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Comparing rxvt-unicode/src/command.C (file contents):
Revision 1.9 by pcg, Thu Nov 27 10:12:10 2003 UTC vs.
Revision 1.11 by pcg, Tue Dec 2 21:49:46 2003 UTC

1/*--------------------------------*-C-*---------------------------------* 1/*--------------------------------*-C-*---------------------------------*
2 * File: command.c 2 * File: command.c
3 *----------------------------------------------------------------------* 3 *----------------------------------------------------------------------*
4 * $Id: command.C,v 1.9 2003/11/27 10:12:10 pcg Exp $ 4 * $Id: command.C,v 1.11 2003/12/02 21:49:46 pcg Exp $
5 * 5 *
6 * All portions of code are copyright by their respective author/s. 6 * All portions of code are copyright by their respective author/s.
7 * Copyright (c) 1992 John Bovey, University of Kent at Canterbury <jdb@ukc.ac.uk> 7 * Copyright (c) 1992 John Bovey, University of Kent at Canterbury <jdb@ukc.ac.uk>
8 * - original version 8 * - original version
9 * Copyright (c) 1994 Robert Nation <nation@rocket.sanders.lockheed.com> 9 * Copyright (c) 1994 Robert Nation <nation@rocket.sanders.lockheed.com>
237 /* escape prefix */ 237 /* escape prefix */
238 if (meta) 238 if (meta)
239# ifdef META8_OPTION 239# ifdef META8_OPTION
240 if (R->meta_char == C0_ESC) 240 if (R->meta_char == C0_ESC)
241# endif 241# endif
242 rxvt_tt_write(aR_ &ch, 1); 242 R->tt_write(&ch, 1);
243 rxvt_tt_write(aR_ kbuf0, l); 243 R->tt_write(kbuf0, l);
244 return; 244 return;
245 } else 245 } else
246#endif 246#endif
247 { 247 {
248 newlen = 1; 248 newlen = 1;
605 && (R->meta_char == C0_ESC) 605 && (R->meta_char == C0_ESC)
606#endif 606#endif
607 ) { 607 ) {
608 const unsigned char ch = C0_ESC; 608 const unsigned char ch = C0_ESC;
609 609
610 rxvt_tt_write(aR_ &ch, 1); 610 R->tt_write(&ch, 1);
611 } 611 }
612#ifdef DEBUG_CMD 612#ifdef DEBUG_CMD
613 if (debug_key) { /* Display keyboard buffer contents */ 613 if (debug_key) { /* Display keyboard buffer contents */
614 char *p; 614 char *p;
615 int i; 615 int i;
618 for (i = 0, p = kbuf; i < len; i++, p++) 618 for (i = 0, p = kbuf; i < len; i++, p++)
619 fprintf(stderr, (*p >= ' ' && *p < '\177' ? "%c" : "\\%03o"), *p); 619 fprintf(stderr, (*p >= ' ' && *p < '\177' ? "%c" : "\\%03o"), *p);
620 fprintf(stderr, "'\n"); 620 fprintf(stderr, "'\n");
621 } 621 }
622#endif /* DEBUG_CMD */ 622#endif /* DEBUG_CMD */
623 rxvt_tt_write(aR_ kbuf, (unsigned int)len); 623 R->tt_write(kbuf, (unsigned int)len);
624} 624}
625/*}}} */ 625/*}}} */
626 626
627#if (MENUBAR_MAX) 627#if (MENUBAR_MAX)
628/*{{{ rxvt_cmd_write(), rxvt_cmd_getc() */ 628/*{{{ rxvt_cmd_write(), rxvt_cmd_getc() */
654 R->cmdbuf_ptr = cmdbuf_ptr; 654 R->cmdbuf_ptr = cmdbuf_ptr;
655 R->cmdbuf_endp = cmdbuf_endp; 655 R->cmdbuf_endp = cmdbuf_endp;
656 return 0; 656 return 0;
657} 657}
658#endif /* MENUBAR_MAX */ 658#endif /* MENUBAR_MAX */
659
660void
661rxvt_term::flush ()
662{
663#ifdef TRANSPARENT
664 if (want_full_refresh)
665 {
666 want_full_refresh = 0;
667 rxvt_scr_clear (this);
668 rxvt_scr_touch (this, False);
669 want_refresh = 1;
670 }
671#endif
672
673 if (want_refresh)
674 {
675 rxvt_scr_refresh (this, refresh_type);
676 rxvt_scrollbar_show (this, 1);
677#ifdef USE_XIM
678 rxvt_IMSendSpot (this);
679#endif
680 }
681
682 XFlush (Xdisplay);
683#if 0
684 if (XPending (Xdisplay)) process_x_events ();
685 if (XPending (Xdisplay)) process_x_events ();
686#endif
687}
688
689void
690rxvt_term::check_cb (check_watcher &w)
691{
692 SET_R (this);
693
694 flush ();
695}
659 696
660void 697void
