3 * selector is a simple command line utility for selection of strings
4 * with a dynamic pattern-matching.
6 * Copyright (c) 2009, 2010, 2011, 2012 Francois Fleuret
7 * Written by Francois Fleuret <francois@fleuret.org>
9 * This file is part of selector.
11 * selector is free software: you can redistribute it and/or modify
12 * it under the terms of the GNU General Public License version 3 as
13 * published by the Free Software Foundation.
15 * selector is distributed in the hope that it will be useful, but
16 * WITHOUT ANY WARRANTY; without even the implied warranty of
17 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
18 * General Public License for more details.
20 * You should have received a copy of the GNU General Public License
21 * along with selector. If not, see <http://www.gnu.org/licenses/>.
27 To use it as a super-history-search for bash:
28 selector --bash <(history)
41 #include <sys/ioctl.h>
48 #define VERSION "1.1.7"
50 #define BUFFER_SIZE 16384
52 /* Yeah, global variables! */
54 int nb_lines_max = 1000;
55 char pattern_separator = ';';
56 char label_separator = '\0';
57 int output_to_vt_buffer = 0;
58 int add_control_qs = 0;
62 int inverse_order = 0;
63 int remove_duplicates = 0;
65 int case_sensitive = 0;
68 int upper_caps_makes_case_sensitive = 0;
69 int show_long_lines = 0;
72 int attr_modeline, attr_focus_line, attr_error, attr_hits;
74 /********************************************************************/
76 /* malloc with error checking. */
78 void *safe_malloc(size_t n) {
82 "selector: cannot allocate memory: %s\n", strerror(errno));
88 /*********************************************************************/
90 void inject_into_tty_buffer(char *string, int add_control_qs) {
91 struct termios oldtio, newtio;
93 const char control_q = '\021';
94 tcgetattr(STDIN_FILENO, &oldtio);
95 memset(&newtio, 0, sizeof(newtio));
96 /* Set input mode (non-canonical, *no echo*,...) */
97 tcsetattr(STDIN_FILENO, TCSANOW, &newtio);
98 /* Put the selected string in the tty input buffer */
99 for(k = string; *k; k++) {
100 if(add_control_qs && !(*k >= ' ' && *k <= '~')) {
101 /* Add ^Q to quote control characters */
102 ioctl(STDIN_FILENO, TIOCSTI, &control_q);
104 ioctl(STDIN_FILENO, TIOCSTI, k);
106 /* Restore the old settings */
107 tcsetattr(STDIN_FILENO, TCSANOW, &oldtio);
110 /*********************************************************************/
112 void str_to_positive_integers(char *string, int *values, int nb) {
113 int current_value, gotone;
123 if(*s >= '0' && *s <= '9') {
124 current_value = current_value * 10 + (int) (*s - '0');
126 } else if(*s == ',' || *s == '\0') {
129 values[n++] = current_value;
135 "selector: Missing value in `%s'.\n", string);
143 "selector: Too many values in `%s'.\n", string);
148 "selector: Empty value in `%s'.\n", string);
153 "selector: Syntax error in `%s'.\n", string);
160 void error_feedback() {
168 void usage(FILE *out) {
170 fprintf(out, "Selector version %s (%s)\n", VERSION, UNAME);
171 fprintf(out, "Written by Francois Fleuret <francois@fleuret.org>.\n");
173 fprintf(out, "Usage: selector [options] [<filename1> [<filename2> ...]]\n");
175 fprintf(out, " -h, --help\n");
176 fprintf(out, " show this help\n");
177 fprintf(out, " -v, --inject-in-tty\n");
178 fprintf(out, " inject the selected line in the tty\n");
179 fprintf(out, " -w, --add-control-qs\n");
180 fprintf(out, " quote control characters with ^Qs when using -v\n");
181 fprintf(out, " -d, --remove-duplicates\n");
182 fprintf(out, " remove duplicated lines\n");
183 fprintf(out, " -b, --remove-bash-prefix\n");
184 fprintf(out, " remove the bash history line prefix\n");
185 fprintf(out, " -z, --remove-zsh-prefix\n");
186 fprintf(out, " remove the zsh history line prefix\n");
187 fprintf(out, " -i, --revert-order\n");
188 fprintf(out, " invert the order of lines\n");
189 fprintf(out, " -e, --regexp\n");
190 fprintf(out, " start in regexp mode\n");
191 fprintf(out, " -a, --case-sensitive\n");
192 fprintf(out, " start in case sensitive mode\n");
193 fprintf(out, " -j, --show-long-lines\n");
194 fprintf(out, " print a long-line indicator at the end of truncated lines\n");
195 fprintf(out, " -y, --show-hits\n");
