#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef DJGPP_KEYHANDLER #include #include #endif /* DJGPP_KEYHANDLER */ #ifdef USE_COLOR_STYLE #include #include #endif #include extern unsigned short *LYKbLayout; extern BOOL HTPassHighCtrlRaw; extern HTCJKlang HTCJK; /*Allowing the user to press tab when entering URL to get the closest match in the closet*/ #define LYClosetSize 100 static char* LYCloset[LYClosetSize]; /* Closet with LYClosetSize shelves */ static int LYClosetTop = 0; /*Points to the next empty shelf */ PRIVATE char *LYFindInCloset PARAMS(( char* base)); PRIVATE int LYAddToCloset PARAMS(( char* str)); /* If you want to add mouse support for some new platform, it's fairly ** simple to do. Once you've determined the X and Y coordinates of ** the mouse event, loop through the elements in the links[] array and ** see if the coordinates fall within a highlighted link area. If so, ** the code must set mouse_link to the index of the chosen link, ** and return a key value that corresponds to LYK_ACTIVATE. The ** LYK_ACTIVATE code in LYMainLoop.c will then check mouse_link ** and activate that link. If the mouse event didn't fall within a ** link, the code should just set mouse_link to -1 and return -1. --AMK **/ /* The number of the link selected w/ the mouse (-1 if none) */ static int mouse_link = -1; static int have_levent; #ifdef NCURSES_MOUSE_VERSION static MEVENT levent; #endif /* Return the value of mouse_link */ PUBLIC int peek_mouse_levent NOARGS { #ifdef NCURSES_MOUSE_VERSION if (have_levent) { ungetmouse(&levent); return 1; } #endif return 0; } /* Return the value of mouse_link, erasing it */ PUBLIC int get_mouse_link NOARGS { int t; t = mouse_link; mouse_link = -1; if (t < 0) t = -1; /* Backward compatibility. */ return t; } /* Return the value of mouse_link */ PUBLIC int peek_mouse_link NOARGS { return mouse_link; } PUBLIC int fancy_mouse ARGS3( WINDOW *, win, int, row, int *, position) { int cmd = LYK_DO_NOTHING; #ifdef NCURSES_MOUSE_VERSION #ifndef getbegx #define getbegx(win) ((win)->_begx) #endif #ifndef getbegy #define getbegy(win) ((win)->_begy) #endif MEVENT event; getmouse(&event); if ((event.bstate & (BUTTON1_CLICKED | BUTTON1_DOUBLE_CLICKED | BUTTON1_TRIPLE_CLICKED)) && (event.x >= getbegx(win) && (event.x < (getbegx(win) + getmaxx(win))))) { int mypos = event.y - getbegy(win); int delta = mypos - row; if (mypos+1 == getmaxy(win)) { /* At the decorative border: scroll forward */ if (event.bstate & BUTTON1_TRIPLE_CLICKED) cmd = LYK_END; else if (event.bstate & BUTTON1_DOUBLE_CLICKED) cmd = LYK_NEXT_PAGE; else cmd = LYK_NEXT_LINK; } else if (mypos >= getmaxy(win)) { if (event.bstate & (BUTTON1_DOUBLE_CLICKED | BUTTON1_TRIPLE_CLICKED)) cmd = LYK_END; else cmd = LYK_NEXT_PAGE; } else if (mypos == 0) { /* At the decorative border: scroll back */ if (event.bstate & BUTTON1_TRIPLE_CLICKED) cmd = LYK_HOME; else if (event.bstate & BUTTON1_DOUBLE_CLICKED) cmd = LYK_PREV_PAGE; else cmd = LYK_PREV_LINK; } else if (mypos < 0) { if (event.bstate & (BUTTON1_DOUBLE_CLICKED | BUTTON1_TRIPLE_CLICKED)) cmd = LYK_HOME; else cmd = LYK_PREV_PAGE; #ifdef KNOW_HOW_TO_TOGGLE } else if (event.bstate & (BUTTON_CTRL)) { cur_selection += delta; cmd = LYX_TOGGLE; #endif } else if (event.bstate & (BUTTON_ALT | BUTTON_SHIFT | BUTTON_CTRL)) { /* Probably some unrelated activity, such as selecting some text. * Select, but do nothing else. */ *position += delta; cmd = -1; } else { /* No scrolling or overflow checks necessary. */ *position += delta; #if 0 /* Immediate action looks reasonable since we have no help * available for individual options. Moreover, one can position * active element with shift-click-1. (;-) */ if (!(event.bstate & (BUTTON1_DOUBLE_CLICKED | BUTTON1_TRIPLE_CLICKED))) goto redraw; #endif cmd = LYK_ACTIVATE; } } else if (event.bstate & (BUTTON3_CLICKED | BUTTON3_DOUBLE_CLICKED | BUTTON3_TRIPLE_CLICKED)) { cmd = LYK_QUIT; } #endif return cmd; } PRIVATE int XYdist ARGS5( int, x1, int, y1, int, x2, int, y2, int, dx2) { int xerr = x2 - x1, yerr = y2 - y1; if (xerr < 0) xerr = x1 - x2 - dx2; if (xerr < 0) xerr = 0; if (yerr < 0) yerr = -yerr; return xerr + yerr; } /* Given X and Y coordinates of a mouse event, set mouse_link to the ** index of the corresponding hyperlink, or set mouse_link to -1 if no ** link matches the event. Returns -1 if no link matched the click, ** or a keycode that must be returned from LYgetch() to activate the ** link. **/ PRIVATE int set_clicked_link ARGS3( int, x, int, y, int, code) { int left = 6; int right = LYcols-6; /* yes, I am assuming that my screen will be a certain width. */ int i; int c = -1; if (y == (LYlines-1)) { mouse_link = -2; if (x < left) c = LTARROW; else if (x > right) c = '\b'; else c = PGDOWN; } else if (y == 0) { mouse_link = -2; if (x < left) c = LTARROW; else if (x > right) c = '\b'; else c = PGUP; } else { int mouse_err = -1, cur_err; /* Loop over the links and see if we can get a match */ for (i = 0; i < nlinks; i++) { int len, lx = links[i].lx, is_text = 0; if (links[i].type == WWW_FORM_LINK_TYPE /* XXXX What else? */ && (links[i].form->type == F_TEXTAREA_TYPE || links[i].form->type == F_TEXT_TYPE)) is_text = 1; if (is_text) len = links[i].form->size; else len = strlen(links[i].hightext ); /* Check the first line of the link */ if ( links[i].hightext != NULL) { cur_err = XYdist(x, y, links[i].lx, links[i].ly, len); if (cur_err == 0) { int cury, curx; LYGetYX(cury,curx); if (code != FOR_INPUT /* Do not pick up the current input field */ || !((cury == y && (curx >= lx) && ((curx - lx) <= len)))) { if (is_text) have_levent = 1; mouse_link = i; } else mouse_link = -1; mouse_err = 0; break; } else if (cur_err < mouse_err) { mouse_err = cur_err; mouse_link = i; } } /* Check the second line */ if (links[i].hightext2 != NULL) { cur_err = XYdist(x, y, links[i].hightext2_offset, links[i].ly+1, strlen(links[i].hightext2)); if (cur_err == 0) { mouse_link = i; mouse_err = 0; break; } else if (cur_err < mouse_err) { mouse_err = cur_err; mouse_link = i; } } } /* * If a link was hit, we must look for a key which will activate * LYK_ACTIVATE We expect to find LYK_ACTIVATE (it's usually mapped to * the Enter key). */ if (mouse_link >= 0) { if (mouse_err == 0) c = lookup_keymap(LYK_ACTIVATE); else if (mouse_err >= 0) c = lookup_keymap(LYK_CHANGE_LINK); } } return c; } /* * LYstrerror emulates the ANSI strerror() function. */ #ifdef LYStrerror /* defined as macro in .h file. */ #else PUBLIC char *LYStrerror ARGS1(int, code) { static char temp[80]; sprintf(temp, "System errno is %d.