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* Bug 1363: Java 11: JAWTUtil: Use sun.awt.SunToolkit.awtLock/Unlock and ↵Sven Gothel2019-09-042-115/+6
| | | | | | | | | | | | | | | disableBackgroundErase (impl. semantics) Commit 13c6bbbde5ea476d60e0a2f04a5172d3302d0edd simply removed the AWT commonly used SunToolkit lock/unlock methods, which was incorrect. It lead to certain resources access collisions as access has to be synchronized using the same reentry lock across AWT and NativeWindow/JOGL. We utilize the new com.jogamp.common.util.UnsafeUtil of GlueGen commit 07c1885e9a3d1f3a3853414648c06fb3864bc69f to disable the IllegalAccessLogger while fetching the methods/fields and making them accessible. JAWUtil also hosts access to SunToolkit's disableBackgroundAccess(Component) aligning the code for GLCanvas, NewtCanvasAWT and AWTCanvas.
* Bug 1363: Java 11: Resolve unsupported JAWTUtil.getMonitorDisplayID(..)Sven Gothel2019-08-191-3/+3
| | | | | | | | | | | | | | | | | Previous commits removed access to OSX's GraphicsDevice.getCGDisplayID() on Java9+, avoiding illegal reflective access. Here we JAWTUtil.getMonitorDisplayID(..) simply returns null if Java9 or !OSX, so the sole NewtFactory caller falls back to the alternative working solution. Orig patch Wade Walker: This was used on Mac OS only to create a MonitorDevice in NewtFactoryAWT. But there was a fallback method for creating MonitorDevice, and testing with TestGearsES2GLJPanelAWT shows that the fallback method seems to give identical results on Mac, so changed to just use the fallback method (which is now the only method) everywhere. This gets rid of an illegal reflective access.
* NEWT iOS: Support translucent windowsSven Gothel2019-07-081-1/+18
| | | | | | | and remove the redColor default background (debug only). IOSUtil.CreateUIWindow(..) also gets its 'visible' attribute, to be true only for demo Hello1 code - false for intended Proxy Surface Hook.
* NEWT iOS WindowDriver: Remove unused orig UIWindow/UIView creation pathSven Gothel2019-07-082-216/+1
| | | | See commit 004c67c73a0309158c30929cd0d6513e23f34803
* NEWT iOS WindowDriver: native UIWindow/UIView creation changeSven Gothel2019-07-082-13/+159
| | | | | | | | Astonishingly, the original code path doesn't show up the CAEAGL View/Layer (only the red test background) even though t is 1:1 equal to this alternative calls. Keeping the original path intact for future validation, another round of hours of analysis. The original code path will be removed in the next commit.
* NEWT iOS: Support Multi-Touch Events, PixelScale, ..Sven Gothel2019-07-088-535/+653
| | | | | | | | | | | | | | | | | Note: Two subsequent commit will add some required change in the native UIWindow/UIView creation methods to actually make the NEWT view being displayed ;-) The demo 'com.jogamp.opengl.demos.ios.Hello' demonstrated a standard NEWT application running on iOS. Previous NativeWindow wrap-around demo is preserved in 'com.jogamp.opengl.demos.ios.Hello1'. Tested on ipad 11'inch arm64 and x86_64 simulation: - Using GearsES2 demo - PixelScale 1f, 2f and 0f - last two using max pixel scale - Touch w/ GearsES2 works: -- 1 finger rotate -- 2 finger drag -- 2 finger pinch-zoom gesture detection
* NEWT iOS / MacOS: Simplify setJavaWindowObjectSven Gothel2019-07-082-15/+17
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* iOS / MacOS: PixelScale UpdateSven Gothel2019-07-085-61/+74
| | | | | | | | | | - IOSUtil/OSXUtil: Return float value and refine name to GetScreenPixelScale* - WindowDriver's updateMaxScreenPixelScaleByDisplayID(..) and updateMaxScreenPixelScaleByWindowHandle(..) will only update the maxPixelScale, as actual user pixelSize change should not be triggered here. A user pixelSize adaption to the changed underlying scale capabilities (e.g. switch monitor) should be supported by the implemented WindowDriver's: updatePixelScale(..) called by native code.
