/* * $Id: xresource.c,v 1.2 2001/06/14 18:16:12 ura Exp $ */ /* * FreeWnn is a network-extensible Kana-to-Kanji conversion system. * This file is part of FreeWnn. * * Copyright OMRON Corporation. 1987, 1988, 1989, 1990, 1991, 1992, 1999 * * Author: OMRON SOFTWARE Co., Ltd. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with GNU Emacs; see the file COPYING. If not, write to the * Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * * Commentary: * * Change log: * * Last modified date: 8,Feb.1999 * * Code: * */ /* * X11R5 Input Method Test Program * xresorce.c v 1.0 Mon Mar 4 10:33:36 JST 1991 */ /* * Author: Takashi Inoue OMRON Corporation * takashi@ari.ncl.omron.co.jp * * Shoji kamada OMRON Corporation * kamada@ari.ncl.omron.co.jp */ #include "exvalue.h" #include "func.h" #include #include #include #include void createxres () /* CREATE X RESources */ { char **miss[ARRAY_MAX], *def[ARRAY_MAX]; int i[ARRAY_MAX], cnt, pix_no; int flags = { DoRed | DoGreen | DoBlue }; u_long plane[PLANE_MAX]; static char *name[ARRAY_MAX][PIX_MAX] = { {"white", "orange", "lightblue", "forestgreen"}, {"red", "blue", "yellow", "black"} }; static char *font[ARRAY_MAX] = { "a14, k14, kana14", "-*--18-*" }; static u_int shape[ARRAY_MAX] = { XC_gumby, XC_trek }; Visual *visual; u_long valuemask; XGCValues values; prstatus ("Creating X resources..."); if ((dpy = XOpenDisplay ("")) == NULL) { cls (stdisp); cls (prdisp); prprint ("Error : Can't open display\n\n"); prprint ("Check environment valuable \"DISPLAY\".\n\n"); freemwin (); } scr = XDefaultScreen (dpy); rwin = RootWindow (dpy, scr); visual = DefaultVisual (dpy, scr); dcmap = DefaultColormap (dpy, scr); if (XAllocColorCells (dpy, dcmap, False, plane, 0, pixel[cmflag], PIX_MAX)) { for (pix_no = 0; pix_no < PIX_MAX; pix_no++) { XStoreNamedColor (dpy, dcmap, name[cmflag][pix_no], pixel[cmflag][pix_no], flags); } } else { prprint ("I cannot allocate colors.\n"); prprint ("I will shutdown this program soon.\n\n"); freemwin (); } cmap[0] = XCreateColormap (dpy, rwin, visual, AllocNone); cmap[1] = XCreateColormap (dpy, rwin, visual, AllocNone); for (cnt = 0; cnt < ARRAY_MAX; cnt++) { if (XAllocColorCells (dpy, cmap[cnt], False, plane, 0, pixel[cnt], PIX_MAX)) { for (pix_no = 0; pix_no < PIX_MAX; pix_no++) { XStoreNamedColor (dpy, cmap[cnt], name[cnt][pix_no], pixel[cnt][pix_no], flags); } } else { prprint ("I cannot allocate colors.\n"); prprint ("I will shutdown this program soon.\n\n"); freemwin (); } fontset[cnt] = XCreateFontSet (dpy, font[cnt], &miss[cnt], &i[cnt], &def[cnt]); cursor[cnt] = XCreateFontCursor (dpy, shape[cnt]); pix[cnt] = XCreatePixmapFromBitmapData (dpy, rwin, bit_bits[cnt], BIT_WIDTH, BIT_HEIGHT, pixel[cmflag][1], pixel[cmflag][2], DefaultDepth (dpy, scr)); } valuemask = GCFunction | GCForeground | GCBackground; values.function = GXcopy; values.foreground = pixel[cmflag][2]; values.background = pixel[cmflag][1]; gc = XCreateGC (dpy, rwin, valuemask, &values); mktwin (); mkmwin (); mapwin (); dstrwin (); prstatus ("done."); } void mktwin () /* MaKe Test WINdow */ { XSizeHints hints; XClassHint class_hints; XWMHints wm_hints; XTextProperty win_name, icon_name; win_name.value = (u_char *) "X11R5 XIM Test"; win_name.encoding = XA_STRING; win_name.format = 8; win_name.nitems = strlen (win_name.value); icon_name.value = win_name.value; icon_name.encoding = XA_STRING; icon_name.format = 8; icon_name.nitems = win_name.nitems; hints.flags = (USPosition | USSize | PMinSize | PMaxSize | PResizeInc | PBaseSize | PWinGravity); hints.x = W1_X; hints.y = W1_Y; hints.width = hints.min_width = hints.max_width = W1_WIDTH; hints.height = hints.min_height = hints.min_height = W1_HEIGHT; hints.width_inc = hints.height_inc = 0; hints.base_width = W1_WIDTH; hints.base_height = W1_HEIGHT; hints.win_gravity = CenterGravity; class_hints.res_name = NULL; class_hints.res_class = NULL; wm_hints.flags = InputHint; wm_hints.input = True; window1.win = XCreateSimpleWindow (dpy, rwin, W1_X, W1_Y, W1_WIDTH, W1_HEIGHT, W_BORDER, pixel[cmflag][2], pixel[cmflag][1]); window2.win = XCreateSimpleWindow (dpy, window1.win, W23_X, W2_Y, W2_WIDTH, W23_HEIGHT, W_BORDER, pixel[cmflag][2], pixel[cmflag][1]); window3.win = XCreateSimpleWindow (dpy, window1.win, W23_X, W3_Y, W3_WIDTH, W23_HEIGHT, W_BORDER, pixel[cmflag][2], pixel[cmflag][1]); ufocus = window3.win; window1.name = XCreateSimpleWindow (dpy, window1.win, WIN_ITV, CALCY (W1_HEIGHT, NW_HEIGHT), NW_WIDTH, NW_HEIGHT, W_BORDER, pixel[cmflag][1], pixel[cmflag][1]); window2.name = XCreateSimpleWindow (dpy, window2.win, WIN_ITV, CALCY (W23_HEIGHT, NW_HEIGHT), NW_WIDTH, NW_HEIGHT, W_BORDER, pixel[cmflag][1], pixel[cmflag][1]); window3.name = XCreateSimpleWindow (dpy, window3.win, WIN_ITV, CALCY (W23_HEIGHT, NW_HEIGHT), NW_WIDTH, NW_HEIGHT, W_BORDER, pixel[cmflag][1], pixel[cmflag][1]); XSetWMProperties (dpy, window1.win, &win_name, &icon_name, NULL, 0, &hints, &wm_hints, &class_hints); XSelectInput (dpy, window1.win, ExposureMask | ButtonPressMask | KeyPressMask); XSelectInput (dpy, window1.name, ExposureMask); XSelectInput (dpy, window2.win, ExposureMask | ButtonPressMask | KeyPressMask); XSelectInput (dpy, window2.name, ExposureMask); XSelectInput (dpy, window3.win, ExposureMask | ButtonPressMask | KeyPressMask); XSelectInput (dpy, window3.name, ExposureMask); XSetWindowColormap (dpy, window1.win, cmap[0]); XSetWindowColormap (dpy, window2.win, cmap[0]); XSetWindowColormap (dpy, window3.win, cmap[0]); } void mkmwin () /* MaKe Menu WINdow */ { int cnt; u_int mroot_width; u_int mroot_height; XSizeHints hints; XClassHint class_hints; XWMHints wm_hints; XTextProperty win_name, icon_name; for (cnt = 0; ftbl[cnt].mname != NULL; cnt++) ; mroot_width = MSUB_WIDTH * cnt; mroot_height = MSUB_HEIGHT * 2; mroot = XCreateSimpleWindow (dpy, rwin, MROOT_X, MROOT_Y, mroot_width, mroot_height, M_BORDER, pixel[cmflag][2], pixel[cmflag][1]); XSelectInput (dpy, mroot, ExposureMask); win_name.value = (u_char *) "X11R5 XIM