/* vi:set ts=8 sts=4 sw=4 noet: * * VIM - Vi IMproved by Bram Moolenaar * GUI/Motif support by Robert Webb * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. * See README.txt for an overview of the Vim source code. */ /* * Common code for the Motif and Athena GUI. * Not used for GTK. */ #include "vim.h" #include #include #include #include #include #include /* * XpmP.h is preferred, because it makes the signs drawn with a transparent * background instead of black. */ #if defined(HAVE_XM_XPMP_H) && defined(FEAT_GUI_MOTIF) \ && !defined(HAVE_X11_XPM_H) # include #else # ifdef HAVE_X11_XPM_H # ifdef VMS # include # else # include # endif # endif #endif #ifdef FEAT_XFONTSET # ifdef X_LOCALE # include # else # include # endif #endif #ifdef HAVE_X11_SUNKEYSYM_H # include #endif #ifdef HAVE_X11_XMU_EDITRES_H # include #endif #define VIM_NAME "vim" #define VIM_CLASS "Vim" // Default resource values #define DFLT_FONT "7x13" #ifdef FONTSET_ALWAYS # define DFLT_MENU_FONT XtDefaultFontSet #else # define DFLT_MENU_FONT XtDefaultFont #endif #define DFLT_TOOLTIP_FONT XtDefaultFontSet #ifdef FEAT_GUI_ATHENA # define DFLT_MENU_BG_COLOR "gray77" # define DFLT_MENU_FG_COLOR "black" # define DFLT_SCROLL_BG_COLOR "gray60" # define DFLT_SCROLL_FG_COLOR "gray77" # define DFLT_TOOLTIP_BG_COLOR "#ffff91" # define DFLT_TOOLTIP_FG_COLOR "#000000" #else // use the default (CDE) colors # define DFLT_MENU_BG_COLOR "" # define DFLT_MENU_FG_COLOR "" # define DFLT_SCROLL_BG_COLOR "" # define DFLT_SCROLL_FG_COLOR "" # define DFLT_TOOLTIP_BG_COLOR "#ffff91" # define DFLT_TOOLTIP_FG_COLOR "#000000" #endif Widget vimShell = (Widget)0; static Atom wm_atoms[2]; // Window Manager Atoms #define DELETE_WINDOW_IDX 0 // index in wm_atoms[] for WM_DELETE_WINDOW #define SAVE_YOURSELF_IDX 1 // index in wm_atoms[] for WM_SAVE_YOURSELF #ifdef FEAT_XFONTSET /* * We either draw with a fontset (when current_fontset != NULL) or with a * normal font (current_fontset == NULL, use gui.text_gc and gui.back_gc). */ static XFontSet current_fontset = NULL; # if !defined(XDrawString) # define XDrawString(dpy, win, gc, x, y, str, n) \ do \ { \ if (current_fontset != NULL) \ XmbDrawString(dpy, win, current_fontset, gc, x, y, str, n); \ else \ XDrawString(dpy, win, gc, x, y, str, n); \ } while (0) # endif # if !defined(XDrawString16) # define XDrawString16(dpy, win, gc, x, y, str, n) \ do \ { \ if (current_fontset != NULL) \ XwcDrawString(dpy, win, current_fontset, gc, x, y, (wchar_t *)str, n); \ else \ XDrawString16(dpy, win, gc, x, y, (XChar2b *)str, n); \ } while (0) # endif # if !defined(XDrawImageString16) # define XDrawImageString16(dpy, win, gc, x, y, str, n) \ do \ { \ if (current_fontset != NULL) \ XwcDrawImageString(dpy, win, current_fontset, gc, x, y, (wchar_t *)str, n); \ else \ XDrawImageString16(dpy, win, gc, x, y, (XChar2b *)str, n); \ } while (0) # endif static int check_fontset_sanity(XFontSet fs); static int fontset_width(XFontSet fs); static int fontset_ascent(XFontSet fs); #endif static guicolor_T prev_fg_color = INVALCOLOR; static guicolor_T prev_bg_color = INVALCOLOR; static guicolor_T prev_sp_color = INVALCOLOR; #if defined(FEAT_GUI_MOTIF) && defined(FEAT_MENU) static XButtonPressedEvent last_mouse_event; #endif static void gui_x11_check_copy_area(void); #ifdef FEAT_CLIENTSERVER static void gui_x11_send_event_handler(Widget, XtPointer, XEvent *, Boolean *); #endif static void gui_x11_wm_protocol_handler(Widget, XtPointer, XEvent *, Boolean *); static Cursor gui_x11_create_blank_mouse(void); /* * Keycodes recognized by vim. * NOTE: when changing this, the table in gui_gtk_x11.c probably needs the * same change! */ static struct specialkey { KeySym key_sym; char_u vim_code0; char_u vim_code1; } special_keys[] = { {XK_Up, 'k', 'u'}, {XK_Down, 'k', 'd'}, {XK_Left, 'k', 'l'}, {XK_Right, 'k', 'r'}, {XK_F1, 'k', '1'}, {XK_F2, 'k', '2'}, {XK_F3, 'k', '3'}, {XK_F4, 'k', '4'}, {XK_F5, 'k', '5'}, {XK_F6, 'k', '6'}, {XK_F7, 'k', '7'}, {XK_F8, 'k', '8'}, {XK_F9, 'k', '9'}, {XK_F10, 'k', ';'}, {XK_F11, 'F', '1'}, {XK_F12, 'F', '2'}, {XK_F13, 'F', '3'}, {XK_F14, 'F', '4'}, {XK_F15, 'F', '5'}, {XK_F16, 'F', '6'}, {XK_F17, 'F', '7'}, {XK_F18, 'F', '8'}, {XK_F19, 'F', '9'}, {XK_F20, 'F', 'A'}, {XK_F21, 'F', 'B'}, {XK_F22, 'F', 'C'}, {XK_F23, 'F', 'D'}, {XK_F24, 'F', 'E'}, {XK_F25, 'F', 'F'}, {XK_F26, 'F', 'G'}, {XK_F27, 'F', 'H'}, {XK_F28, 'F', 'I'}, {XK_F29, 'F', 'J'}, {XK_F30, 'F', 'K'}, {XK_F31, 'F', 'L'}, {XK_F32, 'F', 'M'}, {XK_F33, 'F', 'N'}, {XK_F34, 'F', 'O'}, {XK_F35, 'F', 'P'}, // keysymdef.h defines up to F35 #ifdef SunXK_F36 {SunXK_F36, 'F', 'Q'}, {SunXK_F37, 'F', 'R'}, #endif {XK_Help, '%', '1'}, {XK_Undo, '&', '8'}, {XK_BackSpace, 'k', 'b'}, {XK_Insert, 'k', 'I'}, {XK_Delete, 'k', 'D'}, {XK_Home, 'k', 'h'}, {XK_End, '@', '7'}, {XK_Prior, 'k', 'P'}, {XK_Next, 'k', 'N'}, {XK_Print, '%', '9'}, // Keypad keys: #ifdef XK_KP_Left {XK_KP_Left, 'k', 'l'}, {XK_KP_Right, 'k', 'r'}, {XK_KP_Up, 'k', 'u'}, {XK_KP_Down, 'k', 'd'}, {XK_KP_Insert, KS_EXTRA, (char_u)KE_KINS}, {XK_KP_Delete, KS_EXTRA, (char_u)KE_KDEL}, {XK_KP_Home, 'K', '1'}, {XK_KP_End, 'K', '4'}, {XK_KP_Prior, 'K', '3'}, {XK_KP_Next, 'K', '5'}, {XK_KP_Add, 'K', '6'}, {XK_KP_Subtract, 'K', '7'}, {XK_KP_Divide, 'K', '8'}, {XK_KP_Multiply, 'K', '9'}, {XK_KP_Enter, 'K', 'A'}, {XK_KP_Decimal, 'K', 'B'}, {XK_KP_0, 'K', 'C'}, {XK_KP_1, 'K', 'D'}, {XK_KP_2, 'K', 'E'}, {XK_KP_3, 'K', 'F'}, {XK_KP_4, 'K', 'G'}, {XK_KP_5, 'K', 'H'}, {XK_KP_6, 'K', 'I'}, {XK_KP_7, 'K', 'J'}, {XK_KP_8, 'K', 'K'}, {XK_KP_9, 'K', 'L'}, #endif // End of list marker: {(KeySym)0, 0, 0} }; #define XtNboldFont "boldFont" #define XtCBoldFont "BoldFont" #define XtNitalicFont "italicFont" #define XtCItalicFont "ItalicFont" #define XtNboldItalicFont "boldItalicFont" #define XtCBoldItalicFont "BoldItalicFont" #define XtNscrollbarWidth "scrollbarWidth" #define XtCScrollbarWidth "ScrollbarWidth" #define XtNmenuHeight "menuHeight" #define XtCMenuHeight "MenuHeight" #define XtNmenuFont "menuFont" #define XtCMenuFont "MenuFont" #define XtNmenuFontSet "menuFontSet" #define XtCMenuFontSet "MenuFontSet" // Resources for setting the foreground and background colors of menus #define XtNmenuBackground "menuBackground" #define XtCMenuBackground "MenuBackground" #define XtNmenuForeground "menuForeground" #define XtCMenuForeground "MenuForeground" // Resources for setting the foreground and background colors of scrollbars #define XtNscrollBackground "scrollBackground" #define XtCScrollBackground "ScrollBackground" #define XtNscrollForeground "scrollForeground" #define XtCScrollForeground "ScrollForeground" // Resources for setting the foreground and background colors of tooltip #define XtNtooltipBackground "tooltipBackground" #define XtCTooltipBackground "TooltipBackground" #define XtNtooltipForeground "tooltipForeground" #define XtCTooltipForeground "TooltipForeground" #define XtNtooltipFont "tooltipFont" #define XtCTooltipFont "TooltipFont" /* * X Resources: */ static XtResource vim_resources[] = { { XtNforeground, XtCForeground, XtRPixel, sizeof(Pixel), XtOffsetOf(gui_T, def_norm_pixel), XtRString, XtDefaultForeground }, { XtNbackground, XtCBackground, XtRPixel, sizeof(Pixel), XtOffsetOf(gui_T, def_back_pixel), XtRString, XtDefaultBackground }, { XtNfont, XtCFont, XtRString, sizeof(String *), XtOffsetOf(gui_T, rsrc_font_name), XtRImmediate, XtDefaultFont }, { XtNboldFont, XtCBoldFont, XtRString, sizeof(String *), XtOffsetOf(gui_T, rsrc_bold_font_name), XtRImmediate, "" }, { XtNitalicFont, XtCItalicFont, XtRString, sizeof(String *), XtOffsetOf(gui_T, rsrc_ital_font_name), XtRImmediate, "" }, { XtNboldItalicFont, XtCBoldItalicFont, XtRString, sizeof(String *), XtOffsetOf(gui_T, rsrc_boldital_font_name), XtRImmediate, "" }, { XtNgeometry, XtCGeometry, XtRString, sizeof(String *), XtOffsetOf(gui_T, geom), XtRImmediate, "" }, { XtNreverseVideo, XtCReverseVideo, XtRBool, sizeof(Bool), XtOffsetOf(gui_T, rsrc_rev_video), XtRImmediate, (XtPointer)False }, { XtNborderWidth, XtCBorderWidth, XtRInt, sizeof(int), XtOffsetOf(gui_T, border_width), XtRImmediate, (XtPointer)2 }, { XtNscrollbarWidth, XtCScrollbarWidth, XtRInt, sizeof(int), XtOffsetOf(gui_T, scrollbar_width), XtRImmediate, (XtPointer)SB_DEFAULT_WIDTH }, #ifdef FEAT_MENU # ifdef FEAT_GUI_ATHENA // with Motif the height is always computed { XtNmenuHeight, XtCMenuHeight, XtRInt, sizeof(int), XtOffsetOf(gui_T, menu_height), XtRImmediate, (XtPointer)MENU_DEFAULT_HEIGHT // Should figure out at run time }, # endif { # ifdef FONTSET_ALWAYS XtNmenuFontSet, XtCMenuFontSet, #else XtNmenuFont, XtCMenuFont, #endif XtRString, sizeof(char *), XtOffsetOf(gui_T, rsrc_menu_font_name), XtRString, DFLT_MENU_FONT }, #endif { XtNmenuForeground, XtCMenuForeground, XtRString, sizeof(char *), XtOffsetOf(gui_T, rsrc_menu_fg_name), XtRString, DFLT_MENU_FG_COLOR }, { XtNmenuBackground, XtCMenuBackground, XtRString, sizeof(char *), XtOffsetOf(gui_T, rsrc_menu_bg_name), XtRString, DFLT_MENU_BG_COLOR }, { XtNscrollForeground, XtCScrollForeground, XtRString, sizeof(char *), XtOffsetOf(gui_T, rsrc_scroll_fg_name), XtRString, DFLT_SCROLL_FG_COLOR }, { XtNscrollBackground, XtCScrollBackground, XtRString, sizeof(char *), XtOffsetOf(gui_T, rsrc_scroll_bg_name), XtRString, DFLT_SCROLL_BG_COLOR }, #ifdef FEAT_BEVAL_GUI { XtNtooltipForeground, XtCTooltipForeground, XtRString, sizeof(char *), XtOffsetOf(gui_T, rsrc_tooltip_fg_name), XtRString, DFLT_TOOLTIP_FG_COLOR }, { XtNtooltipBackground, XtCTooltipBackground, XtRString, sizeof(char *), XtOffsetOf(gui_T, rsrc_tooltip_bg_name), XtRString, DFLT_TOOLTIP_BG_COLOR }, { XtNtooltipFont, XtCTooltipFont, XtRString, sizeof(char *), XtOffsetOf(gui_T, rsrc_tooltip_font_name), XtRString, DFLT_TOOLTIP_FONT }, // This one may not be really needed? { "balloonEvalFontSet", XtCFontSet, XtRFontSet, sizeof(XFontSet), XtOffsetOf(gui_T, tooltip_fontset), XtRImmediate, (XtPointer)NOFONTSET }, #endif // FEAT_BEVAL_GUI #ifdef FEAT_XIM { "preeditType", "PreeditType", XtRString, sizeof(char*), XtOffsetOf(gui_T, rsrc_preedit_type_name), XtRString, (XtPointer)"OverTheSpot,OffTheSpot,Root" }, { "inputMethod", "InputMethod", XtRString, sizeof(char*), XtOffsetOf(gui_T, rsrc_input_method), XtRString, NULL }, #endif // FEAT_XIM }; /* * This table holds all the X GUI command line options allowed. This includes * the standard ones so that we can skip them when vim is started without the * GUI (but the GUI might start up later). * When changing this, also update doc/vim_gui.txt and the usage message!!! */ static XrmOptionDescRec cmdline_options[] = { // We handle these options ourselves {"-bg", ".background", XrmoptionSepArg, NULL}, {"-background", ".background", XrmoptionSepArg, NULL}, {"-fg", ".foreground", XrmoptionSepArg, NULL}, {"-foreground", ".foreground", XrmoptionSepArg, NULL}, {"-fn", ".font", XrmoptionSepArg, NULL}, {"-font", ".font", XrmoptionSepArg, NULL}, {"-boldfont", ".boldFont", XrmoptionSepArg, NULL}, {"-italicfont", ".italicFont", XrmoptionSepArg, NULL}, {"-geom", ".geometry", XrmoptionSepArg, NULL}, {"-geometry", ".geometry", XrmoptionSepArg, NULL}, {"-reverse", "*reverseVideo", XrmoptionNoArg, "True"}, {"-rv", "*reverseVideo", XrmoptionNoArg, "True"}, {"+reverse", "*reverseVideo", XrmoptionNoArg, "False"}, {"+rv", "*reverseVideo", XrmoptionNoArg, "False"}, {"-display", ".display", XrmoptionSepArg, NULL}, {"-iconic", ".iconic", XrmoptionNoArg, "True"}, {"-name", ".name", XrmoptionSepArg, NULL}, {"-bw", ".borderWidth", XrmoptionSepArg, NULL}, {"-borderwidth", ".borderWidth", XrmoptionSepArg, NULL}, {"-sw", ".scrollbarWidth", XrmoptionSepArg, NULL}, {"-scrollbarwidth", ".scrollbarWidth", XrmoptionSepArg, NULL}, {"-mh", ".menuHeight", XrmoptionSepArg, NULL}, {"-menuheight", ".menuHeight", XrmoptionSepArg, NULL}, #ifdef FONTSET_ALWAYS {"-mf", ".menuFontSet", XrmoptionSepArg, NULL}, {"-menufont", ".menuFontSet", XrmoptionSepArg, NULL}, {"-menufontset", ".menuFontSet", XrmoptionSepArg, NULL}, #else {"-mf", ".menuFont", XrmoptionSepArg, NULL}, {"-menufont", ".menuFont", XrmoptionSepArg, NULL}, #endif {"-xrm", NULL, XrmoptionResArg, NULL} }; static int gui_argc = 0; static char **gui_argv = NULL; /* * Call-back routines. */ static void gui_x11_timer_cb( XtPointer timed_out, XtIntervalId *interval_id UNUSED) { *((int *)timed_out) = TRUE; } #ifdef FEAT_JOB_CHANNEL static void channel_poll_cb( XtPointer client_data, XtIntervalId *interval_id UNUSED) { XtIntervalId *channel_timer = (XtIntervalId *)client_data; // Using an event handler for a channel that may be disconnected does // not work, it hangs. Instead poll for messages. channel_handle_events(TRUE); parse_queued_messages(); // repeat *channel_timer = XtAppAddTimeOut(app_context, (long_u)20, channel_poll_cb, client_data); } #endif static void gui_x11_visibility_cb( Widget w UNUSED, XtPointer dud UNUSED, XEvent *event, Boolean *dum UNUSED) { if (event->type != VisibilityNotify) return; gui.visibility = event->xvisibility.state; /* * When we do an XCopyArea(), and the window is partially obscured, we want * to receive an event to tell us whether it worked or not. */ XSetGraphicsExposures(gui.dpy, gui.text_gc, gui.visibility != VisibilityUnobscured); // This is needed for when redrawing is slow. gui_mch_update(); } static void gui_x11_expose_cb( Widget w UNUSED, XtPointer dud UNUSED, XEvent *event, Boolean *dum UNUSED) { XExposeEvent *gevent; int new_x; if (event->type != Expose) return; out_flush(); // make sure all output has been processed gevent = (XExposeEvent *)event; gui_redraw(gevent->x, gevent->y, gevent->width, gevent->height); new_x = FILL_X(0); // Clear the border areas if needed if (gevent->x < new_x) XClearArea(gui.dpy, gui.wid, 0, 0, new_x, 0, False); if (gevent->y < FILL_Y(0)) XClearArea(gui.dpy, gui.wid, 0, 0, 0, FILL_Y(0), False); if (gevent->x > FILL_X(Columns)) XClearArea(gui.dpy, gui.wid, FILL_X((int)Columns), 0, 0, 0, False); if (gevent->y > FILL_Y(Rows)) XClearArea(gui.dpy, gui.wid, 0, FILL_Y((int)Rows), 0, 0, False); // This is needed for when redrawing is slow. gui_mch_update(); } #if (defined(FEAT_NETBEANS_INTG) && defined(FEAT_GUI_MOTIF)) || defined(PROTO) /* * This function fills in the XRectangle object with the current x,y * coordinates and height, width so that an XtVaSetValues to the same shell of * those resources will restore the window to its former position and * dimensions. * * Note: This function may fail, in which case the XRectangle will be * unchanged. Be sure to have the XRectangle set with the proper values for a * failed condition prior to calling this function. */ static void shellRectangle(Widget shell, XRectangle *r) { Window rootw, shellw, child, parentw; int absx, absy; XWindowAttributes a; Window *children; unsigned int childrenCount; shellw = XtWindow(shell); if (shellw == 0) return; for (;;) { XQueryTree(XtDisplay(shell), shellw, &rootw, &parentw, &children, &childrenCount); XFree(children); if (parentw == rootw) break; shellw = parentw; } XGetWindowAttributes(XtDisplay(shell), shellw, &a); XTranslateCoordinates(XtDisplay(shell), shellw, a.root, 0, 0, &absx, &absy, &child); r->x = absx; r->y = absy; XtVaGetValues(shell, XmNheight, &r->height, XmNwidth, &r->width, NULL); } #endif static void gui_x11_resize_window_cb( Widget w UNUSED, XtPointer dud UNUSED, XEvent *event, Boolean *dum UNUSED) { static int lastWidth, lastHeight; if (event->type != ConfigureNotify) return; if (event->xconfigure.width != lastWidth || event->xconfigure.height != lastHeight) { lastWidth = event->xconfigure.width; lastHeight = event->xconfigure.height; gui_resize_shell(event->xconfigure.width, event->xconfigure.height #ifdef FEAT_XIM - xim_get_status_area_height() #endif ); } #if defined(FEAT_NETBEANS_INTG) && defined(FEAT_GUI_MOTIF) if (netbeans_active()) { XRectangle rec; shellRectangle(w, &rec); netbeans_frame_moved(rec.x, rec.y); } #endif #ifdef FEAT_XIM xim_set_preedit(); #endif } static void gui_x11_focus_change_cb( Widget w UNUSED, XtPointer data UNUSED, XEvent *event, Boolean *dum UNUSED) { gui_focus_change(event->type == FocusIn); } static void gui_x11_enter_cb( Widget w UNUSED, XtPointer data UNUSED, XEvent *event UNUSED, Boolean *dum UNUSED) { gui_focus_change(TRUE); } static void gui_x11_leave_cb( Widget w UNUSED, XtPointer data UNUSED, XEvent *event UNUSED, Boolean *dum UNUSED) { gui_focus_change(FALSE); } #if defined(X_HAVE_UTF8_STRING) # if X_HAVE_UTF8_STRING # define USE_UTF8LOOKUP # endif #endif void gui_x11_key_hit_cb( Widget w UNUSED, XtPointer dud UNUSED, XEvent *event, Boolean *dum UNUSED) { XKeyPressedEvent *ev_press; #ifdef FEAT_XIM char_u string2[256]; char_u string_shortbuf[256]; char_u *string = string_shortbuf; Boolean string_alloced = False; Status status; #else char_u string[4], string2[3]; #endif KeySym key_sym; int len; int i; int modifiers; int key; ev_press = (XKeyPressedEvent *)event; #ifdef FEAT_XIM if (xic) { # ifdef USE_UTF8LOOKUP // XFree86 4.0.2 or newer: Be able to get UTF-8 characters even when // the locale isn't utf-8. if (enc_utf8) len = Xutf8LookupString(xic, ev_press, (char *)string, sizeof(string_shortbuf), &key_sym, &status); else # endif len = XmbLookupString(xic, ev_press, (char *)string, sizeof(string_shortbuf), &key_sym, &status); if (status == XBufferOverflow) { string = (char_u *)XtMalloc(len + 1); string_alloced = True; # ifdef USE_UTF8LOOKUP // XFree86 4.0.2 or newer: Be able to get UTF-8 characters even // when the locale isn't utf-8. if (enc_utf8) len = Xutf8LookupString(xic, ev_press, (char *)string, len, &key_sym, &status); else # endif len = XmbLookupString(xic, ev_press, (char *)string, len, &key_sym, &status); } if (status == XLookupNone || status == XLookupChars) key_sym = XK_VoidSymbol; // Do conversion from 'termencoding' to 'encoding'. When using // Xutf8LookupString() it has already been done. if (len > 0 && input_conv.vc_type != CONV_NONE # ifdef USE_UTF8LOOKUP && !enc_utf8 # endif ) { int maxlen = len * 4 + 40; // guessed char_u *p = (char_u *)XtMalloc(maxlen); mch_memmove(p, string, len); if (string_alloced) XtFree((char *)string); string = p; string_alloced = True; len = convert_input(p, len, maxlen); } // Translate CSI to K_CSI, otherwise it could be recognized as the // start of a special key. for (i = 0; i < len; ++i) if (string[i] == CSI) { char_u *p = (char_u *)XtMalloc(len + 3); mch_memmove(p, string, i + 1); p[i + 1] = KS_EXTRA; p[i + 2] = (int)KE_CSI; mch_memmove(p + i + 3, string + i + 1, len - i); if (string_alloced) XtFree((char *)string); string = p; string_alloced = True; i += 2; len += 2; } } else #endif len = XLookupString(ev_press, (char *)string, sizeof(string), &key_sym, NULL); #ifdef SunXK_F36 /* * These keys have bogus lookup strings, and trapping them here is * easier than trying to XRebindKeysym() on them with every possible * combination of modifiers. */ if (key_sym == SunXK_F36 || key_sym == SunXK_F37) len = 0; #endif if (key_sym == XK_space) string[0] = ' '; // Otherwise Ctrl-Space doesn't work /* * Only on some machines ^_ requires Ctrl+Shift+minus. For consistency, * allow just Ctrl+minus too. */ if (key_sym == XK_minus && (ev_press->state & ControlMask)) string[0] = Ctrl__; #ifdef XK_ISO_Left_Tab // why do we get XK_ISO_Left_Tab instead of XK_Tab for shift-tab? if (key_sym == XK_ISO_Left_Tab) { key_sym = XK_Tab; string[0] = TAB; len = 1; } #endif // We used to apply Alt/Meta to the key here (Mod1Mask), but that is now // done later, the same as it happens for the terminal. Hopefully that // works for everybody... if (len == 1 && string[0] == CSI) { string[1] = KS_EXTRA; string[2] = (int)KE_CSI; len = -3; } // Check for special keys. Also do this when len == 1 (key has an ASCII // value) to detect backspace, delete and keypad keys. if (len == 0 || len == 1) { for (i = 0; special_keys[i].key_sym != (KeySym)0; i++) { if (special_keys[i].key_sym == key_sym) { string[0] = CSI; string[1] = special_keys[i].vim_code0; string[2] = special_keys[i].vim_code1; len = -3; break; } } } // Unrecognised key is ignored. if (len == 0) goto theend; // Handle modifiers. modifiers = 0; if (ev_press->state & ShiftMask) modifiers |= MOD_MASK_SHIFT; if (ev_press->state & ControlMask) { modifiers |= MOD_MASK_CTRL; if (len == 1 && string[0] < 0x20) // Use the character before applyng CTRL. string[0] += 0x40; } if (ev_press->state & Mod1Mask) modifiers |= MOD_MASK_ALT; if (ev_press->state & Mod4Mask) modifiers |= MOD_MASK_META; /* * For some keys a shift modifier is translated into another key * code. */ if (len == -3) key = TO_SPECIAL(string[1], string[2]); else { string[len] = NUL; key = mb_ptr2char(string); } key = simplify_key(key, &modifiers); if (key == CSI) key = K_CSI; if (IS_SPECIAL(key)) { string[0] = CSI; string[1] = K_SECOND(key); string[2] = K_THIRD(key); len = 3; } else { len = mb_char2bytes(key, string); // Some keys need adjustment when the Ctrl modifier is used. key = may_adjust_key_for_ctrl(modifiers, key); // Remove the SHIFT modifier for keys where it's already included, // e.g., '(', '!' and '*'. modifiers = may_remove_shift_modifier(modifiers, key); } if (modifiers != 0) { string2[0] = CSI; string2[1] = KS_MODIFIER; string2[2] = modifiers; add_to_input_buf(string2, 3); } // Check if the key interrupts. { int int_ch = check_for_interrupt(key, modifiers); if (int_ch != NUL) { trash_input_buf(); string[0] = int_ch; len = 1; } } add_to_input_buf(string, len); /* * blank out the pointer if necessary */ if (p_mh) gui_mch_mousehide(TRUE); #if defined(FEAT_BEVAL_TIP) { BalloonEval *be; if ((be = gui_mch_currently_showing_beval()) != NULL) gui_mch_unpost_balloon(be); } #endif theend: {} // some compilers need a statement here #ifdef FEAT_XIM if (string_alloced) XtFree((char *)string); #endif } static void gui_x11_mouse_cb( Widget w UNUSED, XtPointer dud UNUSED, XEvent *event, Boolean *dum UNUSED) { static XtIntervalId timer = (XtIntervalId)0; static int timed_out = TRUE; int button; int repeated_click = FALSE; int x, y; int_u x_modifiers; int_u vim_modifiers; if (event->type == MotionNotify) { // Get the latest position, avoids lagging behind on a drag. x = event->xmotion.x; y = event->xmotion.y; x_modifiers = event->xmotion.state; button = (x_modifiers & (Button1Mask | Button2Mask | Button3Mask)) ? MOUSE_DRAG : ' '; /* * if our pointer is currently hidden, then we should show it. */ gui_mch_mousehide(FALSE); if (button != MOUSE_DRAG) // just moving the rodent { #ifdef FEAT_MENU if (dud) // moved in vimForm y -= gui.menu_height; #endif gui_mouse_moved(x, y); return; } } else { x = event->xbutton.x; y = event->xbutton.y; if (event->type == ButtonPress) { // Handle multiple clicks if (!timed_out) { XtRemoveTimeOut(timer); repeated_click = TRUE; } timed_out = FALSE; timer = XtAppAddTimeOut(app_context, (long_u)p_mouset, gui_x11_timer_cb, &timed_out); switch (event->xbutton.button) { // keep in sync with gui_gtk_x11.c case Button1: button = MOUSE_LEFT; break; case Button2: button = MOUSE_MIDDLE; break; case Button3: button = MOUSE_RIGHT; break; case Button4: button = MOUSE_4; break; case Button5: button = MOUSE_5; break; case 6: button = MOUSE_7; break; case 7: button = MOUSE_6; break; case 8: button = MOUSE_X1; break; case 9: button = MOUSE_X2; break; default: return; // Unknown button } } else if (event->type == ButtonRelease) button = MOUSE_RELEASE; else return; // Unknown mouse event type x_modifiers = event->xbutton.state; #if defined(FEAT_GUI_MOTIF) && defined(FEAT_MENU) last_mouse_event = event->xbutton; #endif } vim_modifiers = 0x0; if (x_modifiers & ShiftMask) vim_modifiers |= MOUSE_SHIFT; if (x_modifiers & ControlMask) vim_modifiers |= MOUSE_CTRL; if (x_modifiers & Mod1Mask) // Alt or Meta key vim_modifiers |= MOUSE_ALT; gui_send_mouse_event(button, x, y, repeated_click, vim_modifiers); } /* * End of call-back routines */ /* * Parse the GUI related command-line arguments. Any arguments used are * deleted from argv, and *argc is decremented accordingly. This is called * when vim is started, whether or not the GUI has been started. */ void gui_mch_prepare(int *argc, char **argv) { int arg; int i; /* * Move all the entries in argv which are relevant to X into gui_argv. */ gui_argc = 0; gui_argv = LALLOC_MULT(char *, *argc); if (gui_argv == NULL) return; gui_argv[gui_argc++] = argv[0]; arg = 1; while (arg < *argc) { // Look for argv[arg] in cmdline_options[] table for (i = 0; i < (int)XtNumber(cmdline_options); i++) if (strcmp(argv[arg], cmdline_options[i].option) == 0) break; if (i < (int)XtNumber(cmdline_options)) { // Remember finding "-rv" or "-reverse" if (strcmp("-rv", argv[arg]) == 0 || strcmp("-reverse", argv[arg]) == 0) found_reverse_arg = TRUE; else if ((strcmp("-fn", argv[arg]) == 0 || strcmp("-font", argv[arg]) == 0) && arg + 1 < *argc) font_argument = argv[arg + 1]; // Found match in table, so move it into gui_argv gui_argv[gui_argc++] = argv[arg]; if (--*argc > arg) { mch_memmove(&argv[arg], &argv[arg + 1], (*argc - arg) * sizeof(char *)); if (cmdline_options[i].argKind != XrmoptionNoArg) { // Move the options argument as well gui_argv[gui_argc++] = argv[arg]; if (--*argc > arg) mch_memmove(&argv[arg], &argv[arg + 1], (*argc - arg) * sizeof(char *)); } } argv[*argc] = NULL; } else #ifdef FEAT_NETBEANS_INTG if (strncmp("-nb", argv[arg], 3) == 0) { gui.dofork = FALSE; // don't fork() when starting GUI netbeansArg = argv[arg]; mch_memmove(&argv[arg], &argv[arg + 1], (--*argc - arg) * sizeof(char *)); argv[*argc] = NULL; } else #endif arg++; } } #ifndef XtSpecificationRelease # define CARDINAL (Cardinal *) #else # if XtSpecificationRelease == 4 # define CARDINAL (Cardinal *) # else # define CARDINAL (int *) # endif #endif /* * Check if the GUI can be started. Called before gvimrc is sourced. * Return OK or FAIL. */ int gui_mch_init_check(void) { #ifdef FEAT_XIM XtSetLanguageProc(NULL, NULL, NULL); #endif open_app_context(); if (app_context != NULL) gui.dpy = XtOpenDisplay(app_context, 0, VIM_NAME, VIM_CLASS, cmdline_options, XtNumber(cmdline_options), CARDINAL &gui_argc, gui_argv); # if defined(FEAT_FLOAT) && defined(LC_NUMERIC) { // The call to XtOpenDisplay() may have set the locale from the // environment. Set LC_NUMERIC to "C" to make sure that strtod() uses a // decimal point, not a comma. char *p = setlocale(LC_NUMERIC, NULL); if (p == NULL || strcmp(p, "C") != 0) setlocale(LC_NUMERIC, "C"); } # endif if (app_context == NULL || gui.dpy == NULL) { gui.dying = TRUE; emsg(_(e_opendisp)); return FAIL; } return OK; } #ifdef USE_XSMP /* * Handle XSMP processing, de-registering the attachment upon error */ static XtInputId _xsmp_xtinputid; static void local_xsmp_handle_requests( XtPointer c UNUSED, int *s UNUSED, XtInputId *i UNUSED) { if (xsmp_handle_requests() == FAIL) XtRemoveInput(_xsmp_xtinputid); } #endif /* * Initialise the X GUI. Create all the windows, set up all the call-backs etc. * Returns OK for success, FAIL when the GUI can't be started. */ int gui_mch_init(void) { XtGCMask gc_mask; XGCValues gc_vals; int x, y, mask; unsigned w, h; #if 0 // Uncomment this to enable synchronous mode for debugging XSynchronize(gui.dpy, True); #endif vimShell = XtVaAppCreateShell(VIM_NAME, VIM_CLASS, applicationShellWidgetClass, gui.dpy, NULL); /* * Get the application resources */ XtVaGetApplicationResources(vimShell, (XtPointer)&gui, vim_resources, XtNumber(vim_resources), NULL); gui.scrollbar_height = gui.scrollbar_width; /* * Get the colors ourselves. Using the automatic conversion doesn't * handle looking for approximate colors. */ // NOTE: These next few