\r\n", code); return temp; } #endif /* HAVE_STRERROR */ /* * LYstrncpy() terminates strings with a null byte. * Writes a null byte into the n+1 byte of dst. */ PUBLIC char *LYstrncpy ARGS3( char *, dst, CONST char *, src, int, n) { char *val; int len; if (src == 0) src = ""; len = strlen(src); if (n < 0) n = 0; val = strncpy(dst, src, n); if (len < n) *(dst+len) = '\0'; else *(dst+n) = '\0'; return val; } #define IS_NEW_GLYPH(ch) (utf_flag && ((unsigned char)(ch)&0xc0) != 0x80) #define IS_UTF_EXTRA(ch) (utf_flag && ((unsigned char)(ch)&0xc0) == 0x80) /* * LYmbcsstrncpy() terminates strings with a null byte. * It takes account of multibyte characters. * The src string is copied until either end of string or max number of * either bytes or glyphs (mbcs sequences) (CJK or UTF8). The utf_flag * argument should be TRUE for UTF8. - KW & FM */ PUBLIC char * LYmbcsstrncpy ARGS5( char *, dst, CONST char *, src, int, n_bytes, int, n_glyphs, BOOL, utf_flag) { char *val = dst; int i_bytes = 0, i_glyphs = 0; if (n_bytes < 0) n_bytes = 0; if (n_glyphs < 0) n_glyphs = 0; for (; *src != '\0' && i_bytes < n_bytes; i_bytes++) { if (IS_NEW_GLYPH(*src)) { if (i_glyphs++ >= n_glyphs) { *dst = '\0'; return val; } } *(dst++) = *(src++); } *dst = '\0'; return val; } /* * LYmbcs_skip_glyphs() skips a given number of display positions * in a string and returns the resulting pointer. It takes account * of UTF-8 encoded characters. - KW */ PUBLIC char * LYmbcs_skip_glyphs ARGS3( char *, data, int, n_glyphs, BOOL, utf_flag) { int i_glyphs = 0; if (n_glyphs < 0) n_glyphs = 0; if (!data) return NULL; if (!utf_flag) return (data + n_glyphs); while (*data) { if (IS_NEW_GLYPH(*data)) { if (i_glyphs++ >= n_glyphs) { return data; } } data++; } return data; } /* * LYmbcsstrlen() returns the printable length of a string * that might contain IsSpecial or multibyte (CJK or UTF8) * characters. - FM */ PUBLIC int LYmbcsstrlen ARGS2( char *, str, BOOL, utf_flag) { int i, j, len = 0; if (!str && *str) return(len); for (i = 0; str[i] != '\0'; i++) { if (IsSpecialAttrChar(str[i])) { continue; } else { len++; } if (IS_NEW_GLYPH(str[i])) { j = 0; while (str[(i + 1)] != '\0' && !IsSpecialAttrChar(str[(i + 1)]) && j < 5 && IS_UTF_EXTRA(str[(i + 1)])) { i++; j++; } } else if (!utf_flag && HTCJK != NOCJK && !isascii(str[i]) && str[(i + 1)] != '\0' && !IsSpecialAttrChar(str[(i + 1)])) { i++; } } return(len); } #undef GetChar #ifdef USE_SLANG #ifdef VMS #define GetChar() ttgetc() #else #ifdef __DJGPP__ #ifdef DJGPP_KEYHANDLER #define GetChar getxkey #else #define GetChar SLkp_getkey #endif /* DJGPP_KEYHANDLER */ #else #define GetChar (int)SLang_getkey #endif /* __DJGPP__ */ #endif /* VMS */ #endif /* USE_SLANG */ #if !defined(GetChar) && defined(NCURSES) #define GetChar() wgetch(my_subwindow ? my_subwindow : stdscr) #endif #if !defined(GetChar) && defined(SNAKE) #define GetChar() wgetch(stdscr) #endif #if !defined(GetChar) && defined(VMS) #define GetChar() ttgetc() #endif #if !defined(GetChar) #if HAVE_KEYPAD #define GetChar getch #else #ifndef USE_GETCHAR #define USE_GETCHAR #endif /* !USE_GETCHAR */ #define GetChar() getchar() /* used to be "getc(stdin)" and "getch()" */ #endif /* HAVE_KEYPAD */ #endif /* !defined(GetChar) */ #if defined(NCURSES) /* * Workaround a bug in ncurses order-of-refresh by setting a pointer to * the topmost window that should be displayed. * * FIXME: the associated call on 'keypad()' is not needed for Unix, but * something in the OS/2 EMX port requires it. */ PRIVATE WINDOW *my_subwindow; PUBLIC void LYsubwindow ARGS1(WINDOW *, param) { if ((my_subwindow = param) != 0) keypad(param, TRUE); } #endif #ifdef USE_SLANG_MOUSE PRIVATE int sl_parse_mouse_event ARGS3(int *, x, int *, y, int *, button) { /* "ESC [ M" has already been processed. There more characters are * expected: BUTTON X Y */ *button = SLang_getkey (); switch (*button) { case 040: /* left button */ case 041: /* middle button */ case 042: /* right button */ *button -= 040; break; default: /* Hmmm.... */ SLang_flush_input (); return -1; } *x = SLang_getkey () - 33; *y = SLang_getkey () - 33; return 0; } PRIVATE int sl_read_mouse_event NOARGS { int mouse_x, mouse_y, button; mouse_link = -1; if (-1 != sl_parse_mouse_event (&mouse_x, &mouse_y, &button)) { if (button == 0) /* left */ return set_clicked_link (mouse_x, mouse_y, FOR_PANEL); if (button == 2) /* right */ { /* Right button: go back to prev document. * The problem is that we need to determine * what to return to achieve this. */ return LYReverseKeymap (LYK_PREV_DOC); } } return -1; } #endif PRIVATE BOOLEAN csi_is_csi = TRUE; PUBLIC void ena_csi ARGS1( BOOLEAN, flag) { csi_is_csi = flag; } #if defined(USE_KEYMAPS) #ifdef USE_SLANG #define define_key(string, code) \ SLkm_define_keysym (string, code, Keymap_List) #define expand_substring(dst, first, last) \ SLexpand_escaped_string(dst, first, last) static SLKeyMap_List_Type *Keymap_List; /* This value should be larger than anything in LYStrings.h */ #define MOUSE_KEYSYM 0x1000 #endif #define SQUOTE '\'' #define DQUOTE '"' #define ESCAPE '\\' #define LPAREN '(' #define RPAREN ')' /* * For ncurses, we use the predefined keysyms, since that lets us also reuse * the CSI logic and other special cases for VMS, NCSA telnet, etc. */ #ifdef USE_SLANG #define DEFINE_KEY(string,lynx,curses) {string,lynx} #else #define DEFINE_KEY(string,lynx,curses) {string,curses} #endif typedef struct { char *string; int value; } Keysym_String_List; static Keysym_String_List Keysym_Strings [] = { DEFINE_KEY( "UPARROW", UPARROW, KEY_UP ), DEFINE_KEY( "DNARROW", DNARROW, KEY_DOWN ), DEFINE_KEY( "RTARROW", RTARROW, KEY_RIGHT ), DEFINE_KEY( "LTARROW", LTARROW, KEY_LEFT ), DEFINE_KEY( "PGDOWN", PGDOWN, KEY_NPAGE ), DEFINE_KEY( "PGUP", PGUP, KEY_PPAGE ), DEFINE_KEY( "HOME", HOME, KEY_HOME ), DEFINE_KEY( "END", END_KEY, KEY_END ), DEFINE_KEY( "F1", F1, KEY_F(1) ), DEFINE_KEY( "DO_KEY", DO_KEY, KEY_F(16) ), DEFINE_KEY( "FIND_KEY", FIND_KEY, KEY_FIND ), DEFINE_KEY( "SELECT_KEY", SELECT_KEY, KEY_SELECT ), DEFINE_KEY( "INSERT_KEY", INSERT_KEY, KEY_IC ), DEFINE_KEY( "REMOVE_KEY", REMOVE_KEY, KEY_DC ), DEFINE_KEY( "DO_NOTHING", DO_NOTHING, 0 ), DEFINE_KEY( NULL, -1, ERR ) }; #ifdef NCURSES_VERSION /* * Ncurses stores the termcap/terminfo names in arrays sorted to match the * array of strings in the TERMTYPE struct. */ PRIVATE int lookup_tiname (char *name, NCURSES_CONST char *CONST *names) { int code; for (code = 0; names[code] != 0; code++) if (!strcmp(names[code], name)) return code; return -1; } PRIVATE char *expand_tiname (char *first, size_t len, char **result) { char name[BUFSIZ]; int code; strncpy(name, first, len); name[len] = '\0'; if ((code = lookup_tiname(name, strnames)) >= 0 || (code = lookup_tiname(name, strfnames)) >= 0) { if (cur_term->type.Strings[code] != 0) { strcpy(*result, cur_term->type.Strings[code]); (*result) += strlen(*result); } } return first + len; } PRIVATE char *expand_tichar (char *first, char **result) { int ch; int limit = 0; int radix = 0; int value = 0; char *name = 0; switch (ch = *first++) { case 'E': case 'e': value = 27; break; case 'a': name = "bel"; break; case 'b': value = '\b'; break; case 'f': value = '\f'; break; case 'n': value = '\n'; break; case 'r': value = '\r'; break; case 't': value = '\t'; break; case 'v': value = '\v'; break; case 'd': radix = 10; limit = 3; break; case 'x': radix = 16; limit = 2; break; default: if (isdigit(ch)) { radix = 8; limit = 3; first--; } else { value = *first; } break; } if (radix != 0) { char *last; int save = first[limit]; first[limit] = '\0'; value = strtol(first, &last, radix); first[limit] = save; first = last; } if (name != 0) { (void) expand_tiname(name, strlen(name), result); } else { **result = value; (*result) += 1; } return first; } PRIVATE void expand_substring (char* dst, char* first, char* last) { int ch; while (first < last) { switch (ch = *first++) { case ESCAPE: first = expand_tichar(first, &dst); break; case '^': ch = *first++; if (ch == LPAREN) { char *s = strchr(first, RPAREN); if (s == 0) s = first + strlen(first); first = expand_tiname(first, s-first, &dst); if (*first) first++; } else if (ch == '?') { /* ASCII delete? */ *dst++ = 127; } else if ((ch & 0x3f) < 0x20) { /* ASCII