Fix 64-bit warnings.
[dragonfly.git] / bin / mined / mined1.c
blobe47dc85736e4c6bba4571e830befd7c7e0cc2e01
1 /*
2 * Copyright (c) 1987,1997, Prentice Hall
3 * All rights reserved.
5 * Redistribution and use of the MINIX operating system in source and
6 * binary forms, with or without modification, are permitted provided
7 * that the following conditions are met:
9 * * Redistributions of source code must retain the above copyright
10 * notice, this list of conditions and the following disclaimer.
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13 * copyright notice, this list of conditions and the following
14 * disclaimer in the documentation and/or other materials provided
15 * with the distribution.
17 * * Neither the name of Prentice Hall nor the names of the software
18 * authors or contributors may be used to endorse or promote
19 * products derived from this software without specific prior
20 * written permission.
22 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS, AUTHORS, AND
23 * CONTRIBUTORS ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
24 * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
25 * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
26 * IN NO EVENT SHALL PRENTICE HALL OR ANY AUTHORS OR CONTRIBUTORS BE
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28 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
29 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR
30 * BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
31 * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE
32 * OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE,
33 * EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
35 * [original code from minix codebase]
36 * $DragonFly: src/bin/mined/mined1.c,v 1.9 2008/06/05 18:06:30 swildner Exp $*
39 * Part one of the mined editor.
43 * Ported to FreeBSD by Andrzej Bialecki <abial@freebsd.org>, Oct 1998
45 * Added a help screen, and remapped some of the wildest keybindings...
49 * Author: Michiel Huisjes.
51 * 1. General remarks.
53 * Mined is a screen editor designed for the MINIX operating system.
54 * It is meant to be used on files not larger than 50K and to be fast.
55 * When mined starts up, it reads the file into its memory to minimize
56 * disk access. The only time that disk access is needed is when certain
57 * save, write or copy commands are given.
59 * Mined has the style of Emacs or Jove, that means that there are no modes.
60 * Each character has its own entry in an 256 pointer to function array,
61 * which is called when that character is typed. Only ASCII characters are
62 * connected with a function that inserts that character at the current
63 * location in the file. Two execptions are <linefeed> and <tab> which are
64 * inserted as well. Note that the mapping between commands and functions
65 * called is implicit in the table. Changing the mapping just implies
66 * changing the pointers in this table.
68 * The display consists of SCREENMAX + 1 lines and XMAX + 1 characters. When
69 * a line is larger (or gets larger during editing) than XBREAK characters,
70 * the line is either shifted SHIFT_SIZE characters to the left (which means
71 * that the first SHIFT_SIZE characters are not printed) or the end of the
72 * line is marked with the SHIFT_MARK character and the rest of the line is
73 * not printed. A line can never exceed MAX_CHARS characters. Mined will
74 * always try to keep the cursor on the same line and same (relative)
75 * x-coordinate if nothing changed. So if you scroll one line up, the cursor
76 * stays on the same line, or when you move one line down, the cursor will
77 * move to the same place on the line as it was on the previous.
78 * Every character on the line is available for editing including the
79 * linefeed at the the of the line. When the linefeed is deleted, the current
80 * line and the next line are joined. The last character of the file (which
81 * is always a linefeed) can never be deleted.
82 * The bottomline (as indicated by YMAX + 1) is used as a status line during
83 * editing. This line is usually blank or contains information mined needs
84 * during editing. This information (or rather questions) is displayed in
85 * reverse video.
87 * The terminal modes are changed completely. All signals like start/stop,
88 * interrupt etc. are unset. The only signal that remains is the quit signal.
89 * The quit signal (^\) is the general abort signal for mined. Typing a ^\
90 * during searching or when mined is asking for filenames, etc. will abort
91 * the function and mined will return to the main loop. Sending a quit
92 * signal during the main loop will abort the session (after confirmation)
93 * and the file is not (!) saved.
94 * The session will also be aborted when an unrecoverable error occurs. E.g
95 * when there is no more memory available. If the file has been modified,
96 * mined will ask if the file has to be saved or not.
97 * If there is no more space left on the disk, mined will just give an error
98 * message and continue.
100 * The number of system calls are minized. This is done to keep the editor
101 * as fast as possible. I/O is done in SCREEN_SIZE reads/writes. Accumulated
102 * output is also flushed at the end of each character typed.
104 * 2. Regular expressions
106 * Mined has a build in regular expression matcher, which is used for
107 * searching and replace routines. A regular expression consists of a
108 * sequence of:
110 * 1. A normal character matching that character.
111 * 2. A . matching any character.
112 * 3. A ^ matching the begin of a line.
113 * 4. A $ (as last character of the pattern) mathing the end of a line.
114 * 5. A \<character> matching <character>.
115 * 6. A number of characters enclosed in [] pairs matching any of these
116 * characters. A list of characters can be indicated by a '-'. So
117 * [a-z] matches any letter of the alphabet. If the first character
118 * after the '[' is a '^' then the set is negated (matching none of
119 * the characters).
120 * A ']', '^' or '-' can be escaped by putting a '\' in front of it.
121 * Of course this means that a \ must be represented by \\.
122 * 7. If one of the expressions as described in 1-6 is followed by a
123 * '*' than that expressions matches a sequence of 0 or more of
124 * that expression.
126 * Parsing of regular expression is done in two phases. In the first phase
127 * the expression is compiled into a more comprehensible form. In the second
128 * phase the actual matching is done. For more details see 3.6.
131 * 3. Implementation of mined.
133 * 3.1 Data structures.
135 * The main data structures are as follows. The whole file is kept in a
136 * double linked list of lines. The LINE structure looks like this:
138 * typedef struct Line {
139 * struct Line *next;
140 * struct Line *prev;
141 * char *text;
142 * unsigned char shift_count;
143 * } LINE;
145 * Each line entry contains a pointer to the next line, a pointer to the
146 * previous line and a pointer to the text of that line. A special field
147 * shift_count contains the number of shifts (in units of SHIFT_SIZE)
148 * that is performed on that line. The total size of the structure is 7
149 * bytes so a file consisting of 1000 empty lines will waste a lot of
150 * memory. A LINE structure is allocated for each line in the file. After
151 * that the number of characters of the line is counted and sufficient
152 * space is allocated to store them (including a linefeed and a '\0').
153 * The resulting address is assigned to the text field in the structure.
155 * A special structure is allocated and its address is assigned to the
156 * variable header as well as the variable tail. The text field of this
157 * structure is set to NIL_PTR. The tail->prev of this structure points
158 * to the last LINE of the file and the header->next to the first LINE.
159 * Other LINE *variables are top_line and bot_line which point to the
160 * first line resp. the last line on the screen.
161 * Two other variables are important as well. First the LINE *cur_line,
162 * which points to the LINE currently in use and the char *cur_text,
163 * which points to the character at which the cursor stands.
164 * Whenever an ASCII character is typed, a new line is build with this
165 * character inserted. Then the old data space (pointed to by
166 * cur_line->text) is freed, data space for the new line is allocated and
167 * assigned to cur_line->text.
169 * Two global variables called x and y represent the x and y coordinates
170 * from the cursor. The global variable nlines contains the number of
171 * lines in the file. Last_y indicates the maximum y coordinate of the
172 * screen (which is usually SCREENMAX).
174 * A few strings must be initialized by hand before compiling mined.
175 * These string are enter_string, which is printed upon entering mined,
176 * rev_video (turn on reverse video), normal_video, rev_scroll (perform a
177 * reverse scroll) and pos_string. The last string should hold the
178 * absolute position string to be printed for cursor motion. The #define
179 * X_PLUS and Y_PLUS should contain the characters to be added to the
180 * coordinates x and y (both starting at 0) to finish cursor positioning.
182 * 3.2 Starting up.
184 * Mined can be called with or without argument and the function
185 * load_file () is called with these arguments. load_file () checks
186 * if the file exists if it can be read and if it is writable and
187 * sets the writable flag accordingly. If the file can be read,
188 * load_file () reads a line from the file and stores this line into
189 * a structure by calling install_line () and line_insert () which
190 * installs the line into the double linked list, until the end of the
191 * file is reached.
