| Commit message (Collapse) | Author | Age | Files | Lines |
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PointerIconImpl.validatedHandle() shall not create native resource.
Semantic cleanup for clarity and equal behavior
Align DisplayImpl.createPointerIcon(..) behavior
- return null handle of createPointerIconImplChecked(..) shall be accepted,
no exception for neither of the two creation methods.
PointerIconImpl.validatedHandle() shall not create native resource.
- throws exception if handle is null (about to be used)
- no native creation shall happen here.
Display.PointerIcon.validate(): Removed, not used.
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must be enabled via -pointerIcon
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getCustomClass(..) shall throw all required exceptions upstream.
Previous essential NEWT driver exception information got suppressed if failing, only disclosed in debug mode.
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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.
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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 :)
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reparenting!
Bug 1362 fix or workaround: Seems SWT/GTK3 at least performs lazy initialization
Minimal action required: setBackground of the parent canvas before reparenting!
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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.
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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.
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NEWTDemoListener
NativeWindowHolder abstracts access to is-a or has-a parent component's NativeWindow
like NewtCanvasAWT, NewtCanvasJFX and NewtCanvasSWT
Adding API Doc for NEWTDemoListener.
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This is automatically issued when receiving the javafx.stage.WindowEvent#WINDOW_CLOSE_REQUEST
from the attached top-level JavaFX Window
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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
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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"
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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'
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Pixel-Scale in GLEventListener.init(...)
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- NEWTDemoListener.createPointerIcons(..)
- Use Display instance
- Simplify PointerIcon creation using a list,
skipping all non-found resources.
- JOGLNewtAppletBase
- Bring back reparent action via key 'r'
- Drop redundant PointerIcon, using NEWTDemoListener
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InterruptedException(s)
Below is an updated list of Condition-Wait classifications
as described in Bug 1211.
This list includes recent changes on GlueGen
regarding this Bug 1211.
A followup commit will address the unit tests.
- Noncancelable + Persistent-Wait
- GLMediaPlayerImpl.StreamWorker thread (changed)
- pauses thread in case of intr
- Cancelable + Persistent-Wait:
- LFRingbuffer.getImpl(..)
- LFRingbuffer.waitForFreeSlots(int)
- SyncedRingbuffer.getImpl(..)
- SyncedRingbuffer.waitForFreeSlots(int)
- FunctionTask.invokeOnNewThread(..) (changed)
- RunnableTask.invokeOnNewThread(..) (changed)
- SharedResourceRunner.run()
- SharedResourceRunner.doAndWait() (changed)
- SharedResourceRunner.start() (changed)
- SharedResourceRunner.stop() (changed)
- GLMediaPlayerImpl.StreamWorker ctor (changed)
- GLMediaPlayerImpl caller thread actions do*() (changed)
- AndroidGLMediaPlayerAPI14.getNextTextureImpl(..) (changed)
- DisplayImpl.enqueueEvent(..) (changed)
-> Persistent-Wait
-> Cancels wait and NEWTEvent
-> dispatchMessage(NEWTEventTask): always notifyCaller!
- GLDrawableHelper.invoke(..) (changed)
- DefaultEDTUtil.waitUntilIdle() (changed)
- DefaultEDTUtil.waitUntilStopped() (changed)
- DefaultEDTUtil.invokeImpl(..) (changed)
- DefaultEDTUtil.NEDT.run(..) (changed)
- AWTEDTUtil.waitUntilStopped(..) (changed)
- AWTEDTUtil.invokeImpl(..) (changed)
- AWTEDTUtil.NEDT.run(..) (changed)
- SWTEDTUtil.invokeImpl(..) (changed)
- SWTEDTUtil.waitUntilStopped(..) (changed)
- SWTEDTUtil.NEDT.run(..) (changed)
- GLWorkerThread.invokeAndWait(..)
