/* * Copyright (C) 1997-2002, Michael Jennings * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies of the Software, its documentation and marketing & publicity * materials, and acknowledgment shall be given in the documentation, materials * and software packages that this Software was used. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL * THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER * IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. */ static const char cvs_ident[] = "$Id$"; #include "config.h" #include "feature.h" #include #include #include #include #include #include "buttons.h" #include "command.h" #include "e.h" #include "events.h" #include "font.h" #include "startup.h" #include "menus.h" #include "options.h" #include "pixmap.h" #include "screen.h" #include "scrollbar.h" #include "term.h" #include "windows.h" XWindowAttributes attr; XSetWindowAttributes Attributes; XSizeHints szHint = { PMinSize | PResizeInc | PBaseSize, 0, 0, 80, 24, /* x, y, width, height */ 1, 1, /* Min width, height */ 0, 0, /* Max width, height - unused */ 1, 1, /* increments: width, height */ {1, 1}, /* increments: x, y */ {0, 0}, /* Aspect ratio - unused */ 0, 0, /* base size: width, height */ NorthWestGravity /* gravity */ }; Cursor TermWin_cursor; /* cursor for vt window */ void set_text_property(Window win, char *propname, char *value) { XTextProperty prop; Atom atom; ASSERT(propname != NULL); if (value == NULL) { atom = XInternAtom(Xdisplay, propname, True); if (atom == None) { return; } XDeleteProperty(Xdisplay, win, atom); } else { atom = XInternAtom(Xdisplay, propname, False); prop.value = (unsigned char *) value; prop.encoding = XA_STRING; prop.format = 8; prop.nitems = strlen(value); XSetTextProperty(Xdisplay, win, &prop, atom); } } unsigned long get_tint_by_color_name(const char *color) { XColor wcol, xcol; unsigned long r, g, b, t; wcol.pixel = WhitePixel(Xdisplay, Xscreen); XQueryColor(Xdisplay, cmap, &wcol); D_PIXMAP(("Tint string is \"%s\", white color is rgbi:%d/%d/%d\n", color, wcol.red, wcol.green, wcol.blue)); if (!XParseColor(Xdisplay, cmap, color, &xcol)) { print_error("Unable to parse tint color \"%s\". Ignoring.\n", color); return 0xffffff; } D_PIXMAP(("RGB values for color are %d/%d/%d\n", xcol.red, xcol.green, xcol.blue)); if ((wcol.flags & DoRed) && (xcol.flags & DoRed)) { r = (xcol.red << 8) / wcol.red; D_PIXMAP(("Got red == %lu\n", r)); if (r >= 0x100) r = 0xff; } else { r = 0xff; } if ((wcol.flags & DoGreen) && (xcol.flags & DoGreen)) { g = (xcol.green << 8) / wcol.green; D_PIXMAP(("Got green == %lu\n", g)); if (g >= 0x100) g = 0xff; } else { g = 0xff; } if ((wcol.flags & DoBlue) && (xcol.flags & DoBlue)) { b = (xcol.blue << 8) / wcol.blue; D_PIXMAP(("Got blue == %lu\n", b)); if (b >= 0x100) b = 0xff; } else { b = 0xff; } t = (r << 16) | (g << 8) | b; D_PIXMAP(("Final tint is 0x%06x\n", t)); return t; } Pixel get_bottom_shadow_color(Pixel norm_color, const char *type) { XColor xcol; xcol.pixel = norm_color; XQueryColor(Xdisplay, cmap, &xcol); xcol.red /= 2; xcol.green /= 2; xcol.blue /= 2; if (!XAllocColor(Xdisplay, cmap, &xcol)) { print_error("Unable to allocate \"%s\" (0x%08x: 0x%04x, 0x%04x, 0x%04x) in the color map.