196 fprintf(out, " highlight the matching substrings\n");
197 fprintf(out, " -u, --upper-case-makes-case-sensitive\n");
198 fprintf(out, " using an upper case character in the matching string makes\n");
199 fprintf(out, " the matching case-sensitive\n");
200 fprintf(out, " -m, --monochrome\n");
201 fprintf(out, " monochrome mode\n");
202 fprintf(out, " -q, --no-beep\n");
203 fprintf(out, " make a flash instead of a beep on an edition error\n");
204 fprintf(out, " --bash\n");
205 fprintf(out, " setting for bash history search, same as -b -i -d -v -w -l ${HISTSIZE}\n");
206 fprintf(out, " --\n");
207 fprintf(out, " all following arguments are filenames\n");
208 fprintf(out, " -t <title>, --title <title>\n");
209 fprintf(out, " add a title in the modeline\n");
210 fprintf(out, " -r <pattern>, --pattern <pattern>\n");
211 fprintf(out, " set an initial pattern\n");
212 fprintf(out, " -c <colors>, --colors <colors>\n");
213 fprintf(out, " set the display colors with an argument of the form\n");
214 fprintf(out, " <fg_modeline>,<bg_modeline>,<fg_highlight>,<bg_highlight>\n");
215 fprintf(out, " -o <output filename>, --output-file <output filename>\n");
216 fprintf(out, " set a file to write the selected line to\n");
217 fprintf(out, " -s <pattern separator>, --pattern-separator <pattern separator>\n");
218 fprintf(out, " set the symbol to separate substrings in the pattern\n");
219 fprintf(out, " -x <label separator>, --label-separator <label separator>\n");
220 fprintf(out, " set the character to separate the label to show from the\n");
221 fprintf(out, " string to return\n");
222 fprintf(out, " -l <max number of lines>, --number-of-lines <max number of lines>\n");
223 fprintf(out, " set the maximum number of lines to take into account\n");
227 /*********************************************************************/
229 /* A quick and dirty hash table */
231 #define MAGIC_HASH_MULTIPLIER 387433
233 /* The table itself stores indexes of the strings taken in a char**
234 table. When a string is added, if it was already in the table, the
235 new index replaces the previous one. */
237 struct hash_table_t {
242 struct hash_table_t *new_hash_table(int size) {
244 struct hash_table_t *hash_table;
246 hash_table = safe_malloc(sizeof(struct hash_table_t));
248 hash_table->size = size;
249 hash_table->entries = safe_malloc(hash_table->size * sizeof(int));
251 for(k = 0; k < hash_table->size; k++) {
252 hash_table->entries[k] = -1;
258 void free_hash_table(struct hash_table_t *hash_table) {
259 free(hash_table->entries);
263 /* Adds new_string in the table, associated to new_index. If this
264 string was not already in the table, returns -1. Otherwise, returns
265 the previous index it had. */
267 int add_and_get_previous_index(struct hash_table_t *hash_table,
268 const char *new_string, int new_index,
271 unsigned int code = 0, start;
274 /* This is my recipe. I checked, it seems to work (as long as
275 hash_table->size is not a multiple of MAGIC_HASH_MULTIPLIER that
278 for(k = 0; new_string[k]; k++) {
279 code = code * MAGIC_HASH_MULTIPLIER + (unsigned int) (new_string[k]);
282 code = code % hash_table->size;
285 while(hash_table->entries[code] >= 0) {
286 /* There is a string with that code */
287 if(strcmp(new_string, strings[hash_table->entries[code]]) == 0) {
288 /* It is the same string, we keep a copy of the stored index */
289 int result = hash_table->entries[code];
290 /* Put the new one */
291 hash_table->entries[code] = new_index;
292 /* And return the previous one */
295 /* This collision was not the same string, let's move to the next
297 code = (code + 1) % hash_table->size;
298 /* We came back to our original code, which means that the table
302 "Full hash table (that should not happen)\n");
307 /* This string was not already in there, store the index in the
308 table and return -1 */
310 hash_table->entries[code] = new_index;
314 /*********************************************************************
315 A matcher matches either with a collection of substrings, or with a
323 char *splitted_patterns, **patterns;
326 /* Routine to add an interval to a sorted list of intervals
327 extremities. Returns the resulting number of extremities.