661rxvt_term::process_x_events () 698rxvt_term::process_x_events ()
662{ 699{
663 do 700 do
709 SET_R (this); 746 SET_R (this);
710 747
711 w.at += BLINK_INTERVAL; 748 w.at += BLINK_INTERVAL;
712 hidden_cursor = !hidden_cursor; 749 hidden_cursor = !hidden_cursor;
713 want_refresh = 1; 750 want_refresh = 1;
714 flush ();
715} 751}
716 752
717void 753void
718rxvt_term::x_cb (io_watcher &w, short revents) 754rxvt_term::x_cb (io_watcher &w, short revents)
719{ 755{
720 SET_R (this); 756 SET_R (this);
721 757
722 process_x_events (); 758 process_x_events ();
759}
723 760
724 flush (); 761bool
762rxvt_term::pty_fill ()
763{
764 ssize_t n = cmdbuf_endp - cmdbuf_ptr;
765
766 memmove (cmdbuf_base, cmdbuf_ptr, n);
767 cmdbuf_ptr = cmdbuf_base;
768 cmdbuf_endp = cmdbuf_ptr + n;
769
770 n = read (cmd_fd, cmdbuf_endp, BUFSIZ - n);
771
772 if (n > 0)
773 {
774 cmdbuf_endp += n;
775 return true;
776 }
777 else if (n < 0 && errno == EAGAIN)
778 return false;
779
780 destroy ();
781}
782
783void
784rxvt_term::pty_cb (io_watcher &w, short revents)
785{
786 SET_R (this);
787
788 if (revents & EVENT_WRITE)
789 tt_write (0, 0);
790 else if (revents & EVENT_READ)
791 // loop, but don't allow a single term to monopolize us
792 // the number of loops is fully arbitrary, and thus wrong
793 for (int i = 1; i-- && pty_fill (); )
794 {
795 if (!seen_input)
796 {
797 seen_input = 1;
798 /* once we know the shell is running, send the screen size. Again! */
799 tt_winch ();
800 }
801
802 uint32_t ch = NOCHAR;
803
804 for (;;)
805 {
806 if (ch == NOCHAR)
807 ch = next_char ();
808
809 if (ch == NOCHAR) // TODO: improve
810 break;
811
812 if (ch >= ' ' || ch == '\t' || ch == '\n' || ch == '\r')
813 {
814 /* Read a text string from the input buffer */
815 uint32_t buf[BUFSIZ];
816 bool refreshnow = false;
817 int nlines = 0;
818 uint32_t *str = buf;
819
820 *str++ = ch;
821
822 for (;;)
823 {
824 ch = next_char ();
825
826 if (ch == NOCHAR || (ch < ' ' && ch != '\t' && ch != '\n' && ch != '\r'))
827 break;
828 else
829 {
830 *str++ = ch;
831
832 if (ch == '\n')
833 {
834 nlines++;
835 refresh_count++;
836
837 if (!(Options & Opt_jumpScroll)
838 || (refresh_count >= (refresh_limit * (TermWin.nrow - 1))))
839 {
840 refreshnow = true;
841 ch = NOCHAR;
842 break;
843 }
844 }
845
846 if (str >= buf + BUFSIZ)
847 {
848 ch = NOCHAR;
849 break;
850 }
851 }
852 }
853
854 rxvt_scr_add_lines (this, buf, nlines, str - buf);
855
856 /*
857 * If there have been a lot of new lines, then update the screen
858 * What the heck I'll cheat and only refresh less than every page-full.
859 * the number of pages between refreshes is refresh_limit, which
860 * is incremented here because we must be doing flat-out scrolling.
861 *
862 * refreshing should be correct for small scrolls, because of the
863 * time-out
864 */
865 if (refreshnow)
866 {
867 if ((Options & Opt_jumpScroll) && refresh_limit < REFRESH_PERIOD)
868 refresh_limit++;
869
870 rxvt_scr_refresh (this, refresh_type);
871 }
872
873 }
874 else
875 {
876 switch (ch)
877 {
878 default:
879 rxvt_process_nonprinting (this, ch);
880 break;
881 case C0_ESC: /* escape char */
882 rxvt_process_escape_seq (this);
883 break;
884 /*case 0x9b: */ /* CSI */
885 /* rxvt_process_csi_seq (this); */
886 }
887
888 ch = NOCHAR;
889 }
890 }
891 }
725} 892}
726 893
727// read the next character, currently handles UTF-8 894// read the next character, currently handles UTF-8
728// will probably handle all sorts of other stuff in the future 895// will probably handle all sorts of other stuff in the future
729uint32_t 896uint32_t
777 } 944 }
778 945