lines are an exact duplicate of gui_athena.c's // gui_mch_def_colors(). Why? gui.menu_fg_pixel = gui_get_color((char_u *)gui.rsrc_menu_fg_name); gui.menu_bg_pixel = gui_get_color((char_u *)gui.rsrc_menu_bg_name); gui.scroll_fg_pixel = gui_get_color((char_u *)gui.rsrc_scroll_fg_name); gui.scroll_bg_pixel = gui_get_color((char_u *)gui.rsrc_scroll_bg_name); #ifdef FEAT_BEVAL_GUI gui.tooltip_fg_pixel = gui_get_color((char_u *)gui.rsrc_tooltip_fg_name); gui.tooltip_bg_pixel = gui_get_color((char_u *)gui.rsrc_tooltip_bg_name); #endif #if defined(FEAT_MENU) && defined(FEAT_GUI_ATHENA) // If the menu height was set, don't change it at runtime if (gui.menu_height != MENU_DEFAULT_HEIGHT) gui.menu_height_fixed = TRUE; #endif // Set default foreground and background colours gui.norm_pixel = gui.def_norm_pixel; gui.back_pixel = gui.def_back_pixel; // Check if reverse video needs to be applied (on Sun it's done by X) if (gui.rsrc_rev_video && gui_get_lightness(gui.back_pixel) > gui_get_lightness(gui.norm_pixel)) { gui.norm_pixel = gui.def_back_pixel; gui.back_pixel = gui.def_norm_pixel; gui.def_norm_pixel = gui.norm_pixel; gui.def_back_pixel = gui.back_pixel; } // Get the colors from the "Normal", "Tooltip", "Scrollbar" and "Menu" // group (set in syntax.c or in a vimrc file) set_normal_colors(); /* * Check that none of the colors are the same as the background color */ gui_check_colors(); /* * Set up the GCs. The font attributes will be set in gui_init_font(). */ gc_mask = GCForeground | GCBackground; gc_vals.foreground = gui.norm_pixel; gc_vals.background = gui.back_pixel; gui.text_gc = XtGetGC(vimShell, gc_mask, &gc_vals); gc_vals.foreground = gui.back_pixel; gc_vals.background = gui.norm_pixel; gui.back_gc = XtGetGC(vimShell, gc_mask, &gc_vals); gc_mask |= GCFunction; gc_vals.foreground = gui.norm_pixel ^ gui.back_pixel; gc_vals.background = gui.norm_pixel ^ gui.back_pixel; gc_vals.function = GXxor; gui.invert_gc = XtGetGC(vimShell, gc_mask, &gc_vals); gui.visibility = VisibilityUnobscured; x11_setup_atoms(gui.dpy); if (gui_win_x != -1 && gui_win_y != -1) gui_mch_set_winpos(gui_win_x, gui_win_y); // Now adapt the supplied(?) geometry-settings // Added by Kjetil Jacobsen if (gui.geom != NULL && *gui.geom != NUL) { mask = XParseGeometry((char *)gui.geom, &x, &y, &w, &h); if (mask & WidthValue) Columns = w; if (mask & HeightValue) { if (p_window > (long)h - 1 || !option_was_set((char_u *)"window")) p_window = h - 1; Rows = h; } limit_screen_size(); /* * Set the (x,y) position of the main window only if specified in the * users geometry, so we get good defaults when they don't. This needs * to be done before the shell is popped up. */ if (mask & (XValue|YValue)) XtVaSetValues(vimShell, XtNgeometry, gui.geom, NULL); } gui_x11_create_widgets(); /* * Add an icon to Vim (Marcel Douben: 11 May 1998). */ if (vim_strchr(p_go, GO_ICON) != NULL) { #ifndef HAVE_XPM # include "vim_icon.xbm" # include "vim_mask.xbm" Arg arg[2]; XtSetArg(arg[0], XtNiconPixmap, XCreateBitmapFromData(gui.dpy, DefaultRootWindow(gui.dpy), (char *)vim_icon_bits, vim_icon_width, vim_icon_height)); XtSetArg(arg[1], XtNiconMask, XCreateBitmapFromData(gui.dpy, DefaultRootWindow(gui.dpy), (char *)vim_mask_icon_bits, vim_mask_icon_width, vim_mask_icon_height)); XtSetValues(vimShell, arg, (Cardinal)2); #else // Use Pixmaps, looking much nicer. // If you get an error message here, you still need to unpack the runtime // archive! # ifdef magick # undef magick # endif # define magick vim32x32 # include "../runtime/vim32x32.xpm" # undef magick # define magick vim16x16 # include "../runtime/vim16x16.xpm" # undef magick # define magick vim48x48 # include "../runtime/vim48x48.xpm" # undef magick static Pixmap icon = 0; static Pixmap icon_mask = 0; static char **magick = vim32x32; Window root_window; XIconSize *size; int number_sizes; Display *dsp; Screen *scr; XpmAttributes attr; Colormap cmap; /* * Adjust the icon to the preferences of the actual window manager. */ root_window = XRootWindowOfScreen(XtScreen(vimShell)); if (XGetIconSizes(XtDisplay(vimShell), root_window, &size, &number_sizes) != 0) { if (number_sizes > 0) { if (size->max_height >= 48 && size->max_width >= 48) magick = vim48x48; else if (size->max_height >= 32 && size->max_width >= 32) magick = vim32x32; else if (size->max_height >= 16 && size->max_width >= 16) magick = vim16x16; } } dsp = XtDisplay(vimShell); scr = XtScreen(vimShell); cmap = DefaultColormap(dsp, DefaultScreen(dsp)); XtVaSetValues(vimShell, XtNcolormap, cmap, NULL); attr.valuemask = 0L; attr.valuemask = XpmCloseness | XpmReturnPixels | XpmColormap | XpmDepth; attr.closeness = 65535; // accuracy isn't crucial attr.colormap = cmap; attr.depth = DefaultDepthOfScreen(scr); if (!icon) { XpmCreatePixmapFromData(dsp, root_window, magick, &icon, &icon_mask, &attr); XpmFreeAttributes(&attr); } # ifdef FEAT_GUI_ATHENA XtVaSetValues(vimShell, XtNiconPixmap, icon, XtNiconMask, icon_mask, NULL); # else XtVaSetValues(vimShell, XmNiconPixmap, icon, XmNiconMask, icon_mask, NULL); # endif #endif } if (gui.color_approx) emsg(_("Vim E458: Cannot allocate colormap entry, some colors may be incorrect")); #ifdef FEAT_BEVAL_GUI gui_init_tooltip_font(); #endif #ifdef FEAT_MENU gui_init_menu_font(); #endif #ifdef USE_XSMP // Attach listener on ICE connection if (-1 != xsmp_icefd) _xsmp_xtinputid = XtAppAddInput(app_context, xsmp_icefd, (XtPointer)XtInputReadMask, local_xsmp_handle_requests, NULL); #endif return OK; } /* * Called when starting the GUI fails after calling gui_mch_init(). */ void gui_mch_uninit(void) { gui_x11_destroy_widgets(); XtCloseDisplay(gui.dpy); gui.dpy = NULL; vimShell = (Widget)0; VIM_CLEAR(gui_argv); } /* * Called when the foreground or background color has been changed. */ void gui_mch_new_colors(void) { long_u gc_mask; XGCValues gc_vals; gc_mask = GCForeground | GCBackground; gc_vals.foreground = gui.norm_pixel; gc_vals.background = gui.back_pixel; if (gui.text_gc != NULL) XChangeGC(gui.dpy, gui.text_gc, gc_mask, &gc_vals); gc_vals.foreground = gui.back_pixel; gc_vals.background = gui.norm_pixel; if (gui.back_gc != NULL) XChangeGC(gui.dpy, gui.back_gc, gc_mask, &gc_vals); gc_mask |= GCFunction; gc_vals.foreground = gui.norm_pixel ^ gui.back_pixel; gc_vals.background = gui.norm_pixel ^ gui.back_pixel; gc_vals.function = GXxor; if (gui.invert_gc != NULL) XChangeGC(gui.dpy, gui.invert_gc, gc_mask, &gc_vals); gui_x11_set_back_color(); } /* * Open the GUI window which was created by a call to gui_mch_init(). */ int gui_mch_open(void) { // Actually open the window XtRealizeWidget(vimShell); XtManageChild(XtNameToWidget(vimShell, "*vimForm")); gui.wid = gui_x11_get_wid(); gui.blank_pointer = gui_x11_create_blank_mouse(); /* * Add a callback for the Close item on the window managers menu, and the * save-yourself event. */ wm_atoms[SAVE_YOURSELF_IDX] = XInternAtom(gui.dpy, "WM_SAVE_YOURSELF", False); wm_atoms[DELETE_WINDOW_IDX] = XInternAtom(gui.dpy, "WM_DELETE_WINDOW", False); XSetWMProtocols(gui.dpy, XtWindow(vimShell), wm_atoms, 2); XtAddEventHandler(vimShell, NoEventMask, True, gui_x11_wm_protocol_handler, NULL); #ifdef HAVE_X11_XMU_EDITRES_H /* * Enable editres protocol (see "man editres"). * Usually will need to add -lXmu to the linker line as well. */ XtAddEventHandler(vimShell, (EventMask)0, True, _XEditResCheckMessages, (XtPointer)NULL); #endif #ifdef FEAT_CLIENTSERVER if (serverName == NULL && serverDelayedStartName != NULL) { // This is a :gui command in a plain vim with no previous server commWindow = XtWindow(vimShell); (void)serverRegisterName(gui.dpy, serverDelayedStartName); } else { /* * Cannot handle "widget-less" windows with XtProcessEvent() we'll * have to change the "server" registration to that of the main window * If we have not registered a name yet, remember the window */ serverChangeRegisteredWindow(gui.dpy, XtWindow(vimShell)); } XtAddEventHandler(vimShell, PropertyChangeMask, False, gui_x11_send_event_handler, NULL); #endif #if defined(FEAT_MENU) && defined(FEAT_GUI_ATHENA) // The Athena GUI needs this again after opening the window gui_position_menu(); # ifdef FEAT_TOOLBAR gui_mch_set_toolbar_pos(0, gui.menu_height, gui.menu_width, gui.toolbar_height); # endif #endif // Get the colors for the highlight groups (gui_check_colors() might have // changed them) highlight_gui_started(); // re-init colors and fonts #ifdef FEAT_XIM xim_init(); #endif return OK; } #if defined(FEAT_BEVAL_GUI) || defined(PROTO) /* * Convert the tooltip fontset name to an XFontSet. */ void gui_init_tooltip_font(void) { XrmValue from, to; from.addr = (char *)gui.rsrc_tooltip_font_name; from.size = strlen(from.addr); to.addr = (XtPointer)&gui.tooltip_fontset; to.size = sizeof(XFontSet); if (XtConvertAndStore(vimShell, XtRString, &from, XtRFontSet, &to) == False) { // Failed. What to do? } } #endif #if defined(FEAT_MENU) || defined(PROTO) // Convert the menu font/fontset name to an XFontStruct/XFontset void gui_init_menu_font(void) { XrmValue from, to; #ifdef FONTSET_ALWAYS from.addr = (char *)gui.rsrc_menu_font_name; from.size = strlen(from.addr); to.addr = (XtPointer)&gui.menu_fontset; to.size = sizeof(GuiFontset); if (XtConvertAndStore(vimShell, XtRString, &from, XtRFontSet, &to) == False) { // Failed. What to do? } #else from.addr = (char *)gui.rsrc_menu_font_name; from.size = strlen(from.addr); to.addr = (XtPointer)&gui.menu_font; to.size = sizeof(GuiFont); if (XtConvertAndStore(vimShell, XtRString, &from, XtRFontStruct, &to) == False) { // Failed. What to do? } #endif } #endif void gui_mch_exit(int rc UNUSED) { #if 0 // Lesstif gives an error message here, and so does Solaris. The man page // says that this isn't needed when exiting, so just skip it. XtCloseDisplay(gui.dpy); #endif VIM_CLEAR(gui_argv); } /* * Get the position of the top left corner of the window. */ int gui_mch_get_winpos(int *x, int *y) { Dimension xpos, ypos; XtVaGetValues(vimShell, XtNx, &xpos, XtNy, &ypos, NULL); *x = xpos; *y = ypos; return OK; } /* * Set the position of the top left corner of the window to the given * coordinates. */ void gui_mch_set_winpos(int x, int y) { XtVaSetValues(vimShell, XtNx, x, XtNy, y, NULL); } void gui_mch_set_shellsize( int width, int height, int min_width, int min_height, int base_width, int base_height, int direction UNUSED) { #ifdef FEAT_XIM height += xim_get_status_area_height(), #endif XtVaSetValues(vimShell, XtNwidthInc, gui.char_width, XtNheightInc, gui.char_height, #if defined(XtSpecificationRelease) && XtSpecificationRelease >= 4 XtNbaseWidth, base_width, XtNbaseHeight, base_height, #endif XtNminWidth, min_width, XtNminHeight, min_height, XtNwidth, width, XtNheight, height, NULL); } /* * Allow 10 pixels for horizontal borders, 'guiheadroom' for vertical borders. * Is there no way in X to find out how wide the borders really are? */ void gui_mch_get_screen_dimensions( int *screen_w, int *screen_h) { *screen_w = DisplayWidth(gui.dpy, DefaultScreen(gui.dpy)) - 10; *screen_h = DisplayHeight(gui.dpy, DefaultScreen(gui.dpy)) - p_ghr; } /* * Initialise vim to use the font "font_name". If it's NULL, pick a default * font. * If "fontset" is TRUE, load the "font_name" as a fontset. * Return FAIL if the font could not be loaded, OK otherwise. */ int gui_mch_init_font( char_u *font_name, int do_fontset UNUSED) { XFontStruct *font = NULL; #ifdef FEAT_XFONTSET XFontSet fontset = NULL; #endif #ifdef FEAT_GUI_MOTIF // A font name equal "*" is indicating, that we should activate the font // selection dialogue to get a new font name. So let us do it here. if (font_name != NULL && STRCMP(font_name, "*") == 0) font_name = gui_xm_select_font(hl_get_font_name()); #endif #ifdef FEAT_XFONTSET if (do_fontset) { // If 'guifontset' is set, VIM treats all font specifications as if // they were fontsets, and 'guifontset' becomes the default. if (font_name != NULL) { fontset = (XFontSet)gui_mch_get_fontset(font_name, FALSE, TRUE); if (fontset == NULL) return FAIL; } } else #endif { if (font_name == NULL) { /* * If none of the fonts in 'font' could be loaded, try the one set * in the X resource, and finally just try using DFLT_FONT, which * will hopefully always be there. */ font_name = gui.rsrc_font_name; font = (XFontStruct *)gui_mch_get_font(font_name, FALSE); if (font == NULL) font_name = (char_u *)DFLT_FONT; } if (font == NULL) font = (XFontStruct *)gui_mch_get_font(font_name, FALSE); if (font == NULL) return FAIL; } gui_mch_free_font(gui.norm_font); #ifdef FEAT_XFONTSET gui_mch_free_fontset(gui.fontset); if (fontset != NULL) { gui.norm_font = NOFONT; gui.fontset = (GuiFontset)fontset; gui.char_width = fontset_width(fontset); gui.char_height = fontset_height(fontset) + p_linespace; gui.char_ascent = fontset_ascent(fontset) + p_linespace / 2; } else #endif { gui.norm_font = (GuiFont)font; #ifdef FEAT_XFONTSET gui.fontset = NOFONTSET; #endif gui.char_width = font->max_bounds.width; gui.char_height = font->ascent + font->descent + p_linespace; gui.char_ascent = font->ascent + p_linespace / 2; } hl_set_font_name(font_name); /* * Try to load other fonts for bold, italic, and bold-italic. * We should also try to work out what font to use for these when they are * not specified by X resources, but we don't yet. */ if (font_name == gui.rsrc_font_name) { if (gui.bold_font == NOFONT && gui.rsrc_bold_font_name != NULL && *gui.rsrc_bold_font_name != NUL) gui.bold_font = gui_mch_get_font(gui.rsrc_bold_font_name, FALSE); if (gui.ital_font == NOFONT && gui.rsrc_ital_font_name != NULL && *gui.rsrc_ital_font_name != NUL) gui.ital_font = gui_mch_get_font(gui.rsrc_ital_font_name, FALSE); if (gui.boldital_font == NOFONT && gui.rsrc_boldital_font_name != NULL && *gui.rsrc_boldital_font_name != NUL) gui.boldital_font = gui_mch_get_font(gui.rsrc_boldital_font_name, FALSE); } else { // When not using the font specified by the resources, also don't use // the bold/italic fonts, otherwise setting 'guifont' will look very // strange. if (gui.bold_font != NOFONT) { XFreeFont(gui.dpy, (XFontStruct *)gui.bold_font); gui.bold_font = NOFONT; } if (gui.ital_font != NOFONT) { XFreeFont(gui.dpy, (XFontStruct *)gui.ital_font); gui.ital_font = NOFONT; } if (gui.boldital_font != NOFONT) { XFreeFont(gui.dpy, (XFontStruct *)gui.boldital_font); gui.boldital_font = NOFONT; } } #ifdef FEAT_GUI_MOTIF gui_motif_synch_fonts(); #endif return OK; } /* * Get a font structure for highlighting. */ GuiFont gui_mch_get_font(char_u *name, int giveErrorIfMissing) { XFontStruct *font; if (!gui.in_use || name == NULL) // can't do this when GUI not running return NOFONT; font = XLoadQueryFont(gui.dpy, (char *)name); if (font == NULL) { if (giveErrorIfMissing) semsg(_(e_font), name); return NOFONT; } #ifdef DEBUG printf("Font Information for '%s':\n", name); printf(" w = %d, h = %d, ascent = %d, descent = %d\n", font->max_bounds.width, font->ascent + font->descent, font->ascent, font->descent); printf(" max ascent = %d, max descent = %d, max h = %d\n", font->max_bounds.ascent, font->max_bounds.descent, font->max_bounds.ascent + font->max_bounds.descent); printf(" min lbearing = %d, min rbearing = %d\n", font->min_bounds.lbearing, font->min_bounds.rbearing); printf(" max lbearing = %d, max rbearing = %d\n", font->max_bounds.lbearing, font->max_bounds.rbearing); printf(" leftink = %d, rightink = %d\n", (font->min_bounds.lbearing < 0), (font->max_bounds.rbearing > font->max_bounds.width)); printf("\n"); #endif if (font->max_bounds.width != font->min_bounds.width) { semsg(_(e_fontwidth), name); XFreeFont(gui.dpy, font); return NOFONT; } return (GuiFont)font; } #if defined(FEAT_EVAL) || defined(PROTO) /* * Return the name of font "font" in allocated memory. */ char_u * gui_mch_get_fontname(GuiFont font, char_u *name) { char_u *ret = NULL; if (name != NULL && font == NULL) { // In this case, there's no way other than doing this. ret = vim_strsave(name); } else if (font != NULL) { // In this case, try to retrieve the XLFD corresponding to 'font'->fid; // if failed, use 'name' unless it's NULL. unsigned long value = 0L; if (XGetFontProperty(font, XA_FONT, &value)) { char *xa_font_name = NULL; xa_font_name = XGetAtomName(gui.dpy, value); if (xa_font_name != NULL) { ret = vim_strsave((char_u *)xa_font_name); XFree(xa_font_name); } else if (name != NULL) ret = vim_strsave(name); } else if (name != NULL) ret = vim_strsave(name); } return ret; } #endif /* * Adjust gui.char_height (after 'linespace' was changed). */ int gui_mch_adjust_charheight(void) { #ifdef FEAT_XFONTSET if (gui.fontset != NOFONTSET) { gui.char_height = fontset_height((XFontSet)gui.fontset) + p_linespace; gui.char_ascent = fontset_ascent((XFontSet)gui.fontset) + p_linespace / 2; } else #endif { XFontStruct *font = (XFontStruct *)gui.norm_font; gui.char_height = font->ascent + font->descent + p_linespace; gui.char_ascent = font->ascent + p_linespace / 2; } return OK; } /* * Set the current text font. */ void gui_mch_set_font(GuiFont font) { static Font prev_font = (Font)-1; Font fid = ((XFontStruct *)font)->fid; if (fid != prev_font) { XSetFont(gui.dpy, gui.text_gc, fid); XSetFont(gui.dpy, gui.back_gc, fid); prev_font = fid; gui.char_ascent = ((XFontStruct *)font)->ascent + p_linespace / 2; } #ifdef FEAT_XFONTSET current_fontset = (XFontSet)NULL; #endif } #if defined(FEAT_XFONTSET) || defined(PROTO) /* * Set the current text fontset. * Adjust the ascent, in case it's different. */ void gui_mch_set_fontset(GuiFontset fontset) { current_fontset = (XFontSet)fontset; gui.char_ascent = fontset_ascent(current_fontset) + p_linespace / 2; } #endif /* * If a font is not going to be used, free its structure. */ void gui_mch_free_font(GuiFont font) { if (font != NOFONT) XFreeFont(gui.dpy, (XFontStruct *)font); } #if defined(FEAT_XFONTSET) || defined(PROTO) /* * If a fontset is not going to be used, free its structure. */ void gui_mch_free_fontset(GuiFontset fontset) { if (fontset != NOFONTSET) XFreeFontSet(gui.dpy, (XFontSet)fontset); } /* * Load the fontset "name". * Return a reference to the fontset, or NOFONTSET when failing. */ GuiFontset gui_mch_get_fontset( char_u *name, int giveErrorIfMissing, int fixed_width) { XFontSet fontset; char **missing, *def_str; int num_missing; if (!gui.in_use || name == NULL) return NOFONTSET; fontset = XCreateFontSet(gui.dpy, (char *)name, &missing, &num_missing, &def_str); if (num_missing > 0) { int i; if (giveErrorIfMissing) { semsg(_("E250: Fonts for the following charsets are missing in fontset %s:"), name); for (i = 0; i < num_missing; i++) semsg("%s", missing[i]); } XFreeStringList(missing); } if (fontset == NULL) { if (giveErrorIfMissing) semsg(_(e_fontset), name); return NOFONTSET; } if (fixed_width && check_fontset_sanity(fontset) == FAIL) { XFreeFontSet(gui.dpy, fontset); return NOFONTSET; } return (GuiFontset)fontset; } /* * Check if fontset "fs" is fixed width. */ static int check_fontset_sanity(XFontSet fs) { XFontStruct **xfs; char **font_name; int fn; char *base_name; int i; int min_width; int min_font_idx = 0; base_name = XBaseFontNameListOfFontSet(fs); fn = XFontsOfFontSet(fs, &xfs, &font_name); for (i = 0; i < fn; i++) { if (xfs[i]->max_bounds.width != xfs[i]->min_bounds.width) { semsg(_("E252: Fontset name: %s"), base_name); semsg(_("Font '%s' is not fixed-width"), font_name[i]); return FAIL; } } // scan base font width min_width = 32767; for (i = 0; i < fn; i++) { if (xfs[i]->max_bounds.widthmax_bounds.width; min_font_idx = i; } } for (i = 0; i < fn; i++) { if ( xfs[i]->max_bounds.width != 2 * min_width && xfs[i]->max_bounds.width != min_width) { semsg(_("E253: Fontset name: %s"), base_name); semsg(_("Font0: %s"), font_name[min_font_idx]); semsg(_("Font%d: %s"), i, font_name[i]); semsg(_("Font%d width is not twice that of font0"), i); semsg(_("Font0 width: %d"), (int)xfs[min_font_idx]->max_bounds.width); semsg(_("Font%d width: %d"), i, (int)xfs[i]->max_bounds.width); return FAIL; } } // it seems ok. Good Luck!! return OK; } static int fontset_width(XFontSet fs) { return XmbTextEscapement(fs, "Vim", 3) / 3; } int fontset_height( XFontSet fs) { XFontSetExtents *extents; extents = XExtentsOfFontSet(fs); return extents->max_logical_extent.height; } #if (defined(FONTSET_ALWAYS) && defined(FEAT_GUI_ATHENA) \ && defined(FEAT_MENU)) || defined(PROTO) /* * Returns the bounding box height around the actual glyph image of all * characters in all fonts of the fontset. */ int fontset_height2(XFontSet fs) { XFontSetExtents *extents; extents = XExtentsOfFontSet(fs); return extents->max_ink_extent.height; } #endif #if 0 // NOT USED YET static int fontset_descent(XFontSet fs) { XFontSetExtents *extents; extents = XExtentsOfFontSet (fs); return extents->max_logical_extent.height + extents->max_logical_extent.y; } #endif static int fontset_ascent(XFontSet fs) { XFontSetExtents *extents; extents = XExtentsOfFontSet(fs); return -extents->max_logical_extent.y; } #endif // FEAT_XFONTSET /* * Return the Pixel value (color) for the given color name. * Return INVALCOLOR for error. */ guicolor_T gui_mch_get_color(char_u *name) { guicolor_T requested; // can't do this when GUI not running if (!gui.in_use || name == NULL || *name == NUL) return INVALCOLOR; requested = gui_get_color_cmn(name); if (requested == INVALCOLOR) return INVALCOLOR; return gui_mch_get_rgb_color( (requested & 0xff0000) >> 16, (requested & 0xff00) >> 8, requested & 0xff); } /* * Return the Pixel value (color) for the given RGB values. * Return INVALCOLOR for error. */ guicolor_T gui_mch_get_rgb_color(int r, int g, int b) { XColor available; Colormap colormap; #if 0 // Using XParseColor() is very slow, put rgb in XColor directly. char spec[8]; // space enough to hold "#RRGGBB" vim_snprintf(spec, sizeof(spec), "#%.2x%.2x%.2x", r, g, b); if (XParseColor(gui.dpy, colormap, (char *)spec, &available) != 0 && XAllocColor(gui.dpy, colormap, &available) != 0) return (guicolor_T)available.pixel; #endif colormap = DefaultColormap(gui.dpy, DefaultScreen(gui.dpy)); CLEAR_FIELD(available); available.red = r << 8; available.green = g << 8; available.blue = b << 8; if (XAllocColor(gui.dpy, colormap, &available) != 0) return (guicolor_T)available.pixel; return INVALCOLOR; } /* * Set the current text foreground color. */ void gui_mch_set_fg_color(guicolor_T color) { if (color != prev_fg_color) { XSetForeground(gui.dpy, gui.text_gc, (Pixel)color); prev_fg_color = color; } } /* * Set the current text background color. */ void gui_mch_set_bg_color(guicolor_T color) { if (color != prev_bg_color) { XSetBackground(gui.dpy, gui.text_gc, (Pixel)color); prev_bg_color = color; } } /* * Set the current text special color. */ void gui_mch_set_sp_color(guicolor_T color) { prev_sp_color = color; } /* * create a mouse pointer that is blank */ static Cursor gui_x11_create_blank_mouse(void) { Pixmap blank_pixmap = XCreatePixmap(gui.dpy, gui.wid, 1, 1, 1); GC gc = XCreateGC(gui.dpy, blank_pixmap, (unsigned long)0, (XGCValues*)0); XDrawPoint(gui.dpy, blank_pixmap, gc, 0, 0); XFreeGC(gui.dpy, gc); return XCreatePixmapCursor(gui.dpy, blank_pixmap, blank_pixmap, (XColor*)&gui.norm_pixel, (XColor*)&gui.norm_pixel, 0, 0); } /* * Draw a curled line at the bottom of the character cell. */ static void draw_curl(int row, int col, int cells) { int i; int offset; static const int val[8] = {1, 0, 0, 0, 1, 2, 2, 2 }; XSetForeground(gui.dpy, gui.text_gc, prev_sp_color); for (i = FILL_X(col); i < FILL_X(col + cells); ++i) { offset = val[i % 8]; XDrawPoint(gui.dpy, gui.wid, gui.text_gc, i, FILL_Y(row + 1) - 1 - offset); } XSetForeground(gui.dpy, gui.text_gc, prev_fg_color); } void gui_mch_draw_string( int row, int col, char_u *s, int len, int flags) { int cells = len; static void *buf = NULL; static int buflen = 0; char_u *p; int wlen = 0; int c; if (enc_utf8) { // Convert UTF-8 byte sequence to 16 bit characters for the X // functions. Need a buffer for the 16 bit characters. Keep it // between calls, because allocating it each time is slow. if (buflen < len) { XtFree((char *)buf); buf = (void *)XtMalloc(len * (sizeof(XChar2b) < sizeof(wchar_t) ? sizeof(wchar_t) : sizeof(XChar2b))); buflen = len; } p = s; cells = 0; while (p < s + len) { c = utf_ptr2char(p); #ifdef FEAT_XFONTSET if (current_fontset != NULL) { # ifdef SMALL_WCHAR_T if (c >= 0x10000) c = 0xbf; // show chars > 0xffff as ? # endif ((wchar_t *)buf)[wlen] = c; } else #endif { if (c >= 0x10000) c = 0xbf; // show chars > 0xffff as ? ((XChar2b *)buf)[wlen].byte1 = (unsigned)c >> 8; ((XChar2b *)buf)[wlen].byte2 = c; } ++wlen; cells += utf_char2cells(c); p += utf_ptr2len(p); } } else if (has_mbyte) { cells = 0; for (p = s; p < s + len; ) { cells += ptr2cells(p); p += (*mb_ptr2len)(p); } } #ifdef FEAT_XFONTSET if (current_fontset != NULL) { // Setup a clip rectangle to avoid spilling over in the next or // previous line. This is apparently needed for some fonts which are // used in a fontset. XRectangle clip; clip.x = 0; clip.y = 0; clip.height = gui.char_height; clip.width = gui.char_width * cells + 1; XSetClipRectangles(gui.dpy, gui.text_gc, FILL_X(col), FILL_Y(row), &clip, 1, Unsorted); } #endif if (flags & DRAW_TRANSP) { if (enc_utf8) XDrawString16(gui.dpy, gui.wid, gui.text_gc, TEXT_X(col), TEXT_Y(row), buf, wlen); else XDrawString(gui.dpy, gui.wid, gui.text_gc, TEXT_X(col), TEXT_Y(row), (char *)s, len); } else if (p_linespace != 0 #ifdef FEAT_XFONTSET || current_fontset != NULL #endif ) { XSetForeground(gui.dpy, gui.text_gc, prev_bg_color); XFillRectangle(gui.dpy, gui.wid, gui.text_gc, FILL_X(col), FILL_Y(row), gui.char_width * cells, gui.char_height); XSetForeground(gui.dpy, gui.text_gc, prev_fg_color); if (enc_utf8) XDrawString16(gui.dpy, gui.wid, gui.text_gc, TEXT_X(col), TEXT_Y(row), buf, wlen); else XDrawString(gui.dpy, gui.wid, gui.text_gc, TEXT_X(col), TEXT_Y(row), (char *)s, len); } else { // XmbDrawImageString has bug, don't use it for fontset. if (enc_utf8) XDrawImageString16(gui.dpy, gui.wid, gui.text_gc, TEXT_X(col), TEXT_Y(row), buf, wlen); else XDrawImageString(gui.dpy, gui.wid, gui.text_gc, TEXT_X(col), TEXT_Y(row), (char *)s, len); } // Bold trick: draw the text again with a one-pixel offset. if (flags & DRAW_BOLD) { if (enc_utf8) XDrawString16(gui.dpy, gui.wid, gui.text_gc, TEXT_X(col) + 1, TEXT_Y(row), buf, wlen); else XDrawString(gui.dpy, gui.wid, gui.text_gc, TEXT_X(col) + 1, TEXT_Y(row), (char *)s, len); } // Undercurl: draw curl at the bottom of the character cell. if (flags & DRAW_UNDERC) draw_curl(row, col, cells); // Underline: draw a line at the bottom of the character cell. if (flags & DRAW_UNDERL) { int y = FILL_Y(row + 1) - 1; // When p_linespace is 0, overwrite the bottom row of pixels. // Otherwise put the line just below the character. if (p_linespace > 1) y -= p_linespace - 1; XDrawLine(gui.dpy, gui.wid, gui.text_gc, FILL_X(col), y, FILL_X(col + cells) - 1, y); } if (flags & DRAW_STRIKE) { int y = FILL_Y(row + 1) - gui.char_height/2; XSetForeground(gui.dpy, gui.text_gc, prev_sp_color); XDrawLine(gui.dpy, gui.wid, gui.text_gc, FILL_X(col), y, FILL_X(col + cells) - 1, y); XSetForeground(gui.dpy, gui.text_gc, prev_fg_color); } #ifdef FEAT_XFONTSET if (current_fontset != NULL) XSetClipMask(gui.dpy, gui.text_gc, None); #endif } /* * Return OK if the key with the termcap name "name" is supported. */ int gui_mch_haskey(char_u *name) { int i; for (i = 0; special_keys[i].key_sym != (KeySym)0; i++) if (name[0] == special_keys[i].vim_code0 && name[1] == special_keys[i].vim_code1) return OK; return FAIL; } /* * Return the text window-id and display. Only