)STRLEN(find); while (*p != NUL) { p = cin_skipcomment(p); if (STRNCMP(p, find, len) == 0) { r = (char_u *)skipwhite((char *)p + len); if (ignore != NULL && STRNCMP(r, ignore, STRLEN(ignore)) == 0) { r = (char_u *)skipwhite((char *)r + STRLEN(ignore)); } if (cin_nocode(r)) { return true; } } if (*p != NUL) { p++; } } return false; } /// Return true when "s" starts with "word" and then a non-ID character. static int cin_starts_with(const char_u *s, const char *word) { int l = (int)strlen(word); return STRNCMP(s, word, l) == 0 && !vim_isIDc(s[l]); } /// Recognize a `extern "C"` or `extern "C++"` linkage specifications. static int cin_is_cpp_extern_c(const char_u *s) { const char_u *p; int has_string_literal = false; s = cin_skipcomment(s); if (STRNCMP(s, "extern", 6) == 0 && (s[6] == NUL || !vim_iswordc(s[6]))) { p = cin_skipcomment((char_u *)skipwhite((char *)s + 6)); while (*p != NUL) { if (ascii_iswhite(*p)) { p = cin_skipcomment((char_u *)skipwhite((char *)p)); } else if (*p == '{') { break; } else if (p[0] == '"' && p[1] == 'C' && p[2] == '"') { if (has_string_literal) { return false; } has_string_literal = true; p += 3; } else if (p[0] == '"' && p[1] == 'C' && p[2] == '+' && p[3] == '+' && p[4] == '"') { if (has_string_literal) { return false; } has_string_literal = true; p += 5; } else { return false; } } return has_string_literal ? true : false; } return false; } // Skip strings, chars and comments until at or past "trypos". // Return the column found. static int cin_skip2pos(pos_T *trypos) { const char_u *line; const char_u *p; const char_u *new_p; line = (char_u *)ml_get(trypos->lnum); p = line; while (*p && (colnr_T)(p - line) < trypos->col) { if (cin_iscomment(p)) { p = cin_skipcomment(p); } else { new_p = skip_string(p); if (new_p == p) { p++; } else { p = new_p; } } } return (int)(p - line); } // Find the '{' at the start of the block we are in. // Return NULL if no match found. // Ignore a '{' that is in a comment, makes indenting the next three lines // work. // foo() // { // } static pos_T *find_start_brace(void) // XXX { pos_T cursor_save; pos_T *trypos; pos_T *pos; static pos_T pos_copy; cursor_save = curwin->w_cursor; while ((trypos = findmatchlimit(NULL, '{', FM_BLOCKSTOP, 0)) != NULL) { pos_copy = *trypos; // copy pos_T, next findmatch will change it trypos = &pos_copy; curwin->w_cursor = *trypos; pos = NULL; // ignore the { if it's in a // or / * * / comment if ((colnr_T)cin_skip2pos(trypos) == trypos->col && (pos = ind_find_start_CORS(NULL)) == NULL) { // XXX break; } if (pos != NULL) { curwin->w_cursor = *pos; } } curwin->w_cursor = cursor_save; return trypos; } /// Find the matching '(', ignoring it if it is in a comment. /// @returns NULL or the found match. static pos_T *find_match_paren(int ind_maxparen) { return find_match_char('(', ind_maxparen); } static pos_T *find_match_char(char_u c, int ind_maxparen) { pos_T cursor_save; pos_T *trypos; static pos_T pos_copy; int ind_maxp_wk; cursor_save = curwin->w_cursor; ind_maxp_wk = ind_maxparen; retry: if ((trypos = findmatchlimit(NULL, c, 0, ind_maxp_wk)) != NULL) { // check if the ( is in a // comment if ((colnr_T)cin_skip2pos(trypos) > trypos->col) { ind_maxp_wk = ind_maxparen - (cursor_save.lnum - trypos->lnum); if (ind_maxp_wk > 0) { curwin->w_cursor = *trypos; curwin->w_cursor.col = 0; // XXX goto retry; } trypos = NULL; } else { pos_T *trypos_wk; pos_copy = *trypos; // copy trypos, findmatch will change it trypos = &pos_copy; curwin->w_cursor = *trypos; if ((trypos_wk = ind_find_start_CORS(NULL)) != NULL) { // XXX ind_maxp_wk = ind_maxparen - (cursor_save.lnum - trypos_wk->lnum); if (ind_maxp_wk > 0) { curwin->w_cursor = *trypos_wk; goto retry; } trypos = NULL; } } } curwin->w_cursor = cursor_save; return trypos; } /// Find the matching '(', ignoring it if it is in a comment or before an /// unmatched {. /// @returns NULL or the found match. static pos_T *find_match_paren_after_brace(int ind_maxparen) { pos_T *trypos = find_match_paren(ind_maxparen); if (trypos == NULL) { return NULL; } pos_T *tryposBrace = find_start_brace(); // If both an unmatched '(' and '{' is found. Ignore the '(' // position if the '{' is further down. if (tryposBrace != NULL && (trypos->lnum != tryposBrace->lnum ? trypos->lnum < tryposBrace->lnum : trypos->col < tryposBrace->col)) { trypos = NULL; } return trypos; } // Return ind_maxparen corrected for the difference in line number between the // cursor position and "startpos". This makes sure that searching for a // matching paren above the cursor line doesn't find a match because of // looking a few lines further. static int corr_ind_maxparen(pos_T *startpos) { long n = (long)startpos->lnum - (long)curwin->w_cursor.lnum; if (n > 0 && n < curbuf->b_ind_maxparen / 2) { return curbuf->b_ind_maxparen - (int)n; } return curbuf->b_ind_maxparen; } // Set w_cursor.col to the column number of the last unmatched ')' or '{' in // line "l". "l" must point to the start of the line. static int find_last_paren(const char_u *l, int start, int end) { int i; int retval = false; int open_count = 0; curwin->w_cursor.col = 0; // default is start of line for (i = 0; l[i] != NUL; i++) { i = (int)(cin_skipcomment(l + i) - l); // ignore parens in comments i = (int)(skip_string(l + i) - l); // ignore parens in quotes if (l[i] == start) { open_count++; } else if (l[i] == end) { if (open_count > 0) { open_count--; } else { curwin->w_cursor.col = i; retval = true; } } } return retval; } // Parse 'cinoptions' and set the values in "curbuf". // Must be called when 'cinoptions', 'shiftwidth' and/or 'tabstop' changes. void parse_cino(buf_T *buf) { char *p; char *l; int divider; int fraction = 0; int sw = get_sw_value(buf); // Set the default values. // Spaces from a block's opening brace the prevailing indent for that // block should be. buf->b_ind_level = sw; // Spaces from the edge of the line an open brace that's at the end of a // line is imagined to be. buf->b_ind_open_imag = 0; // Spaces from the prevailing indent for a line that is not preceded by // an opening brace. buf->b_ind_no_brace = 0; // Column where the first { of a function should be located }. buf->b_ind_first_open = 0; // Spaces from the prevailing indent a leftmost open brace should be // located. buf->b_ind_open_extra = 0; // Spaces from the matching open brace (real location for one at the left // edge; imaginary location from one that ends a line) the matching close // brace should be located. buf->b_ind_close_extra = 0; // Spaces from the edge of the line an open brace sitting in the leftmost // column is imagined to be. buf->b_ind_open_left_imag = 0; // Spaces jump labels should be shifted to the left if N is non-negative, // otherwise the jump label will be put to column 1. buf->b_ind_jump_label = -1; // Spaces from the switch() indent a "case xx" label should be located. buf->b_ind_case = sw; // Spaces from the "case xx:" code after a switch() should be located. buf->b_ind_case_code = sw; // Lineup break at end of case in switch() with case label. buf->b_ind_case_break = 0; // Spaces from the class declaration indent a scope declaration label // should be located. buf->b_ind_scopedecl = sw; // Spaces from the scope declaration label code should be located. buf->b_ind_scopedecl_code = sw; // Amount K&R-style parameters should be indented. buf->b_ind_param = sw; // Amount a function type spec should be