779 return NOCHAR; 946 return NOCHAR;
780} 947}
781 948
782bool
783rxvt_term::pty_fill ()
784{
785 ssize_t n = cmdbuf_endp - cmdbuf_ptr;
786
787 memmove (cmdbuf_base, cmdbuf_ptr, n);
788 cmdbuf_ptr = cmdbuf_base;
789 cmdbuf_endp = cmdbuf_ptr + n;
790
791 n = read (cmd_fd, cmdbuf_endp, BUFSIZ - n);
792
793 if (n > 0)
794 {
795 cmdbuf_endp += n;
796 return true;
797 }
798 else if (n < 0 && errno == EAGAIN)
799 return false;
800
801 destroy ();
802}
803
804void
805rxvt_term::pty_cb (io_watcher &w, short revents)
806{
807 SET_R (this);
808
809 // loop, but don't allow a single term to monopolize us
810 // the number of loops is fully arbitrary, and thus wrong
811 for (int i = 7; i-- && pty_fill (); )
812 {
813 //TODO:
814 /* once we know the shell is running, send the screen size. Again! */
815 //ch = rxvt_cmd_getc(aR); /* wait for something */
816 //rxvt_tt_winsize(cmd_fd, TermWin.ncol, TermWin.nrow, cmd_pid);
817
818 uint32_t ch = NOCHAR;
819
820 for (;;)
821 {
822 if (ch == NOCHAR)
823 ch = next_char ();
824
825 if (ch == NOCHAR) // TODO: improve
826 break;
827
828 if (ch >= ' ' || ch == '\t' || ch == '\n' || ch == '\r')
829 {
830 /* Read a text string from the input buffer */
831 uint32_t buf[BUFSIZ];
832 bool refreshnow = false;
833 int nlines = 0;
834 uint32_t *str = buf;
835
836 *str++ = ch;
837
838 for (;;)
839 {
840 ch = next_char ();
841
842 if (ch == NOCHAR || (ch < ' ' && ch != '\t' && ch != '\n' && ch != '\r'))
843 break;
844 else
845 {
846 *str++ = ch;
847
848 if (ch == '\n')
849 {
850 nlines++;
851 refresh_count++;
852
853 if (!(Options & Opt_jumpScroll)
854 || (refresh_count >= (refresh_limit * (TermWin.nrow - 1))))
855 {
856 refreshnow = true;
857 ch = NOCHAR;
858 break;
859 }
860 }
861
862 if (str >= buf + BUFSIZ)
863 {
864 ch = NOCHAR;
865 break;
866 }
867 }
868 }
869
870 rxvt_scr_add_lines (this, buf, nlines, str - buf);
871
872 /*
873 * If there have been a lot of new lines, then update the screen
874 * What the heck I'll cheat and only refresh less than every page-full.
875 * the number of pages between refreshes is refresh_limit, which
876 * is incremented here because we must be doing flat-out scrolling.
877 *
878 * refreshing should be correct for small scrolls, because of the
879 * time-out
880 */
881 if (refreshnow)
882 {
883 if ((Options & Opt_jumpScroll) && refresh_limit < REFRESH_PERIOD)
884 refresh_limit++;
885
886 rxvt_scr_refresh (this, refresh_type);
887 }
888
889 }
890 else
891 {
892 switch (ch)
893 {
894 default:
895 rxvt_process_nonprinting (this, ch);
896 break;
897 case C0_ESC: /* escape char */
898 rxvt_process_escape_seq (this);
899 break;
900 /*case 0x9b: */ /* CSI */
901 /* rxvt_process_csi_seq (this); */
902 }
903
904 ch = NOCHAR;
905 }
906 }
907 }
908
909 flush ();
910}
911
912void
913rxvt_term::flush ()
914{
915#ifdef TRANSPARENT
916 if (want_full_refresh)
917 {
918 want_full_refresh = 0;
919 rxvt_scr_clear (this);
920 rxvt_scr_touch (this, False);
921 want_refresh = 1;
922 }
923#endif
924
925 if (want_refresh)
926 {
927 rxvt_scr_refresh (this, refresh_type);
928 rxvt_scrollbar_show (this, 1);
929#ifdef USE_XIM
930 rxvt_IMSendSpot (this);
931#endif
932 }
933
934 if (XPending (Xdisplay)) process_x_events ();
935 XFlush (Xdisplay);
936 if (XPending (Xdisplay)) process_x_events ();
937}
938
939/* rxvt_cmd_getc() - Return next input character */ 949/* rxvt_cmd_getc() - Return next input character */
940/* 950/*
941 * Return the next input character after first passing any keyboard input 951 * Return the next input character after first passing any keyboard input
942 * to the command. 952 * to the command.
