/* * Copyright (c) 2008 Sun Microsystems, Inc. All Rights Reserved. * Copyright (c) 2010 JogAmp Community. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * - Redistribution of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * - Redistribution in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of Sun Microsystems, Inc. or the names of * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * This software is provided "AS IS," without a warranty of any kind. ALL * EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES, * INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A * PARTICULAR PURPOSE OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. SUN * MICROSYSTEMS, INC. ("SUN") AND ITS LICENSORS SHALL NOT BE LIABLE FOR * ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING OR * DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL SUN OR * ITS LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA, OR FOR * DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR PUNITIVE * DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY OF LIABILITY, * ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, EVEN IF * SUN HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include "jogamp_newt_x11_X11Screen.h" #include "jogamp_newt_x11_X11Display.h" #include "jogamp_newt_x11_X11Window.h" #include "MouseEvent.h" #include "InputEvent.h" #include "KeyEvent.h" #include "WindowEvent.h" #include "ScreenMode.h" #include "NewtCommon.h" // #define VERBOSE_ON 1 #ifdef VERBOSE_ON #define DBG_PRINT(...) fprintf(stderr, __VA_ARGS__); fflush(stderr) #define DUMP_VISUAL_INFO(a,b) _dumpVisualInfo((a),(b)) static void _dumpVisualInfo(const char * msg, XVisualInfo *pVisualQuery) { if(pVisualQuery!=NULL) { fprintf(stderr, "%s: screen %d, visual: %p, visual-id: 0x%X, depth: %d, class %d, cmap sz: %d, bpp: 3x%d, rgb 0x%X 0x%X 0x%X\n", msg, pVisualQuery->screen, pVisualQuery->visual, (int)pVisualQuery->visualid, pVisualQuery->depth, pVisualQuery->class, pVisualQuery->colormap_size, pVisualQuery->bits_per_rgb, (int)pVisualQuery->red_mask, (int)pVisualQuery->green_mask, (int)pVisualQuery->blue_mask ); } else { fprintf(stderr, "%s: NULL XVisualInfo\n", msg); } } #else #define DBG_PRINT(...) #define DUMP_VISUAL_INFO(a,b) #endif /** * Keycode */ #define IS_WITHIN(k,a,b) ((a)<=(k)&&(k)<=(b)) static jint X11KeySym2NewtVKey(KeySym keySym) { if(IS_WITHIN(keySym,XK_F1,XK_F12)) return (keySym-XK_F1)+J_VK_F1; switch(keySym) { case XK_Alt_L: case XK_Alt_R: return J_VK_ALT; case XK_Left: return J_VK_LEFT; case XK_Right: return J_VK_RIGHT; case XK_Up: return J_VK_UP; case XK_Down: return J_VK_DOWN; case XK_Page_Up: return J_VK_PAGE_UP; case XK_Page_Down: return J_VK_PAGE_DOWN; case XK_Shift_L: case XK_Shift_R: return J_VK_SHIFT; case XK_Control_L: case XK_Control_R: return J_VK_CONTROL; case XK_Escape: return J_VK_ESCAPE; case XK_Delete: return J_VK_DELETE; } return keySym; } static jint X11InputState2NewtModifiers(unsigned int xstate) { jint modifiers = 0; if ((ControlMask & xstate) != 0) { modifiers |= EVENT_CTRL_MASK; } if ((ShiftMask & xstate) != 0) { modifiers |= EVENT_SHIFT_MASK; } if ((Mod1Mask & xstate) != 0) { modifiers |= EVENT_ALT_MASK; } if ((Button1Mask & xstate) != 0) { modifiers |= EVENT_BUTTON1_MASK; } if ((Button2Mask & xstate) != 0) { modifiers |= EVENT_BUTTON2_MASK; } if ((Button3Mask & xstate) != 0) { modifiers |= EVENT_BUTTON3_MASK; } return modifiers; } static const char * const ClazzNameNewtWindow = "com/jogamp/newt/Window"; static jclass newtWindowClz=NULL; static jmethodID sizeChangedID = NULL; static jmethodID positionChangedID = NULL; static jmethodID focusChangedID = NULL; static jmethodID visibleChangedID = NULL; static jmethodID windowDestroyNotifyID = NULL; static jmethodID windowRepaintID = NULL; static jmethodID windowReparentedID = NULL; static jmethodID enqueueMouseEventID = NULL; static jmethodID sendMouseEventID = NULL; static jmethodID enqueueKeyEventID = NULL; static jmethodID sendKeyEventID = NULL; static jmethodID focusActionID = NULL; static jmethodID enqueueRequestFocusID = NULL; static jmethodID displayCompletedID = NULL; /** * Display */ static JavaVM *jvmHandle = NULL; static int jvmVersion = 0; static JNIEnv * jvmEnv = NULL; static void setupJVMVars(JNIEnv * env) { if(0 != (*env)->GetJavaVM(env, &jvmHandle)) { jvmHandle = NULL; } jvmVersion = (*env)->GetVersion(env); jvmEnv = env; } static XErrorHandler origErrorHandler = NULL ; static int displayDispatchErrorHandler(Display *dpy, XErrorEvent *e) { fprintf(stderr, "Warning: NEWT X11 Error: DisplayDispatch %p, Code 0x%X, errno %s\n", dpy, e->error_code, strerror(errno)); if (e->error_code == BadAtom) { fprintf(stderr, " BadAtom (%p): Atom probably already removed\n", (void*)e->resourceid); } else if (e->error_code == BadWindow) { fprintf(stderr, " BadWindow (%p): Window probably already removed\n", (void*)e->resourceid); } else { NewtCommon_throwNewRuntimeException(jvmEnv, "NEWT X11 Error: Display %p, Code 0x%X, errno %s", dpy, e->error_code, strerror(errno)); } return 0; } static void displayDispatchErrorHandlerEnable(int onoff, JNIEnv * env) { if(onoff) { if(NULL==origErrorHandler) { setupJVMVars(env); origErrorHandler = XSetErrorHandler(displayDispatchErrorHandler); } } else { if(NULL!