This doc aims to guide developers on how to use fuchsia.ui.observation.geometry.ViewTreeWatcher
in their tests.
Each view in a view tree will have its own size, position, orientation, and coordinate system. Collectively, these are the “geometric” properties of views. Along with the geometric properties, each view also has a set of “topological” properties namely information about its children and its parent. The fuchsia.ui.observation.geometry.ViewTreeWatcher
provides geometrical and topological updates to a client for a view tree over which it has authority. Currently, this protocol is only available for tests.
A view tree contains the hierarchy of the views in a scene graph along with hit testing and per-view data such as transforms and bounding boxes. A view tree snapshot captures this information every frame after scenic applies all the updates to the scene graph. This view tree snapshot is then used by the server for extracting the geometric data of the view. To receive geometry updates, clients connect to fuchsia.ui.observation.geometry.ViewTreeWatcher
. The server for this protocol subscribes to the newly generated view tree snapshots. When a new snapshot gets generated, the server appends it to the buffer of every client.
Consider the following example:-
The snapshot generated from the first frame has just the one view. Response of a fuchsia.ui.observation.geometry.ViewTreeWatcher.Watch
call will be as follows:-
WatchResponse.updates.size
: 1 (One snapshot generated for the frame)WatchResponse.updates[0].views.size
: 1 (There is only 1 view in the scene)ViewDescriptor.layout.extent.min
: (0,0)ViewDescriptor.layout.extent.max
: (5,5)ViewDescriptor.extent_in_context.origin
: (0,0)ViewDescriptor.extent_in_context.width
: 5ViewDescriptor.extent_in_context.height
: 5ViewDescriptor.extent_in_context.angle_degrees
: 0ViewDescriptor.extent_in_parent
will be the same as ViewDescriptor.extent_in_context
as the parent view is the only view in the scene.
The snapshot generated from the second frame has child view attached to the parent view. Response of a fuchsia.ui.observation.geometry.ViewTreeWatcher.Watch
call will be as follows:-
WatchResponse.updates.size
: 1 (One snapshot generated for the frame)WatchResponse.updates[0].views.size
: 2 (There are 2 views in the scene)The ViewDescriptor
for the parent view will be the same as above. For the child view, the ViewDescriptor
will look like this:
ViewDescriptor.layout.extent.min
: (0,0)ViewDescriptor.layout.extent.max
: (2,3)ViewDescriptor.extent_in_context.origin
: (1,1)ViewDescriptor.extent_in_context.width
: 3ViewDescriptor.extent_in_context.height
: 2ViewDescriptor.extent_in_context.angle_degrees
: 90ViewDescriptor.extent_in_parent
will be the same as ViewDescriptor.extent_in_context
as the parent view and the root view are the same in this case.
Clients should not write tests in a manner which associates the number of snapshots returned in the response to the number of frames. It is possible for multiple snapshots to be generated for a frame and depends on the working of the frame scheduler. Note that it is illegal for the client to make another fuchsia.ui.observation.geometry.ViewTreeWatcher.Watch
call when one is still in-flight. If this happens, the server closes the channel and removes the client from its registry.
Clients using fuchsia.ui.observation.test.Registry
should not rely on the number of views present in the response of a fuchsia.ui.observation.geometry.ViewTreeWatcher.Watch
call to check if their view is connected. Instead, they should watch for their view to be present in the response. In order to do that, the client should check for the presence of their view's viewRefKoid in the response.
Follow these steps to use the Observer API in your tests.
Register the fuchsia.ui.observation.geometry.ViewTreeWatcher
endpoint with fuchsia.ui.observation.test.Registry.RegisterGlobalViewTreeWatcher
. This allows the client to get the global view of the view tree. The client can pass a custom callback to get notified when the endpoint has been registered with GeometryProvider
.
Example:
fuchsia::ui::observation::test::RegistryPtr observer_registry_ptr_; fuchsia::ui::observation::geometry::ViewTreeWatcherPtr geometry_provider; std::optional<bool> result; // Register the endpoint with the GeometryProviderManager. observer_registry_ptr_->RegisterGlobalViewTreeWatcher(geometry_provider.NewRequest(), [&result] { result = true; }); // Wait for the endpoint to be registered. RunLoopUntil([&result] { return result.has_value(); });
Use the same endpoint to call fuchsia.ui.observation.geometry.ViewTreeWatcher.Watch
to receive updates from the time when the endpoint was registered with the GeometryProvider
.
Example:
std::optional<fuog_WatchResponse> geometry_result; geometry_provider->Watch( [&geometry_result](auto response) { geometry_result = std::move(response); }); RunLoopUntil([&geometry_result] { return geometry_result.has_value(); });
In order to check whether a view is present in the view tree, check whether the view exists in the updates
vector in fuchsia.ui.observation.ViewTreeWatcher.WatchResponse
. If the view is present in the response, it is guaranteed to be present in the view tree. The presence of a view in the view tree is necessary but not sufficient to receive input/focus events.
Example:
std::optional<fuog_WatchResponse> geometry_result; geometry_provider->Watch( [&geometry_result](auto response) { geometry_result = std::move(response); }); RunLoopUntil([&geometry_result] { return geometry_result.has_value(); }); auto& updates = geometry_result->updates(); // Wait till the view with |view_ref_koid| is present in the response (connected in the view tree). RunLoopUntil([&updates, &view_ref_koid]{ for (const auto& snapshot : updates){ for(const auto& views : snapshot.views()){ if(view.view_ref_koid() == view_ref_koid){ return true; } } } return false; });
Before waiting for a view to be present in the response, make sure the tests exercises some operations on the view so that the view gets created.
fuchsia.ui.observation.geometry.ViewTreeWatcher
provides strong synchronization semantics. If a view is present in fuchsia.ui.observation.geometry.WatchResponse
, then the test can correctly inject input or move focus to that view without a race condition, provided that the view is ready to receive input and focus events.
fuchsia.ui.observation.geometry.WatchResponse
contains the views and the geometrical information about every view which is present in the view tree. Refer to this FIDL to get the details on what all information is returned in the response.error
in a fuchsia.ui.observation.geometry.WatchResponse
will be present and will contain the reasons for dropping the snapshots.