943 */ 953 */
970 980
971 for (;;) { 981 for (;;) {
972 /* loop until we can return something */ 982 /* loop until we can return something */
973 983
974 if (R->v_bufstr < R->v_bufptr) /* output any pending chars */ 984 if (R->v_bufstr < R->v_bufptr) /* output any pending chars */
975 rxvt_tt_write(aR_ NULL, 0); 985 R->tt_write(NULL, 0);
976 986
977#if defined(MOUSE_WHEEL) && defined(MOUSE_SLIP_WHEELING) 987#if defined(MOUSE_WHEEL) && defined(MOUSE_SLIP_WHEELING)
978 if (R->mouse_slip_wheel_speed) { 988 if (R->mouse_slip_wheel_speed) {
979 quick_timeout = 1; 989 quick_timeout = 1;
980 if (!R->mouse_slip_wheel_delay-- 990 if (!R->mouse_slip_wheel_delay--
1113 fprintf(stderr, "]: <%d>, %d/%d\n", 1123 fprintf(stderr, "]: <%d>, %d/%d\n",
1114 button_number, 1124 button_number,
1115 x + 1, 1125 x + 1,
1116 y + 1); 1126 y + 1);
1117#else 1127#else
1118 rxvt_tt_printf(aR_ "\033[M%c%c%c", 1128 R->tt_printf("\033[M%c%c%c",
1119 (32 + button_number + key_state), 1129 (32 + button_number + key_state),
1120 (32 + x + 1), 1130 (32 + x + 1),
1121 (32 + y + 1)); 1131 (32 + y + 1));
1122#endif 1132#endif
1123} 1133}
1665 */ 1675 */
1666 if ((R->scrollBar.style == R_SB_NEXT 1676 if ((R->scrollBar.style == R_SB_NEXT
1667 && scrollbarnext_upButton(ev->y)) 1677 && scrollbarnext_upButton(ev->y))
1668 || (R->scrollBar.style == R_SB_RXVT 1678 || (R->scrollBar.style == R_SB_RXVT
1669 && scrollbarrxvt_upButton(ev->y))) 1679 && scrollbarrxvt_upButton(ev->y)))
1670 rxvt_tt_printf(aR_ "\033[A"); 1680 R->tt_printf("\033[A");
1671 else if ((R->scrollBar.style == R_SB_NEXT 1681 else if ((R->scrollBar.style == R_SB_NEXT
1672 && scrollbarnext_dnButton(ev->y)) 1682 && scrollbarnext_dnButton(ev->y))
1673 || (R->scrollBar.style == R_SB_RXVT 1683 || (R->scrollBar.style == R_SB_RXVT
1674 && scrollbarrxvt_dnButton(ev->y))) 1684 && scrollbarrxvt_dnButton(ev->y)))
1675 rxvt_tt_printf(aR_ "\033[B"); 1685 R->tt_printf("\033[B");
1676 else 1686 else
1677 switch (ev->button) { 1687 switch (ev->button) {
1678 case Button2: 1688 case Button2:
1679 rxvt_tt_printf(aR_ "\014"); 1689 R->tt_printf("\014");
1680 break; 1690 break;
1681 case Button1: 1691 case Button1:
1682 rxvt_tt_printf(aR_ "\033[6~"); 1692 R->tt_printf("\033[6~");
1683 break; 1693 break;
1684 case Button3: 1694 case Button3:
1685 rxvt_tt_printf(aR_ "\033[5~"); 1695 R->tt_printf("\033[5~");
1686 break; 1696 break;
1687 } 1697 }
1688 } 1698 }
1689 else 1699 else
1690#endif /* NO_SCROLLBAR_REPORT */ 1700#endif /* NO_SCROLLBAR_REPORT */
2091 return stream; 2101 return stream;
2092} 2102}
2093 2103
2094/* EXTPROTO */ 2104/* EXTPROTO */
2095int 2105int
2096rxvt_pclose_printer(FILE *stream) 2106rxvt_pclose_printer (FILE *stream)
2097{ 2107{
2098 fflush(stream); 2108 fflush (stream);
2099/* pclose() reported not to work on SunOS 4.1.3 */ 2109/* pclose() reported not to work on SunOS 4.1.3 */
2100# if defined (__sun__) /* TODO: RESOLVE THIS */ 2110# if defined (__sun__) /* TODO: RESOLVE THIS */
2101/* pclose works provided SIGCHLD handler uses waitpid */ 2111/* pclose works provided SIGCHLD handler uses waitpid */
2102 return pclose(stream); /* return fclose (stream); */ 2112 return pclose (stream); /* return fclose (stream); */
2103# else 2113# else
2104 return pclose(stream); 2114 return pclose (stream);
2105# endif 2115# endif
2106} 2116}
2107 2117
2108/* 2118/*
2109 * simulate attached vt100 printer 2119 * simulate attached vt100 printer
2172rxvt_process_nonprinting(pR_ unsigned char ch) 2182rxvt_process_nonprinting(pR_ unsigned char ch)
2173{ 2183{
2174 switch (ch) { 2184 switch (ch) {
2175 case C0_ENQ: /* terminal Status */ 2185 case C0_ENQ: /* terminal Status */
2176 if (R->rs[Rs_answerbackstring]) 2186 if (R->rs[Rs_answerbackstring])
2177 rxvt_tt_write(aR_ 2187 R->tt_write(
2178 (const unsigned char *)R->rs[Rs_answerbackstring], 2188 (const unsigned char *)R->rs[Rs_answerbackstring],
