///////////////////////////////////////////////////////////////////////// // $Id$ ///////////////////////////////////////////////////////////////////////// // // Copyright (C) 2001-2014 The Bochs Project // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Lesser General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA #define XK_PUBLISHING #define XK_TECHNICAL // Define BX_PLUGGABLE in files that can be compiled into plugins. For // platforms that require a special tag on exported symbols, BX_PLUGGABLE // is used to know when we are exporting symbols and when we are importing. #define BX_PLUGGABLE #include "bochs.h" #include "param_names.h" #include "keymap.h" #include "iodev.h" #include "enh_dbg.h" #if BX_WITH_X11 extern "C" { #include #include #include #include #include #include #if BX_HAVE_XPM_H #include #endif } #if BX_HAVE_XPM_H #include "icon_bochs.xpm" #else #include "icon_bochs.h" #endif #include "font/vga.bitmap.h" class bx_x_gui_c : public bx_gui_c { public: bx_x_gui_c (void); DECLARE_GUI_VIRTUAL_METHODS() DECLARE_GUI_NEW_VIRTUAL_METHODS() #if BX_USE_IDLE_HACK virtual void sim_is_idle(void); #endif virtual void beep_on(float frequency); virtual void beep_off(); virtual void statusbar_setitem_specific(int element, bx_bool active, bx_bool w); virtual void get_capabilities(Bit16u *xres, Bit16u *yres, Bit16u *bpp); virtual void set_mouse_mode_absxy(bx_bool mode); #if BX_SHOW_IPS virtual void show_ips(Bit32u ips_count); #endif }; // declare one instance of the gui object and call macro to insert the // plugin code static bx_x_gui_c *theGui = NULL; IMPLEMENT_GUI_PLUGIN_CODE(x) #define LOG_THIS theGui-> #define MAX_MAPPED_STRING_LENGTH 10 /* These are used as arguments to nearly every Xlib routine, so it saves * routine arguments to declare them global. If there were * additional source files, they would be declared extern there. */ Display *bx_x_display; int bx_x_screen_num; static Visual *default_visual; static Colormap default_cmap; static bx_bool x11_private_colormap; static unsigned long white_pixel=0, black_pixel=0; static char *progname; /* name this program was invoked by */ // text display static unsigned int text_rows=25, text_cols=80; static unsigned font_width, font_height; static Bit8u h_panning = 0, v_panning = 0; static Bit16u line_compare = 1023; static unsigned prev_cursor_x=0; static unsigned prev_cursor_y=0; // graphics display static Window win; static GC gc, gc_inv, gc_headerbar, gc_headerbar_inv; static unsigned dimension_x=0, dimension_y=0; static XImage *ximage = NULL; static unsigned imDepth, imWide, imBPP; // mouse cursor static bx_bool mouse_captured = 0; static int prev_x=-1, prev_y=-1; static int current_x=-1, current_y=-1, current_z=0; static unsigned mouse_button_state = 0; static bx_bool x11_mouse_mode_absxy = 0; static int warp_home_x = 200; static int warp_home_y = 200; static int mouse_enable_x = 0; static int mouse_enable_y = 0; static int warp_dx = 0; static int warp_dy = 0; static void warp_cursor(int dx, int dy); static void disable_cursor(); static void enable_cursor(); // keyboard static bx_bool x11_nokeyrepeat = 0; static bx_bool x11_use_kbd_mapping = 0; static Bit32u convertStringToXKeysym (const char *string); static bx_bool x_init_done = 0; static Pixmap vgafont[256]; static unsigned bx_bitmap_entries = 0; static struct { Pixmap bmap; unsigned xdim; unsigned ydim; } bx_bitmaps[BX_MAX_PIXMAPS]; static struct { Pixmap bitmap; unsigned xdim; unsigned ydim; unsigned xorigin; unsigned yorigin; unsigned alignment; void (*f)(void); } bx_headerbar_entry[BX_MAX_HEADERBAR_ENTRIES]; static unsigned bx_headerbar_y = 0; static unsigned bx_headerbar_entries = 0; static unsigned bx_bitmap_left_xorigin = 0; // pixels from left static unsigned bx_bitmap_right_xorigin = 0; // pixels from right static unsigned bx_statusbar_y = 18; static unsigned bx_statusitem_pos[12] = { 0, 200, 240, 280, 320, 360, 400, 440, 480, 520, 560, 600 }; static bx_bool bx_statusitem_active[12]; static long bx_status_led_green, bx_status_led_red, bx_status_graytext; static char bx_status_info_text[34]; #if BX_SHOW_IPS static bx_bool x11_ips_update = 0, x11_hide_ips = 0; static char x11_ips_text[20]; static Bit8u x11_mouse_msg_counter = 0; #endif static void headerbar_click(int x, int y); static void send_keyboard_mouse_status(void); static void set_status_text(int element, const char *text, bx_bool active, bx_bool w=0); Bit32u ascii_to_key_event[0x5f] = { // !"#$%&' BX_KEY_SPACE, BX_KEY_1, BX_KEY_SINGLE_QUOTE, BX_KEY_3, BX_KEY_4, BX_KEY_5, BX_KEY_7, BX_KEY_SINGLE_QUOTE, // ()*+,-./ BX_KEY_9, BX_KEY_0, BX_KEY_8, BX_KEY_EQUALS, BX_KEY_COMMA, BX_KEY_MINUS, BX_KEY_PERIOD, BX_KEY_SLASH, // 01234567 BX_KEY_0, BX_KEY_1, BX_KEY_2, BX_KEY_3, BX_KEY_4, BX_KEY_5, BX_KEY_6, BX_KEY_7, // 89:;<=>? BX_KEY_8, BX_KEY_9, BX_KEY_SEMICOLON, BX_KEY_SEMICOLON, BX_KEY_COMMA, BX_KEY_EQUALS, BX_KEY_PERIOD, BX_KEY_SLASH, // @ABCDEFG BX_KEY_2, BX_KEY_A, BX_KEY_B, BX_KEY_C, BX_KEY_D, BX_KEY_E, BX_KEY_F, BX_KEY_G, // HIJKLMNO BX_KEY_H, BX_KEY_I, BX_KEY_J, BX_KEY_K, BX_KEY_L, BX_KEY_M, BX_KEY_N, BX_KEY_O, // PQRSTUVW BX_KEY_P, BX_KEY_Q, BX_KEY_R, BX_KEY_S, BX_KEY_T, BX_KEY_U, BX_KEY_V, BX_KEY_W, // XYZ[\]^_ BX_KEY_X, BX_KEY_Y, BX_KEY_Z, BX_KEY_LEFT_BRACKET, BX_KEY_BACKSLASH, BX_KEY_RIGHT_BRACKET, BX_KEY_6, BX_KEY_MINUS, // `abcdefg BX_KEY_GRAVE, BX_KEY_A, BX_KEY_B, BX_KEY_C, BX_KEY_D, BX_KEY_E, BX_KEY_F, BX_KEY_G, // hijklmno BX_KEY_H, BX_KEY_I, BX_KEY_J, BX_KEY_K, BX_KEY_L, BX_KEY_M, BX_KEY_N, BX_KEY_O, // pqrstuvw BX_KEY_P, BX_KEY_Q, BX_KEY_R, BX_KEY_S, BX_KEY_T, BX_KEY_U, BX_KEY_V, BX_KEY_W, // xyz{|}~ BX_KEY_X, BX_KEY_Y, BX_KEY_Z, BX_KEY_LEFT_BRACKET, BX_KEY_BACKSLASH, BX_KEY_RIGHT_BRACKET, BX_KEY_GRAVE }; extern Bit8u graphics_snapshot[32 * 1024]; static void create_internal_vga_font(void); static void xkeypress(KeySym keysym, int press_release); // extern "C" void select_visual(void); #define ROUNDUP(nbytes, pad) ((((nbytes) + ((pad)-1)) / (pad)) * ((pad)>>3)) #define MAX_VGA_COLORS 256 unsigned long col_vals[MAX_VGA_COLORS]; // 256 VGA colors unsigned curr_foreground, curr_background; BxEvent *x11_notify_callback (void *unused, BxEvent *event); static bxevent_handler old_callback = NULL; static void *old_callback_arg = NULL; // Try to allocate NCOLORS at once in the colormap provided. If it can // be done, return true. If not, return false. (In either case, free // up the color cells so that we don't add to the problem!) This is used // to determine whether Bochs should use a private colormap even when the // user did not specify it. static bx_bool test_alloc_colors (Colormap cmap, Bit32u n_tries) { XColor color; unsigned long pixel[MAX_VGA_COLORS]; bx_bool pixel_valid[MAX_VGA_COLORS]; Bit32u n_allocated = 0; Bit32u i; color.flags = DoRed | DoGreen | DoBlue; for (i=0; iget_param_bool(BXPN_PRIVATE_COLORMAP)->get(); if (!x11_private_colormap) { default_cmap = DefaultColormap(bx_x_display, bx_x_screen_num); // try to use default colormap. If not enough colors are available, // then switch to private colormap despite the user setting. There // are too many cases when no colors are available and Bochs simply // draws everything in black on black. if (!test_alloc_colors (default_cmap, 16)) { BX_ERROR (("I can't even allocate 16 colors! Switching to a private colormap")); x11_private_colormap = 1; } col_vals[0] = BlackPixel(bx_x_display, bx_x_screen_num); col_vals[15] = WhitePixel(bx_x_display, bx_x_screen_num); for (i = 1; i < MAX_VGA_COLORS; i++) { if (i==15) continue; col_vals[i] = col_vals[0]; } } if (x11_private_colormap) { default_cmap = XCreateColormap(bx_x_display, DefaultRootWindow(bx_x_display), default_visual, AllocNone); if (XAllocColorCells(bx_x_display, default_cmap, False, plane_masks_return, 0, col_vals, MAX_VGA_COLORS) == 0) { BX_PANIC(("XAllocColorCells returns error. Maybe your screen does not