4 * Copyright (c) 1997 Ben Harrison, James E. Wilson, Robert A. Koeneke
6 * This software may be copied and distributed for educational, research,
7 * and not for profit purposes provided that this copyright and statement
8 * are included in all such copies. Other copyrights may also apply.
11 /* Purpose: Angband utilities -BEN- */
16 static int num_more = 0;
18 /* Save macro trigger string for use in inkey_special() */
19 static char inkey_macro_trigger_string[1024];
25 * For those systems that don't have "stricmp()"
27 * Compare the two strings "a" and "b" ala "strcmp()" ignoring case.
29 int stricmp(cptr a, cptr b)
34 /* Scan the strings */
35 for (s1 = a, s2 = b; TRUE; s1++, s2++)
39 if (z1 < z2) return (-1);
40 if (z1 > z2) return (1);
45 #endif /* HAS_STRICMP */
53 * For those systems that don't have "usleep()" but need it.
55 * Fake "usleep()" function grabbed from the inl netrek server -cba
57 int usleep(huge usecs)
64 fd_set *no_fds = NULL;
70 /* Was: int readfds, writefds, exceptfds; */
71 /* Was: readfds = writefds = exceptfds = 0; */
74 /* Paranoia -- No excessive sleeping */
76 if (usecs > 4000000L) core("ÉÔÅö¤Ê usleep() ¸Æ¤Ó½Ð¤·");
78 if (usecs > 4000000L) core("Illegal usleep() call");
84 Timer.tv_sec = (usecs / 1000000L);
85 Timer.tv_usec = (usecs % 1000000L);
88 if (select(nfds, no_fds, no_fds, no_fds, &Timer) < 0)
90 /* Hack -- ignore interrupts */
91 if (errno != EINTR) return -1;
102 * Hack -- External functions
105 extern struct passwd *getpwuid(uid_t uid);
106 extern struct passwd *getpwnam(const char *name);
111 * Find a default user name from the system.
113 void user_name(char *buf, int id)
117 /* Look up the user name */
118 if ((pw = getpwuid(id)))
120 (void)strcpy(buf, pw->pw_name);
123 #ifdef CAPITALIZE_USER_NAME
124 /* Hack -- capitalize the user name */
126 if (!iskanji(buf[0]))
129 buf[0] = toupper(buf[0]);
130 #endif /* CAPITALIZE_USER_NAME */
135 /* Oops. Hack -- default to "PLAYER" */
136 strcpy(buf, "PLAYER");
145 * The concept of the "file" routines below (and elsewhere) is that all
146 * file handling should be done using as few routines as possible, since
147 * every machine is slightly different, but these routines always have the
150 * In fact, perhaps we should use the "path_parse()" routine below to convert
151 * from "canonical" filenames (optional leading tilde's, internal wildcards,
152 * slash as the path seperator, etc) to "system" filenames (no special symbols,
153 * system-specific path seperator, etc). This would allow the program itself
154 * to assume that all filenames are "Unix" filenames, and explicitly "extract"
155 * such filenames if needed (by "path_parse()", or perhaps "path_canon()").
157 * Note that "path_temp" should probably return a "canonical" filename.
159 * Note that "my_fopen()" and "my_open()" and "my_make()" and "my_kill()"
160 * and "my_move()" and "my_copy()" should all take "canonical" filenames.
162 * Note that "canonical" filenames use a leading "slash" to indicate an absolute
163 * path, and a leading "tilde" to indicate a special directory, and default to a
164 * relative path, but MSDOS uses a leading "drivename plus colon" to indicate the
165 * use of a "special drive", and then the rest of the path is parsed "normally",
166 * and MACINTOSH uses a leading colon to indicate a relative path, and an embedded
167 * colon to indicate a "drive plus absolute path", and finally defaults to a file
168 * in the current working directory, which may or may not be defined.
170 * We should probably parse a leading "~~/" as referring to "ANGBAND_DIR". (?)
178 * Most of the "file" routines for "ACORN" should be in "main-acn.c"
188 * Extract a "parsed" path from an initial filename
189 * Normally, we simply copy the filename into the buffer
190 * But leading tilde symbols must be handled in a special way
191 * Replace "~user/" by the home directory of the user named "user"
192 * Replace "~/" by the home directory of the current user
194 errr path_parse(char *buf, int max, cptr file)
201 /* Assume no result */
205 if (!file) return (-1);
207 /* File needs no parsing */
210 (void)strnfmt(buf, max, "%s", file);
214 /* Point at the user */
217 /* Look for non-user portion of the file */
218 s = my_strstr(u, PATH_SEP);
220 /* Hack -- no long user names */
221 if (s && (s >= u + sizeof(user))) return (1);
223 /* Extract a user name */
227 for (i = 0; u < s; ++i) user[i] = *u++;
232 /* Look up the "current" user */
233 if (u[0] == '\0') u = getlogin();
235 /* Look up a user (or "current" user) */
236 if (u) pw = getpwnam(u);
237 else pw = getpwuid(getuid());
242 /* Make use of the info */
243 if (s) strnfmt(buf, max, "%s%s", pw->pw_dir, s);
244 else strnfmt(buf, max, "%s", pw->pw_dir);
255 * Extract a "parsed" path from an initial filename
257 * This requires no special processing on simple machines,
258 * except for verifying the size of the filename.
260 errr path_parse(char *buf, int max, cptr file)
262 /* Accept the filename */
263 (void)strnfmt(buf, max, "%s", file);
265 #if defined(MAC_MPW) && defined(CARBON)
266 /* Fix it according to the current operating system */
267 convert_pathname(buf);
268 #endif /* MAC_MPW && CARBON */
281 * Hack -- acquire a "temporary" file name if possible
283 * This filename is always in "system-specific" form.
285 static errr path_temp(char *buf, int max)
295 /* Format to length */
297 (void)strnfmt(buf, max, "%s", s);
299 (void)strnfmt(buf, max, ".%s", s);
309 * Create a new path by appending a file (or directory) to a path.
311 * This requires no special processing on simple machines, except
312 * for verifying the size of the filename, but note the ability to
313 * bypass the given "path" with certain special file-names.
315 * Note that the "file" may actually be a "sub-path", including
318 * Note that this function yields a path which must be "parsed"
319 * using the "parse" function above.
321 errr path_build(char *buf, int max, cptr path, cptr file)
326 /* Use the file itself */
327 (void)strnfmt(buf, max, "%s", file);
330 /* Absolute file, on "normal" systems */
331 else if (prefix(file, PATH_SEP) && !streq(PATH_SEP, ""))
333 /* Use the file itself */
334 (void)strnfmt(buf, max, "%s", file);
340 /* Use the file itself */
341 (void)strnfmt(buf, max, "%s", file);
347 /* Build the new path */
348 (void)strnfmt(buf, max, "%s%s%s", path, PATH_SEP, file);
357 * Hack -- replacement for "fopen()"
359 FILE *my_fopen(cptr file, cptr mode)
363 #if defined(MAC_MPW) || defined(MACH_O_CARBON)
367 /* Hack -- Try to parse the path */
368 if (path_parse(buf, 1024, file)) return (NULL);
370 #if defined(MAC_MPW) || defined(MACH_O_CARBON)
371 if (my_strchr(mode, 'w'))
373 /* setting file type/creator */
374 tempfff = fopen(buf, mode);
375 fsetfileinfo(buf, _fcreator, _ftype);
380 /* Attempt to fopen the file anyway */
381 return (fopen(buf, mode));
386 * Hack -- replacement for "fclose()"
388 errr my_fclose(FILE *fff)
391 if (!fff) return (-1);
393 /* Close, check for error */
394 if (fclose(fff) == EOF) return (1);
406 FILE *my_fopen_temp(char *buf, int max)
410 /* Prepare the buffer for mkstemp */
411 strncpy(buf, "/tmp/anXXXXXX", max);
413 /* Secure creation of a temporary file */
416 /* Check the file-descriptor */
417 if (fd < 0) return (NULL);
419 /* Return a file stream */
420 return (fdopen(fd, "w"));
423 #else /* HAVE_MKSTEMP */
425 FILE *my_fopen_temp(char *buf, int max)
427 /* Generate a temporary filename */
428 if (path_temp(buf, max)) return (NULL);
431 return (my_fopen(buf, "w"));
434 #endif /* HAVE_MKSTEMP */
438 * Hack -- replacement for "fgets()"
440 * Read a string, without a newline, to a file
442 * Process tabs, strip internal non-printables
444 errr my_fgets(FILE *fff, char *buf, huge n)
453 if (fgets(tmp, 1024, fff))
455 /* Convert weirdness */
456 for (s = tmp; *s; s++)
458 #if defined(MACINTOSH) || defined(MACH_O_CARBON)
461 * Be nice to the Macintosh, where a file can have Mac or Unix
462 * end of line, especially since the introduction of OS X.
463 * MPW tools were also very tolerant to the Unix EOL.
465 if (*s == '\r') *s = '\n';
467 #endif /* MACINTOSH || MACH_O_CARBON */
482 /* Hack -- require room */
483 if (i + 8 >= n) break;
488 /* Append some more spaces */
489 while (0 != (i % 8)) buf[i++] = ' ';
493 else if (iskanji(*s))
507 /* Handle printables */
508 else if (isprint(*s))
517 /* No newline character, but terminate */
533 * Hack -- replacement for "fputs()"
535 * Dump a string, plus a newline, to a file
537 * XXX XXX XXX Process internal weirdness?
539 errr my_fputs(FILE *fff, cptr buf, huge n)
544 /* Dump, ignore errors */
545 (void)fprintf(fff, "%s\n", buf);
556 * Most of the "file" routines for "ACORN" should be in "main-acn.c"
558 * Many of them can be rewritten now that only "fd_open()" and "fd_make()"
559 * and "my_fopen()" should ever create files.
567 * Code Warrior is a little weird about some functions
570 extern int open(const char *, int, ...);
571 extern int close(int);
572 extern int read(int, void *, unsigned int);
573 extern int write(int, const void *, unsigned int);
574 extern long lseek(int, long, int);
575 #endif /* BEN_HACK */
579 * The Macintosh is a little bit brain-dead sometimes
582 # define open(N,F,M) \
583 ((M), open((char*)(N),F))
584 # define write(F,B,S) \
585 write(F,(char*)(B),S)
586 #endif /* MACINTOSH */
590 * Several systems have no "O_BINARY" flag
594 #endif /* O_BINARY */
598 * Hack -- attempt to delete a file
600 errr fd_kill(cptr file)
604 /* Hack -- Try to parse the path */
605 if (path_parse(buf, 1024, file)) return (-1);
616 * Hack -- attempt to move a file
618 errr fd_move(cptr file, cptr what)
623 /* Hack -- Try to parse the path */
624 if (path_parse(buf, 1024, file)) return (-1);
626 /* Hack -- Try to parse the path */
627 if (path_parse(aux, 1024, what)) return (-1);
630 (void)rename(buf, aux);
638 * Hack -- attempt to copy a file
640 errr fd_copy(cptr file, cptr what)
647 /* Hack -- Try to parse the path */
648 if (path_parse(buf, 1024, file)) return (-1);
650 /* Hack -- Try to parse the path */
651 if (path_parse(aux, 1024, what)) return (-1);
653 /* Open source file */
654 src_fd = fd_open(buf, O_RDONLY);
655 if (src_fd < 0) return (-1);
657 /* Open destination file */
658 dst_fd = fd_open(aux, O_WRONLY|O_TRUNC|O_CREAT);
659 if (dst_fd < 0) return (-1);
662 while ((read_num = read(src_fd, buf, 1024)) > 0)
665 while (write_num < read_num)
667 int ret = write(dst_fd, buf + write_num, read_num - write_num);
689 * Hack -- attempt to open a file descriptor (create file)
691 * This function should fail if the file already exists
693 * Note that we assume that the file should be "binary"
695 * XXX XXX XXX The horrible "BEN_HACK" code is for compiling under
696 * the CodeWarrior compiler, in which case, for some reason, none
697 * of the "O_*" flags are defined, and we must fake the definition
698 * of "O_RDONLY", "O_WRONLY", and "O_RDWR" in "A-win-h", and then
699 * we must simulate the effect of the proper "open()" call below.