2179 (unsigned int)STRLEN(R->rs[Rs_answerbackstring])); 2189 (unsigned int)STRLEN(R->rs[Rs_answerbackstring]));
2180 else 2190 else
2181 rxvt_tt_write(aR_ (unsigned char *)VT100_ANS, 2191 R->tt_write((unsigned char *)VT100_ANS,
2182 (unsigned int)STRLEN(VT100_ANS)); 2192 (unsigned int)STRLEN(VT100_ANS));
2183 break; 2193 break;
2184 case C0_BEL: /* bell */ 2194 case C0_BEL: /* bell */
2185 rxvt_scr_bell(aR); 2195 rxvt_scr_bell(aR);
2186 break; 2196 break;
2249 row = rxvt_cmd_getc(aR) - ' '; 2259 row = rxvt_cmd_getc(aR) - ' ';
2250 col = rxvt_cmd_getc(aR) - ' '; 2260 col = rxvt_cmd_getc(aR) - ' ';
2251 rxvt_scr_gotorc(aR_ row, col, 0); 2261 rxvt_scr_gotorc(aR_ row, col, 0);
2252 break; 2262 break;
2253 case 'Z': /* identify the terminal type */ 2263 case 'Z': /* identify the terminal type */
2254 rxvt_tt_printf(aR_ "\033/Z"); /* I am a VT100 emulating a VT52 */ 2264 R->tt_printf("\033/Z"); /* I am a VT100 emulating a VT52 */
2255 break; 2265 break;
2256 case '<': /* turn off VT52 mode */ 2266 case '<': /* turn off VT52 mode */
2257 PrivMode(0, PrivMode_vt52); 2267 PrivMode(0, PrivMode_vt52);
2258 break; 2268 break;
2259 case 'F': /* use special graphics character set */ 2269 case 'F': /* use special graphics character set */
2366 rxvt_process_dcs_seq(aR); 2376 rxvt_process_dcs_seq(aR);
2367 break; 2377 break;
2368 2378
2369 /* 8.3.110: SINGLE CHARACTER INTRODUCER */ 2379 /* 8.3.110: SINGLE CHARACTER INTRODUCER */
2370 case C1_SCI: /* ESC Z */ 2380 case C1_SCI: /* ESC Z */
2371 rxvt_tt_write(aR_ (const unsigned char *)ESCZ_ANSWER, 2381 R->tt_write((const unsigned char *)ESCZ_ANSWER,
2372 (unsigned int)(sizeof(ESCZ_ANSWER) - 1)); 2382 (unsigned int)(sizeof(ESCZ_ANSWER) - 1));
2373 break; /* steal obsolete ESC [ c */ 2383 break; /* steal obsolete ESC [ c */
2374 2384
2375 /* 8.3.16: CONTROL SEQUENCE INTRODUCER */ 2385 /* 8.3.16: CONTROL SEQUENCE INTRODUCER */
2376 case C1_CSI: /* ESC [ */ 2386 case C1_CSI: /* ESC [ */
2497 */ 2507 */
2498 if (priv) { 2508 if (priv) {
2499 switch (priv) { 2509 switch (priv) {
2500 case '>': 2510 case '>':
2501 if (ch == CSI_DA) /* secondary device attributes */ 2511 if (ch == CSI_DA) /* secondary device attributes */
2502 rxvt_tt_printf(aR_ "\033[>%d;%-.8s;0c", 'R', VSTRING); 2512 R->tt_printf("\033[>%d;%-.8s;0c", 'R', VSTRING);
2503 break; 2513 break;
2504 case '?': 2514 case '?':
2505 if (ch == 'h' || ch == 'l' || ch == 'r' || ch == 's' || ch == 't') 2515 if (ch == 'h' || ch == 'l' || ch == 'r' || ch == 's' || ch == 't')
2506 rxvt_process_terminal_mode(aR_ ch, priv, nargs, arg); 2516 rxvt_process_terminal_mode(aR_ ch, priv, nargs, arg);
2507 break; 2517 break;
2614 case CSI_SU: /* 8.3.148: (1) SCROLL UP */ 2624 case CSI_SU: /* 8.3.148: (1) SCROLL UP */
2615 rxvt_scroll_text(aR_ R->screen.tscroll, R->screen.bscroll, arg[0], 0); 2625 rxvt_scroll_text(aR_ R->screen.tscroll, R->screen.bscroll, arg[0], 0);
2616 break; 2626 break;
2617 2627
2618 case CSI_DA: /* 8.3.24: (0) DEVICE ATTRIBUTES */ 2628 case CSI_DA: /* 8.3.24: (0) DEVICE ATTRIBUTES */
2619 rxvt_tt_write(aR_ (const unsigned char *)VT100_ANS, 2629 R->tt_write((const unsigned char *)VT100_ANS,
2620 (unsigned int)(sizeof(VT100_ANS) - 1)); 2630 (unsigned int)(sizeof(VT100_ANS) - 1));
2621 break; 2631 break;
2622 2632
2623 case CSI_SGR: /* 8.3.118: (0) SELECT GRAPHIC RENDITION */ 2633 case CSI_SGR: /* 8.3.118: (0) SELECT GRAPHIC RENDITION */
2624 rxvt_process_sgr_mode(aR_ nargs, arg); 2634 rxvt_process_sgr_mode(aR_ nargs, arg);
2625 break; 2635 break;
2626 2636
2627 case CSI_DSR: /* 8.3.36: (0) DEVICE STATUS REPORT */ 2637 case CSI_DSR: /* 8.3.36: (0) DEVICE STATUS REPORT */
2628 switch (arg[0]) { 2638 switch (arg[0]) {
2629 case 5: /* DSR requested */ 2639 case 5: /* DSR requested */
2630 rxvt_tt_printf(aR_ "\033[0n"); 2640 R->tt_printf("\033[0n");
2631 break; 2641 break;
2632 case 6: /* CPR requested */ 2642 case 6: /* CPR requested */