indented. buf->b_ind_func_type = sw; // Amount a cpp base class declaration or constructor initialization // should be indented. buf->b_ind_cpp_baseclass = sw; // additional spaces beyond the prevailing indent a continuation line // should be located. buf->b_ind_continuation = sw; // Spaces from the indent of the line with an unclosed parentheses. buf->b_ind_unclosed = sw * 2; // Spaces from the indent of the line with an unclosed parentheses, which // itself is also unclosed. buf->b_ind_unclosed2 = sw; // Suppress ignoring spaces from the indent of a line starting with an // unclosed parenthesis. buf->b_ind_unclosed_noignore = 0; // If the opening paren is the last nonwhite character on the line, and // b_ind_unclosed_wrapped is nonzero, use this indent relative to the outer // context (for very long lines). buf->b_ind_unclosed_wrapped = 0; // Suppress ignoring white space when lining up with the character after // an unclosed parentheses. buf->b_ind_unclosed_whiteok = 0; // Indent a closing parenthesis under the line start of the matching // opening parenthesis. buf->b_ind_matching_paren = 0; // Indent a closing parenthesis under the previous line. buf->b_ind_paren_prev = 0; // Extra indent for comments. buf->b_ind_comment = 0; // Spaces from the comment opener when there is nothing after it. buf->b_ind_in_comment = 3; // Boolean: if non-zero, use b_ind_in_comment even if there is something // after the comment opener. buf->b_ind_in_comment2 = 0; // Max lines to search for an open paren. buf->b_ind_maxparen = 20; // Max lines to search for an open comment. buf->b_ind_maxcomment = 70; // Handle braces for java code. buf->b_ind_java = 0; // Not to confuse JS object properties with labels. buf->b_ind_js = 0; // Handle blocked cases correctly. buf->b_ind_keep_case_label = 0; // Handle C++ namespace. buf->b_ind_cpp_namespace = 0; // Handle continuation lines containing conditions of if(), for() and // while(). buf->b_ind_if_for_while = 0; // indentation for # comments buf->b_ind_hash_comment = 0; // Handle C++ extern "C" or "C++" buf->b_ind_cpp_extern_c = 0; // Handle C #pragma directives buf->b_ind_pragma = 0; for (p = buf->b_p_cino; *p;) { l = p++; if (*p == '-') { p++; } char *digits_start = p; // remember where the digits start int n = getdigits_int(&p, true, 0); divider = 0; if (*p == '.') { // ".5s" means a fraction. fraction = atoi(++p); while (ascii_isdigit(*p)) { p++; if (divider) { divider *= 10; } else { divider = 10; } } } if (*p == 's') { // "2s" means two times 'shiftwidth'. if (p == digits_start) { n = sw; // just "s" is one 'shiftwidth'. } else { n *= sw; if (divider) { n += (sw * fraction + divider / 2) / divider; } } p++; } if (l[1] == '-') { n = -n; } // When adding an entry here, also update the default 'cinoptions' in // doc/indent.txt, and add explanation for it! switch (*l) { case '>': buf->b_ind_level = n; break; case 'e': buf->b_ind_open_imag = n; break; case 'n': buf->b_ind_no_brace = n; break; case 'f': buf->b_ind_first_open = n; break; case '{': buf->b_ind_open_extra = n; break; case '}': buf->b_ind_close_extra = n; break; case '^': buf->b_ind_open_left_imag = n; break; case 'L': buf->b_ind_jump_label = n; break; case ':': buf->b_ind_case = n; break; case '=': buf->b_ind_case_code = n; break; case 'b': buf->b_ind_case_break = n; break; case 'p': buf->b_ind_param = n; break; case 't': buf->b_ind_func_type = n; break; case '/': buf->b_ind_comment = n; break; case 'c': buf->b_ind_in_comment = n; break; case 'C': buf->b_ind_in_comment2 = n; break; case 'i': buf->b_ind_cpp_baseclass = n; break; case '+': buf->b_ind_continuation = n; break; case '(': buf->b_ind_unclosed = n; break; case 'u': buf->b_ind_unclosed2 = n; break; case 'U': buf->b_ind_unclosed_noignore = n; break; case 'W': buf->b_ind_unclosed_wrapped = n; break; case 'w': buf->b_ind_unclosed_whiteok = n; break; case 'm': buf->b_ind_matching_paren = n; break; case 'M': buf->b_ind_paren_prev = n; break; case ')': buf->b_ind_maxparen = n; break; case '*': buf->b_ind_maxcomment = n; break; case 'g': buf->b_ind_scopedecl = n; break; case 'h': buf->b_ind_scopedecl_code = n; break; case 'j': buf->b_ind_java = n; break; case 'J': buf->b_ind_js = n; break; case 'l': buf->b_ind_keep_case_label = n; break; case '#': buf->b_ind_hash_comment = n; break; case 'N': buf->b_ind_cpp_namespace = n; break; case 'k': buf->b_ind_if_for_while = n; break; case 'E': buf->b_ind_cpp_extern_c = n; break; case 'P': buf->b_ind_pragma = n; break; } if (*p == ',') { p++; } } } // Return the desired indent for C code. // Return -1 if the indent should be left alone (inside a raw string). int get_c_indent(void) { pos_T cur_curpos; int amount; int scope_amount; int cur_amount = MAXCOL; colnr_T col; char_u *theline; char *linecopy; pos_T *trypos; pos_T *comment_pos; pos_T *tryposBrace = NULL; pos_T tryposCopy; pos_T our_paren_pos; char_u *start; int start_brace; #define BRACE_IN_COL0 1 // '{' is in column 0 #define BRACE_AT_START 2 // '{' is at start of line #define BRACE_AT_END 3 // '{' is at end of line linenr_T ourscope; const char_u *l; const char_u *look; char_u terminated; int lookfor; #define LOOKFOR_INITIAL 0 #define LOOKFOR_IF 1 #define LOOKFOR_DO 2 #define LOOKFOR_CASE 3 #define LOOKFOR_ANY 4 #define LOOKFOR_TERM 5 #define LOOKFOR_UNTERM 6 #define LOOKFOR_SCOPEDECL 7 #define LOOKFOR_NOBREAK 8 #define LOOKFOR_CPP_BASECLASS 9 #define LOOKFOR_ENUM_OR_INIT 10 #define LOOKFOR_JS_KEY 11 #define LOOKFOR_COMMA 12 int whilelevel; linenr_T lnum; int n; int lookfor_break; bool lookfor_cpp_namespace = false; int cont_amount = 0; // amount for continuation line int original_line_islabel; int added_to_amount = 0; linenr_T raw_string_start = 0; cpp_baseclass_cache_T cache_cpp_baseclass = { false, { MAXLNUM, 0 } }; // make a copy, value is changed below int ind_continuation = curbuf->b_ind_continuation; // remember where the cursor was when we started cur_curpos = curwin->w_cursor; // if we are at line 1 zero indent is fine, right? if (cur_curpos.lnum == 1) { return 0; } // Get a copy of the current contents of the line. // This is required, because only the most recent line obtained with // ml_get is valid! linecopy = xstrdup(ml_get(cur_curpos.lnum)); // In insert mode and the cursor is on a ')' truncate the line at the // cursor position. We don't want to line up with the matching '(' when // inserting new stuff. // For unknown reasons the cursor might be past the end of the line, thus // check for that. if ((State & MODE_INSERT) && curwin->w_cursor.col < (colnr_T)strlen(linecopy) && linecopy[curwin->w_cursor.col] == ')') { linecopy[curwin->w_cursor.col] = NUL; } theline = (char_u *)skipwhite(linecopy); // move the cursor to the start of the line curwin->w_cursor.col = 0; original_line_islabel = cin_islabel(); // XXX // If we are inside a raw string don't change the indent. // Ignore a raw string inside a comment. comment_pos = ind_find_start_comment(); if (comment_pos != NULL) { // findmatchlimit() static pos is overwritten, make a copy tryposCopy = *comment_pos; comment_pos = &tryposCopy; } trypos = find_start_rawstring(curbuf->b_ind_maxcomment); if (trypos != NULL && (comment_pos == NULL || lt(*trypos, *comment_pos))) { amount = -1; goto laterend; } // #defines and so on go at the left when included in 'cinkeys', // excluding pragmas when customized in 'cinoptions' if (*theline == '#' && (*linecopy == '#' || in_cinkeys('#', ' ', true))) { const char_u *const directive = (char_u *)skipwhite((char *)theline + 1); if (curbuf->b_ind_pragma == 0 || STRNCMP(directive, "pragma", 6) != 0) { amount = curbuf->b_ind_hash_comment; goto theend; } } // Is it a non-case label? Then that goes at the left margin too unless: // - JS flag is set. // - 'L' item has a positive value. if (original_line_islabel && !curbuf->b_ind_js && curbuf->b_ind_jump_label < 0) { amount = 0; goto theend; } // If we're inside a "//" comment and there is a "//" comment in a // previous line, lineup with that one. if (cin_islinecomment(theline)) { pos_T linecomment_pos; trypos = find_line_comment(); // XXX if (trypos == NULL && curwin->w_cursor.lnum > 1) { // There may be a statement before the comment, search from the end // of the line for a comment start. linecomment_pos.col = check_linecomment(ml_get(curwin->w_cursor.lnum - 1)); if (linecomment_pos.col != MAXCOL) { trypos = &linecomment_pos; trypos->lnum = curwin->w_cursor.lnum - 1; } } if (trypos != NULL) { // find how indented the line beginning the comment is getvcol(curwin, trypos, &col, NULL, NULL); amount = col; goto theend; } } // If we're inside a comment and not looking at the start of the // comment, try using the 'comments' option. if (!cin_iscomment(theline) && comment_pos != NULL) { // XXX int lead_start_len = 2; int lead_middle_len = 1; char lead_start[COM_MAX_LEN]; // start-comment string char lead_middle[COM_MAX_LEN]; // middle-comment string char lead_end[COM_MAX_LEN]; // end-comment string char *p; int start_align = 0; int start_off = 0; int done = false; // find how indented the line beginning the comment is getvcol(curwin, comment_pos, &col, NULL, NULL); amount = col; *lead_start = NUL; *lead_middle = NUL; p = curbuf->b_p_com; while (*p != NUL) { int align = 0; int off = 0; int what = 0; while (*p != NUL && *p != ':') { if (*p == COM_START || *p == COM_END || *p == COM_MIDDLE) { what = (unsigned char)(*p++); } else if (*p == COM_LEFT || *p == COM_RIGHT) { align = (unsigned char)(*p++); } else if (ascii_isdigit(*p) || *p == '-') { off = getdigits_int(&p, true, 0); } else { p++; } } if (*p == ':') { p++; } (void)copy_option_part(&p, lead_end, COM_MAX_LEN, ","); if (what == COM_START) { STRCPY(lead_start, lead_end); lead_start_len = (int)strlen(lead_start); start_off = off; start_align = align; } else if (what == COM_MIDDLE) { STRCPY(lead_middle, lead_end); lead_middle_len = (int)strlen(lead_middle); } else if (what == COM_END) { // If our line starts with the middle comment string, line it // up with the comment opener per the 'comments' option. if (STRNCMP(theline, lead_middle, lead_middle_len) == 0 && STRNCMP(theline, lead_end, strlen(lead_end)) != 0) { done = true; if (curwin->w_cursor.lnum > 1) { // If the start comment string matches in the previous // line, use the indent of that line plus offset. If // the middle comment string matches in the previous // line, use the indent of that line. XXX look = (char_u *)skipwhite(ml_get(curwin->w_cursor.lnum - 1)); if (STRNCMP(look, lead_start, lead_start_len) == 0) { amount = get_indent_lnum(curwin->w_cursor.lnum - 1); } else if (STRNCMP(look, lead_middle, lead_middle_len) == 0) { amount = get_indent_lnum(curwin->w_cursor.lnum - 1); break; } else if (STRNCMP(ml_get(comment_pos->lnum) + comment_pos->col, lead_start, lead_start_len) != 0) { // If the start comment string doesn't match with the // start of the comment, skip this entry. XXX continue; } } if (start_off != 0) { amount += start_off; } else if (start_align == COM_RIGHT) { amount += vim_strsize(lead_start) - vim_strsize(lead_middle); } break; } // If our line starts with the end comment string, line it up // with the middle comment if (STRNCMP(theline, lead_middle, lead_middle_len) != 0 && STRNCMP(theline, lead_end, strlen(lead_end)) == 0) { amount = get_indent_lnum(curwin->w_cursor.lnum - 1); // XXX if (off != 0) { amount += off; } else if (align == COM_RIGHT) { amount += vim_strsize(lead_start) - vim_strsize(lead_middle); } done = true; break; } } } // If our line starts with an asterisk, line up with the // asterisk in the comment opener; otherwise, line up // with the first character of the comment text. if (done) { // skip } else if (theline[0] == '*') { amount += 1; } else { // If we are more than one line away from the comment opener, take // the indent of the previous non-empty line. If 'cino' has "CO" // and we are just below the comment opener and there are any // white characters after it line up with the text after it; // otherwise, add the amount specified by "c" in 'cino' amount = -1; for (lnum = cur_curpos.lnum - 1; lnum > comment_pos->lnum; lnum--) { if (linewhite(lnum)) { // skip blank lines continue; } amount = get_indent_lnum(lnum); // XXX break; } if (amount == -1) { // use the comment opener if (!curbuf->b_ind_in_comment2) { start = (char_u *)ml_get(comment_pos->lnum); look = start + comment_pos->col + 2; // skip / and * if (*look != NUL) { // if something after it comment_pos->col = (colnr_T)((char_u *)skipwhite((char *)look) - start); } } getvcol(curwin, comment_pos, &col, NULL, NULL); amount = col; if (curbuf->b_ind_in_comment2 || *look == NUL) { amount += curbuf->b_ind_in_comment; } } } goto theend; } // Are we looking at a ']' that has a match? if (*skipwhite((char *)theline) == ']' && (trypos = find_match_char('[', curbuf->b_ind_maxparen)) != NULL) { // align with the line containing the '['. amount = get_indent_lnum(trypos->lnum); goto theend; } // Are we inside parentheses or braces? // XXX if (((trypos = find_match_paren(curbuf->b_ind_maxparen)) != NULL && curbuf->b_ind_java == 0) || (tryposBrace = find_start_brace()) != NULL || trypos != NULL) { if (trypos != NULL && tryposBrace != NULL) { // Both an unmatched '(' and '{' is found. Use the one which is // closer to the current cursor position, set the other to NULL. if (trypos->lnum != tryposBrace->lnum ? trypos->lnum < tryposBrace->lnum : trypos->col < tryposBrace->col) { trypos = NULL; } else { tryposBrace = NULL; } } if (trypos != NULL) { our_paren_pos = *trypos; // If the matching paren is more than one line away, use the indent of // a previous non-empty line that matches the same paren. if (theline[0] == ')' && curbuf->b_ind_paren_prev) { // Line up with the start of the matching paren line. amount = get_indent_lnum(curwin->w_cursor.lnum - 1); // XXX } else { amount = -1; for (lnum = cur_curpos.lnum - 1; lnum > our_paren_pos.lnum; lnum--) { l = (char_u *)skipwhite(ml_get(lnum)); if (cin_nocode(l)) { // skip comment lines continue; } if (cin_ispreproc_cont(&l, &lnum, &amount)) { continue; // ignore #define, #if, etc. } curwin->w_cursor.lnum = lnum; // Skip a comment or raw string. XXX if ((trypos = ind_find_start_CORS(NULL)) != NULL) { lnum = trypos->lnum + 1; continue; } // XXX if ((trypos = find_match_paren(corr_ind_maxparen(&cur_curpos))) != NULL && trypos->lnum == our_paren_pos.lnum && trypos->col == our_paren_pos.col) { amount = get_indent_lnum(lnum); // XXX if (theline[0] == ')') { if (our_paren_pos.lnum != lnum && cur_amount > amount) { cur_amount = amount; } amount = -1; } break; } } } // Line up with line where the matching paren is. XXX // If the line starts with a '(' or the indent for unclosed // parentheses is zero, line up with the unclosed parentheses. if (amount == -1) { int ignore_paren_col = 0; int is_if_for_while = 