- GLWorkerThread.start() (changed)
- GLWorkerThread.WorkerRunnable.run() (changed)
- Animator.run() (changed)
- AnimatorBase.finishLifecycleAction() (changed)
- OSXUtil.RunOnMainThread(..) (changed)
- SingletonInstanceServerSocket.Server.shutdown() (changed)
- SingletonInstanceServerSocket.Server.start() (changed)
- com.jogamp.audio.windows.waveout.Mixer.shutdown() (changed)
- Extending/Using InterruptSource.Thread (changed)
- DefaultEDTUtil.NEDT
- AWTEDTUtil.NEDT
- SWTEDTUtil.NEDT
- GLWorkerThread.thread
- Mixer.FillerThread
- Mixer.MixerThread
- Using InterruptSource.Thread (changed)
- TempFileCache
- LauncherTempFileCache
- Animator.thread
- SingletonInstanceServerSocket.Server.serverThread
Deprecated:
- FunctionTask.invoke(..) (changed)
-> on current thread, no wait -> deprecated
- RunnableTask.invoke(..) (changed)
-> on current thread, no wait -> deprecated
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(adding STATE_MASK_FULLSCREEN)
Refine getSupportedStateMask():
- always for _after_ native creation, i.e. first visibility
- removed STATE_MASK_AUTOPOSITION
- adding STATE_MASK_FULLSCREEN to minimum requirements
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[GLX|WGL]_EXT_swap_control_tear extensions support
asynchronous buffer swaps, i.e. adaptive Vsync.
<https://www.opengl.org/wiki/SwapInterval_aka_vsync#Adaptive_Vsync>
<https://www.opengl.org/registry/specs/EXT/wgl_swap_control_tear.txt>
<https://www.opengl.org/registry/specs/EXT/glx_swap_control_tear.txt>
<http://keithp.com/blogs/async_flip/>
The extensions utilizes a negative interval value,
enabling late swaps to occur without synchronization to the video frame.
Hence '-1' has new semantics, previously it was the 'default value'
of 'untouched vsync interval'.
New default is:
- 0 for unrealized context
- 1 for realized context
+++
It requires [GLX|WGL]_EXT_swap_control,
hence we shall ensure to use use this extension
in the implementation of GLContext.setSwapInterval(..).
+++
Mesa3D seems to support GLX_SGI_swap_control only.
+++
Implemented on Windows and X11.
+++
On GNU/Linux using NVidia driver w/ my setup(*), sadly the query
GLX.glXQueryDrawable(displayHandle, drawable.getHandle(), GLX.GLX_LATE_SWAPS_TEAR_EXT, val);
always returns zero here, indicating async vsync is not supported.
(Queried the attribute for every frame in windowed or fullscreen mode)
Fullscreen
(*)
- Debian 8
- Kernel 3.16
- KDE/Kwin
- GL Version 4.5 (Core profile, arb, compat[ES2, ES3, ES31], FBO, hardware) - 4.5.0 NVIDIA 355.06 [GL 4.5.0, vendor 355.6.0 (NVIDIA 355.06)]
- GL_RENDERER GeForce GTX 660/PCIe/SSE2
- Samsung U28D590 (DFP-4): Internal DisplayPort
+++
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- Fix STATE_MASK_CREATENATIVE
- Simplify resetStateMask()
- Windows WindowDriver: Remove STATE_MASK_STICKY from supported states
- TestGearsNEWT: Use NEWTDemoListener
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getSupportedReconfigMaskImpl()
- See getSupportedStateMask() for semantics
- getSupportedReconfigMaskImpl() result now used for isReconfigureMaskSupported()
- getSupportedReconfigMaskImpl() implementations:
- Full featured: X11, Windows and OSX
- X11: Use WindowManager Atoms for certain features (dynamic)
- Others: Use fixed features.
- TODO: Consider avoiding actions if not supported.
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- STATE_BIT_FULLSCREEN_SPAN is private and used for reconfigure,
hence STATE_BIT_COUNT_RECONFIG is needed.
- STATE_BIT_FULLSCREEN_SPAN is added at the end of public state bits
- PSTATE_BIT_MINMAXSIZE_SET is unused.
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alwaysOnBottom and sticky/all-desktop (Part 1)
Change also implements Bug 1186: 'NEWT Window: Use a Bitfield holding all state flags and expose it accordingly',
since it is essential for an efficient implementation.