192 * Lines are read by the function get_line (), which buffers the
193 * reading in blocks of SCREEN_SIZE. Load_file () also initializes the
194 * LINE *variables described above.
196 * 3.3 Moving around.
198 * Several commands are implemented for moving through the file.
199 * Moving up (UP), down (DN) left (LF) and right (RT) are done by the
200 * arrow keys. Moving one line below the screen scrolls the screen one
201 * line up. Moving one line above the screen scrolls the screen one line
202 * down. The functions forward_scroll () and reverse_scroll () take care
203 * of that.
204 * Several other move functions exist: move to begin of line (BL), end of
205 * line (EL) top of screen (HIGH), bottom of screen (LOW), top of file
206 * (HO), end of file (EF), scroll one page down (PD), scroll one page up
207 * (PU), scroll one line down (SD), scroll one line up (SU) and move to a
208 * certain line number (GOTO).
209 * Two functions called MN () and MP () each move one word further or
210 * backwards. A word is a number of non-blanks seperated by a space, a
211 * tab or a linefeed.
213 * 3.4 Modifying text.
215 * The modifying commands can be separated into two modes. The first
216 * being inserting text, and the other deleting text. Two functions are
217 * created for these purposes: insert () and delete (). Both are capable
218 * of deleting or inserting large amounts of text as well as one
219 * character. Insert () must be given the line and location at which
220 * the text must be inserted. Is doesn't make any difference whether this
221 * text contains linefeeds or not. Delete () must be given a pointer to
222 * the start line, a pointer from where deleting should start on that
223 * line and the same information about the end position. The last
224 * character of the file will never be deleted. Delete () will make the
225 * necessary changes to the screen after deleting, but insert () won't.
226 * The functions for modifying text are: insert one char (S), insert a
227 * file (file_insert (fd)), insert a linefeed and put cursor back to
228 * end of line (LIB), delete character under the cursor (DCC), delete
229 * before cursor (even linefeed) (DPC), delete next word (DNW), delete
230 * previous word (DPC) and delete to end of line (if the cursor is at
231 * a linefeed delete line) (DLN).
233 * 3.5 Yanking.
235 * A few utilities are provided for yanking pieces of text. The function
236 * MA () marks the current position in the file. This is done by setting
237 * LINE *mark_line and char *mark_text to the current position. Yanking
238 * of text can be done in two modes. The first mode just copies the text
239 * from the mark to the current position (or visa versa) into a buffer
240 * (YA) and the second also deletes the text (DT). Both functions call
241 * the function set_up () with the delete flag on or off. Set_up ()
242 * checks if the marked position is still a valid one (by using
243 * check_mark () and legal ()), and then calls the function yank () with
244 * a start and end position in the file. This function copies the text
245 * into a scratch_file as indicated by the variable yank_file. This
246 * scratch_file is made uniq by the function scratch_file (). At the end
247 * of copying yank will (if necessary) delete the text. A global flag
248 * called yank_status keeps track of the buffer (or file) status. It is
249 * initialized on NOT_VALID and set to EMPTY (by set_up ()) or VALID (by
250 * yank ()). Several things can be done with the buffer. It can be
251 * inserted somewhere else in the file (PT) or it can be copied into
252 * another file (WB), which will be prompted for.
254 * 3.6 Search and replace routines.
256 * Searching for strings and replacing strings are done by regular
257 * expressions. For any expression the function compile () is called
258 * with as argument the expression to compile. Compile () returns a
259 * pointer to a structure which looks like this:
261 * typedef struct regex {
262 * union {
263 * char *err_mess;
264 * int *expression;
265 * } result;
266 * char status;
267 * char *start_ptr;
268 * char *end_ptr;
269 * } REGEX;
271 * If something went wrong during compiling (e.g. an illegal expression
272 * was given), the function reg_error () is called, which sets the status
273 * field to REG_ERROR and the err_mess field to the error message. If the
274 * match must be anchored at the beginning of the line (end of line), the
275 * status field is set to BEGIN_LINE (END_LINE). If none of these special
276 * cases are true, the field is set to 0 and the function finished () is
277 * called. Finished () allocates space to hold the compiled expression
278 * and copies this expression into the expression field of the union
279 * (bcopy ()). Matching is done by the routines match() and line_check().
280 * Match () takes as argument the REGEX *program, a pointer to the
281 * startposition on the current line, and a flag indicating FORWARD or
282 * REVERSE search. Match () checks out the whole file until a match is
283 * found. If match is found it returns a pointer to the line in which the
284 * match was found else it returns a NIL_LINE. Line_check () takes the
285 * same arguments, but return either MATCH or NO_MATCH.
286 * During checking, the start_ptr and end_ptr fields of the REGEX
287 * structure are assigned to the start and end of the match.
288 * Both functions try to find a match by walking through the line
289 * character by character. For each possibility, the function
290 * check_string () is called with as arguments the REGEX *program and the
291 * string to search in. It starts walking through the expression until
292 * the end of the expression or the end of the string is reached.
293 * Whenever a * is encountered, this position of the string is marked,
294 * the maximum number of matches are performed and the function star ()
295 * is called in order to try to find the longest match possible. Star ()
296 * takes as arguments the REGEX program, the current position of the
297 * string, the marked position and the current position of the expression
298 * Star () walks from the current position of the string back to the
299 * marked position, and calls string_check () in order to find a match.
300 * It returns MATCH or NO_MATCH, just as string_check () does.
301 * Searching is now easy. Both search routines (forward (SF) and
302 * backwards search (SR)) call search () with an apropiate message and a
303 * flag indicating FORWARD or REVERSE search. Search () will get an
304 * expression from the user by calling get_expression(). Get_expression()
305 * returns a pointer to a REGEX structure or NIL_REG upon errors and
306 * prompts for the expression. If no expression if given, the previous is
307 * used instead. After that search will call match (), and if a match is
308 * found, we can move to that place in the file by the functions find_x()
309 * and find_y () which will find display the match on the screen.
310 * Replacing can be done in two ways. A global replace (GR) or a line
311 * replace (LR). Both functions call change () with a message an a flag
312 * indicating global or line replacement. Change () will prompt for the
313 * expression and for the replacement. Every & in the replacement pattern
314 * means substitute the match instead. An & can be escaped by a \. When
315 * a match is found, the function substitute () will perform the
316 * substitution.
318 * 3.6 Miscellaneous commands.
320 * A few commands haven't be discussed yet. These are redraw the screen
321 * (RD) fork a shell (SH), print file status (FS), write file to disc
322 * (WT), insert a file at current position (IF), leave editor (XT) and
323 * visit another file (VI). The last two functions will check if the file
324 * has been modified. If it has, they will ask if you want to save the
325 * file by calling ask_save ().
326 * The function ESC () will repeat a command n times. It will prompt for
327 * the number. Aborting the loop can be done by sending the ^\ signal.
329 * 3.7 Utility functions.
331 * Several functions exists for internal use. First allocation routines:
332 * alloc (bytes) and newline () will return a pointer to free data space
333 * if the given size. If there is no more memory available, the function
334 * panic () is called.
335 * Signal handling: The only signal that can be send to mined is the
336 * SIGQUIT signal. This signal, functions as a general abort command.
337 * Mined will abort if the signal is given during the main loop. The
338 * function abort_mined () takes care of that.
339 * Panic () is a function with as argument a error message. It will print
340 * the message and the error number set by the kernel (errno) and will
341 * ask if the file must be saved or not. It resets the terminal
342 * (raw_mode ()) and exits.
343 * String handling routines like copy_string(to, from), length_of(string)
344 * and build_string (buffer, format, arg1, arg2, ...). The latter takes
345 * a description of the string out out the format field and puts the
346 * result in the buffer. (It works like printf (3), but then into a
347 * string). The functions status_line (string1, string2), error (string1,
348 * string2), clear_status () and bottom_line () all print information on
349 * the status line.
350 * Get_string (message, buffer) reads a string and getchar () reads one
351 * character from the terminal.
352 * Num_out ((long) number) prints the number into a 11 digit field
353 * without leading zero's. It returns a pointer to the resulting string.
354 * File_status () prints all file information on the status line.
355 * Set_cursor (x, y) prints the string to put the cursor at coordinates
356 * x and y.