=origErrorHandler) { XSetErrorHandler(origErrorHandler); origErrorHandler = NULL; } } } /* * Class: jogamp_newt_x11_X11Display * Method: initIDs * Signature: (Z)Z */ JNIEXPORT jboolean JNICALL Java_jogamp_newt_x11_X11Display_initIDs0 (JNIEnv *env, jclass clazz) { jclass c; NewtCommon_init(env); displayCompletedID = (*env)->GetMethodID(env, clazz, "displayCompleted", "(JJ)V"); if (displayCompletedID == NULL) { return JNI_FALSE; } if(NULL==newtWindowClz) { c = (*env)->FindClass(env, ClazzNameNewtWindow); if(NULL==c) { NewtCommon_FatalError(env, "NEWT X11Window: can't find %s", ClazzNameNewtWindow); } newtWindowClz = (jclass)(*env)->NewGlobalRef(env, c); (*env)->DeleteLocalRef(env, c); if(NULL==newtWindowClz) { NewtCommon_FatalError(env, "NEWT X11Window: can't use %s", ClazzNameNewtWindow); } } return JNI_TRUE; } /* * Class: jogamp_newt_x11_X11Display * Method: CompleteDisplay * Signature: (J)V */ JNIEXPORT void JNICALL Java_jogamp_newt_x11_X11Display_CompleteDisplay0 (JNIEnv *env, jobject obj, jlong display) { Display * dpy = (Display *)(intptr_t)display; jlong javaObjectAtom; jlong windowDeleteAtom; if(dpy==NULL) { NewtCommon_FatalError(env, "invalid display connection.."); } javaObjectAtom = (jlong) XInternAtom(dpy, "JOGL_JAVA_OBJECT", False); if(None==javaObjectAtom) { NewtCommon_throwNewRuntimeException(env, "could not create Atom JOGL_JAVA_OBJECT, bail out!"); return; } windowDeleteAtom = (jlong) XInternAtom(dpy, "WM_DELETE_WINDOW", False); if(None==windowDeleteAtom) { NewtCommon_throwNewRuntimeException(env, "could not create Atom WM_DELETE_WINDOW, bail out!"); return; } // XSetCloseDownMode(dpy, RetainTemporary); // Just a try .. DBG_PRINT("X11: X11Display_completeDisplay dpy %p\n", dpy); (*env)->CallVoidMethod(env, obj, displayCompletedID, javaObjectAtom, windowDeleteAtom); } /** * Window */ static int putPtrIn32Long(unsigned long * dst, uintptr_t src) { int i=0; dst[i++] = (unsigned long) ( ( src >> 0 ) & 0xFFFFFFFF ) ; if(sizeof(uintptr_t) == 8) { dst[i++] = (unsigned long) ( ( src >> 32 ) & 0xFFFFFFFF ) ; } return i; } static uintptr_t getPtrOut32Long(unsigned long * src) { uintptr_t res = ( (uintptr_t) ( src[0] & 0xFFFFFFFF ) ) << 0 ; if(sizeof(uintptr_t) == 8) { res |= ( (uintptr_t) ( src[1] & 0xFFFFFFFF ) ) << 32 ; } return res; } static void setJavaWindowProperty(JNIEnv *env, Display *dpy, Window window, jlong javaObjectAtom, jobject jwindow) { unsigned long jogl_java_object_data[2]; // X11 is based on 'unsigned long' int nitems_32 = putPtrIn32Long( jogl_java_object_data, (uintptr_t) jwindow); { jobject test = (jobject) getPtrOut32Long(jogl_java_object_data); if( ! (jwindow==test) ) { NewtCommon_FatalError(env, "Internal Error .. Encoded Window ref not the same %p != %p !", jwindow, test); } } XChangeProperty( dpy, window, (Atom)javaObjectAtom, (Atom)javaObjectAtom, 32, PropModeReplace, (unsigned char *)&jogl_java_object_data, nitems_32); } static jobject getJavaWindowProperty(JNIEnv *env, Display *dpy, Window window, jlong javaObjectAtom, Bool showWarning) { Atom actual_type_return; int actual_format_return; int nitems_32 = ( sizeof(uintptr_t) == 8 ) ? 2 : 1 ; unsigned char * jogl_java_object_data_pp = NULL; jobject jwindow; { unsigned long nitems_return = 0; unsigned long bytes_after_return = 0; jobject jwindow = NULL; int res; res = XGetWindowProperty(dpy, window, (Atom)javaObjectAtom, 0, nitems_32, False, (Atom)javaObjectAtom, &actual_type_return, &actual_format_return, &nitems_return, &bytes_after_return, &jogl_java_object_data_pp); if ( Success != res ) { if(True==showWarning) { fprintf(stderr, "Warning: NEWT X11Window: Could not fetch Atom JOGL_JAVA_OBJECT window property (res %d) nitems_return %ld, bytes_after_return %ld, result 0!\n", res, nitems_return, bytes_after_return); } return NULL; } if(actual_type_return!=(Atom)javaObjectAtom || nitems_returnIsInstanceOf(env, jwindow, newtWindowClz)) { NewtCommon_throwNewRuntimeException(env, "fetched Atom JOGL_JAVA_OBJECT window is not a NEWT Window: javaWindow 0x%X !", jwindow); } #endif return jwindow; } /** @return zero if fails, non zero if OK */ static Status NewtWindows_getRootAndParent (Display *dpy, Window w, Window * root_return, Window * parent_return) { Window *children_return=NULL; unsigned int nchildren_return=0; Status res = XQueryTree(dpy, w, root_return, parent_return, &children_return, &nchildren_return); if(NULL!=children_return) { XFree(children_return); } return res; } static Window NewtWindows_getRoot (Display *dpy, Window w) { Window root_return; Window parent_return; if( 0 != NewtWindows_getRootAndParent(dpy, w, &root_return, &parent_return) ) { return root_return; } return 0; } static Window NewtWindows_getParent (Display *dpy, Window w) { Window root_return; Window parent_return; if( 0 != NewtWindows_getRootAndParent(dpy, w, &root_return, &parent_return) ) { return parent_return; } return 0; } static void NewtWindows_requestFocus (JNIEnv *env, jobject window, Display *dpy, Window w, jboolean force) { XWindowAttributes xwa; Window focus_return; int revert_to_return; XGetInputFocus(dpy, &focus_return, &revert_to_return); if( JNI_TRUE==force || focus_return!=w) { if( JNI_TRUE==force || JNI_FALSE == (*env)->CallBooleanMethod(env, window, focusActionID) ) { XRaiseWindow(dpy, w); // Avoid 'BadMatch' errors from XSetInputFocus, ie if window is not viewable XGetWindowAttributes(dpy, w, &xwa); if(xwa.map_state == IsViewable) { XSetInputFocus(dpy, w, RevertToParent, CurrentTime); } } } XSync(dpy, False); } #define MWM_HINTS_DECORATIONS (1L << 1) #define PROP_MWM_HINTS_ELEMENTS 5 static void NewtWindows_setDecorations (Display *dpy, Window w, Bool decorated) { unsigned long mwmhints[PROP_MWM_HINTS_ELEMENTS] = { 0, 0, 0, 0, 0 }; // flags, functions, decorations, input_mode, status Atom _MOTIF_WM_HINTS_DECORATIONS = XInternAtom( dpy, "_MOTIF_WM_HINTS", False ); Atom _NET_WM_WINDOW_TYPE = XInternAtom( dpy, "_NET_WM_WINDOW_TYPE", False ); Atom types[3]={0}; int ntypes=0; if(True==decorated) { types[ntypes++] = XInternAtom( dpy, "_NET_WM_WINDOW_TYPE_NORMAL", False ); } else { types[ntypes++] = XInternAtom( dpy, "_NET_WM_WINDOW_TYPE_POPUP_MENU", False ); types[ntypes++] = XInternAtom( dpy, "_NET_WM_WINDOW_TYPE_NORMAL", False ); } mwmhints[0] = MWM_HINTS_DECORATIONS; mwmhints[2] = decorated ; XChangeProperty( dpy, w, _MOTIF_WM_HINTS_DECORATIONS, _MOTIF_WM_HINTS_DECORATIONS, 32, PropModeReplace, (unsigned char *)&mwmhints, PROP_MWM_HINTS_ELEMENTS); XChangeProperty( dpy, w, _NET_WM_WINDOW_TYPE, XA_ATOM, 32, PropModeReplace, (unsigned char *)&types, ntypes); } #define _NET_WM_STATE_REMOVE 0 #define _NET_WM_STATE_ADD 1 static void NewtWindows_setFullscreen (Display *dpy, Window root, Window w, Bool fullscreen) { Atom _NET_WM_STATE = XInternAtom( dpy, "_NET_WM_STATE", False ); Atom _NET_WM_STATE_ABOVE = XInternAtom( dpy, "_NET_WM_STATE_ABOVE", False ); Atom _NET_WM_STATE_FULLSCREEN = XInternAtom( dpy, "_NET_WM_STATE_FULLSCREEN", False ); Atom types[2]={0}; int ntypes=0; types[ntypes++] = _NET_WM_STATE_FULLSCREEN; types[ntypes++] = _NET_WM_STATE_ABOVE; XEvent xev; memset ( &xev, 0, sizeof(xev) ); xev.type = ClientMessage; xev.xclient.window = w; xev.xclient.message_type = _NET_WM_STATE; xev.xclient.format = 32; if(True==fullscreen) { xev.xclient.data.l[0] = _NET_WM_STATE_ADD; xev.xclient.data.l[1] = _NET_WM_STATE_FULLSCREEN; xev.xclient.data.l[2] = _NET_WM_STATE_ABOVE; xev.xclient.data.l[3] = 1; //source indication for normal applications } else { xev.xclient.data.l[0] = _NET_WM_STATE_REMOVE; xev.xclient.data.l[1] = _NET_WM_STATE_FULLSCREEN; xev.xclient.data.l[2] = _NET_WM_STATE_ABOVE; xev.xclient.data.l[3] = 1; //source indication for normal applications } XChangeProperty( dpy, w, _NET_WM_STATE, XA_ATOM, 32, PropModeReplace, (unsigned char *)&types, ntypes); XSync(dpy, False); XSendEvent (dpy, root, False, SubstructureRedirectMask | SubstructureNotifyMask, &xev ); } #define USE_SENDIO_DIRECT 1 /* * Class: jogamp_newt_x11_X11Display * Method: DispatchMessages * Signature: (JIJJ)V */ JNIEXPORT void JNICALL Java_jogamp_newt_x11_X11Display_DispatchMessages0 (JNIEnv *env, jobject obj, jlong display, jlong javaObjectAtom, jlong wmDeleteAtom) { Display * dpy = (Display *) (intptr_t) display; int num_events = 100; if ( NULL == dpy ) { return; } // Periodically take a break while( num_events > 0 ) { jobject jwindow = NULL; XEvent evt; KeySym keySym = 0; jint modifiers = 0; char keyChar = 0; char text[255]; // num_events = XPending(dpy); // I/O Flush .. // num_events = XEventsQueued(dpy, QueuedAfterFlush); // I/O Flush only of no already queued events are available // num_events = XEventsQueued(dpy, QueuedAlready); // no I/O Flush at all, doesn't work on some cards (eg ATI) if ( 0 >= XEventsQueued(dpy, QueuedAfterFlush) ) { // DBG_PRINT( "X11: DispatchMessages 0x%X - Leave 1\n", dpy); return; } XNextEvent(dpy, &evt); num_events--; if( 0==evt.xany.window ) { NewtCommon_throwNewRuntimeException(env, "event window NULL, bail out!"); return ; } if(dpy!=evt.xany.display) { NewtCommon_throwNewRuntimeException(env, "wrong display, bail out!"); return ; } // DBG_PRINT( "X11: DispatchMessages dpy %p, win %p, Event %d\n", (void*)dpy, (void*)evt.xany.window, evt.type); displayDispatchErrorHandlerEnable(1, env); jwindow = getJavaWindowProperty(env, dpy, evt.xany.window, javaObjectAtom, #ifdef VERBOSE_ON True #else False #endif ); displayDispatchErrorHandlerEnable(0, env); if(NULL==jwindow) { fprintf(stderr, "Warning: NEWT X11 DisplayDispatch %p, Couldn't handle event %d for X11 window %p\n", (void*)dpy, evt.type, (void*)evt.xany.window); continue; } switch(evt.type) { case KeyRelease: case KeyPress: if(XLookupString(&evt.xkey,text,255,&keySym,0)==1) { KeySym lower_return = 0, upper_return = 0; keyChar=text[0]; XConvertCase(keySym, &lower_return, &upper_return); // always return upper case, set modifier masks (SHIFT, ..) keySym = upper_return; modifiers = X11InputState2NewtModifiers(evt.xkey.state); } else { keyChar=0; } break; case ButtonPress: case ButtonRelease: case MotionNotify: modifiers = X11InputState2NewtModifiers(evt.xbutton.state); break; default: break; } switch(evt.type) { case ButtonPress: (*env)->CallVoidMethod(env, jwindow, enqueueRequestFocusID, JNI_FALSE); #ifdef USE_SENDIO_DIRECT (*env)->CallVoidMethod(env, jwindow, sendMouseEventID, (jint) EVENT_MOUSE_PRESSED, modifiers, (jint) evt.xbutton.x, (jint) evt.xbutton.y, (jint) evt.xbutton.button, 0 /*rotation*/); #else (*env)->CallVoidMethod(env, jwindow, enqueueMouseEventID, JNI_FALSE, (jint) EVENT_MOUSE_PRESSED, modifiers, (jint) evt.xbutton.x, (jint) evt.xbutton.y, (jint) evt.xbutton.button, 0 /*rotation*/); #endif break; case ButtonRelease: #ifdef USE_SENDIO_DIRECT (*env)->CallVoidMethod(env, jwindow, sendMouseEventID, (jint) EVENT_MOUSE_RELEASED, modifiers, (jint) evt.xbutton.x, (jint) evt.xbutton.y, (jint) evt.xbutton.button, 0 /*rotation*/); #else (*env)->CallVoidMethod(env, jwindow, enqueueMouseEventID, JNI_FALSE, (jint) EVENT_MOUSE_RELEASED, modifiers, (jint) evt.xbutton.x, (jint) evt.xbutton.y, (jint) evt.xbutton.button, 0 /*rotation*/); #endif break; case MotionNotify: #ifdef USE_SENDIO_DIRECT (*env)->CallVoidMethod(env, jwindow, sendMouseEventID, (jint) EVENT_MOUSE_MOVED, modifiers, (jint) evt.xmotion.x, (jint) evt.xmotion.y, (jint) 0, 0 /*rotation*/); #else (*env)->CallVoidMethod(env, jwindow, enqueueMouseEventID, JNI_FALSE, (jint) EVENT_MOUSE_MOVED, modifiers, (jint) evt.xmotion.x, (jint) evt.xmotion.y, (jint) 0, 0 /*rotation*/); #endif break; case KeyPress: #ifdef USE_SENDIO_DIRECT (*env)->CallVoidMethod(env, jwindow, sendKeyEventID, (jint) EVENT_KEY_PRESSED, modifiers, X11KeySym2NewtVKey(keySym), (jchar) keyChar); #else (*env)->CallVoidMethod(env, jwindow, enqueueKeyEventID, JNI_FALSE, (jint) EVENT_KEY_PRESSED, modifiers, X11KeySym2NewtVKey(keySym), (jchar) keyChar); #endif break; case KeyRelease: #ifdef USE_SENDIO_DIRECT (*env)->CallVoidMethod(env, jwindow, sendKeyEventID, (jint) EVENT_KEY_RELEASED, modifiers, X11KeySym2NewtVKey(keySym), (jchar) keyChar); (*env)->CallVoidMethod(env, jwindow, sendKeyEventID, (jint) EVENT_KEY_TYPED, modifiers, (jint) -1, (jchar) keyChar); #else (*env)->CallVoidMethod(env, jwindow, enqueueKeyEventID, JNI_FALSE, (jint) EVENT_KEY_RELEASED, modifiers, X11KeySym2NewtVKey(keySym), (jchar) keyChar); (*env)->CallVoidMethod(env, jwindow, enqueueKeyEventID, JNI_FALSE, (jint) EVENT_KEY_TYPED, modifiers, (jint) -1, (jchar) keyChar); #endif break; case DestroyNotify: DBG_PRINT( "X11: event . DestroyNotify call %p, parent %p, child-event: %d\n", (void*)evt.xdestroywindow.window, (void*)evt.xdestroywindow.event, evt.xdestroywindow.window != evt.xdestroywindow.event); if ( evt.xdestroywindow.window == evt.xdestroywindow.event ) { // ignore child destroy notification } break; case CreateNotify: DBG_PRINT( "X11: event . CreateNotify call %p, parent %p, child-event: 1\n", (void*)evt.xcreatewindow.window, (void*) evt.xcreatewindow.parent); break; case ConfigureNotify: DBG_PRINT( "X11: event . ConfigureNotify call %p (parent %p, above %p) %d/%d %dx%d %d, child-event: %d\n", (void*)evt.xconfigure.window, (void*)evt.xconfigure.event, (void*)evt.xconfigure.above, evt.xconfigure.x, evt.xconfigure.y, evt.xconfigure.width, evt.xconfigure.height, evt.xconfigure.override_redirect, evt.xconfigure.window != evt.xconfigure.event); if ( evt.xconfigure.window == evt.xconfigure.event ) { // ignore child window change notification (*env)->CallVoidMethod(env, jwindow, sizeChangedID, (jint) evt.xconfigure.width, (jint) evt.xconfigure.height, JNI_FALSE); (*env)->CallVoidMethod(env, jwindow, positionChangedID, (jint) evt.xconfigure.x, (jint) evt.xconfigure.y); } break; case ClientMessage: if (evt.xclient.send_event==True && evt.xclient.data.l[0]==(Atom)wmDeleteAtom) { DBG_PRINT( "X11: event . ClientMessage call %p type 0x%X !!!\n", (void*)evt.xclient.window, (unsigned int)evt.xclient.message_type); (*env)->CallVoidMethod(env, jwindow, windowDestroyNotifyID); // Called by Window.java: CloseWindow(); num_events = 0; // end loop in case of destroyed display } break; case FocusIn: DBG_PRINT( "X11: event . FocusIn call %p\n", (void*)evt.xvisibility.window); (*env)->CallVoidMethod(env, jwindow, focusChangedID, JNI_TRUE); break; case FocusOut: DBG_PRINT( "X11: event . FocusOut call %p\n", (void*)evt.xvisibility.window); (*env)->CallVoidMethod(env, jwindow, focusChangedID, JNI_FALSE); break; case Expose: DBG_PRINT( "X11: event . Expose call %p %d/%d %dx%d count %d\n", (void*)evt.xexpose.window, evt.xexpose.x, evt.xexpose.y, evt.xexpose.width, evt.xexpose.height, evt.xexpose.count); if (evt.xexpose.count == 0 && evt.xexpose.width > 0 && evt.xexpose.height > 0) { (*env)->CallVoidMethod(env, jwindow, windowRepaintID, evt.xexpose.x, evt.xexpose.y, evt.xexpose.width, evt.xexpose.height); } break; case MapNotify: DBG_PRINT( "X11: event . MapNotify call Event %p, Window %p, override_redirect %d, child-event: %d\n", (void*)evt.xmap.event, (void*)evt.xmap.window, (int)evt.xmap.override_redirect, evt.xmap.event!=evt.xmap.window); if( evt.xmap.event == evt.xmap.window ) { // ignore child window notification (*env)->CallVoidMethod(env, jwindow, visibleChangedID, JNI_TRUE); } break; case UnmapNotify: DBG_PRINT( "X11: event . UnmapNotify call Event %p, Window %p, from_configure %d, child-event: %d\n", (void*)evt.xunmap.event, (void*)evt.xunmap.window, (int)evt.xunmap.from_configure, evt.xunmap.event!=evt.xunmap.window); if( evt.xunmap.event == evt.xunmap.window ) { // ignore child window notification (*env)->CallVoidMethod(env, jwindow, visibleChangedID, JNI_FALSE); } break; case ReparentNotify: { jlong parentResult; // 0 if root, otherwise proper value Window winRoot, winTopParent; #ifdef VERBOSE_ON Window oldParentRoot, oldParentTopParent; Window parentRoot, parentTopParent; if( 0 == NewtWindows_getRootAndParent(dpy, evt.xreparent.event, &oldParentRoot, &oldParentTopParent) ) { oldParentRoot=0; oldParentTopParent = 0; } if( 0 == NewtWindows_getRootAndParent(dpy, evt.xreparent.parent, &parentRoot, &parentTopParent) ) { parentRoot=0; parentTopParent = 0; } #endif if( 0 == NewtWindows_getRootAndParent(dpy, evt.xreparent.window, &winRoot, &winTopParent) ) { winRoot=0; winTopParent = 0; } if(evt.xreparent.parent == winRoot) { parentResult = 0; // our java indicator for root window } else { parentResult = (jlong) (intptr_t) evt.xreparent.parent; } #ifdef VERBOSE_ON DBG_PRINT( "X11: event . ReparentNotify: call OldParent %p (root %p, top %p), NewParent %p (root %p, top %p), Window %p (root %p, top %p)\n", (void*)evt.xreparent.event, (void*)oldParentRoot, (void*)oldParentTopParent, (void*)evt.xreparent.parent, (void*)parentRoot, (void*)parentTopParent, (void*)evt.xreparent.window, (void*)winRoot, (void*)winTopParent); #endif (*env)->CallVoidMethod(env, jwindow, windowReparentedID, parentResult); } break; // unhandled events .. yet .. default: DBG_PRINT("X11: event . unhandled %d 0x%X call %p\n", (int)evt.type, (unsigned int)evt.type, (void*)evt.xunmap.window); } } } /** * Screen */ /* * Class: jogamp_newt_x11_X11Screen * Method: GetScreen * Signature: (JI)J */ JNIEXPORT jlong JNICALL Java_jogamp_newt_x11_X11Screen_GetScreen0 (JNIEnv *env, jclass clazz, jlong display, jint screen_index) { Display * dpy = (Display *)(intptr_t)display; Screen * scrn= NULL; DBG_PRINT("X11: X11Screen_GetScreen0 dpy %p START\n", dpy); if(dpy==NULL) { NewtCommon_FatalError(env, "invalid display connection.."); } scrn = ScreenOfDisplay(dpy,screen_index); if(scrn==NULL) { scrn=DefaultScreenOfDisplay(dpy); } if(scrn==NULL) { fprintf(stderr, "couldn't get screen ..