329 This routine is an effing nightmare */
331 int add_interval(int n, int *switches, int start, int end) {
334 if(start == end) { return n; }
337 while(f < n && switches[f] <= start) { f++; }
339 while(g < n && switches[g] <= end) { g++; }
342 /* switches[n-1] start end */
352 /* switches[f-1] start switches[f] switches[g-1] end switches[g] */
353 /* |XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX| ... |XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX| */
354 for(k = f; k < n; k++) { switches[k] = switches[k + (g - f)]; }
357 /* switches[f-1] start switches[f] switches[g-1] end switches[g] */
358 /* |XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX| ... XXXXXXXXXXXX| |XXXXXXXXXX */
359 switches[g - 1] = end;
360 for(k = f; k < n; k++) { switches[k] = switches[k + ((g - 1) - f)]; }
361 return n - ((g - 1) - f);
367 /* switches[f-1] start end switches[f] */
368 /* XXXXXXXXXXXX| |XXXXXXXXXX */
369 for(k = n - 1; k >= f; k--) {
370 switches[k + 2] = switches[k];
373 switches[f + 1] = end;
378 /* switches[f-1] start switches[f] switches[g-1] end switches[g] */
379 /* XXXXXXXXXXXX| |XXXXXXXXXX ... |XXXXXXXXXXXXXXXXXXXXXXXXXXXXXXXX| */
381 for(k = f + 1; k < n; k++) { switches[k] = switches[k + (g - (f + 1))]; }
382 return n - (g - (f + 1));
384 /* switches[f-1] start switches[f] switches[g-1] end switches[g] */
385 /* XXXXXXXXXXXX| |XXXXXXXXXX ... XXXXXXXXXXXX| |XXXXXXXXXX */
387 switches[g - 1] = end;
388 for(k = f + 1; k < n; k++) { switches[k] = switches[k + ((g - 1) - (f + 1))]; }
389 return n - ((g - 1) - (f + 1));
394 int match(struct matcher *matcher, char *string, int *nb_switches, int *switches) {
399 if(nb_switches) { *nb_switches = 0; }
401 if(matcher->nb_patterns >= 0) {
402 if(matcher->case_sensitive) {
403 for(n = 0; n < matcher->nb_patterns; n++) {
404 if((where = strstr(string, matcher->patterns[n])) == 0) return 0;
406 *nb_switches = add_interval(*nb_switches, switches,
407 (int) (where - string),
408 (int) (where - string) + strlen(matcher->patterns[n]));
412 for(n = 0; n < matcher->nb_patterns; n++) {
413 if((where = strcasestr(string, matcher->patterns[n])) == 0) return 0;
415 *nb_switches = add_interval(*nb_switches, switches,
416 (int) (where - string),
417 (int) (where - string) + strlen(matcher->patterns[n]));
424 if(regexec(&matcher->preg, string, 1, &matches, 0) == 0) {
426 switches[0] = matches.rm_so;
427 switches[1] = matches.rm_eo;
433 return regexec(&matcher->preg, string, 0, 0, 0) == 0;
438 void free_matcher(struct matcher *matcher) {
439 if(matcher->nb_patterns < 0) {
440 if(!matcher->regexp_error) regfree(&matcher->preg);
442 free(matcher->splitted_patterns);
443 free(matcher->patterns);
447 void initialize_matcher(struct matcher *matcher,
448 int use_regexp, int case_sensitive,
449 const char *pattern) {
451 char *t, *last_pattern_start;
455 matcher->case_sensitive = case_sensitive;
456 matcher->nb_patterns = -1;
457 matcher->regexp_error = regcomp(&matcher->preg, pattern,
458 case_sensitive ? 0 : REG_ICASE);
460 matcher->regexp_error = 0;
461 matcher->nb_patterns = 1;