* Copyright: Add missing Copyright tagSven Gothel2019-07-085-2/+57
| | | | | | | | | Adding the missing JogAmp copyright tag on certain files. Currently in debate whether 'JogAmp Community' is a legal Copyright tag in the first place, we might need to add (or replace it with) my authorship. However, as authorship is well documented via the git repository, this should be no real world issue.
* NEWT WindowImpl.doPointerEvent: Use native short[] for pNamesSven Gothel2019-07-085-29/+26
| | | | | | and not int[], this avoid copying in case given pNames are normalized. This is benecifical for X11, Windows and the upcoming iOS touch/pointer support.
* NEWT: Align native MacOS / IOS file- and classnamesSven Gothel2019-06-264-102/+102
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* iOS: Initial working commit supporting iOS (ipad pro 11)Sven Gothel2019-06-238-0/+3692
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | using our OpenJFK 9 x86_64 and arm64 build. Test demo class is 'com.jogamp.opengl.demos.ios.Hello', residing in the new demo folder 'src/demos/com/jogamp/opengl/demos/ios/Hello.java'. This commit does not yet include a working NEWT specialization for iOS, but it shall followup soon. Instead this commit demonstrates JOGL operating on native UIWindow, UIView and CAEAGLLayer as provided by Nativewindow's IOSUtil. Test Video https://www.youtube.com/watch?v=Z4lUQNFTGMI +++ Notable bug: The FBO used and sharing the COLORBUFFER RENDERBUFFER memory resources with CAEAGLLayer to be displayed in the UIView seemingly cannot handle GL_DEPTH_COMPONENT16, GL_DEPTH_COMPONENT24 or GL_DEPTH_COMPONENT32 depth buffer - none at all (Device + Simulation). Therefor the default demo GLEventListener chosen here don't require a depth buffer ;-) This issue can hopefully be mitigated with other means than using a flat FBO sink similar to FBO multisampling.
* Bug 1358: 'Honor' SWT's projection of High-DPI Scaling (Reading hidden pixel ↵Sven Gothel2019-04-101-37/+26
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | dimensions) Christian reported this bug and described multiple pathways. This change usese the following: - access to getClientAreaInPixels w/ fallback of - DPIUtil.autoScaleUp(getClientArea()) I hardly have tested this on Linux/GTK, even though I use a High DPI monitor, maybe just because of it and Eclipse _poor_ state of proper UI presentation. Christian: Please test this .. if buggy, reopen quick for release 2.4.0 SWT/GTK High-DPI is a PIA: - GDK_SCALE renders offscreen and scales the image (wow & ugly) - GDK_DPI_SCALE works at least on the fonts properly - swt.autoScale is pretty much like: What will be scaled? It scales some icons in Eclipse, not fonts and result in Eclipse looks horrible. Maybe I just made this patch to vent about this poor state of things. Notable: KDE looks great and uses DPI, firefox some GDK_DPI_SCALE equivalent (OK) One also wonders why there is only a single scale dimension, where DPI differs x/y! But enough of my rant :)
* Bug 1362: Minimal action required: setBackground of the parent canvas before ↵Sven Gothel2019-04-091-1/+5
| | | | | | | reparenting! Bug 1362 fix or workaround: Seems SWT/GTK3 at least performs lazy initialization Minimal action required: setBackground of the parent canvas before reparenting!