\n"); } DBG_PRINT("X11: X11Screen_GetScreen0 scrn %p DONE\n", scrn); return (jlong) (intptr_t) scrn; } JNIEXPORT jint JNICALL Java_jogamp_newt_x11_X11Screen_getWidth0 (JNIEnv *env, jclass clazz, jlong display, jint scrn_idx) { Display * dpy = (Display *) (intptr_t) display; return (jint) XDisplayWidth( dpy, scrn_idx); } JNIEXPORT jint JNICALL Java_jogamp_newt_x11_X11Screen_getHeight0 (JNIEnv *env, jclass clazz, jlong display, jint scrn_idx) { Display * dpy = (Display *) (intptr_t) display; return (jint) XDisplayHeight( dpy, scrn_idx); } static Bool NewtScreen_getRANDRVersion(Display *dpy, int *major, int *minor) { if( 0 == XRRQueryVersion(dpy, major, minor) ) { return False; } return True; } static Bool NewtScreen_hasRANDR(Display *dpy) { int major, minor; return NewtScreen_getRANDRVersion(dpy, &major, &minor); } static int NewtScreen_XRotation2Degree(JNIEnv *env, int xrotation) { int rot; if(xrotation == RR_Rotate_0) { rot = 0; } else if(xrotation == RR_Rotate_90) { rot = 90; } else if(xrotation == RR_Rotate_180) { rot = 180; } else if(xrotation == RR_Rotate_270) { rot = 270; } else { NewtCommon_throwNewRuntimeException(env, "invalid native rotation: %d", xrotation); } return rot; } /* * Class: jogamp_newt_x11_X11Screen * Method: getAvailableScreenModeRotations0 * Signature: (JI)I */ JNIEXPORT jintArray JNICALL Java_jogamp_newt_x11_X11Screen_getAvailableScreenModeRotations0 (JNIEnv *env, jclass clazz, jlong display, jint scrn_idx) { Display *dpy = (Display *) (intptr_t) display; Window root = RootWindow(dpy, (int)scrn_idx); int num_rotations = 0; Rotation cur_rotation, rotations_supported; int rotations[4]; int major, minor; if(False == NewtScreen_getRANDRVersion(dpy, &major, &minor)) { fprintf(stderr, "RANDR not available\n"); return (*env)->NewIntArray(env, 0); } rotations_supported = XRRRotations (dpy, (int)scrn_idx, &cur_rotation); if(0 != (rotations_supported & RR_Rotate_0)) { rotations[num_rotations++] = 0; } if(0 != (rotations_supported & RR_Rotate_90)) { rotations[num_rotations++] = 90; } if(0 != (rotations_supported & RR_Rotate_180)) { rotations[num_rotations++] = 180; } if(0 != (rotations_supported & RR_Rotate_270)) { rotations[num_rotations++] = 270; } jintArray properties = NULL; if(num_rotations>0) { properties = (*env)->NewIntArray(env, num_rotations); if (properties == NULL) { NewtCommon_throwNewRuntimeException(env, "Could not allocate int array of size %d", num_rotations); } // move from the temp structure to the java structure (*env)->SetIntArrayRegion(env, properties, 0, num_rotations, rotations); } return properties; } /* * Class: jogamp_newt_x11_X11Screen * Method: getNumScreenModeResolution0 * Signature: (JI)I */ JNIEXPORT jint JNICALL Java_jogamp_newt_x11_X11Screen_getNumScreenModeResolutions0 (JNIEnv *env, jclass clazz, jlong display, jint scrn_idx) { Display *dpy = (Display *) (intptr_t) display; Window root = RootWindow(dpy, (int)scrn_idx); if(False == NewtScreen_hasRANDR(dpy)) { DBG_PRINT("Java_jogamp_newt_x11_X11Screen_getNumScreenModeResolutions0: RANDR not available\n"); return 0; } int num_sizes; XRRScreenSize *xrrs = XRRSizes(dpy, (int)scrn_idx, &num_sizes); //get possible screen resolutions return num_sizes; } /* * Class: jogamp_newt_x11_X11Screen * Method: getScreenModeResolutions0 * Signature: (JII)[I */ JNIEXPORT jintArray JNICALL Java_jogamp_newt_x11_X11Screen_getScreenModeResolution0 (JNIEnv *env, jclass clazz, jlong display, jint scrn_idx, jint resMode_idx) { Display *dpy = (Display *) (intptr_t) display; Window root = RootWindow(dpy, (int)scrn_idx); if(False == NewtScreen_hasRANDR(dpy)) { DBG_PRINT("Java_jogamp_newt_x11_X11Screen_getScreenModeResolution0: RANDR not available\n"); return (*env)->NewIntArray(env, 0); } int num_sizes; XRRScreenSize *xrrs = XRRSizes(dpy, (int)scrn_idx, &num_sizes); //get possible screen resolutions if( 0 > resMode_idx || resMode_idx >= num_sizes ) { NewtCommon_throwNewRuntimeException(env, "Invalid resolution index: ! 0 < %d < %d", resMode_idx, num_sizes); } // Fill the properties in temp jint array int propIndex = 0; jint prop[4]; prop[propIndex++] = xrrs[(int)resMode_idx].width; prop[propIndex++] = xrrs[(int)resMode_idx].height; prop[propIndex++] = xrrs[(int)resMode_idx].mwidth; prop[propIndex++] = xrrs[(int)resMode_idx].mheight; jintArray properties = (*env)->NewIntArray(env, 4); if (properties == NULL) { NewtCommon_throwNewRuntimeException(env, "Could not allocate int array of size %d", 4); } // move from the temp structure to the java structure (*env)->SetIntArrayRegion(env, properties, 0, 4, prop); return properties; } /* * Class: jogamp_newt_x11_X11Screen * Method: getScreenModeRates0 * Signature: (JII)[I */ JNIEXPORT jintArray JNICALL Java_jogamp_newt_x11_X11Screen_getScreenModeRates0 (JNIEnv *env, jclass clazz, jlong display, jint scrn_idx, jint resMode_idx) { Display *dpy = (Display *) (intptr_t) display; Window root = RootWindow(dpy, (int)scrn_idx); if(False == NewtScreen_hasRANDR(dpy)) { DBG_PRINT("Java_jogamp_newt_x11_X11Screen_getScreenModeRates0: RANDR not available\n"); return (*env)->NewIntArray(env, 0); } int num_sizes; XRRScreenSize *xrrs = XRRSizes(dpy, (int)scrn_idx, &num_sizes); //get possible screen resolutions if( 0 > resMode_idx || resMode_idx >= num_sizes ) { NewtCommon_throwNewRuntimeException(env, "Invalid resolution index: ! 