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dart / external / github.com / flutter / engine / refs/heads/flutter-1.22-candidate.9 / . / shell / platform / fuchsia / flutter / platform_view.cc
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// Copyright 2013 The Flutter Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#define RAPIDJSON_HAS_STDSTRING 1
#include "platform_view.h"
#include <fuchsia/ui/gfx/cpp/fidl.h>
#include <sstream>
#include "flutter/fml/logging.h"
#include "flutter/lib/ui/window/pointer_data.h"
#include "flutter/lib/ui/window/window.h"
#include "logging.h"
#include "rapidjson/document.h"
#include "rapidjson/stringbuffer.h"
#include "rapidjson/writer.h"
#include "runtime/dart/utils/inlines.h"
#include "vsync_waiter.h"
#if defined(LEGACY_FUCHSIA_EMBEDDER)
#include "flutter/lib/ui/compositing/scene_host.h"
#endif
namespace flutter_runner {
static constexpr char kFlutterPlatformChannel[] = "flutter/platform";
static constexpr char kTextInputChannel[] = "flutter/textinput";
static constexpr char kKeyEventChannel[] = "flutter/keyevent";
static constexpr char kAccessibilityChannel[] = "flutter/accessibility";
static constexpr char kFlutterPlatformViewsChannel[] = "flutter/platform_views";
// FL(77): Terminate engine if Fuchsia system FIDL connections have error.
template <class T>
void SetInterfaceErrorHandler(fidl::InterfacePtr<T>& interface,
std::string name) {
interface.set_error_handler([name](zx_status_t status) {
FML_LOG(ERROR) << "Interface error on: " << name;
});
}
template <class T>
void SetInterfaceErrorHandler(fidl::Binding<T>& binding, std::string name) {
binding.set_error_handler([name](zx_status_t status) {
FML_LOG(ERROR) << "Interface error on: " << name;
});
}
PlatformView::PlatformView(
flutter::PlatformView::Delegate& delegate,
std::string debug_label,
fuchsia::ui::views::ViewRef view_ref,
flutter::TaskRunners task_runners,
std::shared_ptr<sys::ServiceDirectory> runner_services,
fidl::InterfaceHandle<fuchsia::sys::ServiceProvider>
parent_environment_service_provider_handle,
fidl::InterfaceRequest<fuchsia::ui::scenic::SessionListener>
session_listener_request,
fidl::InterfaceHandle<fuchsia::ui::views::Focuser> focuser,
fit::closure session_listener_error_callback,
OnEnableWireframe wireframe_enabled_callback,
OnCreateView on_create_view_callback,
OnUpdateView on_update_view_callback,
OnDestroyView on_destroy_view_callback,
OnCreateSurface on_create_surface_callback,
fml::TimeDelta vsync_offset,
zx_handle_t vsync_event_handle)
: flutter::PlatformView(delegate, std::move(task_runners)),
debug_label_(std::move(debug_label)),
view_ref_(std::move(view_ref)),
focuser_(focuser.Bind()),
session_listener_binding_(this, std::move(session_listener_request)),
session_listener_error_callback_(
std::move(session_listener_error_callback)),
wireframe_enabled_callback_(std::move(wireframe_enabled_callback)),
on_create_view_callback_(std::move(on_create_view_callback)),
on_update_view_callback_(std::move(on_update_view_callback)),
on_destroy_view_callback_(std::move(on_destroy_view_callback)),
on_create_surface_callback_(std::move(on_create_surface_callback)),
ime_client_(this),
vsync_offset_(std::move(vsync_offset)),
vsync_event_handle_(vsync_event_handle) {
// Register all error handlers.
SetInterfaceErrorHandler(session_listener_binding_, "SessionListener");
SetInterfaceErrorHandler(ime_, "Input Method Editor");
SetInterfaceErrorHandler(text_sync_service_, "Text Sync Service");
SetInterfaceErrorHandler(parent_environment_service_provider_,
"Parent Environment Service Provider");
// Access the IME service.
parent_environment_service_provider_ =
parent_environment_service_provider_handle.Bind();
parent_environment_service_provider_.get()->ConnectToService(
fuchsia::ui::input::ImeService::Name_,
text_sync_service_.NewRequest().TakeChannel());
// Finally! Register the native platform message handlers.