* Bug 1370: Call from Main-Thread: NW's OSXUtil.CreateNSWindow0(..) and NEWT's ↵Sven Gothel2019-04-051-20/+23
| | | | | | | | | | | | | | | | | | | | | | WindowDriver.createWindow0(..) OSX 10.14.3 Mojave issues a WARNING: NSWindow drag regions should only be invalidated on the Main Thread! This will throw an exception in the future. The complaint about NativeWindow (NW)'s OSXUtil.CreateNSWindow0(..) might be valid, which does create a NS Window instance w/ NSView and framebuffer initialized. However, the complaint about NEWT's WindowDriver.createWindow0(..) is not, since the initialization incl framebuffer happened later on the main thread. Regardless, encapsulated both construction fully to run on the Main-Thread. +++ Originally the Main-Thread design spec was like: Must run on Main-Thread when or after making visible. Oh well.
* Bug 1367: Adapt to TempFileCache & TempJarCache ChangesSven Gothel2019-04-031-1/+1
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* Bug 1348: Fix X11 XI MultitouchSven Gothel2019-03-276-108/+126
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | I got access to a touchscreen laptop w/ Debian 9, hence I could fix and test the implementation. X11 DisplayDriver.java: - Store and pass through xi_opcode of XI extension, queried at initialization stage X11Window.c Fixes: - Initialize JavaWindow's xiTouchCoords[].id w/ -1, as required to track the pointer - Pass through xi_opcode as stored in X11 DisplayDriver X11Display.c Fixes: - sendTouchScreenEvent: Throw RuntimeException if 0 > actionId (Internal Error: based on xiTouchCoords[].id tracking) - DispatchMessages's windowPointer determination: -- Query potenial XI Event first: IF XI Event, must use XIDeviceEvent's event Window -- Only IF not an XI Event, we can use evt.xany.window as the event window - DispatchMessages's XI Event Handling: -- Always break deviceid search loop if id found, preserving index and time spend Works on my Debian 9 device, tested w/ com.jogamp.opengl.test.junit.jogl.demos.es2.newt.TestGearsES2NEWT: - One pointer (finger) press, drag and release (click) - PinchToZoomGesture works - DoubleTabScrollGesture works +++ Potential Issues: JavaWindow's xiTouchCoords[].id accuracy is crucial to pointer tracking during XI_TouchBegin -> XI_TouchUpdate -> XI_TouchEnd. In the normal course of action: - XI_TouchBegin sets the id, assuming it is yet set - XI_TouchUpdate assumes it is set - XI_TouchEnd clears the id, assuming it is set This field in the JavaWindow array only gets reset to -1 once at native window creation. We may need to figure out when to reset this field to -1. If the XI_TouchEnd events would get lost for whatever reason, the above tracking state would be broken.
* Merge branch 'master' of github.com:sgothel/joglSven Gothel2019-03-271-8/+15
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| * Merge pull request #104 from gohai/bcm-fix-overscan-offsetSven Gothel2019-03-271-0/+7
| |\ | | | | | | Fix overlay/underlay position mismatch in X11UnderlayTracker (bug 1315)
| | * Fix overlay/underlay position mismatch in X11UnderlayTracker with overscan ↵gohai2017-03-051-0/+7
| | | | | | | | | | | | | | | | | | enabled With the overscan enabled by the Raspberry Pi firmware, which seems to be the default for some attached displays, the underlayWindow size will be e.g. 1888x1048 (retrieved from X11), whereas the overlayWindow size remains at 1920x1080 (retrieved from the Broadcom VC IV implementation). This causes the overlay window to be visually offset by a few pixels. Correct this by applying an offset when the two don't match. (Both displays are assumed to have the same center.)