support a private colormap?")); } win_attr.colormap = default_cmap; XChangeWindowAttributes(bx_x_display, win, CWColormap, &win_attr); color.flags = DoRed | DoGreen | DoBlue; for (i=0; i < MAX_VGA_COLORS; i++) { color.pixel = i; if (i==15) { color.red = 0xffff; color.green = 0xffff; color.blue = 0xffff; } else { color.red = 0; color.green = 0; color.blue = 0; } XStoreColor(bx_x_display, default_cmap, &color); } } // convenience variables which hold the black & white color indeces black_pixel = col_vals[0]; white_pixel = col_vals[15]; BX_INFO(("font %u wide x %u high, display depth = %d", (unsigned) font_width, (unsigned) font_height, default_depth)); //select_visual(); /* Get available icon sizes from Window manager */ #if BX_HAVE_XPM_H /* Create pixmap from XPM for icon */ XCreatePixmapFromData(bx_x_display, win, (char **)icon_bochs_xpm, &icon_pixmap, &icon_mask, NULL); #else /* Create pixmap of depth 1 (bitmap) for icon */ icon_pixmap = XCreateBitmapFromData(bx_x_display, win, (char *)bochs_icon_bits, bochs_icon_width, bochs_icon_height); #endif /* Set size hints for window manager. The window manager may * override these settings. Note that in a real * application if size or position were set by the user * the flags would be UPosition and USize, and these would * override the window manager's preferences for this window. */ /* x, y, width, and height hints are now taken from * the actual settings of the window when mapped. Note * that PPosition and PSize must be specified anyway. */ size_hints.flags = PPosition | PSize | PMinSize | PMaxSize; size_hints.max_width = size_hints.min_width = dimension_x; size_hints.max_height = size_hints.min_height = dimension_y + bx_headerbar_y + bx_statusbar_y; { XWMHints wm_hints; XClassHint class_hints; /* format of the window name and icon name * arguments has changed in R4 */ XTextProperty windowName, iconName; /* These calls store window_name and icon_name into * XTextProperty structures and set their other * fields properly. */ if (XStringListToTextProperty((char **)&window_name, 1, &windowName) == 0) { BX_PANIC(("%s: structure allocation for windowName failed.", progname)); } if (XStringListToTextProperty((char **)&icon_name, 1, &iconName) == 0) { BX_PANIC(("%s: structure allocation for iconName failed.", progname)); } wm_hints.initial_state = NormalState; wm_hints.input = True; wm_hints.icon_pixmap = icon_pixmap; #if BX_HAVE_XPM_H wm_hints.icon_mask = icon_mask; wm_hints.flags = StateHint | IconPixmapHint | IconMaskHint | InputHint; #else wm_hints.flags = StateHint | IconPixmapHint | InputHint; #endif class_hints.res_name = progname; class_hints.res_class = (char *)"Bochs"; XSetWMProperties(bx_x_display, win, &windowName, &iconName, argv, argc, &size_hints, &wm_hints, &class_hints); XFree(windowName.value); XFree(iconName.value); Atom wm_delete = XInternAtom(bx_x_display, "WM_DELETE_WINDOW", 1); XSetWMProtocols(bx_x_display, win, &wm_delete, 1); } /* Select event types wanted */ XSelectInput(bx_x_display, win, ExposureMask | KeyPressMask | KeyReleaseMask | ButtonPressMask | ButtonReleaseMask | StructureNotifyMask | PointerMotionMask | EnterWindowMask | LeaveWindowMask); /* Create default Graphics Context */ gc = XCreateGC(bx_x_display, win, valuemask, &values); gc_inv = XCreateGC(bx_x_display, win, valuemask, &values); gc_headerbar = XCreateGC(bx_x_display, win, valuemask, &values); gc_headerbar_inv = XCreateGC(bx_x_display, win, valuemask, &values); XSetState(bx_x_display, gc, white_pixel, black_pixel, GXcopy,AllPlanes); XSetState(bx_x_display, gc_inv, black_pixel, white_pixel, GXinvert,AllPlanes); XSetState(bx_x_display, gc_headerbar, black_pixel, white_pixel, GXcopy,AllPlanes); XSetState(bx_x_display, gc_headerbar_inv, white_pixel, black_pixel, GXcopy,AllPlanes); /* Display window */ XMapWindow(bx_x_display, win); XSync(bx_x_display, /* no discard */ 0); BX_DEBUG(("waiting for MapNotify")); while (1) { XNextEvent(bx_x_display, &report); if (report.type == MapNotify) break; } BX_DEBUG(("MapNotify found.")); // Create the VGA font create_internal_vga_font(); { char *imagedata; ximage = XCreateImage(bx_x_display, default_visual, default_depth, // depth of image (bitplanes) ZPixmap, 0, // offset NULL, // malloc() space after x_tilesize, y_tilesize, // x & y size of image 32, // # bits of padding 0); // bytes_per_line, let X11 calculate if (!ximage) BX_PANIC(("vga: couldn't XCreateImage()")); imDepth = default_depth; imWide = ximage->bytes_per_line; imBPP = ximage->bits_per_pixel; imagedata = (char *) malloc((size_t) (ximage->bytes_per_line * y_tilesize)); if (!imagedata) BX_PANIC(("imagedata: malloc returned error")); ximage->data = imagedata; if (imBPP < imDepth) { BX_PANIC(("vga_x: bits_per_pixel < depth ?")); } for (i=0; i<12; i++) bx_statusitem_active[i] = 0; switch (imBPP) { case 16: bx_status_led_green = 0x07e0; bx_status_led_red = 0xf900; bx_status_graytext = 0x8410; break; case 24: case 32: bx_status_led_green = 0x00ff00; bx_status_led_red = 0xff4000; bx_status_graytext = 0x808080; break; default: bx_status_led_green = 0; bx_status_graytext = 0; } sprintf(bx_status_info_text, "%s enables mouse", get_toggle_info()); x_init_done = 1; } curr_background = 0; XSetBackground(bx_x_display, gc, col_vals[curr_background]); curr_foreground = 1; XSetForeground(bx_x_display, gc, col_vals[curr_foreground]); //XGrabPointer(bx_x_display, win, True, 0, GrabModeAsync, GrabModeAsync, // win, None, CurrentTime); XFlush(bx_x_display); // redirect notify callback to X11 specific code SIM->get_notify_callback (&old_callback, &old_callback_arg); assert (old_callback != NULL); SIM->set_notify_callback (x11_notify_callback, NULL); // loads keymap for x11 x11_use_kbd_mapping = SIM->get_param_bool(BXPN_KBD_USEMAPPING)->get(); if (x11_use_kbd_mapping) { bx_keymap.loadKeymap(convertStringToXKeysym); } // parse x11 specific options if (argc > 1) { for (i = 1; i < argc; i++) { if (!strcmp(argv[i], "nokeyrepeat")) { BX_INFO(("disabled host keyboard repeat")); x11_nokeyrepeat = 1; #if BX_DEBUGGER && BX_DEBUGGER_GUI } else if (!strcmp(argv[i], "gui_debug")) { SIM->set_debug_gui(1); init_debug_dialog(); #endif #if BX_SHOW_IPS } else if (!strcmp(argv[i], "hideIPS")) { BX_INFO(("hide IPS display in status bar")); x11_hide_ips = 1; #endif } else { BX_PANIC(("Unknown x11 option '%s'", argv[i])); } } } new_gfx_api = 1; dialog_caps |= (BX_GUI_DLG_USER | BX_GUI_DLG_SNAPSHOT | BX_GUI_DLG_CDROM); } void set_status_text(int element, const char *text, bx_bool active, bx_bool w) { int xleft, xsize, sb_ypos; xleft = bx_statusitem_pos[element] + 2; xsize = bx_statusitem_pos[element+1] - xleft; sb_ypos = dimension_y + bx_headerbar_y; if (element < 1) { if (strcmp(bx_status_info_text, text)) { strcpy(bx_status_info_text, text); } XFillRectangle(bx_x_display, win, gc_headerbar_inv, xleft, sb_ypos+2, xsize, bx_statusbar_y-2); XDrawString(bx_x_display, win, gc_headerbar, xleft, sb_ypos+bx_statusbar_y-2, text, strlen(text)); } else if (element <= BX_MAX_STATUSITEMS) { bx_statusitem_active[element] = active; if (active) { if (w) XSetForeground(bx_x_display, gc_headerbar, bx_status_led_red); else XSetForeground(bx_x_display, gc_headerbar, bx_status_led_green); XFillRectangle(bx_x_display, win, gc_headerbar, xleft, sb_ypos+2, xsize-1, bx_statusbar_y-2); XSetForeground(bx_x_display, gc_headerbar, black_pixel); } else { XFillRectangle(bx_x_display, win, gc_headerbar_inv, xleft, sb_ypos+2, xsize-1, bx_statusbar_y-2); XSetForeground(bx_x_display, gc_headerbar, bx_status_graytext); } XDrawString(bx_x_display, win, gc_headerbar, xleft, sb_ypos+bx_statusbar_y-2, text, strlen(text)); XSetForeground(bx_x_display, gc_headerbar, black_pixel); } } void bx_x_gui_c::statusbar_setitem_specific(int element, bx_bool active, bx_bool w) { set_status_text(element+1, statusitem[element].text, active, w); } // This is