0 < %d < %d", resMode_idx, num_sizes); } int num_rates; short *rates = XRRRates(dpy, (int)scrn_idx, (int)resMode_idx, &num_rates); jint prop[num_rates]; int i; for(i=0; iNewIntArray(env, num_rates); if (properties == NULL) { NewtCommon_throwNewRuntimeException(env, "Could not allocate int array of size %d", num_rates); } // move from the temp structure to the java structure (*env)->SetIntArrayRegion(env, properties, 0, num_rates, prop); return properties; } /* * Class: jogamp_newt_x11_X11Screen * Method: getCurrentScreenRate0 * Signature: (JI)I */ JNIEXPORT jint JNICALL Java_jogamp_newt_x11_X11Screen_getCurrentScreenRate0 (JNIEnv *env, jclass clazz, jlong display, jint scrn_idx) { Display *dpy = (Display *) (intptr_t) display; Window root = RootWindow(dpy, (int)scrn_idx); if(False == NewtScreen_hasRANDR(dpy)) { DBG_PRINT("Java_jogamp_newt_x11_X11Screen_getCurrentScreenRate0: RANDR not available\n"); return -1; } // get current resolutions and frequencies XRRScreenConfiguration *conf = XRRGetScreenInfo(dpy, root); short original_rate = XRRConfigCurrentRate(conf); //free XRRFreeScreenConfigInfo(conf); return (jint) original_rate; } /* * Class: jogamp_newt_x11_X11Screen * Method: getCurrentScreenRotation0 * Signature: (JI)I */ JNIEXPORT jint JNICALL Java_jogamp_newt_x11_X11Screen_getCurrentScreenRotation0 (JNIEnv *env, jclass clazz, jlong display, jint scrn_idx) { Display *dpy = (Display *) (intptr_t) display; Window root = RootWindow(dpy, (int)scrn_idx); if(False == NewtScreen_hasRANDR(dpy)) { DBG_PRINT("Java_jogamp_newt_x11_X11Screen_getCurrentScreenRotation0: RANDR not available\n"); return -1; } //get current resolutions and frequencies XRRScreenConfiguration *conf = XRRGetScreenInfo(dpy, root); Rotation rotation; XRRConfigCurrentConfiguration(conf, &rotation); //free XRRFreeScreenConfigInfo(conf); return NewtScreen_XRotation2Degree(env, rotation); } /* * Class: jogamp_newt_x11_X11Screen * Method: getCurrentScreenResolutionIndex0 * Signature: (JI)I */ JNIEXPORT jint JNICALL Java_jogamp_newt_x11_X11Screen_getCurrentScreenResolutionIndex0 (JNIEnv *env, jclass clazz, jlong display, jint scrn_idx) { Display *dpy = (Display *) (intptr_t) display; Window root = RootWindow(dpy, (int)scrn_idx); if(False == NewtScreen_hasRANDR(dpy)) { DBG_PRINT("Java_jogamp_newt_x11_X11Screen_getCurrentScreenResolutionIndex0: RANDR not available\n"); return -1; } // get current resolutions and frequency configuration XRRScreenConfiguration *conf = XRRGetScreenInfo(dpy, root); short original_rate = XRRConfigCurrentRate(conf); Rotation original_rotation; SizeID original_size_id = XRRConfigCurrentConfiguration(conf, &original_rotation); //free XRRFreeScreenConfigInfo(conf); return (jint)original_size_id; } /* * Class: jogamp_newt_x11_X11Screen * Method: setCurrentScreenModeStart0 * Signature: (JIIII)Z */ JNIEXPORT jboolean JNICALL Java_jogamp_newt_x11_X11Screen_setCurrentScreenModeStart0 (JNIEnv *env, jclass clazz, jlong display, jint screen_idx, jint resMode_idx, jint freq, jint rotation) { Display *dpy = (Display *) (intptr_t) display; Window root = RootWindow(dpy, (int)screen_idx); if(False == NewtScreen_hasRANDR(dpy)) { DBG_PRINT("Java_jogamp_newt_x11_X11Screen_setCurrentScreenModeStart0: RANDR not available\n"); return JNI_FALSE; } int num_sizes; XRRScreenSize *xrrs = XRRSizes(dpy, (int)screen_idx, &num_sizes); //get possible screen resolutions XRRScreenConfiguration *conf; int rot; if( 0 > resMode_idx || resMode_idx >= num_sizes ) { NewtCommon_throwNewRuntimeException(env, "Invalid resolution index: ! 0 < %d < %d", resMode_idx, num_sizes); } conf = XRRGetScreenInfo(dpy, root); switch(rotation) { case 0: rot = RR_Rotate_0; break; case 90: rot = RR_Rotate_90; break; case 180: rot = RR_Rotate_180; break; case 270: rot = RR_Rotate_270; break; default: NewtCommon_throwNewRuntimeException(env, "Invalid rotation: %d", rotation); } DBG_PRINT("X11Screen.setCurrentScreenMode0: CHANGED TO %d: %d x %d PIXELS, %d Hz, %d degree\n", resMode_idx, xrrs[resMode_idx].width, xrrs[resMode_idx].height, (int)freq, rotation); XRRSelectInput (dpy, root, RRScreenChangeNotifyMask); XSync(dpy, False); XRRSetScreenConfigAndRate(dpy, conf, root, (int)resMode_idx, rot, (short)freq, CurrentTime); XSync(dpy, False); //free XRRFreeScreenConfigInfo(conf); XSync(dpy, False); return JNI_TRUE; } /* * Class: jogamp_newt_x11_X11Screen * Method: setCurrentScreenModePollEnd0 * Signature: (J)Z */ JNIEXPORT jboolean JNICALL Java_jogamp_newt_x11_X11Screen_setCurrentScreenModePollEnd0 (JNIEnv *env, jclass clazz, jlong display, jint screen_idx, jint resMode_idx, jint freq, jint rotation) { Display *dpy = (Display *) (intptr_t) display; int randr_event_base, randr_error_base; XEvent evt; XRRScreenChangeNotifyEvent * scn_event = (XRRScreenChangeNotifyEvent *) &evt; if(False == NewtScreen_hasRANDR(dpy)) { DBG_PRINT("Java_jogamp_newt_x11_X11Screen_setCurrentScreenModePollEnd0: RANDR not available\n"); return JNI_FALSE; } int num_sizes; XRRScreenSize *xrrs = XRRSizes(dpy, (int)screen_idx, &num_sizes); //get possible screen resolutions XRRScreenConfiguration *conf; if( 0 > resMode_idx || resMode_idx >= num_sizes ) { NewtCommon_throwNewRuntimeException(env, "Invalid resolution index: ! 0 < %d < %d", resMode_idx, num_sizes); } XRRQueryExtension(dpy, &randr_event_base, &randr_error_base); int done = 0; int rot; do { if ( 0 >= XEventsQueued(dpy, QueuedAfterFlush) ) { return; } XNextEvent(dpy, &evt); switch (evt.type - randr_event_base) { case RRScreenChangeNotify: rot = NewtScreen_XRotation2Degree(env, (int)scn_event->rotation); DBG_PRINT( "XRANDR: event . RRScreenChangeNotify call %p (root %p) resIdx %d rot %d %dx%d\n", (void*)scn_event->window, (void*)scn_event->root, (int)scn_event->size_index, rot, scn_event->width, scn_event->height); // done = scn_event->size_index == resMode_idx; // not reliable .. done = rot == rotation && scn_event->width == xrrs[resMode_idx].width && scn_event->height == xrrs[resMode_idx].height; break; default: DBG_PRINT("RANDR: event . unhandled %d 0x%X call %p\n", (int)evt.type, (int)evt.type, (void*)evt.xany.window); } XRRUpdateConfiguration(&evt); } while(!done); XSync(dpy, False); } /** * Window */ /* * Class: jogamp_newt_x11_X11Window * Method: initIDs * Signature: ()Z */ JNIEXPORT jboolean JNICALL Java_jogamp_newt_x11_X11Window_initIDs0 (JNIEnv *env, jclass clazz) { sizeChangedID = (*env)->GetMethodID(env, clazz, "sizeChanged", "(IIZ)V"); positionChangedID = (*env)->GetMethodID(env, clazz, "positionChanged", "(II)V"); focusChangedID = (*env)->GetMethodID(env, clazz, "focusChanged", "(Z)V"); visibleChangedID = (*env)->GetMethodID(env, clazz, "visibleChanged", "(Z)V"); windowDestroyNotifyID = (*env)->GetMethodID(env, clazz, "windowDestroyNotify", "()V"); windowRepaintID = (*env)->GetMethodID(env, clazz, "windowRepaint", "(IIII)V"); windowReparentedID = (*env)->GetMethodID(env, clazz, "windowReparented", "(J)V"); enqueueMouseEventID = (*env)->GetMethodID(env, clazz, "enqueueMouseEvent", "(ZIIIIII)V"); sendMouseEventID = (*env)->GetMethodID(env, clazz, "sendMouseEvent", "(IIIIII)V"); enqueueKeyEventID = (*env)->GetMethodID(env, clazz, "enqueueKeyEvent", "(ZIIIC)V"); sendKeyEventID = (*env)->GetMethodID(env, clazz, "sendKeyEvent", "(IIIC)V"); enqueueRequestFocusID = (*env)->GetMethodID(env, clazz, "enqueueRequestFocus", "(Z)V"); focusActionID = (*env)->GetMethodID(env, clazz, "focusAction", "()Z"); if (sizeChangedID == NULL || positionChangedID == NULL || focusChangedID == NULL || visibleChangedID == NULL || windowDestroyNotifyID == NULL || windowRepaintID == NULL || windowReparentedID == NULL || enqueueMouseEventID == NULL || sendMouseEventID == NULL || enqueueKeyEventID == NULL || sendKeyEventID == NULL || focusActionID == NULL || enqueueRequestFocusID == NULL) { return JNI_FALSE; } return JNI_TRUE; } /* * Class: jogamp_newt_x11_X11Window * Method: CreateWindow * Signature: (JJIJIIII)J */ JNIEXPORT jlong JNICALL Java_jogamp_newt_x11_X11Window_CreateWindow0 (JNIEnv *env, jobject obj, jlong parent, jlong display, jint screen_index, jlong visualID, jlong javaObjectAtom, jlong windowDeleteAtom, jint x, jint y, jint width, jint height, jboolean undecorated) { Display * dpy = (Display *)(intptr_t)display; int scrn_idx = (int)screen_index; Window windowParent = (Window) parent; Window window = 0; XVisualInfo visualTemplate; XVisualInfo *pVisualQuery = NULL; Visual *visual = NULL; int depth; XSetWindowAttributes xswa; unsigned long attrMask; int n; Screen* scrn; Atom wm_delete_atom; if(dpy==NULL) { NewtCommon_FatalError(env, "invalid display connection.."); } if(visualID<0) { NewtCommon_throwNewRuntimeException(env, "invalid VisualID .."); return 0; } XSync(dpy, False); scrn = ScreenOfDisplay(dpy, scrn_idx); if(0==windowParent) { windowParent = XRootWindowOfScreen(scrn); } if( XRootWindowOfScreen(scrn) != XRootWindow(dpy, scrn_idx) ) { NewtCommon_FatalError(env, "XRoot Malfunction: %p != %p"+XRootWindowOfScreen(scrn), XRootWindow(dpy, scrn_idx)); } DBG_PRINT( "X11: CreateWindow dpy %p, parent %p, %x/%d %dx%d, undeco %d\n", (void*)dpy, (void*)windowParent, x, y, width, height, undecorated); // try given VisualID on screen memset(&visualTemplate, 0, sizeof(XVisualInfo)); visualTemplate.screen = scrn_idx; visualTemplate.visualid = (VisualID)visualID; pVisualQuery = XGetVisualInfo(dpy, VisualIDMask|VisualScreenMask, &visualTemplate,&n); DUMP_VISUAL_INFO("Given VisualID,ScreenIdx", pVisualQuery); if(pVisualQuery!=NULL) { visual = pVisualQuery->visual; depth = pVisualQuery->depth; visualID = (jlong)pVisualQuery->visualid; XFree(pVisualQuery); pVisualQuery=NULL; } DBG_PRINT( "X11: [CreateWindow] trying given (dpy %p, screen %d, visualID: %d, parent %p) found: %p\n", dpy, scrn_idx, (int)visualID, (void*)windowParent, visual); if (visual==NULL) { NewtCommon_throwNewRuntimeException(env, "could not query Visual by given VisualID, bail out!"); return 0; } if(pVisualQuery!=NULL) { XFree(pVisualQuery); pVisualQuery=NULL; } attrMask = ( CWBackingStore | CWBackingPlanes | CWBackingPixel | CWBackPixmap | CWBorderPixel | CWColormap | CWOverrideRedirect ) ; memset(&xswa, 0, sizeof(xswa)); xswa.override_redirect = False; // use the window manager, always xswa.border_pixel = 0; xswa.background_pixmap = None; xswa.backing_store=NotUseful; /* NotUseful, WhenMapped, Always */ xswa.backing_planes=0; /* planes to be preserved if possible */ xswa.backing_pixel=0; /* value to use in restoring planes */ xswa.colormap = XCreateColormap(dpy, windowParent, visual, AllocNone); window = XCreateWindow(dpy, windowParent, x, y, width, height, 0, // border width depth, InputOutput, visual, attrMask, &xswa); if(0==window) { NewtCommon_throwNewRuntimeException(env, "could not create Window, bail out!"); return 0; } wm_delete_atom = (Atom)windowDeleteAtom; XSetWMProtocols(dpy, window, &wm_delete_atom, 1); setJavaWindowProperty(env, dpy, window, javaObjectAtom, (*env)->NewGlobalRef(env, obj)); // XClearWindow(dpy, window); XSync(dpy, False); { long xevent_mask = 0; xevent_mask |= ButtonPressMask | ButtonReleaseMask | PointerMotionMask ; xevent_mask |= KeyPressMask | KeyReleaseMask ; xevent_mask |= FocusChangeMask | SubstructureNotifyMask | StructureNotifyMask | ExposureMask ; XSelectInput(dpy, window, xevent_mask); } NewtWindows_setDecorations(dpy, window, ( JNI_TRUE == undecorated ) ? False : True ); XSync(dpy, False); DBG_PRINT( "X11: [CreateWindow] created window %p on display %p\n", (void*)window, dpy); return (jlong) window; } /* * Class: jogamp_newt_x11_X11Window * Method: CloseWindow * Signature: (JJ)V */ JNIEXPORT void JNICALL Java_jogamp_newt_x11_X11Window_CloseWindow0 (JNIEnv *env, jobject obj, jlong display, jlong window, jlong javaObjectAtom, jlong wmDeleteAtom) { Display * dpy = (Display *) (intptr_t) display; Window w = (Window)window; jobject jwindow; if(dpy==NULL) { NewtCommon_FatalError(env, "invalid display connection.."); } DBG_PRINT( "X11: CloseWindow START dpy %p, win %p\n", (void*)dpy, (void*)w); jwindow = getJavaWindowProperty(env, dpy, w, javaObjectAtom, True); if(NULL==jwindow) { NewtCommon_throwNewRuntimeException(env, "could not