required for X-based GUI's */ int gui_get_x11_windis(Window *win, Display **dis) { *win = XtWindow(vimShell); *dis = gui.dpy; return OK; } void gui_mch_beep(void) { XBell(gui.dpy, 0); } void gui_mch_flash(int msec) { // Do a visual beep by reversing the foreground and background colors XFillRectangle(gui.dpy, gui.wid, gui.invert_gc, 0, 0, FILL_X((int)Columns) + gui.border_offset, FILL_Y((int)Rows) + gui.border_offset); XSync(gui.dpy, False); ui_delay((long)msec, TRUE); // wait for a few msec XFillRectangle(gui.dpy, gui.wid, gui.invert_gc, 0, 0, FILL_X((int)Columns) + gui.border_offset, FILL_Y((int)Rows) + gui.border_offset); } /* * Invert a rectangle from row r, column c, for nr rows and nc columns. */ void gui_mch_invert_rectangle( int r, int c, int nr, int nc) { XFillRectangle(gui.dpy, gui.wid, gui.invert_gc, FILL_X(c), FILL_Y(r), (nc) * gui.char_width, (nr) * gui.char_height); } /* * Iconify the GUI window. */ void gui_mch_iconify(void) { XIconifyWindow(gui.dpy, XtWindow(vimShell), DefaultScreen(gui.dpy)); } #if defined(FEAT_EVAL) || defined(PROTO) /* * Bring the Vim window to the foreground. */ void gui_mch_set_foreground(void) { XMapRaised(gui.dpy, XtWindow(vimShell)); } #endif /* * Draw a cursor without focus. */ void gui_mch_draw_hollow_cursor(guicolor_T color) { int w = 1; if (mb_lefthalve(gui.row, gui.col)) w = 2; gui_mch_set_fg_color(color); XDrawRectangle(gui.dpy, gui.wid, gui.text_gc, FILL_X(gui.col), FILL_Y(gui.row), w * gui.char_width - 1, gui.char_height - 1); } /* * Draw part of a cursor, "w" pixels wide, and "h" pixels high, using * color "color". */ void gui_mch_draw_part_cursor(int w, int h, guicolor_T color) { gui_mch_set_fg_color(color); XFillRectangle(gui.dpy, gui.wid, gui.text_gc, #ifdef FEAT_RIGHTLEFT // vertical line should be on the right of current point CURSOR_BAR_RIGHT ? FILL_X(gui.col + 1) - w : #endif FILL_X(gui.col), FILL_Y(gui.row) + gui.char_height - h, w, h); } /* * Catch up with any queued X events. This may put keyboard input into the * input buffer, call resize call-backs, trigger timers etc. If there is * nothing in the X event queue (& no timers pending), then we return * immediately. */ void gui_mch_update(void) { XtInputMask mask, desired; #ifdef ALT_X_INPUT if (suppress_alternate_input) desired = (XtIMXEvent | XtIMTimer); else #endif desired = (XtIMAll); while ((mask = XtAppPending(app_context)) && (mask & desired) && !vim_is_input_buf_full()) XtAppProcessEvent(app_context, desired); } /* * GUI input routine called by gui_wait_for_chars(). Waits for a character * from the keyboard. * wtime == -1 Wait forever. * wtime == 0 This should never happen. * wtime > 0 Wait wtime milliseconds for a character. * Returns OK if a character was found to be available within the given time, * or FAIL otherwise. */ int gui_mch_wait_for_chars(long wtime) { int focus; int retval = FAIL; /* * Make this static, in case gui_x11_timer_cb is called after leaving * this function (otherwise a random value on the stack may be changed). */ static int timed_out; XtIntervalId timer = (XtIntervalId)0; XtInputMask desired; #ifdef FEAT_JOB_CHANNEL XtIntervalId channel_timer = (XtIntervalId)0; #endif timed_out = FALSE; if (wtime >= 0) timer = XtAppAddTimeOut(app_context, (long_u)(wtime == 0 ? 1L : wtime), gui_x11_timer_cb, &timed_out); #ifdef FEAT_JOB_CHANNEL // If there is a channel with the keep_open flag we need to poll for input // on them. if (channel_any_keep_open()) channel_timer = XtAppAddTimeOut(app_context, (long_u)20, channel_poll_cb, (XtPointer)&channel_timer); #endif focus = gui.in_focus; desired = (XtIMAll); while (!timed_out) { // Stop or start blinking when focus changes if (gui.in_focus != focus) { if (gui.in_focus) gui_mch_start_blink(); else gui_mch_stop_blink(TRUE); focus = gui.in_focus; } #ifdef MESSAGE_QUEUE # ifdef FEAT_TIMERS did_add_timer = FALSE; # endif parse_queued_messages(); # ifdef FEAT_TIMERS if (did_add_timer) // Need to recompute the waiting time. break; # endif #endif /* * Don't use gui_mch_update() because then we will spin-lock until a * char arrives, instead we use XtAppProcessEvent() to hang until an * event arrives. No need to check for input_buf_full because we are * returning as soon as it contains a single char. Note that * XtAppNextEvent() may not be used because it will not return after a * timer event has arrived -- webb */ XtAppProcessEvent(app_context, desired); if (input_available()) { retval = OK; break; } } if (timer != (XtIntervalId)0 && !timed_out) XtRemoveTimeOut(timer); #ifdef FEAT_JOB_CHANNEL if (channel_timer != (XtIntervalId)0) XtRemoveTimeOut(channel_timer); #endif return retval; } /* * Output routines. */ /* * Flush any output to the screen */ void gui_mch_flush(void) { XFlush(gui.dpy); } /* * Clear a rectangular region of the screen from text pos (row1, col1) to * (row2, col2) inclusive. */ void gui_mch_clear_block( int row1, int col1, int row2, int col2) { int x; x = FILL_X(col1); // Clear one extra pixel at the far right, for when bold characters have // spilled over to the next column. XFillRectangle(gui.dpy, gui.wid, gui.back_gc, x, FILL_Y(row1), (col2 - col1 + 1) * gui.char_width + (col2 == Columns - 1), (row2 - row1 + 1) * gui.char_height); } void gui_mch_clear_all(void) { XClearArea(gui.dpy, gui.wid, 0, 0, 0, 0, False); } /* * Delete the given number of lines from the given row, scrolling up any * text further down within the scroll region. */ void gui_mch_delete_lines(int row, int num_lines) { if (gui.visibility == VisibilityFullyObscured) return; // Can't see the window // copy one extra pixel at the far right, for when bold has spilled // over XCopyArea(gui.dpy, gui.wid, gui.wid, gui.text_gc, FILL_X(gui.scroll_region_left), FILL_Y(row + num_lines), gui.char_width * (gui.scroll_region_right - gui.scroll_region_left + 1) + (gui.scroll_region_right == Columns - 1), gui.char_height * (gui.scroll_region_bot - row - num_lines + 1), FILL_X(gui.scroll_region_left), FILL_Y(row)); gui_clear_block(gui.scroll_region_bot - num_lines + 1, gui.scroll_region_left, gui.scroll_region_bot, gui.scroll_region_right); gui_x11_check_copy_area(); } /* * Insert the given number of lines before the given row, scrolling down any * following text within the scroll region. */ void gui_mch_insert_lines(int row, int num_lines) { if (gui.visibility == VisibilityFullyObscured) return; // Can't see the window // copy one extra pixel at the far right, for when bold has spilled // over XCopyArea(gui.dpy, gui.wid, gui.wid, gui.text_gc, FILL_X(gui.scroll_region_left), FILL_Y(row), gui.char_width * (gui.scroll_region_right - gui.scroll_region_left + 1) + (gui.scroll_region_right == Columns - 1), gui.char_height * (gui.scroll_region_bot - row - num_lines + 1), FILL_X(gui.scroll_region_left), FILL_Y(row + num_lines)); gui_clear_block(row, gui.scroll_region_left, row + num_lines - 1, gui.scroll_region_right); gui_x11_check_copy_area(); } /* * Update the region revealed by scrolling up/down. */ static void gui_x11_check_copy_area(void) { XEvent event; XGraphicsExposeEvent *gevent; if (gui.visibility != VisibilityPartiallyObscured) return; XFlush(gui.dpy); // Wait to check whether the scroll worked or not for (;;) { if (XCheckTypedEvent(gui.dpy, NoExpose, &event)) return; // The scroll worked. if (XCheckTypedEvent(gui.dpy, GraphicsExpose, &event)) { gevent = (XGraphicsExposeEvent *)&event; gui_redraw(gevent->x, gevent->y, gevent->width, gevent->height); if (gevent->count == 0) return; // This was the last expose event } XSync(gui.dpy, False); } } /* * X Selection stuff, for cutting and pasting text to other windows. */ void clip_mch_lose_selection(Clipboard_T *cbd) { clip_x11_lose_selection(vimShell, cbd); } int clip_mch_own_selection(Clipboard_T *cbd) { return clip_x11_own_selection(vimShell, cbd); } void clip_mch_request_selection(Clipboard_T *cbd) { clip_x11_request_selection(vimShell, gui.dpy, cbd); } void clip_mch_set_selection( Clipboard_T *cbd) { clip_x11_set_selection(cbd); } #if defined(FEAT_MENU) || defined(PROTO) /* * Menu stuff. */ /* * Make a menu either grey or not grey. */ void gui_mch_menu_grey(vimmenu_T *menu, int grey) { if (menu->id != (Widget)0) { gui_mch_menu_hidden(menu, False); if (grey #ifdef FEAT_GUI_MOTIF || !menu->sensitive #endif ) XtSetSensitive(menu->id, False); else XtSetSensitive(menu->id, True); } } /* * Make menu item hidden or not hidden */ void gui_mch_menu_hidden(vimmenu_T *menu, int hidden) { if (menu->id != (Widget)0) { if (hidden) XtUnmanageChild(menu->id); else XtManageChild(menu->id); } } /* * This is called after setting all the menus to grey/hidden or not. */ void gui_mch_draw_menubar(void) { // Nothing to do in X } void gui_x11_menu_cb( Widget w UNUSED, XtPointer client_data, XtPointer call_data UNUSED) { gui_menu_cb((vimmenu_T *)client_data); } #endif // FEAT_MENU /* * Function called when window closed. Works like ":qa". * Should put up a requester! */ static void gui_x11_wm_protocol_handler( Widget w UNUSED, XtPointer client_data UNUSED, XEvent *event, Boolean *dum UNUSED) { /* * Only deal with Client messages. */ if (event->type != ClientMessage) return; /* * The WM_SAVE_YOURSELF event arrives