| * | Merge pull request #103 from gohai/bcm-fix-mouse-buttonSven Gothel2019-03-271-8/+8
| |\ \ | | | | | | | | Fix mouse button reporting in X11UnderlayTracker
| | * | Fix mouse button reporting in X11UnderlayTrackergohai2017-02-161-8/+8
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* | / Bug 1348: X11 XI Multitouch: Refine commit ↵Sven Gothel2019-03-272-5/+12
|/ / | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | 746383476aa449e9cab4a25df27be85b61aa074b Add more verbose DBG_PRINT - @ CreateWindow: extension, scanning device/class, registered deviceid - @ DispatchMessage: XI_TouchBegin, XI_TouchUpdate and XI_TouchEnd On my test machine w/o a touchscreen I correctly: - detected extension - detected no XITouchClass device, hence no deviceid registered X11: [CreateWindow]: XI: Window 0x6600016, Extension 131 X11: [CreateWindow]: XI: Scan Window 0x6600016, device[1/13].class[1/7]: type 1 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[1/13].class[2/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[1/13].class[3/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[1/13].class[4/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[1/13].class[5/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[1/13].class[6/7]: type 3 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[1/13].class[7/7]: type 3 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[2/13].class[1/1]: type 0 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[3/13].class[1/3]: type 1 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[3/13].class[2/3]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[3/13].class[3/3]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[4/13].class[1/1]: type 0 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[5/13].class[1/1]: type 0 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[6/13].class[1/1]: type 0 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[7/13].class[1/1]: type 0 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[8/13].class[1/7]: type 1 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[8/13].class[2/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[8/13].class[3/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[8/13].class[4/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[8/13].class[5/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[8/13].class[6/7]: type 3 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[8/13].class[7/7]: type 3 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[9/13].class[1/7]: type 1 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[9/13].class[2/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[9/13].class[3/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[9/13].class[4/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[9/13].class[5/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[9/13].class[6/7]: type 3 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[9/13].class[7/7]: type 3 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[10/13].class[1/1]: type 0 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[11/13].class[1/1]: type 0 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[12/13].class[1/7]: type 1 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[12/13].class[2/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[12/13].class[3/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[12/13].class[4/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[12/13].class[5/7]: type 2 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[12/13].class[6/7]: type 3 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[12/13].class[7/7]: type 3 (is XITouchClass 0) X11: [CreateWindow]: XI: Scan Window 0x6600016, device[13/13].class[1/1]: type 0 (is XITouchClass 0)
* | Bug 1348: X11 XI Multitouch: Fixes of previous commit ↵Sven Gothel2019-03-273-143/+120
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | 92006e4baef57f1f3fb647dd307aed5989fd4c8d Previous commit 92006e4baef57f1f3fb647dd307aed5989fd4c8d (Note to Danny: I cannot test this now - please re-test and/or review) X11Common::JavaWindow - Owns XI extension's xiOpcode, selected xiTouchDeviceId and tracked XITouchPosition array X11Window::CreateWindow - Query XI extension only once @ window creation and earmark xiOpcode in JavaWindow instance - Fix: Device selection code was "class->type != XITouchClass", but shouldn't it be 'XITouchClass == class->type' (as patched here) - Fix: Free XIQueryDevice returned XIDeviceInfo array via XIFreeDeviceInfo - Earmark deviceid in JavaWindow instance X11Display - Moved global static touch_coordinates to JavaWindow::xiTouchCoords instance X11Display::DispatchMessage - Changed event handling structure similar to https://keithp.com/blogs/Cursor_tracking/ - Fix: Free XGetEventData's optional memory allocation via XFreeEventData - Reuse JavaWindow's queried xiOpcode - Fix: Don't overrise windowPointer, instead validate and require a match. JavaWindow must match! - Fix: Also validate chosen deviceid with JavaWindow's registered device Newt Build: - Added libXi in build recipe and doc
* | Merge pull request #102 from Yodoga/feature_multitouch_x11_1348Sven Gothel2019-03-274-3/+213
|\ \ | | | | | | add touch event support for x11 server
| * | add touch event support for x11 serverDanny Koernig2016-11-174-3/+213
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* | Merge pull request #97 from gohai/bcm-fix-viewportwuSven Gothel2019-03-261-2/+2
|\ \ | | | | | | Fix viewport height in BCM VC IV ScreenDriver
| * | Bug 1254: Fix viewport height in BCM VC IV ScreenDrivergohai2016-04-041-2/+2
| |/ | | | | | | This should fix https://jogamp.org/bugzilla/show_bug.cgi?id=1254, which leads to windowed sketches not being centered in Processing.