0; if (curbuf->b_ind_if_for_while) { // Look for the outermost opening parenthesis on this line // and check whether it belongs to an "if", "for" or "while". pos_T cursor_save = curwin->w_cursor; pos_T outermost; char_u *line; trypos = &our_paren_pos; do { outermost = *trypos; curwin->w_cursor.lnum = outermost.lnum; curwin->w_cursor.col = outermost.col; trypos = find_match_paren(curbuf->b_ind_maxparen); } while (trypos && trypos->lnum == outermost.lnum); curwin->w_cursor = cursor_save; line = (char_u *)ml_get(outermost.lnum); is_if_for_while = cin_is_if_for_while_before_offset(line, &outermost.col); } amount = skip_label(our_paren_pos.lnum, &look); look = (char_u *)skipwhite((char *)look); if (*look == '(') { linenr_T save_lnum = curwin->w_cursor.lnum; char_u *line; int look_col; // Ignore a '(' in front of the line that has a match before // our matching '('. curwin->w_cursor.lnum = our_paren_pos.lnum; line = (char_u *)get_cursor_line_ptr(); look_col = (int)(look - line); curwin->w_cursor.col = look_col + 1; if ((trypos = findmatchlimit(NULL, ')', 0, curbuf->b_ind_maxparen)) != NULL && trypos->lnum == our_paren_pos.lnum && trypos->col < our_paren_pos.col) { ignore_paren_col = trypos->col + 1; } curwin->w_cursor.lnum = save_lnum; look = (char_u *)ml_get(our_paren_pos.lnum) + look_col; } if (theline[0] == ')' || (curbuf->b_ind_unclosed == 0 && is_if_for_while == 0) || (!curbuf->b_ind_unclosed_noignore && *look == '(' && ignore_paren_col == 0)) { // If we're looking at a close paren, line up right there; // otherwise, line up with the next (non-white) character. // When b_ind_unclosed_wrapped is set and the matching paren is // the last nonwhite character of the line, use either the // indent of the current line or the indentation of the next // outer paren and add b_ind_unclosed_wrapped (for very long // lines). if (theline[0] != ')') { cur_amount = MAXCOL; l = (char_u *)ml_get(our_paren_pos.lnum); if (curbuf->b_ind_unclosed_wrapped && cin_ends_in(l, (char_u *)"(", NULL)) { // look for opening unmatched paren, indent one level // for each additional level n = 1; for (col = 0; col < our_paren_pos.col; col++) { switch (l[col]) { case '(': case '{': n++; break; case ')': case '}': if (n > 1) { n--; } break; } } our_paren_pos.col = 0; amount += n * curbuf->b_ind_unclosed_wrapped; } else if (curbuf->b_ind_unclosed_whiteok) { our_paren_pos.col++; } else { col = our_paren_pos.col + 1; while (ascii_iswhite(l[col])) { col++; } if (l[col] != NUL) { // In case of trailing space our_paren_pos.col = col; } else { our_paren_pos.col++; } } } // Find how indented the paren is, or the character after it // if we did the above "if". if (our_paren_pos.col > 0) { getvcol(curwin, &our_paren_pos, &col, NULL, NULL); if (cur_amount > (int)col) { cur_amount = col; } } } if (theline[0] == ')' && curbuf->b_ind_matching_paren) { // Line up with the start of the matching paren line. } else if ((curbuf->b_ind_unclosed == 0 && is_if_for_while == 0) || (!curbuf->b_ind_unclosed_noignore && *look == '(' && ignore_paren_col == 0)) { if (cur_amount != MAXCOL) { amount = cur_amount; } } else { // Add b_ind_unclosed2 for each '(' before our matching one, // but ignore (void) before the line (ignore_paren_col). col = our_paren_pos.col; while ((int)our_paren_pos.col > ignore_paren_col) { our_paren_pos.col--; switch (*ml_get_pos(&our_paren_pos)) { case '(': amount += curbuf->b_ind_unclosed2; col = our_paren_pos.col; break; case ')': amount -= curbuf->b_ind_unclosed2; col = MAXCOL; break; } } // Use b_ind_unclosed once, when the first '(' is not inside // braces if (col == MAXCOL) { amount += curbuf->b_ind_unclosed; } else { curwin->w_cursor.lnum = our_paren_pos.lnum; curwin->w_cursor.col = col; if (find_match_paren_after_brace(curbuf->b_ind_maxparen)) { amount += curbuf->b_ind_unclosed2; } else { if (is_if_for_while) { amount += curbuf->b_ind_if_for_while; } else { amount += curbuf->b_ind_unclosed; } } } // For a line starting with ')' use the minimum of the two // positions, to avoid giving it more indent than the previous // lines: // func_long_name( if (x // arg && yy // ) ^ not here ) ^ not here if (cur_amount < amount) { amount = cur_amount; } } } // add extra indent for a comment if (cin_iscomment(theline)) { amount += curbuf->b_ind_comment; } } else { // We are inside braces, there is a { before this line at the position // stored in tryposBrace. // Make a copy of tryposBrace, it may point to pos_copy inside // find_start_brace(), which may be changed somewhere. tryposCopy = *tryposBrace; tryposBrace = &tryposCopy; trypos = tryposBrace; ourscope = trypos->lnum; start = (char_u *)ml_get(ourscope); // Now figure out how indented the line is in general. // If the brace was at the start of the line, we use that; // otherwise, check out the indentation of the line as // a whole and then add the "imaginary indent" to that. look = (char_u *)skipwhite((char *)start); if (*look == '{') { getvcol(curwin, trypos, &col, NULL, NULL); amount = col; if (*start == '{') { start_brace = BRACE_IN_COL0; } else { start_brace = BRACE_AT_START; } } else { // That opening brace might have been on a continuation // line. If so, find the start of the line. curwin->w_cursor.lnum = ourscope; // Position the cursor over the rightmost paren, so that // matching it will take us back to the start of the line. lnum = ourscope; if (find_last_paren(start, '(', ')') && (trypos = find_match_paren(curbuf->b_ind_maxparen)) != NULL) { lnum = trypos->lnum; } // It could have been something like // case 1: if (asdf && // ldfd) { // } if ((curbuf->b_ind_js || curbuf->b_ind_keep_case_label) && cin_iscase((char_u *)skipwhite(get_cursor_line_ptr()), false)) { amount = get_indent(); } else if (curbuf->b_ind_js) { amount = get_indent_lnum(lnum); } else { amount = skip_label(lnum, &l); } start_brace = BRACE_AT_END; } // For Javascript check if the line starts with "key:". bool js_cur_has_key = curbuf->b_ind_js ? cin_has_js_key(theline) : false; // If we're looking at a closing brace, that's where // we want to be. Otherwise, add the amount of room // that an indent is supposed to be. if (theline[0] == '}') { // they may want closing braces to line up with something // other than the open brace. indulge them, if so. amount += curbuf->b_ind_close_extra; } else { // If we're looking at an "else", try to find an "if" // to match it with. // If we're looking at a "while", try to find a "do" // to match it with. lookfor = LOOKFOR_INITIAL; if (cin_iselse(theline)) { lookfor = LOOKFOR_IF; } else if (cin_iswhileofdo(theline, cur_curpos.lnum)) { // XXX lookfor = LOOKFOR_DO; } if (lookfor != LOOKFOR_INITIAL) { curwin->w_cursor.lnum = cur_curpos.lnum; if (find_match(lookfor, ourscope) == OK) { amount = get_indent(); // XXX goto theend; } } // We get here if we are not on an "while-of-do" or "else" (or // failed to find a matching "if"). // Search backwards for something to line up with. // First set amount for when we don't find anything. // if the '{' is _really_ at the left margin, use the imaginary // location of a left-margin brace. Otherwise, correct the // location for b_ind_open_extra. if (start_brace == BRACE_IN_COL0) { // '{' is in column 0 amount = curbuf->b_ind_open_left_imag; lookfor_cpp_namespace = true; } else if (start_brace == BRACE_AT_START && lookfor_cpp_namespace) { // '{' is at start lookfor_cpp_namespace = true; } else { if (start_brace == BRACE_AT_END) { // '{' is at end of line amount += curbuf->b_ind_open_imag; l = (char_u *)skipwhite(get_cursor_line_ptr()); if (cin_is_cpp_namespace(l)) { amount += curbuf->b_ind_cpp_namespace; } else if (cin_is_cpp_extern_c(l)) { amount += curbuf->b_ind_cpp_extern_c; } } else { // Compensate for adding b_ind_open_extra later. amount -= curbuf->b_ind_open_extra; if (amount < 0) { amount = 0; } } } lookfor_break = false; if (cin_iscase(theline, false)) { // it's a switch() label lookfor = LOOKFOR_CASE; // find a previous switch() label amount += curbuf->b_ind_case; } else if (cin_isscopedecl(theline)) { // private:, ... lookfor = LOOKFOR_SCOPEDECL; // class decl is this block amount += curbuf->b_ind_scopedecl; } else { if (curbuf->b_ind_case_break && cin_isbreak(theline)) { // break; ... lookfor_break = true; } lookfor = LOOKFOR_INITIAL; // b_ind_level from start of block amount += curbuf->b_ind_level; } scope_amount = amount; whilelevel = 0; // Search backwards. If we find something we recognize, line up // with that. // // If we're looking at an open brace, indent // the usual amount relative to the conditional // that opens the block. curwin->w_cursor = cur_curpos; for (;;) { curwin->w_cursor.lnum--; curwin->w_cursor.col = 0; // If we went all the way back to the start of our scope, line // up with it. if (curwin->w_cursor.lnum <= ourscope) { // We reached end of scope: // If looking for a enum or structure initialization // go further back: // If it is an initializer (enum xxx or xxx =), then // don't add ind_continuation, otherwise it is a variable // declaration: // int x, // here; <-- add ind_continuation if (lookfor == LOOKFOR_ENUM_OR_INIT) { if (curwin->w_cursor.lnum == 0 || curwin->w_cursor.lnum < ourscope - curbuf->b_ind_maxparen) { // nothing found (abuse curbuf->b_ind_maxparen as // limit) assume terminated line (i.e. a variable // initialization) if (cont_amount > 0) { amount = cont_amount; } else if (!curbuf->b_ind_js) { amount += ind_continuation; } break; } l = (char_u *)get_cursor_line_ptr(); // If we're in a comment or raw string now, skip to // the start of it. trypos = ind_find_start_CORS(NULL); if (trypos != NULL) { curwin->w_cursor.lnum = trypos->lnum + 1; curwin->w_cursor.col = 0; continue; } // // Skip preprocessor directives and blank lines. // if (cin_ispreproc_cont(&l, &curwin->w_cursor.lnum, &amount)) { continue; } if (cin_nocode(l)) { continue; } terminated = cin_isterminated(l, false, true); // If we are at top level and the line looks like a // function declaration, we are done // (it's a variable declaration). if (start_brace != BRACE_IN_COL0 || !cin_isfuncdecl(&l, curwin->w_cursor.lnum, 0)) { // if the line is terminated with another ',' // it is a continued variable initialization. // don't add extra indent. // TODO(vim): does not work, if a function // declaration is split over multiple lines: // cin_isfuncdecl returns false then. if (terminated == ',') { break; } // if it is an enum declaration or an assignment, // we are done. if (terminated != ';' && cin_isinit()) { break; } // nothing useful found if (terminated == 0 || terminated == '{') { continue; } } if (terminated != ';') { // Skip parens and braces. Position the cursor // over the rightmost paren, so that matching it // will take us back to the start of the line. // XXX trypos = NULL; if (find_last_paren(l, '(', ')')) { trypos = find_match_paren(curbuf->b_ind_maxparen); } if (trypos == NULL && find_last_paren(l, '{', '}')) { trypos = find_start_brace(); } if (trypos != NULL) { curwin->w_cursor.lnum = trypos->lnum + 1; curwin->w_cursor.col = 0; continue; } } // it's a variable declaration, add indentation // like in // int a, // b; if (cont_amount > 0) { amount = cont_amount; } else { amount += ind_continuation; } } else if (lookfor == LOOKFOR_UNTERM) { if (cont_amount > 0) { amount = cont_amount; } else { amount += ind_continuation; } } else { if (lookfor != LOOKFOR_TERM && lookfor != LOOKFOR_CPP_BASECLASS && lookfor != LOOKFOR_COMMA) { amount = scope_amount; if (theline[0] == '{') { amount += curbuf->b_ind_open_extra; added_to_amount = curbuf->b_ind_open_extra; } } if (lookfor_cpp_namespace) { // Looking for C++ namespace, need to look further // back. if (curwin->w_cursor.lnum == ourscope) { continue; } if (curwin->w_cursor.lnum == 0 || curwin->w_cursor.lnum < ourscope - FIND_NAMESPACE_LIM) { break; } l = (char_u *)get_cursor_line_ptr(); // If we're in a comment or raw string now, skip // to the start of it. trypos = ind_find_start_CORS(NULL); if (trypos != NULL) { curwin->w_cursor.lnum = trypos->lnum + 1; curwin->w_cursor.col = 0; continue; } // Skip preprocessor directives and blank lines. if (cin_ispreproc_cont(&l, &curwin->w_cursor.lnum, &amount)) { continue; } // Finally the actual check for "namespace". if (cin_is_cpp_namespace(l)) { amount += curbuf->b_ind_cpp_namespace - added_to_amount; break; } else if (cin_is_cpp_extern_c(l)) { amount += curbuf->b_ind_cpp_extern_c - added_to_amount; break; } if (cin_nocode(l)) { continue; } } } break; } // If we're in a comment or raw string now, skip to the start // of it. // XXX if ((trypos = ind_find_start_CORS(&raw_string_start)) != NULL) { curwin->w_cursor.lnum = trypos->lnum + 1; curwin->w_cursor.col = 0; continue; } l = (char_u *)get_cursor_line_ptr(); // If this is a switch() label, may line up relative to that. // If this is a C++ scope declaration, do the same. bool iscase = cin_iscase(l, false); if (iscase || cin_isscopedecl(l)) { // we are only looking for cpp base class // declaration/initialization any longer if (lookfor == LOOKFOR_CPP_BASECLASS) { break; } // When looking for a "do" we are not interested in // labels. if (whilelevel > 0) { continue; } // case xx: // c = 99 + <- this indent plus continuation // -> here; if (lookfor == LOOKFOR_UNTERM || lookfor == LOOKFOR_ENUM_OR_INIT) { if (cont_amount > 0) { amount = cont_amount; } else { amount += ind_continuation; } break; } // case xx: <- line up with this case // x = 333; // case yy: if ((iscase && lookfor == LOOKFOR_CASE) || (iscase && lookfor_break) || (!iscase && lookfor == LOOKFOR_SCOPEDECL)) { // Check that this case label is not for another // switch() // XXX if ((trypos = find_start_brace()) == NULL || trypos->lnum == ourscope) { amount = get_indent(); // XXX break; } continue; } n = get_indent_nolabel(curwin->w_cursor.lnum); // XXX // case xx: if (cond) <- line up with this if // y = y + 1; // -> s = 99; // // case xx: // if (cond) <- line up with this line // y = y + 1; // -> s = 99; if (lookfor == LOOKFOR_TERM) { if (n) { amount = n; } if (!lookfor_break) { break; } } // case xx: x = x + 1; <- line up with this x // -> y = y + 1; // // case xx: if (cond) <- line up with this if // -> y = y + 1; if (n) { amount = n; l = after_label((char_u *)get_cursor_line_ptr()); if (l != NULL && cin_is_cinword((char *)l)) { if (theline[0] == '{') { amount += curbuf->b_ind_open_extra; } else { amount += curbuf->b_ind_level + curbuf->b_ind_no_brace; } } break; } // Try to get the indent of a statement before the switch // label. If nothing is found, line up relative to the // switch label. // break; <- may line up with this line // case xx: // -> y = 1; scope_amount = get_indent() + (iscase // XXX ? curbuf->b_ind_case_code : curbuf->b_ind_scopedecl_code); lookfor = curbuf->b_ind_case_break ? LOOKFOR_NOBREAK : LOOKFOR_ANY; continue; } // Looking