when the window manager wants to * exit. That can be cancelled though, thus Vim shouldn't exit here. * Just sync our swap files. */ if ((Atom)((XClientMessageEvent *)event)->data.l[0] == wm_atoms[SAVE_YOURSELF_IDX]) { out_flush(); ml_sync_all(FALSE, FALSE); // preserve all swap files // Set the window's WM_COMMAND property, to let the window manager // know we are done saving ourselves. We don't want to be restarted, // thus set argv to NULL. XSetCommand(gui.dpy, XtWindow(vimShell), NULL, 0); return; } if ((Atom)((XClientMessageEvent *)event)->data.l[0] != wm_atoms[DELETE_WINDOW_IDX]) return; gui_shell_closed(); } #ifdef FEAT_CLIENTSERVER /* * Function called when property changed. Check for incoming commands */ static void gui_x11_send_event_handler( Widget w UNUSED, XtPointer client_data UNUSED, XEvent *event, Boolean *dum UNUSED) { XPropertyEvent *e = (XPropertyEvent *) event; if (e->type == PropertyNotify && e->window == commWindow && e->atom == commProperty && e->state == PropertyNewValue) serverEventProc(gui.dpy, event, 0); } #endif /* * Cursor blink functions. * * This is a simple state machine: * BLINK_NONE not blinking at all * BLINK_OFF blinking, cursor is not shown * BLINK_ON blinking, cursor is shown */ #define BLINK_NONE 0 #define BLINK_OFF 1 #define BLINK_ON 2 static int blink_state = BLINK_NONE; static long_u blink_waittime = 700; static long_u blink_ontime = 400; static long_u blink_offtime = 250; static XtIntervalId blink_timer = (XtIntervalId)0; int gui_mch_is_blinking(void) { return blink_state != BLINK_NONE; } int gui_mch_is_blink_off(void) { return blink_state == BLINK_OFF; } void gui_mch_set_blinking(long waittime, long on, long off) { blink_waittime = waittime; blink_ontime = on; blink_offtime = off; } /* * Stop the cursor blinking. Show the cursor if it wasn't shown. */ void gui_mch_stop_blink(int may_call_gui_update_cursor) { if (blink_timer != (XtIntervalId)0) { XtRemoveTimeOut(blink_timer); blink_timer = (XtIntervalId)0; } if (blink_state == BLINK_OFF && may_call_gui_update_cursor) gui_update_cursor(TRUE, FALSE); blink_state = BLINK_NONE; } static void gui_x11_blink_cb( XtPointer timed_out UNUSED, XtIntervalId *interval_id UNUSED) { if (blink_state == BLINK_ON) { gui_undraw_cursor(); blink_state = BLINK_OFF; blink_timer = XtAppAddTimeOut(app_context, blink_offtime, gui_x11_blink_cb, NULL); } else { gui_update_cursor(TRUE, FALSE); blink_state = BLINK_ON; blink_timer = XtAppAddTimeOut(app_context, blink_ontime, gui_x11_blink_cb, NULL); } } /* * Start the cursor blinking. If it was already blinking, this restarts the * waiting time and shows the cursor. */ void gui_mch_start_blink(void) { if (blink_timer != (XtIntervalId)0) XtRemoveTimeOut(blink_timer); // Only switch blinking on if none of the times is zero if (blink_waittime && blink_ontime && blink_offtime && gui.in_focus) { blink_timer = XtAppAddTimeOut(app_context, blink_waittime, gui_x11_blink_cb, NULL); blink_state = BLINK_ON; gui_update_cursor(TRUE, FALSE); } } /* * Return the RGB value of a pixel as a long. */ guicolor_T gui_mch_get_rgb(guicolor_T pixel) { XColor xc; Colormap colormap; colormap = DefaultColormap(gui.dpy, XDefaultScreen(gui.dpy)); xc.pixel = pixel; XQueryColor(gui.dpy, colormap, &xc); return (guicolor_T)(((xc.red & 0xff00) << 8) + (xc.green & 0xff00) + ((unsigned)xc.blue >> 8)); } /* * Add the callback functions. */ void gui_x11_callbacks(Widget textArea, Widget vimForm) { XtAddEventHandler(textArea, VisibilityChangeMask, FALSE, gui_x11_visibility_cb, (XtPointer)0); XtAddEventHandler(textArea, ExposureMask, FALSE, gui_x11_expose_cb, (XtPointer)0); XtAddEventHandler(vimShell, StructureNotifyMask, FALSE, gui_x11_resize_window_cb, (XtPointer)0); XtAddEventHandler(vimShell, FocusChangeMask, FALSE, gui_x11_focus_change_cb, (XtPointer)0); /* * Only install these enter/leave callbacks when 'p' in 'guioptions'. * Only needed for some window managers. */ if (vim_strchr(p_go, GO_POINTER) != NULL) { XtAddEventHandler(vimShell, LeaveWindowMask, FALSE, gui_x11_leave_cb, (XtPointer)0); XtAddEventHandler(textArea, LeaveWindowMask, FALSE, gui_x11_leave_cb, (XtPointer)0); XtAddEventHandler(textArea, EnterWindowMask, FALSE, gui_x11_enter_cb, (XtPointer)0); XtAddEventHandler(vimShell, EnterWindowMask, FALSE, gui_x11_enter_cb, (XtPointer)0); } XtAddEventHandler(vimForm, KeyPressMask, FALSE, gui_x11_key_hit_cb, (XtPointer)0); XtAddEventHandler(textArea, KeyPressMask, FALSE, gui_x11_key_hit_cb, (XtPointer)0); // get pointer moved events from scrollbar, needed for 'mousefocus' XtAddEventHandler(vimForm, PointerMotionMask, FALSE, gui_x11_mouse_cb, (XtPointer)1); XtAddEventHandler(textArea, ButtonPressMask | ButtonReleaseMask | ButtonMotionMask | PointerMotionMask, FALSE, gui_x11_mouse_cb, (XtPointer)0); } /* * Get current mouse coordinates in text window. */ void gui_mch_getmouse(int *x, int *y) { int rootx, rooty, winx, winy; Window root, child; unsigned int mask; if (gui.wid && XQueryPointer(gui.dpy, gui.wid, &root, &child, &rootx, &rooty, &winx, &winy, &mask)) { *x = winx; *y = winy; } else { *x = -1; *y = -1; } } void gui_mch_setmouse(int x, int y) { if (gui.wid) XWarpPointer(gui.dpy, (Window)0, gui.wid, 0, 0, 0, 0, x, y); } #if (defined(FEAT_GUI_MOTIF) && defined(FEAT_MENU)) || defined(PROTO) XButtonPressedEvent * gui_x11_get_last_mouse_event(void) { return &last_mouse_event; } #endif #if defined(FEAT_SIGN_ICONS) || defined(PROTO) // Signs are currently always 2 chars wide. Hopefully the font is big enough // to provide room for the bitmap! # define SIGN_WIDTH (gui.char_width * 2) void gui_mch_drawsign(int row, int col, int typenr) { XImage *sign; if (gui.in_use && (sign = (XImage *)sign_get_image(typenr)) != NULL) { XClearArea(gui.dpy, gui.wid, TEXT_X(col), TEXT_Y(row) - sign->height, SIGN_WIDTH, gui.char_height, FALSE); XPutImage(gui.dpy, gui.wid, gui.text_gc, sign, 0, 0, TEXT_X(col) + (SIGN_WIDTH - sign->width) / 2, TEXT_Y(row) - sign->height, sign->width, sign->height); } } void * gui_mch_register_sign(char_u *signfile) { XpmAttributes attrs; XImage *sign = NULL; int status; /* * Setup the color substitution table. */ if (signfile[0] != NUL && signfile[0] != '-') { XpmColorSymbol color[5] = { {"none", NULL, 0}, {"iconColor1", NULL, 0}, {"bottomShadowColor", NULL, 0}, {"topShadowColor", NULL, 0}, {"selectColor", NULL, 0} }; attrs.valuemask = XpmColorSymbols; attrs.numsymbols = 2; attrs.colorsymbols = color; attrs.colorsymbols[0].pixel = gui.back_pixel; attrs.colorsymbols[1].pixel = gui.norm_pixel; status = XpmReadFileToImage(gui.dpy, (char *)signfile, &sign, NULL, &attrs); if (status == 0) { // Sign width is fixed at two columns now. // if (sign->width > gui.sign_width) // gui.sign_width = sign->width + 8; } else emsg(_(e_signdata)); } return (void *)sign; } void gui_mch_destroy_sign(void *sign) { XDestroyImage((XImage*)sign); } #endif #ifdef FEAT_MOUSESHAPE // The last set mouse pointer shape is remembered, to be used when it goes // from hidden to not hidden. static int last_shape = 0; #endif /* * Use the blank mouse pointer or not. */ void gui_mch_mousehide( int hide) // TRUE = use blank ptr, FALSE = use parent ptr { if (gui.pointer_hidden != hide) { gui.pointer_hidden = hide; if (hide) XDefineCursor(gui.dpy, gui.wid, gui.blank_pointer); else #ifdef FEAT_MOUSESHAPE mch_set_mouse_shape(last_shape); #else XUndefineCursor(gui.dpy, gui.wid); #endif } } #if defined(FEAT_MOUSESHAPE) || defined(PROTO) // Table for shape IDs. Keep in sync with the mshape_names[] table in // misc2.c! static int mshape_ids[] = { XC_left_ptr, // arrow 0, // blank XC_xterm, // beam XC_sb_v_double_arrow, // updown XC_sizing, // udsizing XC_sb_h_double_arrow, // leftright XC_sizing, // lrsizing XC_watch, // busy XC_X_cursor, // no XC_crosshair, // crosshair XC_hand1, // hand1 XC_hand2, // hand2 XC_pencil, // pencil XC_question_arrow, // question XC_right_ptr, // right-arrow XC_center_ptr, // up-arrow XC_left_ptr // last one }; void mch_set_mouse_shape(int shape) { int id; if (!gui.in_use) return; if (shape == MSHAPE_HIDE || gui.pointer_hidden) XDefineCursor(gui.dpy, gui.wid, gui.blank_pointer); else { if (shape >= MSHAPE_NUMBERED) { id = shape - MSHAPE_NUMBERED; if (id >= XC_num_glyphs) id = XC_left_ptr; else id &= ~1; // they are always even (why?) } else id = mshape_ids[shape]; XDefineCursor(gui.dpy, gui.wid, XCreateFontCursor(gui.dpy, id)); } if (shape != MSHAPE_HIDE) last_shape = shape; } #endif #if (defined(FEAT_TOOLBAR) && defined(FEAT_BEVAL_GUI)) || defined(PROTO) /* * Set the balloon-eval used for the tooltip of a toolbar menu item. * The check for a non-toolbar item was added, because there is a crash when * passing a normal menu item here. Can't explain that, but better avoid it. */ void gui_mch_menu_set_tip(vimmenu_T *menu) { if (menu->id != NULL && menu->parent != NULL && menu_is_toolbar(menu->parent->name)) { // Always destroy and create the balloon, in case the string was // changed. if (menu->tip != NULL) { gui_mch_destroy_beval_area(menu->tip); menu->tip = NULL; } if (menu->strings[MENU_INDEX_TIP] != NULL) menu->tip = gui_mch_create_beval_area( menu->id, menu->strings[MENU_INDEX_TIP], NULL, NULL); } } #endif