463 if(upper_caps_makes_case_sensitive) {
464 for(s = pattern; *s && !case_sensitive; s++) {
465 case_sensitive = (*s >= 'A' && *s <= 'Z');
469 matcher->case_sensitive = case_sensitive;
471 for(s = pattern; *s; s++) {
472 if(*s == pattern_separator) {
473 matcher->nb_patterns++;
477 matcher->splitted_patterns =
478 safe_malloc((strlen(pattern) + 1) * sizeof(char));
481 safe_malloc(matcher->nb_patterns * sizeof(char *));
483 strcpy(matcher->splitted_patterns, pattern);
486 last_pattern_start = matcher->splitted_patterns;
487 for(t = matcher->splitted_patterns; n < matcher->nb_patterns; t++) {
488 if(*t == pattern_separator || *t == '\0') {
490 matcher->patterns[n++] = last_pattern_start;
491 last_pattern_start = t + 1;
497 /*********************************************************************
500 void delete_char(char *buffer, int *position) {
501 if(buffer[*position]) {
503 while(c < BUFFER_SIZE && buffer[c]) {
504 buffer[c] = buffer[c+1];
507 } else error_feedback();
510 void backspace_char(char *buffer, int *position) {
512 if(buffer[*position]) {
513 int c = *position - 1;
515 buffer[c] = buffer[c+1];
519 buffer[*position - 1] = '\0';
523 } else error_feedback();
526 void insert_char(char *buffer, int *position, char character) {
527 if(strlen(buffer) < BUFFER_SIZE - 1) {
529 char t = buffer[c], u;
538 buffer[(*position)++] = character;
539 } else error_feedback();
542 void kill_before_cursor(char *buffer, int *position) {
544 while(buffer[*position + s]) {
545 buffer[s] = buffer[*position + s];
552 void kill_after_cursor(char *buffer, int *position) {
553 buffer[*position] = '\0';
556 /*********************************************************************/
558 int previous_visible(int current_line, char **lines, struct matcher *matcher) {
559 int line = current_line - 1;
560 while(line >= 0 && !match(matcher, lines[line], 0, 0)) line--;
564 int next_visible(int current_line, int nb_lines, char **lines,
565 struct matcher *matcher) {
566 int line = current_line + 1;
567 while(line < nb_lines && !match(matcher, lines[line], 0, 0)) line++;
575 /*********************************************************************/
577 void print_string_with_switches(char *buffer, int line_width,
578 int nb_patterns, int *switches) {
579 int w, current = 0, next;
581 for(w = 0; w < nb_patterns && switches[2 * w] < line_width; w++) {
582 if(switches[2 * w] < switches[2 * w + 1]) {
583 next = switches[2 * w];
584 if(next > line_width) { next = line_width; }
585 if(next > current) { addnstr(buffer + current, next - current); }
588 next = switches[2 * w + 1];
589 if(next > line_width) { next = line_width; }
590 if(next > current) { addnstr(buffer + current, next - current); }
595 if(current < line_width) {
596 addnstr(buffer + current, line_width - current);
599 addnstr(buffer, line_width);
603 /* The line highlighted is the first one matching the matcher in that
604 order: (1) current_focus_line after motion, if it does not match,
605 then (2) the first with a greater index, if none matches, then (3)
606 the first with a lesser index.