\n", type, xcol.pixel, xcol.red, xcol.green, xcol.blue); xcol.pixel = PixColors[minColor]; } return (xcol.pixel); } Pixel get_top_shadow_color(Pixel norm_color, const char *type) { XColor xcol, white; # ifdef PREFER_24BIT white.red = white.green = white.blue = r = g = b = ~0; XAllocColor(Xdisplay, cmap, &white); # else white.pixel = WhitePixel(Xdisplay, Xscreen); XQueryColor(Xdisplay, cmap, &white); # endif xcol.pixel = norm_color; XQueryColor(Xdisplay, cmap, &xcol); xcol.red = MAX((white.red / 5), xcol.red); xcol.green = MAX((white.green / 5), xcol.green); xcol.blue = MAX((white.blue / 5), xcol.blue); xcol.red = MIN(white.red, (xcol.red * 7) / 5); xcol.green = MIN(white.green, (xcol.green * 7) / 5); xcol.blue = MIN(white.blue, (xcol.blue * 7) / 5); if (!XAllocColor(Xdisplay, cmap, &xcol)) { print_error("Unable to allocate \"%s\" (0x%08x: 0x%04x, 0x%04x, 0x%04x) in the color map.\n", type, xcol.pixel, xcol.red, xcol.green, xcol.blue); xcol.pixel = PixColors[WhiteColor]; } return (xcol.pixel); } Pixel get_color_by_name(const char *name, const char *fallback) { XColor xcol; if (name == NULL) { if (fallback == NULL) { return ((Pixel) - 1); } else { name = fallback; } } else if (isdigit(*name)) { unsigned long c; c = strtoul(name, (char **) NULL, 0); if (c <= 15) { name = rs_color[c + minColor]; } } if (!XParseColor(Xdisplay, cmap, name, &xcol)) { print_warning("Unable to resolve \"%s\" as a color name. Falling back on \"%s\".\n", name, NONULL(fallback)); name = fallback; if (name) { if (!XParseColor(Xdisplay, cmap, name, &xcol)) { print_warning("Unable to resolve \"%s\" as a color name. This should never fail. Please repair/restore your RGB database.\n", name); return ((Pixel) - 1); } } else { return ((Pixel) - 1); } } if (!XAllocColor(Xdisplay, cmap, &xcol)) { print_warning("Unable to allocate \"%s\" (0x%08x: 0x%04x, 0x%04x, 0x%04x) in the color map. Falling back on \"%s\".\n", name, xcol.pixel, xcol.red, xcol.green, xcol.blue, NONULL(fallback)); name = fallback; if (name) { if (!XAllocColor(Xdisplay, cmap, &xcol)) { print_warning("Unable to allocate \"%s\" (0x%08x: 0x%04x, 0x%04x, 0x%04x) in the color map.\n", name, xcol.pixel, xcol.red, xcol.green, xcol.blue); return ((Pixel) - 1); } } else { return ((Pixel) - 1); } } return (xcol.pixel); } Pixel get_color_by_pixel(Pixel pixel, Pixel fallback) { XColor xcol; xcol.pixel = pixel; if (!XQueryColor(Xdisplay, cmap, &xcol)) { print_warning("Unable to convert pixel value 0x%08x to an XColor structure. Falling back on 0x%08x.\n", pixel, fallback); xcol.pixel = fallback; if (!XQueryColor(Xdisplay, cmap, &xcol)) { print_warning("Unable to convert pixel value 0x%08x to an XColor structure.\n", xcol.pixel); return ((Pixel) 0); } } if (!XAllocColor(Xdisplay, cmap, &xcol)) { print_warning("Unable to allocate 0x%08x (0x%04x, 0x%04x, 0x%04x) in the color map. Falling back on 0x%08x.\n", xcol.pixel, xcol.red, xcol.green, xcol.blue, fallback); xcol.pixel = fallback; if (!XAllocColor(Xdisplay, cmap, &xcol)) { print_warning("Unable to allocate 0x%08x (0x%04x, 0x%04x, 0x%04x) in the color map.