* | NewtCanvasJFX: Utilize JFXEDTUtil per default, supporting the Windows PlatformjavafxSven Gothel2019-03-211-5/+13
| | | | | | | | | | | | | | | | | | | | | | | | | | On [GNU/Linux] X11 JFXEDTUtil is not required, since X11 can handle multi-threaded native parenting, however, the Windows platform does require JFXEDTUtil. Currently the default is to use JFXEDTUtil, which operates solely on the JavaFX thread for windowing lifecycle and even-dispatch operations. This behavior can be toggled via the boolean property 'jogamp.newt.javafx.UseJFXEDT', which currently defaults to 'true' This behavior might be analyzed in more detail for a fine grained EDTUtil decision.
* | NewtCanvasJFX.NativeWindow: Delegate required child window canvas positionSven Gothel2019-03-211-2/+2
| | | | | | | | | | | | | | | | | | | | NewtCanvasJFX.NativeWindow shall pass through NewtCanvasJFX's Canvas position to properly position the NEWT child window inside the top level Window. NewtJFXReparentingKeyAdapter demonstrating manual reparenting demonstrates this case. TestGearsES2NewtCanvasAWT's default behavior is to use a surrounding border for the NEWTCanvasAWT child, similar to TestNewtCanvasJFXGLn.
* | Tests: Adding API Doc for test utilizing NEWTDemoListener and derivationsSven Gothel2019-03-201-3/+7
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* | Adding NativeWindowHolder extends NativeSurfaceHolder; API Doc for ↵Sven Gothel2019-03-204-29/+83
| | | | | | | | | | | | | | | | | | NEWTDemoListener NativeWindowHolder abstracts access to is-a or has-a parent component's NativeWindow like NewtCanvasAWT, NewtCanvasJFX and NewtCanvasSWT Adding API Doc for NEWTDemoListener.
* | NewtCanvasSWT: Fix NOP WindowClosingProtocol.WindowClosingMode BehaviorSven Gothel2019-03-201-5/+7
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* | NewtCanvasJFX: Implement WindowClosingProtocol.WindowClosingMode BehaviorSven Gothel2019-03-202-9/+22
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* | NewtCanvasJFX: Clarify [dispose() -> destroy()] operationSven Gothel2019-03-201-8/+8
| | | | | | | | | | This is automatically issued when receiving the javafx.stage.WindowEvent#WINDOW_CLOSE_REQUEST from the attached top-level JavaFX Window
* | JavaFX: Add proper class doc for implementation and unit testSven Gothel2019-03-201-2/+12
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* | JavaFX: Adding JavaFX Support for NEWT utilizing native Window parenting via ↵Sven Gothel2019-03-192-0/+995
|/ | | | | | | | | | | | | | | | | | | | | NewtCanvasJFX NewtCanvasJFX, a JavaFX Canvas Node, allows attaching a native NEWT Window to the JavaFX Node's native Window (if attached). The mechanism is similar to NewtCanvasAWT. Current implementation supports placing the NEWT Window into the JavaFX scene of the native window correctly, as well as the following different lifecycles - attach NewtCanvasJFX to already visible group->scene->window - attach NewtCanvasJFX to not yet visible or attached group->scene->window - attach NEWT Window before or after NewtCanvasJFX's visibility The above is covered by unit test: TestNewtCanvasJFXGLn This is the initial commit for JavaFX support and has been tested on - OpenJDK 8 + OpenJFX 8 - GNU/Linux X11
* Bug 1267 - OSX El Capitan: Animated NEWT GLWindow flickers at resizeSven Gothel2015-11-154-5/+48
| | | | | | | | | | | | OSX El Capitan 10.11.1 using JRE 1.8.0_66: Animated NEWT GLWindow flickers at resize. While at live resize the animation thread renders into the live resized NSView which causes flickering on OSX 10.11. Resolution is to pause animation during live resize and resume at its end.