701 int fd_make(cptr file, int mode)
705 /* Hack -- Try to parse the path */
706 if (path_parse(buf, 1024, file)) return (-1);
710 /* Check for existance */
711 /* if (fd_close(fd_open(file, O_RDONLY | O_BINARY))) return (1); */
713 /* Mega-Hack -- Create the file */
714 (void)my_fclose(my_fopen(file, "wb"));
716 /* Re-open the file for writing */
717 return (open(buf, O_WRONLY | O_BINARY, mode));
721 #if defined(MAC_MPW) || defined(MACH_O_CARBON)
724 /* Create the file, fail if exists, write-only, binary */
725 fdes = open(buf, O_CREAT | O_EXCL | O_WRONLY | O_BINARY, mode);
726 /* Set creator and type if the file is successfully opened */
727 if (fdes >= 0) fsetfileinfo(buf, _fcreator, _ftype);
728 /* Return the descriptor */
732 /* Create the file, fail if exists, write-only, binary */
733 return (open(buf, O_CREAT | O_EXCL | O_WRONLY | O_BINARY, mode));
736 #endif /* BEN_HACK */
742 * Hack -- attempt to open a file descriptor (existing file)
744 * Note that we assume that the file should be "binary"
746 int fd_open(cptr file, int flags)
750 /* Hack -- Try to parse the path */
751 if (path_parse(buf, 1024, file)) return (-1);
753 /* Attempt to open the file */
754 return (open(buf, flags | O_BINARY, 0));
759 * Hack -- attempt to lock a file descriptor
761 * Legal lock types -- F_UNLCK, F_RDLCK, F_WRLCK
763 errr fd_lock(int fd, int what)
766 what = what ? what : 0;
769 if (fd < 0) return (-1);
775 # if defined(F_ULOCK) && defined(F_LOCK)
780 /* Unlock it, Ignore errors */
781 lockf(fd, F_ULOCK, 0);
787 /* Lock the score file */
788 if (lockf(fd, F_LOCK, 0) != 0) return (1);
795 # if defined(LOCK_UN) && defined(LOCK_EX)
800 /* Unlock it, Ignore errors */
801 (void)flock(fd, LOCK_UN);
807 /* Lock the score file */
808 if (flock(fd, LOCK_EX) != 0) return (1);
823 * Hack -- attempt to seek on a file descriptor
825 errr fd_seek(int fd, huge n)
830 if (fd < 0) return (-1);
832 /* Seek to the given position */
833 p = lseek(fd, n, SEEK_SET);
836 if (p != n) return (1);
844 * Hack -- attempt to truncate a file descriptor
846 errr fd_chop(int fd, huge n)
852 if (fd < 0) return (-1);
854 #if defined(SUNOS) || defined(ULTRIX) || defined(NeXT)
865 * Hack -- attempt to read data from a file descriptor
867 errr fd_read(int fd, char *buf, huge n)
870 if (fd < 0) return (-1);
878 if (read(fd, buf, 16384) != 16384) return (1);
880 /* Shorten the task */
883 /* Shorten the task */
889 /* Read the final piece */
890 if (read(fd, buf, n) != (int)n) return (1);
898 * Hack -- Attempt to write data to a file descriptor
900 errr fd_write(int fd, cptr buf, huge n)
903 if (fd < 0) return (-1);
911 if (write(fd, buf, 16384) != 16384) return (1);
913 /* Shorten the task */
916 /* Shorten the task */
922 /* Write the final piece */
923 if (write(fd, buf, n) != (int)n) return (1);
931 * Hack -- attempt to close a file descriptor
933 errr fd_close(int fd)
936 if (fd < 0) return (-1);
952 * XXX XXX XXX Important note about "colors" XXX XXX XXX
954 * The "TERM_*" color definitions list the "composition" of each
955 * "Angband color" in terms of "quarters" of each of the three color
956 * components (Red, Green, Blue), for example, TERM_UMBER is defined
957 * as 2/4 Red, 1/4 Green, 0/4 Blue.
959 * The following info is from "Torbjorn Lindgren" (see "main-xaw.c").
961 * These values are NOT gamma-corrected. On most machines (with the
962 * Macintosh being an important exception), you must "gamma-correct"
963 * the given values, that is, "correct for the intrinsic non-linearity
964 * of the phosphor", by converting the given intensity levels based
965 * on the "gamma" of the target screen, which is usually 1.7 (or 1.5).
967 * The actual formula for conversion is unknown to me at this time,
968 * but you can use the table below for the most common gamma values.
970 * So, on most machines, simply convert the values based on the "gamma"
971 * of the target screen, which is usually in the range 1.5 to 1.7, and
972 * usually is closest to 1.7. The converted value for each of the five
973 * different "quarter" values is given below:
975 * Given Gamma 1.0 Gamma 1.5 Gamma 1.7 Hex 1.7
976 * ----- ---- ---- ---- ---
977 * 0/4 0.00 0.00 0.00 #00
978 * 1/4 0.25 0.27 0.28 #47
979 * 2/4 0.50 0.55 0.56 #8f
980 * 3/4 0.75 0.82 0.84 #d7
981 * 4/4 1.00 1.00 1.00 #ff
983 * Note that some machines (i.e. most IBM machines) are limited to a
984 * hard-coded set of colors, and so the information above is useless.
986 * Also, some machines are limited to a pre-determined set of colors,
987 * for example, the IBM can only display 16 colors, and only 14 of
988 * those colors resemble colors used by Angband, and then only when
989 * you ignore the fact that "Slate" and "cyan" are not really matches,
990 * so on the IBM, we use "orange" for both "Umber", and "Light Umber"
991 * in addition to the obvious "Orange", since by combining all of the
992 * "indeterminate" colors into a single color, the rest of the colors
993 * are left with "meaningful" values.
1000 void move_cursor(int row, int col)
1002 Term_gotoxy(col, row);
1008 * Convert a decimal to a single digit octal number
1010 static char octify(uint i)
1012 return (hexsym[i%8]);
1016 * Convert a decimal to a single digit hex number
1018 static char hexify(uint i)
1020 return (hexsym[i%16]);
1025 * Convert a octal-digit into a decimal
1027 static int deoct(char c)
1029 if (isdigit(c)) return (D2I(c));
1034 * Convert a hexidecimal-digit into a decimal
1036 static int dehex(char c)
1038 if (isdigit(c)) return (D2I(c));
1039 if (islower(c)) return (A2I(c) + 10);
1040 if (isupper(c)) return (A2I(tolower(c)) + 10);
1045 static int my_stricmp(cptr a, cptr b)
1050 /* Scan the strings */
1051 for (s1 = a, s2 = b; TRUE; s1++, s2++)
1053 z1 = FORCEUPPER(*s1);
1054 z2 = FORCEUPPER(*s2);
1055 if (z1 < z2) return (-1);
1056 if (z1 > z2) return (1);
1057 if (!z1) return (0);
1061 static int my_strnicmp(cptr a, cptr b, int n)
1066 /* Scan the strings */
1067 for (s1 = a, s2 = b; n > 0; s1++, s2++, n--)
1069 z1 = FORCEUPPER(*s1);
1070 z2 = FORCEUPPER(*s2);
1071 if (z1 < z2) return (-1);
1072 if (z1 > z2) return (1);
1073 if (!z1) return (0);
1079 static void trigger_text_to_ascii(char **bufptr, cptr *strptr)
1083 bool mod_status[MAX_MACRO_MOD];
1086 int shiftstatus = 0;
1089 if (macro_template == NULL)
1092 for (i = 0; macro_modifier_chr[i]; i++)
1093 mod_status[i] = FALSE;
1096 /* Examine modifier keys */
1099 for (i=0; macro_modifier_chr[i]; i++)
1101 len = strlen(macro_modifier_name[i]);
1103 if(!my_strnicmp(str, macro_modifier_name[i], len))
1106 if (!macro_modifier_chr[i]) break;
1108 mod_status[i] = TRUE;
1109 if ('S' == macro_modifier_chr[i])
1112 for (i = 0; i < max_macrotrigger; i++)
1114 len = strlen(macro_trigger_name[i]);
1115 if (!my_strnicmp(str, macro_trigger_name[i], len) && ']' == str[len])
1117 /* a trigger name found */
1122 /* Invalid trigger name? */
1123 if (i == max_macrotrigger)
1125 str = my_strchr(str, ']');
1131 *strptr = str; /* where **strptr == ']' */
1135 key_code = macro_trigger_keycode[shiftstatus][i];
1139 for (i = 0; macro_template[i]; i++)
1141 char ch = macro_template[i];
1147 for (j = 0; macro_modifier_chr[j]; j++) {
1149 *s++ = macro_modifier_chr[j];
1153 strcpy(s, key_code);
1154 s += strlen(key_code);
1164 *strptr = str; /* where **strptr == ']' */
1170 * Hack -- convert a printable string into real ascii
1172 * I have no clue if this function correctly handles, for example,
1173 * parsing "\xFF" into a (signed) char. Whoever thought of making
1174 * the "sign" of a "char" undefined is a complete moron. Oh well.
1176 void text_to_ascii(char *buf, cptr str)
1180 /* Analyze the "ascii" string */
1183 /* Backslash codes */
1186 /* Skip the backslash */
1195 trigger_text_to_ascii(&s, &str);
1202 *s = 16 * dehex(*++str);
1203 *s++ += dehex(*++str);
1206 /* Hack -- simple way to specify "backslash" */
1207 else if (*str == '\\')
1212 /* Hack -- simple way to specify "caret" */
1213 else if (*str == '^')
1218 /* Hack -- simple way to specify "space" */
1219 else if (*str == 's')
1224 /* Hack -- simple way to specify Escape */
1225 else if (*str == 'e')
1231 else if (*str == 'b')
1237 else if (*str == 'n')
1243 else if (*str == 'r')
1249 else if (*str == 't')
1255 else if (*str == '0')
1257 *s = 8 * deoct(*++str);
1258 *s++ += deoct(*++str);
1262 else if (*str == '1')
1264 *s = 64 + 8 * deoct(*++str);
1265 *s++ += deoct(*++str);
1269 else if (*str == '2')
1271 *s = 64 * 2 + 8 * deoct(*++str);
1272 *s++ += deoct(*++str);
1276 else if (*str == '3')
1278 *s = 64 * 3 + 8 * deoct(*++str);
1279 *s++ += deoct(*++str);
1282 /* Skip the final char */
1286 /* Normal Control codes */
1287 else if (*str == '^')
1290 *s++ = (*str++ & 037);
1305 static bool trigger_ascii_to_text(char **bufptr, cptr *strptr)
1313 if (macro_template == NULL)
1319 for (i = 0; macro_template[i]; i++)
1322 char ch = macro_template[i];
1327 while ((tmp = my_strchr(macro_modifier_chr, *str)))
1329 j = (int)(tmp - macro_modifier_chr);
1330 tmp = macro_modifier_name[j];
1331 while(*tmp) *s++ = *tmp++;
1336 for (j = 0; *str && *str != '\r'; j++)
1337 key_code[j] = *str++;
1341 if (ch != *str) return FALSE;
1345 if (*str++ != '\r') return FALSE;
1347 for (i = 0; i < max_macrotrigger; i++)
1349 if (!my_stricmp(key_code, macro_trigger_keycode[0][i])
1350 || !my_stricmp(key_code, macro_trigger_keycode[1][i]))
1353 if (i == max_macrotrigger)
1356 tmp = macro_trigger_name[i];
1357 while (*tmp) *s++ = *tmp++;
1368 * Hack -- convert a string into a printable form
1370 void ascii_to_text(char *buf, cptr str)
1374 /* Analyze the "ascii" string */
1377 byte i = (byte)(*str++);
1382 if(!trigger_ascii_to_text(&s, &str))
1443 *s++ = octify(i / 8);
1444 *s++ = octify(i % 8);
1450 *s++ = hexify(i / 16);
1451 *s++ = hexify(i % 16);
1462 * The "macro" package
1464 * Functions are provided to manipulate a collection of macros, each
1465 * of which has a trigger pattern string and a resulting action string
1466 * and a small set of flags.
1472 * Determine if any macros have ever started with a given character.
1474 static bool macro__use[256];
1478 * Find the macro (if any) which exactly matches the given pattern
1480 sint macro_find_exact(cptr pat)
1484 /* Nothing possible */
1485 if (!macro__use[(byte)(pat[0])])
1490 /* Scan the macros */
1491 for (i = 0; i < macro__num; ++i)
1493 /* Skip macros which do not match the pattern */
1494 if (!streq(macro__pat[i], pat)) continue;
1506 * Find the first macro (if any) which contains the given pattern
1508 static sint macro_find_check(cptr pat)
1512 /* Nothing possible */
1513 if (!macro__use[(byte)(pat[0])])
1518 /* Scan the macros */
1519 for (i = 0; i < macro__num; ++i)
1521 /* Skip macros which do not contain the pattern */
1522 if (!prefix(macro__pat[i], pat)) continue;
1534 * Find the first macro (if any) which contains the given pattern and more
1536 static sint macro_find_maybe(cptr pat)
1540 /* Nothing possible */
1541 if (!macro__use[(byte)(pat[0])])
1546 /* Scan the macros */
1547 for (i = 0; i < macro__num; ++i)
1549 /* Skip macros which do not contain the pattern */
1550 if (!prefix(macro__pat[i], pat)) continue;
1552 /* Skip macros which exactly match the pattern XXX XXX */
1553 if (streq(macro__pat[i], pat)) continue;
1565 * Find the longest macro (if any) which starts with the given pattern
1567 static sint macro_find_ready(cptr pat)
1569 int i, t, n = -1, s = -1;
1571 /* Nothing possible */
1572 if (!macro__use[(byte)(pat[0])])
1577 /* Scan the macros */
1578 for (i = 0; i < macro__num; ++i)
1580 /* Skip macros which are not contained by the pattern */
1581 if (!prefix(pat, macro__pat[i])) continue;
1583 /* Obtain the length of this macro */
1584 t = strlen(macro__pat[i]);
1586 /* Only track the "longest" pattern */
1587 if ((n >= 0) && (s > t)) continue;
1589 /* Track the entry */
1600 * Add a macro definition (or redefinition).
1602 * We should use "act == NULL" to "remove" a macro, but this might make it
1603 * impossible to save the "removal" of a macro definition. XXX XXX XXX
1605 * We should consider refusing to allow macros which contain existing macros,
1606 * or which are contained in existing macros, because this would simplify the
1607 * macro analysis code. XXX XXX XXX
1609 * We should consider removing the "command macro" crap, and replacing it
1610 * with some kind of "powerful keymap" ability, but this might make it hard
1611 * to change the "roguelike" option from inside the game. XXX XXX XXX
1613 errr macro_add(cptr pat, cptr act)
1618 /* Paranoia -- require data */
1619 if (!pat || !act) return (-1);
1622 /* Look for any existing macro */
1623 n = macro_find_exact(pat);
1625 /* Replace existing macro */
1628 /* Free the old macro action */
1629 string_free(macro__act[n]);
1632 /* Create a new macro */
1635 /* Acquire a new index */
1638 /* Save the pattern */
1639 macro__pat[n] = string_make(pat);
1642 /* Save the action */
1643 macro__act[n] = string_make(act);
1646 macro__use[(byte)(pat[0])] = TRUE;
1655 * Local variable -- we are inside a "macro action"
1657 * Do not match any macros until "ascii 30" is found.