Part 1:
- Bug 1186
- Using Bitfield, holding public (Window) and private state bits/mask
- Bug 1188
- Window adds:
- [is|set]AlwaysOnBottom(..),
- [is|set]Resizable(..),
- [is|set]Sticky(..),
- [is|set]Maximized(..),
- isChildWindow(),
- Full implementation for X11
- TODO: Implement for OSX and Windows
- Manual tests:
- TestGearsES2NEWT, TestGearsES2NEWTSimple and TestGearsES2NewtCanvasAWT
utilize new NewtDemoListener, which has a key-listener to perform
all [new] actions. See source code of NewtDemoListener.
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047e9adaf2a5f51f7acfa194a744c99b6bfadaea)
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classes)
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AWT-EDT on Java >= 1.8.0_45
Root cause:
- AWT Toolkit global Lock
Our locking scheme (AWT-EDT-1):
- Surface Lock
- sun.awt.SunToolkit.awtLock()
- Component.getGraphicsConfiguration() -> synchronized(Component.getTreeLock())
Other AWT-EDT-2 by Webstart:
- synchronized(Component.getTreeLock())
- sun.awt.SunToolkit.awtLock()
Results in a deadlock.
Solution:
- Issue Component.getGraphicsConfiguration() before awtLock(),
where Component.getGraphicsConfiguration() is being used to
detect possible reconfiguration.
- Also use updated AWTGraphicsConfiguration's GraphicsConfiguration
if no 'new' detection is required.
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when reconfigured.
JOGL AWT Components, e.g. GLCanvas or NewtCanvasAWT,
may be reconfigured by moving them to another display/monitor
or by other means.
Since AWT has no means to notify the user code via an event,
JOGL components usually determine the reconfiguration via
the override 'GraphicsConfiguration getGraphicsConfiguration()'.
GLCanvas is sensible to this reconfiguration,
however its AWTGraphicsConfiguration (owned via JAWTWindow)
is not changed.
Implement reconfiguration detection for all JOGL AWT Components
and update the AWTGraphicsConfiguration if required.
For now, constraint reconfiguration on GraphicsDevice change
as currently implemented in GLCanvas.
The updated AWTGraphicsConfiguration allows using the updated
GraphicsDevice as it might be required for further information,
e.g. pixel-scale on OSX.
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rotation. Add verbosity.
Allowing user to permanently rotate the device ..
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- DK2's screen on X11 (at least) starts in rotated mode,
detect and apply MonitorDevice rotation via NEWT's OpenGL StereoDeviceUtil
- Move StereoDevice.Config -> StereoDeviceConfig
- Expose generic StereoDevice to public: GenericStereoDeviceConfig + GenericStereoDeviceFactory
- GenericStereoDeviceFactory exposes public GenericStereoDeviceConfig creation
for mono, sbs-stereo and lense-sbs-stereo w/ diff. parameters.
- Pass eye surface/texture size for each eye from device to renderer,
instead of assuming unified values.
- Unify GenericStereoDevice.createRenderer(..) and OVRStereoDevice.createRenderer(..) code
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ids, ..
RandR 1.3 XRRSetCrtcConfig related:
- X11RandR13 now sets the new screen size via XRRSetScreenSize(..)
- X11RandR13 now propagates RRScreenChangeNotify events
via XRRUpdateConfiguration(event).
Hence reporting virtual desktop size now.
- X11RandR13 now disables the CRTC before XRRSetCrtcConfig(..)
to avoid invalid configuration (see spec)!
RandR 1.3 General:
- Uses unique id named instead of unstable index
for modes and CRTC.
This allows proper identification even for 'swizzled' devices.
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Support added for
- Windows
- X11 XRandR 1.3
- OSX
Note: Our whole MonitorMode association handling is currently _not_ dynamic.
- only on Windows we actually use native unique ID,
which might not change (adapter and monitor idx)
- On OSX and X11 we simply use indices,
but if monitor setup changes - they refer to different instances.