control char? */ *dst++ = (ch & 0x1f); } else { *dst++ = '^'; first--; /* not legal... */ } break; case 0: /* convert nulls for terminfo */ ch = 0200; /* FALLTHRU */ default: *dst++ = ch; break; } } *dst = '\0'; } #endif PRIVATE void unescaped_char ARGS2(char*, parse, int*,keysym) { size_t len = strlen(parse); char buf[BUFSIZ]; if (len >= 3) { expand_substring(buf, parse + 1, parse + len - 1); if (strlen(buf) == 1) *keysym = *buf; } } PRIVATE BOOLEAN unescape_string ARGS2(char*, src, char *, dst) { BOOLEAN ok = FALSE; if (*src == SQUOTE) { int keysym; unescaped_char(src, &keysym); if (keysym >= 0) { dst[0] = keysym; dst[1] = '\0'; ok = TRUE; } } else if (*src == DQUOTE) { expand_substring(dst, src + 1, src + strlen(src) - 1); ok = TRUE; } return ok; } PRIVATE int map_string_to_keysym ARGS2(char*, str, int*,keysym) { *keysym = -1; if (*str == SQUOTE) { unescaped_char(str, keysym); } else if (isdigit(*str)) { char *tmp; long value = strtol(str, &tmp, 0); if (!isalnum(*tmp)) *keysym = value; } else { Keysym_String_List *k; k = Keysym_Strings; while (k->string != NULL) { if (0 == strcmp (k->string, str)) { *keysym = k->value; break; } k++; } } return (*keysym); } /* * Starting at a nonblank character, skip over a token, counting quoted and * escaped characters. */ PRIVATE char *skip_keysym ARGS1(char *, parse) { int quoted = 0; int escaped = 0; while (*parse) { if (escaped) { escaped = 0; } else if (quoted) { if (*parse == ESCAPE) { escaped = 1; } else if (*parse == quoted) { quoted = 0; } } else if (*parse == ESCAPE) { escaped = 1; } else if (*parse == DQUOTE || *parse == SQUOTE) { quoted = *parse; } else if (isspace(*parse)) { break; } parse++; } return (quoted || escaped) ? 0 : parse; } /* * The first token is the string to define, the second is the name (of the * keysym) to define it to. */ PRIVATE int setkey_cmd (char *parse) { char *s, *t; int keysym; char buf[BUFSIZ]; if ((s = skip_keysym(parse)) != 0) { if (isspace(*s)) { *s++ = '\0'; s = LYSkipBlanks(s); if ((t = skip_keysym(s)) == 0) return -1; if (t != s) *t = '\0'; if (map_string_to_keysym (s, &keysym) >= 0 && unescape_string(parse, buf)) { return define_key(buf, keysym); } } } return -1; } PRIVATE int unsetkey_cmd (char *parse) { char *s = skip_keysym(parse); if (s != parse) { *s = '\0'; #ifdef NCURSES_VERSION /* * This won't work with Slang. Remove the definition for the given * keysym. */ { int keysym; if (map_string_to_keysym (parse, &keysym) >= 0) define_key((char *)0, keysym); } #endif #ifdef USE_SLANG /* Slang implements this, for undefining the string which is associated * with a keysym (the reverse of what we normally want, but may * occasionally find useful). */ SLang_undefine_key (parse, Keymap_List); if (SLang_Error) return -1; #endif } return 0; } #ifdef FNAMES_8_3 #define FNAME_LYNX_KEYMAPS "_lynxkey.map" #else #define FNAME_LYNX_KEYMAPS ".lynx-keymaps" #endif /* FNAMES_8_3 */ PRIVATE int read_keymap_file NOARGS { static struct { CONST char *name; int (*func) PARAMS((char *s)); } table[] = { {"setkey", setkey_cmd }, {"unsetkey", unsetkey_cmd }, }; char *line = NULL; FILE *fp; char file[LY_MAXPATH]; int ret; int linenum; size_t n; LYAddPathToHome(file, sizeof(file), FNAME_LYNX_KEYMAPS); if ((fp = fopen (file, "r")) == 0) return 0; linenum = 0; ret = 0; while (LYSafeGets(&line, fp) != 0 && (ret == 0)) { char *s = LYSkipBlanks(line); linenum++; if ((*s == 0) || (*s == '#')) continue; for (n = 0; n < TABLESIZE(table); n++) { size_t len = strlen(table[n].name); if (strlen(s) > len && !strncmp(s, table[n].name, len)) { if ((*(table[n].func))(LYSkipBlanks(s+len)) < 0) { ret = -1; break; } } } } FREE(line); fclose (fp); if (ret == -1) fprintf (stderr, FAILED_READING_KEYMAP, linenum, file); return ret; } PRIVATE void setup_vtXXX_keymap NOARGS { static Keysym_String_List table[] = { DEFINE_KEY( "\033[A", UPARROW, KEY_UP ), DEFINE_KEY( "\033OA", UPARROW, KEY_UP ), DEFINE_KEY( "\033[B", DNARROW, KEY_DOWN ), DEFINE_KEY( "\033OB", DNARROW, KEY_DOWN ), DEFINE_KEY( "\033[C", RTARROW, KEY_RIGHT ), DEFINE_KEY( "\033OC", RTARROW, KEY_RIGHT ), DEFINE_KEY( "\033[D", LTARROW, KEY_LEFT ), DEFINE_KEY( "\033OD", LTARROW, KEY_LEFT ), DEFINE_KEY( "\033[1~", FIND_KEY, KEY_FIND ), DEFINE_KEY( "\033[2~", INSERT_KEY, KEY_IC ), DEFINE_KEY( "\033[3~", REMOVE_KEY, KEY_DC ), DEFINE_KEY( "\033[4~", SELECT_KEY, KEY_SELECT ), DEFINE_KEY( "\033[5~", PGUP, KEY_PPAGE ), DEFINE_KEY( "\033[6~", PGDOWN, KEY_NPAGE ), DEFINE_KEY( "\033[8~", END_KEY, KEY_END ), DEFINE_KEY( "\033[7~", HOME, KEY_HOME), DEFINE_KEY( "\033[28~", F1, KEY_F(1) ), DEFINE_KEY( "\033OP", F1, KEY_F(1) ), DEFINE_KEY( "\033[OP", F1, KEY_F(1) ), DEFINE_KEY( "\033[29~", DO_KEY, KEY_F(16) ), }; size_t n; for (n = 0; n < TABLESIZE(table); n++) define_key(table[n].string, table[n].value); } PUBLIC int lynx_initialize_keymaps NOARGS { #ifdef USE_SLANG int i; char keybuf[2]; if (NULL == (Keymap_List = SLang_create_keymap ("Lynx", NULL))) return -1; keybuf[1] = 0; for (i = 1; i < 256; i++) { keybuf[0] = (char) i; define_key (keybuf, i); } setup_vtXXX_keymap(); define_key ("\033[M", MOUSE_KEYSYM); if (SLang_Error || (-1 == read_keymap_file ())) SLang_exit_error ("Unable to initialize keymaps"); return 0; #else setup_vtXXX_keymap(); return read_keymap_file(); #endif } #endif /* USE_KEYMAPS */ #ifdef NCURSES_MOUSE_VERSION PRIVATE int LYmouse_menu ARGS3(int, x, int, y, int, atlink) { static char *choices[] = { "Quit", "Home page", "Previous document", "Beginning of document", "Page up", "Half page up", "Two lines up", "History", "Help", "Do nothing (refresh)", "Load again", "Edit URL and load", "Show info", "Search", "Print", "Two lines down", "Half page down", "Page down", "End of document", "Bookmarks", "Cookie jar", "Search index", "Set Options", NULL }; static char *choices_link[] = { "Help", "Do nothing", "Activate this link", "Show info", "Download", NULL }; static int actions[] = { LYK_ABORT, LYK_MAIN_MENU, LYK_PREV_DOC, LYK_HOME, LYK_PREV_PAGE, LYK_UP_HALF, LYK_UP_TWO, LYK_HISTORY, LYK_HELP, LYK_REFRESH, LYK_RELOAD, LYK_ECGOTO, LYK_INFO, LYK_WHEREIS, LYK_PRINT, LYK_DOWN_TWO, LYK_DOWN_HALF, LYK_NEXT_PAGE, LYK_END, LYK_VIEW_BOOKMARK, LYK_COOKIE_JAR, LYK_INDEX_SEARCH, LYK_OPTIONS }; static int actions_link[] = { LYK_HELP, LYK_REFRESH, LYK_ACTIVATE, LYK_INFO, LYK_DOWNLOAD }; int c; /* Somehow the mouse is over the number instead of being over the name, so we decrease x. */ c = popup_choice((atlink ? 