1659 static bool parse_macro = FALSE;
1662 * Local variable -- we are inside a "macro trigger"
1664 * Strip all keypresses until a low ascii value is found.
1666 static bool parse_under = FALSE;
1670 * Flush all input chars. Actually, remember the flush,
1671 * and do a "special flush" before the next "inkey()".
1673 * This is not only more efficient, but also necessary to make sure
1674 * that various "inkey()" codes are not "lost" along the way.
1684 * Flush the screen, make a noise
1688 /* Mega-Hack -- Flush the output */
1691 /* Make a bell noise (if allowed) */
1692 if (ring_bell) Term_xtra(TERM_XTRA_NOISE, 0);
1694 /* Flush the input (later!) */
1700 * Hack -- Make a (relevant?) sound
1705 if (!use_sound) return;
1707 /* Make a sound (if allowed) */
1708 Term_xtra(TERM_XTRA_SOUND, val);
1712 * Hack -- Play a music
1714 void music_basic(int val)
1717 if (!use_music) return;
1719 /* Make a sound (if allowed) */
1720 Term_xtra(TERM_XTRA_MUSIC_BASIC, val);
1724 * Hack -- Select floor music.
1726 void select_floor_music()
1729 if (!use_music) return;
1731 if(p_ptr->wild_mode)
1733 music_basic(MUSIC_BASIC_WILD);
1735 else if(p_ptr->town_num)
1737 music_basic(MUSIC_BASIC_TOWN);
1742 music_basic(MUSIC_BASIC_FIELD1);
1746 if(dun_level < 40) music_basic(MUSIC_BASIC_DUN_LOW);
1747 else if(dun_level < 80) music_basic(MUSIC_BASIC_DUN_MED);
1748 else music_basic(MUSIC_BASIC_DUN_HIGH);
1751 /* Make a sound (if allowed) */
1752 //TODO Term_xtra(TERM_XTRA_MUSIC_BASIC, val);
1760 * Helper function called only from "inkey()"
1762 * This function does almost all of the "macro" processing.
1764 * We use the "Term_key_push()" function to handle "failed" macros, as well
1765 * as "extra" keys read in while choosing the proper macro, and also to hold
1766 * the action for the macro, plus a special "ascii 30" character indicating
1767 * that any macro action in progress is complete. Embedded macros are thus
1768 * illegal, unless a macro action includes an explicit "ascii 30" character,
1769 * which would probably be a massive hack, and might break things.
1771 * Only 500 (0+1+2+...+29+30) milliseconds may elapse between each key in
1772 * the macro trigger sequence. If a key sequence forms the "prefix" of a
1773 * macro trigger, 500 milliseconds must pass before the key sequence is
1774 * known not to be that macro trigger. XXX XXX XXX
1776 static char inkey_aux(void)
1778 int k = 0, n, p = 0, w = 0;
1784 char *buf = inkey_macro_trigger_string;
1786 /* Hack : ¥¡¼ÆþÎÏÂÔ¤Á¤Ç»ß¤Þ¤Ã¤Æ¤¤¤ë¤Î¤Ç¡¢Î®¤ì¤¿¹Ô¤Îµ²±¤ÏÉÔÍס£ */
1791 /* Scan next keypress from macro action */
1792 if (Term_inkey(&ch, FALSE, TRUE))
1794 /* Over-flowed? Cancel macro action */
1795 parse_macro = FALSE;
1800 /* Wait for a keypress */
1801 (void) (Term_inkey(&ch, TRUE, TRUE));
1805 /* End "macro action" */
1806 if (ch == 30) parse_macro = FALSE;
1808 /* Inside "macro action" */
1809 if (ch == 30) return (ch);
1811 /* Inside "macro action" */
1812 if (parse_macro) return (ch);
1814 /* Inside "macro trigger" */
1815 if (parse_under) return (ch);
1817 /* Save the first key, advance */
1822 /* Check for possible macro */
1823 k = macro_find_check(buf);
1825 /* No macro pending */
1826 if (k < 0) return (ch);
1829 /* Wait for a macro, or a timeout */
1832 /* Check for pending macro */
1833 k = macro_find_maybe(buf);
1835 /* No macro pending */
1838 /* Check for (and remove) a pending key */
1839 if (0 == Term_inkey(&ch, FALSE, TRUE))
1841 /* Append the key */
1852 /* Increase "wait" */
1855 /* Excessive delay */
1859 Term_xtra(TERM_XTRA_DELAY, w);
1864 /* Check for available macro */
1865 k = macro_find_ready(buf);
1867 /* No macro available */
1870 /* Push all the keys back on the queue */
1873 /* Push the key, notice over-flow */
1874 if (Term_key_push(buf[--p])) return (0);
1877 /* Wait for (and remove) a pending key */
1878 (void)Term_inkey(&ch, TRUE, TRUE);
1880 /* Return the key */
1885 /* Get the pattern */
1886 pat = macro__pat[k];
1888 /* Get the length of the pattern */
1891 /* Push the "extra" keys back on the queue */
1894 /* Push the key, notice over-flow */
1895 if (Term_key_push(buf[--p])) return (0);
1899 /* Begin "macro action" */
1902 /* Push the "end of macro action" key */
1903 if (Term_key_push(30)) return (0);
1906 /* Access the macro action */
1907 act = macro__act[k];
1909 /* Get the length of the action */
1912 /* Push the macro "action" onto the key queue */
1915 /* Push the key, notice over-flow */
1916 if (Term_key_push(act[--n])) return (0);
1920 /* Hack -- Force "inkey()" to call us again */
1926 * Cancel macro action on the queue
1928 static void forget_macro_action(void)
1930 if (!parse_macro) return;
1932 /* Drop following macro action string */
1937 /* End loop if no key ready */
1938 if (Term_inkey(&ch, FALSE, TRUE)) break;
1940 /* End loop if no key ready */
1943 /* End of "macro action" */
1944 if (ch == 30) break;
1947 /* No longer inside "macro action" */
1948 parse_macro = FALSE;
1953 * Mega-Hack -- special "inkey_next" pointer. XXX XXX XXX
1955 * This special pointer allows a sequence of keys to be "inserted" into
1956 * the stream of keys returned by "inkey()". This key sequence will not
1957 * trigger any macros, and cannot be bypassed by the Borg. It is used
1958 * in Angband to handle "keymaps".
1960 static cptr inkey_next = NULL;
1966 * Mega-Hack -- special "inkey_hack" hook. XXX XXX XXX
1968 * This special function hook allows the "Borg" (see elsewhere) to take
1969 * control of the "inkey()" function, and substitute in fake keypresses.
1971 char (*inkey_hack)(int flush_first) = NULL;
1973 #endif /* ALLOW_BORG */
1978 * Get a keypress from the user.
1980 * This function recognizes a few "global parameters". These are variables
1981 * which, if set to TRUE before calling this function, will have an effect
1982 * on this function, and which are always reset to FALSE by this function
1983 * before this function returns. Thus they function just like normal
1984 * parameters, except that most calls to this function can ignore them.
1986 * If "inkey_xtra" is TRUE, then all pending keypresses will be flushed,
1987 * and any macro processing in progress will be aborted. This flag is
1988 * set by the "flush()" function, which does not actually flush anything
1989 * itself, but rather, triggers delayed input flushing via "inkey_xtra".
1991 * If "inkey_scan" is TRUE, then we will immediately return "zero" if no
1992 * keypress is available, instead of waiting for a keypress.
1994 * If "inkey_base" is TRUE, then all macro processing will be bypassed.
1995 * If "inkey_base" and "inkey_scan" are both TRUE, then this function will
1996 * not return immediately, but will wait for a keypress for as long as the
1997 * normal macro matching code would, allowing the direct entry of macro
1998 * triggers. The "inkey_base" flag is extremely dangerous!
2000 * If "inkey_flag" is TRUE, then we will assume that we are waiting for a
2001 * normal command, and we will only show the cursor if "hilite_player" is
2002 * TRUE (or if the player is in a store), instead of always showing the
2003 * cursor. The various "main-xxx.c" files should avoid saving the game
2004 * in response to a "menu item" request unless "inkey_flag" is TRUE, to
2005 * prevent savefile corruption.
2007 * If we are waiting for a keypress, and no keypress is ready, then we will
2008 * refresh (once) the window which was active when this function was called.
2010 * Note that "back-quote" is automatically converted into "escape" for
2011 * convenience on machines with no "escape" key. This is done after the
2012 * macro matching, so the user can still make a macro for "backquote".
2014 * Note the special handling of "ascii 30" (ctrl-caret, aka ctrl-shift-six)
2015 * and "ascii 31" (ctrl-underscore, aka ctrl-shift-minus), which are used to
2016 * provide support for simple keyboard "macros". These keys are so strange
2017 * that their loss as normal keys will probably be noticed by nobody. The
2018 * "ascii 30" key is used to indicate the "end" of a macro action, which
2019 * allows recursive macros to be avoided. The "ascii 31" key is used by
2020 * some of the "main-xxx.c" files to introduce macro trigger sequences.
2022 * Hack -- we use "ascii 29" (ctrl-right-bracket) as a special "magic" key,
2023 * which can be used to give a variety of "sub-commands" which can be used
2024 * any time. These sub-commands could include commands to take a picture of
2025 * the current screen, to start/stop recording a macro action, etc.
2027 * If "angband_term[0]" is not active, we will make it active during this
2028 * function, so that the various "main-xxx.c" files can assume that input
2029 * is only requested (via "Term_inkey()") when "angband_term[0]" is active.
2031 * Mega-Hack -- This function is used as the entry point for clearing the
2032 * "signal_count" variable, and of the "character_saved" variable.
2034 * Hack -- Note the use of "inkey_next" to allow "keymaps" to be processed.
2036 * Mega-Hack -- Note the use of "inkey_hack" to allow the "Borg" to steal
2037 * control of the keyboard from the user.
2047 /* Hack -- Use the "inkey_next" pointer */
2048 if (inkey_next && *inkey_next && !inkey_xtra)
2050 /* Get next character, and advance */
2053 /* Cancel the various "global parameters" */
2054 inkey_base = inkey_xtra = inkey_flag = inkey_scan = FALSE;
2060 /* Forget pointer */
2066 /* Mega-Hack -- Use the special hook */
2067 if (inkey_hack && ((ch = (*inkey_hack)(inkey_xtra)) != 0))
2069 /* Cancel the various "global parameters" */
2070 inkey_base = inkey_xtra = inkey_flag = inkey_scan = FALSE;
2076 #endif /* ALLOW_BORG */
2079 /* Hack -- handle delayed "flush()" */
2082 /* End "macro action" */
2083 parse_macro = FALSE;
2085 /* End "macro trigger" */
2086 parse_under = FALSE;
2088 /* Forget old keypresses */
2093 /* Access cursor state */
2094 (void)Term_get_cursor(&v);
2096 /* Show the cursor if waiting, except sometimes in "command" mode */
2097 if (!inkey_scan && (!inkey_flag || hilite_player || character_icky))
2099 /* Show the cursor */
2100 (void)Term_set_cursor(1);
2104 /* Hack -- Activate main screen */
2105 Term_activate(angband_term[0]);
2111 /* Hack -- Handle "inkey_scan" */
2112 if (!inkey_base && inkey_scan &&
2113 (0 != Term_inkey(&kk, FALSE, FALSE)))
2119 /* Hack -- Flush output once when no key ready */
2120 if (!done && (0 != Term_inkey(&kk, FALSE, FALSE)))
2122 /* Hack -- activate proper term */
2128 /* Hack -- activate main screen */
2129 Term_activate(angband_term[0]);
2131 /* Mega-Hack -- reset saved flag */
2132 character_saved = FALSE;
2134 /* Mega-Hack -- reset signal counter */
2142 /* Hack -- Handle "inkey_base" */
2150 /* Wait for (and remove) a pending key */
2151 if (0 == Term_inkey(&ch, TRUE, TRUE))
2164 /* Check for (and remove) a pending key */
2165 if (0 == Term_inkey(&ch, FALSE, TRUE))
2174 /* Increase "wait" */
2177 /* Excessive delay */
2178 if (w >= 100) break;
2181 Term_xtra(TERM_XTRA_DELAY, w);
2190 /* Get a key (see above) */
2194 /* Handle "control-right-bracket" */
2197 /* Strip this key */
2205 /* Treat back-quote as escape */
2206 /* if (ch == '`') ch = ESCAPE; */
2209 /* End "macro trigger" */
2210 if (parse_under && (ch <= 32))
2212 /* Strip this key */
2215 /* End "macro trigger" */
2216 parse_under = FALSE;
2220 /* Handle "control-caret" */
2223 /* Strip this key */
2227 /* Handle "control-underscore" */
2230 /* Strip this key */
2233 /* Begin "macro trigger" */
2237 /* Inside "macro trigger" */
2238 else if (parse_under)
2240 /* Strip this key */
2246 /* Hack -- restore the term */
2250 /* Restore the cursor */
2254 /* Cancel the various "global parameters" */
2255 inkey_base = inkey_xtra = inkey_flag = inkey_scan = FALSE;
2257 /* Return the keypress */
2265 * We use a global array for all inscriptions to reduce the memory
2266 * spent maintaining inscriptions. Of course, it is still possible
2267 * to run out of inscription memory, especially if too many different
2268 * inscriptions are used, but hopefully this will be rare.
2270 * We use dynamic string allocation because otherwise it is necessary
2271 * to pre-guess the amount of quark activity. We limit the total
2272 * number of quarks, but this is much easier to "expand" as needed.
2274 * Any two items with the same inscription will have the same "quark"
2275 * index, which should greatly reduce the need for inscription space.