357 * Output is done by four functions: writeline(fd,string), clear_buffer()
358 * write_char (fd, c) and flush_buffer (fd). Three defines are provided
359 * to write on filedescriptor STD_OUT (terminal) which is used normally:
360 * string_print (string), putchar (c) and flush (). All these functions
361 * use the global I/O buffer screen and the global index for this array
362 * called out_count. In this way I/O can be buffered, so that reads or
363 * writes can be done in blocks of SCREEN_SIZE size.
364 * The following functions all handle internal line maintenance. The
365 * function proceed (start_line, count) returns the count'th line after
366 * start_line. If count is negative, the count'th line before the
367 * start_line is returned. If header or tail is encountered then that
368 * will be returned. Display (x, y, start_line, count) displays count
369 * lines starting at coordinates [x, y] and beginning at start_line. If
370 * the header or tail is encountered, empty lines are displayed instead.
371 * The function reset (head_line, ny) reset top_line, last_y, bot_line,
372 * cur_line and y-coordinate. This is not a neat way to do the
373 * maintenance, but it sure saves a lot of code. It is usually used in
374 * combination with display ().
375 * Put_line(line, offset, clear_line), prints a line (skipping characters
376 * according to the line->shift_size field) until XBREAK - offset
377 * characters are printed or a '\n' is encountered. If clear_line is
378 * TRUE, spaces are printed until XBREAK - offset characters.
379 * Line_print (line) is a #define from put_line (line, 0, TRUE).
380 * Moving is done by the functions move_to (x, y), move_addres (address)
381 * and move (x, adress, y). This function is the most important one in
382 * mined. New_y must be between 0 and last_y, new_x can be about
383 * anything, address must be a pointer to an character on the current
384 * line (or y). Move_to () first adjust the y coordinate together with
385 * cur_line. If an address is given, it finds the corresponding
386 * x-coordinate. If an new x-coordinate was given, it will try to locate
387 * the corresponding character. After that it sets the shift_count field
388 * of cur_line to an apropiate number according to new_x. The only thing
389 * left to do now is to assign the new values to cur_line, cur_text, x
390 * and y.
392 * 4. Summary of commands.
394 * CURSOR MOTION
395 * up-arrow Move cursor 1 line up. At top of screen, reverse scroll
396 * down-arrow Move cursor 1 line down. At bottom, scroll forward.
397 * left-arrow Move cursor 1 character left or to end of previous line
398 * right-arrow Move cursor 1 character right or to start of next line
399 * CTRL-A Move cursor to start of current line
400 * CTRL-Z Move cursor to end of current line
401 * CTRL-^ Move cursor to top of screen
402 * CTRL-_ Move cursor to bottom of screen
403 * CTRL-F Forward to start of next word (even to next line)
404 * CTRL-B Backward to first character of previous word
406 * SCREEN MOTION
407 * Home key Move cursor to first character of file
408 * End key Move cursor to last character of file
409 * PgUp Scroll backward 1 page. Bottom line becomes top line
410 * PgD Scroll backward 1 page. Top line becomes bottom line
411 * CTRL-D Scroll screen down one line (reverse scroll)
412 * CTRL-U Scroll screen up one line (forward scroll)
414 * MODIFYING TEXT
415 * ASCII char Self insert character at cursor
416 * tab Insert tab at cursor
417 * backspace Delete the previous char (left of cursor), even line feed
418 * Del Delete the character under the cursor
419 * CTRL-N Delete next word
420 * CTRL-P Delete previous word
421 * CTRL-O Insert line feed at cursor and back up 1 character
422 * CTRL-T Delete tail of line (cursor to end); if empty, delete line
423 * CTRL-@ Set the mark (remember the current location)
424 * CTRL-K Delete text from the mark to current position save on file
425 * CTRL-C Save the text from the mark to the current position
426 * CTRL-Y Insert the contents of the save file at current position
427 * CTRL-Q Insert the contents of the save file into a new file
428 * CTRL-G Insert a file at the current position
430 * MISCELLANEOUS
431 * CTRL-L Erase and redraw the screen
432 * CTRL-V Visit file (read a new file); complain if old one changed
433 * CTRL-W Write the current file back to the disk
434 * numeric + Search forward (prompt for regular expression)
435 * numeric - Search backward (prompt for regular expression)
436 * numeric 5 Print the current status of the file
437 * CTRL-R (Global) Replace str1 by str2 (prompts for each string)
438 * [UNASS] (Line) Replace string1 by string2
439 * CTRL-S Fork off a shell and wait for it to finish
440 * CTRL-X EXIT (prompt if file modified)
441 * CTRL-] Go to a line. Prompts for linenumber
442 * CTRL-\ Abort whatever editor was doing and start again
443 * escape key Repeat a command count times; (prompts for count)
446 /* ======================================================================== *
447 * Utilities *
448 * ======================================================================== */
450 #include "mined.h"
451 #include <signal.h>
452 #include <termios.h>
453 #include <limits.h>
454 #include <errno.h>
455 #include <sys/wait.h>
456 #include <sys/ioctl.h>
457 #include <stdarg.h>
458 #include <stdlib.h>
460 int ymax = YMAX;
461 int screenmax = SCREENMAX;
465 * Print file status.
467 void
468 FS(int u __unused)
470 fstatus(file_name[0] ? "" : "[buffer]", -1L);
474 * Visit (edit) another file. If the file has been modified, ask the user if
475 * he wants to save it.
477 void
478 VI(int u __unused)
480 char new_file[LINE_LEN]; /* Buffer to hold new file name */
482 if (modified == TRUE && ask_save() == ERRORS)
483 return;
485 /* Get new file name */
486 if (get_file("Visit file:", new_file) == ERRORS)
487 return;
489 /* Free old linked list, initialize global variables and load new file */
490 initialize();
491 #ifdef UNIX
492 tputs(CL, 0, _putchar);
493 #else
494 string_print (enter_string);
495 #endif /* UNIX */
496 load_file(new_file[0] == '\0' ? NIL_PTR : new_file);
500 * Write file in core to disc.
503 WT(void)
505 LINE *line;
506 long count = 0L; /* Nr of chars written */
507 char file[LINE_LEN]; /* Buffer for new file name */
508 int fd; /* Filedescriptor of file */
510 if (modified == FALSE) {
511 error ("Write not necessary.", NIL_PTR);
512 return FINE;
515 /* Check if file_name is valid and if file can be written */
516 if (file_name[0] == '\0' || writable == FALSE) {
517 if (get_file("Enter file name:", file) != FINE)
518 return ERRORS;
519 copy_string(file_name, file); /* Save file name */
521 if ((fd = creat(file_name, 0644)) < 0) { /* Empty file */
522 error("Cannot create ", file_name);
523 writable = FALSE;
524 return ERRORS;
526 else
527 writable = TRUE;
529 clear_buffer();
531 status_line("Writing ", file_name);
532 for (line = header->next; line != tail; line = line->next) {
533 if (line->shift_count & DUMMY) {
534 if (line->next == tail && line->text[0] == '\n')
535 continue;
537 if (writeline(fd, line->text) == ERRORS) {
538 count = -1L;
539 break;
541 count += (long) length_of(line->text);
544 if (count > 0L && flush_buffer(fd) == ERRORS)
545 count = -1L;
547 close(fd);
549 if (count == -1L)
550 return ERRORS;
552 modified = FALSE;
553 rpipe = FALSE; /* File name is now assigned */
555 /* Display how many chars (and lines) were written */
556 fstatus("Wrote", count);
557 return FINE;
560 /* Call WT and discard value returned. */
561 void
562 XWT(int u __unused)
564 WT();
570 * Call an interactive shell.