RegisterPlatformMessageHandlers();
fuchsia::ui::views::ViewRef accessibility_view_ref;
view_ref_.Clone(&accessibility_view_ref);
accessibility_bridge_ = std::make_unique<AccessibilityBridge>(
*this, runner_services, std::move(accessibility_view_ref));
}
PlatformView::~PlatformView() = default;
void PlatformView::RegisterPlatformMessageHandlers() {
platform_message_handlers_[kFlutterPlatformChannel] =
std::bind(&PlatformView::HandleFlutterPlatformChannelPlatformMessage,
this, std::placeholders::_1);
platform_message_handlers_[kTextInputChannel] =
std::bind(&PlatformView::HandleFlutterTextInputChannelPlatformMessage,
this, std::placeholders::_1);
platform_message_handlers_[kAccessibilityChannel] =
std::bind(&PlatformView::HandleAccessibilityChannelPlatformMessage, this,
std::placeholders::_1);
platform_message_handlers_[kFlutterPlatformViewsChannel] =
std::bind(&PlatformView::HandleFlutterPlatformViewsChannelPlatformMessage,
this, std::placeholders::_1);
}
// |fuchsia::ui::input::InputMethodEditorClient|
void PlatformView::DidUpdateState(
fuchsia::ui::input::TextInputState state,
std::unique_ptr<fuchsia::ui::input::InputEvent> input_event) {
rapidjson::Document document;
auto& allocator = document.GetAllocator();
rapidjson::Value encoded_state(rapidjson::kObjectType);
encoded_state.AddMember("text", state.text, allocator);
encoded_state.AddMember("selectionBase", state.selection.base, allocator);
encoded_state.AddMember("selectionExtent", state.selection.extent, allocator);
switch (state.selection.affinity) {
case fuchsia::ui::input::TextAffinity::UPSTREAM:
encoded_state.AddMember("selectionAffinity",
rapidjson::Value("TextAffinity.upstream"),
allocator);
break;
case fuchsia::ui::input::TextAffinity::DOWNSTREAM:
encoded_state.AddMember("selectionAffinity",
rapidjson::Value("TextAffinity.downstream"),
allocator);
break;
}
encoded_state.AddMember("selectionIsDirectional", true, allocator);
encoded_state.AddMember("composingBase", state.composing.start, allocator);
encoded_state.AddMember("composingExtent", state.composing.end, allocator);
rapidjson::Value args(rapidjson::kArrayType);
args.PushBack(current_text_input_client_, allocator);
args.PushBack(encoded_state, allocator);
document.SetObject();
document.AddMember("method",
rapidjson::Value("TextInputClient.updateEditingState"),
allocator);
document.AddMember("args", args, allocator);
rapidjson::StringBuffer buffer;
rapidjson::Writer<rapidjson::StringBuffer> writer(buffer);
document.Accept(writer);
const uint8_t* data = reinterpret_cast<const uint8_t*>(buffer.GetString());
DispatchPlatformMessage(fml::MakeRefCounted<flutter::PlatformMessage>(
kTextInputChannel, // channel
std::vector<uint8_t>(data, data + buffer.GetSize()), // message
nullptr) // response
);
last_text_state_ =
std::make_unique<fuchsia::ui::input::TextInputState>(state);
// Handle keyboard input events for HID keys only.
// TODO(SCN-1189): Are we done here?
if (input_event && input_event->keyboard().hid_usage != 0) {
OnHandleKeyboardEvent(input_event->keyboard());
}
}
// |fuchsia::ui::input::InputMethodEditorClient|
void PlatformView::OnAction(fuchsia::ui::input::InputMethodAction action) {
rapidjson::Document document;
auto& allocator = document.GetAllocator();
rapidjson::Value args(rapidjson::kArrayType);
args.PushBack(current_text_input_client_, allocator);
// Done is currently the only text input action defined by Flutter.