called whenever the mouse_enabled parameter changes. It // can change because of a gui event such as clicking on the mouse-enable // bitmap or pressing the middle button, or from the configuration interface. // In all those cases, setting the parameter value will get you here. void bx_x_gui_c::mouse_enabled_changed_specific(bx_bool val) { mouse_captured = val; if (val) { BX_INFO(("Mouse capture on")); sprintf(bx_status_info_text, "%s disables mouse", get_toggle_info()); set_status_text(0, bx_status_info_text, 0); mouse_enable_x = current_x; mouse_enable_y = current_y; disable_cursor(); // Move the cursor to a 'safe' place warp_cursor(warp_home_x-current_x, warp_home_y-current_y); } else { BX_INFO(("Mouse capture off")); sprintf(bx_status_info_text, "%s enables mouse", get_toggle_info()); set_status_text(0, bx_status_info_text, 0); enable_cursor(); warp_cursor(mouse_enable_x-current_x, mouse_enable_y-current_y); } #if BX_SHOW_IPS x11_mouse_msg_counter = 3; #endif } void create_internal_vga_font(void) { // Default values font_width=8; font_height=16; for(int i=0; i<256; i++) { vgafont[i]=XCreateBitmapFromData(bx_x_display, win, (const char*)bx_vgafont[i].data, font_width, font_height); if(vgafont[i] == None) BX_PANIC(("Can't create vga font [%d]", i)); } } /* Check to see if this is a repeated key. (grabbed from SDL 1.2) (idea shamelessly lifted from GII -- thanks guys! :) */ static int X11_KeyRepeat(Display *display, XEvent *event) { XEvent peekevent; int repeated; repeated = 0; if (XPending(display)) { XPeekEvent(display, &peekevent); if ((peekevent.type == KeyPress) && (peekevent.xkey.keycode == event->xkey.keycode) && ((peekevent.xkey.time-event->xkey.time) < 2)) { repeated = 1; XNextEvent(display, &peekevent); } } return repeated; } void bx_x_gui_c::handle_events(void) { XEvent report; XKeyEvent *key_event; KeySym keysym; char buffer[MAX_MAPPED_STRING_LENGTH]; int bufsize = MAX_MAPPED_STRING_LENGTH; bx_bool mouse_update; int y, height; XPointerMovedEvent *pointer_event; XEnterWindowEvent *enter_event; // XLeaveWindowEvent *leave_event; XButtonEvent *button_event; XExposeEvent *expose_event; //current_x = -1; //current_y = -1; mouse_update = 0; while (XPending(bx_x_display) > 0) { XNextEvent(bx_x_display, &report); current_z = 0; if (x11_nokeyrepeat && (report.type == KeyRelease) && X11_KeyRepeat(bx_x_display, &report)) { return; } switch (report.type) { case Expose: expose_event = &report.xexpose; /* Adjust y, and reduce height if it overlaps headerbar. */ y = expose_event->y - BX_HEADER_BAR_Y; height = expose_event->height; if (y < 0) { height += y; y = 0; } DEV_vga_redraw_area( (unsigned) expose_event->x, y, (unsigned) expose_event->width, height); /* Always draw headerbar, even if not touched by expose event. * As a small optimization, only do it on last contigous expose. */ if (expose_event->count == 0) { show_headerbar(); } break; case ConfigureNotify: BX_DEBUG(("ConfigureNotify Xevent")); /* FIXME: It's not clear why we have to show the headerbar here. * This should be forced by the following expose events. */ show_headerbar(); break; case ButtonPress: button_event = (XButtonEvent *) &report; BX_DEBUG(("xxx: buttonpress")); if (button_event->y < BX_HEADER_BAR_Y) { BX_DEBUG(("xxx: in headerbar")); if (mouse_update) { BX_DEBUG(("xxx: mouse_update=1")); send_keyboard_mouse_status(); mouse_update = 0; } prev_x = current_x = -1; prev_y = current_y = -1; headerbar_click(button_event->x, button_event->y); break; } current_x = button_event->x; current_y = button_event->y; mouse_update = 1; BX_DEBUG(("xxx: x,y=(%d,%d)", current_x, current_y)); switch (button_event->button) { case Button1: mouse_button_state |= 0x01; send_keyboard_mouse_status(); mouse_update = 0; break; case Button2: if (mouse_toggle_check(BX_MT_MBUTTON, 1)) { toggle_mouse_enable(); } else { mouse_button_state |= 0x04; send_keyboard_mouse_status(); mouse_update = 0; } break; case Button3: mouse_button_state |= 0x02; send_keyboard_mouse_status(); mouse_update = 0; break; } break; case ButtonRelease: button_event = (XButtonEvent *) &report; if (button_event->y < BX_HEADER_BAR_Y) { if (mouse_update) { send_keyboard_mouse_status(); mouse_update = 0; } prev_x = current_x = -1; prev_y = current_y = -1; // ignore, in headerbar area break; } current_x = button_event->x; current_y = button_event->y; mouse_update = 1; switch (button_event->button) { case Button1: mouse_button_state &= ~0x01; send_keyboard_mouse_status(); mouse_update = 0; break; case Button2: mouse_toggle_check(BX_MT_MBUTTON, 0); mouse_button_state &= ~0x04; send_keyboard_mouse_status(); mouse_update = 0; break; case Button3: mouse_button_state &= ~0x02; send_keyboard_mouse_status(); mouse_update = 0; break; case Button4: current_z = 1; send_keyboard_mouse_status(); mouse_update = 0; break; case Button5: current_z = -1; send_keyboard_mouse_status(); mouse_update = 0; break; } break; case KeyPress: key_event = (XKeyEvent *) &report; XLookupString(key_event, buffer, bufsize, &keysym, NULL); xkeypress(keysym, 0); break; case KeyRelease: key_event = (XKeyEvent *) &report; XLookupString(key_event, buffer, bufsize, &keysym, NULL); xkeypress(keysym, 1); break; case MotionNotify: pointer_event = (XPointerMovedEvent *) &report; current_x = pointer_event->x; current_y = pointer_event->y; mouse_update = 1; break; case EnterNotify: enter_event = (XEnterWindowEvent *) &report; prev_x = current_x = enter_event->x; prev_y = current_y = enter_event->y; break; case LeaveNotify: // leave_event = (XLeaveWindowEvent *) &report; prev_x = current_x = -1; prev_y = current_y = -1; break; case MapNotify: /* screen needs redraw, since X would have tossed previous * requests before window mapped */ //retval = 1; break; case ClientMessage: if (!strcmp(XGetAtomName(bx_x_display, report.xclient.message_type), "WM_PROTOCOLS")) { bx_stop_simulation(); } break; default: // (mch) Ignore... BX_DEBUG(("XXX: default Xevent type")); /* all events selected by StructureNotifyMask are thrown away here, * since nothing is done with them */ break; } /* end switch */ } /* end while */ if (mouse_update) { BX_DEBUG(("handle_events(): send mouse status")); send_keyboard_mouse_status(); } #if BX_SHOW_IPS if (x11_ips_update) { x11_ips_update = 0; set_status_text(0, x11_ips_text, 1); } #endif } void send_keyboard_mouse_status(void) { int dx, dy, dz; BX_DEBUG(("XXX: prev=(%d,%d) curr=(%d,%d)", prev_x, prev_y, current_x, current_y)); if (x11_mouse_mode_absxy) { if ((current_y >= (int)bx_headerbar_y) && (current_y < (int)(dimension_y + bx_headerbar_y))) { dx = current_x * 0x7fff / dimension_x; dy = (current_y - bx_headerbar_y) * 0x7fff / dimension_y; dz = current_z; DEV_mouse_motion(dx, dy, dz, mouse_button_state, 1); } prev_x = current_x; prev_y = current_y; return; } if (((prev_x!=-1) && (current_x!=-1) && (prev_y!=-1) && (current_y!=-1)) || (current_z != 0)) { // (mch) consider warping here dx = current_x - prev_x - warp_dx; dy = -(current_y - prev_y - warp_dy); dz = current_z; warp_cursor(warp_home_x-current_x, warp_home_y-current_y); DEV_mouse_motion(dx, dy, dz, mouse_button_state, 0); prev_x = current_x; prev_y = current_y; } else { if ((current_x!=-1) && (current_y!