\n", xcol.pixel, xcol.red, xcol.green, xcol.blue); return ((Pixel) 0); } } return (xcol.pixel); } void process_colors(void) { int i; Pixel pixel; for (i = 0; i < NRS_COLORS; i++) { if ((Xdepth <= 2) || ((pixel = get_color_by_name(rs_color[i], def_colorName[i])) == (Pixel) - 1)) { switch (i) { case fgColor: pixel = WhitePixel(Xdisplay, Xscreen); break; case bgColor: pixel = BlackPixel(Xdisplay, Xscreen); break; #ifndef NO_CURSORCOLOR case cursorColor: pixel = PixColors[bgColor]; break; case cursorColor2: pixel = PixColors[fgColor]; break; #endif /* NO_CURSORCOLOR */ case pointerColor: pixel = PixColors[fgColor]; break; case borderColor: pixel = PixColors[bgColor]; break; #ifndef NO_BOLDUNDERLINE case colorBD: pixel = PixColors[fgColor]; break; case colorUL: pixel = PixColors[fgColor]; break; #endif default: pixel = PixColors[fgColor]; /* None */ break; } } PixColors[i] = pixel; } if (Xdepth <= 2) { /* Monochrome */ PixColors[topShadowColor] = PixColors[fgColor]; PixColors[bottomShadowColor] = PixColors[fgColor]; PixColors[unfocusedTopShadowColor] = PixColors[fgColor]; PixColors[unfocusedBottomShadowColor] = PixColors[fgColor]; PixColors[menuTopShadowColor] = PixColors[fgColor]; PixColors[menuBottomShadowColor] = PixColors[fgColor]; PixColors[unfocusedMenuTopShadowColor] = PixColors[fgColor]; PixColors[unfocusedMenuBottomShadowColor] = PixColors[fgColor]; } else { PixColors[bottomShadowColor] = get_bottom_shadow_color(images[image_sb].norm->bg, "bottomShadowColor"); PixColors[unfocusedBottomShadowColor] = get_bottom_shadow_color(images[image_sb].disabled->bg, "unfocusedBottomShadowColor"); PixColors[topShadowColor] = get_top_shadow_color(images[image_sb].norm->bg, "topShadowColor"); PixColors[unfocusedTopShadowColor] = get_top_shadow_color(images[image_sb].disabled->bg, "unfocusedTopShadowColor"); PixColors[menuBottomShadowColor] = get_bottom_shadow_color(images[image_menu].norm->bg, "menuBottomShadowColor"); PixColors[unfocusedMenuBottomShadowColor] = get_bottom_shadow_color(images[image_menu].disabled->bg, "unfocusedMenuBottomShadowColor"); PixColors[menuTopShadowColor] = get_top_shadow_color(images[image_menu].norm->bg, "menuTopShadowColor"); PixColors[unfocusedMenuTopShadowColor] = get_top_shadow_color(images[image_menu].disabled->bg, "unfocusedMenuTopShadowColor"); } stored_palette(SAVE); } /* Create_Windows() - Open and map the window */ void Create_Windows(int argc, char *argv[]) { Cursor cursor; XClassHint classHint; XWMHints wmHint; Atom prop = None; CARD32 val; int x = 0, y = 0, flags; unsigned int width = 0, height = 0; MWMHints mwmhints; if (Options & Opt_borderless) { prop = XInternAtom(Xdisplay, "_MOTIF_WM_INFO", True); if (prop == None) { print_warning("Window Manager does not support MWM hints. Bypassing window manager control for borderless window.