608 The index of the line actually shown highlighted is written in
609 displayed_focus_line (it can be -1 if no line at all matches the
612 If there is a motion and a line is actually shown highlighted, its
613 value is written in current_focus_line. */
615 void update_screen(int *current_focus_line, int *displayed_focus_line,
617 int nb_lines, char **lines,
621 char buffer[BUFFER_SIZE];
622 struct matcher matcher;
624 int console_width, console_height;
625 int nb_printed_lines = 0;
629 initialize_matcher(&matcher, use_regexp, case_sensitive, pattern);
632 if(matcher.nb_patterns >= 0) {
633 switches = safe_malloc(sizeof(int) * matcher.nb_patterns * 2);
635 switches = safe_malloc(sizeof(int) * 2);
641 console_width = getmaxx(stdscr);
642 console_height = getmaxy(stdscr);
644 use_default_colors();
646 /* Add an empty line where we will print the modeline at the end */
650 /* If the regexp is erroneous, print a message saying so */
652 if(matcher.regexp_error) {
654 addnstr("Regexp syntax error", console_width);
658 /* Else, and we do have lines to select from, find a visible line. */
660 else if(nb_lines > 0) {
662 if(match(&matcher, lines[*current_focus_line], 0, 0)) {
663 new_focus_line = *current_focus_line;
665 new_focus_line = next_visible(*current_focus_line, nb_lines, lines,
667 if(new_focus_line < 0) {
668 new_focus_line = previous_visible(*current_focus_line, lines, &matcher);
672 /* If we found a visible line and we should move, let's move */
674 if(new_focus_line >= 0 && motion != 0) {
675 int l = new_focus_line;
677 /* We want to go down, let's find the first visible line below */
678 for(m = 0; l >= 0 && m < motion; m++) {
679 l = next_visible(l, nb_lines, lines, &matcher);
685 /* We want to go up, let's find the first visible line above */
686 for(m = 0; l >= 0 && m < -motion; m++) {
687 l = previous_visible(l, lines, &matcher);
695 /* Here new_focus_line is either a line number matching the
698 if(new_focus_line >= 0) {
700 int first_line = new_focus_line, last_line = new_focus_line;
703 /* We find the first and last lines to show, so that the total
704 of visible lines between them (them included) is
707 while(nb_match < console_height-1 &&
708 (first_line > 0 || last_line < nb_lines - 1)) {
712 while(first_line > 0 && !match(&matcher, lines[first_line], 0, 0)) {
715 if(match(&matcher, lines[first_line], 0, 0)) {
720 if(nb_match < console_height - 1 && last_line < nb_lines - 1) {
722 while(last_line < nb_lines - 1 && !match(&matcher, lines[last_line], 0, 0)) {
726 if(match(&matcher, lines[last_line], 0, 0)) {
732 /* Now we display them */
734 for(l = first_line; l <= last_line; l++) {
735 if(match(&matcher, lines[l], &nb_switches, switches)) {
738 while(lines[l][k] && k < BUFFER_SIZE - 2 && k < console_width) {
739 buffer[k] = lines[l][k];
743 /* Highlight the highlighted line ... */
745 if(l == new_focus_line) {
746 if(show_long_lines && k >= console_width) {
747 attron(attr_focus_line);
748 print_string_with_switches(buffer, console_width-1,
749 nb_switches / 2, switches);
750 /* attron(attr_error); */
752 /* attroff(attr_error); */
753 attroff(attr_focus_line);
755 while(k < console_width) {
758 attron(attr_focus_line);
759 print_string_with_switches(buffer, k,
760 nb_switches / 2, switches);
761 attroff(attr_focus_line);
764 if(show_long_lines && k >= console_width) {
765 print_string_with_switches(buffer, console_width-1,
766 nb_switches / 2, switches);
767 attron(attr_focus_line);
769 attroff(attr_focus_line);
771 if(k < console_width) {