572 void
573 SH(int u __unused)
575 int w;
576 int pid, status;
577 const char *shell;
579 if ((shell = getenv("SHELL")) == NIL_PTR) shell = "/bin/sh";
581 switch (pid = fork()) {
582 case -1: /* Error */
583 error("Cannot fork.", NIL_PTR);
584 return;
585 case 0: /* This is the child */
586 set_cursor(0, ymax);
587 putchar('\n');
588 flush();
589 raw_mode(OFF);
590 if (rpipe) { /* Fix stdin */
591 close (0);
592 if (open("/dev/tty", 0) < 0)
593 exit (126);
595 execl(shell, shell, (char *) 0);
596 exit(127); /* Exit with 127 */
597 default : /* This is the parent */
598 signal(SIGINT, SIG_IGN);
599 signal(SIGQUIT, SIG_IGN);
600 do {
601 w = wait(&status);
602 } while (w != -1 && w != pid);
605 raw_mode(ON);
606 RD(0);
608 if ((status >> 8) == 127) /* Child died with 127 */
609 error("Cannot exec ", shell);
610 else if ((status >> 8) == 126)
611 error("Cannot open /dev/tty as fd #0", NIL_PTR);
615 * Proceed returns the count'th line after `line'. When count is negative
616 * it returns the count'th line before `line'. When the next (previous)
617 * line is the tail (header) indicating EOF (tof) it stops.
619 LINE *
620 proceed(LINE *line, int count)
622 if (count < 0)
623 while (count++ < 0 && line != header)
624 line = line->prev;
625 else
626 while (count-- > 0 && line != tail)
627 line = line->next;
628 return line;
632 * Show concatenation of s1 and s2 on the status line (bottom of screen)
633 * If revfl is TRUE, turn on reverse video on both strings. Set stat_visible
634 * only if bottom_line is visible.
637 bottom_line(FLAG revfl, const char *s1, const char *s2, char *inbuf,
638 FLAG statfl)
640 int ret = FINE;
641 char buf[LINE_LEN];
642 char *p = buf;
644 *p++ = ' ';
645 if (s1 != NIL_PTR)
646 while ((*p = *s1++) != 0)
647 p++;
648 if (s2 != NIL_PTR)
649 while ((*p = *s2++) != 0)
650 p++;
651 *p++ = ' ';
652 *p++ = 0;
654 if (revfl == ON && stat_visible == TRUE)
655 clear_status ();
656 set_cursor(0, ymax);
657 if (revfl == ON) { /* Print rev. start sequence */
658 #ifdef UNIX
659 tputs(SO, 0, _putchar);
660 #else
661 string_print(rev_video);
662 #endif /* UNIX */
663 stat_visible = TRUE;
665 else /* Used as clear_status() */
666 stat_visible = FALSE;
668 string_print(buf);
670 if (inbuf != NIL_PTR)
671 ret = input(inbuf, statfl);
673 /* Print normal video */
674 #ifdef UNIX
675 tputs(SE, 0, _putchar);
676 tputs(CE, 0, _putchar);
677 #else
678 string_print(normal_video);
679 string_print(blank_line); /* Clear the rest of the line */
680 #endif /* UNIX */
681 if (inbuf != NIL_PTR)
682 set_cursor(0, ymax);
683 else
684 set_cursor(x, y); /* Set cursor back to old position */
685 flush(); /* Perform the actual write */
686 if (ret != FINE)
687 clear_status();
688 return ret;
692 * Count_chars() count the number of chars that the line would occupy on the
693 * screen. Counting starts at the real x-coordinate of the line.
696 count_chars(LINE *line)
698 int cnt = get_shift(line->shift_count) * -SHIFT_SIZE;
699 char *textp = line->text;
701 /* Find begin of line on screen */
702 while (cnt < 0) {
703 if (is_tab(*textp++))
704 cnt = tab(cnt);
705 else
706 cnt++;
709 /* Count number of chars left */
710 cnt = 0;
711 while (*textp != '\n') {
712 if (is_tab(*textp++))
713 cnt = tab(cnt);
714 else
715 cnt++;
717 return cnt;
721 * Move to coordinates nx, ny at screen. The caller must check that scrolling
722 * is not needed.
723 * If new_x is lower than 0 or higher than XBREAK, move_to() will check if
724 * the line can be shifted. If it can it sets(or resets) the shift_count field
725 * of the current line accordingly.
726 * Move also sets cur_text to the right char.
727 * If we're moving to the same x coordinate, try to move the the x-coordinate
728 * used on the other previous call.
730 void
731 move(int new_x, char *new_address, int new_y)
733 LINE *line = cur_line; /* For building new cur_line */
734 int shift = 0; /* How many shifts to make */
735 static int rel_x = 0; /* Remember relative x position */
736 int tx = x;
738 /* Check for illegal values */
739 if (new_y < 0 || new_y > last_y)
740 return;
742 /* Adjust y-coordinate and cur_line */
743 if (new_y < y)
744 while (y != new_y) {
745 if(line->shift_count>0) {
746 line->shift_count=0;
747 move_to(0,y);
748 string_print(blank_line);
749 line_print(line);
751 y--;
752 line = line->prev;
754 else
755 while (y != new_y) {
756 if(line->shift_count>0) {
757 line->shift_count=0;
758 move_to(0,y);
759 string_print(blank_line);
760 line_print(line);
762 y++;
763 line = line->next;
766 /* Set or unset relative x-coordinate */
767 if (new_address == NIL_PTR) {
768 new_address = find_address(line, (new_x == x) ? rel_x : new_x , &tx);
769 if (new_x != x)
770 rel_x = tx;
771 new_x = tx;
773 else {
774 rel_x = new_x = find_x(line, new_address);
777 /* Adjust shift_count if new_x lower than 0 or higher than XBREAK */
778 if (new_x < 0 || new_x >= XBREAK) {
779 if (new_x > XBREAK || (new_x == XBREAK && *new_address != '\n'))
780 shift = (new_x - XBREAK) / SHIFT_SIZE + 1;
781 else {
782 shift = new_x / SHIFT_SIZE;
783 if (new_x % SHIFT_SIZE)
784 shift--;
787 if (shift != 0) {
788 line->shift_count += shift;
789 new_x = find_x(line, new_address);
790 set_cursor(0, y);
791 line_print(line);
792 rel_x = new_x;
796 /* Assign and position cursor */
797 x = new_x;
798 cur_text = new_address;
799 cur_line = line;
800 set_cursor(x, y);
804 * Find_x() returns the x coordinate belonging to address.
805 * (Tabs are expanded).
808 find_x(LINE *line, char *address)
810 char *textp = line->text;
811 int nx = get_shift(line->shift_count) * -SHIFT_SIZE;
813 while (textp != address && *textp != '\0') {
814 if (is_tab(*textp++)) /* Expand tabs */
815 nx = tab(nx);
816 else
817 nx++;
819 return nx;
823 * Find_address() returns the pointer in the line with offset x_coord.
824 * (Tabs are expanded).
826 char *
827 find_address(LINE *line, int x_coord, int *old_x)
829 char *textp = line->text;
830 int tx = get_shift(line->shift_count) * -SHIFT_SIZE;
832 while (tx < x_coord && *textp != '\n') {
833 if (is_tab(*textp)) {
834 if (*old_x - x_coord == 1 && tab(tx) > x_coord)
835 break; /* Moving left over tab */
836 else
837 tx = tab(tx);
839 else
840 tx++;
841 textp++;
844 *old_x = tx;
845 return textp;
849 * Length_of() returns the number of characters int the string `string'
850 * excluding the '\0'.
853 length_of(char *string)
855 int count = 0;
857 if (string != NIL_PTR) {
858 while (*string++ != '\0')
859 count++;
861 return count;
865 * Copy_string() copies the string `from' into the string `to'. `To' must be
866 * long enough to hold `from'.
868 void
869 copy_string(char *to, const char *from)
871 while ((*to++ = *from++) != 0)
876 * Reset assigns bot_line, top_line and cur_line according to `head_line'
877 * which must be the first line of the screen, and an y-coordinate,
878 * which will be the current y-coordinate (if it isn't larger than last_y)
880 void
881 reset(LINE *head_line, int screen_y)
883 LINE *line;
885 top_line = line = head_line;
887 /* Search for bot_line (might be last line in file) */
888 for (last_y = 0; last_y < nlines - 1 && last_y < screenmax
889 && line->next != tail; last_y++)
890 line = line->next;
892 bot_line = line;
893 y = (screen_y > last_y) ? last_y : screen_y;
895 /* Set cur_line according to the new y value */
896 cur_line = proceed(top_line, y);
900 * Set cursor at coordinates x, y.