\n"); Attributes.override_redirect = TRUE; mwmhints.flags = 0; } else { mwmhints.flags = MWM_HINTS_DECORATIONS; mwmhints.decorations = 0; } } else { mwmhints.flags = 0; } Attributes.colormap = cmap; szHint.base_width = (2 * TermWin.internalBorder + ((Options & Opt_scrollbar) ? (scrollbar_get_width() + (2 * scrollbar_get_shadow())) : 0)); szHint.base_height = (2 * TermWin.internalBorder) + bbar_calc_docked_height(BBAR_DOCKED); flags = (rs_geometry ? XParseGeometry(rs_geometry, &x, &y, &width, &height) : 0); D_X11(("XParseGeometry(geom, %d, %d, %d, %d)\n", x, y, width, height)); if (flags & WidthValue) { szHint.width = width; szHint.flags |= USSize; } if (flags & HeightValue) { szHint.height = height; szHint.flags |= USSize; } TermWin.ncol = szHint.width; TermWin.nrow = szHint.height; change_font(1, NULL); if (flags & XValue) { if (flags & XNegative) { x += (DisplayWidth(Xdisplay, Xscreen) - (szHint.width + TermWin.internalBorder)); } szHint.x = x; szHint.flags |= USPosition; } if (flags & YValue) { if (flags & YNegative) { y += (DisplayHeight(Xdisplay, Xscreen) - (szHint.height + TermWin.internalBorder)); } szHint.y = y; szHint.flags |= USPosition; } if (flags) { D_X11(("Geometry values after parsing: %dx%d%+d%+d\n", width, height, x, y)); } Attributes.background_pixel = PixColors[bgColor]; Attributes.border_pixel = PixColors[bgColor]; D_X11(("Size Hints: x %d, y %d. Width/Height: Base %dx%d, Minimum %dx%d, Current %dx%d, Increment %dx%d\n", szHint.x, szHint.y, szHint.base_width, szHint.base_height, szHint.min_width, szHint.min_height, szHint.width, szHint.height, szHint.width_inc, szHint.height_inc)); TermWin.parent = XCreateWindow(Xdisplay, Xroot, szHint.x, szHint.y, szHint.width, szHint.height, 0, Xdepth, InputOutput, #ifdef PREFER_24BIT Xvisual, #else CopyFromParent, #endif CWBackPixel | CWBorderPixel | CWColormap | CWOverrideRedirect, &Attributes); xterm_seq(XTerm_title, rs_title); xterm_seq(XTerm_iconName, rs_iconName); classHint.res_name = (char *) rs_name; classHint.res_class = APL_NAME; wmHint.window_group = TermWin.parent; wmHint.input = ((Options & Opt_no_input) ? False : True); wmHint.initial_state = (Options & Opt_iconic ? IconicState : NormalState); wmHint.window_group = TermWin.parent; wmHint.flags = (InputHint | StateHint | WindowGroupHint); #ifdef PIXMAP_SUPPORT set_icon_pixmap(rs_icon, &wmHint); #endif XSetWMProperties(Xdisplay, TermWin.parent, NULL, NULL, argv, argc, &szHint, &wmHint, &classHint); XSelectInput(Xdisplay, Xroot, PropertyChangeMask); XSelectInput(Xdisplay, TermWin.parent, (KeyPressMask | FocusChangeMask | StructureNotifyMask | VisibilityChangeMask | PropertyChangeMask)); if (mwmhints.flags) { prop = XInternAtom(Xdisplay, "_MOTIF_WM_HINTS", False); XChangeProperty(Xdisplay, TermWin.parent, prop, prop, 32, PropModeReplace, (unsigned char *) &mwmhints, PROP_MWM_HINTS_ELEMENTS); } /* vt cursor: Black-on-White is standard, but this is more popular */ TermWin_cursor = XCreateFontCursor(Xdisplay, XC_xterm); { XColor fg, bg; fg.pixel = PixColors[pointerColor]; XQueryColor(Xdisplay, cmap, &fg); bg.pixel = PixColors[bgColor]; XQueryColor(Xdisplay, cmap, &bg); XRecolorCursor(Xdisplay, TermWin_cursor, &fg, &bg); } /* cursor (menu/scrollbar): Black-on-White */ cursor = XCreateFontCursor(Xdisplay, XC_left_ptr); /* the vt window */ TermWin.x = (((Options & Opt_scrollbar) && !