775 print_string_with_switches(buffer, k,
776 nb_switches / 2, switches);
784 /* If we are on a focused line and we moved, this become the new
788 *current_focus_line = new_focus_line;
792 *displayed_focus_line = new_focus_line;
794 if(nb_printed_lines == 0) {
796 addnstr("No selection", console_width);
801 /* Else, print a message saying that there are no lines to select from */
805 addnstr("Empty choice", console_width);
811 /* Draw the modeline */
815 attron(attr_modeline);
817 for(k = 0; k < console_width; k++) buffer[k] = ' ';
818 buffer[console_width] = '\0';
819 addnstr(buffer, console_width);
823 /* There must be a more elegant way of moving the cursor at a
824 location met during display */
831 cursor_x += strlen(title) + 1;
834 sprintf(buffer, "%d/%d ", nb_printed_lines, nb_lines);
836 cursor_x += strlen(buffer);
838 addnstr(pattern, cursor_position);
839 cursor_x += cursor_position;
841 if(pattern[cursor_position]) {
842 addstr(pattern + cursor_position);
847 /* Add a few info about the mode we are in (regexp and/or case
850 if(use_regexp || matcher.case_sensitive) {
856 if(matcher.case_sensitive) {
867 attroff(attr_modeline);
872 if(switches) { free(switches); }
873 free_matcher(&matcher);
876 /*********************************************************************/
878 void store_line(struct hash_table_t *hash_table,
879 const char *new_line,
880 int *nb_lines, char **lines) {
883 /* Remove the zsh history prefix */
885 if(zsh_history && *new_line == ':') {
886 while(*new_line && *new_line != ';') new_line++;
887 if(*new_line == ';') new_line++;
890 /* Remove the bash history prefix */
893 while(*new_line == ' ') new_line++;
894 while(*new_line >= '0' && *new_line <= '9') new_line++;
895 while(*new_line == ' ') new_line++;
898 /* Check for duplicates with the hash table and insert the line in
899 the list if necessary */
902 dup = add_and_get_previous_index(hash_table,
903 new_line, *nb_lines, lines);
909 lines[*nb_lines] = safe_malloc((strlen(new_line) + 1) * sizeof(char));
910 strcpy(lines[*nb_lines], new_line);
912 /* The string was already in there, so we do not allocate a new
913 string but use the pointer to the first occurence of it */
914 lines[*nb_lines] = lines[dup];
921 void read_file(struct hash_table_t *hash_table,
922 const char *input_filename,
923 int nb_lines_max, int *nb_lines, char **lines) {
925 char raw_line[BUFFER_SIZE];
930 file = fopen(input_filename, "r");
933 fprintf(stderr, "selector: Cannot open `%s'.\n", input_filename);
937 if(label_separator == '\n') {
938 while(*nb_lines < nb_lines_max && fgets(raw_line, BUFFER_SIZE, file)) {
939 l = strlen(raw_line);
940 fgets(raw_line + l, BUFFER_SIZE - l, file);
941 for(s = raw_line + strlen(raw_line) - 1; s > raw_line && *s == '\n'; s--) {
944 store_line(hash_table, raw_line, nb_lines, lines);
947 while(*nb_lines < nb_lines_max && fgets(raw_line, BUFFER_SIZE, file)) {
948 for(s = raw_line + strlen(raw_line) - 1; s > raw_line && *s == '\n'; s--) {
951 store_line(hash_table, raw_line, nb_lines, lines);
958 /*********************************************************************/
960 /* For long options that have no equivalent short option, use a
961 non-character as a pseudo short option, starting with CHAR_MAX + 1. */
964 OPT_BASH_MODE = CHAR_MAX + 1
967 static struct option long_options[] = {
968 { "output-file", 1, 0, 'o' },
969 { "pattern-separator", 1, 0, 's' },
970 { "label-separator", 1, 0, 'x' },
971 { "inject-in-tty", no_argument, 0, 'v' },
972 { "add-control-qs", no_argument, 0, 'w' },