902 void
903 set_cursor(int nx, int ny)
905 #ifdef UNIX
906 tputs(tgoto(CM, nx, ny), 0, _putchar);
907 #else
908 char text_buf[10];
910 build_string(text_buf, pos_string, ny+1, nx+1);
911 string_print(text_buf);
912 #endif /* UNIX */
916 * Routine to open terminal when mined is used in a pipeline.
918 void
919 open_device(void)
921 if ((input_fd = open("/dev/tty", 0)) < 0)
922 panic("Cannot open /dev/tty for read");
926 * Getchar() reads one character from the terminal. The character must be
927 * masked with 0377 to avoid sign extension.
930 getchar(void)
932 #ifdef UNIX
933 return (_getchar() & 0377);
934 #else
935 char c;
937 if (read(input_fd, &c, 1) != 1 && quit == FALSE)
938 panic("Can't read one char from fd #0");
940 return c & 0377;
941 #endif /* UNIX */
945 * Display() shows count lines on the terminal starting at the given
946 * coordinates. When the tail of the list is encountered it will fill the
947 * rest of the screen with blank_line's.
948 * When count is negative, a backwards print from `line' will be done.
950 void
951 display(int x_coord, int y_coord, LINE *line, int count)
953 set_cursor(x_coord, y_coord);
955 /* Find new startline if count is negative */
956 if (count < 0) {
957 line = proceed(line, count);
958 count = -count;
961 /* Print the lines */
962 while (line != tail && count-- >= 0) {
963 line->shift_count=0;
964 line_print(line);
965 line = line->next;
968 /* Print the blank lines (if any) */
969 if (loading == FALSE) {
970 while (count-- >= 0) {
971 #ifdef UNIX
972 tputs(CE, 0, _putchar);
973 #else
974 string_print(blank_line);
975 #endif /* UNIX */
976 putchar('\n');
982 * Write_char does a buffered output.
985 write_char(int fd, char c)
987 screen [out_count++] = c;
988 if (out_count == SCREEN_SIZE) /* Flush on SCREEN_SIZE chars */
989 return flush_buffer(fd);
990 return FINE;
994 * Writeline writes the given string on the given filedescriptor.
997 writeline(int fd, const char *text)
999 while(*text)
1000 if (write_char(fd, *text++) == ERRORS)
1001 return ERRORS;
1002 return FINE;
1006 * Put_line print the given line on the standard output. If offset is not zero
1007 * printing will start at that x-coordinate. If the FLAG clear_line is TRUE,
1008 * then (screen) line will be cleared when the end of the line has been
1009 * reached.
1011 * parameter
1012 * line: Line to print
1013 * offset: Offset to start
1014 * clear_line: Clear to eoln if TRUE
1016 void
1017 put_line(LINE *line, int offset, FLAG clear_line)
1019 char *textp = line->text;
1020 int count = get_shift(line->shift_count) * -SHIFT_SIZE;
1021 int tab_count; /* Used in tab expansion */
1023 /* Skip all chars as indicated by the offset and the shift_count field */
1024 while (count < offset) {
1025 if (is_tab(*textp++))
1026 count = tab(count);
1027 else
1028 count++;
1031 while (*textp != '\n' && count < XBREAK) {
1032 if (is_tab(*textp)) { /* Expand tabs to spaces */
1033 tab_count = tab(count);
1034 while (count < XBREAK && count < tab_count) {
1035 count++;
1036 putchar(' ');
1038 textp++;
1040 else {
1041 if (*textp >= '\01' && *textp <= '\037') {
1042 #ifdef UNIX
1043 tputs(SO, 0, _putchar);
1044 #else
1045 string_print (rev_video);
1046 #endif /* UNIX */
1047 putchar(*textp++ + '\100');
1048 #ifdef UNIX
1049 tputs(SE, 0, _putchar);
1050 #else
1051 string_print (normal_video);
1052 #endif /* UNIX */
1054 else
1055 putchar(*textp++);
1056 count++;
1060 /* If line is longer than XBREAK chars, print the shift_mark */
1061 if (count == XBREAK && *textp != '\n')
1062 putchar(textp[1]=='\n' ? *textp : SHIFT_MARK);
1064 /* Clear the rest of the line is clear_line is TRUE */
1065 if (clear_line == TRUE) {
1066 #ifdef UNIX
1067 tputs(CE, 0, _putchar);
1068 #else
1069 string_print(blank_line);
1070 #endif /* UNIX */
1071 putchar('\n');
1076 * Flush the I/O buffer on filedescriptor fd.
1079 flush_buffer(int fd)
1081 if (out_count <= 0) /* There is nothing to flush */
1082 return FINE;
1083 #ifdef UNIX
1084 if (fd == STD_OUT) {
1085 printf("%.*s", out_count, screen);
1086 _flush();
1088 else
1089 #endif /* UNIX */
1090 if (write(fd, screen, out_count) != out_count) {
1091 bad_write(fd);
1092 return ERRORS;
1094 clear_buffer(); /* Empty buffer */
1095 return FINE;
1099 * Bad_write() is called when a write failed. Notify the user.
1101 void
1102 bad_write(int fd)
1104 if (fd == STD_OUT) /* Cannot write to terminal? */
1105 exit(1);
1107 clear_buffer();
1108 build_string(text_buffer, "Command aborted: %s (File incomplete)",
1109 (errno == ENOSPC || errno == -ENOSPC) ?
1110 "No space on device" : "Write error");
1111 error(text_buffer, NIL_PTR);
1115 * Catch the SIGQUIT signal (^\) send to mined. It turns on the quitflag.
1117 void
1118 catch(int sig __unused)
1120 /* Reset the signal */
1121 signal(SIGQUIT, catch);
1122 quit = TRUE;
1126 * Abort_mined() will leave mined. Confirmation is asked first.
1128 void
1129 abort_mined(void)
1131 quit = FALSE;
1133 /* Ask for confirmation */
1134 status_line("Really abort? ", NIL_PTR);
1135 if (getchar() != 'y') {
1136 clear_status();
1137 return;
1140 /* Reset terminal */
1141 raw_mode(OFF);
1142 set_cursor(0, ymax);
1143 putchar('\n');
1144 flush();
1145 #ifdef UNIX
1146 abort();
1147 #else
1148 exit(1);
1149 #endif /* UNIX */
1152 #define UNDEF _POSIX_VDISABLE
1155 * Set and reset tty into CBREAK or old mode according to argument `state'. It
1156 * also sets all signal characters (except for ^\) to UNDEF. ^\ is caught.
1158 void
1159 raw_mode(FLAG state)
1161 static struct termios old_tty;
1162 static struct termios new_tty;
1164 if (state == OFF) {
1165 tcsetattr(input_fd, TCSANOW, &old_tty);
1166 return;
1169 /* Save old tty settings */
1170 tcgetattr(input_fd, &old_tty);
1172 /* Set tty to CBREAK mode */
1173 tcgetattr(input_fd, &new_tty);
1174 new_tty.c_lflag &= ~(ICANON|ECHO|ECHONL);
1175 new_tty.c_iflag &= ~(IXON|IXOFF|ISIG);
1177 /* Unset remaining signal chars, leave only SIGQUIT set to ^\ */
1178 new_tty.c_cc[VINTR] = new_tty.c_cc[VSUSP] = UNDEF;
1179 new_tty.c_cc[VQUIT] = '\\' & 037;
1180 signal(SIGQUIT, catch); /* Which is caught */
1182 tcsetattr(input_fd, TCSANOW, &new_tty);
1186 * Panic() is called with an error number and a message. It is called when
1187 * something unrecoverable has happened.
1188 * It writes the message to the terminal, resets the tty and exits.
1189 * Ask the user if he wants to save his file.