2277 * Note that "quark zero" is NULL and should not be "dereferenced".
2281 * Initialize the quark array
2283 void quark_init(void)
2285 /* Quark variables */
2286 C_MAKE(quark__str, QUARK_MAX, cptr);
2288 /* Prepare first quark, which is used when quark_add() is failed */
2289 quark__str[1] = string_make("");
2291 /* There is one quark (+ NULL) */
2297 * Add a new "quark" to the set of quarks.
2299 s16b quark_add(cptr str)
2303 /* Look for an existing quark */
2304 for (i = 1; i < quark__num; i++)
2306 /* Check for equality */
2307 if (streq(quark__str[i], str)) return (i);
2310 /* Return "" when no room is available */
2311 if (quark__num == QUARK_MAX) return 1;
2313 /* New maximal quark */
2316 /* Add a new quark */
2317 quark__str[i] = string_make(str);
2319 /* Return the index */
2325 * This function looks up a quark
2327 cptr quark_str(s16b i)
2331 /* Return NULL for an invalid index */
2332 if ((i < 1) || (i >= quark__num)) return NULL;
2334 /* Access the quark */
2337 /* Return the quark */
2345 * Second try for the "message" handling routines.
2347 * Each call to "message_add(s)" will add a new "most recent" message
2348 * to the "message recall list", using the contents of the string "s".
2350 * The messages will be stored in such a way as to maximize "efficiency",
2351 * that is, we attempt to maximize the number of sequential messages that
2352 * can be retrieved, given a limited amount of storage space.
2354 * We keep a buffer of chars to hold the "text" of the messages, not
2355 * necessarily in "order", and an array of offsets into that buffer,
2356 * representing the actual messages. This is made more complicated
2357 * by the fact that both the array of indexes, and the buffer itself,
2358 * are both treated as "circular arrays" for efficiency purposes, but
2359 * the strings may not be "broken" across the ends of the array.
2361 * The "message_add()" function is rather "complex", because it must be
2362 * extremely efficient, both in space and time, for use with the Borg.
2368 * How many messages are "available"?
2370 s16b message_num(void)
2374 /* Extract the indexes */
2375 last = message__last;
2376 next = message__next;
2379 if (next < last) next += MESSAGE_MAX;
2381 /* Extract the space */
2384 /* Return the result */
2391 * Recall the "text" of a saved message
2393 cptr message_str(int age)
2399 /* Forgotten messages have no text */
2400 if ((age < 0) || (age >= message_num())) return ("");
2402 /* Acquire the "logical" index */
2403 x = (message__next + MESSAGE_MAX - (age + 1)) % MESSAGE_MAX;
2405 /* Get the "offset" for the message */
2406 o = message__ptr[x];
2408 /* Access the message text */
2409 s = &message__buf[o];
2411 /* Return the message text */
2418 * Add a new message, with great efficiency
2420 void message_add(cptr str)
2428 /*** Step 1 -- Analyze the message ***/
2430 /* Hack -- Ignore "non-messages" */
2433 /* Message length */
2436 /* Important Hack -- Ignore "long" messages */
2437 if (n >= MESSAGE_BUF / 4) return;
2439 /* extra step -- split the message if n>80. (added by Mogami) */
2444 for (n = 0; n < 80; n++, t++)
2449 if (n == 81) n = 79; /* ºÇ¸å¤Îʸ»ú¤¬´Á»úȾʬ */
2451 for (n = 80; n > 60; n--)
2452 if (str[n] == ' ') break;
2456 splitted2 = str + n;
2457 strncpy(splitted1, str ,n);
2458 splitted1[n] = '\0';
2464 /*** Step 2 -- Attempt to optimize ***/
2466 /* Limit number of messages to check */
2471 /* Limit number of messages to check */
2472 if (k > MESSAGE_MAX / 32) k = MESSAGE_MAX / 32;
2474 /* Check previous message */
2475 for (i = message__next; m; m--)
2484 /* Back up and wrap if needed */
2485 if (i-- == 0) i = MESSAGE_MAX - 1;
2487 /* Access the old string */
2488 old = &message__buf[message__ptr[i]];
2490 /* Skip small messages */
2497 for (t = buf; *t && (*t != '<' || (*(t+1) != 'x' )); t++)
2498 if( iskanji(*t))t++;
2500 for (t = buf; *t && (*t != '<'); t++);
2505 /* Message is too small */
2506 if (strlen(buf) < 6) break;
2508 /* Drop the space */
2511 /* Get multiplier */
2515 /* Limit the multiplier to 1000 */
2516 if (streq(buf, str) && (j < 1000))
2526 sprintf(u, "%s <x%d>", buf, j);
2528 /* Message length */
2531 if (!now_message) now_message++;
2535 num_more++;/*ή¤ì¤¿¹Ô¤Î¿ô¤ò¿ô¤¨¤Æ¤ª¤¯ */
2543 /* Check the last few messages (if any to count) */
2544 for (i = message__next; k; k--)
2550 /* Back up and wrap if needed */
2551 if (i-- == 0) i = MESSAGE_MAX - 1;
2553 /* Stop before oldest message */
2554 if (i == message__last) break;
2556 /* Extract "distance" from "head" */
2557 q = (message__head + MESSAGE_BUF - message__ptr[i]) % MESSAGE_BUF;
2559 /* Do not optimize over large distance */
2560 if (q > MESSAGE_BUF / 2) continue;
2562 /* Access the old string */
2563 old = &message__buf[message__ptr[i]];
2566 if (!streq(old, str)) continue;
2568 /* Get the next message index, advance */
2569 x = message__next++;
2572 if (message__next == MESSAGE_MAX) message__next = 0;
2574 /* Kill last message if needed */
2575 if (message__next == message__last) message__last++;
2578 if (message__last == MESSAGE_MAX) message__last = 0;
2580 /* Assign the starting address */
2581 message__ptr[x] = message__ptr[i];
2585 goto end_of_message_add;
2590 /*** Step 3 -- Ensure space before end of buffer ***/
2592 /* Kill messages and Wrap if needed */
2593 if (message__head + n + 1 >= MESSAGE_BUF)
2595 /* Kill all "dead" messages */
2596 for (i = message__last; TRUE; i++)
2598 /* Wrap if needed */
2599 if (i == MESSAGE_MAX) i = 0;
2601 /* Stop before the new message */
2602 if (i == message__next) break;
2604 /* Kill "dead" messages */
2605 if (message__ptr[i] >= message__head)
2607 /* Track oldest message */
2608 message__last = i + 1;
2612 /* Wrap "tail" if needed */
2613 if (message__tail >= message__head) message__tail = 0;
2620 /*** Step 4 -- Ensure space before next message ***/
2622 /* Kill messages if needed */
2623 if (message__head + n + 1 > message__tail)
2625 /* Grab new "tail" */
2626 message__tail = message__head + n + 1;
2628 /* Advance tail while possible past first "nul" */
2629 while (message__buf[message__tail-1]) message__tail++;
2631 /* Kill all "dead" messages */
2632 for (i = message__last; TRUE; i++)
2634 /* Wrap if needed */
2635 if (i == MESSAGE_MAX) i = 0;
2637 /* Stop before the new message */
2638 if (i == message__next) break;
2640 /* Kill "dead" messages */
2641 if ((message__ptr[i] >= message__head) &&
2642 (message__ptr[i] < message__tail))
2644 /* Track oldest message */
2645 message__last = i + 1;
2651 /*** Step 5 -- Grab a new message index ***/
2653 /* Get the next message index, advance */
2654 x = message__next++;
2657 if (message__next == MESSAGE_MAX) message__next = 0;
2659 /* Kill last message if needed */
2660 if (message__next == message__last) message__last++;
2663 if (message__last == MESSAGE_MAX) message__last = 0;
2667 /*** Step 6 -- Insert the message text ***/
2669 /* Assign the starting address */
2670 message__ptr[x] = message__head;
2672 /* Append the new part of the message */
2673 for (i = 0; i < n; i++)
2675 /* Copy the message */
2676 message__buf[message__head + i] = str[i];
2680 message__buf[message__head + i] = '\0';
2682 /* Advance the "head" pointer */
2683 message__head += n + 1;
2685 /* recursively add splitted message (added by Mogami) */
2687 if (splitted2 != NULL)
2688 message_add(splitted2);
2696 static void msg_flush(int x)
2698 byte a = TERM_L_BLUE;
2699 bool nagasu = FALSE;
2701 if ((auto_more && !now_damaged) || num_more < 0){
2703 for (i = 0; i < 8; i++)
2705 if (angband_term[i] && (window_flag[i] & PW_MESSAGE)) break;
2709 if (num_more < angband_term[i]->hgt) nagasu = TRUE;
2716 now_damaged = FALSE;
2718 if (!p_ptr->playing || !nagasu)
2720 /* Pause for response */
2722 Term_putstr(x, 0, -1, a, "-³¤¯-");
2724 Term_putstr(x, 0, -1, a, "-more-");
2728 /* Get an acceptable keypress */
2732 if (cmd == ESCAPE) {
2733 num_more = -9999; /*auto_more¤Î¤È¤¡¢Á´¤Æή¤¹¡£ */
2735 } else if (cmd == ' ') {
2736 num_more = 0; /*£±²èÌ̤À¤±Î®¤¹¡£ */
2738 } else if ((cmd == '\n') || (cmd == '\r')) {
2739 num_more--; /*£±¹Ô¤À¤±Î®¤¹¡£ */
2742 if (quick_messages) break;
2747 /* Clear the line */
2748 Term_erase(0, 0, 255);
2753 * Output a message to the top line of the screen.
2755 * Break long messages into multiple pieces (40-72 chars).
2757 * Allow multiple short messages to "share" the top line.
2759 * Prompt the user to make sure he has a chance to read them.
2761 * These messages are memorized for later reference (see above).
2763 * We could do "Term_fresh()" to provide "flicker" if needed.
2765 * The global "msg_flag" variable can be cleared to tell us to
2766 * "erase" any "pending" messages still on the screen.
2768 * XXX XXX XXX Note that we must be very careful about using the
2769 * "msg_print()" functions without explicitly calling the special
2770 * "msg_print(NULL)" function, since this may result in the loss
2771 * of information if the screen is cleared, or if anything is
2772 * displayed on the top line.
2774 * XXX XXX XXX Note that "msg_print(NULL)" will clear the top line
2775 * even if no messages are pending. This is probably a hack.
2777 void msg_print(cptr msg)
2787 if (world_monster) return;
2791 /* Clear the line */
2792 Term_erase(0, 0, 255);
2796 /* Message Length */
2797 n = (msg ? strlen(msg) : 0);
2799 /* Hack -- flush when requested or needed */
2800 if (p && (!msg || ((p + n) > 72)))
2817 if (n > 1000) return;
2820 /* Memorize the message */
2821 if (character_generated) message_add(msg);
2827 /* Analyze the buffer */
2834 int check, split = 72;
2837 bool k_flag = FALSE;
2840 /* Find the "best" split point */
2841 for (check = 0; check < 72; check++)
2849 /* Found a valid split point */
2850 if (iskanji(t[check]))
2855 else if (t[check] == ' ')
2868 /* Find the "best" split point */
2869 for (check = 40; check < 72; check++)
2871 /* Found a valid split point */
2872 if (t[check] == ' ') split = check;
2876 /* Save the split character */
2879 /* Split the message */
2882 /* Display part of the message */
2883 Term_putstr(0, 0, split, TERM_WHITE, t);
2886 msg_flush(split + 1);
2888 /* Memorize the piece */
2889 /* if (character_generated) message_add(t); */
2891 /* Restore the split character */
2894 /* Insert a space */
2897 /* Prepare to recurse on the rest of "buf" */
2898 t += split; n -= split;
2902 /* Display the tail of the message */
2903 Term_putstr(p, 0, n, TERM_WHITE, t);
2905 /* Memorize the tail */
2906 /* if (character_generated) message_add(t); */
2909 p_ptr->window |= (PW_MESSAGE);
2912 /* Remember the message */
2915 /* Remember the position */
2923 /* Optional refresh */
2924 if (fresh_message) Term_fresh();
2929 * Hack -- prevent "accidents" in "screen_save()" or "screen_load()"
2931 static int screen_depth = 0;
2935 * Save the screen, and increase the "icky" depth.
2937 * This function must match exactly one call to "screen_load()".
2939 void screen_save(void)
2941 /* Hack -- Flush messages */
2944 /* Save the screen (if legal) */
2945 if (screen_depth++ == 0) Term_save();
2947 /* Increase "icky" depth */
2953 * Load the screen, and decrease the "icky" depth.
2955 * This function must match exactly one call to "screen_save()".
2957 void screen_load(void)
2959 /* Hack -- Flush messages */
2962 /* Load the screen (if legal) */
2963 if (--screen_depth == 0) Term_load();
2965 /* Decrease "icky" depth */
2971 * Display a formatted message, using "vstrnfmt()" and "msg_print()".
2973 void msg_format(cptr fmt, ...)
2979 /* Begin the Varargs Stuff */
2982 /* Format the args, save the length */
2983 (void)vstrnfmt(buf, 1024, fmt, vp);
2985 /* End the Varargs Stuff */
2995 * Display a string on the screen using an attribute.
2997 * At the given location, using the given attribute, if allowed,
2998 * add the given string. Do not clear the line.
3000 void c_put_str(byte attr, cptr str, int row, int col)
3002 /* Position cursor, Dump the attr/text */
3003 Term_putstr(col, row, -1, attr, str);
3007 * As above, but in "white"
3009 void put_str(cptr str, int row, int col)
3012 Term_putstr(col, row, -1, TERM_WHITE, str);
3018 * Display a string on the screen using an attribute, and clear
3019 * to the end of the line.
