- 19 6月, 2018 3 次提交
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由 Andrew Wilson 提交于
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由 Andrew Wilson 提交于
This reverts commit 15b76dd3.
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由 Andrew Wilson 提交于
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- 02 5月, 2018 1 次提交
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- 27 4月, 2018 1 次提交
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由 Jason Simmons 提交于
PlatformMessageResponseDart will wrap large responses in Dart external typed data objects in order to avoid copying the data into a new buffer. Previously these objects were created with the Dart_TypedData_kByteData type. A weak persistent handle is then associated with the ByteData to provide a finalizer that deletes the raw buffer. However, the Dart VM could call finalizer on the ByteData even if references still existed to the Dart ByteBuffer object backing the ByteData. The ByteBuffer would then be referencing a deleted raw buffer. This PR prevents that scenario by creating a Dart_TypedData_kUint8 object, attaching the finalizer to that object, and then wrapping it in a ByteData.
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- 26 4月, 2018 1 次提交
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由 Jason Simmons 提交于
Platform messages are only support in the UI isolate. Secondary isolates do not have a window that can receive incoming messages, and outgoing messages are not tagged with a destination isolate and thus will always be dispatched to the UI isolate. Fixes https://github.com/flutter/flutter/issues/16846
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- 14 4月, 2018 1 次提交
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由 Chinmay Garde 提交于
* Re-land "Support multiple shells in a single process. (#4932)" This reverts commit 723c7d01.
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- 13 4月, 2018 1 次提交
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由 Vyacheslav Egorov 提交于
This reverts commit a3327bff.
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- 12 4月, 2018 1 次提交
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由 Chinmay Garde 提交于
This reverts commit 9199b40f.
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- 11 4月, 2018 3 次提交
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由 Chinmay Garde 提交于
This reverts commit 6baff4c8.
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由 Chinmay Garde 提交于
* Support multiple shells in a single process. The Flutter Engine currently works by initializing a singleton shell instance. This shell has to be created on the platform thread. The shell is responsible for creating the 3 main threads used by Flutter (UI, IO, GPU) as well as initializing the Dart VM. The shell, references to task runners of the main threads as well as all snapshots used for VM initialization are stored in singleton objects. The Flutter shell only creates the threads, rasterizers, contexts, etc. to fully support a single Flutter application. Current support for multiple Flutter applications is achieved by making multiple applications share the same resources (via the platform views mechanism). This scheme has the following limitations: * The shell is a singleton and there is no way to tear it down. Once you run a Flutter application in a process, all resources managed by it will remain referenced till process termination. * The threads on which the shell performs its operations are all singletons. These threads are never torn down and multiple Flutter applications (if present) have to compete with one another on these threads. * Resources referenced by the Dart VM are leaked because the VM isn't shutdown even when there are no more Flutter views. * The shell as a target does not compile on Fuchsia. The Fuchsia content handler uses specific dependencies of the shell to rebuild all the shell dependencies on its own. This leads to differences in frame scheduling, VM setup, service protocol endpoint setup, tracing, etc.. Fuchsia is very much a second class citizen in this world. * Since threads and message loops are managed by the engine, the engine has to know about threading and platform message loop interop on each supported platform. Specific updates in this patch: * The shell is no longer a singleton and the embedder holds the unique reference to the shell. * Shell setup and teardown is deterministic. * Threads are no longer managed by the shell. Instead, the shell is given a task runner configuration by the embedder. * Since the shell does not own its threads, the embedder can control threads and the message loops operating on these threads. The shell is only given references to the task runners that execute tasks on these threads. * The shell only needs task runner references. These references can be to the same task runner. So, if the embedder thinks that a particular Flutter application would not need all the threads, it can pass references to the same task runner. This effectively makes Flutter application run in single threaded mode. There are some places in the shell that make synchronous calls, these sites have been updated to ensure that they don’t deadlock. * The test runner and the headless Dart code runner are now Flutter applications that are effectively single threaded (since they don’t have rendering concerns of big-boy Flutter application). * The embedder has to guarantee that the threads and outlive the shell. It is easy for the embedder to make that guarantee because shell termination is deterministic. * The embedder can create as many shell as it wants. Typically it creates a shell per Flutter application with its own task runner configuration. Most embedders obtain these task runners from threads dedicated to the shell. But, it is entirely possible that the embedder can obtain these task runners from a thread pool. * There can only be one Dart VM in the process. The numerous shell interact with one another to manage the VM lifecycle. Once the last shell goes away, the VM does as well and hence all resources associated with the VM are collected. * The shell as a target can now compile and run on Fuchsia. The current content handler has been removed from the Flutter engine source tree and a new implementation has been written that uses the new shell target. * Isolate