2 : 9) - 1, y, (x >= 5 ? x-5 : 0), (atlink ? choices_link : choices), (atlink ? (sizeof(actions_link)/sizeof(int)) : (sizeof(actions)/sizeof(int))), FALSE); return atlink ? (actions_link[c]) : (actions[c]); } #endif #if defined(USE_KEYMAPS) && defined(USE_SLANG) /* We cannot guarantee the type for 'GetChar', and should not use a cast. */ PRIVATE int myGetChar NOARGS { return GetChar(); } PUBLIC int LYgetch NOARGS { SLang_Key_Type *key; int keysym; key = SLang_do_key (Keymap_List, myGetChar); if ((key == NULL) || (key->type != SLKEY_F_KEYSYM)) return DO_NOTHING; keysym = key->f.keysym; #if defined (USE_SLANG_MOUSE) if (keysym == MOUSE_KEYSYM) return sl_read_mouse_event (); #endif if ((keysym+1 >= KEYMAP_SIZE) || (keysym < 0)) return 0; return keysym; } PUBLIC int LYgetch_for ARGS1( int, code) { return LYgetch(); } #else /* NOT defined(USE_KEYMAPS) && defined(USE_SLANG) */ /* * LYgetch() translates some escape sequences and may fake noecho. */ #define found_CSI(first,second) ((second) == '[' || (first) == 155) PUBLIC int LYgetch NOARGS { return LYgetch_for(FOR_PANEL); } PUBLIC int LYgetch_for ARGS1( int, code) { int a, b, c, d = -1; have_levent = 0; #if defined(IGNORE_CTRL_C) || defined(USE_GETCHAR) || !defined(NCURSES) re_read: #endif /* IGNORE_CTRL_C || USE_GETCHAR */ #ifndef USE_SLANG clearerr(stdin); /* needed here for ultrix and SOCKETSHR, but why? - FM */ #endif /* !USE_SLANG */ #if !defined(USE_SLANG) || defined(VMS) || defined(DJGPP_KEYHANDLER) c = GetChar(); #else if (LYCursesON) { c = GetChar(); } else { c = getchar(); if (c == EOF && errno == EINTR) /* Ctrl-Z causes EINTR in getchar() */ clearerr(stdin); if (feof(stdin) || ferror(stdin) || c == EOF) { #ifdef IGNORE_CTRL_C if (sigint) sigint = FALSE; #endif /* IGNORE_CTRL_C */ return(7); /* use ^G to cancel whatever called us. */ } } #endif /* !USE_SLANG || VMS */ #ifdef USE_GETCHAR if (c == EOF && errno == EINTR) /* Ctrl-Z causes EINTR in getchar() */ goto re_read; #endif /* USE_GETCHAR */ #ifdef USE_SLANG if (c == 0xFFFF && LYCursesON) { #ifdef IGNORE_CTRL_C if (sigint) { sigint = FALSE; goto re_read; } #endif /* IGNORE_CTRL_C */ return(7); /* use ^G to cancel whatever called us. */ } #else if (feof(stdin) || ferror(stdin) || c == EOF) { if (recent_sizechange) return(7); /* use ^G to cancel whatever called us. */ #ifdef IGNORE_CTRL_C if (sigint) { sigint = FALSE; /* clearerr(stdin); don't need here if stays above - FM */ goto re_read; } #endif /* IGNORE_CTRL_C */ #if !defined(USE_GETCHAR) && !defined(VMS) && !defined(NCURSES) if (c == ERR && errno == EINTR) /* may have been handled signal - kw */ goto re_read; #endif /* USE_GETCHAR */ cleanup(); exit_immediately(0); } #endif /* USE_SLANG */ if (c == CH_ESC || (csi_is_csi && c == (unsigned char)CH_ESC_PAR)) { /* handle escape sequence S/390 -- gil -- 2024 */ b = GetChar(); if (b == '[' || b == 'O') { a = GetChar(); } else { a = b; } switch (a) { case 'A': c = UPARROW; break; case 'x': c = UPARROW; break; /* keypad up on pc ncsa telnet */ case 'B': c = DNARROW; break; case 'r': c = DNARROW; break; /* keypad down on pc ncsa telnet */ case 'C': c = RTARROW; break; case 'v': c = RTARROW; break; /* keypad right on pc ncsa telnet */ case 'D': c = LTARROW; break; case 't': c = LTARROW; break; /* keypad left on pc ncsa telnet */ case 'y': c = PGUP; break; /* keypad on pc ncsa telnet */ case 's': c = PGDOWN; break; /* keypad on pc ncsa telnet */ case 'w': c = HOME; break; /* keypad on pc ncsa telnet */ case 'q': c = END_KEY; break; /* keypad on pc ncsa telnet */ case 'M': #ifdef USE_SLANG_MOUSE if (found_CSI(c,b)) { c = sl_read_mouse_event (); } else #endif c = '\n'; /* keypad enter on pc ncsa telnet */ break; case 'm': #ifdef VMS if (b != 'O') #endif /* VMS */ c = '-'; /* keypad on pc ncsa telnet */ break; case 'k': if (b == 'O') c = '+'; /* keypad + on my xterminal :) */ break; case 'l': #ifdef VMS if (b != 'O') #endif /* VMS */ c = '+'; /* keypad on pc ncsa telnet */ break; case 'P': #ifdef VMS if (b != 'O') #endif /* VMS */ c = F1; break; case 'u': #ifdef VMS if (b != 'O') #endif /* VMS */ c = F1; /* macintosh help button */ break; case 'p': #ifdef VMS if (b == 'O') #endif /* VMS */ c = '0'; /* keypad 0 */ break; case '1': /** VTxxx Find **/ if (found_CSI(c,b) && (d=GetChar()) == '~') c = FIND_KEY; break; case '2': if (found_CSI(c,b)) { if ((d=GetChar())=='~') /** VTxxx Insert **/ c = INSERT_KEY; else if ((d == '8' || d == '9') && GetChar() == '~') { if (d == '8') /** VTxxx Help **/ c = F1; else if (d == '9') /** VTxxx Do **/ c = DO_KEY; d = -1; } } break; case '3': /** VTxxx Delete **/ if (found_CSI(c,b) && (d=GetChar()) == '~') c = REMOVE_KEY; break; case '4': /** VTxxx Select **/ if (found_CSI(c,b) && (d=GetChar()) == '~') c = SELECT_KEY; break; case '5': /** VTxxx PrevScreen **/ if (found_CSI(c,b) && (d=GetChar()) == '~') c = PGUP; break; case '6': /** VTxxx NextScreen **/ if (found_CSI(c,b) && (d=GetChar()) == '~') c = PGDOWN; break; case '[': /** Linux F1-F5: ^[[[A etc. **/ if (found_CSI(c,b)) { if ((d=GetChar()) == 'A') c = F1; break; } default: CTRACE(tfp,"Unknown key sequence: %d:%d:%d\n",c,b,a); CTRACE_SLEEP(MessageSecs); break; } if (isdigit(a) && found_CSI(c,b) && d != -1 && d != '~') d = GetChar(); } #if HAVE_KEYPAD else { /* * Convert keypad() mode keys into Lynx defined keys. */ switch(c) { case KEY_DOWN: /* The four arrow keys ... */ c = DNARROW; break; case KEY_UP: c = UPARROW; break; case KEY_LEFT: c = LTARROW; break; case KEY_RIGHT: /* ... */ c = RTARROW; break; case KEY_HOME: /* Home key (upward+left arrow) */ c = HOME; break; case KEY_CLEAR: /* Clear screen */ c = 18; /* CTRL-R */ break; case KEY_NPAGE: /* Next page */ c = PGDOWN; break; case KEY_PPAGE: /* Previous page */ c = PGUP; break; case KEY_LL: /* home down or bottom (lower left) */ c = END_KEY; break; /* The keypad is arranged like this:*/ /* a1 up a3 */ /* left b2 right */ /* c1 down c3 */ case KEY_A1: /* upper left of keypad */ c = HOME; break; case KEY_A3: /* upper right of keypad */ c = PGUP; break; case KEY_B2: /* center of keypad */ c = DO_NOTHING; break; case KEY_C1: /* lower left of keypad */ c = END_KEY; break; case KEY_C3: /* lower right of keypad */ c = PGDOWN; break; #ifdef KEY_ENTER case KEY_ENTER: /* enter/return */ c = '\n'; break; #endif /* KEY_ENTER */ #ifdef PADENTER /* PDCURSES */ case PADENTER: c = '\n'; break; #endif /* PADENTER */ #ifdef KEY_END case KEY_END: /* end key 001 */ c = END_KEY; break; #endif /* KEY_END */ #ifdef KEY_HELP case KEY_HELP: /* help key 001 */ c = F1; break; #endif /* KEY_HELP */ #ifdef KEY_BACKSPACE case KEY_BACKSPACE: c = CH_DEL; /* backspace key (delete, not Ctrl-H) S/390 -- gil -- 2041 */ break; #endif /* KEY_BACKSPACE */ case KEY_F(1): c = F1; /* VTxxx Help */ break; #if defined(KEY_F) && !defined(__DJGPP__) && !defined(_WINDOWS) case KEY_F(16): c = DO_KEY; /* VTxxx Do */ break; #endif /* KEY_F */ #ifdef KEY_REDO case KEY_REDO: /* VTxxx Do */ c = DO_KEY; break; #endif /* KEY_REDO */ #ifdef KEY_FIND case KEY_FIND: c = FIND_KEY; /* VTxxx Find */ break; #endif /* KEY_FIND */ #ifdef KEY_SELECT case KEY_SELECT: c = SELECT_KEY; /* VTxxx Select */ break; #endif /* KEY_SELECT */ #ifdef KEY_IC case KEY_IC: c = INSERT_KEY; /* VTxxx Insert */ break; #endif /* KEY_IC */ #ifdef KEY_DC case KEY_DC: c = REMOVE_KEY; /* VTxxx Remove */ break; #endif /* KEY_DC */ #ifdef KEY_BTAB case KEY_BTAB: c = BACKTAB_KEY; /* Back tab, often Shift-Tab */ break; #endif /* KEY_BTAB */ /* The following maps PDCurses keys away from lynx reserved values */ #if (defined(_WINDOWS) || defined(__DJGPP__)) && !defined(USE_SLANG) case KEY_F(2): c = 0x213; break; case KEY_F(3): c = 0x214; break; case KEY_F(4): c = 0x215; break; case KEY_F(5): c = 0x216; break; case KEY_F(6): c = 0x217; break; case KEY_F(7): c = 0x218; break; #endif /* PDCurses */ #ifdef NCURSES_MOUSE_VERSION case KEY_MOUSE: if (code == FOR_CHOICE) { c = MOUSE_KEY; /* Will be processed by the caller */ } else { #ifndef DOSPATH MEVENT event; int err; c = -1; mouse_link = -1; err = getmouse(&event); levent = event; /* Allow setting pos in entry fields */ if (event.bstate & BUTTON1_CLICKED) { c = set_clicked_link(event.x, event.y, code); } else if (event.bstate & BUTTON1_DOUBLE_CLICKED) { c = set_clicked_link(event.x, event.y, code); if (c == PGDOWN) c = END_KEY; else if (c == PGUP) c = HOME; else if (c == LTARROW) c = LYReverseKeymap(LYK_MAIN_MENU); } else if (event.bstate & BUTTON3_CLICKED) { c = LYReverseKeymap (LYK_PREV_DOC); } else if (event.bstate & BUTTON2_CLICKED) { int atlink; c = set_clicked_link(event.x, event.y, code); atlink = c == LYReverseKeymap (LYK_ACTIVATE); if (!atlink) mouse_link = -1; /* Forget about approx stuff. */ c = LYmouse_menu(event.x, event.y, atlink); if (c == LYK_ACTIVATE && mouse_link == -1) { HTAlert("No link chosen"); c = LYK_DO_NOTHING; c = LYK_REFRESH; /* refresh() below does not work... */ } c = LYReverseKeymap(c); lynx_force_repaint(); refresh(); } if (code == FOR_INPUT && mouse_link == -1) { ungetmouse(&event); /* Caller will process this. */ getch(); /* ungetmouse puts KEY_MOUSE back */ c = MOUSE_KEY; } #else /* pdcurses version */ c = -1; mouse_link = -1; request_mouse_pos(); if (BUTTON_STATUS(1) & BUTTON_CLICKED) { c = set_clicked_link(MOUSE_X_POS, MOUSE_Y_POS, FOR_PANEL); } else if (BUTTON_STATUS(3) & BUTTON_CLICKED) { c = LYReverseKeymap (LYK_PREV_DOC); } #endif /* DOSPATH */ } break; #endif /* NCURSES_MOUSE_VERSION */ } } #endif /* HAVE_KEYPAD */ #ifdef DJGPP_KEYHANDLER else { switch(c) { case K_Down: /* The four arrow keys ... */ case K_EDown: c = DNARROW; break; case K_Up: case K_EUp: c = UPARROW; break; case K_Left: case K_ELeft: c = LTARROW; break; case K_Right: /* ... */ case K_ERight: c = RTARROW; break; case K_Home: /* Home key (upward+left arrow) */ case K_EHome: c = HOME; break; case K_PageDown: /* Next page */ case K_EPageDown: c = PGDOWN; break; case K_PageUp: /* Previous page */ case K_EPageUp: c = PGUP; break; case K_End: /* home down or bottom (lower left) */ case K_EEnd: c = END_KEY; break; case K_F1: /* F1 key */ c = F1; break; case K_Insert: /* Insert key */ case K_EInsert: c = INSERT_KEY; break; case K_Delete: /* Delete key */ case K_EDelete: c = REMOVE_KEY; break; case K_Alt_Escape: /* Alt-Escape */ c = 0x1a7; break; case K_Control_At: /* CTRL-@ */ c = 0x1a8; break; case K_Alt_Backspace: /* Alt-Backspace */ c = 0x1a9; break; case K_BackTab: /* BackTab */ c = BACKTAB_KEY; break; } } #endif /* DGJPP_KEYHANDLER */ #if defined(USE_SLANG) && defined(__DJGPP__) && !defined(DJGPP_KEYHANDLER) && !defined(USE_KEYMAPS) else { switch(c) { case SL_KEY_DOWN: /* The four arrow keys ... */ c = DNARROW; break; case SL_KEY_UP: c = UPARROW; break; case SL_KEY_LEFT: c = LTARROW; break; case SL_KEY_RIGHT: /* ... */ c = RTARROW; break; case SL_KEY_HOME: /* Home key (upward+left arrow) */ case SL_KEY_A1: /* upper left of keypad */ c = HOME; break; case SL_KEY_NPAGE: /* Next page */ case SL_KEY_C3: /* lower right of keypad */ c = PGDOWN; break; case SL_KEY_PPAGE: /* Previous page */ case SL_KEY_A3: /* upper right of keypad */ c = PGUP; break; case SL_KEY_END: /* home down or bottom (lower left) */ case SL_KEY_C1: /* lower left of keypad */ c = END_KEY; break; case SL_KEY_F(1): /* F1 key */ c = F1; break; case SL_KEY_IC: /* Insert key */ c = INSERT_KEY; break; case SL_KEY_DELETE: /* Delete key */ c = REMOVE_KEY; break; } } #endif /* USE_SLANG && __DJGPP__ && !DJGPP_KEYHANDLER && !USE_KEYMAPS */ if ((c+1) >= KEYMAP_SIZE) { /* * Don't return raw values for KEYPAD symbols which we may have * missed in the switch above if they are obviously invalid when * used as an index into (e.g.) keypad[]. - KW */ return (0); } else { return(c); } } #endif /* NOT defined(USE_KEYMAPS) && defined(USE_SLANG) */ /* * Convert a null-terminated string to lowercase */ PUBLIC void LYLowerCase ARGS1( char *, buffer) { size_t i; for (i = 0; buffer[i]; i++) buffer[i] = TOLOWER(buffer[i]); } /* * Convert a null-terminated string to uppercase */ PUBLIC void LYUpperCase ARGS1( char *, buffer) { size_t i; for (i = 0; buffer[i]; i++) buffer[i] = TOUPPER(buffer[i]); } /* * Remove ALL whitespace from a string (including embedded blanks). */ PUBLIC void LYRemoveBlanks ARGS1( char *, buffer) { if (buffer != 0) { size_t i, j; for (i = j = 0; buffer[i]; i++) if (!isspace((unsigned char)(buffer[i]))) buffer[j++] = buffer[i]; buffer[j] = 0; } } /* * Skip whitespace */ PUBLIC char * LYSkipBlanks ARGS1( char *, buffer) { while (isspace((unsigned char)(*buffer))) buffer++; return buffer; } /* * Skip non-whitespace */ PUBLIC char * LYSkipNonBlanks ARGS1( char *, buffer) { while (*buffer != 0 && !isspace((unsigned char)(*buffer))) buffer++; return buffer; } /* * Skip CONST whitespace */ PUBLIC CONST char * LYSkipCBlanks ARGS1( CONST char *, buffer) { while (isspace((unsigned char)(*buffer))) buffer++; return buffer; } /* * Skip CONST non-whitespace */ PUBLIC CONST char * LYSkipCNonBlanks ARGS1( CONST char *, buffer) { while (*buffer != 0 && !isspace((unsigned char)(*buffer))) buffer++; return buffer; } /* * Trim leading blanks from a string */ PUBLIC void LYTrimLeading ARGS1( char *, buffer) { char *skipped = LYSkipBlanks(buffer); while ((*buffer++ = *skipped++) != 0) ; } /* * Trim trailing blanks from a string */ PUBLIC void LYTrimTrailing ARGS1( char *, buffer) { size_t i = strlen(buffer); while (i != 0 && isspace((unsigned char)buffer[i-1])) buffer[--i] = 0; } /* * Trim a startfile, returning true if it looks like one of the Lynx tags. */ PUBLIC BOOLEAN LYTrimStartfile ARGS1( char *, buffer) { LYTrimHead(buffer); if (!strncasecomp(buffer, "lynxexec:", 9) || !strncasecomp(buffer, "lynxprog:", 9)) { /* * The original implementations of these schemes expected * white space without hex escaping, and did not check * for hex escaping, so we'll continue to support that, * until that code is redone in conformance with SGML * principles. - FM */ HTUnEscapeSome(buffer, " \r\n\t"); convert_to_spaces(buffer, TRUE); return TRUE; } return FALSE; } /* ** Display the current value of the string and allow the user ** to edit it. */ #define EDREC EditFieldData /* * Shorthand to get rid of all most of the "edit->suchandsos". */ #define Buf edit->buffer #define Pos edit->pos #define StrLen edit->strlen #define MaxLen edit->maxlen #define DspWdth edit->dspwdth #define DspStart edit->xpan #define Margin edit->margin PUBLIC void LYSetupEdit ARGS4( EDREC *, edit, char *, old, int, maxstr, int, maxdsp) { /* * Initialize edit record */ LYGetYX(edit->sy, edit->sx); edit->pad = ' '; edit->dirty = TRUE; edit->panon = FALSE; StrLen = strlen(old); MaxLen = maxstr; DspWdth = maxdsp; Margin = 0; Pos = strlen(old); DspStart = 0; if (maxstr > maxdsp) { /* Need panning? */ if (DspWdth > 4) /* Else "{}" take up precious screen space */ edit->panon = TRUE; /* * Figure out margins. If too big, we do a lot of unnecessary * scrolling. If too small, user doesn't have sufficient * look-ahead. Let's say 25% for each margin, upper bound is * 10 columns. */ Margin = DspWdth/4; if (Margin > 10) Margin = 10; } /* * We expect the called function to pass us a default (old) value * with a length that is less than or equal to maxstr, and to * handle any messaging associated with actions to achieve that * requirement. However, in case the calling function screwed * up, we'll check it here, and ensure that no buffer overrun can * occur by loading only as much of the head as fits. - FM */ if (strlen(old) >= (unsigned)maxstr) { strncpy(edit->buffer, old, maxstr); edit->buffer[maxstr] = '\0'; StrLen = maxstr; } else { strcpy(edit->buffer, old); } } PUBLIC int LYEdit1 ARGS4( EDREC *, edit, int, ch, int, action, BOOL, maxMessage) { /* returns 0 character processed * ch otherwise */ int i; int length; #ifdef EXP_KEYBOARD_LAYOUT static int map_active = 0; #endif if (MaxLen <= 