3021 void c_prt(byte attr, cptr str, int row, int col)
3023 /* Clear line, position cursor */
3024 Term_erase(col, row, 255);
3026 /* Dump the attr/text */
3027 Term_addstr(-1, attr, str);
3031 * As above, but in "white"
3033 void prt(cptr str, int row, int col)
3036 c_prt(TERM_WHITE, str, row, col);
3043 * Print some (colored) text to the screen at the current cursor position,
3044 * automatically "wrapping" existing text (at spaces) when necessary to
3045 * avoid placing any text into the last column, and clearing every line
3046 * before placing any text in that line. Also, allow "newline" to force
3047 * a "wrap" to the next line. Advance the cursor as needed so sequential
3048 * calls to this function will work correctly.
3050 * Once this function has been called, the cursor should not be moved
3051 * until all the related "c_roff()" calls to the window are complete.
3053 * This function will correctly handle any width up to the maximum legal
3054 * value of 256, though it works best for a standard 80 character width.
3056 void c_roff(byte a, cptr str)
3064 /* Obtain the size */
3065 (void)Term_get_size(&w, &h);
3067 /* Obtain the cursor */
3068 (void)Term_locate(&x, &y);
3070 /* Hack -- No more space */
3071 if( y == h - 1 && x > w - 3) return;
3073 /* Process the string */
3074 for (s = str; *s; s++)
3079 int k_flag = iskanji(*s);
3091 /* Clear line, move cursor */
3092 Term_erase(x, y, 255);
3097 /* Clean up the char */
3099 ch = ((isprint(*s) || k_flag) ? *s : ' ');
3101 ch = (isprint(*s) ? *s : ' ');
3105 /* Wrap words as needed */
3107 if (( x >= ( (k_flag) ? w - 2 : w - 1 ) ) && (ch != ' '))
3109 if ((x >= w - 1) && (ch != ' '))
3122 /* ¸½ºß¤¬È¾³Ñʸ»ú¤Î¾ì¹ç */
3126 /* Scan existing text */
3127 for (i = w - 2; i >= 0; i--)
3129 /* Grab existing attr/char */
3130 Term_what(i, y, &av[i], &cv[i]);
3132 /* Break on space */
3133 if (cv[i] == ' ') break;
3135 /* Track current word */
3138 if (cv[i] == '(') break;
3146 /* ¸½ºß¤¬Á´³Ñʸ»ú¤Î¤È¤ */
3147 /* ʸƬ¤¬¡Ö¡£¡×¡Ö¡¢¡×Åù¤Ë¤Ê¤ë¤È¤¤Ï¡¢¤½¤Î£±¤ÄÁ°¤Î¸ì¤Ç²þ¹Ô */
3148 if (strncmp(s, "¡£", 2) == 0 || strncmp(s, "¡¢", 2) == 0
3149 #if 0 /* °ìÈÌŪ¤Ë¤Ï¡Ö¥£¡×¡Ö¡¼¡×¤Ï¶Ø§¤ÎÂоݳ° */
3150 || strncmp(s, "¥£", 2) == 0 || strncmp(s, "¡¼", 2) == 0
3153 Term_what(x , y, &av[x ], &cv[x ]);
3154 Term_what(x-1, y, &av[x-1], &cv[x-1]);
3155 Term_what(x-2, y, &av[x-2], &cv[x-2]);
3166 Term_erase(n, y, 255);
3175 /* Clear line, move cursor */
3176 Term_erase(x, y, 255);
3178 /* Wrap the word (if any) */
3179 for (i = n; i < w - 1; i++)
3182 if( cv[i] == '\0' ) break;
3185 Term_addch(av[i], cv[i]);
3187 /* Advance (no wrap) */
3194 Term_addch((byte)(a|0x10), ch);
3206 Term_addch((byte)(a|0x20), ch);
3215 * As above, but in "white"
3220 c_roff(TERM_WHITE, str);
3227 * Clear part of the screen
3229 void clear_from(int row)
3233 /* Erase requested rows */
3234 for (y = row; y < Term->hgt; y++)
3236 /* Erase part of the screen */
3237 Term_erase(0, y, 255);
3245 * Get some string input at the cursor location.
3246 * Assume the buffer is initialized to a default string.
3248 * The default buffer is in Overwrite mode and displayed in yellow at
3249 * first. Normal chars clear the yellow text and append the char in
3252 * LEFT (^B) and RIGHT (^F) movement keys move the cursor position.
3253 * If the text is still displayed in yellow (Overwite mode), it will
3254 * turns into white (Insert mode) when cursor moves.
3256 * DELETE (^D) deletes a char at the cursor position.
3257 * BACKSPACE (^H) deletes a char at the left of cursor position.
3258 * ESCAPE clears the buffer and the window and returns FALSE.
3259 * RETURN accepts the current buffer contents and returns TRUE.
3261 bool askfor_aux(char *buf, int len, bool numpad_cursor)
3268 * TERM_YELLOW : Overwrite mode
3269 * TERM_WHITE : Insert mode
3271 byte color = TERM_YELLOW;
3273 /* Locate the cursor position */
3274 Term_locate(&x, &y);
3276 /* Paranoia -- check len */
3277 if (len < 1) len = 1;
3279 /* Paranoia -- check column */
3280 if ((x < 0) || (x >= 80)) x = 0;
3282 /* Restrict the length */
3283 if (x + len > 80) len = 80 - x;
3285 /* Paranoia -- Clip the default entry */
3294 /* Display the string */
3295 Term_erase(x, y, len);
3296 Term_putstr(x, y, -1, color, buf);
3299 Term_gotoxy(x + pos, y);
3301 /* Get a special key code */
3302 skey = inkey_special(numpad_cursor);
3304 /* Analyze the key */
3312 /* Now on insert mode */
3315 /* No move at beginning of line */
3316 if (0 == pos) break;
3320 int next_pos = i + 1;
3323 if (iskanji(buf[i])) next_pos++;
3326 /* Is there the cursor at next position? */
3327 if (next_pos >= pos) break;
3333 /* Get previous position */
3341 /* Now on insert mode */
3344 /* No move at end of line */
3345 if ('\0' == buf[pos]) break;
3349 if (iskanji(buf[pos])) pos += 2;
3372 /* Now on insert mode */
3375 /* No move at beginning of line */
3376 if (0 == pos) break;
3380 int next_pos = i + 1;
3383 if (iskanji(buf[i])) next_pos++;
3386 /* Is there the cursor at next position? */
3387 if (next_pos >= pos) break;
3393 /* Get previous position */
3396 /* Fall through to 'Delete key' */
3405 /* Now on insert mode */
3408 /* No move at end of line */
3409 if ('\0' == buf[pos]) break;
3411 /* Position of next character */
3415 /* Next character is one more byte away */
3416 if (iskanji(buf[pos])) src++;
3421 /* Move characters at src to dst */
3422 while ('\0' != (buf[dst++] = buf[src++]))
3430 /* Insert a character */
3435 /* Ignore special keys */
3436 if (skey & SKEY_MASK) break;
3438 /* Get a character code */
3441 if (color == TERM_YELLOW)
3443 /* Overwrite default string */
3446 /* Go to insert mode */
3450 /* Save right part of string */
3451 strcpy(tmp, buf + pos);
3457 /* Bypass macro processing */
3475 if (pos < len && (isprint(c) || iskana(c)))
3477 if (pos < len && isprint(c))
3491 /* Write back the left part of string */
3492 my_strcat(buf, tmp, len + 1);
3499 } /* while (TRUE) */
3504 * Get some string input at the cursor location.
3506 * Allow to use numpad keys as cursor keys.
3508 bool askfor(char *buf, int len)
3510 return askfor_aux(buf, len, TRUE);
3515 * Get a string from the user
3517 * The "prompt" should take the form "Prompt: "
3519 * Note that the initial contents of the string is used as
3520 * the default response, so be sure to "clear" it if needed.
3522 * We clear the input, and return FALSE, on "ESCAPE".
3524 bool get_string(cptr prompt, char *buf, int len)
3528 /* Paranoia XXX XXX XXX */
3531 /* Display prompt */
3534 /* Ask the user for a string */
3535 res = askfor(buf, len);
3546 * Verify something with the user
3548 * The "prompt" should take the form "Query? "
3550 * Note that "[y/n]" is appended to the prompt.
3552 bool get_check(cptr prompt)
3554 return get_check_strict(prompt, 0);
3558 * Verify something with the user strictly
3560 * mode & CHECK_OKAY_CANCEL : force user to answer 'O'kay or 'C'ancel
3561 * mode & CHECK_NO_ESCAPE : don't allow ESCAPE key
3562 * mode & CHECK_NO_HISTORY : no message_add
3563 * mode & CHECK_DEFAULT_Y : accept any key as y, except n and Esc.
3565 bool get_check_strict(cptr prompt, int mode)
3573 p_ptr->window |= PW_MESSAGE;
3578 /* Paranoia XXX XXX XXX */
3581 if (!rogue_like_commands)
3582 mode &= ~CHECK_OKAY_CANCEL;
3585 /* Hack -- Build a "useful" prompt */
3586 if (mode & CHECK_OKAY_CANCEL)
3588 my_strcpy(buf, prompt, sizeof(buf)-15);
3589 strcat(buf, "[(O)k/(C)ancel]");
3591 else if (mode & CHECK_DEFAULT_Y)
3593 my_strcpy(buf, prompt, sizeof(buf)-5);
3594 strcat(buf, "[Y/n]");
3598 my_strcpy(buf, prompt, sizeof(buf)-5);
3599 strcat(buf, "[y/n]");
3605 if (!(mode & CHECK_NO_HISTORY) && p_ptr->playing)
3607 /* HACK : Add the line to message buffer */
3609 p_ptr->window |= (PW_MESSAGE);
3613 /* Get an acceptable answer */
3618 if (!(mode & CHECK_NO_ESCAPE))
3627 if (mode & CHECK_OKAY_CANCEL)
3629 if (i == 'o' || i == 'O')
3634 else if (i == 'c' || i == 'C')
3642 if (i == 'y' || i == 'Y')
3647 else if (i == 'n' || i == 'N')
3654 if (mode & CHECK_DEFAULT_Y)
3663 /* Erase the prompt */
3666 /* Return the flag */
3672 * Prompts for a keypress
3674 * The "prompt" should take the form "Command: "
3676 * Returns TRUE unless the character is "Escape"
3678 bool get_com(cptr prompt, char *command, bool z_escape)
3680 /* Paranoia XXX XXX XXX */
3683 /* Display a prompt */
3687 if (get_com_no_macros)
3688 *command = inkey_special(FALSE);
3692 /* Clear the prompt */
3695 /* Handle "cancel" */
3696 if (*command == ESCAPE) return (FALSE);
3697 if (z_escape && ((*command == 'z') || (*command == 'Z'))) return (FALSE);
3705 * Request a "quantity" from the user
3707 * Hack -- allow "command_arg" to specify a quantity
3709 s16b get_quantity(cptr prompt, int max)
3717 /* Use "command_arg" */
3720 /* Extract a number */
3723 /* Clear "command_arg" */
3726 /* Enforce the maximum */
3727 if (amt > max) amt = max;
3733 #ifdef ALLOW_REPEAT /* TNB */
3735 /* Get the item index */
3736 if ((max != 1) && repeat_pull(&amt))
3738 /* Enforce the maximum */
3739 if (amt > max) amt = max;
3741 /* Enforce the minimum */
3742 if (amt < 0) amt = 0;
3748 #endif /* ALLOW_REPEAT -- TNB */
3750 /* Build a prompt if needed */
3753 /* Build a prompt */
3755 sprintf(tmp, "¤¤¤¯¤Ä¤Ç¤¹¤« (1-%d): ", max);
3757 sprintf(tmp, "Quantity (1-%d): ", max);
3761 /* Use that prompt */
3765 /* Paranoia XXX XXX XXX */
3768 /* Display prompt */
3771 /* Default to one */
3774 /* Build the default */
3775 sprintf(buf, "%d", amt);
3778 * Ask for a quantity
3779 * Don't allow to use numpad as cursor key.