1191 void
1192 panic(const char *message)
1194 #ifdef UNIX
1195 tputs(CL, 0, _putchar);
1196 build_string(text_buffer, "%s\nError code %d\n", message, errno);
1197 #else
1198 build_string(text_buffer, "%s%s\nError code %d\n", enter_string, message, errno);
1199 #endif /* UNIX */
1200 write(STD_OUT, text_buffer, length_of(text_buffer));
1202 if (loading == FALSE)
1203 XT(0); /* Check if file can be saved */
1204 else
1205 unlink(yank_file);
1206 raw_mode(OFF);
1208 #ifdef UNIX
1209 abort();
1210 #else
1211 exit(1);
1212 #endif /* UNIX */
1215 char *
1216 alloc(int bytes)
1218 char *p;
1220 p = malloc((unsigned) bytes);
1221 if (p == NIL_PTR) {
1222 if (loading == TRUE)
1223 panic("File too big.");
1224 panic("Out of memory.");
1226 return(p);
1229 void
1230 free_space(char *p)
1232 free(p);
1235 /* ======================================================================== *
1236 * Main loops *
1237 * ======================================================================== */
1239 /* The mapping between input codes and functions. */
1241 void (*key_map[256])(int) = { /* map ASCII characters to functions */
1242 /* 000-017 */ MA, BL, MP, YA, SD, EL, MN, IF, DPC, S, S, DT, RD, S, DNW,LIB,
1243 /* 020-037 */ DPW, WB, GR, SH, DLN, SU, VI, XWT, XT, PT, ST, ESC, I, GOTO,
1244 HIGH, LOW,
1245 /* 040-057 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1246 /* 060-077 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1247 /* 100-117 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1248 /* 120-137 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1249 /* 140-157 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1250 /* 160-177 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, DCC,
1251 /* 200-217 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1252 /* 220-237 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1253 /* 240-257 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1254 /* 260-277 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1255 /* 300-317 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1256 /* 320-337 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1257 /* 340-357 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1258 /* 360-377 */ S, S, S, S, S, S, S, S, S, S, S, S, S, S, S, S,
1261 int nlines; /* Number of lines in file */
1262 LINE *header; /* Head of line list */
1263 LINE *tail; /* Last line in line list */
1264 LINE *cur_line; /* Current line in use */
1265 LINE *top_line; /* First line of screen */
1266 LINE *bot_line; /* Last line of screen */
1267 char *cur_text; /* Current char on current line in use */
1268 int last_y; /* Last y of screen. Usually SCREENMAX */
1269 char screen[SCREEN_SIZE]; /* Output buffer for "writes" and "reads" */
1271 int x, y; /* x, y coordinates on screen */
1272 FLAG modified = FALSE; /* Set when file is modified */
1273 FLAG stat_visible; /* Set if status_line is visible */
1274 FLAG writable; /* Set if file cannot be written */
1275 FLAG loading; /* Set if we are loading a file. */
1276 FLAG quit = FALSE; /* Set when quit character is typed */
1277 FLAG rpipe = FALSE; /* Set if file should be read from stdin */
1278 int input_fd = 0; /* Fd for command input */
1279 int out_count; /* Index in output buffer */
1280 char file_name[LINE_LEN]; /* Name of file in use */
1281 char text_buffer[MAX_CHARS]; /* Buffer for modifying text */
1283 /* Escape sequences. */
1284 #ifdef UNIX
1285 char *CE, *VS, *SO, *SE, *CL, *AL, *CM;
1286 #else
1287 const char *enter_string = "\033[H\033[J"; /* String printed on entering mined */
1288 const char *pos_string = "\033[%d;%dH"; /* Absolute cursor position */
1289 const char *rev_scroll = "\033M"; /* String for reverse scrolling */
1290 const char *rev_video = "\033[7m"; /* String for starting reverse video */
1291 const char *normal_video = "\033[m"; /* String for leaving reverse video */
1292 const char *blank_line = "\033[K"; /* Clear line to end */
1293 #endif /* UNIX */
1296 * Yank variables.
1298 FLAG yank_status = NOT_VALID; /* Status of yank_file */
1299 char yank_file[] = "/tmp/mined.XXXXXX";
1300 long chars_saved; /* Nr of chars in buffer */
1303 * Initialize is called when a another file is edited. It free's the allocated
1304 * space and sets modified back to FALSE and fixes the header/tail pointer.
1306 void
1307 initialize(void)
1309 LINE *line, *next_line;
1311 /* Delete the whole list */
1312 for (line = header->next; line != tail; line = next_line) {
1313 next_line = line->next;
1314 free_space(line->text);
1315 free_space((char*)line);
1318 /* header and tail should point to itself */
1319 line->next = line->prev = line;
1320 x = y = 0;
1321 rpipe = modified = FALSE;
1325 * Basename() finds the absolute name of the file out of a given path_name.
1327 char *
1328 basename(char *path)
1330 char *ptr = path;
1331 char *last = NIL_PTR;
1333 while (*ptr != '\0') {
1334 if (*ptr == '/')
1335 last = ptr;
1336 ptr++;
1338 if (last == NIL_PTR)
1339 return path;
1340 if (*(last + 1) == '\0') { /* E.g. /usr/tmp/pipo/ */
1341 *last = '\0';
1342 return basename(path);/* Try again */
1344 return last + 1;
1348 * Load_file loads the file `file' into core. If file is a NIL_PTR or the file
1349 * couldn't be opened, just some initializations are done, and a line consisting
1350 * of a `\n' is installed.
1352 void
1353 load_file(const char *file)
1355 LINE *line = header;
1356 int len;
1357 long nr_of_chars = 0L;
1358 int fd = -1; /* Filedescriptor for file */
1360 nlines = 0; /* Zero lines to start with */
1362 /* Open file */
1363 writable = TRUE; /* Benefit of the doubt */
1364 if (file == NIL_PTR) {
1365 if (rpipe == FALSE)
1366 status_line("No file.", NIL_PTR);
1367 else {
1368 fd = 0;
1369 file = "standard input";
1371 file_name[0] = '\0';
1373 else {
1374 copy_string(file_name, file); /* Save file name */
1375 if (access(file, 0) < 0) /* Cannot access file. */
1376 status_line("New file ", file);
1377 else if ((fd = open(file, 0)) < 0)
1378 status_line("Cannot open ", file);
1379 else if (access(file, 2) != 0) /* Set write flag */
1380 writable = FALSE;
1383 /* Read file */
1384 loading = TRUE; /* Loading file, so set flag */
1386 if (fd >= 0) {
1387 status_line("Reading ", file);
1388 while ((len = get_line(fd, text_buffer)) != ERRORS) {
1389 line = line_insert(line, text_buffer, len);
1390 nr_of_chars += (long) len;
1392 if (nlines == 0) /* The file was empty! */
1393 line = line_insert(line, "\n", 1);
1394 clear_buffer(); /* Clear output buffer */
1395 cur_line = header->next;
1396 fstatus("Read", nr_of_chars);
1397 close(fd); /* Close file */
1399 else /* Just install a "\n" */
1400 line_insert(line, "\n", 1);
1402 reset(header->next, 0); /* Initialize pointers */
1404 /* Print screen */
1405 display (0, 0, header->next, last_y);
1406 move_to (0, 0);
1407 flush(); /* Flush buffer */
1408 loading = FALSE; /* Stop loading, reset flag */
1413 * Get_line reads one line from filedescriptor fd. If EOF is reached on fd,
1414 * get_line() returns ERRORS, else it returns the length of the string.
1417 get_line(int fd, char *buffer)
1419 static char *last = NIL_PTR;
1420 static char *current = NIL_PTR;
1421 static int read_chars;
1422 char *cur_pos = current;
1423 char *begin = buffer;
1425 do {
1426 if (cur_pos == last) {
1427 if ((read_chars = read(fd, screen, SCREEN_SIZE)) <= 0)
1428 break;
1429 last = &screen[read_chars];
1430 cur_pos = screen;
1432 if (*cur_pos == '\0')
1433 *cur_pos = ' ';
1434 } while ((*buffer++ = *cur_pos++) != '\n');
1436 current = cur_pos;
1437 if (read_chars <= 0) {
1438 if (buffer == begin)
1439 return ERRORS;
1440 if (*(buffer - 1) != '\n') {
1441 if (loading == TRUE) /* Add '\n' to last line of file */
1442 *buffer++ = '\n';
1443 else {
1444 *buffer = '\0';
1445 return NO_LINE;
1450 *buffer = '\0';
1451 return buffer - begin;
1455 * Install_line installs the buffer into a LINE structure It returns a pointer
1456 * to the allocated structure.