for a switch() label or C++ scope declaration, // ignore other lines, skip {}-blocks. if (lookfor == LOOKFOR_CASE || lookfor == LOOKFOR_SCOPEDECL) { if (find_last_paren(l, '{', '}') && (trypos = find_start_brace()) != NULL) { curwin->w_cursor.lnum = trypos->lnum + 1; curwin->w_cursor.col = 0; } continue; } // Ignore jump labels with nothing after them. if (!curbuf->b_ind_js && cin_islabel()) { l = after_label((char_u *)get_cursor_line_ptr()); if (l == NULL || cin_nocode(l)) { continue; } } // Ignore #defines, #if, etc. // Ignore comment and empty lines. // (need to get the line again, cin_islabel() may have // unlocked it) l = (char_u *)get_cursor_line_ptr(); if (cin_ispreproc_cont(&l, &curwin->w_cursor.lnum, &amount) || cin_nocode(l)) { continue; } // Are we at the start of a cpp base class declaration or // constructor initialization? // XXX n = 0; if (lookfor != LOOKFOR_TERM && curbuf->b_ind_cpp_baseclass > 0) { n = cin_is_cpp_baseclass(&cache_cpp_baseclass); l = (char_u *)get_cursor_line_ptr(); } if (n) { if (lookfor == LOOKFOR_UNTERM) { if (cont_amount > 0) { amount = cont_amount; } else { amount += ind_continuation; } } else if (theline[0] == '{') { // Need to find start of the declaration. lookfor = LOOKFOR_UNTERM; ind_continuation = 0; continue; } else { // XXX amount = get_baseclass_amount(cache_cpp_baseclass.lpos.col); } break; } else if (lookfor == LOOKFOR_CPP_BASECLASS) { // only look, whether there is a cpp base class // declaration or initialization before the opening brace. if (cin_isterminated(l, true, false)) { break; } else { continue; } } // What happens next depends on the line being terminated. // If terminated with a ',' only consider it terminating if // there is another unterminated statement behind, eg: // 123, // sizeof // here // Otherwise check whether it is an enumeration or structure // initialisation (not indented) or a variable declaration // (indented). terminated = cin_isterminated(l, false, true); if (js_cur_has_key) { js_cur_has_key = false; // only check the first line if (curbuf->b_ind_js && terminated == ',') { // For Javascript we might be inside an object: // key: something, <- align with this // key: something // or: // key: something + <- align with this // something, // key: something lookfor = LOOKFOR_JS_KEY; } } if (lookfor == LOOKFOR_JS_KEY && cin_has_js_key(l)) { amount = get_indent(); break; } if (lookfor == LOOKFOR_COMMA) { if (tryposBrace != NULL && tryposBrace->lnum >= curwin->w_cursor.lnum) { break; } if (terminated == ',') { // Line below current line is the one that starts a // (possibly broken) line ending in a comma. break; } else { amount = get_indent(); if (curwin->w_cursor.lnum - 1 == ourscope) { // line above is start of the scope, thus current // line is the one that stars a (possibly broken) // line ending in a comma. break; } } } if (terminated == 0 || (lookfor != LOOKFOR_UNTERM && terminated == ',')) { if (lookfor != LOOKFOR_ENUM_OR_INIT && (*skipwhite((char *)l) == '[' || l[STRLEN(l) - 1] == '[')) { amount += ind_continuation; } // If we're in the middle of a paren thing, Go back to the line // that starts it so we can get the right prevailing indent // if ( foo && // bar ) // Position the cursor over the rightmost paren, so that // matching it will take us back to the start of the line. // Ignore a match before the start of the block. (void)find_last_paren(l, '(', ')'); trypos = find_match_paren(corr_ind_maxparen(&cur_curpos)); if (trypos != NULL && (trypos->lnum < tryposBrace->lnum || (trypos->lnum == tryposBrace->lnum && trypos->col < tryposBrace->col))) { trypos = NULL; } // If we are looking for ',', we also look for matching // braces. if (trypos == NULL && terminated == ',' && find_last_paren(l, '{', '}')) { trypos = find_start_brace(); } if (trypos != NULL) { // Check if we are on a case label now. This is // handled above. // case xx: if ( asdf && // asdf) curwin->w_cursor = *trypos; l = (char_u *)get_cursor_line_ptr(); if (cin_iscase(l, false) || cin_isscopedecl(l)) { curwin->w_cursor.lnum++; curwin->w_cursor.col = 0; continue; } } // Skip over continuation lines to find the one to get the // indent from // char *usethis = "bla{backslash} // bla", // here; if (terminated == ',') { while (curwin->w_cursor.lnum > 1) { l = (char_u *)ml_get(curwin->w_cursor.lnum - 1); if (*l == NUL || l[STRLEN(l) - 1] != '\\') { break; } curwin->w_cursor.lnum--; curwin->w_cursor.col = 0; } } // Get indent and pointer to text for current line, // ignoring any jump label. XXX if (curbuf->b_ind_js) { cur_amount = get_indent(); } else { cur_amount = skip_label(curwin->w_cursor.lnum, &l); } // If this is just above the line we are indenting, and it // starts with a '{', line it up with this line. // while (not) // -> { // } if (terminated != ',' && lookfor != LOOKFOR_TERM && theline[0] == '{') { amount = cur_amount; // Only add b_ind_open_extra when the current line // doesn't start with a '{', which must have a match // in the same line (scope is the same). Probably: // { 1, 2 }, // -> { 3, 4 } if (*skipwhite((char *)l) != '{') { amount += curbuf->b_ind_open_extra; } if (curbuf->b_ind_cpp_baseclass && !curbuf->b_ind_js) { // have to look back, whether it is a cpp base // class declaration or initialization lookfor = LOOKFOR_CPP_BASECLASS; continue; } break; } // Check if we are after an "if", "while", etc. // Also allow " } else". if (cin_is_cinword((char *)l) || cin_iselse((char_u *)skipwhite((char *)l))) { // Found an unterminated line after an if (), line up // with the last one. // if (cond) // 100 + // -> here; if (lookfor == LOOKFOR_UNTERM || lookfor == LOOKFOR_ENUM_OR_INIT) { if (cont_amount > 0) { amount = cont_amount; } else { amount += ind_continuation; } break; } // If this is just above the line we are indenting, we // are finished. // while (not) // -> here; // Otherwise this indent can be used when the line // before this is terminated. // yyy; // if (stat) // while (not) // xxx; // -> here; amount = cur_amount; if (theline[0] == '{') { amount += curbuf->b_ind_open_extra; } if (lookfor != LOOKFOR_TERM) { amount += curbuf->b_ind_level + curbuf->b_ind_no_brace; break; } // Special trick: when expecting the while () after a // do, line up with the while() // do // x = 1; // -> here l = (char_u *)skipwhite(get_cursor_line_ptr()); if (cin_isdo(l)) { if (whilelevel == 0) { break; } whilelevel--; } // When searching for a terminated line, don't use the // one between the "if" and the matching "else". // Need to use the scope of this "else". XXX // If whilelevel != 0 continue looking for a "do {". if (cin_iselse(l) && whilelevel == 0) { // If we're looking at "} else", let's make sure we // find the opening brace of the enclosing scope, // not the one from "if () {". if (*l == '}') { curwin->w_cursor.col = (colnr_T)(l - (char_u *)get_cursor_line_ptr()) + 1; } if ((trypos = find_start_brace()) == NULL || find_match(LOOKFOR_IF, trypos->lnum) == FAIL) { break; } } } else { // If we're below an unterminated line that is not an // "if" or something, we may line up with this line or // add something for a continuation line, depending on // the line before this one. // Found two unterminated lines on a row, line up with // the last one. // c = 99 + // 100 + // -> here; if (lookfor == LOOKFOR_UNTERM) { // When line ends in a comma add extra indent if (terminated == ',') { amount += ind_continuation; } break; } if (lookfor == LOOKFOR_ENUM_OR_INIT) { // Found two lines ending in ',', lineup with the // lowest one, but check for cpp base class // declaration/initialization, if it is an // opening brace or we are looking just for // enumerations/initializations. if (terminated == ',') { if (curbuf->b_ind_cpp_baseclass == 0) { break; } lookfor = LOOKFOR_CPP_BASECLASS; continue; } // Ignore unterminated lines in between, but // reduce indent. if (amount > cur_amount) { amount = cur_amount; } } else { // Found first unterminated line on a row, may // line up with this line, remember its indent // 100 + // NOLINT(whitespace/tab) // -> here; // NOLINT(whitespace/tab) l = (char_u *)get_cursor_line_ptr(); amount = cur_amount; n = (int)STRLEN(l); if (terminated == ',' && (*skipwhite((char *)l) == ']' || (n >= 2 && l[n - 2] == ']'))) { break; } // If previous line ends in ',', check whether we // are in an initialization or enum // struct xxx = // { // sizeof a, // 124 }; // or a normal possible continuation line. // but only, of no other statement has been found // yet. if (lookfor == LOOKFOR_INITIAL && terminated == ',') { if (curbuf->b_ind_js) { // Search for a line ending in a comma // and line up with the line below it // (could be the current line). // some = [ // 1, <- line up here // 2, // some = [ // 3 + <- line up here // 4 * // 5, // 6, if (cin_iscomment((char_u *)skipwhite((char *)l))) { break; } lookfor = LOOKFOR_COMMA; trypos = find_match_char('[', curbuf->b_ind_maxparen); if (trypos != NULL) { if (trypos->lnum == curwin->w_cursor.lnum - 1) { // Current line is first inside // [], line up with it. break; } ourscope = trypos->lnum; } } else { lookfor = LOOKFOR_ENUM_OR_INIT; cont_amount = cin_first_id_amount(); } } else { if (lookfor == LOOKFOR_INITIAL && *l != NUL && l[STRLEN(l) - 1] == '\\') { // XXX cont_amount = cin_get_equal_amount(curwin->w_cursor.lnum); } if (lookfor != LOOKFOR_TERM && lookfor != LOOKFOR_JS_KEY && lookfor != LOOKFOR_COMMA && raw_string_start != curwin->w_cursor.lnum) { lookfor = LOOKFOR_UNTERM; } } } } // Check if we are after a while (cond); // If so: Ignore until the matching "do". } else if (cin_iswhileofdo_end(terminated)) { // XXX // Found an unterminated line after a while ();, line up // with the last one. // while (cond); // 100 + <- line up with this one // -> here; if (lookfor == LOOKFOR_UNTERM || lookfor == LOOKFOR_ENUM_OR_INIT) { if (cont_amount > 0) { amount = cont_amount; } else { amount += ind_continuation; } break; } if (whilelevel == 0) { lookfor = LOOKFOR_TERM; amount = get_indent(); // XXX if (theline[0] == '{') { amount += curbuf->b_ind_open_extra; } } whilelevel++; } else { // We are after a "normal" statement. // If we had another statement we can stop now and use the // indent of that other statement. // Otherwise the indent of the current statement may be used, // search backwards for the next "normal" statement. // Skip single break line, if before a switch label. It // may be lined up with the case label. if (lookfor == LOOKFOR_NOBREAK && cin_isbreak((char_u *)skipwhite(get_cursor_line_ptr()))) { lookfor = LOOKFOR_ANY; continue; } // Handle "do {" line. if (whilelevel > 0) { l = cin_skipcomment((char_u *)get_cursor_line_ptr()); if (cin_isdo(l)) { amount = get_indent(); // XXX whilelevel--; continue; } } // Found a terminated line above an unterminated line. Add // the amount for a continuation line. // x = 1; // y = foo + // -> here; // or // int x = 1; // int foo, // -> here; if (lookfor == LOOKFOR_UNTERM || lookfor == LOOKFOR_ENUM_OR_INIT) { if (cont_amount > 0) { amount = cont_amount; } else { amount += ind_continuation; } break; } // Found a terminated line above a terminated line or "if" // etc. line. Use the amount of the line below us. // x = 1; x = 1; // if (asdf) y = 2; // while (asdf) ->here; // here; // ->foo; if (lookfor == LOOKFOR_TERM) { if (!lookfor_break && whilelevel == 0) { break; } } else { // First line above the one we're indenting is terminated. // To know what needs to be done look further backward for // a terminated line. // position the cursor over the rightmost paren, so // that matching it will take us back to the start of // the line. Helps for: // func(asdr, // asdfasdf); // here; term_again: l = (char_u *)get_cursor_line_ptr(); if (find_last_paren(l, '(', ')') && (trypos = find_match_paren(curbuf->b_ind_maxparen)) != NULL) { // Check if we are on a case label now. This is // handled above. // case xx: if ( asdf && // asdf) curwin->w_cursor = *trypos; l = (char_u *)get_cursor_line_ptr(); if (cin_iscase(l, false) || cin_isscopedecl(l)) { curwin->w_cursor.lnum++; curwin->w_cursor.col = 0; continue; } } // When aligning with the case statement, don't align // with a statement after it. // case 1: { <-- don't use this { position // stat; // } // case 2: // stat; // } iscase = curbuf->b_ind_keep_case_label && cin_iscase(l, false); // Get indent and pointer to text for current line, // ignoring any jump label. amount = skip_label(curwin->w_cursor.lnum, &l); if (theline[0] == '{') { amount += curbuf->b_ind_open_extra; } // See remark above: "Only add b_ind_open_extra.." l = (char_u *)skipwhite((char *)l); if (*l == '{') { amount -= curbuf->b_ind_open_extra; } lookfor = iscase ? LOOKFOR_ANY : LOOKFOR_TERM; // When a terminated line starts with "else" skip to // the matching "if": // else 3; // indent this; // Need to use the scope of this "else". XXX // If whilelevel != 0 continue looking for a "do {". if (lookfor == LOOKFOR_TERM && *l != '}' && cin_iselse(l) && whilelevel == 0) { if ((trypos = find_start_brace()) == NULL || find_match(LOOKFOR_IF, trypos->lnum) == FAIL) { break; } continue; } // If we're at the end of a block, skip to the start of // that block. l = (char_u *)get_cursor_line_ptr(); if (find_last_paren(l, '{', '}') // XXX && (trypos = find_start_brace()) != NULL) { curwin->w_cursor = *trypos; // if not "else {" check for terminated again // but skip block for "} else {" l = cin_skipcomment((char_u *)get_cursor_line_ptr()); if (*l == '}' || !cin_iselse(l)) { goto term_again; } curwin->w_cursor.lnum++; curwin->w_cursor.col = 0; } } } } } } // add extra indent for a comment if (cin_iscomment(theline)) { amount += curbuf->b_ind_comment; } // subtract extra left-shift for jump labels if (curbuf->b_ind_jump_label > 0 && original_line_islabel) { amount -= curbuf->b_ind_jump_label; } goto theend; } // Ok -- we're not inside any sort of structure at all! // // this means we're at the top level, and everything should // basically just match where the previous line is, except // for the lines immediately following a function declaration, // which are K&R-style parameters and need to be indented. // if our line starts with an open brace, forget about any // prevailing indent and make sure it looks like the start // of a function if (theline[0] == '{') { amount = curbuf->b_ind_first_open; goto theend; } // If the NEXT line is a function declaration, the current // line needs to be indented as a function type spec. // Don't do this if the current line looks like a comment or if the // current line is terminated, ie. ends in ';', or if the current line // contains { or }: "void f() {\n if (1)" if (cur_curpos.lnum < curbuf->b_ml.ml_line_count && !cin_nocode(theline) && vim_strchr((char *)theline, '{') == NULL && vim_strchr((char *)theline, '}') == NULL && !cin_ends_in(theline, (char_u *)":", NULL) && !cin_ends_in(theline, (char_u *)",", NULL) && cin_isfuncdecl(NULL, cur_curpos.lnum + 1, cur_curpos.lnum + 1) && !cin_isterminated(theline, false, true)) { amount = curbuf->b_ind_func_type; goto theend; } // search backwards until we find something we recognize amount = 0; curwin->w_cursor = cur_curpos; while (curwin->w_cursor.lnum > 1) { curwin->w_cursor.lnum--; curwin->w_cursor.col = 0; l = (char_u *)get_cursor_line_ptr(); // If we're in a comment or raw string now, skip to the start // of it. // XXX if ((trypos = ind_find_start_CORS(NULL)) != NULL) { curwin->w_cursor.lnum = trypos->lnum + 1; curwin->w_cursor.col = 0; continue; } // Are we at the start of a cpp base class declaration or // constructor initialization? XXX n = 0; if (curbuf->b_ind_cpp_baseclass != 0) { n = cin_is_cpp_baseclass(&cache_cpp_baseclass); l = (char_u *)get_cursor_line_ptr(); } if (n) { // XXX amount = get_baseclass_amount(cache_cpp_baseclass.lpos.col); break; } // // Skip preprocessor directives and blank lines. // if (cin_ispreproc_cont(&l, &curwin->w_cursor.lnum, &amount)) { continue; } if (cin_nocode(l)) { continue; } // If the previous line ends in ',', use one level of // indentation: // int foo, // bar; // do this before checking for '}' in case of eg. // enum foobar // { // ... // } foo, // bar; if (cin_ends_in(l, (char_u *)",", NULL) || (*l != NUL && (n = l[STRLEN(l) - 1]) == '\\')) { // take us back to opening paren if (find_last_paren(l, '(', ')') && (trypos = find_match_paren(curbuf->b_ind_maxparen)) != NULL) { curwin->w_cursor = *trypos; } // For a line ending in ',' that is a continuation line go // back to the first line with a backslash: // char *foo = "bla{backslash} // bla", // here; while (n == 0 && curwin->w_cursor.lnum > 1) { l = (char_u *)ml_get(curwin->w_cursor.lnum - 1); if (*l == NUL || l[STRLEN(l) - 1] != '\\') { break; } curwin->w_cursor.lnum--; curwin->w_cursor.col = 0; } amount = get_indent(); // XXX if (amount == 0) { amount = cin_first_id_amount(); } if (amount == 0) { amount = ind_continuation; } break; } // If the line looks like a function declaration, and we're // not in a comment, put it the left margin. if (cin_isfuncdecl(NULL, cur_curpos.lnum, 0)) { // XXX break; } l = (char_u *)get_cursor_line_ptr(); // Finding the closing '}' of a previous function. Put // current line at the left margin. For when 'cino' has "fs". if (*skipwhite((char *)l) == '}') { break; } // (matching {) // If the previous line ends on '};' (maybe followed by // comments) align at column 0. For example: // char *string_array[] = { "foo", // / * x * / "b};ar" }; / * foobar * / if (cin_ends_in(l, (char_u *)"};", NULL)) { break; } // If the previous line ends on '[' we are probably in an // array constant: // something = [ // 234, <- extra indent if (cin_ends_in(l, (char_u *)"[", NULL)) { amount = get_indent() + ind_continuation; break; } // Find a line only has a semicolon that belongs to a previous // line ending in '}', e.g. before an #endif. Don't increase // indent then. if (*(look = (char_u *)skipwhite((char *)l)) == ';' && cin_nocode(look + 1)) { pos_T curpos_save = curwin->w_cursor; while (curwin->w_cursor.lnum > 1) { look = (char_u *)ml_get(--curwin->w_cursor.lnum); if (!(cin_nocode(look) || cin_ispreproc_cont(&look, &curwin->w_cursor.lnum, &amount))) { break; } } if (curwin->w_cursor.lnum > 0 && cin_ends_in(look, (char_u *)"}", NULL)) { break; } curwin->w_cursor = curpos_save; } // If the PREVIOUS line is a function declaration, the current // line (and the ones that follow) needs to be indented as // parameters. if (cin_isfuncdecl(&l, curwin->w_cursor.lnum, 0)) { amount = curbuf->b_ind_param; break; } // If the previous line ends in ';' and the line before the // previous line ends in ',' or '\', ident to column zero: // int foo, // bar; // indent_to_0 here; if (cin_ends_in(l, (char_u *)";", NULL)) { l = (char_u *)ml_get(curwin->w_cursor.lnum - 1); if (cin_ends_in(l, (char_u *)",", NULL) || (*l != NUL && l[STRLEN(l) - 1] == '\\')) { break; } l = (char_u *)get_cursor_line_ptr(); } // Doesn't look like anything interesting -- so just // use the indent of this line. // // Position the cursor over the rightmost paren, so that // matching it will take us back to the start of the line. (void)find_last_paren(l, '(', ')'); if ((trypos = find_match_paren(curbuf->b_ind_maxparen)) != NULL) { curwin->w_cursor = *trypos; } amount = get_indent(); // XXX break; } // add extra indent for a comment if (cin_iscomment(theline)) { amount += curbuf->b_ind_comment; } // add extra indent if the previous line ended in a backslash: // "asdfasdf{backslash} // here"; // char *foo = "asdf{backslash} // here"; if (cur_curpos.lnum > 1) { l = (char_u *)ml_get(cur_curpos.lnum - 1); if (*l != NUL && l[STRLEN(l) - 1] == '\\') { cur_amount = cin_get_equal_amount(cur_curpos.lnum - 1); if (cur_amount > 0) { amount = cur_amount; } else if (cur_amount == 0) { amount += ind_continuation; } } } theend: if (amount < 0) { amount = 0; } laterend: // put the cursor back where it belongs curwin->w_cursor = cur_curpos; xfree(linecopy); return amount; } static int find_match(int lookfor, linenr_T ourscope) { const char_u *look; pos_T *theirscope; const char_u *mightbeif; int elselevel; int whilelevel; if (lookfor == LOOKFOR_IF) { elselevel = 1; whilelevel = 0; } else { elselevel = 0; whilelevel = 1; } curwin->w_cursor.col = 0; while (curwin->w_cursor.lnum > ourscope + 1) { curwin->w_cursor.lnum--; curwin->w_cursor.col = 0; look = cin_skipcomment((char_u *)get_cursor_line_ptr()); if (!cin_iselse(look) && !cin_isif(look) && !cin_isdo(look) // XXX && !cin_iswhileofdo(look, curwin->w_cursor.lnum)) { continue; } // if we've gone outside the braces entirely, // we must be out of scope... theirscope = find_start_brace(); // XXX if (theirscope == NULL) { break; } // and if the brace enclosing this is further // back than the one enclosing the else, we're // out of luck too. if (theirscope->lnum < ourscope) { break; } // and if they're enclosed in a *deeper* brace, // then we can ignore it because it's in a // different scope... if (theirscope->lnum > ourscope) { continue; } // if it was an "else" (that's not an "else if") // then we need to go back to another if, so // increment elselevel look = cin_skipcomment((char_u *)get_cursor_line_ptr()); if (cin_iselse(look)) { mightbeif = cin_skipcomment(look + 4); if (!cin_isif(mightbeif)) { elselevel++; // NOLINT(readability/braces) } continue; } // if it was a "while" then we need to go back to // another "do", so increment whilelevel. XXX if (cin_iswhileofdo(look, curwin->w_cursor.lnum)) { whilelevel++; continue; } // If it's an "if" decrement elselevel look = cin_skipcomment((char_u *)get_cursor_line_ptr()); if (cin_isif(look)) { elselevel--; // NOLINT(readability/braces) // When looking for an "if" ignore "while"s that // get in the way. if (elselevel == 0 && lookfor == LOOKFOR_IF) { whilelevel = 0; } } // If it's a "do" decrement whilelevel if (cin_isdo(look)) { whilelevel--; } // if we've used up all the elses, then // this must be the if that we want! // match the indent level of that if. if (elselevel <= 0 && whilelevel <= 0) { return OK; } } return FAIL; } // Do C or expression indenting on the current line. void do_c_expr_indent(void) { if (*curbuf->b_p_inde != NUL) { fixthisline(get_expr_indent); } else { fixthisline(get_c_indent); } }