3781 res = askfor_aux(buf, 6, FALSE);
3789 /* Extract a number */
3792 /* A letter means "all" */
3793 if (isalpha(buf[0])) amt = max;
3795 /* Enforce the maximum */
3796 if (amt > max) amt = max;
3798 /* Enforce the minimum */
3799 if (amt < 0) amt = 0;
3801 #ifdef ALLOW_REPEAT /* TNB */
3803 if (amt) repeat_push(amt);
3805 #endif /* ALLOW_REPEAT -- TNB */
3807 /* Return the result */
3813 * Pause for user response XXX XXX XXX
3815 void pause_line(int row)
3819 put_str("[ ²¿¤«¥¡¼¤ò²¡¤·¤Æ²¼¤µ¤¤ ]", row, 26);
3821 put_str("[Press any key to continue]", row, 23);
3830 * Hack -- special buffer to hold the action of the current keymap
3832 static char request_command_buffer[256];
3844 menu_naiyou menu_info[10][10] =
3847 {"ËâË¡/ÆüìǽÎÏ", 1, FALSE},
3849 {"Æ»¶ñ(»ÈÍÑ)", 3, FALSE},
3850 {"Æ»¶ñ(¤½¤Î¾)", 4, FALSE},
3852 {"Èâ/È¢", 6, FALSE},
3855 {"¤½¤Î¾", 9, FALSE},
3860 {"»È¤¦(m)", 'm', TRUE},
3861 {"Ä´¤Ù¤ë(b/P)", 'b', TRUE},
3862 {"³Ð¤¨¤ë(G)", 'G', TRUE},
3863 {"ÆüìǽÎϤò»È¤¦(U/O)", 'U', TRUE},
3873 {"µÙ©¤¹¤ë(R)", 'R', TRUE},
3874 {"¥È¥é¥Ã¥×²ò½ü(D)", 'D', TRUE},
3875 {"õ¤¹(s)", 's', TRUE},
3876 {"¼þ¤ê¤òÄ´¤Ù¤ë(l/x)", 'l', TRUE},
3877 {"¥¿¡¼¥²¥Ã¥È»ØÄê(*)", '*', TRUE},
3878 {"·ê¤ò·¡¤ë(T/^t)", 'T', TRUE},
3879 {"³¬Ãʤò¾å¤ë(<)", '<', TRUE},
3880 {"³¬Ãʤò²¼¤ê¤ë(>)", '>', TRUE},
3881 {"¥Ú¥Ã¥È¤ËÌ¿Î᤹¤ë(p)", 'p', TRUE},
3882 {"õº÷¥â¡¼¥É¤ÎON/OFF(S/#)", 'S', TRUE}
3886 {"Æɤà(r)", 'r', TRUE},
3887 {"°û¤à(q)", 'q', TRUE},
3888 {"¾ó¤ò»È¤¦(u/Z)", 'u', TRUE},
3889 {"ËâË¡ËÀ¤ÇÁÀ¤¦(a/z)", 'a', TRUE},
3890 {"¥í¥Ã¥É¤ò¿¶¤ë(z/a)", 'z', TRUE},
3891 {"»ÏÆ°¤¹¤ë(A)", 'A', TRUE},
3892 {"¿©¤Ù¤ë(E)", 'E', TRUE},
3893 {"Èô¤ÓÆ»¶ñ¤Ç·â¤Ä(f/t)", 'f', TRUE},
3894 {"Åꤲ¤ë(v)", 'v', TRUE},
3899 {"½¦¤¦(g)", 'g', TRUE},
3900 {"Íî¤È¤¹(d)", 'd', TRUE},
3901 {"²õ¤¹(k/^d)", 'k', TRUE},
3902 {"Ìäò¹ï¤à({)", '{', TRUE},
3903 {"Ìäò¾Ã¤¹(})", '}', TRUE},
3904 {"Ä´ºº(I)", 'I', TRUE},
3905 {"¥¢¥¤¥Æ¥à°ìÍ÷(i)", 'i', TRUE},
3912 {"ÁõÈ÷¤¹¤ë(w)", 'w', TRUE},
3913 {"ÁõÈ÷¤ò³°¤¹(t/T)", 't', TRUE},
3914 {"dzÎÁ¤òÊäµë(F)", 'F', TRUE},
3915 {"ÁõÈ÷°ìÍ÷(e)", 'e', TRUE},
3925 {"³«¤±¤ë(o)", 'o', TRUE},
3926 {"ÊĤ¸¤ë(c)", 'c', TRUE},
3927 {"ÂÎÅö¤¿¤ê¤¹¤ë(B/f)", 'B', TRUE},
3928 {"¤¯¤µ¤Ó¤òÂǤÄ(j/S)", 'j', TRUE},
3938 {"¥À¥ó¥¸¥ç¥ó¤ÎÁ´ÂοÞ(M)", 'M', TRUE},
3939 {"°ÌÃÖ¤ò³Îǧ(L/W)", 'L', TRUE},
3940 {"³¬¤ÎÊ·°Ïµ¤(^f)", KTRL('F'), TRUE},
3941 {"¥¹¥Æ¡¼¥¿¥¹(C)", 'C', TRUE},
3942 {"ʸ»ú¤ÎÀâÌÀ(/)", '/', TRUE},
3943 {"¥á¥Ã¥»¡¼¥¸ÍúÎò(^p)", KTRL('P'), TRUE},
3944 {"¸½ºß¤Î»þ¹ï(^t/')", KTRL('T'), TRUE},
3945 {"¸½ºß¤ÎÃμ±(~)", '~', TRUE},
3946 {"¥×¥ì¥¤µÏ¿(|)", '|', TRUE},
3951 {"¥ª¥×¥·¥ç¥ó(=)", '=', TRUE},
3952 {"¥Þ¥¯¥í(@)", '@', TRUE},
3953 {"²èÌÌɽ¼¨(%)", '%', TRUE},
3954 {"¥«¥é¡¼(&)", '&', TRUE},
3955 {"ÀßÄêÊѹ¹¥³¥Þ¥ó¥É(\")", '\"', TRUE},
3956 {"¼«Æ°½¦¤¤¤ò¥í¡¼¥É($)", '$', TRUE},
3957 {"¥·¥¹¥Æ¥à(!)", '!', TRUE},
3964 {"¥»¡¼¥Ö&ÃæÃÇ(^x)", KTRL('X'), TRUE},
3965 {"¥»¡¼¥Ö(^s)", KTRL('S'), TRUE},
3966 {"¥Ø¥ë¥×(?)", '?', TRUE},
3967 {"ºÆÉÁ²è(^r)", KTRL('R'), TRUE},
3968 {"¥á¥â(:)", ':', TRUE},
3969 {"µÇ°»£±Æ())", ')', TRUE},
3970 {"µÇ°»£±Æ¤Îɽ¼¨(()", '(', TRUE},
3971 {"¥Ð¡¼¥¸¥ç¥ó¾ðÊó(V)", 'V', TRUE},
3972 {"°úÂह¤ë(Q)", 'Q', TRUE},
3977 menu_naiyou menu_info[10][10] =
3980 {"Magic/Special", 1, FALSE},
3981 {"Action", 2, FALSE},
3982 {"Items(use)", 3, FALSE},
3983 {"Items(other)", 4, FALSE},
3984 {"Equip", 5, FALSE},
3985 {"Door/Box", 6, FALSE},
3986 {"Informations", 7, FALSE},
3987 {"Options", 8, FALSE},
3988 {"Other commands", 9, FALSE},
3993 {"Use(m)", 'm', TRUE},
3994 {"See tips(b/P)", 'b', TRUE},
3995 {"Study(G)", 'G', TRUE},
3996 {"Special abilities(U/O)", 'U', TRUE},
4006 {"Rest(R)", 'R', TRUE},
4007 {"Disarm a trap(D)", 'D', TRUE},
4008 {"Search(s)", 's', TRUE},
4009 {"Look(l/x)", 'l', TRUE},
4010 {"Target(*)", '*', TRUE},
4011 {"Dig(T/^t)", 'T', TRUE},
4012 {"Go up stairs(<)", '<', TRUE},
4013 {"Go down stairs(>)", '>', TRUE},
4014 {"Command pets(p)", 'p', TRUE},
4015 {"Search mode ON/OFF(S/#)", 'S', TRUE}
4019 {"Read a scroll(r)", 'r', TRUE},
4020 {"Drink a potion(q)", 'q', TRUE},
4021 {"Use a staff(u/Z)", 'u', TRUE},
4022 {"Aim a wand(a/z)", 'a', TRUE},
4023 {"Zap a rod(z/a)", 'z', TRUE},
4024 {"Activate an equipment(A)", 'A', TRUE},
4025 {"Eat(E)", 'E', TRUE},
4026 {"Fire missile weapon(f/t)", 'f', TRUE},
4027 {"Throw an item(v)", 'v', TRUE},
4032 {"Get items(g)", 'g', TRUE},
4033 {"Drop an item(d)", 'd', TRUE},
4034 {"Destroy an item(k/^d)", 'k', TRUE},
4035 {"Inscribe an item({)", '{', TRUE},
4036 {"Uninscribe an item(})", '}', TRUE},
4037 {"Info about an item(I)", 'I', TRUE},
4038 {"Inventory list(i)", 'i', TRUE},
4045 {"Wear(w)", 'w', TRUE},
4046 {"Take off(t/T)", 't', TRUE},
4047 {"Refuel(F)", 'F', TRUE},
4048 {"Equipment list(e)", 'e', TRUE},
4058 {"Open(o)", 'o', TRUE},
4059 {"Close(c)", 'c', TRUE},
4060 {"Bash a door(B/f)", 'B', TRUE},
4061 {"Jam a door(j/S)", 'j', TRUE},
4071 {"Full map(M)", 'M', TRUE},
4072 {"Map(L/W)", 'L', TRUE},
4073 {"Level feeling(^f)", KTRL('F'), TRUE},
4074 {"Character status(C)", 'C', TRUE},
4075 {"Identify symbol(/)", '/', TRUE},
4076 {"Show prev messages(^p)", KTRL('P'), TRUE},
4077 {"Current time(^t/')", KTRL('T'), TRUE},
4078 {"Various informations(~)", '~', TRUE},
4079 {"Play record menu(|)", '|', TRUE},
4084 {"Set options(=)", '=', TRUE},
4085 {"Interact with macros(@)", '@', TRUE},
4086 {"Interact w/ visuals(%)", '%', TRUE},
4087 {"Interact with colors(&)", '&', TRUE},
4088 {"Enter a user pref(\")", '\"', TRUE},
4089 {"Reload auto-pick pref($)", '$', TRUE},
4097 {"Save and quit(^x)", KTRL('X'), TRUE},
4098 {"Save(^s)", KTRL('S'), TRUE},
4099 {"Help(obsoleted)(?)", '?', TRUE},
4100 {"Redraw(^r)", KTRL('R'), TRUE},
4101 {"Take note(:)", ':', TRUE},
4102 {"Dump screen dump(()", ')', TRUE},
4103 {"Load screen dump())", '(', TRUE},
4104 {"Version info(V)", 'V', TRUE},
4105 {"Quit(Q)", 'Q', TRUE},
4118 } special_menu_naiyou;
4120 #define MENU_CLASS 1
4124 special_menu_naiyou special_menu_info[] =
4126 {"ĶǽÎÏ/ÆüìǽÎÏ", 0, 0, MENU_CLASS, CLASS_MINDCRAFTER},
4127 {"¤â¤Î¤Þ¤Í/ÆüìǽÎÏ", 0, 0, MENU_CLASS, CLASS_IMITATOR},
4128 {"²Î/ÆüìǽÎÏ", 0, 0, MENU_CLASS, CLASS_BARD},
4129 {"ɬ»¦µ»/ÆüìǽÎÏ", 0, 0, MENU_CLASS, CLASS_SAMURAI},
4130 {"Îýµ¤½Ñ/ËâË¡/ÆüìǽÎÏ", 0, 0, MENU_CLASS, CLASS_FORCETRAINER},
4131 {"µ»/ÆüìǽÎÏ", 0, 0, MENU_CLASS, CLASS_BERSERKER},
4132 {"µ»½Ñ/ÆüìǽÎÏ", 0, 0, MENU_CLASS, CLASS_SMITH},
4133 {"¶ÀËâË¡/ÆüìǽÎÏ", 0, 0, MENU_CLASS, CLASS_MIRROR_MASTER},
4134 {"Ǧ½Ñ/ÆüìǽÎÏ", 0, 0, MENU_CLASS, CLASS_NINJA},
4135 {"¹°è¥Þ¥Ã¥×(<)", 2, 6, MENU_WILD, FALSE},
4136 {"Ä̾ï¥Þ¥Ã¥×(>)", 2, 7, MENU_WILD, TRUE},
4140 special_menu_naiyou special_menu_info[] =
4142 {"MindCraft/Special", 0, 0, MENU_CLASS, CLASS_MINDCRAFTER},
4143 {"Imitation/Special", 0, 0, MENU_CLASS, CLASS_IMITATOR},
4144 {"Song/Special", 0, 0, MENU_CLASS, CLASS_BARD},
4145 {"Technique/Special", 0, 0, MENU_CLASS, CLASS_SAMURAI},
4146 {"Mind/Magic/Special", 0, 0, MENU_CLASS, CLASS_FORCETRAINER},
4147 {"BrutalPower/Special", 0, 0, MENU_CLASS, CLASS_BERSERKER},
4148 {"Technique/Special", 0, 0, MENU_CLASS, CLASS_SMITH},
4149 {"MirrorMagic/Special", 0, 0, MENU_CLASS, CLASS_MIRROR_MASTER},
4150 {"Ninjutsu/Special", 0, 0, MENU_CLASS, CLASS_NINJA},
4151 {"Enter global map(<)", 2, 6, MENU_WILD, FALSE},
4152 {"Enter local map(>)", 2, 7, MENU_WILD, TRUE},
4157 static char inkey_from_menu(void)
4161 int num = 0, max_num, old_num = 0;
4165 if (py - panel_row_min > 10) basey = 2;
4169 /* Clear top line */
4179 if (!menu) old_num = num;
4180 put_str("+----------------------------------------------------+", basey, basex);
4181 put_str("| |", basey+1, basex);
4182 put_str("| |", basey+2, basex);
4183 put_str("| |", basey+3, basex);
4184 put_str("| |", basey+4, basex);
4185 put_str("| |", basey+5, basex);
4186 put_str("+----------------------------------------------------+", basey+6, basex);
4188 for(i = 0; i < 10; i++)
4191 if (!menu_info[menu][i].cmd) break;
4192 menu_name = menu_info[menu][i].name;
4193 for(hoge = 0; ; hoge++)
4195 if (!special_menu_info[hoge].name[0]) break;
4196 if ((menu != special_menu_info[hoge].window) || (i != special_menu_info[hoge].number)) continue;
4197 switch(special_menu_info[hoge].jouken)
4200 if (p_ptr->pclass == special_menu_info[hoge].jouken_naiyou) menu_name = special_menu_info[hoge].name;
4203 if (!dun_level && !p_ptr->inside_arena && !p_ptr->inside_quest)
4205 if ((byte)p_ptr->wild_mode == special_menu_info[hoge].jouken_naiyou) menu_name = special_menu_info[hoge].name;
4212 put_str(menu_name, basey + 1 + i / 2, basex + 4 + (i % 2) * 24);
4215 kisuu = max_num % 2;
4217 put_str("¡Õ",basey + 1 + num / 2, basex + 2 + (num % 2) * 24);
4219 put_str("> ",basey + 1 + num / 2, basex + 2 + (num % 2) * 24);
4222 /* Place the cursor on the player */
4223 move_cursor_relative(py, px);
4227 if ((sub_cmd == ' ') || (sub_cmd == 'x') || (sub_cmd == 'X') || (sub_cmd == '\r') || (sub_cmd == '\n'))
4229 if (menu_info[menu][num].fin)
4231 cmd = menu_info[menu][num].cmd;
4237 menu = menu_info[menu][num].cmd;
4243 else if ((sub_cmd == ESCAPE) || (sub_cmd == 'z') || (sub_cmd == 'Z') || (sub_cmd == '0'))
4260 else if ((sub_cmd == '2') || (sub_cmd == 'j') || (sub_cmd == 'J'))
4265 num = (num + 2) % (max_num - 1);
4267 num = (num + 2) % (max_num + 1);
4269 else num = (num + 2) % max_num;
4271 else if ((sub_cmd == '8') || (sub_cmd == 'k') || (sub_cmd == 'K'))
4276 num = (num + max_num - 3) % (max_num - 1);
4278 num = (num + max_num - 1) % (max_num + 1);
4280 else num = (num + max_num - 2) % max_num;
4282 else if ((sub_cmd == '4') || (sub_cmd == '6') || (sub_cmd == 'h') || (sub_cmd == 'H') || (sub_cmd == 'l') || (sub_cmd == 'L'))
4284 if ((num % 2) || (num == max_num - 1))
4288 else if (num < max_num - 1)
4296 if (!inkey_next) inkey_next = "";
4302 * Request a command from the user.