In case it is desired to cover dynamic monitor setup change,
we need to address this issue in a new bug entry.
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The mapping AWT Component -> NEWT [Screen, MonitorDevice]
shall allow generic AWT applications to utilize NEWT's MonitorDevice
information like physical monitor-size and DPI.
- AWT-Component -> NEWT-Display:
- NewtFactoryAWT.createDisplay
- AWT-Component -> NEWT-Screen:
- NewtFactoryAWT.createScreen
- AWT-Component -> NEWT-MonitorMode:
- NewtFactoryAWT.getMonitorDevice
- NewtFactoryAWT.getMonitorDevice
- If OSX, utilizing OSX's AWT Component -> MonitorDevice-Index mapping
- Otherwise using the coverage to identify MonitorDevice
See TestGearsES2GLJPanelAWT 'GetPixelScale',
demonstrating the mapping while pressing 'p' (cached MonitorMode)
and pressing SHIFT-'p' (non-cached MonitorMode).
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[query|set]CurrentMode(..) if !screen.isNativeValid()
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Iterate-over and identify all adapter:monitor. (Bug 1129)
- Identify cloned devices (fully covered)
- MonitorDevice gets 'isCloned()' to identify whether
it is a cloned device, i.e. fully covered by another monitor.
This detection may happen natively but will always performed
platform agnostic.
- getMainMonitor(..) now exclude 'cloned' devices
- Windows: Iterate-over and identify all adapter:monitor
- Since we also list cloned monitor,
we need to iterate over all adapter and all it's monitor-devices.
- The native monitor-id is now defined as: ( adapter-idx << 8 ) | monitor-idx.
- Bug 1129 <- listed under this bug entry for convenience
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On Windows, one must read the monitor's EDID data as stored in the registry,
no 'simple' API works otherwise.
The proper way requires utilizing the Windows Setup-API.
This code is inspired by Ofek Shilon's code and blog post:
<http://ofekshilon.com/2014/06/19/reading-specific-monitor-dimensions/>
See: function 'NewtEDID_GetMonitorSizeFromEDIDByModelName'
In contrast to Ofek's code, function 'NewtEDID_GetMonitorSizeFromEDIDByDevice'
uses the proper link from
DISPLAY_DEVICE.DeviceID -> SP_DEVICE_INTERFACE_DETAIL_DATA.DevicePath,
where DISPLAY_DEVICE.DeviceID is the monitor's enumeration via:
EnumDisplayDevices(adapterName, monitor_idx, &ddMon, EDD_GET_DEVICE_INTERFACE_NAME);
Hence the path to the registry-entry is well determined instead of just comparing
the monitor's model name.
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sed -i 's/javax\.media\.opengl/com\.jogamp\.opengl/g' `grep -Rl "javax\.media\.opengl" src`
sed -i 's/javax\.media\.nativewindow/com\.jogamp\.nativewindow/g' `grep -Rl "javax\.media\.nativewindow" src`
sed -i 's/javax\/media\//com\/jogamp\//g' `grep -Rl "javax/media/" src`
sed -i 's/javax\/media\//com\/jogamp\//g' `grep -Rl "javax/media/" doc`
Manually edited all occurences within make/**
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- Use float[2] for pixel-scale.
Utilize simple integer rounding:
int-pixel-units = (int) ( int-window-units * pixel-scale + 0.5f )
- Provide minimum and maximum allowed pixel-scale values
to be set by platform, supporting generic pixel-scale validation.
- Remove 'OSXUtil.GetPixelScale(final RectangleImmutable r, final int[] screenIndexOut)',
implementation for all platforms would cause huge redundancy of
Screen and MonitorDevice code (duplication of NEWT).
- instead, add 'float[2] pixelScale' to NEWT's MonitorDevice
- Detect change of pixel-scale and propagate accordingly.
This allows GLCanvas, GLJPanel and NewtCanvasAWT instances
to be dragged between monitor devices w/ different pixel-scale.
- OSX: Handle native triggered reshape events off-thread to avoid EDT congestion
due to locked window when consuming deferred events on EDT.
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