=-1)) { prev_x = current_x; prev_y = current_y; } else { prev_x = current_x = -1; prev_y = current_y = -1; } } } void bx_x_gui_c::flush(void) { if (bx_x_display) XFlush(bx_x_display); } void xkeypress(KeySym keysym, int press_release) { Bit32u key_event; bx_bool mouse_toggle = 0; if ((keysym == XK_Control_L) || (keysym == XK_Control_R)) { mouse_toggle = bx_gui->mouse_toggle_check(BX_MT_KEY_CTRL, !press_release); } else if (keysym == XK_Alt_L) { mouse_toggle = bx_gui->mouse_toggle_check(BX_MT_KEY_ALT, !press_release); } else if (keysym == XK_F10) { mouse_toggle = bx_gui->mouse_toggle_check(BX_MT_KEY_F10, !press_release); } else if (keysym == XK_F12) { mouse_toggle = bx_gui->mouse_toggle_check(BX_MT_KEY_F12, !press_release); } if (mouse_toggle) { bx_gui->toggle_mouse_enable(); return; } /* Old (no mapping) behavior */ if (!x11_use_kbd_mapping) { // this depends on the fact that the X11 keysyms which // correspond to the ascii characters space .. tilde // are in consequtive order. if ((keysym >= XK_space) && (keysym <= XK_asciitilde)) { key_event = ascii_to_key_event[keysym - XK_space]; } else switch (keysym) { case XK_KP_1: #ifdef XK_KP_End case XK_KP_End: #endif key_event = BX_KEY_KP_END; break; case XK_KP_2: #ifdef XK_KP_Down case XK_KP_Down: #endif key_event = BX_KEY_KP_DOWN; break; case XK_KP_3: #ifdef XK_KP_Page_Down case XK_KP_Page_Down: #endif key_event = BX_KEY_KP_PAGE_DOWN; break; case XK_KP_4: #ifdef XK_KP_Left case XK_KP_Left: #endif key_event = BX_KEY_KP_LEFT; break; case XK_KP_5: #ifdef XK_KP_Begin case XK_KP_Begin: #endif key_event = BX_KEY_KP_5; break; case XK_KP_6: #ifdef XK_KP_Right case XK_KP_Right: #endif key_event = BX_KEY_KP_RIGHT; break; case XK_KP_7: #ifdef XK_KP_Home case XK_KP_Home: #endif key_event = BX_KEY_KP_HOME; break; case XK_KP_8: #ifdef XK_KP_Up case XK_KP_Up: #endif key_event = BX_KEY_KP_UP; break; case XK_KP_9: #ifdef XK_KP_Page_Up case XK_KP_Page_Up: #endif key_event = BX_KEY_KP_PAGE_UP; break; case XK_KP_0: #ifdef XK_KP_Insert case XK_KP_Insert: #endif key_event = BX_KEY_KP_INSERT; break; case XK_KP_Decimal: #ifdef XK_KP_Delete case XK_KP_Delete: #endif key_event = BX_KEY_KP_DELETE; break; #ifdef XK_KP_Enter case XK_KP_Enter: key_event = BX_KEY_KP_ENTER; break; #endif case XK_KP_Subtract: key_event = BX_KEY_KP_SUBTRACT; break; case XK_KP_Add: key_event = BX_KEY_KP_ADD; break; case XK_KP_Multiply: key_event = BX_KEY_KP_MULTIPLY; break; case XK_KP_Divide: key_event = BX_KEY_KP_DIVIDE; break; case XK_Up: key_event = BX_KEY_UP; break; case XK_Down: key_event = BX_KEY_DOWN; break; case XK_Left: key_event = BX_KEY_LEFT; break; case XK_Right: key_event = BX_KEY_RIGHT; break; case XK_Delete: key_event = BX_KEY_DELETE; break; case XK_BackSpace: key_event = BX_KEY_BACKSPACE; break; case XK_Tab: key_event = BX_KEY_TAB; break; #ifdef XK_ISO_Left_Tab case XK_ISO_Left_Tab: key_event = BX_KEY_TAB; break; #endif case XK_Return: key_event = BX_KEY_ENTER; break; case XK_Escape: key_event = BX_KEY_ESC; break; case XK_F1: key_event = BX_KEY_F1; break; case XK_F2: key_event = BX_KEY_F2; break; case XK_F3: key_event = BX_KEY_F3; break; case XK_F4: key_event = BX_KEY_F4; break; case XK_F5: key_event = BX_KEY_F5; break; case XK_F6: key_event = BX_KEY_F6; break; case XK_F7: key_event = BX_KEY_F7; break; case XK_F8: key_event = BX_KEY_F8; break; case XK_F9: key_event = BX_KEY_F9; break; case XK_F10: key_event = BX_KEY_F10; break; case XK_F11: key_event = BX_KEY_F11; break; case XK_F12: key_event = BX_KEY_F12; break; case XK_Control_L: key_event = BX_KEY_CTRL_L; break; #ifdef XK_Control_R case XK_Control_R: key_event = BX_KEY_CTRL_R; break; #endif case XK_Shift_L: key_event = BX_KEY_SHIFT_L; break; #ifdef XK_ISO_Prev_Group case XK_ISO_Prev_Group: key_event = BX_KEY_SHIFT_L; break; #endif case XK_Shift_R: key_event = BX_KEY_SHIFT_R; break; #ifdef XK_ISO_Next_Group case XK_ISO_Next_Group: key_event = BX_KEY_SHIFT_R; break; #endif case XK_Alt_L: key_event = BX_KEY_ALT_L; break; #ifdef XK_Alt_R case XK_Alt_R: key_event = BX_KEY_ALT_R; break; #endif case XK_Caps_Lock: key_event = BX_KEY_CAPS_LOCK; break; case XK_Num_Lock: key_event = BX_KEY_NUM_LOCK; break; #ifdef XK_Scroll_Lock case XK_Scroll_Lock: key_event = BX_KEY_SCRL_LOCK; break; #endif #ifdef XK_Print case XK_Print: key_event = BX_KEY_PRINT; break; #endif #ifdef XK_Pause case XK_Pause: key_event = BX_KEY_PAUSE; break; #endif #ifdef XK_Break case XK_Break: key_event = BX_KEY_CTRL_BREAK; break; #endif case XK_Insert: key_event = BX_KEY_INSERT; break; case XK_Home: key_event = BX_KEY_HOME; break; case XK_End: key_event = BX_KEY_END; break; case XK_Page_Up: key_event = BX_KEY_PAGE_UP; break; case XK_Page_Down: key_event = BX_KEY_PAGE_DOWN; break; default: BX_ERROR(("xkeypress(): keysym %x unhandled!", (unsigned) keysym)); return; break; } } else { /* use mapping */ BXKeyEntry *entry = bx_keymap.findHostKey (keysym); if (!entry) { BX_ERROR(("xkeypress(): keysym %x unhandled!", (unsigned) keysym)); return; } key_event = entry->baseKey; } if (press_release) key_event |= BX_KEY_RELEASED; DEV_kbd_gen_scancode(key_event); } void bx_x_gui_c::clear_screen(void) { XClearArea(bx_x_display, win, 0, bx_headerbar_y, dimension_x, dimension_y, 0); } void bx_x_gui_c::text_update(Bit8u *old_text, Bit8u *new_text, unsigned long cursor_x, unsigned long cursor_y, bx_vga_tminfo_t *tm_info) { Bit8u *old_line, *new_line, *text_base; Bit8u cChar; unsigned int curs, hchars, i, j, offset, rows, x, y, xc, yc, yc2, cs_y; unsigned new_foreground, new_background; Bit8u cfwidth, cfheight, cfheight2, font_col, font_row, font_row2; Bit8u split_textrow, split_fontrows; bx_bool forceUpdate = 0, split_screen; bx_bool blink_state, blink_mode; unsigned char cell[64]; unsigned long text_palette[16]; blink_mode = (tm_info->blink_flags & BX_TEXT_BLINK_MODE) > 0; blink_state = (tm_info->blink_flags & BX_TEXT_BLINK_STATE) > 0; if (blink_mode) { if (tm_info->blink_flags & BX_TEXT_BLINK_TOGGLE) forceUpdate = 1; } if (charmap_updated) { BX_INFO(("charmap update. Font Height is %d",font_height)); for (unsigned c = 0; c<256; c++) { if (char_changed[c]) { XFreePixmap(bx_x_display, vgafont[c]); bx_bool gfxchar = tm_info->line_graphics && ((c & 0xE0) == 0xC0); j = 0; memset(cell, 0, sizeof(cell)); for(i=0; i>1); cell[i] |= ((vga_charmap[(c<<5)+j] & 0x20)>>3); cell[i] |= ((vga_charmap[(c<<5)+j] & 0x40)>>5); cell[i] |= ((vga_charmap[(c<<5)+j] & 0x80)>>7); if (gfxchar) { cell[i+1] = (vga_charmap[(c<<5)+j] & 0x01); } j++; } vgafont[c]=XCreateBitmapFromData(bx_x_display, win, (const char*)cell, 9, font_height); if(vgafont[c] == None) BX_PANIC(("Can't create vga font [%d]", c)); char_changed[c] = 0; } } forceUpdate = 1; charmap_updated = 0; } for (i=0; i<16; i++) { text_palette[i] = col_vals[tm_info->actl_palette[i]]; } if((tm_info->h_panning != h_panning) || (tm_info->v_panning != v_panning)) { forceUpdate = 1; h_panning = tm_info->h_panning; v_panning = tm_info->v_panning; } if(tm_info->line_compare != line_compare) { forceUpdate = 1; line_compare = tm_info->line_compare; } // first invalidate character at previous and new cursor location if ((prev_cursor_y < text_rows) && (prev_cursor_x < text_cols)) { curs = prev_cursor_y * tm_info->line_offset + prev_cursor_x * 2; old_text[curs] = ~new_text[curs]; } if((tm_info->cs_start <= tm_info->cs_end) && (tm_info->cs_start < font_height) && (cursor_y < text_rows) && (cursor_x < text_cols)) { curs = cursor_y * tm_info->line_offset + cursor_x * 2; old_text[curs] = ~new_text[curs]; } else { curs = 0xffff; } rows = text_rows; if (v_panning) rows++; y = 0; cs_y = 0; text_base = new_text - tm_info->start_address; if (line_compare < dimension_y) { split_textrow = (line_compare + v_panning) / font_height; split_fontrows = ((line_compare + v_panning) % font_height) + 1; } else { split_textrow = rows + 1; split_fontrows = 0; } split_screen = 0; do { hchars = text_cols; if (h_panning) hchars++; if (split_screen) { yc = bx_headerbar_y + line_compare + cs_y * font_height + 1; font_row = 0; if (rows == 1) { cfheight = (dimension_y - line_compare - 1) % font_height; if (cfheight == 0) cfheight = font_height; } else { cfheight = font_height; } } else if (v_panning) { if (y == 0) { yc = bx_headerbar_y; font_row = v_panning; cfheight = font_height - v_panning; } else { yc = y * font_height + bx_headerbar_y - v_panning; font_row = 0; if (rows == 1) { cfheight = v_panning; } else { cfheight = font_height; } } } else { yc = y * font_height + bx_headerbar_y; font_row = 0; cfheight = font_height; } if (!split_screen && (y == split_textrow)) { if (split_fontrows < cfheight) cfheight = split_fontrows; } new_line = new_text; old_line = old_text; x = 0; offset = cs_y * tm_info->line_offset; do { if (h_panning) { if (hchars > text_cols) { xc = 0; font_col = h_panning; cfwidth = font_width - h_panning; } else { xc = x * font_width - h_panning; font_col = 0; if (hchars == 1) { cfwidth = h_panning; } else { cfwidth = font_width; } } } else { xc = x * font_width; font_col = 0; cfwidth = font_width; } if (forceUpdate || (old_text[0] != new_text[0]) || (old_text[1] != new_text[1])) { cChar = new_text[0]; new_foreground = new_text[1] & 0x0f; if (blink_mode) { new_background = (new_text[1] & 0x70) >> 4; if (!blink_state && (new_text[1] & 0x80)) new_foreground = new_background; } else { new_background = (new_text[1] & 0xf0) >> 4; } XSetForeground(bx_x_display, gc, text_palette[new_foreground]); XSetBackground(bx_x_display, gc, text_palette[new_background]); XCopyPlane(bx_x_display, vgafont[cChar], win, gc, font_col, font_row, cfwidth, cfheight, xc, yc, 1); if (offset == curs) { XSetForeground(bx_x_display, gc, text_palette[new_background]); XSetBackground(bx_x_display, gc, text_palette[new_foreground]); if (font_row == 0) { yc2 = yc + tm_info->cs_start; font_row2 = tm_info->cs_start; cfheight2 = tm_info->cs_end - tm_info->cs_start + 1; if ((yc2 + cfheight2) > (dimension_y + bx_headerbar_y)) { cfheight2 = dimension_y + bx_headerbar_y - yc2; } } else { if (v_panning > tm_info->cs_start) { yc2 = yc; font_row2 = font_row; cfheight2 = tm_info->cs_end - v_panning + 1; } else { yc2 = yc + tm_info->cs_start - v_panning; font_row2 = tm_info->cs_start; cfheight2 = tm_info->cs_end - tm_info->cs_start + 1; } } if (yc2 < (dimension_y + bx_headerbar_y)) { XCopyPlane(bx_x_display, vgafont[cChar], win, gc, font_col, font_row2, cfwidth, cfheight2, xc, yc2, 1); } } } x++; new_text+=2; old_text+=2; offset+=2; } while (--hchars); if (!split_screen && (y == split_textrow)) { new_text = text_base; forceUpdate = 1; cs_y = 0; if (tm_info->split_hpanning) h_panning = 0; rows = ((dimension_y - line_compare + font_height - 2) / font_height) + 1; split_screen = 1; } else { y++; cs_y++; new_text = new_line + tm_info->line_offset; old_text = old_line + tm_info->line_offset; } } while (--rows); h_panning = tm_info->h_panning; prev_cursor_x = cursor_x; prev_cursor_y = cursor_y; XFlush(bx_x_display); } int bx_x_gui_c::get_clipboard_text(Bit8u **bytes, Bit32s *nbytes) { int len; Bit8u *tmp = (Bit8u *)XFetchBytes (bx_x_display, &len); // according to man XFetchBytes, tmp must be freed by XFree(). So allocate // a new buffer with "new". The keyboard code will free it with delete [] // when the paste is done. Bit8u *buf = new Bit8u[len]; memcpy (buf, tmp, len); *bytes = buf; *nbytes = len; XFree (tmp); return 1; } int bx_x_gui_c::set_clipboard_text(char *text_snapshot, Bit32u len) { // this writes data to the clipboard. BX_INFO (("storing %d bytes to X windows clipboard", len)); XSetSelectionOwner(bx_x_display, XA_PRIMARY, None, CurrentTime); XStoreBytes (bx_x_display, (char *)text_snapshot, len); return 1; } void bx_x_gui_c::graphics_tile_update(Bit8u *tile, unsigned x0, unsigned y0) { unsigned x, y, y_size; unsigned color, offset; Bit8u b0, b1, b2, b3; if ((y0 + y_tilesize) > dimension_y) { y_size = dimension_y - y0; } else { y_size = y_tilesize; } switch (guest_bpp) { case 8: // 8 bits per pixel for (y=0; ydata[imWide*y + x] = color; break; case 16: // 16 bits per pixel offset = imWide*y + 2*x; b0 = color >> 0; b1 = color >> 8; if (ximage->byte_order == LSBFirst) { ximage->data[offset + 0] = b0; ximage->data[offset + 1] = b1; } else { // MSBFirst ximage->data[offset + 0] = b1; ximage->data[offset + 1] = b0; } break; case 24: // 24 bits per pixel offset = imWide*y + 3*x; b0 = color >> 0; b1 = color >> 8; b2 = color >> 16; if (ximage->byte_order == LSBFirst) { ximage->data[offset + 0] = b0; ximage->data[offset + 1] = b1; ximage->data[offset + 2] = b2; } else { // MSBFirst ximage->data[offset + 0] = b2; ximage->data[offset + 1] = b1; ximage->data[offset + 2] = b0; } break; case 32: // 32 bits per pixel offset = imWide*y + 4*x; b0 = color >> 0; b1 = color >> 8; b2 = color >> 16; b3 = color >> 24; if (ximage->byte_order == LSBFirst) { ximage->data[offset + 0] = b0; ximage->data[offset + 1] = b1; ximage->data[offset + 2] = b2; ximage->data[offset + 3] = b3; } else { // MSBFirst ximage->data[offset + 0] = b3; ximage->data[offset + 1] = b2; ximage->data[offset + 2] = b1; ximage->data[offset + 3] = b0; } break; default: BX_PANIC(("X_graphics_tile_update: bits_per_pixel %u not implemented", (unsigned) imBPP)); return; } } } break; default: BX_PANIC(("X_graphics_tile_update: bits_per_pixel %u handled by new graphics API", (unsigned) guest_bpp)); return; } XPutImage(bx_x_display, win, gc, ximage, 0, 0, x0, y0+bx_headerbar_y, x_tilesize, y_size); } bx_svga_tileinfo_t *bx_x_gui_c::graphics_tile_info(bx_svga_tileinfo_t *info) { info->bpp = ximage->bits_per_pixel; info->pitch = ximage->bytes_per_line; info->red_shift = 0; info->green_shift = 0; info->blue_shift = 0; info->red_mask = ximage->red_mask; info->green_mask = ximage->green_mask; info->blue_mask = ximage->blue_mask; int i, rf, gf, bf; unsigned long red, green, blue; i = rf = gf = bf = 0; red = ximage->red_mask; green = ximage->green_mask; blue = ximage->blue_mask; while (red || rf || green || gf || blue || bf) { if (rf) { if (!(red & 1)) { info->red_shift = i; rf = 0; } } else { if (red & 1) { rf = 1; } } if (gf) { if (!(green & 1)) { info->green_shift = i; gf = 0; } } else { if (green & 1) { gf = 1; } } if (bf) { if (!(blue & 1)) { info->blue_shift = i; bf = 0; } } else { if (blue & 1) { bf = 1; } } i++; red >>= 1; green >>= 1; blue >>= 1; } info->is_indexed = (default_visual->c_class != TrueColor) && (default_visual->c_class != DirectColor); info->is_little_endian = (ximage->byte_order == LSBFirst); return info; } Bit8u *bx_x_gui_c::graphics_tile_get(unsigned x0, unsigned y0, unsigned *w, unsigned *h) { if (x0+x_tilesize > dimension_x) { *w = dimension_x - x0; } else { *w = x_tilesize; } if (y0+y_tilesize > dimension_y) { *h = dimension_y - y0; } else { *h = y_tilesize; } return (Bit8u *)ximage->data + ximage->xoffset*ximage->bits_per_pixel/8; } void bx_x_gui_c::graphics_tile_update_in_place(unsigned x0, unsigned y0, unsigned w, unsigned h) { XPutImage(bx_x_display, win, gc, ximage, 0, 0, x0, y0+bx_headerbar_y, w, h); } bx_bool bx_x_gui_c::palette_change(Bit8u index, Bit8u red, Bit8u green, Bit8u blue) { // returns: 0=no screen update needed (color map change has direct effect) // 1=screen updated needed (redraw using current colormap) XColor color; color.flags = DoRed | DoGreen | DoBlue; color.red = red << 8; color.green = green << 8; color.blue = blue << 8; if (x11_private_colormap) { color.pixel = index; XStoreColor(bx_x_display, default_cmap, &color); return(0); // no screen update needed } else { XAllocColor(bx_x_display, DefaultColormap(bx_x_display, bx_x_screen_num), &color); col_vals[index] = color.pixel; return(1); // screen update needed } } void bx_x_gui_c::dimension_update(unsigned x, unsigned y, unsigned fheight, unsigned fwidth, unsigned bpp) { if ((bpp == 8) || (bpp == 15) || (bpp == 16) || (bpp == 24) || (bpp == 32)) { guest_bpp = bpp; } else { BX_PANIC(("%d bpp graphics mode not supported", bpp)); } guest_textmode = (fheight > 0); guest_xres = x; guest_yres = y; if (guest_textmode) { font_height = fheight; font_width = fwidth; text_cols = x / font_width; text_rows = y / font_height; } if ((x != dimension_x) || (y != dimension_y)) { XSizeHints hints; long supplied_return; if (XGetWMNormalHints(bx_x_display, win, &hints, &supplied_return) && supplied_return & PMaxSize) { hints.max_width = hints.min_width = x; hints.max_height = hints.min_height = y+bx_headerbar_y+bx_statusbar_y; XSetWMNormalHints(bx_x_display, win, &hints); } XResizeWindow(bx_x_display, win, x, y+bx_headerbar_y+bx_statusbar_y); dimension_x = x; dimension_y = y; warp_home_x = x / 2; warp_home_y = y / 2; } } void bx_x_gui_c::show_headerbar(void) { unsigned xorigin; int xleft, xright, sb_ypos; sb_ypos = dimension_y + bx_headerbar_y; // clear header bar and status bar area to white XFillRectangle(bx_x_display, win, gc_headerbar_inv, 0,0, dimension_x, bx_headerbar_y); XFillRectangle(bx_x_display, win, gc_headerbar_inv, 0,sb_ypos, dimension_x, bx_statusbar_y); xleft = 0; xright = dimension_x; for (unsigned i=0; i 0) { XDrawLine(bx_x_display, win, gc_inv, xleft, sb_ypos+1, xleft, sb_ypos+bx_statusbar_y); if (i <= statusitem_count) { set_status_text(i, statusitem[i-1].text, bx_statusitem_active[i]); } } else { set_status_text(0, bx_status_info_text, 0); } } } unsigned bx_x_gui_c::create_bitmap(const unsigned char *bmap, unsigned xdim, unsigned ydim) { if (bx_bitmap_entries >= BX_MAX_PIXMAPS) { BX_PANIC(("x: too many pixmaps, increase BX_MAX_PIXMAPS")); } bx_bitmaps[bx_bitmap_entries].bmap = XCreateBitmapFromData(bx_x_display, win, (const char *) bmap, xdim, ydim); bx_bitmaps[bx_bitmap_entries].xdim = xdim; bx_bitmaps[bx_bitmap_entries].ydim = ydim; if (!bx_bitmaps[bx_bitmap_entries].bmap) { BX_PANIC(("x: could not create bitmap")); } bx_bitmap_entries++; return(bx_bitmap_entries-1); // return index as handle } unsigned bx_x_gui_c::headerbar_bitmap(unsigned bmap_id, unsigned alignment, void (*f)(void)) { unsigned hb_index; if ((bx_headerbar_entries+1) > BX_MAX_HEADERBAR_ENTRIES) BX_PANIC(("x: too many headerbar entries, increase BX_MAX_HEADERBAR_ENTRIES")); bx_headerbar_entries++; hb_index = bx_headerbar_entries - 1; bx_headerbar_entry[hb_index].bitmap = bx_bitmaps[bmap_id].bmap; bx_headerbar_entry[hb_index].xdim = bx_bitmaps[bmap_id].xdim; bx_headerbar_entry[hb_index].ydim = bx_bitmaps[bmap_id].ydim; bx_headerbar_entry[hb_index].alignment = alignment; bx_headerbar_entry[hb_index].f = f; if (alignment == BX_GRAVITY_LEFT) { bx_headerbar_entry[hb_index].xorigin = bx_bitmap_left_xorigin; bx_headerbar_entry[hb_index].yorigin = 0; bx_bitmap_left_xorigin += bx_bitmaps[bmap_id].xdim; } else { // BX_GRAVITY_RIGHT bx_bitmap_right_xorigin += bx_bitmaps[bmap_id].xdim; bx_headerbar_entry[hb_index].xorigin = bx_bitmap_right_xorigin; bx_headerbar_entry[hb_index].yorigin = 0; } return(hb_index); } void bx_x_gui_c::replace_bitmap(unsigned hbar_id, unsigned bmap_id) { unsigned xorigin; bx_headerbar_entry[hbar_id].bitmap = bx_bitmaps[bmap_id].bmap; if (bx_headerbar_entry[hbar_id].alignment == BX_GRAVITY_LEFT) xorigin = bx_headerbar_entry[hbar_id].xorigin; else xorigin = dimension_x - bx_headerbar_entry[hbar_id].xorigin; XCopyPlane(bx_x_display, bx_headerbar_entry[hbar_id].bitmap, win, gc_headerbar, 0,0, bx_headerbar_entry[hbar_id].xdim, bx_headerbar_entry[hbar_id].ydim, xorigin, 0, 1); } void headerbar_click(int x, int y) { int xorigin; // assuming y is in bounds UNUSED(y); for (unsigned i=0; i=xorigin) && (x<(xorigin+int(bx_headerbar_entry[i].xdim)))) { bx_headerbar_entry[i].f(); return; } } } void bx_x_gui_c::exit(void) { if (!x_init_done) return; // Delete the font bitmaps for (int i=0; i<256; i++) { //if (vgafont[i] != NULL) XFreePixmap(bx_x_display,vgafont[i]); } if (mouse_captured) enable_cursor(); #if BX_DEBUGGER && BX_DEBUGGER_GUI if (SIM->has_debug_gui()) { close_debug_dialog(); } #endif if (bx_x_display) XCloseDisplay(bx_x_display); BX_INFO(("Exit")); } static void warp_cursor (int dx, int dy) { if (mouse_captured && (warp_dx || warp_dy || dx || dy)) { warp_dx = dx; warp_dy = dy; XWarpPointer(bx_x_display, None, None, 0, 0, 0, 0, dx, dy); } } static void disable_cursor() { static Cursor cursor; static unsigned cursor_created = 0; static int shape_width = 16, shape_height = 16, mask_width = 16, mask_height = 16; static Bit32u shape_bits[(16*16)/32] = { 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, }; static Bit32u mask_bits[(16*16)/32] = { 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, 0x00000000, }; if (!cursor_created) { Pixmap shape, mask; XColor white, black; shape = XCreatePixmapFromBitmapData(bx_x_display, RootWindow(bx_x_display,bx_x_screen_num), (char*)shape_bits, shape_width, shape_height, 1, 0, 1); mask = XCreatePixmapFromBitmapData(bx_x_display, RootWindow(bx_x_display,bx_x_screen_num), (char*)mask_bits, mask_width, mask_height, 1, 0, 1); XParseColor(bx_x_display, default_cmap, "black", &black); XParseColor(bx_x_display, default_cmap, "white", &white); cursor = XCreatePixmapCursor(bx_x_display, shape, mask, &white, &black, 1, 1); cursor_created = 1; } XDefineCursor(bx_x_display, win, cursor); } static void enable_cursor() { XUndefineCursor(bx_x_display, win); } /* convertStringToXKeysym is a keymap callback * used when reading the keymap file. * It converts a Symblic String to a GUI Constant * * It returns a Bit32u constant or BX_KEYMAP_UNKNOWN if it fails */ static Bit32u convertStringToXKeysym (const char *string) { if (strncmp ("XK_", string, 3) != 0) return BX_KEYMAP_UNKNOWN; KeySym keysym=XStringToKeysym(string+3); // failure, return unknown if(keysym==NoSymbol) return BX_KEYMAP_UNKNOWN; return((Bit32u)keysym); } #if BX_USE_IDLE_HACK /* BX_USE_IDLE_HACK: a small idle hack by * Roland.Mainz@informatik.med.uni-giessen.de to prevent bochs * from consuming 100% CPU time even when it is not required (for * example, the OS in the emulator calls HLT to wait for an interupt) * pro: * - no more 100% CPU usage * contra: * - we're sleeping too long * - bochs still consumes ~10%-20% CPU time while executing an idle * linux kernel * - this is an hack */ /* XPeekEvent() with timeout * (adopted from mozilla/gfx/src/xprint/xprintutil_printtofile.c#XNextEventTimeout()) */ static Bool XPeekEventTimeout(Display *display, XEvent *event_return, struct timeval *timeout) { int res; fd_set readfds; int display_fd = XConnectionNumber(display); /* small shortcut... */ if(timeout == NULL) { XPeekEvent(display, event_return); return(True); } FD_ZERO(&readfds); FD_SET(display_fd, &readfds); /* Note/bug: In the case of internal X events (like used to trigger callbacks * registered by XpGetDocumentData()&co.) select() will return with "new info" * - but XNextEvent() below processes these _internal_ events silently - and * will block if there are no other non-internal events. * The workaround here is to check with XEventsQueued() if there are non-internal * events queued - if not select() will be called again - unfortunately we use * the old timeout here instead of the "remaining" time... (this only would hurt * if the timeout would be really long - but for current use with values below * 1/2 secs it does not hurt... =:-) */ while(XEventsQueued(display, QueuedAfterFlush) == 0) { res = select(display_fd+1, &readfds, NULL, NULL, timeout); switch(res) { case -1: /* select() error - should not happen */ if (errno == EINTR) break; // caused e.g. by alarm(3) perror("XPeekEventTimeout: select() failure"); return(False); case 0: /* timeout */ return(False); } } XPeekEvent(display, event_return); return(True); } void bx_x_gui_c::sim_is_idle() { XEvent dummy; struct timeval timeout; timeout.tv_sec = 0; timeout.tv_usec = 1000; /* 1/1000 s */ XPeekEventTimeout(bx_x_display, &dummy, &timeout); } #endif /* BX_USE_IDLE_HACK */ void bx_x_gui_c::beep_on(float frequency) { BX_INFO(("X11 Beep ON (frequency=%.2f)",frequency)); } void bx_x_gui_c::beep_off() { BX_INFO(("X11 Beep OFF")); } void bx_x_gui_c::get_capabilities(Bit16u *xres, Bit16u *yres, Bit16u *bpp) { int num_sizes; Rotation original_rotation; int event_base, error_base; Display *dpy = XOpenDisplay(NULL); if (dpy == NULL) { BX_PANIC(("Cannot connect to X display")); } Window root = RootWindow(dpy, 0); if (XRRQueryExtension (dpy, &event_base, &error_base)) { XRRScreenSize *xrrs = XRRSizes(dpy, 0, &num_sizes); XRRScreenConfiguration *conf = XRRGetScreenInfo(dpy, root); SizeID original_size_id = XRRConfigCurrentConfiguration(conf, &original_rotation); *xres = xrrs[original_size_id].width; *yres = xrrs[original_size_id].height; free(conf); } else { int screen = DefaultScreen(dpy); *xres = DisplayWidth(dpy, screen); *yres = DisplayHeight(dpy, screen); } XCloseDisplay(dpy); // always return 32 bit depth *bpp = 32; } void bx_x_gui_c::set_mouse_mode_absxy(bx_bool mode) { x11_mouse_mode_absxy = mode; } #if BX_SHOW_IPS void bx_x_gui_c::show_ips(Bit32u ips_count) { if (x11_mouse_msg_counter == 0) { if (!x11_ips_update && !x11_hide_ips) { ips_count /= 1000; sprintf(x11_ips_text, "IPS: %u.