4304 * Sets p_ptr->command_cmd, p_ptr->command_dir, p_ptr->command_rep,
4305 * p_ptr->command_arg. May modify p_ptr->command_new.
4307 * Note that "caret" ("^") is treated specially, and is used to
4308 * allow manual input of control characters. This can be used
4309 * on many machines to request repeated tunneling (Ctrl-H) and
4310 * on the Macintosh to request "Control-Caret".
4312 * Note that "backslash" is treated specially, and is used to bypass any
4313 * keymap entry for the following character. This is useful for macros.
4315 * Note that this command is used both in the dungeon and in
4316 * stores, and must be careful to work in both situations.
4318 * Note that "p_ptr->command_new" may not work any more. XXX XXX XXX
4320 void request_command(int shopping)
4333 if (rogue_like_commands)
4335 mode = KEYMAP_MODE_ROGUE;
4341 mode = KEYMAP_MODE_ORIG;
4345 /* No command yet */
4348 /* No "argument" yet */
4351 /* No "direction" yet */
4360 /* Hack -- auto-commands */
4363 /* Flush messages */
4366 /* Use auto-command */
4373 /* Get a keypress in "command" mode */
4376 /* Hack -- no flush needed */
4380 /* Activate "command mode" */
4386 if (!shopping && command_menu && ((cmd == '\r') || (cmd == '\n') || (cmd == 'x') || (cmd == 'X'))
4387 && !keymap_act[mode][(byte)(cmd)])
4388 cmd = inkey_from_menu();
4391 /* Clear top line */
4398 int old_arg = command_arg;
4403 /* Begin the input */
4405 prt("²ó¿ô: ", 0, 0);
4407 prt("Count: ", 0, 0);
4411 /* Get a command count */
4414 /* Get a new keypress */
4417 /* Simple editing (delete or backspace) */
4418 if ((cmd == 0x7F) || (cmd == KTRL('H')))
4420 /* Delete a digit */
4421 command_arg = command_arg / 10;
4423 /* Show current count */
4425 prt(format("²ó¿ô: %d", command_arg), 0, 0);
4427 prt(format("Count: %d", command_arg), 0, 0);
4432 /* Actual numeric data */
4433 else if (cmd >= '0' && cmd <= '9')
4435 /* Stop count at 9999 */
4436 if (command_arg >= 1000)
4445 /* Increase count */
4448 /* Incorporate that digit */
4449 command_arg = command_arg * 10 + D2I(cmd);
4452 /* Show current count */
4454 prt(format("²ó¿ô: %d", command_arg), 0, 0);
4456 prt(format("Count: %d", command_arg), 0, 0);
4461 /* Exit on "unusable" input */
4468 /* Hack -- Handle "zero" */
4469 if (command_arg == 0)
4474 /* Show current count */
4476 prt(format("²ó¿ô: %d", command_arg), 0, 0);
4478 prt(format("Count: %d", command_arg), 0, 0);
4483 /* Hack -- Handle "old_arg" */
4486 /* Restore old_arg */
4487 command_arg = old_arg;
4489 /* Show current count */
4491 prt(format("²ó¿ô: %d", command_arg), 0, 0);
4493 prt(format("Count: %d", command_arg), 0, 0);
4498 /* Hack -- white-space means "enter command now" */
4499 if ((cmd == ' ') || (cmd == '\n') || (cmd == '\r'))
4501 /* Get a real command */
4503 if (!get_com("¥³¥Þ¥ó¥É: ", (char *)&cmd, FALSE))
4505 if (!get_com("Command: ", (char *)&cmd, FALSE))
4519 /* Allow "keymaps" to be bypassed */
4522 /* Get a real command */
4524 (void)get_com("¥³¥Þ¥ó¥É: ", (char *)&cmd, FALSE);
4526 (void)get_com("Command: ", (char *)&cmd, FALSE);
4530 /* Hack -- bypass keymaps */
4531 if (!inkey_next) inkey_next = "";
4535 /* Allow "control chars" to be entered */
4538 /* Get a new command and controlify it */
4540 if (get_com("CTRL: ", (char *)&cmd, FALSE)) cmd = KTRL(cmd);
4542 if (get_com("Control: ", (char *)&cmd, FALSE)) cmd = KTRL(cmd);
4548 /* Look up applicable keymap */
4549 act = keymap_act[mode][(byte)(cmd)];
4551 /* Apply keymap if not inside a keymap already */
4552 if (act && !inkey_next)
4554 /* Install the keymap (limited buffer size) */
4555 (void)strnfmt(request_command_buffer, 256, "%s", act);
4557 /* Start using the buffer */
4558 inkey_next = request_command_buffer;
4570 command_cmd = (byte)cmd;
4576 /* Hack -- Auto-repeat certain commands */
4577 if (always_repeat && (command_arg <= 0))
4579 /* Hack -- auto repeat certain commands */
4580 if (my_strchr("TBDoc+", command_cmd))
4582 /* Repeat 99 times */
4591 switch (command_cmd)
4593 /* Command "p" -> "purchase" (get) */
4594 case 'p': command_cmd = 'g'; break;
4596 /* Command "m" -> "purchase" (get) */
4597 case 'm': command_cmd = 'g'; break;
4599 /* Command "s" -> "sell" (drop) */
4600 case 's': command_cmd = 'd'; break;
4605 for (i = 0; i < 256; i++)
4608 if ((s = keymap_act[mode][i]) != NULL)
4610 if (*s == command_cmd && *(s+1) == 0)
4618 caretcmd = command_cmd;
4621 /* Hack -- Scan equipment */
4622 for (i = INVEN_RARM; i < INVEN_TOTAL; i++)
4626 object_type *o_ptr = &inventory[i];
4628 /* Skip non-objects */
4629 if (!o_ptr->k_idx) continue;
4631 /* No inscription */
4632 if (!o_ptr->inscription) continue;
4634 /* Obtain the inscription */
4635 s = quark_str(o_ptr->inscription);
4638 s = my_strchr(s, '^');
4640 /* Process preventions */
4643 /* Check the "restriction" character */
4645 if ((s[1] == caretcmd) || (s[1] == '*'))
4647 if ((s[1] == command_cmd) || (s[1] == '*'))
4651 /* Hack -- Verify command */
4653 if (!get_check("ËÜÅö¤Ç¤¹¤«? "))
4655 if (!get_check("Are you sure? "))
4659 /* Hack -- Use space */
4664 /* Find another '^' */
4665 s = my_strchr(s + 1, '^');
4670 /* Hack -- erase the message line. */
4677 * Check a char for "vowel-hood"
4679 bool is_a_vowel(int ch)
4704 * Replace the first instance of "target" in "buf" with "insert"
4705 * If "insert" is NULL, just remove the first instance of "target"
4706 * In either case, return TRUE if "target" is found.
4708 * XXX Could be made more efficient, especially in the
4709 * case where "insert" is smaller than "target".
4711 static bool insert_str(char *buf, cptr target, cptr insert)
4714 int b_len, t_len, i_len;
4716 /* Attempt to find the target (modify "buf") */
4717 buf = my_strstr(buf, target);
4719 /* No target found */
4720 if (!buf) return (FALSE);
4722 /* Be sure we have an insertion string */
4723 if (!insert) insert = "";
4725 /* Extract some lengths */
4726 t_len = strlen(target);
4727 i_len = strlen(insert);
4728 b_len = strlen(buf);
4730 /* How much "movement" do we need? */
4731 len = i_len - t_len;
4733 /* We need less space (for insert) */
4736 for (i = t_len; i < b_len; ++i) buf[i+len] = buf[i];
4739 /* We need more space (for insert) */
4742 for (i = b_len-1; i >= t_len; --i) buf[i+len] = buf[i];
4745 /* If movement occured, we need a new terminator */
4746 if (len) buf[b_len+len] = '\0';
4748 /* Now copy the insertion string */
4749 for (i = 0; i < i_len; ++i) buf[i] = insert[i];
4751 /* Successful operation */
4761 * Called from cmd4.c and a few other places. Just extracts
4762 * a direction from the keymap for ch (the last direction,
4763 * in fact) byte or char here? I'm thinking that keymaps should
4764 * generally only apply to single keys, which makes it no more
4765 * than 128, so a char should suffice... but keymap_act is 256...
4767 int get_keymap_dir(char ch)
4771 /* Already a direction? */
4782 if (rogue_like_commands)
4784 mode = KEYMAP_MODE_ROGUE;
4790 mode = KEYMAP_MODE_ORIG;
4793 /* Extract the action (if any) */
4794 act = keymap_act[mode][(byte)(ch)];
4799 /* Convert to a direction */
4800 for (s = act; *s; ++s)
4802 /* Use any digits in keymap */
4803 if (isdigit(*s)) d = D2I(*s);
4811 /* Return direction */
4816 #ifdef ALLOW_REPEAT /* TNB */
4818 #define REPEAT_MAX 20
4820 /* Number of chars saved */
4821 static int repeat__cnt = 0;
4824 static int repeat__idx = 0;
4827 static int repeat__key[REPEAT_MAX];
4830 void repeat_push(int what)
4833 if (repeat__cnt == REPEAT_MAX) return;
4835 /* Push the "stuff" */
4836 repeat__key[repeat__cnt++] = what;
4838 /* Prevents us from pulling keys */
4843 bool repeat_pull(int *what)
4845 /* All out of keys */
4846 if (repeat__idx == repeat__cnt) return (FALSE);
4848 /* Grab the next key, advance */
4849 *what = repeat__key[repeat__idx++];
4855 void repeat_check(void)
4859 /* Ignore some commands */
4860 if (command_cmd == ESCAPE) return;
4861 if (command_cmd == ' ') return;
4862 if (command_cmd == '\r') return;
4863 if (command_cmd == '\n') return;
4865 /* Repeat Last Command */
4866 if (command_cmd == 'n')
4871 /* Get the command */
4872 if (repeat_pull(&what))
4874 /* Save the command */
4879 /* Start saving new command */
4888 /* Save this command */
4893 #endif /* ALLOW_REPEAT -- TNB */
4899 * Array size for which InsertionSort
4900 * is used instead of QuickSort
4906 * Exchange two sort-entries
4907 * (should probably be coded inline
4908 * for speed increase)
4910 static void swap(tag_type *a, tag_type *b)
4921 * Insertion-Sort algorithm
4922 * (used by the Quicksort algorithm)
4924 static void InsertionSort(tag_type elements[], int number)
4930 for (P = 1; P < number; P++)
4933 for (j = P; (j > 0) && (elements[j - 1].tag > tmp.tag); j--)
4934 elements[j] = elements[j - 1];
4941 * Helper function for Quicksort
4943 static tag_type median3(tag_type elements[], int left, int right)
4945 int center = (left + right) / 2;
4947 if (elements[left].tag > elements[center].tag)
4948 swap(&elements[left], &elements[center]);
4949 if (elements[left].tag > elements[right].tag)
4950 swap(&elements[left], &elements[right]);
4951 if (elements[center].tag > elements[right].tag)
4952 swap(&elements[center], &elements[right]);
4954 swap(&elements[center], &elements[right - 1]);
4955 return (elements[right - 1]);
4960 * Quicksort algorithm
4962 * The "median of three" pivot selection eliminates
4963 * the bad case of already sorted input.
4965 * We use InsertionSort for smaller sub-arrays,
4966 * because it is faster in this case.
4968 * For details see: "Data Structures and Algorithm
4969 * Analysis in C" by Mark Allen Weiss.
4971 static void quicksort(tag_type elements[], int left, int right)
4976 if (left + CUTOFF <= right)
4978 pivot = median3(elements, left, right);
4980 i = left; j = right -1;
4984 while (elements[++i].tag < pivot.tag);
4985 while (elements[--j].tag > pivot.tag);
4988 swap(&elements[i], &elements[j]);
4994 swap(&elements[i], &elements[right - 1]);
4996 quicksort(elements, left, i - 1);
4997 quicksort(elements, i + 1, right);
5001 /* Use InsertionSort on small arrays */
5002 InsertionSort(elements + left, right - left + 1);
5008 * Frontend for the sorting algorithm
5010 * Sorts an array of tagged pointers
5011 * with <number> elements.