* Remove deprectated classes and methodsSven Gothel2015-10-151-35/+0
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* WindowImpl.quirks: Access default -> protected, also fix API doc comment.v2.3.2Sven Gothel2015-10-101-3/+3
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* Bug 1249: NEWT/X11 Visibility: Listening to more events for updated state; ↵Sven Gothel2015-10-103-45/+159
| | | | | | | | | | | | | | | | | Adding QUIRK_BIT_VISIBILITY 1) More visibility detection on post ConfigureNotify events, since the latter may not yet contain the updated visibility state as it whould (WM bug!): - EnterNotify - LeaveNotify - Disabled - Expose - VisibilityNotify 2) Introducing quirks. Setting QUIRK_BIT_VISIBILITY to handle the issue where visibility -> false could not even be set.
* Bug 1247 - TestGearsNewtAWTWrapper fails AWT recreation case removeNotify -> ↵Sven Gothel2015-10-092-46/+112
| | | | | | | | | | | | | | | | | | addNotify, e.g. by moving to other monitor AWTCanvas removeNotify didn't cause 'local' destruction of the NEWT window, allowing a 'recreate' w/ subsequent addNotify. This case has been hacked-into NEWT.AWT.WindowDriver + AWTCanvas: - suppression of window destroy events - keeping fields/states intact in NEWT.AWT.WindowDriver - propagating signals appropriately Note: This is barely a working hack and not a fine piece of software :) This AWT backend driver exists only due to historical reasons. This hack simply proves that JAWTWindow works properly.
* Bug 1247: Align NEWT AWT driver w/ GLCanvas (not fixing any issues)Sven Gothel2015-10-091-18/+40
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* Bug 1249 - NEWT X11: setVisible(false) IconicState/_NET_WM_STATE_HIDDEN: ↵Sven Gothel2015-10-092-5/+8
| | | | | | | | | | | Handle case where KDE unmaps the window Update our internal JavaWindow.isMapped according to MapNotify and UnmapNotify. This takes care of a situation (KDE) where a window is unmapped during IconicState. For unmapped windows we cannot interprete _NET_WM_STATE_HIDDEN and we have to issue XMapWindow for restoring the window.
* Bug 1249 - NEWT X11: setVisible(*) _NET_WM_STATE_HIDDEN update not received ↵Sven Gothel2015-10-094-49/+105
| | | | | | | | | | | | | | | | | | | | | | at ConfigureNotify event (2) On gnome shell WM, sometimes KDE WM, it has been observed that the _NET_WM_STATE_HIDDEN update (visible or invisible) is not received at ConfigureNotify event. Turns out the state is finally updated at FocusOut! This change tests _NET_WM_STATE_HIDDEN visibility hint for mapped window also for FocusIn and FocusOut events, besides the ConfigureNotify event. Further more, NormalState to restore a hidden but mapped window did not work, so it is no more being sent. We limit us here to _NET_ACTIVE_WINDOW. 2 unit tests are prepared to test this issue: - TestGLWindows00NEWT - TestParenting01NEWT
* Bug 1249 - NEWT X11: setVisible(false) IconicState not listening to ↵Sven Gothel2015-10-085-122/+243
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | _NET_WM_STATE_HIDDEN; setVisible(true) not restoring from _NET_WM_STATE_HIDDEN Using Gnome Shell 3.14.4-1~deb8u1 disclosed an issue w/ our newly utilized IconicState/_NET_WM_STATE_HIDDEN, i.e. visibleChanged(false) was never received. This is a regression of commit 2d837a7a7130702ad36b694875613fae77c7ef06, which utilizes WM_CHANGE_STATE_IDX + IconicState for visibility on top-level windows. This bug consist out of _two_ isssue: 1) setVisible(false) IconicState not listening to _NET_WM_STATE_HIDDEN Here, we 'listen' to _NET_WM_STATE_HIDDEN when receiving ConfigureNotify if supported _and_ XMapWindow has been issued. In such case existence/non-existence of _NET_WM_STATE_HIDDEN determines visibility. Otherwise, we have wait for MapNotify/UnmapNotify. The 'XMapWindow has been issued' criteria is tracked by new field 'JavaWindow.isMapped' and set/cleared when we actually issue XMapWindow/XUnmapWindow! 2) setVisible(true) not restoring from _NET_WM_STATE_HIDDEN It has been observed that restoring IconicState/_NET_WM_STATE_HIDDEN via XMapWindow or even NormalState may not work reliably on WMs. See <https://stackoverflow.com/questions/30192347/how-to-restore-a-window-with-xlib> Hence we restore from this WM state via NormalState _and_ _NET_ACTIVE_WINDOW. Both strategies seem to work well on KDE as well as on Gnome.