0) return(0); /* Be defensive */ length = strlen(&Buf[0]); StrLen = length; switch (action) { #ifdef EXP_KEYBOARD_LAYOUT case LYE_SWMAP: /* * Turn input character mapping on or off. */ map_active = ~map_active; break; #endif case LYE_AIX: /* * Hex 97. * Fall through as a character for CJK, or if this is a valid * character in the current display character set. * Otherwise, we treat this as LYE_ENTER. */ if (HTCJK == NOCJK && LYlowest_eightbit[current_char_set] > 0x97) return(ch); case LYE_CHAR: #ifdef EXP_KEYBOARD_LAYOUT if (map_active && ch < 128 && ch >= 0 && LYKbLayouts[current_layout][ch]) ch = UCTransUniChar((long) LYKbLayouts[current_layout][ch], current_char_set); #endif /* * ch is printable or ISO-8859-1 escape character. */ if (Pos <= (MaxLen) && StrLen < (MaxLen)) { for(i = length; i >= Pos; i--) /* Make room */ Buf[i+1] = Buf[i]; Buf[length+1]='\0'; Buf[Pos] = (unsigned char) ch; Pos++; } else if (maxMessage) { _statusline(MAXLEN_REACHED_DEL_OR_MOV); } break; case LYE_BACKW: /* * Backword. * Definition of word is very naive: 1 or more a/n characters. */ while (Pos && !isalnum(Buf[Pos-1])) Pos--; while (Pos && isalnum(Buf[Pos-1])) Pos--; break; case LYE_FORWW: /* * Word forward. */ while (isalnum(Buf[Pos])) Pos++; /* '\0' is not a/n */ while (!isalnum(Buf[Pos]) && Buf[Pos]) Pos++ ; break; case LYE_ERASE: /* * Erase the line to start fresh. */ Buf[0] = '\0'; /* fall through */ case LYE_BOL: /* * Go to first column. */ Pos = 0; break; case LYE_EOL: /* * Go to last column. */ Pos = length; break; case LYE_DELNW: /* * Delete next word. */ { int pos0 = Pos; LYEdit1 (edit, 0, LYE_FORWW, FALSE); while (Pos > pos0) LYEdit1(edit, 0, LYE_DELP, FALSE); } break; case LYE_DELPW: /* * Delete previous word. */ { int pos0 = Pos; LYEdit1 (edit, 0, LYE_BACKW, FALSE); pos0 -= Pos; while (pos0--) LYEdit1(edit, 0, LYE_DELN, FALSE); } break; case LYE_DELBL: /* * Delete from current cursor position back to BOL. */ { int pos0 = Pos; while (pos0--) LYEdit1(edit, 0, LYE_DELP, FALSE); } break; case LYE_DELEL: /* * Delete from current cursor position thru EOL. */ { int pos0 = Pos; LYEdit1(edit, 0, LYE_EOL, FALSE); pos0 = Pos - pos0; while (pos0--) LYEdit1(edit, 0, LYE_DELP, FALSE); } break; case LYE_DELN: /* * Delete next character (I-beam style cursor), or current * character (box/underline style cursor). */ if (Pos >= length) break; Pos++; /* fall through - DO NOT RELOCATE the LYE_DELN case wrt LYE_DELP */ case LYE_DELP: /* * Delete preceding character. */ if (length == 0 || Pos == 0) break; Pos--; for (i = Pos; i < length; i++) Buf[i] = Buf[i+1]; i--; Buf[i] = 0; break; case LYE_FORW: /* * Move cursor to the right. */ if (Pos < length) Pos++; break; case LYE_BACK: /* * Left-arrow move cursor to the left. */ if (Pos > 0) Pos--; break; case LYE_UPPER: LYUpperCase(Buf); break; case LYE_LOWER: LYLowerCase(Buf); break; default: return(ch); } edit->dirty = TRUE; StrLen = strlen(&Buf[0]); return(0); } PUBLIC void LYRefreshEdit ARGS1( EDREC *, edit) { int i; int length; int nrdisplayed; int padsize; char *str; char buffer[3]; buffer[0] = buffer[1] = buffer[2] = '\0'; if (!edit->dirty || (DspWdth == 0)) return; edit->dirty = FALSE; length=strlen(&Buf[0]); edit->strlen = length; /* * Now we have: * .--DspWdth---. * +---------+=============+-----------+ * | |M M| | (M=margin) * +---------+=============+-----------+ * 0 DspStart length * * Insertion point can be anywhere between 0 and stringlength. * Figure out new display starting point. * * The first "if" below makes Lynx scroll several columns at a time when * extending the string. Looks awful, but that way we can keep up with * data entry at low baudrates. */ if ((DspStart + DspWdth) <= length) if (Pos >= (DspStart + DspWdth) - Margin) DspStart=(Pos - DspWdth) + Margin; if (Pos < DspStart + Margin) { DspStart = Pos - Margin; if (DspStart < 0) DspStart = 0; } str = &Buf[DspStart]; nrdisplayed = length-DspStart; if (nrdisplayed > DspWdth) nrdisplayed = DspWdth; move(edit->sy, edit->sx); #ifdef USE_COLOR_STYLE /* * If this is the last screen line, set attributes to normal, * should only be needed for color styles. The curses function * may be used directly to avoid complications. - kw */ if (edit->sy == (LYlines - 1)) { if (s_normal != NOSTYLE) { curses_style(s_normal, ABS_ON); } else { attrset(A_NORMAL); /* need to do something about colors? */ } } #endif if (edit->hidden) { for (i = 0; i < nrdisplayed; i++) addch('*'); } else { for (i = 0; i < nrdisplayed; i++) if ((buffer[0] = str[i]) == 1 || buffer[0] == 2 || ((unsigned char)buffer[0] == 160 && !(HTPassHighCtrlRaw || HTCJK != NOCJK || (LYCharSet_UC[current_char_set].enc != UCT_ENC_8859 && !(LYCharSet_UC[current_char_set].like8859 & UCT_R_8859SPECL))))) { addch(' '); } else { /* For CJK strings, by Masanobu Kimura */ if (HTCJK != NOCJK && !isascii(buffer[0])) { if (i < (nrdisplayed - 1)) buffer[1] = str[++i]; addstr(buffer); buffer[1] = '\0'; } else { addstr(buffer); } } } /* * Erase rest of input area. */ padsize = DspWdth-nrdisplayed; while (padsize--) addch((unsigned char)edit->pad); /* * Scrolling indicators. */ if (edit->panon) { if ((DspStart + nrdisplayed) < length) { move(edit->sy, edit->sx+nrdisplayed-1); addch('}'); } if (DspStart) { move(edit->sy, edit->sx); addch('{'); } } move(edit->sy, edit->sx + Pos - DspStart); refresh(); } PUBLIC int LYgetstr ARGS4( char *, inputline, int, hidden, size_t, bufsize, int, recall) { int x, y, MaxStringSize; int ch; EditFieldData MyEdit; char *res; LYGetYX(y, x); /* Use screen from cursor position to eol */ MaxStringSize = (bufsize < sizeof(MyEdit.buffer)) ? (bufsize - 1) : (sizeof(MyEdit.buffer) - 1); LYSetupEdit(&MyEdit, inputline, MaxStringSize, (LYcols-1)-x); MyEdit.hidden = hidden ; for (;;) { again: LYRefreshEdit(&MyEdit); ch = LYgetch(); #ifdef VMS if (term_letter || term_options || #ifndef DISABLE_NEWS term_message #endif || HadVMSInterrupt) { HadVMSInterrupt = FALSE; ch = 7; } #else if (term_letter || term_options #ifndef DISABLE_NEWS || term_message #endif ) ch = 7; #endif /* VMS */ if (recall && (ch == UPARROW || ch == DNARROW)) { strcpy(inputline, MyEdit.buffer); LYAddToCloset(MyEdit.buffer); return(ch); } if (keymap[ch + 1] == LYK_REFRESH) goto again; switch (EditBinding(ch)) { case LYE_TAB: ch = '\t'; /* This used to fall through to the next case before tab completion was introduced */ res = LYFindInCloset(MyEdit.buffer); if (res != 0) { LYEdit1(&MyEdit, '\0', LYE_ERASE, FALSE); while (*res != '\0') { LYLineEdit(&MyEdit, (int)(*res), FALSE); res++; } } else { ch = '\0'; } break; case LYE_AIX: /* * Hex 97. * Treat as a character for CJK, or if this is a valid * character in the current display character set. * Otherwise, we treat this as LYE_ENTER. */ if (ch != '\t' && (HTCJK != NOCJK || LYlowest_eightbit[current_char_set] <= 0x97)) { LYLineEdit(&MyEdit,ch, FALSE); break; } case LYE_ENTER: /* * Terminate the string and return. */ strcpy(inputline, MyEdit.buffer); LYAddToCloset(MyEdit.buffer); return(ch); case LYE_ABORT: /* * Control-C or Control-G aborts. */ inputline[0] = '\0'; return(-1); case LYE_LKCMD: /* * Used only in form_getstr() for invoking * the LYK_F_LINK_NUM prompt when in form * text fields. - FM */ break; case LYE_FORM_PASS: /* * Used in form_getstr() to end line editing and * pass on the input char/lynxkeycode. Here it * is just ignored. - kw */ break; default: LYLineEdit(&MyEdit, ch, FALSE); } } } /* * A replacement for 'strsep()' */ PUBLIC char *LYstrsep ARGS2( char **, stringp, CONST char *, delim) { char *tmp, *out; if (!stringp || !