2633 rxvt_scr_report_position(aR); 2643 rxvt_scr_report_position(aR);
2634 break; 2644 break;
2635#if defined (ENABLE_DISPLAY_ANSWER) 2645#if defined (ENABLE_DISPLAY_ANSWER)
2636 case 7: /* unofficial extension */ 2646 case 7: /* unofficial extension */
2637 rxvt_tt_printf(aR_ "%-.250s\n", R->rs[Rs_display_name]); 2647 R->tt_printf("%-.250s\n", R->rs[Rs_display_name]);
2638 break; 2648 break;
2639#endif 2649#endif
2640 case 8: /* unofficial extension */ 2650 case 8: /* unofficial extension */
2641 rxvt_xterm_seq(aR_ XTerm_title, APL_NAME "-" VERSION, CHAR_ST); 2651 rxvt_xterm_seq(aR_ XTerm_title, APL_NAME "-" VERSION, CHAR_ST);
2642 break; 2652 break;
2711 break; 2721 break;
2712#endif 2722#endif
2713 2723
2714 case CSI_78: /* DECREQTPARM */ 2724 case CSI_78: /* DECREQTPARM */
2715 if (arg[0] == 0 || arg[0] == 1) 2725 if (arg[0] == 0 || arg[0] == 1)
2716 rxvt_tt_printf(aR_ "\033[%d;1;1;112;112;1;0x", arg[0] + 2); 2726 R->tt_printf("\033[%d;1;1;112;112;1;0x", arg[0] + 2);
2717 /* FALLTHROUGH */ 2727 /* FALLTHROUGH */
2718 2728
2719 default: 2729 default:
2720 break; 2730 break;
2721 } 2731 }
2775 /* 2785 /*
2776 * reports - some output format copied from XTerm 2786 * reports - some output format copied from XTerm
2777 */ 2787 */
2778 case 11: /* report window state */ 2788 case 11: /* report window state */
2779 XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr); 2789 XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);
2780 rxvt_tt_printf(aR_ "\033[%dt", wattr.map_state == IsViewable ? 1 : 2); 2790 R->tt_printf("\033[%dt", wattr.map_state == IsViewable ? 1 : 2);
2781 break; 2791 break;
2782 case 13: /* report window position */ 2792 case 13: /* report window position */
2783 XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr); 2793 XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);
2784 XTranslateCoordinates(R->Xdisplay, R->TermWin.parent[0], wattr.root, 2794 XTranslateCoordinates(R->Xdisplay, R->TermWin.parent[0], wattr.root,
2785 -wattr.border_width, -wattr.border_width, 2795 -wattr.border_width, -wattr.border_width,
2786 &x, &y, &wdummy); 2796 &x, &y, &wdummy);
2787 rxvt_tt_printf(aR_ "\033[3;%d;%dt", x, y); 2797 R->tt_printf("\033[3;%d;%dt", x, y);
2788 break; 2798 break;
2789 case 14: /* report window size (pixels) */ 2799 case 14: /* report window size (pixels) */
2790 XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr); 2800 XGetWindowAttributes(R->Xdisplay, R->TermWin.parent[0], &wattr);
2791 rxvt_tt_printf(aR_ "\033[4;%d;%dt", wattr.height, wattr.width); 2801 R->tt_printf("\033[4;%d;%dt", wattr.height, wattr.width);
2792 break; 2802 break;
2793 case 18: /* report window size (chars) */ 2803 case 18: /* report window size (chars) */
2794 rxvt_tt_printf(aR_ "\033[8;%d;%dt", R->TermWin.nrow, R->TermWin.ncol); 2804 R->tt_printf("\033[8;%d;%dt", R->TermWin.nrow, R->TermWin.ncol);
2795 break; 2805 break;
2796#if 0 /* XXX: currently disabled due to security concerns */ 2806#if 0 /* XXX: currently disabled due to security concerns */
2797 case 20: /* report icon label */ 2807 case 20: /* report icon label */
2798 XGetIconName(R->Xdisplay, R->TermWin.parent[0], &s); 2808 XGetIconName(R->Xdisplay, R->TermWin.parent[0], &s);
2799 rxvt_tt_printf(aR_ "\033]L%-.200s\234", s ? s : ""); /* 8bit ST */ 2809 R->tt_printf("\033]L%-.200s\234", s ? s : ""); /* 8bit ST */
2800 break; 2810 break;
2801 case 21: /* report window title */ 2811 case 21: /* report window title */
2802 XFetchName(R->Xdisplay, R->TermWin.parent[0], &s); 2812 XFetchName(R->Xdisplay, R->TermWin.parent[0], &s);
2803 rxvt_tt_printf(aR_ "\033]l%-.200s\234", s ? s : ""); /* 8bit ST */ 2813 R->tt_printf("\033]l%-.200s\234", s ? s : ""); /* 8bit ST */
2804 break; 2814 break;
2805#endif 2815#endif
2806 } 2816 }
2807} 2817}
2808#endif 2818#endif
3351{ 3361{
3352 unsigned char ch, cmd = rxvt_cmd_getc(aR); 3362 unsigned char ch, cmd = rxvt_cmd_getc(aR);