management has been significantly overhauled. There are no owning references to Dart isolates within the shell. The VM owns the only strong reference to the Dart isolate. The isolate that has window bindings is now called the root isolate. Child isolates can now be created from the root isolate and their bindings and thread configurations are now inherited from the root isolate. * Terminating the shell terminates its root isolates as well as all the isolates spawned by this isolate. This is necessary be shell shutdown is deterministic and the embedder is free to collect the threads on which the isolates execute their tasks (and listen for mircrotasks flushes on). * Launching the root isolate is now significantly overhauled. The shell side (non-owning) reference to an isolate is now a little state machine and illegal state transitions should be impossible (barring construction issues). This is the only way to manage Dart isolates in the shell (the shell does not use the C API is dart_api.h anymore). * Once an isolate is launched, it must be prepared (and hence move to the ready phase) by associating a snapshot with the same. This snapshot can either be a precompiled snapshot, kernel snapshot, script snapshot or source file. Depending on the kind of data specified as a snapshot as well as the capabilities of the VM running in the process, isolate preparation can fail preparation with the right message. * Asset management has been significantly overhauled. All asset resolution goes through an abstract asset resolver interface. An asset manager implements this interface and manages one or more child asset resolvers. These asset resolvers typically resolve assets from directories, ZIP files (legacy FLX assets if provided), APK bundles, FDIO namespaces, etc… * Each launch of the shell requires a separate and fully configured asset resolver. This is necessary because launching isolates for the engine may require resolving snapshots as assets from the asset resolver. Asset resolvers can be shared by multiple launch instances in multiple shells and need to be thread safe. * References to the command line object have been removed from the shell. Instead, the shell only takes a settings object that may be configured from the command line. This makes it easy for embedders and platforms that don’t have a command line (Fuchsia) to configure the shell. Consequently, there is only one spot where the various switches are read from the command line (by the embedder and not the shell) to form the settings object. * All platform now respect the log tag (this was done only by Android till now) and each shell instance have its own log tag. This makes logs from multiple Flutter application in the same process (mainly Fuchsia) more easily decipherable. * The per shell IO task runner now has a new component that is unfortunately named the IOManager. This component manages the IO GrContext (used for asynchronous texture uploads) that cooperates with the GrContext on the GPU task runner associated with the shell. The IOManager is also responsible for flushing tasks that collect Skia objects that reference GPU resources during deterministic shell shutdown. * The embedder now has to be careful to only enable Blink on a single instance of the shell. Launching the legacy text layout and rendering engine multiple times is will trip assertions. The entirety of this runtime has been separated out into a separate object and can be removed in one go when the migration to libtxt is complete. * There is a new test target for the various C++ objects that the shell uses to interact with the Dart VM (the shell no longer use the C API in dart_api.h). This allows engine developers to test VM/Isolate initialization and teardown without having the setup a full shell instance. * There is a new test target for the testing a single shell instances without having to configure and launch an entire VM and associated root isolate. * Mac, Linux & Windows used to have different target that created the flutter_tester referenced by the tool. This has now been converted into a single target that compiles on all platforms. * WeakPointers vended by the fml::WeakPtrFactory(notice the difference between the same class in the fxl namespace) add threading checks on each use. This is enabled by getting rid of the “re-origination” feature of the WeakPtrFactory in the fxl namespace. The side effect of this is that all non-thread safe components have to be created, used and destroyed on the same thread. Numerous thread safety issues were caught by this extra assertion and have now been fixed. * Glossary of components that are only safe on a specific thread (and have the fml variants of the WeakPtrFactory): * Platform Thread: Shell * UI Thread: Engine, RuntimeDelegate, DartIsolate, Animator * GPU Thread: Rasterizer, Surface * IO Thread: IOManager This patch was reviewed in smaller chunks in the following pull requests. All comments from the pulls requests has been incorporated into this patch: * flutter/assets: https://github.com/flutter/engine/pull/4829 * flutter/common: https://github.com/flutter/engine/pull/4830 * flutter/content_handler: https://github.com/flutter/engine/pull/4831 * flutter/flow: https://github.com/flutter/engine/pull/4832 * flutter/fml: https://github.com/flutter/engine/pull/4833 * flutter/lib/snapshot: https://github.com/flutter/engine/pull/4834 * flutter/lib/ui: https://github.com/flutter/engine/pull/4835 * flutter/runtime: https://github.com/flutter/engine/pull/4836 * flutter/shell: https://github.com/flutter/engine/pull/4837 * flutter/synchronization: https://github.com/flutter/engine/pull/4838 * flutter/testing: https://github.com/flutter/engine/pull/4839
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由 Jason Simmons 提交于
Assets are loaded via platform messages, and currently asset payloads are being copied into Dart typed data buffers. This change uses external typed data objects that wrap the existing buffer if copying would be expensive. See https://github.com/flutter/flutter/issues/16291
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- 13 12月, 2017 3 次提交
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由 Michael Goderbauer 提交于
Reverts the revert in #4448 with fixes to pass on the bot. This change will require framework changes in flutter/flutter#13490.