5013 void tag_sort(tag_type elements[], int number)
5015 quicksort(elements, 0, number - 1);
5018 #endif /* SORT_R_INFO */
5020 #ifdef SUPPORT_GAMMA
5022 /* Table of gamma values */
5023 byte gamma_table[256];
5025 /* Table of ln(x/256) * 256 for x going from 0 -> 255 */
5026 static s16b gamma_helper[256] =
5028 0,-1420,-1242,-1138,-1065,-1007,-961,-921,-887,-857,-830,-806,-783,-762,-744,-726,
5029 -710,-694,-679,-666,-652,-640,-628,-617,-606,-596,-586,-576,-567,-577,-549,-541,
5030 -532,-525,-517,-509,-502,-495,-488,-482,-475,-469,-463,-457,-451,-455,-439,-434,
5031 -429,-423,-418,-413,-408,-403,-398,-394,-389,-385,-380,-376,-371,-367,-363,-359,
5032 -355,-351,-347,-343,-339,-336,-332,-328,-325,-321,-318,-314,-311,-308,-304,-301,
5033 -298,-295,-291,-288,-285,-282,-279,-276,-273,-271,-268,-265,-262,-259,-257,-254,
5034 -251,-248,-246,-243,-241,-238,-236,-233,-231,-228,-226,-223,-221,-219,-216,-214,
5035 -212,-209,-207,-205,-203,-200,-198,-196,-194,-192,-190,-188,-186,-184,-182,-180,
5036 -178,-176,-174,-172,-170,-168,-166,-164,-162,-160,-158,-156,-155,-153,-151,-149,
5037 -147,-146,-144,-142,-140,-139,-137,-135,-134,-132,-130,-128,-127,-125,-124,-122,
5038 -120,-119,-117,-116,-114,-112,-111,-109,-108,-106,-105,-103,-102,-100,-99,-97,
5039 -96,-95,-93,-92,-90,-89,-87,-86,-85,-83,-82,-80,-79,-78,-76,-75,
5040 -74,-72,-71,-70,-68,-67,-66,-65,-63,-62,-61,-59,-58,-57,-56,-54,
5041 -53,-52,-51,-50,-48,-47,-46,-45,-44,-42,-41,-40,-39,-38,-37,-35,
5042 -34,-33,-32,-31,-30,-29,-27,-26,-25,-24,-23,-22,-21,-20,-19,-18,
5043 -17,-16,-14,-13,-12,-11,-10,-9,-8,-7,-6,-5,-4,-3,-2,-1
5048 * Build the gamma table so that floating point isn't needed.
5050 * Note gamma goes from 0->256. The old value of 100 is now 128.
5052 void build_gamma_table(int gamma)
5057 * value is the current sum.
5058 * diff is the new term to add to the series.
5062 /* Hack - convergence is bad in these cases. */
5064 gamma_table[255] = 255;
5066 for (i = 1; i < 255; i++)
5069 * Initialise the Taylor series
5071 * value and diff have been scaled by 256
5076 diff = ((long)gamma_helper[i]) * (gamma - 256);
5085 * Use the following identiy to calculate the gamma table.
5086 * exp(x) = 1 + x + x^2/2 + x^3/(2*3) + x^4/(2*3*4) +...
5088 * n is the current term number.
5090 * The gamma_helper array contains a table of
5092 * This is used because a^b = exp(b*ln(a))
5098 * Note that everything is scaled by 256 for accuracy,
5099 * plus another factor of 256 for the final result to
5100 * be from 0-255. Thus gamma_helper[] * gamma must be
5101 * divided by 256*256 each itteration, to get back to
5102 * the original power series.
5104 diff = (((diff / 256) * gamma_helper[i]) * (gamma - 256)) / (256 * n);
5108 * Store the value in the table so that the
5109 * floating point pow function isn't needed .
5111 gamma_table[i] = ((long)(value / 256) * i) / 256;
5115 #endif /* SUPPORT_GAMMA */
5119 * Add a series of keypresses to the "queue".
5121 * Return any errors generated by Term_keypress() in doing so, or SUCCESS
5122 * if there are none.
5124 * Catch the "out of space" error before anything is printed.
5126 * NB: The keys added here will be interpreted by any macros or keymaps.
5128 errr type_string(cptr str, uint len)
5135 /* Paranoia - no string. */
5136 if (!str) return -1;
5138 /* Hack - calculate the string length here if none given. */
5139 if (!len) len = strlen(str);
5141 /* Activate the main window, as all pastes go there. */
5142 Term_activate(term_screen);
5144 for (s = str; s < str+len; s++)
5146 /* Catch end of string */
5147 if (*s == '\0') break;
5149 err = Term_keypress(*s);
5155 /* Activate the original window. */
5163 void roff_to_buf(cptr str, int maxlen, char *tbuf, size_t bufsize)
5172 while (str[read_pt])
5175 bool kinsoku = FALSE;
5180 /* Prepare one character */
5181 ch[0] = str[read_pt];
5184 kanji = iskanji(ch[0]);
5188 ch[1] = str[read_pt+1];
5191 if (strcmp(ch, "¡£") == 0 ||
5192 strcmp(ch, "¡¢") == 0 ||
5193 strcmp(ch, "¥£") == 0 ||
5194 strcmp(ch, "¡¼") == 0)
5197 else if (!isprint(ch[0]))
5200 if (!isprint(ch[0]))
5204 if (line_len + ch_len > maxlen - 1 || str[read_pt] == '\n')
5208 /* return to better wrapping point. */
5209 /* Space character at the end of the line need not to be printed. */
5210 word_len = read_pt - word_punct;
5212 if (kanji && !kinsoku)
5216 if (ch[0] == ' ' || word_len >= line_len/2)
5220 read_pt = word_punct;
5221 if (str[word_punct] == ' ')
5223 write_pt -= word_len;
5226 tbuf[write_pt++] = '\0';
5228 word_punct = read_pt;
5232 word_punct = read_pt;
5234 if (!kinsoku) word_punct = read_pt;
5237 /* Not enough buffer size */
5238 if ((size_t)(write_pt + 3) >= bufsize) break;
5240 tbuf[write_pt++] = ch[0];
5246 tbuf[write_pt++] = ch[1];
5252 tbuf[write_pt] = '\0';
5253 tbuf[write_pt+1] = '\0';
5260 * The my_strcpy() function copies up to 'bufsize'-1 characters from 'src'
5261 * to 'buf' and NUL-terminates the result. The 'buf' and 'src' strings may
5264 * my_strcpy() returns strlen(src). This makes checking for truncation
5265 * easy. Example: if (my_strcpy(buf, src, sizeof(buf)) >= sizeof(buf)) ...;
5267 * This function should be equivalent to the strlcpy() function in BSD.
5269 size_t my_strcpy(char *buf, const char *src, size_t bufsize)
5274 const char *s = src;
5278 /* reserve for NUL termination */
5281 /* Copy as many bytes as will fit */
5282 while (*s && (len < bufsize))
5286 if (len + 1 >= bufsize || !*(s+1)) break;
5306 size_t len = strlen(src);
5310 if (bufsize == 0) return ret;
5313 if (len >= bufsize) len = bufsize - 1;
5315 /* Copy the string and terminate it */
5316 (void)memcpy(buf, src, len);
5319 /* Return strlen(src) */
5327 * The my_strcat() tries to append a string to an existing NUL-terminated string.
5328 * It never writes more characters into the buffer than indicated by 'bufsize' and
5329 * NUL-terminates the buffer. The 'buf' and 'src' strings may not overlap.
5331 * my_strcat() returns strlen(buf) + strlen(src). This makes checking for
5332 * truncation easy. Example:
5333 * if (my_strcat(buf, src, sizeof(buf)) >= sizeof(buf)) ...;
5335 * This function should be equivalent to the strlcat() function in BSD.
5337 size_t my_strcat(char *buf, const char *src, size_t bufsize)
5339 size_t dlen = strlen(buf);
5341 /* Is there room left in the buffer? */
5342 if (dlen < bufsize - 1)
5344 /* Append as much as possible */
5345 return (dlen + my_strcpy(buf + dlen, src, bufsize - dlen));
5349 /* Return without appending */
5350 return (dlen + strlen(src));
5356 * A copy of ANSI strstr()
5358 * my_strstr() can handle Kanji strings correctly.
5360 char *my_strstr(const char *haystack, const char *needle)
5363 int l1 = strlen(haystack);
5364 int l2 = strlen(needle);
5368 for(i = 0; i <= l1 - l2; i++)
5370 if(!strncmp(haystack + i, needle, l2))
5371 return (char *)haystack + i;
5374 if (iskanji(*(haystack + i))) i++;
5384 * A copy of ANSI strchr()
5386 * my_strchr() can handle Kanji strings correctly.
5388 char *my_strchr(const char *ptr, char ch)
5390 for ( ; *ptr != '\0'; ptr++)
5392 if (*ptr == ch) return (char *)ptr;
5395 if (iskanji(*ptr)) ptr++;
5404 * Convert string to lower case
5406 void str_tolower(char *str)
5408 /* Force to be lower case string */
5418 *str = tolower(*str);
5424 * Get a keypress from the user.
5425 * And interpret special keys as internal code.
5427 * This function is a Mega-Hack and depend on pref-xxx.prf's.
5428 * Currently works on Linux(UNIX), Windows, and Macintosh only.
5430 int inkey_special(bool numpad_cursor)
5432 static const struct {
5435 } modifier_key_list[] = {
5436 {"shift-", SKEY_MOD_SHIFT},
5437 {"control-", SKEY_MOD_CONTROL},
5441 static const struct {
5445 } special_key_list[] = {
5446 {FALSE, "Down]", SKEY_DOWN},
5447 {FALSE, "Left]", SKEY_LEFT},
5448 {FALSE, "Right]", SKEY_RIGHT},
5449 {FALSE, "Up]", SKEY_UP},
5450 {FALSE, "Page_Up]", SKEY_PGUP},
5451 {FALSE, "Page_Down]", SKEY_PGDOWN},
5452 {FALSE, "Home]", SKEY_TOP},
5453 {FALSE, "End]", SKEY_BOTTOM},
5454 {TRUE, "KP_Down]", SKEY_DOWN},
5455 {TRUE, "KP_Left]", SKEY_LEFT},
5456 {TRUE, "KP_Right]", SKEY_RIGHT},
5457 {TRUE, "KP_Up]", SKEY_UP},
5458 {TRUE, "KP_Page_Up]", SKEY_PGUP},
5459 {TRUE, "KP_Page_Down]", SKEY_PGDOWN},
5460 {TRUE, "KP_Home]", SKEY_TOP},
5461 {TRUE, "KP_End]", SKEY_BOTTOM},
5462 {TRUE, "KP_2]", SKEY_DOWN},
5463 {TRUE, "KP_4]", SKEY_LEFT},
5464 {TRUE, "KP_6]", SKEY_RIGHT},
5465 {TRUE, "KP_8]", SKEY_UP},
5466 {TRUE, "KP_9]", SKEY_PGUP},
5467 {TRUE, "KP_3]", SKEY_PGDOWN},
5468 {TRUE, "KP_7]", SKEY_TOP},
5469 {TRUE, "KP_1]", SKEY_BOTTOM},
5473 static const struct {
5476 } gcu_special_key_list[] = {
5482 {"4~", SKEY_BOTTOM},
5484 {"6~", SKEY_PGDOWN},
5497 * Forget macro trigger ----
5498 * It's important if we are already expanding macro action
5500 inkey_macro_trigger_string[0] = '\0';
5502 /* Get a keypress */
5505 /* Examine trigger string */
5506 trig_len = strlen(inkey_macro_trigger_string);
5508 /* Already known that no special key */
5509 if (!trig_len) return (int)((unsigned char)key);
5512 * Hack -- Ignore macro defined on ASCII characters.
5514 if (trig_len == 1 && parse_macro)
5516 char c = inkey_macro_trigger_string[0];
5518 /* Cancel macro action on the queue */
5519 forget_macro_action();
5521 /* Return the originaly pressed key */
5522 return (int)((unsigned char)c);
5525 /* Convert the trigger */
5526 ascii_to_text(buf, inkey_macro_trigger_string);
5528 /* Check the prefix "\[" */
5529 if (prefix(str, "\\["))
5534 /* Examine modifier keys */
5537 for (i = 0; modifier_key_list[i].keyname; i++)
5539 if (prefix(str, modifier_key_list[i].keyname))
5541 /* Get modifier key flag */
5542 str += strlen(modifier_key_list[i].keyname);
5543 modifier |= modifier_key_list[i].keyflag;
5547 /* No more modifier key found */
5548 if (!modifier_key_list[i].keyname) break;
5551 /* numpad_as_cursorkey option force numpad keys to input numbers */
5552 if (!numpad_as_cursorkey) numpad_cursor = FALSE;
5554 /* Get a special key code */
5555 for (i = 0; special_key_list[i].keyname; i++)
5557 if ((!special_key_list[i].numpad || numpad_cursor) &&
5558 streq(str, special_key_list[i].keyname))
5560 skey = special_key_list[i].keycode;
5565 /* A special key found */
5568 /* Cancel macro action on the queue */
5569 forget_macro_action();
5571 /* Return special key code and modifier flags */
5572 return (skey | modifier);
5576 if (prefix(str, "\\e["))
5580 for (i = 0; gcu_special_key_list[i].keyname; i++)
5582 if (streq(str, gcu_special_key_list[i].keyname))
5584 return gcu_special_key_list[i].keycode;
5589 /* No special key found? */
5591 /* Don't bother with this trigger no more */
5592 inkey_macro_trigger_string[0] = '\0';
5594 /* Return normal keycode */
5595 return (int)((unsigned char)key);