1458 LINE *
1459 install_line(const char *buffer, int length)
1461 LINE *new_line = (LINE *) alloc(sizeof(LINE));
1463 new_line->text = alloc(length + 1);
1464 new_line->shift_count = 0;
1465 copy_string(new_line->text, buffer);
1467 return new_line;
1470 int
1471 main(int argc, char *argv[])
1473 /* mined is the Minix editor. */
1475 int index; /* Index in key table */
1476 struct winsize winsize;
1478 #ifdef UNIX
1479 get_term();
1480 tputs(VS, 0, _putchar);
1481 tputs(CL, 0, _putchar);
1482 #else
1483 string_print(enter_string); /* Hello world */
1484 #endif /* UNIX */
1485 if (ioctl(STD_OUT, TIOCGWINSZ, &winsize) == 0 && winsize.ws_row != 0) {
1486 ymax = winsize.ws_row - 1;
1487 screenmax = ymax - 1;
1490 if (!isatty(0)) { /* Reading from pipe */
1491 if (argc != 1) {
1492 write(2, "Cannot find terminal.\n", 22);
1493 exit (1);
1495 rpipe = TRUE;
1496 modified = TRUE; /* Set modified so he can write */
1497 open_device();
1500 raw_mode(ON); /* Set tty to appropriate mode */
1502 header = tail = (LINE *) alloc(sizeof(LINE)); /* Make header of list*/
1503 header->text = NIL_PTR;
1504 header->next = tail->prev = header;
1506 /* Load the file (if any) */
1507 if (argc < 2)
1508 load_file(NIL_PTR);
1509 else {
1510 get_file(NIL_PTR, argv[1]); /* Truncate filename */
1511 load_file(argv[1]);
1514 /* Main loop of the editor. */
1515 for (;;) {
1516 index = getchar();
1517 if (stat_visible == TRUE)
1518 clear_status();
1519 if (quit == TRUE)
1520 abort_mined();
1521 else { /* Call the function for this key */
1522 (*key_map[index])(index);
1523 flush(); /* Flush output (if any) */
1524 if (quit == TRUE)
1525 quit = FALSE;
1528 /* NOTREACHED */
1531 /* ======================================================================== *
1532 * Miscellaneous *
1533 * ======================================================================== */
1536 * Redraw the screen
1538 void
1539 RD(int u __unused)
1541 /* Clear screen */
1542 #ifdef UNIX
1543 tputs(VS, 0, _putchar);
1544 tputs(CL, 0, _putchar);
1545 #else
1546 string_print(enter_string);
1547 #endif /* UNIX */
1549 /* Print first page */
1550 display(0, 0, top_line, last_y);
1552 /* Clear last line */
1553 set_cursor(0, ymax);
1554 #ifdef UNIX
1555 tputs(CE, 0, _putchar);
1556 #else
1557 string_print(blank_line);
1558 #endif /* UNIX */
1559 move_to(x, y);
1563 * Ignore this keystroke.
1565 void
1566 I(int u __unused)
1571 * Leave editor. If the file has changed, ask if the user wants to save it.
1573 void
1574 XT(int u __unused)
1576 if (modified == TRUE && ask_save() == ERRORS)
1577 return;
1579 raw_mode(OFF);
1580 set_cursor(0, ymax);
1581 putchar('\n');
1582 flush();
1583 unlink(yank_file); /* Might not be necessary */
1584 exit(0);
1587 static void
1588 (*escfunc(int c))(int)
1590 #if (CHIP == M68000)
1591 #ifndef COMPAT
1592 int ch;
1593 #endif
1594 #endif
1595 if (c == '[') {
1596 /* Start of ASCII escape sequence. */
1597 c = getchar();
1598 #if (CHIP == M68000)
1599 #ifndef COMPAT
1600 if ((c >= '0') && (c <= '9')) ch = getchar();
1601 /* ch is either a tilde or a second digit */
1602 #endif
1603 #endif
1604 switch (c) {
1605 case 'H': return(HO);
1606 case 'A': return(UP);
1607 case 'B': return(DN);
1608 case 'C': return(RT);
1609 case 'D': return(LF);
1610 #if (CHIP == M68000)
1611 #ifndef COMPAT
1612 /* F1 = ESC [ 1 ~ */
1613 /* F2 = ESC [ 2 ~ */
1614 /* F3 = ESC [ 3 ~ */
1615 /* F4 = ESC [ 4 ~ */
1616 /* F5 = ESC [ 5 ~ */
1617 /* F6 = ESC [ 6 ~ */
1618 /* F7 = ESC [ 17 ~ */
1619 /* F8 = ESC [ 18 ~ */
1620 case '1':
1621 switch (ch) {
1622 case '~': return(SF);
1623 case '7': getchar(); return(MA);
1624 case '8': getchar(); return(CTL);
1626 case '2': return(SR);
1627 case '3': return(PD);
1628 case '4': return(PU);
1629 case '5': return(FS);
1630 case '6': return(EF);
1631 #endif
1632 #endif
1633 #if (CHIP == INTEL)
1634 #ifdef ASSUME_CONS25
1635 case 'G': return(PD);
1636 case 'I': return(PU);
1637 case 'F': return(EF);
1638 /* F1 - help */
1639 case 'M': return(HLP);
1640 /* F2 - file status */
1641 case 'N': return(FS);
1642 /* F3 - search fwd */
1643 case 'O': return(SF);
1644 /* Shift-F3 - search back */
1645 case 'a':return(SR);
1646 /* F4 - global replace */
1647 case 'P': return(GR);
1648 /* Shift-F4 - line replace */
1649 case 'b': return(LR);
1650 #else
1651 case 'G': return(FS);
1652 case 'S': return(SR);
1653 case 'T': return(SF);
1654 case 'U': return(PD);
1655 case 'V': return(PU);
1656 case 'Y': return(EF);
1657 #endif
1658 #endif
1660 return(I);
1662 #ifdef ASSUME_XTERM
1663 if (c == 'O') {
1664 /* Start of ASCII function key escape sequence. */
1665 switch (getchar()) {
1666 case 'P': return(HLP); /* F1 */
1667 case 'Q': return(FS); /* F2 */
1668 case 'R': return(SF); /* F3 */
1669 case 'S': return(GR); /* F4 */
1670 case '2':
1671 switch (getchar()) {
1672 case 'R': return(SR); /* shift-F3 */
1674 break;
1677 #endif
1678 #if (CHIP == M68000)
1679 #ifdef COMPAT
1680 if (c == 'O') {
1681 /* Start of ASCII function key escape sequence. */
1682 switch (getchar()) {
1683 case 'P': return(SF);
1684 case 'Q': return(SR);
1685 case 'R': return(PD);
1686 case 'S': return(PU);
1687 case 'T': return(FS);
1688 case 'U': return(EF);
1689 case 'V': return(MA);
1690 case 'W': return(CTL);
1693 #endif
1694 #endif
1695 return(I);
1699 * ESC() wants a count and a command after that. It repeats the
1700 * command count times. If a ^\ is given during repeating, stop looping and
1701 * return to main loop.
1703 void
1704 ESC(int u __unused)
1706 int count = 0;
1707 void (*func)(int);
1708 int index;
1710 index = getchar();
1711 while (index >= '0' && index <= '9' && quit == FALSE) {
1712 count *= 10;
1713 count += index - '0';
1714 index = getchar();
1716 if (count == 0) {
1717 count = 1;
1718 func = escfunc(index);
1719 } else {
1720 func = key_map[index];
1721 if (func == ESC)
1722 func = escfunc(getchar());
1725 if (func == I) { /* Function assigned? */
1726 clear_status();
1727 return;
1730 while (count-- > 0 && quit == FALSE) {
1731 if (stat_visible == TRUE)
1732 clear_status();
1733 (*func)(index);
1734 flush();
1737 if (quit == TRUE) /* Abort has been given */
1738 error("Aborted", NIL_PTR);
1742 * Ask the user if he wants to save his file or not.
1745 ask_save(void)
1747 int c;
1749 status_line(file_name[0] ? basename(file_name) : "[buffer]" ,
1750 " has been modified. Save? (y/n)");
1752 while((c = getchar()) != 'y' && c != 'n' && quit == FALSE) {
1753 ring_bell();
1754 flush();
1757 clear_status();
1759 if (c == 'y')
1760 return WT();
1762 if (c == 'n')
1763 return FINE;
1765 quit = FALSE; /* Abort character has been given */
1766 return ERRORS;
1770 * Line_number() finds the line number we're on.