973 { "monochrome", no_argument, 0, 'm' },
974 { "no-beep", no_argument, 0, 'q' },
975 { "revert-order", no_argument, 0, 'i' },
976 { "remove-bash-prefix", no_argument, 0, 'b' },
977 { "remove-zsh-prefix", no_argument, 0, 'z' },
978 { "remove-duplicates", no_argument, 0, 'd' },
979 { "regexp", no_argument, 0, 'e' },
980 { "case-sensitive", no_argument, 0, 'a' },
981 { "show-long-lines", no_argument, 0, 'j'},
982 { "show-hits", no_argument, 0, 'j'},
983 { "upper-case-makes-case-sensitive", no_argument, 0, 'u' },
984 { "title", 1, 0, 't' },
985 { "pattern", 1, 0, 'r' },
986 { "number-of-lines", 1, 0, 'l' },
987 { "colors", 1, 0, 'c' },
988 { "bash", no_argument, 0, OPT_BASH_MODE },
989 { "help", no_argument, 0, 'h' },
993 int main(int argc, char **argv) {
995 char output_filename[BUFFER_SIZE];
996 char pattern[BUFFER_SIZE];
999 int error = 0, show_help = 0, done = 0;
1001 int current_focus_line, displayed_focus_line;
1004 int color_fg_modeline, color_bg_modeline;
1005 int color_fg_highlight, color_bg_highlight;
1007 char **lines, **labels;
1009 struct hash_table_t *hash_table;
1010 char *bash_histsize;
1012 if(!isatty(STDIN_FILENO)) {
1013 fprintf(stderr, "selector: The standard input is not a tty.\n");
1019 color_fg_modeline = COLOR_WHITE;
1020 color_bg_modeline = COLOR_BLACK;
1021 color_fg_highlight = COLOR_BLACK;
1022 color_bg_highlight = COLOR_YELLOW;
1024 setlocale(LC_ALL, "");
1026 strcpy(output_filename, "");
1028 while ((c = getopt_long(argc, argv, "o:s:x:vwmqf:ibzdeajyunt:r:l:c:-h",
1029 long_options, NULL)) != -1) {
1034 strncpy(output_filename, optarg, BUFFER_SIZE);
1038 pattern_separator = optarg[0];
1042 if(strcmp(optarg, "\\n") == 0) {
1043 label_separator = '\n';
1045 label_separator = optarg[0];
1050 output_to_vt_buffer = 1;
1078 remove_duplicates = 1;
1090 show_long_lines = 1;
1098 upper_caps_makes_case_sensitive = 1;
1103 title = safe_malloc((strlen(optarg) + 1) * sizeof(char));
1104 strcpy(title, optarg);
1108 strcpy(pattern, optarg);
1112 str_to_positive_integers(optarg, &nb_lines_max, 1);
1116 str_to_positive_integers(optarg, colors, 4);
1117 color_fg_modeline = colors[0];
1118 color_bg_modeline = colors[1];
1119 color_fg_highlight = colors[2];
1120 color_bg_highlight = colors[3];
1128 /* Same as -c 7,4,0,3 -q */
1129 /* color_fg_modeline = 7; */
1130 /* color_bg_modeline = 4; */
1131 /* color_fg_highlight = 0; */
1132 /* color_bg_highlight = 3; */
1133 /* error_flash = 1; */
1134 /* Same as -b -i -d -v -w */
1137 remove_duplicates = 1;
1138 output_to_vt_buffer = 1;
1140 bash_histsize = getenv("HISTSIZE");
1142 str_to_positive_integers(bash_histsize, &nb_lines_max, 1);
1162 lines = safe_malloc(nb_lines_max * sizeof(char *));
1166 if(remove_duplicates) {
1167 hash_table = new_hash_table(nb_lines_max * 10);
1172 while(optind < argc) {
1173 read_file(hash_table,
1175 nb_lines_max, &nb_lines, lines);
1180 free_hash_table(hash_table);
1183 /* Now remove the null strings */
1186 for(k = 0; k < nb_lines; k++) {
1188 lines[n++] = lines[k];
1195 for(l = 0; l < nb_lines / 2; l++) {
1196 char *s = lines[nb_lines - 1 - l];
1197 lines[nb_lines - 1 - l] = lines[l];
1202 /* Build the labels from the strings, take only the part before the
1203 label_separator and transform control characters to printable
1206 labels = safe_malloc(nb_lines * sizeof(char *));
1208 for(l = 0; l < nb_lines; l++) {
1214 while(*t && *t != label_separator) {
1219 labels[l] = safe_malloc((e + 1) * sizeof(char));
1222 while(*t && *t != label_separator) {
1224 while(*u) { *s++ = *u++; }
1229 cursor_position = 0;