Menu"; win_name.encoding = XA_STRING; win_name.format = 8; win_name.nitems = strlen (win_name.value); icon_name.value = win_name.value; icon_name.encoding = XA_STRING; icon_name.format = 8; icon_name.nitems = win_name.nitems; hints.flags = (USPosition | USSize | PMinSize | PMaxSize | PResizeInc | PBaseSize | PWinGravity); hints.x = MROOT_X; hints.y = MROOT_Y; hints.width = hints.min_width = hints.max_width = mroot_width; hints.height = hints.min_height = hints.min_height = mroot_height; hints.width_inc = hints.height_inc = 0; hints.base_width = mroot_width; hints.base_height = mroot_height; hints.win_gravity = CenterGravity; class_hints.res_name = NULL; class_hints.res_class = NULL; wm_hints.flags = InputHint; wm_hints.input = True; XSetWMProperties (dpy, mroot, &win_name, &icon_name, NULL, 0, &hints, &wm_hints, &class_hints); strflag = MB; strmode = XCreateSimpleWindow (dpy, mroot, MSUB_WIDTH * 11, 0, MSUB_WIDTH, MSUB_HEIGHT, 0, pixel[cmflag][2], pixel[cmflag][1]); XSelectInput (dpy, strmode, ExposureMask | ButtonPressMask); for (cnt = 0; ftbl[cnt].mname != NULL; cnt++) { mwin[cnt] = XCreateSimpleWindow (dpy, mroot, MSUB_WIDTH * cnt, MSUB_Y, MSUB_WIDTH, MSUB_HEIGHT, M_BORDER, pixel[cmflag][2], pixel[cmflag][1]); XSelectInput (dpy, mwin[cnt], ExposureMask | ButtonPressMask); } XSetWindowColormap (dpy, mroot, cmap[0]); } void mapwin () /* MAP WINdow */ { XMapWindow (dpy, window1.win); XMapSubwindows (dpy, window1.win); XMapSubwindows (dpy, window2.win); XMapSubwindows (dpy, window3.win); XMapWindow (dpy, mroot); XMapSubwindows (dpy, mroot); } void dstrwin () /* Draw STRing on WINdow */ { int cnt; char *wfont = "-adobe-helvetica-bold-r-normal--*-120-*"; XSetFont (dpy, gc, XLoadFont (dpy, wfont)); XDrawString (dpy, window1.name, gc, MSTR_XY, "Window1", strlen ("Window1")); XDrawString (dpy, window2.name, gc, MSTR_XY, "Window2", strlen ("Window2")); XDrawString (dpy, window3.name, gc, MSTR_XY, "Window3", strlen ("Window3")); XDrawString (dpy, mroot, gc, MSTR_XY, "X-Window System X11R5 Xi18n Input Method Test <>", strlen ("X-Window System X11R5 Xi18n Input Method Test <>")); if (strflag == MB) { XDrawString (dpy, strmode, gc, MSTR_XY, "Mode: MB", strlen ("Mode: MB")); } else if (strflag == WC) { XDrawString (dpy, strmode, gc, MSTR_XY, "Mode: WC", strlen ("Mode: WC")); } for (cnt = 0; ftbl[cnt].mname != NULL; cnt++) { XDrawString (dpy, *ftbl[cnt].mwin, gc, MSTR_XY, ftbl[cnt].mname, strlen (ftbl[cnt].mname)); } XFlush (dpy); } void cwcolor (win, bg_pixel) /* Change Window COLOR */ Window win; u_long bg_pixel; { XSetWindowBackground (dpy, win, bg_pixel); XClearWindow (dpy, win); dstrwin (); XFlush (dpy); } void freexres () /* FREE X RESources */ { int cnt = 0; XFreeGC (dpy, gc); XDestroyWindow (dpy, window1.win); XDestroyWindow (dpy, mroot); XFreeColormap (dpy, dcmap); for (cnt = 0; cnt < ARRAY_MAX; cnt++) { XFreeFontSet (dpy, fontset[cnt]); XFreeColormap (dpy, cmap[cnt]); XFreePixmap (dpy, pix[cnt]); XFreeCursor (dpy, cursor[cnt]); } XCloseDisplay (dpy); }