*stringp) /* nothing to do? */ return 0; /* then don't fall on our faces */ if (!**stringp) { /* empty string: */ *stringp = 0; /* let caller see he's done; */ return 0; /* no tokens in an empty string */ } out = *stringp; /* save the start of the string */ tmp = strpbrk(*stringp, delim); if (tmp) { *tmp = '\0'; /* terminate the substring with \0 */ *stringp = ++tmp; /* point at the next substring */ } else *stringp = 0; /* this was the last substring: */ /* let caller see he's done */ return out; } /* * LYstrstr will find the first occurrence of the string * pointed to by tarptr in the string pointed to by chptr. * It returns NULL if string not found. * It is a case insensitive search. */ PUBLIC char * LYstrstr ARGS2( char *, chptr, CONST char *, tarptr) { int len = strlen(tarptr); for(; *chptr != '\0'; chptr++) { if (0 == UPPER8(*chptr, *tarptr)) { if (0 == strncasecomp8(chptr+1, tarptr+1, len-1)) return(chptr); } } /* end for */ return(NULL); /* string not found or initial chptr was empty */ } /* * LYno_attr_char_case_strstr will find the first occurrence of the * string pointed to by tarptr in the string pointed to by chptr. * It ignores the characters: LY_UNDERLINE_START_CHAR and * LY_UNDERLINE_END_CHAR * LY_BOLD_START_CHAR * LY_BOLD_END_CHAR * LY_SOFT_HYPHEN * if present in chptr. * It is a case insensitive search. */ PUBLIC char * LYno_attr_char_case_strstr ARGS2( char *, chptr, char *, tarptr) { register char *tmpchptr, *tmptarptr; if (!chptr) return(NULL); while (IsSpecialAttrChar(*chptr) && *chptr != '\0') chptr++; for (; *chptr != '\0'; chptr++) { if (0 == UPPER8(*chptr, *tarptr)) { /* * See if they line up. */ tmpchptr = chptr+1; tmptarptr = tarptr+1; if (*tmptarptr == '\0') /* one char target */ return(chptr); while (1) { if (!IsSpecialAttrChar(*tmpchptr)) { if (0 != UPPER8(*tmpchptr, *tmptarptr)) break; tmpchptr++; tmptarptr++; } else { tmpchptr++; } if (*tmptarptr == '\0') return(chptr); if (*tmpchptr == '\0') break; } } } /* end for */ return(NULL); } /* * LYno_attr_char_strstr will find the first occurrence of the * string pointed to by tarptr in the string pointed to by chptr. * It ignores the characters: LY_UNDERLINE_START_CHAR and * LY_UNDERLINE_END_CHAR * LY_BOLD_START_CHAR * LY_BOLD_END_CHAR * LY_SOFT_HYPHEN * if present in chptr. * It is a case sensitive search. */ PUBLIC char * LYno_attr_char_strstr ARGS2( char *, chptr, char *, tarptr) { register char *tmpchptr, *tmptarptr; if (!chptr) return(NULL); while (IsSpecialAttrChar(*chptr) && *chptr != '\0') chptr++; for (; *chptr != '\0'; chptr++) { if ((*chptr) == (*tarptr)) { /* * See if they line up. */ tmpchptr = chptr + 1; tmptarptr = tarptr + 1; if (*tmptarptr == '\0') /* one char target */ return(chptr); while (1) { if (!IsSpecialAttrChar(*tmpchptr)) { if ((*tmpchptr) != (*tmptarptr)) break; tmpchptr++; tmptarptr++; } else { tmpchptr++; } if (*tmptarptr == '\0') return(chptr); if (*tmpchptr == '\0') break; } } } /* end for */ return(NULL); } /* * LYno_attr_mbcs_case_strstr will find the first occurrence of the string * pointed to by tarptr in the string pointed to by chptr. * It takes account of MultiByte Character Sequences (UTF8). * The physical length of the displayed string up to the end of the target * string is returned in *nendp if the search is successful. * It ignores the characters: LY_UNDERLINE_START_CHAR and * LY_UNDERLINE_END_CHAR * LY_BOLD_START_CHAR * LY_BOLD_END_CHAR * LY_SOFT_HYPHEN * if present in chptr. * It assumes UTF8 if utf_flag is set. * It is a case insensitive search. - KW & FM */ PUBLIC char * LYno_attr_mbcs_case_strstr ARGS5( char *, chptr, char *, tarptr, BOOL, utf_flag, int *, nstartp, int *, nendp) { register char *tmpchptr, *tmptarptr; int len = 0; int offset; if (!(chptr && tarptr)) return(NULL); /* * Skip initial IsSpecial chars. - FM */ while (IsSpecialAttrChar(*chptr) && *chptr != '\0') chptr++; /* * Seek a first target match. - FM */ for (; *chptr != '\0'; chptr++) { if ((!utf_flag && HTCJK != NOCJK && !isascii(*chptr) && *chptr == *tarptr && *(chptr + 1) != '\0' && !IsSpecialAttrChar(*(chptr + 1))) || (0 == UPPER8(*chptr, *tarptr))) { int tarlen = 0; offset = len; len++; /* * See if they line up. */ tmpchptr = (chptr + 1); tmptarptr = (tarptr + 1); if (*tmptarptr == '\0') { /* * One char target. */ *nstartp = offset; *nendp = len; return(chptr); } if (!utf_flag && HTCJK != NOCJK && !isascii(*chptr) && *chptr == *tarptr && *tmpchptr != '\0' && !IsSpecialAttrChar(*tmpchptr)) { /* * Check the CJK multibyte. - FM */ if (*tmpchptr == *tmptarptr) { /* * It's a match. Advance to next char. - FM */ tmpchptr++; tmptarptr++; if (*tmptarptr == '\0') { /* * One character match. - FM */ *nstartp = offset; *nendp = len + tarlen; return(chptr); } tarlen++; } else { /* * It's not a match, so go back to * seeking a first target match. - FM */ chptr++; continue; } } /* * See if the rest of the target matches. - FM */ while (1) { if (!IsSpecialAttrChar(*tmpchptr)) { if (!utf_flag && HTCJK != NOCJK && !isascii(*tmpchptr)) { if (*tmpchptr == *tmptarptr && *(tmpchptr + 1) == *(tmptarptr + 1) && !IsSpecialAttrChar(*(tmpchptr + 1))) { tmpchptr++; tmptarptr++; } else { break; } } else if (0 != UPPER8(*tmpchptr, *tmptarptr)) { break; } if (!IS_UTF_EXTRA(*tmptarptr)) { tarlen++; } tmpchptr++; tmptarptr++; } else { tmpchptr++; } if (*tmptarptr == '\0') { *nstartp = offset; *nendp = len + tarlen; return(chptr); } if (*tmpchptr == '\0') { break; } } } else if (!(IS_UTF_EXTRA(*chptr) || IsSpecialAttrChar(*chptr))) { if (!utf_flag && HTCJK != NOCJK && !isascii(*chptr) && *(chptr + 1) != '\0' && !IsSpecialAttrChar(*(chptr + 1))) { chptr++; } len++; } } /* end for */ return(NULL); } /* * LYno_attr_mbcs_strstr will find the first occurrence of the string * pointed to by tarptr in the string pointed to by chptr. * It takes account of CJK and MultiByte Character Sequences (UTF8). * The physical lengths of the displayed string up to the start and * end of the target string are returned in *nstartp and *nendp if * the search is successful. * It ignores the characters: LY_UNDERLINE_START_CHAR and * LY_UNDERLINE_END_CHAR * LY_BOLD_START_CHAR * LY_BOLD_END_CHAR * LY_SOFT_HYPHEN * if present in chptr. * It assumes UTF8 if utf_flag is set. * It is a case sensitive search. - KW & FM */ PUBLIC char * LYno_attr_mbcs_strstr ARGS5( char *, chptr, char *, tarptr, BOOL, utf_flag, int *, nstartp, int *, nendp) { register char *tmpchptr, *tmptarptr; int len = 0; int offset; if (!(chptr && tarptr)) return(NULL); /* * Skip initial IsSpecial chars. - FM */ while (IsSpecialAttrChar(*chptr) && *chptr != '\0') chptr++; /* * Seek a first target match. - FM */ for (; *chptr != '\0'; chptr++) { if ((*chptr) == (*tarptr)) { int tarlen = 0; offset = len; len++; /* * See if they line up. */ tmpchptr = (chptr + 1); tmptarptr = (tarptr + 1); if (*tmptarptr == '\0') { /* * One char target. */ *nstartp = offset; *nendp = len + 1; return(chptr); } if (!utf_flag && HTCJK != NOCJK && !isascii(*chptr) && *tmpchptr != '\0' && !IsSpecialAttrChar(*tmpchptr)) { /* * Check the CJK multibyte. - FM */ if (*tmpchptr == *tmptarptr) { /* * It's a match. Advance to next char. - FM */ tmpchptr++; tmptarptr++; if (*tmptarptr == '\0') { /* * One character match. - FM */ *nstartp = offset; *nendp = len + tarlen; return(chptr); } tarlen++; } else { /* * It's not a match, so go back to * seeking a first target match. - FM */ chptr++; continue; } } /* * See if the rest of the target matches. - FM */ while (1) { if (!IsSpecialAttrChar(*tmpchptr)) { if (!utf_flag && HTCJK != NOCJK && !isascii(*tmpchptr)) { if (*tmpchptr == *tmptarptr && *(tmpchptr + 1) == *(tmptarptr + 1) && !IsSpecialAttrChar(*(tmpchptr + 1))) { tmpchptr++; tmptarptr++; } else { break; } } else if ((*tmpchptr) != (*tmptarptr)) { break; } if (!IS_UTF_EXTRA(*tmptarptr)) { tarlen++; } tmpchptr++; tmptarptr++; } else { tmpchptr++; } if (*tmptarptr == '\0') { *nstartp = offset; *nendp = len + tarlen; return(chptr); } if (*tmpchptr == '\0') { break; } } } else if (!