1773 line_number(void)
1775 LINE *line = header->next;
1776 int count = 1;
1778 while (line != cur_line) {
1779 count++;
1780 line = line->next;
1783 return count;
1787 * Display a line telling how many chars and lines the file contains. Also tell
1788 * whether the file is readonly and/or modified.
1790 * parameter
1791 * count: Contains number of characters in file
1793 void
1794 file_status(const char *message, long count, char *file, int lines,
1795 FLAG writefl, FLAG changed)
1797 LINE *line;
1798 char msg[LINE_LEN + 40];/* Buffer to hold line */
1799 char yank_msg[LINE_LEN];/* Buffer for msg of yank_file */
1801 if (count < 0) /* Not valid. Count chars in file */
1802 for (line = header->next; line != tail; line = line->next)
1803 count += length_of(line->text);
1805 if (yank_status != NOT_VALID) /* Append buffer info */
1806 build_string(yank_msg, " Buffer: %D char%s.", chars_saved,
1807 (chars_saved == 1L) ? "" : "s");
1808 else
1809 yank_msg[0] = '\0';
1811 build_string(msg, "%s %s%s%s %d line%s %D char%s.%s Line %d", message,
1812 (rpipe == TRUE && *message != '[') ? "standard input" : basename(file),
1813 (changed == TRUE) ? "*" : "",
1814 (writefl == FALSE) ? " (Readonly)" : "",
1815 lines, (lines == 1) ? "" : "s",
1816 count, (count == 1L) ? "" : "s",
1817 yank_msg, line_number());
1819 if (length_of(msg) + 1 > LINE_LEN - 4) {
1820 msg[LINE_LEN - 4] = SHIFT_MARK; /* Overflow on status line */
1821 msg[LINE_LEN - 3] = '\0';
1823 status_line(msg, NIL_PTR); /* Print the information */
1827 * Build_string() prints the arguments as described in fmt, into the buffer.
1828 * %s indicates an argument string, %d indicated an argument number.
1830 void
1831 build_string(char *buf, const char *fmt, ...)
1833 va_list argptr;
1834 const char *scanp;
1836 va_start(argptr, fmt);
1838 while (*fmt) {
1839 if (*fmt == '%') {
1840 fmt++;
1841 switch (*fmt++) {
1842 case 's' :
1843 scanp = va_arg(argptr, char *);
1844 break;
1845 case 'd' :
1846 scanp = num_out((long) va_arg(argptr, int));
1847 break;
1848 case 'D' :
1849 scanp = num_out((long) va_arg(argptr, long));
1850 break;
1851 default :
1852 scanp = "";
1854 while ((*buf++ = *scanp++) != 0)
1856 buf--;
1858 else
1859 *buf++ = *fmt++;
1861 va_end(argptr);
1862 *buf = '\0';
1866 * Output an (unsigned) long in a 10 digit field without leading zeros.
1867 * It returns a pointer to the first digit in the buffer.
1869 char *
1870 num_out(long number)
1872 static char num_buf[11]; /* Buffer to build number */
1873 long digit; /* Next digit of number */
1874 long pow = 1000000000L; /* Highest ten power of long */
1875 FLAG digit_seen = FALSE;
1876 int i;
1878 for (i = 0; i < 10; i++) {
1879 digit = number / pow; /* Get next digit */
1880 if (digit == 0L && digit_seen == FALSE && i != 9)
1881 num_buf[i] = ' ';
1882 else {
1883 num_buf[i] = '0' + (char) digit;
1884 number -= digit * pow; /* Erase digit */
1885 digit_seen = TRUE;
1887 pow /= 10L; /* Get next digit */
1889 for (i = 0; num_buf[i] == ' '; i++) /* Skip leading spaces */
1891 return (&num_buf[i]);
1895 * Get_number() read a number from the terminal. The last character typed in is
1896 * returned. ERRORS is returned on a bad number. The resulting number is put
1897 * into the integer the arguments points to.
1900 get_number(const char *message, int *result)
1902 int index;
1903 int count = 0;
1905 status_line(message, NIL_PTR);
1907 index = getchar();
1908 if (quit == FALSE && (index < '0' || index > '9')) {
1909 error("Bad count", NIL_PTR);
1910 return ERRORS;
1913 /* Convert input to a decimal number */
1914 while (index >= '0' && index <= '9' && quit == FALSE) {
1915 count *= 10;
1916 count += index - '0';
1917 index = getchar();
1920 if (quit == TRUE) {
1921 clear_status();
1922 return ERRORS;
1925 *result = count;
1926 return index;
1930 * Input() reads a string from the terminal. When the KILL character is typed,
1931 * it returns ERRORS.
1934 input(char *inbuf, FLAG clearfl)
1936 char *ptr;
1937 char c; /* Character read */
1939 ptr = inbuf;
1941 *ptr = '\0';
1942 while (quit == FALSE) {
1943 flush();
1944 switch (c = getchar()) {
1945 case '\b' : /* Erase previous char */
1946 if (ptr > inbuf) {
1947 ptr--;
1948 #ifdef UNIX
1949 tputs(SE, 0, _putchar);
1950 #else
1951 string_print(normal_video);
1952 #endif /* UNIX */
1953 if (is_tab(*ptr))
1954 string_print(" \b\b\b \b\b");
1955 else
1956 string_print(" \b\b \b");
1957 #ifdef UNIX
1958 tputs(SO, 0, _putchar);
1959 #else
1960 string_print(rev_video);
1961 #endif /* UNIX */
1962 string_print(" \b");
1963 *ptr = '\0';
1965 else
1966 ring_bell();
1967 break;
1968 case '\n' : /* End of input */
1969 /* If inbuf is empty clear status_line */
1970 return (ptr == inbuf && clearfl == TRUE) ? NO_INPUT :FINE;
1971 default : /* Only read ASCII chars */
1972 if ((c >= ' ' && c <= '~') || c == '\t') {
1973 *ptr++ = c;
1974 *ptr = '\0';
1975 if (c == '\t')
1976 string_print("^I");
1977 else
1978 putchar(c);
1979 string_print(" \b");
1981 else
1982 ring_bell();
1985 quit = FALSE;
1986 return ERRORS;
1990 * Get_file() reads a filename from the terminal. Filenames longer than
1991 * FILE_LENGHT chars are truncated.
1994 get_file(const char *message, char *file)
1996 char *ptr;
1997 int ret = FINE;
1999 if (message == NIL_PTR || (ret = get_string(message, file, TRUE)) == FINE) {
2000 if (length_of((ptr = basename(file))) > NAME_MAX)
2001 ptr[NAME_MAX] = '\0';
2003 return ret;
2006 /* ======================================================================== *
2007 * UNIX I/O Routines *
2008 * ======================================================================== */
2010 #ifdef UNIX
2011 #undef putchar
2014 _getchar(void)
2016 char c;
2018 if (read(input_fd, &c, 1) != 1 && quit == FALSE)
2019 panic ("Cannot read 1 byte from input");
2020 return c & 0377;
2023 void
2024 _flush(void)
2026 fflush(stdout);
2029 void
2030 _putchar(char c)
2032 write_char(STD_OUT, c);
2035 void
2036 get_term(void)
2038 static char termbuf[50];
2039 char *loc = termbuf;
2040 char entry[1024];
2042 if (tgetent(entry, getenv("TERM")) <= 0) {
2043 printf("Unknown terminal.\n");
2044 exit(1);
2047 AL = tgetstr("al", &loc);
2048 CE = tgetstr("ce", &loc);
2049 VS = tgetstr("vs", &loc);
2050 CL = tgetstr("cl", &loc);
2051 SO = tgetstr("so", &loc);
2052 SE = tgetstr("se", &loc);
2053 CM = tgetstr("cm", &loc);
2054 ymax = tgetnum("li") - 1;
2055 screenmax = ymax - 1;
2057 if (!CE || !SO || !SE || !CL || !AL || !CM) {
2058 printf("Sorry, no mined on this type of terminal\n");
2059 exit(1);
2062 #endif /* UNIX */