Fixed
Status Update
Comments
il...@google.com <il...@google.com>
il...@google.com <il...@google.com>
ap...@google.com <ap...@google.com> #2
Thanks for filing the issue.
This is a particularly hard device to come by - do you happen to have access to the device? If so could you provide us with the output of: adb shell dumpsys media.camera > info.txt
Thanks!
This is a particularly hard device to come by - do you happen to have access to the device? If so could you provide us with the output of: adb shell dumpsys media.camera > info.txt
Thanks!
il...@google.com <il...@google.com> #3
Similar stacktrace reported to the email group
Stacktrace:
Caused by: java.lang.IllegalArgumentException: Can not get supported output size under supported maximum for the format: 34
at androidx.camera.camera2.internal.SupportedSurfaceCombination.getSupportedOutputSizes(SupportedSurfaceCombination.java:355)
at androidx.camera.camera2.internal.SupportedSurfaceCombination.getSuggestedResolutions(SupportedSurfaceCombination.java:197)
at androidx.camera.camera2.internal.Camera2DeviceSurfaceManager.getSuggestedResolutions(Camera2DeviceSurfaceManager.java:198)
at androidx.camera.core.CameraX.calculateSuggestedResolutions(CameraX.java:943)
at androidx.camera.core.CameraX.bindToLifecycle(CameraX.java:293)
at androidx.camera.lifecycle.ProcessCameraProvider.bindToLifecycle(ProcessCameraProvider.java:227)
Below are some findings based on our debugging
When Dex is connected
previewConfig.getMaxResolution() is returning "731x411" as maxSize.
Inside Preview.Builder.build() -> Default_MAX_resolution is set to "CameraX.getSurfaceManager().getPreviewSize()" which is 731x411
this is being picked as maxSize.
While rendering maxSize is 731x411 and minSize is 640x480 and below are available outputSizes
0 = {Size@11860} "4032x3024"
1 = {Size@11861} "3984x2988"
2 = {Size@11862} "4032x2268"
3 = {Size@11863} "3024x3024"
4 = {Size@11864} "2976x2976"
5 = {Size@11865} "3840x2160"
6 = {Size@11866} "3264x2448"
7 = {Size@11867} "4032x1960"
8 = {Size@11868} "2880x2160"
9 = {Size@11869} "3264x1836"
10 = {Size@11870} "2160x2160"
11 = {Size@11871} "2560x1440"
12 = {Size@11872} "2224x1080"
13 = {Size@11873} "2048x1152"
14 = {Size@11874} "1920x1080"
15 = {Size@11875} "1440x1080"
16 = {Size@11876} "1088x1088"
17 = {Size@11877} "1280x720"
18 = {Size@11878} "1024x768"
19 = {Size@11879} "1056x704"
20 = {Size@11880} "960x720"
21 = {Size@11881} "960x540"
22 = {Size@11882} "720x720"
23 = {Size@11883} "800x450"
24 = {Size@11884} "720x480"
25 = {Size@11885} "640x480"
26 = {Size@11886} "352x288"
27 = {Size@11887} "320x240"
28 = {Size@11888} "256x144"
29 = {Size@11889} "176x144"
and couldn't find any size in this range.
When Dex not connected
minsize = 640x480
maxsize = 1920x1080
0 = {Size@11836} "4032x3024"
1 = {Size@11837} "3984x2988"
2 = {Size@11838} "4032x2268"
3 = {Size@11839} "3024x3024"
4 = {Size@11840} "2976x2976"
5 = {Size@11841} "3840x2160"
6 = {Size@11842} "3264x2448"
7 = {Size@11843} "4032x1960"
8 = {Size@11844} "2880x2160"
9 = {Size@11845} "3264x1836"
10 = {Size@11846} "2160x2160"
11 = {Size@11847} "2560x1440"
12 = {Size@11848} "2224x1080"
13 = {Size@11849} "2048x1152"
14 = {Size@11850} "1920x1080"
15 = {Size@11851} "1440x1080"
16 = {Size@11852} "1088x1088"
17 = {Size@11853} "1280x720"
18 = {Size@11854} "1024x768"
19 = {Size@11855} "1056x704"
20 = {Size@11856} "960x720"
21 = {Size@11857} "960x540"
22 = {Size@11858} "720x720"
23 = {Size@11859} "800x450"
24 = {Size@11860} "720x480"
25 = {Size@11861} "640x480"
26 = {Size@11862} "352x288"
27 = {Size@11863} "320x240"
28 = {Size@11864} "256x144"
29 = {Size@11865} "176x144"
and we have 12 available sizes in this range
Camera2DeviceSurfaceManager.java:: getPreviewSize()
mCameraSupportedSurfaceCombinationMap.get(cameraId).getSurfaceDefinition().getPreviewSize() = "1920x1080"
cameraId=0
Stacktrace:
Caused by: java.lang.IllegalArgumentException: Can not get supported output size under supported maximum for the format: 34
at androidx.camera.camera2.internal.SupportedSurfaceCombination.getSupportedOutputSizes(SupportedSurfaceCombination.java:355)
at androidx.camera.camera2.internal.SupportedSurfaceCombination.getSuggestedResolutions(SupportedSurfaceCombination.java:197)
at androidx.camera.camera2.internal.Camera2DeviceSurfaceManager.getSuggestedResolutions(Camera2DeviceSurfaceManager.java:198)
at androidx.camera.core.CameraX.calculateSuggestedResolutions(CameraX.java:943)
at androidx.camera.core.CameraX.bindToLifecycle(CameraX.java:293)
at androidx.camera.lifecycle.ProcessCameraProvider.bindToLifecycle(ProcessCameraProvider.java:227)
Below are some findings based on our debugging
When Dex is connected
previewConfig.getMaxResolution() is returning "731x411" as maxSize.