3353 3363
3354#ifndef RXVT_GRAPHICS 3364#ifndef RXVT_GRAPHICS
3355 if (cmd == 'Q') { /* query graphics */ 3365 if (cmd == 'Q') { /* query graphics */
3356 rxvt_tt_printf(aR_ "\033G0\n"); /* no graphics */ 3366 R->tt_printf("\033G0\n"); /* no graphics */
3357 return; 3367 return;
3358 } 3368 }
3359/* swallow other graphics sequences until terminating ':' */ 3369/* swallow other graphics sequences until terminating ':' */
3360 do 3370 do
3361 ch = rxvt_cmd_getc(aR); 3371 ch = rxvt_cmd_getc(aR);
3364 unsigned int nargs; 3374 unsigned int nargs;
3365 int args[NGRX_PTS]; 3375 int args[NGRX_PTS];
3366 unsigned char *text = NULL; 3376 unsigned char *text = NULL;
3367 3377
3368 if (cmd == 'Q') { /* query graphics */ 3378 if (cmd == 'Q') { /* query graphics */
3369 rxvt_tt_printf(aR_ "\033G1\n"); /* yes, graphics (color) */ 3379 R->tt_printf("\033G1\n"); /* yes, graphics (color) */
3370 return; 3380 return;
3371 } 3381 }
3372 for (nargs = 0; nargs < (sizeof(args) / sizeof(args[0])) - 1;) { 3382 for (nargs = 0; nargs < (sizeof(args) / sizeof(args[0])) - 1;) {
3373 int neg; 3383 int neg;
3374 3384
3408 3418
3409/* 3419/*
3410 * Send printf() formatted output to the command. 3420 * Send printf() formatted output to the command.
3411 * Only use for small amounts of data. 3421 * Only use for small amounts of data.
3412 */ 3422 */
3413/* EXTPROTO */
3414void 3423void
3415rxvt_tt_printf(pR_ const char *fmt,...) 3424rxvt_term::tt_printf (const char *fmt,...)
3416{ 3425{
3417 va_list arg_ptr; 3426 va_list arg_ptr;
3418 unsigned char buf[256]; 3427 unsigned char buf[256];
3419 3428
3420 va_start(arg_ptr, fmt); 3429 va_start (arg_ptr, fmt);
3421 vsprintf((char *)buf, fmt, arg_ptr); 3430 vsnprintf ((char *)buf, 256, fmt, arg_ptr);
3422 va_end(arg_ptr); 3431 va_end (arg_ptr);
3423 rxvt_tt_write(aR_ buf, (unsigned int)STRLEN(buf)); 3432 tt_write (buf, STRLEN (buf));
3424} 3433}
3425 3434
3426/* ---------------------------------------------------------------------- */ 3435/* ---------------------------------------------------------------------- */
3427/* Addresses pasting large amounts of data and rxvt hang
3428 * code pinched from xterm (v_write()) and applied originally to
3429 * rxvt-2.18 - Hops
3430 * Write data to the pty as typed by the user, pasted with the mouse, 3436/* Write data to the pty as typed by the user, pasted with the mouse,
3431 * or generated by us in response to a query ESC sequence. 3437 * or generated by us in response to a query ESC sequence.
3432 */ 3438 */
3433/* EXTPROTO */
3434void 3439void
3435rxvt_tt_write(pR_ const unsigned char *d, unsigned int len) 3440rxvt_term::tt_write (const unsigned char *data, unsigned int len)
3436{ 3441{
3437#define MAX_PTY_WRITE 256 /* POSIX minimum MAX_INPUT */ 3442 enum { MAX_PTY_WRITE = 255 }; // minimum MAX_INPUT
3438 int riten;
3439 unsigned int p;
3440 unsigned char *v_buffer, /* start of physical buffer */
3441 *v_bufstr, /* start of current buffer pending */
3442 *v_bufptr, /* end of current buffer pending */
3443 *v_bufend; /* end of physical buffer */
3444 3443
3445 if (R->v_bufstr == NULL && len > 0) { 3444 if (len)
3446 p = (len / MAX_PTY_WRITE + 1) * MAX_PTY_WRITE;
3447 v_buffer = v_bufstr = v_bufptr = (unsigned char *)rxvt_malloc(p);
3448 v_bufend = v_buffer + p;
3449 } else {
3450 v_buffer = R->v_buffer;
3451 v_bufstr = R->v_bufstr;
3452 v_bufptr = R->v_bufptr;
3453 v_bufend = R->v_bufend;
3454 } 3445 {
3446 if (v_buflen == 0)
3447 {
3448 int written = write (cmd_fd, data, min (MAX_PTY_WRITE, len));
3449 if (written == len)
3450 return;
3455 3451
3456 /* 3452 data += written;
3457 * Append to the block we already have. Always doing this simplifies the 3453 len -= written;
3458 * code, and isn't too bad, either. If this is a short block, it isn't 3454 }
3459 * too expensive, and if this is a long block, we won't be able to write 3455