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由 Michael Goderbauer 提交于
This reverts commit 59c3a37e.
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由 Michael Goderbauer 提交于
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- 30 11月, 2017 1 次提交
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由 Chris Bracken 提交于
Window.viewInsets is the set of window-relative insets that describe the area of the window that an application may want to treat as effectively reducing the size of the content. Typically this is due to system UI that fully obscures underlying content, such as the keyboard. This area differs from padding in that padding is the set of insets that describe the area of the window that may be partially (or fully) obscured by system UI or physical intrusions into the view area (e.g. iPhone X sensor housing, status bar, or the iPhone X home indicator widget). This patch does not yet enable the iOS bottom edge safe area. Once the framework has been updated to use viewInsets for bottom-edge occlusions (today, the keyboard), the bottom safe area will be enabled and framework patches that depend on it, landed.
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- 19 10月, 2017 1 次提交
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由 Yegor 提交于
* systems/settings channel split * merge textScaleFactor and alwaysUse24HourFormat into flutter/settings channel * add debugOverrideAlwaysUse24HourFormat * implement textScaleFactor on iOS * address comments * remove debugOverrideAlwaysUse24HourFormat * clang-format
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- 30 9月, 2017 1 次提交
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由 gspencergoog 提交于
Adds support for system text scale factor, including hooks for Android system settings changes. iOS hooks will be added in another PR.
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- 13 9月, 2017 1 次提交
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由 Michael Goderbauer 提交于
* format * license script adaptions * updated licenses * review comments
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- 12 9月, 2017 1 次提交
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由 George Kulakowski 提交于
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- 25 7月, 2017 1 次提交
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由 Jason Simmons 提交于
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- 06 6月, 2017 1 次提交
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由 Sarah Zakarias 提交于
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- 05 5月, 2017 1 次提交
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由 Adam Barth 提交于
Previously, it was a static. Doesn't have much effect in practice because we only use this microtask queue for main isolates, which exist on a single thread.
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- 28 4月, 2017 1 次提交
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- 09 4月, 2017 1 次提交
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由 Mikkel Nygaard Ravn 提交于
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- 28 10月, 2016 1 次提交
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由 Adam Barth 提交于
Now we just pass the data directly.
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- 26 10月, 2016 1 次提交
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由 Adam Barth 提交于
Previously, these signals were sent over Mojo. Now we send them through platform messages.
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- 20 10月, 2016 2 次提交
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由 Adam Barth 提交于
This patch removes the use of the host messages mojom and switch all message routing over to platform messages.
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由 Adam Barth 提交于
Previously we had a mix of the two.
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- 15 10月, 2016 1 次提交
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由 Adam Barth 提交于
Add plunbing for Host-to-Dart platform messages We'll use the plumbing in this direction for things like key events.
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- 12 10月, 2016 1 次提交
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由 Adam Barth 提交于
After this patch, platform messages now take the same path through the system that semantics data does (on Android). Support on iOS will be in another patch.
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- 11 10月, 2016 1 次提交
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由 Adam Barth 提交于
Previously the Dart entry points weren't wired up.
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- 08 10月, 2016 1 次提交
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由 Adam Barth 提交于
This transport uses the Dart and JNI APIs directly instead of indirecting through Mojo.
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- 06 10月, 2016 1 次提交
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由 Adam Barth 提交于
This patch prepares us to switch sending semantics information over mojom to using dart:ui directly. Currently the recorded information is dropped on the floor, but that will improve in future patches.
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- 30 9月, 2016 1 次提交
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由 Adam Barth 提交于
Long live pointer data packets.
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- 29 9月, 2016 1 次提交
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由 Adam Barth 提交于
Rather than using mojom to encode pointer data, we now encode and decode it manually. A future patch will remove the mojom codepath once the framework is updated.
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- 16 9月, 2016 2 次提交
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由 Adam Barth 提交于
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由 Adam Barth 提交于
This patch makes three API changes: * The dart:ui library now always communicates in physical pixels. The framework is responsible for converting to whatever logical coordinate system it wishes to use. * The textBaselien property is now on TextStyle rather than ParagraphStyle, which will let us choose which baseline to use on a per-span basis rather than on a per-paragraph basis. * This patch also removes the old MojoServices function endpoints. Fixes https://github.com/flutter/flutter/issues/3779 Fixes https://github.com/flutter/flutter/issues/1360
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- 13 8月, 2016 2 次提交
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由 Adam Barth 提交于
Also, rename SkyViewClient to RuntimeDelegate. These names are more sensible. This patch also cleans up the RuntimeDelegate a bit, for example by removing support for flushing real-time events, which aren't used.
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由 Adam Barth 提交于
Now lib/ui depends on sky/engine rather than the reverse.
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