* Bug 1238 - Fix NPE for Window-Icon's PNGPixelRect for unresolved location; ↵Sven Gothel2015-10-036-40/+68
| | | | | | | | | | | | | | | | | | | | | | | | | Bug 1199 - Add setting to disable default window icons Bug 1238 - Fix NPE for Window-Icon's PNGPixelRect for unresolved location, i.e. null URLConnections Testing w/ jogl/make/scripts/tests.sh USE_BUILDDIR=1, discloses this issue - since the icons are available in jar only. Handling all unresolved resources, i.e. null URLConnection, is required. Further more, the icon list passed via property 'newt.window.icons' shall be separated by comma as well. This allows passing the list via scripts more conveniently. -Dnewt.window.icons="newt/data/jogamp-16x16.png,newt/data/jogamp-32x32.png" +++ Bug 1199 - Add setting to disable default window icons This patch also allows disabling JogAmp's own window icons by simply defining a non-existing location, i.e. -Dnewt.window.icons="null,null"
* Bug 1237: Adopt GlueGen's clarification of IOUtil.getResource(..), commit ↵Sven Gothel2015-10-033-9/+9
| | | | | | | | d78bb1be0a6290cb94918b21865a023c01825048 - Skip relative lookup for IOUtil.ClassResources using 'asset' only (from JAR file) - Tested w/ jar file and build-dir, see scripts/tests.sh 'USE_BUILDDIR'
* Bug 1205: Revert clear background to support fix for Bug 1232: NEWT ↵Sven Gothel2015-10-011-7/+24
| | | | | | | | | | Translucency Windows >= 8 Reverting 'clear backrgound' portion of commit f607c0148736fa198fb91b60123824e53366022e. It has been identified, that Windows does initialize onscreen windows (i.e. w/ white/DESKTOP color). This is also required for allowing translucent windows, since clearing the background intefers on Windows >= 8 (undecorated windows).
* Bug 1232 - NEWT Translucent Decorated Windows Not Working On Windows >= 8 ↵Sven Gothel2015-10-012-58/+84
| | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | | (Lack of Aero / Blur ) Adopting new undocumented user32.dll Windows >= 8 API: - SetWindowCompositionAttribute / AccentState See: - <https://github.com/riverar/sample-win10-aeroglass/blob/master/MainWindow.xaml.cs> - <http://withinrafael.com/adding-the-aero-glass-blur-to-your-windows-10-apps/> - <http://undoc.airesoft.co.uk/user32.dll/SetWindowCompositionAttribute.php> - <http://undoc.airesoft.co.uk/user32.dll/GetWindowCompositionAttribute.php> +++ Cleaning up WindowsDWM.h, use on header file (in stub_includes) for GlueGen and implementation. +++ Merge java implementation within GDIUtil.DwmSetupTranslucency(..), to be utilized by NEWT and JOGL. NEWT issues GDIUtil.DwmSetupTranslucency(..) at creation and when toggling decoration. Toggling decoration on Win >= 8 leads to lost of translucency when returning to decorated window. On Win 7, this may work .. but is also buggy. +++ Followup patch is needed for NEWT to _not_ clear the background!