(Options & Opt_scrollbar_right)) ? (scrollbar_get_width() + (2 * scrollbar_get_shadow())) : 0); TermWin.y = bbar_calc_docked_height(BBAR_DOCKED_TOP); TermWin.vt = XCreateWindow(Xdisplay, TermWin.parent, TermWin.x, TermWin.y, szHint.width, szHint.height, 0, Xdepth, InputOutput, CopyFromParent, CWBackPixel | CWBorderPixel | CWOverrideRedirect | CWColormap, &Attributes); D_X11(("Created terminal window 0x%08x at %dx%d\n", TermWin.vt, TermWin.x, TermWin.y)); if (!(background_is_pixmap()) && !(Options & Opt_borderless)) { XSetWindowBackground(Xdisplay, TermWin.vt, PixColors[bgColor]); XClearWindow(Xdisplay, TermWin.vt); } XDefineCursor(Xdisplay, TermWin.vt, TermWin_cursor); TermWin.mask = (EnterWindowMask | LeaveWindowMask | ExposureMask | ButtonPressMask | ButtonReleaseMask | Button1MotionMask | Button2MotionMask | Button3MotionMask); XSelectInput(Xdisplay, TermWin.vt, TermWin.mask); /* If the user wants a specific desktop, tell the WM that */ if (rs_desktop != -1) { val = rs_desktop; XChangeProperty(Xdisplay, TermWin.parent, props[PROP_DESKTOP], XA_CARDINAL, 32, PropModeReplace, (unsigned char *) &val, 1); } /* We're done creating our windows. Now let's initialize the event subsystem to handle them. */ event_init_subsystem((event_dispatcher_t) process_x_event, (event_dispatcher_init_t) event_init_primary_dispatcher); XMapWindow(Xdisplay, TermWin.vt); XMapWindow(Xdisplay, TermWin.parent); XSetWindowBackground(Xdisplay, TermWin.vt, PixColors[bgColor]); render_simage(images[image_bg].current, TermWin.vt, TermWin_TotalWidth(), TermWin_TotalHeight(), image_bg, 0); if (image_mode_is(image_bg, MODE_AUTO)) { enl_ipc_sync(); } /* graphics context for the vt window */ { XGCValues gcvalue; gcvalue.font = TermWin.font->fid; gcvalue.foreground = PixColors[fgColor]; gcvalue.background = PixColors[bgColor]; gcvalue.graphics_exposures = 0; TermWin.gc = LIBAST_X_CREATE_GC(GCForeground | GCBackground | GCFont | GCGraphicsExposures, &gcvalue); } if (Options & Opt_no_cursor) { scr_cursor_visible(0); } } /* resize window keeping one point (determined by window geometry) in place */ void resize_parent(unsigned int width, unsigned int height) { XWindowAttributes attr; if (!(Options & Opt_resize_gravity) || !XGetWindowAttributes(Xdisplay, TermWin.parent, &attr)) { XResizeWindow(Xdisplay, TermWin.parent, width, height); } else { Window junkwin; int x, y, scr_w, scr_h; int dx = 0, dy = 0; scr_w = WidthOfScreen(attr.screen); scr_h = HeightOfScreen(attr.screen); dx = attr.width - width; dy = attr.height - height; XTranslateCoordinates(Xdisplay, TermWin.parent, attr.root, 0, 0, &x, &y, &junkwin); /* Check position of the center of the window */ if (x < (scr_w - attr.width) / 2) { /* left half */ dx = 0; } else if (x == (scr_w - attr.width) / 2) { /* exact center */ dx /= 2; } if (y < (scr_h - attr.height) / 2) { /* top half */ dy = 0; } else if (y == (scr_h - attr.height) / 2) { /* exact center */ dy /= 2; } D_X11(("Calling XMoveResizeWindow(Xdisplay, 0x%08x, %d + %d, %d + %d, %d, %d)\n", TermWin.parent, x, dx, y, dy, width, height)); XMoveResizeWindow(Xdisplay, TermWin.parent, x + dx, y + dy, width, height); } } /* good for toggling 80/132 columns */ void set_width(unsigned short width) { unsigned short height = TermWin.nrow; if (width != TermWin.ncol) { width = szHint.base_width + width * TermWin.fwidth; height = szHint.base_height + height * TermWin.fheight; resize_parent(width, height); handle_resize(width, height); } } void update_size_hints(void) { D_X11(("Called.