3460 * it all anyway. 3456
3461 */ 3457 v_buffer = (unsigned char *)realloc (v_buffer, v_buflen + len);
3462 if (len > 0) { 3458
3463 if (v_bufend < v_bufptr + len) { /* run out of room */ 3459 memcpy (v_buffer + v_buflen, data, len);
3464 if (v_bufstr != v_buffer) { 3460 v_buflen += len;
3465 /* there is unused space, move everything down */
3466 MEMMOVE(v_buffer, v_bufstr,
3467 (unsigned int)(v_bufptr - v_bufstr));
3468 v_bufptr -= v_bufstr - v_buffer;
3469 v_bufstr = v_buffer;
3470 } 3461 }
3471 if (v_bufend < v_bufptr + len) {
3472 /* still won't fit: get more space */
3473 /* use most basic realloc because an error is not fatal. */
3474 unsigned int size = v_bufptr - v_buffer;
3475 unsigned int reallocto;
3476 3462
3477 reallocto = ((size + len) / MAX_PTY_WRITE + 1) * MAX_PTY_WRITE; 3463 for (;;)
3478 v_buffer = (unsigned char *)realloc(v_buffer, reallocto); 3464 {
3479 /* save across realloc */ 3465 int written = write (cmd_fd, v_buffer, min (MAX_PTY_WRITE, v_buflen));
3480 if (v_buffer) { 3466
3481 v_bufstr = v_buffer; 3467 if (written > 0)
3482 v_bufptr = v_buffer + size; 3468 {
3483 v_bufend = v_buffer + reallocto; 3469 v_buflen -= written;
3484 } else { /* no memory: ignore entire write request */ 3470
3485 rxvt_print_error("data loss: cannot allocate buffer space"); 3471 if (v_buflen == 0)
3486 v_buffer = v_bufstr; /* restore clobbered pointer */ 3472 {
3487 } 3473 free (v_buffer);
3474 v_buffer = 0;
3475 v_buflen = 0;
3476
3477 pty_ev.set (EVENT_READ);
3478 return;
3479 }
3480
3481 memmove (v_buffer, v_buffer + written, v_buflen);
3482 }
3483 else if (written != -1 || (errno != EAGAIN && errno != EINTR))
3484 // original code just ignores this...
3485 destroy ();
3486 else
3487 {
3488 pty_ev.set (EVENT_READ | EVENT_WRITE);
3489 return;
3490 }
3488 } 3491 }
3489 }
3490 if (v_bufend >= v_bufptr + len) { /* new stuff will fit */
3491 MEMCPY(v_bufptr, d, len);
3492 v_bufptr += len;
3493 }
3494 }
3495
3496 /*
3497 * Write out as much of the buffer as we can.
3498 * Be careful not to overflow the pty's input silo.
3499 * We are conservative here and only write a small amount at a time.
3500 *
3501 * If we can't push all the data into the pty yet, we expect write
3502 * to return a non-negative number less than the length requested
3503 * (if some data written) or -1 and set errno to EAGAIN,
3504 * EWOULDBLOCK, or EINTR (if no data written).
3505 *
3506 * (Not all systems do this, sigh, so the code is actually
3507 * a little more forgiving.)
3508 */
3509 if ((p = v_bufptr - v_bufstr) > 0) {
3510 riten = write(R->cmd_fd, v_bufstr, min(p, MAX_PTY_WRITE));
3511 if (riten < 0)
3512 riten = 0;
3513 v_bufstr += riten;
3514 if (v_bufstr >= v_bufptr) /* we wrote it all */
3515 v_bufstr = v_bufptr = v_buffer;
3516 }
3517 /*
3518 * If we have lots of unused memory allocated, return it
3519 */
3520 if (v_bufend - v_bufptr > MAX_PTY_WRITE * 8) { /* arbitrary hysteresis */
3521 /* save pointers across realloc */
3522 unsigned int start = v_bufstr - v_buffer;
3523 unsigned int size = v_bufptr - v_buffer;
3524 unsigned int reallocto;
3525
3526 reallocto = (size / MAX_PTY_WRITE + 1) * MAX_PTY_WRITE;
3527 v_buffer = (unsigned char *)realloc(v_buffer, reallocto);
3528 if (v_buffer) {
3529 v_bufstr = v_buffer + start;
3530 v_bufptr = v_buffer + size;
3531 v_bufend = v_buffer + reallocto;
3532 } else {
3533 /* should we print a warning if couldn't return memory? */
3534 v_buffer = v_bufstr - start; /* restore clobbered pointer */
3535 }
3536 }
3537 R->v_buffer = v_buffer;
3538 R->v_bufstr = v_bufstr;
3539 R->v_bufptr = v_bufptr;
3540 R->v_bufend = v_bufend;
3541} 3492}
3493
3542/*----------------------- end-of-file (C source) -----------------------*/ 3494/*----------------------- end-of-file (C source) -----------------------*/
3543 3495

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