fetch Java Window object, bail out!"); return; } if ( JNI_FALSE == (*env)->IsSameObject(env, jwindow, obj) ) { NewtCommon_throwNewRuntimeException(env, "Internal Error .. Window global ref not the same!"); return; } XSync(dpy, False); XSelectInput(dpy, w, 0); XUnmapWindow(dpy, w); // Drain all events related to this window .. Java_jogamp_newt_x11_X11Display_DispatchMessages0(env, obj, display, javaObjectAtom, wmDeleteAtom); XDestroyWindow(dpy, w); XSync(dpy, False); (*env)->DeleteGlobalRef(env, jwindow); DBG_PRINT( "X11: CloseWindow END\n"); } static void NewtWindows_setPosSize(Display *dpy, Window w, jint x, jint y, jint width, jint height) { if(width>0 && height>0 || x>=0 && y>=0) { // resize/position if requested XWindowChanges xwc; unsigned int mod_flags = ( (x>=0)?CWX:0 ) | ( (y>=0)?CWY:0 ) | ( (width>0)?CWWidth:0 ) | ( (height>0)?CWHeight:0 ) ; DBG_PRINT( "X11: reconfigureWindow0 pos/size mod: 0x%X\n", mod_flags); memset(&xwc, 0, sizeof(XWindowChanges)); xwc.x=x; xwc.y=y; xwc.width=width; xwc.height=height; XConfigureWindow(dpy, w, mod_flags, &xwc); XSync(dpy, False); } } /* * Class: jogamp_newt_x11_X11Window * Method: setVisible0 * Signature: (JJZIIII)V */ JNIEXPORT void JNICALL Java_jogamp_newt_x11_X11Window_setVisible0 (JNIEnv *env, jobject obj, jlong display, jlong window, jboolean visible, jint x, jint y, jint width, jint height) { Display * dpy = (Display *) (intptr_t) display; Window w = (Window)window; DBG_PRINT( "X11: setVisible0 vis %d\n", visible); if(dpy==NULL) { NewtCommon_FatalError(env, "invalid display connection.."); } if(visible==JNI_TRUE) { XMapRaised(dpy, w); } else { XUnmapWindow(dpy, w); } XSync(dpy, False); NewtWindows_setPosSize(dpy, w, x, y, width, height); } /* * Class: jogamp_newt_x11_X11Window * Method: reconfigureWindow0 * Signature: (JIJJIIIIZZII)V */ JNIEXPORT void JNICALL Java_jogamp_newt_x11_X11Window_reconfigureWindow0 (JNIEnv *env, jobject obj, jlong jdisplay, jint screen_index, jlong jparent, jlong jwindow, jint x, jint y, jint width, jint height, jboolean isVisible, jboolean parentChange, jint fullscreenChange, jint decorationChange) { Display * dpy = (Display *) (intptr_t) jdisplay; Screen * scrn = ScreenOfDisplay(dpy, (int)screen_index); Window w = (Window)jwindow; Window root = XRootWindowOfScreen(scrn); Window parent = (0!=jparent)?(Window)jparent:root; Window topParentParent; Window topParentWindow; Bool moveIntoParent = False; displayDispatchErrorHandlerEnable(1, env); topParentParent = NewtWindows_getParent (dpy, parent); topParentWindow = NewtWindows_getParent (dpy, w); DBG_PRINT( "X11: reconfigureWindow0 dpy %p, scrn %d/%p, parent %p/%p (top %p), win %p (top %p), %d/%d %dx%d visible %d, parentChange %d, fullscreenChange %d, decorationChange %d\n", (void*)dpy, screen_index, (void*)scrn, (void*) jparent, (void*)parent, (void*) topParentParent, (void*)w, (void*)topParentWindow, x, y, width, height, isVisible, parentChange, fullscreenChange, decorationChange); if(parentChange && JNI_TRUE == isVisible) { // unmap window if visible, reduce X11 internal signaling (WM unmap) XUnmapWindow(dpy, w); XSync(dpy, False); } if(0 > fullscreenChange ) { // FS off NewtWindows_setFullscreen(dpy, root, w, False ); XSync(dpy, False); } if(parentChange) { if(0 != jparent) { // move into parent .. moveIntoParent = True; NewtWindows_setDecorations (dpy, w, False); XSync(dpy, False); } XReparentWindow( dpy, w, parent, x, y ); // actual reparent call XSync(dpy, False); } if(!moveIntoParent && 0!=decorationChange) { NewtWindows_setDecorations (dpy, w, (0 < decorationChange) ? True : False); XSync(dpy, False); } NewtWindows_setPosSize(dpy, w, x, y, width, height); if(0 < fullscreenChange ) { // FS on NewtWindows_setFullscreen(dpy, root, w, True ); XSync(dpy, False); } if(parentChange && JNI_TRUE == isVisible) { // map window XMapRaised(dpy, w); XSync(dpy, False); } displayDispatchErrorHandlerEnable(0, env); DBG_PRINT( "X11: reconfigureWindow0 X\n"); } /* * Class: jogamp_newt_x11_X11Window * Method: requestFocus0 * Signature: (JJ)V */ JNIEXPORT void JNICALL Java_jogamp_newt_x11_X11Window_requestFocus0 (JNIEnv *env, jobject obj, jlong display, jlong window, jboolean force) { NewtWindows_requestFocus ( env, obj, (Display *) (intptr_t) display, (Window)window, force ) ; } /* * Class: Java_jogamp_newt_x11_X11Window * Method: setTitle0 * Signature: (JJLjava/lang/String;)V */ JNIEXPORT void JNICALL Java_jogamp_newt_x11_X11Window_setTitle0 (JNIEnv *env, jclass clazz, jlong display, jlong window, jstring title) { Display * dpy = (Display *) (intptr_t) display; Window w = (Window)window; #if 1 const char* title_str; if (NULL != title) { title_str = (*env)->GetStringUTFChars(env, title, NULL); if(NULL != title_str) { DBG_PRINT( "X11: setTitle: <%s> SET\n", title_str); XStoreName(dpy, w, title_str); (*env)->ReleaseStringUTFChars(env, title, title_str); } else { DBG_PRINT( "X11: setTitle: NULL - NOT SET (1)\n"); } } else { DBG_PRINT( "X11: setTitle: NULL TITLE\n"); } #else char *str_list[] = { NULL }; XTextProperty text_prop; if (NULL != title) { str_list[0] = (char *) NewtCommon_GetNullTerminatedStringChars(env, title); if (str_list[0] != NULL) { memset(&text_prop, 0, sizeof(XTextProperty)); if ( Success != XmbTextListToTextProperty(dpy, str_list, 1, XStringStyle, &text_prop) ) { DBG_PRINT( "X11: setTitle.XmbTextListToTextProperty not completly successfull\n"); fprintf(stderr, "X11: setTitle.XmbTextListToTextProperty not completly successfull\n"); } if(NULL!=text_prop.value) { DBG_PRINT( "X11: setTitle: <%s> SET\n", str_list[0]); XSetWMName(dpy, w, &text_prop); XFree(text_prop.value); } else { DBG_PRINT( "X11: setTitle: <%s> NOT SET (1)\n", str_list[0]); } free(str_list[0]); } else { DBG_PRINT( "X11: setTitle: NULL\n"); } } #endif }