1231 /* Here we start to display with curse */
1236 intrflush(stdscr, FALSE);
1238 /* So that the arrow keys work */
1239 keypad(stdscr, TRUE);
1241 attr_error = A_STANDOUT;
1242 attr_modeline = A_REVERSE;
1243 attr_focus_line = A_STANDOUT;
1246 if(with_colors && has_colors()) {
1250 if(color_fg_modeline < 0 || color_fg_modeline >= COLORS ||
1251 color_bg_modeline < 0 || color_bg_modeline >= COLORS ||
1252 color_fg_highlight < 0 || color_bg_highlight >= COLORS ||
1253 color_bg_highlight < 0 || color_bg_highlight >= COLORS) {
1256 fprintf(stderr, "selector: Color numbers have to be between 0 and %d.\n",
1261 init_pair(1, color_fg_modeline, color_bg_modeline);
1262 attr_modeline = COLOR_PAIR(1);
1264 init_pair(2, color_fg_highlight, color_bg_highlight);
1265 attr_focus_line = COLOR_PAIR(2);
1267 init_pair(3, COLOR_WHITE, COLOR_RED);
1268 attr_error = COLOR_PAIR(3);
1272 current_focus_line = 0;
1273 displayed_focus_line = 0;
1274 cursor_position = strlen(pattern);
1276 update_screen(¤t_focus_line, &displayed_focus_line,
1278 nb_lines, labels, cursor_position, pattern);
1285 if(key >= ' ' && key <= '~') { /* Insert character */
1286 insert_char(pattern, &cursor_position, key);
1289 else if(key == KEY_BACKSPACE ||
1290 key == '\010' || /* ^H */
1291 key == '\177') { /* ^? */
1292 backspace_char(pattern, &cursor_position);
1295 else if(key == KEY_DC ||
1296 key == '\004') { /* ^D */
1297 delete_char(pattern, &cursor_position);
1300 else if(key == KEY_HOME) {
1301 current_focus_line = 0;
1304 else if(key == KEY_END) {
1305 current_focus_line = nb_lines - 1;
1308 else if(key == KEY_NPAGE) {
1312 else if(key == KEY_PPAGE) {
1316 else if(key == KEY_DOWN ||
1317 key == '\016') { /* ^N */
1321 else if(key == KEY_UP ||
1322 key == '\020') { /* ^P */
1326 else if(key == KEY_LEFT ||
1327 key == '\002') { /* ^B */
1328 if(cursor_position > 0) cursor_position--;
1329 else error_feedback();
1332 else if(key == KEY_RIGHT ||
1333 key == '\006') { /* ^F */
1334 if(pattern[cursor_position]) cursor_position++;
1335 else error_feedback();
1338 else if(key == '\001') { /* ^A */
1339 cursor_position = 0;
1342 else if(key == '\005') { /* ^E */
1343 cursor_position = strlen(pattern);
1346 else if(key == '\022') { /* ^R */
1347 use_regexp = !use_regexp;
1350 else if(key == '\011') { /* ^I */
1351 case_sensitive = !case_sensitive;
1354 else if(key == '\025') { /* ^U */
1355 kill_before_cursor(pattern, &cursor_position);
1358 else if(key == '\013') { /* ^K */
1359 kill_after_cursor(pattern, &cursor_position);
1362 else if(key == '\014') { /* ^L */
1363 /* I suspect that we may sometime mess up the display, so ^L is
1364 here to force a full refresh */
1368 else if(key == '\007' || /* ^G */
1369 key == '\033' || /* ^[ (escape) */
1375 else if(key == KEY_RESIZE || key == -1) {
1376 /* Do nothing when the tty is resized */
1384 update_screen(¤t_focus_line, &displayed_focus_line,
1386 nb_lines, labels, cursor_position, pattern);
1393 /* Here we come back to standard display */
1395 if(key == KEY_ENTER || key == '\n') {
1399 if(displayed_focus_line >= 0 && displayed_focus_line < nb_lines) {
1400 t = lines[displayed_focus_line];
1401 if(label_separator) {
1402 while(*t && *t != label_separator) t++;
1409 if(output_to_vt_buffer && t) {
1410 inject_into_tty_buffer(t, add_control_qs);
1413 if(output_filename[0]) {
1414 FILE *out = fopen(output_filename, "w");
1417 fprintf(out, "%s", t);
1422 "selector: Cannot open %s for writing.\n",
1430 printf("Aborted.\n");
1433 for(l = 0; l < nb_lines; l++) {