(IS_UTF_EXTRA(*chptr) || IsSpecialAttrChar(*chptr))) { if (!utf_flag && HTCJK != NOCJK && !isascii(*chptr) && *(chptr + 1) != '\0' && !IsSpecialAttrChar(*(chptr + 1))) { chptr++; } len++; } } /* end for */ return(NULL); } PUBLIC void LYOpenCloset NOARGS { /* We initialize the list-looka-like, i.e., the Closet */ int i = 0; while(i < LYClosetSize){ LYCloset[i] = NULL; i = i + 1; } LYClosetTop = 0; } PUBLIC void LYCloseCloset NOARGS { int i = 0; /* Clean up the list-looka-like, i.e., the Closet */ while (i < LYClosetSize){ FREE(LYCloset[i]); i = i + 1; } } /* * Strategy: We begin at the top and search downwards. We return the first * match, i.e., the newest since we search from the top. This should be made * more intelligent, but works for now. */ PRIVATE char * LYFindInCloset ARGS1(char*, base) { int shelf; unsigned len = strlen(base); shelf = (LYClosetTop - 1 + LYClosetSize) % LYClosetSize; while (LYCloset[shelf] != NULL){ if (!strncmp(base, LYCloset[shelf], len)) { return(LYCloset[shelf]); } shelf = (shelf - 1 + LYClosetSize) % LYClosetSize; } return(0); } PRIVATE int LYAddToCloset ARGS1(char*, str) { unsigned len = strlen(str); LYCloset[LYClosetTop] = malloc(len+1); if (!LYCloset[LYClosetTop]) outofmem(__FILE__, "LYAddToCloset"); strcpy(LYCloset[LYClosetTop], str); LYClosetTop = (LYClosetTop + 1) % LYClosetSize; FREE(LYCloset[LYClosetTop]); return(1); } /* * Allocate a new copy of a string, and returns it. */ PUBLIC char * SNACopy ARGS3( char **, dest, CONST char *, src, int, n) { FREE(*dest); if (src) { *dest = (char *)calloc(1, n + 1); if (*dest == NULL) { CTRACE(tfp, "Tried to calloc %d bytes\n", n); outofmem(__FILE__, "SNACopy"); } strncpy (*dest, src, n); *(*dest + n) = '\0'; /* terminate */ } return *dest; } /* * String Allocate and Concatenate. */ PUBLIC char * SNACat ARGS3( char **, dest, CONST char *, src, int, n) { if (src && *src) { if (*dest) { int length = strlen(*dest); *dest = (char *)realloc(*dest, length + n + 1); if (*dest == NULL) outofmem(__FILE__, "SNACat"); strncpy(*dest + length, src, n); *(*dest + length + n) = '\0'; /* terminate */ } else { *dest = (char *)calloc(1, strlen(src) + 1); if (*dest == NULL) outofmem(__FILE__, "SNACat"); strncpy(*dest, src, n); *dest[n] = '\0'; /* terminate */ } } return *dest; } #include /* * Returns lowercase equivalent for unicode, * transparent output if no equivalent found. */ PRIVATE long UniToLowerCase ARGS1(long, upper) { size_t i, high, low; long diff = 0; /* * Make check for sure. */ if (upper <= 0) return(upper); /* * Try unicode_to_lower_case[]. */ low = 0; high = sizeof(unicode_to_lower_case)/sizeof(unicode_to_lower_case[0]); while (low < high) { /* ** Binary search. */ i = (low + (high-low)/2); diff = (unicode_to_lower_case[i].upper - upper); if (diff < 0) low = i+1; if (diff > 0) high = i; if (diff == 0) return (unicode_to_lower_case[i].lower); } return(upper); /* if we came here */ } /* ** UPPER8 ? ** it was "TOUPPER(a) - TOUPPER(b)" in its previous life... ** ** It was realized that case-insensitive user search ** got information about upper/lower mapping from TOUPPER ** (precisely from "(TOUPPER(a) - TOUPPER(b))==0") ** and depends on locale in its 8bit mapping. - ** Usually fails with DOS/WINDOWS display charsets ** as well as on non-UNIX systems. ** ** So use unicode case mapping. */ PUBLIC int UPPER8 ARGS2(int,ch1, int,ch2) { /* case-insensitive match for us-ascii */ if ((unsigned char)TOASCII(ch1) < 128 && (unsigned char)TOASCII(ch2) < 128) return(TOUPPER(ch1) - TOUPPER(ch2)); /* case-insensitive match for upper half */ if ((unsigned char)TOASCII(ch1) > 127 && /* S/390 -- gil -- 2066 */ (unsigned char)TOASCII(ch2) > 127) { if (DisplayCharsetMatchLocale) return(TOUPPER(ch1) - TOUPPER(ch2)); /* old-style */ else { long uni_ch1 = UCTransToUni(ch1, current_char_set); long uni_ch2 = UCTransToUni(ch2, current_char_set); return(UniToLowerCase(uni_ch1) - UniToLowerCase(uni_ch2)); } } return(-10); /* mismatch, if we come to here */ } #ifdef NOTUSED /* ** We extend this function for 8bit letters ** using Lynx internal chartrans feature: ** we assume that upper/lower case letters ** have their "7bit approximation" images (in def7_uni.tbl) ** matched case-insensitive (7bit). ** ** By this technique we automatically cover *any* charset ** known for Lynx chartrans and need no any extra information for it. ** ** The cost of this assumption is that several differently accented letters ** may be interpreted as equal, but this side effect is negligible ** if the user search string is more than one character long. - LP ** ** We enable new technique only if DisplayCharsetMatchLocale = FALSE ** (see description in LYCharSets.c) */ PUBLIC int UPPER8 ARGS2(int,ch1, int,ch2) { /* case-insensitive match for us-ascii */ if ((unsigned char)TOASCII(ch1) < 128 && (unsigned char)TOASCII(ch2) < 128) return(TOUPPER(ch1) - TOUPPER(ch2)); /* case-insensitive match for upper half */ if ((unsigned char)TOASCII(ch1) > 127 && /* S/390 -- gil -- 2066 */ (unsigned char)TOASCII(ch2) > 127) { if (DisplayCharsetMatchLocale) return(TOUPPER(ch1) - TOUPPER(ch2)); /* old-style */ else { /* compare "7bit approximation" for letters >127 */ /* BTW, if we remove the check for >127 above */ /* we get even more "relaxed" insensitive match... */ int charset_in, charset_out, uck1, uck2; char replace_buf1 [10], replace_buf2 [10]; charset_in = current_char_set; /* display character set */ charset_out = UCGetLYhndl_byMIME("us-ascii"); uck1 = UCTransCharStr(replace_buf1, sizeof(replace_buf1), ch1, charset_in, charset_out, YES); uck2 = UCTransCharStr(replace_buf2, sizeof(replace_buf2), ch2, charset_in, charset_out, YES); if ((uck1 > 0) && (uck2 > 0)) /* both replacement strings found */ return (strcasecomp(replace_buf1, replace_buf2)); /* check to be sure we have not lost any strange characters */ /* which are not found in def7_uni.tbl but _equal_ in fact. */ /* this also applied for "x-transparent" display mode. */ if ((unsigned char)ch1==(unsigned char)ch2) return(0); /* match */ } } return(-10); /* mismatch, if we come to here */ } #endif /* NOTUSED */ /* * Replaces 'fgets()' calls into a fixed-size buffer with reads into a buffer * that is allocated. When an EOF or error is found, the buffer is freed * automatically. */ PUBLIC char *LYSafeGets ARGS2( char **, src, FILE *, fp) { char buffer[BUFSIZ]; char *result = 0; if (src != 0) result = *src; if (result != 0) *result = 0; while (fgets(buffer, sizeof(buffer), fp) != 0) { if (*buffer) result = StrAllocCat(result, buffer); if (strchr(buffer, '\n') != 0) break; } if (feof(fp) || ferror(fp)) { FREE(result); } if (src != 0) *src = result; return result; }