%3.3uM", ips_count / 1000, ips_count % 1000); x11_ips_update = 1; } } else { x11_mouse_msg_counter--; } } #endif // X11 control class enum { XDC_BUTTON = 0, XDC_EDIT, XDC_CHECKBOX }; class x11_control_c { public: x11_control_c(int type, int x, int y, unsigned int w, unsigned int h, const char *text); virtual ~x11_control_c(); void draw(Display *display, Window win, GC gc); void draw_rect(Display *display, Window win, GC gc); void draw_text(Display *display, Window win, GC gc, const char *text); int test(XButtonEvent *bev); int get_type() {return type;} const char* get_text() {return text;} // checkbox int get_status() {return status;} void set_status(bx_bool new_stat) {status = new_stat;} // edit void set_maxlen(unsigned int max); int process_input(KeySym key, const char *str); const char* get_value() {return value;} private: unsigned int width, height; int type, xmin, xmax, ymin, ymax; const char *text; // checkbox bx_bool status; // edit char *value; char editstr[27]; unsigned int len, pos, max; }; x11_control_c::x11_control_c(int _type, int x, int y, unsigned int w, unsigned int h, const char *_text) { type = _type; xmin = x; ymin = y; width = w; height = h; xmax = x + width; ymax = y + height; if (type == XDC_EDIT) { len = strlen(_text); max = len; value = (char*)malloc(max+1); strcpy(value, _text); pos = (len < 25) ? 0 : (len - 24); strncpy(editstr, value+pos, 24); editstr[len-pos] = 0; text = editstr; } else { text = _text; value = NULL; if (type == XDC_CHECKBOX) { status = !strcmp(text, "X"); } } } x11_control_c::~x11_control_c() { if (value != NULL) free(value); } void x11_control_c::draw(Display *display, Window win, GC gc) { int ty; XDrawRectangle(display, win, gc, xmin, ymin, width, height); ty = ymin + height - (height - 12) / 2; XDrawImageString(display, win, gc, xmin+4, ty, (char *)text, strlen(text)); } void x11_control_c::draw_rect(Display *display, Window win, GC gc) { XDrawRectangle(display, win, gc, xmin - 2, ymin - 2, width + 4, height + 4); } void x11_control_c::draw_text(Display *display, Window win, GC gc, const char *_text) { int ty; ty = ymin + height - (height - 12) / 2; XDrawImageString(display, win, gc, xmin+4, ty, (char *)_text, strlen(_text)); } int x11_control_c::test(XButtonEvent *bev) { if ((bev->y > ymin) && (bev->y < ymax)) { if ((bev->x > xmin) && (bev->x < xmax)) { return 1; } } return 0; } void x11_control_c::set_maxlen(unsigned int _max) { max = _max; value = (char*)realloc(value, max+1); } int x11_control_c::process_input(KeySym key, const char *str) { int ret = 0; if (key == XK_BackSpace) { if (len > 0) { value[--len] = 0; if (pos > 0) pos--; ret = 1; } } else if ((key == 0) && (len < max)) { strcat(value, str); len = strlen(value); if (len > 24) pos++; ret = 1; } strncpy(editstr, value+pos, 24); editstr[len-pos] = 0; return ret; } // X11 static text structure typedef struct _x11_static_t { char *text; int x, y; struct _x11_static_t *next; } x11_static_t; // X11 dialog class class x11_dialog_c { public: x11_dialog_c(char *name, int width, int height, int num_ctrls); virtual ~x11_dialog_c(); x11_control_c* add_control(int type, int x, int y, unsigned int width, unsigned int height, const char *text); void add_static_text(int x, int y, const char *text, int length); void draw_text(Display *display, int x, int y, const char *text, int length); int run(int start_ctrl, int ok, int cancel); private: Window dlgwin; GC gc, gc_inv; int ctrl_cnt, cur_ctrl, old_ctrl; x11_control_c **controls; x11_static_t *static_items; }; x11_dialog_c::x11_dialog_c(char *name, int width, int height, int num_ctrls) { Window dialogw; XSizeHints hint; unsigned long black_pixel, white_pixel; hint.flags = PPosition | PSize | PMinSize | PMaxSize; hint.x = 100; hint.y = 100; hint.width = hint.min_width = hint.max_width = width; hint.height = hint.min_height = hint.max_height = height; black_pixel = BlackPixel(bx_x_display, bx_x_screen_num); white_pixel = WhitePixel(bx_x_display, bx_x_screen_num); dialogw = XCreateSimpleWindow(bx_x_display, RootWindow(bx_x_display,bx_x_screen_num), hint.x, hint.y, hint.width, hint.height, 4, black_pixel, white_pixel); XSetStandardProperties(bx_x_display, dialogw, name, name, None, NULL, 0, &hint); Atom wm_delete = XInternAtom(bx_x_display, "WM_DELETE_WINDOW", 1); XSetWMProtocols(bx_x_display, dialogw, &wm_delete, 1); gc = XCreateGC(bx_x_display, dialogw, 0, 0); gc_inv = XCreateGC(bx_x_display, dialogw, 0, 0); XSetState(bx_x_display, gc_inv, white_pixel, black_pixel, GXcopy, AllPlanes); XSetBackground(bx_x_display, gc, WhitePixel(bx_x_display, bx_x_screen_num)); XSetForeground(bx_x_display, gc, BlackPixel(bx_x_display, bx_x_screen_num)); XSelectInput(bx_x_display, dialogw, ButtonPressMask | ButtonReleaseMask | KeyPressMask | KeyReleaseMask | ExposureMask | PointerMotionMask | EnterWindowMask | LeaveWindowMask); XMapWindow(bx_x_display, dialogw); XFlush(bx_x_display); dlgwin = dialogw; ctrl_cnt = num_ctrls; controls = new x11_control_c* [num_ctrls]; static_items = NULL; cur_ctrl = 0; old_ctrl = -1; } x11_dialog_c::~x11_dialog_c() { x11_static_t *temp; for (int i = 0; i < ctrl_cnt; i++) { delete controls[i]; } delete [] controls; while (static_items != NULL) { temp = static_items; static_items = temp->next; delete [] temp->text; delete temp; } XFreeGC(bx_x_display, gc); XFreeGC(bx_x_display, gc_inv); XDestroyWindow(bx_x_display, dlgwin); } x11_control_c* x11_dialog_c::add_control(int type, int x, int y, unsigned int width, unsigned int height, const char *text) { x11_control_c *xctrl = new x11_control_c(type, x, y, width, height, text); if (cur_ctrl < ctrl_cnt) { controls[cur_ctrl++] = xctrl; } return xctrl; } void x11_dialog_c::add_static_text(int x, int y, const char *text, int length) { x11_static_t *static_item, *temp; static_item = (x11_static_t*)malloc(sizeof(x11_static_t)); static_item->x = x; static_item->y = y; static_item->text = new char[length+1]; strncpy(static_item->text, text, length); static_item->text[length] = 0; static_item->next = NULL; if (static_items == NULL) { static_items = static_item; } else { temp = static_items; while (temp->next) { temp = temp->next; } temp->next = static_item; } } void x11_dialog_c::draw_text(Display *display, int x, int y, const char *text, int length) { XDrawImageString(display, dlgwin, gc, x, y, text, length); } int x11_dialog_c::run(int start_ctrl, int ok, int cancel) { XEvent xevent; KeySym key; bx_bool init = 0, done = 0, valid = 0, status; int i; char text[10], editstr[27]; x11_static_t *temp; if (start_ctrl < 0) { cur_ctrl = ctrl_cnt - 1; } else { cur_ctrl = start_ctrl; } while (!done) { XNextEvent(bx_x_display, &xevent); switch (xevent.type) { case Expose: if (xevent.xexpose.count == 0) { temp = static_items; while (temp != NULL) { draw_text(xevent.xexpose.display, temp->x, temp->y, temp->text, strlen(temp->text)); temp = temp->next; } for (i = 0; i < ctrl_cnt; i++) { controls[i]->draw(xevent.xexpose.display, dlgwin, gc); } old_ctrl = cur_ctrl - 1; if (old_ctrl < 0) old_ctrl = 1; init = 1; } break; case ButtonPress: if (xevent.xbutton.button == Button1) { for (i = 0; i < ctrl_cnt; i++) { if (controls[i]->test(&xevent.xbutton)) { cur_ctrl = i; if (controls[cur_ctrl]->get_type() == XDC_BUTTON) { valid = 1; } else if (controls[cur_ctrl]->get_type() == XDC_CHECKBOX) { status = !controls[cur_ctrl]->get_status(); controls[cur_ctrl]->set_status(status); controls[cur_ctrl]->draw_text(bx_x_display, dlgwin, gc, status ? "X":" "); } break; } } } break; case ButtonRelease: if ((xevent.xbutton.button == Button1) && (valid == 1)) { done = 1; } break; case KeyPress: i = XLookupString((XKeyEvent *)&xevent, text, 10, &key, 0); if (key == XK_Tab) { cur_ctrl++; if (cur_ctrl >= ctrl_cnt) cur_ctrl = 0; } else if (key == XK_Escape) { cur_ctrl = cancel; done = 1; } else if (controls[cur_ctrl]->get_type() == XDC_EDIT) { if (key == XK_Return) { cur_ctrl = ok; done = 1; } else if (key == XK_BackSpace) { if (controls[cur_ctrl]->process_input(key, "")) { old_ctrl = cur_ctrl ^ 1; } } else if (i == 1) { if (controls[cur_ctrl]->process_input(0, text)) { old_ctrl = cur_ctrl ^ 1; } } } else if (controls[cur_ctrl]->get_type() == XDC_CHECKBOX) { if (key == XK_space) { status = !controls[cur_ctrl]->get_status(); controls[cur_ctrl]->set_status(status); controls[cur_ctrl]->draw_text(bx_x_display, dlgwin, gc, status ? "X":" "); } else if (key == XK_Return) { cur_ctrl = ok; done = 1; } } else if ((key == XK_space) || (key == XK_Return)) { done = 1; } break; case ClientMessage: if (!strcmp(XGetAtomName(bx_x_display, xevent.xclient.message_type), "WM_PROTOCOLS")) { cur_ctrl = cancel; done = 1; } break; case LeaveNotify: valid = 0; break; } if (init && (cur_ctrl != old_ctrl)) { if (controls[old_ctrl]->get_type() == XDC_EDIT) { sprintf(editstr, "%s ", controls[old_ctrl]->get_text()); controls[old_ctrl]->draw_text(bx_x_display, dlgwin, gc, editstr); } else { controls[old_ctrl]->draw_rect(bx_x_display, dlgwin, gc_inv); } if (controls[cur_ctrl]->get_type() == XDC_EDIT) { sprintf(editstr, "%s_ ", controls[cur_ctrl]->get_text()); controls[cur_ctrl]->draw_text(bx_x_display, dlgwin, gc, editstr); } else { controls[cur_ctrl]->draw_rect(bx_x_display, dlgwin, gc); } old_ctrl = cur_ctrl; } } return cur_ctrl; } // X11 dialog box functions int x11_ask_dialog(BxEvent *event) { #if BX_DEBUGGER || BX_GDBSTUB const int button_x[4] = { 36, 121, 206, 291 }; const int ask_code[4] = { BX_LOG_ASK_CHOICE_CONTINUE, BX_LOG_ASK_CHOICE_CONTINUE_ALWAYS, BX_LOG_ASK_CHOICE_ENTER_DEBUG, BX_LOG_ASK_CHOICE_DIE }; const int num_ctrls = 4; #else const int button_x[3] = { 81, 166, 251 }; const int ask_code[3] = { BX_LOG_ASK_CHOICE_CONTINUE, BX_LOG_ASK_CHOICE_CONTINUE_ALWAYS, BX_LOG_ASK_CHOICE_DIE }; const int num_ctrls = 3; #endif int level, cpos; int retcode = -1; int control = num_ctrls - 1; char name[16], device[18], message[512]; level = event->u.logmsg.level; strcpy(name, SIM->get_log_level_name(level)); sprintf(device, "Device: %s", event->u.logmsg.prefix); sprintf(message, "Message: %s", event->u.logmsg.msg); x11_dialog_c *xdlg = new x11_dialog_c(name, 400, 115, num_ctrls); xdlg->add_static_text(20, 25, device, strlen(device)); if (strlen(message) > 62) { cpos = 62; while ((cpos > 0) && (!isspace(message[cpos]))) cpos--; xdlg->add_static_text(20, 45, message, cpos); xdlg->add_static_text(74, 63, message+cpos+1, strlen(message)-cpos-1); } else { xdlg->add_static_text(20, 45, message, strlen(message)); } xdlg->add_control(XDC_BUTTON, button_x[0] + 2, 80, 65, 20, "Continue"); xdlg->add_control(XDC_BUTTON, button_x[1] + 2, 80, 65, 20, "Alwayscont"); #if BX_DEBUGGER || BX_GDBSTUB xdlg->add_control(XDC_BUTTON, button_x[2] + 2, 80, 65, 20, "Debugger"); #endif xdlg->add_control(XDC_BUTTON, button_x[num_ctrls-1] + 2, 80, 65, 20, "Quit"); control = xdlg->run(num_ctrls-1, 0, num_ctrls-1); retcode = ask_code[control]; delete xdlg; return retcode; } int x11_string_dialog(bx_param_string_c *param, bx_param_enum_c *param2) { x11_control_c *xctl_edit, *xbtn_status = NULL; int control = 0, h, num_ctrls, ok_button; bx_bool status = 0; char name[80], text[10]; const char *value; if (param2 != NULL) { strcpy(name, "First CD-ROM image/device"); status = (param2->get() == BX_INSERTED); h = 110; ok_button = 2; num_ctrls = 4; } else { if (param->get_label() != NULL) { strcpy(name, param->get_label()); } else { strcpy(name, param->get_name()); } h = 90; ok_button = 1; num_ctrls = 3; } x11_dialog_c *xdlg = new x11_dialog_c(name, 250, h, num_ctrls); xctl_edit = xdlg->add_control(XDC_EDIT, 45, 20, 160, 20, param->getptr()); xctl_edit->set_maxlen(param->get_maxsize()); if (param2 != NULL) { strcpy(text, status ? "X":" "); xbtn_status = xdlg->add_control(XDC_CHECKBOX, 45, 50, 15, 16, text); xdlg->add_static_text(70, 62, "Inserted", 8); } xdlg->add_control(XDC_BUTTON, 55, h - 30, 65, 20, "OK"); xdlg->add_control(XDC_BUTTON, 130, h - 30, 65, 20, "Cancel"); control = xdlg->run(0, ok_button, num_ctrls-1); if (control == ok_button) { value = xctl_edit->get_value(); if (param2 != NULL) { status = xbtn_status->get_status(); if (status == 1) { if (strlen(value) > 0) { param->set(value); param2->set(1); } else { param2->set(0); } } else { param2->set(0); } } else { param->set(value); } } delete xdlg; if (control == ok_button) { return 1; } else { return -1; } } int x11_yesno_dialog(bx_param_bool_c *param) { int button_x[2], size_x, size_y; int control, ypos; unsigned int cpos1, cpos2, len, maxlen, lines; char name[80], message[512]; if (param->get_label() != NULL) { strcpy(name, param->get_label()); } else { strcpy(name, param->get_name()); } strcpy(message, param->get_description()); cpos1 = 0; cpos2 = 0; lines = 0; maxlen = 0; while (cpos2 < strlen(message)) { lines++; while ((cpos2 < strlen(message)) && (message[cpos2] != 0x0a)) cpos2++; len = cpos2 - cpos1; if (len > maxlen) maxlen = len; cpos2++; cpos1 = cpos2; } if (maxlen < 36) { size_x = 250; button_x[0] = 55; button_x[1] = 130; } else { size_x = 10 + maxlen * 7; button_x[0] = (size_x / 2) - 70; button_x[1] = (size_x / 2) + 5; } if (lines < 3) { size_y = 90; } else { size_y = 60 + lines * 15; } control = 1 - param->get(); x11_dialog_c *xdlg = new x11_dialog_c(name, size_x, size_y, 2); cpos1 = 0; cpos2 = 0; ypos = 34; while (cpos2 < strlen(message)) { while ((cpos2 < strlen(message)) && (message[cpos2] != 0x0a)) cpos2++; len = cpos2 - cpos1; xdlg->add_static_text(20, ypos, message+cpos1, len); cpos2++; cpos1 = cpos2; ypos += 15; } xdlg->add_control(XDC_BUTTON, button_x[0], size_y - 30, 65, 20, "Yes"); xdlg->add_control(XDC_BUTTON, button_x[1], size_y - 30, 65, 20, "No"); control = xdlg->run(control, 0, 1); param->set(1 - control); delete xdlg; return control; } BxEvent *x11_notify_callback (void *unused, BxEvent *event) { int opts; bx_param_c *param; bx_param_string_c *sparam; bx_param_enum_c *eparam; bx_list_c *list; switch (event->type) { case BX_SYNC_EVT_LOG_ASK: event->retcode = x11_ask_dialog(event); return event; case BX_SYNC_EVT_ASK_PARAM: param = event->u.param.param; if (param->get_type() == BXT_PARAM_STRING) { sparam = (bx_param_string_c *)param; opts = sparam->get_options(); if ((opts & sparam->IS_FILENAME) == 0) { event->retcode = x11_string_dialog(sparam, NULL); return event; } else if ((opts & sparam->SAVE_FILE_DIALOG) || (opts & sparam->SELECT_FOLDER_DLG)) { event->retcode = x11_string_dialog(sparam, NULL); return event; } } else if (param->get_type() == BXT_LIST) { list = (bx_list_c *)param; sparam = (bx_param_string_c *)list->get_by_name("path"); eparam = (bx_param_enum_c *)list->get_by_name("status"); event->retcode = x11_string_dialog(sparam, eparam); return event; } else if (param->get_type() == BXT_PARAM_BOOL) { event->retcode = x11_yesno_dialog((bx_param_bool_c *)param); return event; } case BX_SYNC_EVT_TICK: // called periodically by siminterface. case BX_ASYNC_EVT_REFRESH: // called when some bx_param_c parameters have changed. // fall into default case default: return (*old_callback)(old_callback_arg, event); } } #endif /* if BX_WITH_X11 */