Inside Preview.Builder.build() -> Default_MAX_resolution is set to "CameraX.getSurfaceManager().getPreviewSize()" which is 731x411
this is being picked as maxSize.
While rendering maxSize is 731x411 and minSize is 640x480 and below are available outputSizes
0 = {Size@11860} "4032x3024"
1 = {Size@11861} "3984x2988"
2 = {Size@11862} "4032x2268"
3 = {Size@11863} "3024x3024"
4 = {Size@11864} "2976x2976"
5 = {Size@11865} "3840x2160"
6 = {Size@11866} "3264x2448"
7 = {Size@11867} "4032x1960"
8 = {Size@11868} "2880x2160"
9 = {Size@11869} "3264x1836"
10 = {Size@11870} "2160x2160"
11 = {Size@11871} "2560x1440"
12 = {Size@11872} "2224x1080"
13 = {Size@11873} "2048x1152"
14 = {Size@11874} "1920x1080"
15 = {Size@11875} "1440x1080"
16 = {Size@11876} "1088x1088"
17 = {Size@11877} "1280x720"
18 = {Size@11878} "1024x768"
19 = {Size@11879} "1056x704"
20 = {Size@11880} "960x720"
21 = {Size@11881} "960x540"
22 = {Size@11882} "720x720"
23 = {Size@11883} "800x450"
24 = {Size@11884} "720x480"
25 = {Size@11885} "640x480"
26 = {Size@11886} "352x288"
27 = {Size@11887} "320x240"
28 = {Size@11888} "256x144"
29 = {Size@11889} "176x144"
and couldn't find any size in this range.
When Dex not connected
minsize = 640x480
maxsize = 1920x1080
0 = {Size@11836} "4032x3024"
1 = {Size@11837} "3984x2988"
2 = {Size@11838} "4032x2268"
3 = {Size@11839} "3024x3024"
4 = {Size@11840} "2976x2976"
5 = {Size@11841} "3840x2160"
6 = {Size@11842} "3264x2448"
7 = {Size@11843} "4032x1960"
8 = {Size@11844} "2880x2160"
9 = {Size@11845} "3264x1836"
10 = {Size@11846} "2160x2160"
11 = {Size@11847} "2560x1440"
12 = {Size@11848} "2224x1080"
13 = {Size@11849} "2048x1152"
14 = {Size@11850} "1920x1080"
15 = {Size@11851} "1440x1080"
16 = {Size@11852} "1088x1088"
17 = {Size@11853} "1280x720"
18 = {Size@11854} "1024x768"
19 = {Size@11855} "1056x704"
20 = {Size@11856} "960x720"
21 = {Size@11857} "960x540"
22 = {Size@11858} "720x720"
23 = {Size@11859} "800x450"
24 = {Size@11860} "720x480"
25 = {Size@11861} "640x480"
26 = {Size@11862} "352x288"
27 = {Size@11863} "320x240"
28 = {Size@11864} "256x144"
29 = {Size@11865} "176x144"
and we have 12 available sizes in this range
Camera2DeviceSurfaceManager.java:: getPreviewSize()
mCameraSupportedSurfaceCombinationMap.get(cameraId).getSurfaceDefinition().getPreviewSize() = "1920x1080"
cameraId=0
lu...@ozrunways.com <lu...@ozrunways.com> #4
Hi virifi129,
The issue root cause is that CameraX will default filter out sizes smaller than 640x480. For Preview, the max size will be limited to under display size. I checked the HW spec info for the issue related devices. Display size of FUJITSU F-04J/F-05J is 360x640. That will result int that no size exists in the conditions that is larger or equal to 640x480 and smaller or equal to 360x640.
A temporary workaround for this situation is to use Preview.Builder#setTargetResolution() to set a size smaller than 640x480 to bypass the problem.
For device FUJITSU arrowsM04, I checked its HW spec info and its display size I found is 1280x720. It seems that the problem should not exist in the device.
Could you confirm that the problem exist on arrowsM04 device? What will be the returned value when using Display#getRealSize to obtain the display size?