\n")); szHint.base_width = (2 * TermWin.internalBorder) + ((scrollbar_is_visible())? (scrollbar_trough_width()) : (0)); szHint.base_height = (2 * TermWin.internalBorder) + bbar_calc_docked_height(BBAR_DOCKED); szHint.width_inc = TermWin.fwidth; szHint.height_inc = TermWin.fheight; D_X11(("Size Hints: base width/height == %lux%lu, width/height increment == %lux%lu\n", szHint.base_width, szHint.base_height, szHint.width_inc, szHint.height_inc)); szHint.min_width = szHint.base_width + szHint.width_inc; szHint.min_height = szHint.base_height + szHint.height_inc; szHint.width = szHint.base_width + TermWin.width; szHint.height = szHint.base_height + TermWin.height; D_X11((" Minimum width/height == %lux%lu, width/height == %lux%lu\n", szHint.min_width, szHint.min_height, szHint.width, szHint.height)); szHint.flags = PMinSize | PResizeInc | PBaseSize; XSetWMNormalHints(Xdisplay, TermWin.parent, &szHint); } /* Resize terminal window and scrollbar window */ void term_resize(int width, int height) { static int last_width = 0, last_height = 0; D_X11(("term_resize(%d, %d)\n", width, height)); TermWin.width = TermWin.ncol * TermWin.fwidth; #ifdef ESCREEN TermWin.height = (NS_MAGIC_LINE(TermWin.screen_mode) ? TermWin.nrow - 1 : TermWin.nrow) * TermWin.fheight; #else TermWin.height = TermWin.nrow * TermWin.fheight; #endif D_X11((" -> New TermWin width/height == %lux%lu\n", TermWin.width, TermWin.height)); width = TermWin_TotalWidth(); height = TermWin_TotalHeight(); XMoveResizeWindow(Xdisplay, TermWin.vt, ((Options & Opt_scrollbar_right) ? (0) : ((scrollbar_is_visible())? (scrollbar_trough_width()) : (0))), bbar_calc_docked_height(BBAR_DOCKED_TOP), width, height); if (width != last_width || height != last_height) { render_simage(images[image_bg].current, TermWin.vt, TermWin_TotalWidth(), TermWin_TotalHeight(), image_bg, 0); scr_reset(); scr_touch(); if (image_mode_is(image_bg, MODE_AUTO)) { enl_ipc_sync(); } last_width = width; last_height = height; } #ifdef USE_XIM xim_set_status_position(); #endif } /* Resize due to font change; update size hints and child windows */ void parent_resize(void) { D_X11(("Called.\n")); update_size_hints(); resize_parent(szHint.width, szHint.height); D_X11((" -> New parent width/height == %lux%lu\n", szHint.width, szHint.height)); term_resize(szHint.width, szHint.height); scrollbar_resize(szHint.width, szHint.height - bbar_calc_docked_height(BBAR_DOCKED)); bbar_resize_all(szHint.width); } void handle_resize(unsigned int width, unsigned int height) { static short first_time = 1; int new_ncol = (width - szHint.base_width) / TermWin.fwidth; int new_nrow = (height - szHint.base_height) / TermWin.fheight; D_EVENTS(("handle_resize(%u, %u)\n", width, height)); #ifdef ESCREEN if (NS_MAGIC_LINE(TermWin.screen_mode)) { new_nrow++; } #endif if (first_time || (new_ncol != TermWin.ncol) || (new_nrow != TermWin.nrow)) { TermWin.ncol = new_ncol; TermWin.nrow = new_nrow; term_resize(width, height); szHint.width = szHint.base_width + TermWin.width; szHint.height = szHint.base_height + TermWin.height; D_X11((" -> New szHint.width/height == %lux%lu\n", szHint.width, szHint.height)); scrollbar_resize(width, szHint.height - bbar_calc_docked_height(BBAR_DOCKED)); bbar_resize_all(szHint.width); first_time = 0; } } void handle_move(int x, int y) { if ((TermWin.x != x) || (TermWin.y != y)) { TermWin.x = x; TermWin.y = y; if (image_mode_any(MODE_TRANS | MODE_VIEWPORT)) { redraw_images_by_mode(MODE_TRANS | MODE_VIEWPORT); } } } #ifdef XTERM_COLOR_CHANGE void stored_palette(char op) { static Pixel default_colors[NRS_COLORS + NSHADOWCOLORS]; static unsigned char stored = 0; unsigned char i; if (op == SAVE) { for (i = 0; i < NRS_COLORS; i++) { default_colors[i] = PixColors[i]; } stored = 1; } else if (op == RESTORE && stored) { for (i = 0; i < NRS_COLORS; i++) { PixColors[i] = default_colors[i]; } } } void set_window_color(int idx, const char *color) { XColor xcol; int i; D_X11(("idx == %d, color == \"%s\"\n", idx, NONULL(color))); if (color == NULL || *color == '\0') return; /* handle color aliases */ if (isdigit(*color)) { i = atoi(color); if (i >= 8 && i <= 15) { /* bright colors */ i -= 8; # ifndef NO_BRIGHTCOLOR PixColors[idx] = PixColors[minBright + i]; # endif } # ifndef NO_BRIGHTCOLOR else # endif if (i >= 0 && i <= 7) { /* normal colors */ PixColors[idx] = PixColors[minColor + i]; } else { print_warning("Color index %d is invalid.\n", i); return; } } else if (XParseColor(Xdisplay, cmap, color, &xcol)) { if (!XAllocColor(Xdisplay, cmap, &xcol)) { print_warning("Unable to allocate \"%s\" in the color map.\n", color); return; } PixColors[idx] = xcol.pixel; } else { print_warning("Unable to resolve \"%s\" as a color name.\n", color); return; } redraw_image(image_bg); set_colorfgbg(); scr_touch(); scr_refresh(DEFAULT_REFRESH); } #endif /* XTERM_COLOR_CHANGE */ Window find_window_by_coords(Window win, int win_x, int win_y, int rel_x, int rel_y) { Window *children = NULL; XWindowAttributes attr; Window child = 0, parent_win = 0, root_win = 0; int i; unsigned int ww, wh, num; int wx, wy; D_X11(("win 0x%08x at %d, %d. Coords are %d, %d.\n", win, win_x, win_y, rel_x, rel_y)); /* Bad or invisible window. */ if ((!XGetWindowAttributes(Xdisplay, win, &attr)) || (attr.map_state != IsViewable)) { return None; } wx = attr.x + win_x; wy = attr.y + win_y; ww = attr.width; wh = attr.height; if (!((rel_x >= wx) && (rel_y >= wy) && (rel_x < (int) (wx + ww)) && (rel_y < (int) (wy + wh)))) { return None; } if (!XQueryTree(Xdisplay, win, &root_win, &parent_win, &children, &num)) { return win; } if (children) { D_X11(("%d children.\n", num)); for (i = num - 1; i >= 0; i--) { D_X11(("Trying children[%d] (0x%08x)\n", i, children[i])); if ((child = find_window_by_coords(children[i], wx, wy, rel_x, rel_y)) != None) { D_X11(("Match!\n")); XFree(children); return child; } } D_X11(("XFree(children)\n")); XFree(children); } D_X11(("Returning 0x%08x\n", win)); return win; }