The issue root cause is that CameraX will default filter out sizes smaller than 640x480. For Preview, the max size will be limited to under display size. I checked the HW spec info for the issue related devices. Display size of FUJITSU F-04J/F-05J is 360x640. That will result int that no size exists in the conditions that is larger or equal to 640x480 and smaller or equal to 360x640.
A temporary workaround for this situation is to use Preview.Builder#setTargetResolution() to set a size smaller than 640x480 to bypass the problem.
For device FUJITSU arrowsM04, I checked its HW spec info and its display size I found is 1280x720. It seems that the problem should not exist in the device.
Could you confirm that the problem exist on arrowsM04 device? What will be the returned value when using Display#getRealSize to obtain the display size?
ap...@google.com <ap...@google.com> #5
Sorry for the late reply.
> A temporary workaround for this situation is to use Preview.Builder#setTargetResolution() to set a size smaller than 640x480 to bypass the problem.
OK. I will try it.
> Could you confirm that the problem exist on arrowsM04 device?
We receive the crash report (Crashlytics) that this crash has occurred on arrowsM04.
We don't have this device so we can't confirm that the problem really exist on arrowsM04.
> What will be the returned value when using Display#getRealSize to obtain the display size?
We can't investigate it for the same reason.
Thank you.
> A temporary workaround for this situation is to use Preview.Builder#setTargetResolution() to set a size smaller than 640x480 to bypass the problem.
OK. I will try it.
> Could you confirm that the problem exist on arrowsM04 device?
We receive the crash report (Crashlytics) that this crash has occurred on arrowsM04.
We don't have this device so we can't confirm that the problem really exist on arrowsM04.
> What will be the returned value when using Display#getRealSize to obtain the display size?
We can't investigate it for the same reason.
Thank you.
Description
It would be nice to have a overloads of FragmentTransaction.add() and replace() that take a Fragment class (instead of a Fragment instance).
This would improve the symmetry between how fragments are instantiated during restore, where the user code isn't involved in how FragmentFactory.instantiate() is called; and how they're instantiated and added in code, as typically done on onCreate/onViewCreated.
A motivating example in Kotlin - a Fragment that adds two child fragments.
The Activity has set a FragmentFactory. I'd like to use the same FragmentFactory during initial creation as will get used for restoration. I can't just call the default constructor on the Fragments, because there is none -- dagger is creating a provider that injects some dependencies. Doing this manually means grabbing the FragmentFactory from the FragmentManager and calling instantiate().
////
override fun onViewCreated(view: View, savedInstanceState: Bundle?) {
super.onViewCreated(view, savedInstanceState)
if (savedInstanceState == null) {
val fragmentFactory = childFragmentManager.fragmentFactory
childFragmentManager.beginTransaction()
.replace(R.id.map_container, fragmentFactory.instantiate(this.javaClass.classLoader!!, MapFragment::
.replace(R.id.details_container, fragmentFactory.instantiate(this.javaClass.classLoader!!, DetailsFragment::
.commitNow()
}
}
////
This would be much nicer if I didn't have to create the Fragment instance directly here (ie if the FragmentTrasaction handled creating the fragment using the FragmentFactory). This might look like this:
////
override fun onViewCreated(view: View, savedInstanceState: Bundle?) {
super.onViewCreated(view, savedInstanceState)
if (savedInstanceState == null) {
childFragmentManager.beginTransaction()
.replace(R.id.map_container, MapFragment::class.java))
.replace(R.id.details_container, DetailsFragment::class.java))
.commitNow()
}
}
////
The benefit being that I don't have to write the code to create the Fragments.
In some ways, this 2nd code snippet is similar to passing the information needed by androidx.fragment.app.FragmentState, so the same information can be used to initially create the Fragment as would get used to restore it. This means that the creation and restoration code paths are similar, which helps to make sure the app is doing this consistently.
Suggested new overloads:
FragmentTransaction.add(@NonNull Class<? extends Fragment> fragmentClass, @Nullable Bundle args, @Nullable String tag)
FragmentTransaction.add(@IdRes int containerViewId, @NonNull Class<? extends Fragment> fragmentClass, @Nullable
Bundle args, @Nullable String tag)
FragmentTransaction.add(@IdRes int containerViewId, @NonNull Class<? extends Fragment> fragmentClass, @Nullable Bundle args)
FragmentTransaction.add(@IdRes int containerViewId, @NonNull Class<? extends Fragment> fragmentClass) // null args
FragmentTransaction.replace(@IdRes int containerViewId, @NonNull Class<? extends Fragment> fragmentClass, @Nullable Bundle args, @Nullable String tag)
FragmentTransaction.replace(@IdRes int containerViewId, @NonNull Class<? extends Fragment> fragmentClass, @Nullable Bundle args)
FragmentTransaction.replace(@IdRes int containerViewId, @NonNull Class<? extends Fragment> fragmentClass) // null args
The reason for passing the classes (rather than string class names) is to make misspellings a build error and aid the IDE with refactorings.
Component used: androidx.fragment
Version used: 1.1.0-alpha04