args.PushBack("TextInputAction.done", allocator);
document.SetObject();
document.AddMember(
"method", rapidjson::Value("TextInputClient.performAction"), allocator);
document.AddMember("args", args, allocator);
rapidjson::StringBuffer buffer;
rapidjson::Writer<rapidjson::StringBuffer> writer(buffer);
document.Accept(writer);
const uint8_t* data = reinterpret_cast<const uint8_t*>(buffer.GetString());
DispatchPlatformMessage(fml::MakeRefCounted<flutter::PlatformMessage>(
kTextInputChannel, // channel
std::vector<uint8_t>(data, data + buffer.GetSize()), // message
nullptr) // response
);
}
void PlatformView::OnScenicError(std::string error) {
FML_LOG(ERROR) << "Session error: " << error;
session_listener_error_callback_();
}
void PlatformView::OnScenicEvent(
std::vector<fuchsia::ui::scenic::Event> events) {
TRACE_EVENT0("flutter", "PlatformView::OnScenicEvent");
bool should_update_metrics = false;
for (const auto& event : events) {
switch (event.Which()) {
case fuchsia::ui::scenic::Event::Tag::kGfx:
switch (event.gfx().Which()) {
case fuchsia::ui::gfx::Event::Tag::kMetrics: {
const fuchsia::ui::gfx::Metrics& metrics =
event.gfx().metrics().metrics;
const float new_view_pixel_ratio = metrics.scale_x;
// Avoid metrics update when possible -- it is computationally
// expensive.
if (view_pixel_ratio_ != new_view_pixel_ratio) {
view_pixel_ratio_ = new_view_pixel_ratio;
should_update_metrics = true;
}
break;
}
case fuchsia::ui::gfx::Event::Tag::kViewPropertiesChanged: {
const fuchsia::ui::gfx::BoundingBox& bounding_box =
event.gfx().view_properties_changed().properties.bounding_box;
const float new_view_width =
std::max(bounding_box.max.x - bounding_box.min.x, 0.0f);
const float new_view_height =
std::max(bounding_box.max.y - bounding_box.min.y, 0.0f);
// Avoid metrics update when possible -- it is computationally
// expensive.
if (view_width_ != new_view_width ||
view_height_ != new_view_width) {
view_width_ = new_view_width;
view_height_ = new_view_height;
should_update_metrics = true;
}
break;
}
#if defined(LEGACY_FUCHSIA_EMBEDDER)
case fuchsia::ui::gfx::Event::Tag::kViewConnected:
OnChildViewConnected(event.gfx().view_connected().view_holder_id);
break;
case fuchsia::ui::gfx::Event::Tag::kViewDisconnected:
OnChildViewDisconnected(
event.gfx().view_disconnected().view_holder_id);
break;
case fuchsia::ui::gfx::Event::Tag::kViewStateChanged:
OnChildViewStateChanged(
event.gfx().view_state_changed().view_holder_id,
event.gfx().view_state_changed().state.is_rendering);
break;
#endif
case fuchsia::ui::gfx::Event::Tag::Invalid:
FML_DCHECK(false) << "Flutter PlatformView::OnScenicEvent: Got "
"an invalid GFX event.";
break;
default:
// We don't care about some event types, so not handling them is OK.
break;
}
break;
case fuchsia::ui::scenic::Event::Tag::kInput:
switch (event.input().Which()) {
case fuchsia::ui::input::InputEvent::Tag::kFocus: {
OnHandleFocusEvent(event.input().focus());
break;
}
case fuchsia::ui::input::InputEvent::Tag::kPointer: {
OnHandlePointerEvent(event.input().pointer());
break;
}
case fuchsia::ui::input::InputEvent::Tag::kKeyboard: {
OnHandleKeyboardEvent(event.input().keyboard());
break;
}
case fuchsia::ui::input::InputEvent::Tag::Invalid: {
FML_DCHECK(false)
<< "Flutter PlatformView::OnScenicEvent: Got an invalid INPUT "
"event.";
}
}
break;
default: {
break;
}
}
}
if (should_update_metrics) {
SetViewportMetrics({
view_pixel_ratio_, // device_pixel_ratio
view_width_ * view_pixel_ratio_, // physical_width
view_height_ * view_pixel_ratio_, // physical_height
0.0f, // physical_padding_top
0.0f, // physical_padding_right
0.0f, // physical_padding_bottom
0.0f, // physical_padding_left
0.0f, // physical_view_inset_top
0.0f, // physical_view_inset_right
0.0f, // physical_view_inset_bottom
0.0f, // physical_view_inset_left
0.0f, // p_physical_system_gesture_inset_top
0.0f, // p_physical_system_gesture_inset_right
0.0f, // p_physical_system_gesture_inset_bottom
0.0f, // p_physical_system_gesture_inset_left
});
}
}
#if defined(LEGACY_FUCHSIA_EMBEDDER)
void PlatformView::OnChildViewConnected(scenic::ResourceId view_holder_id) {
task_runners_.GetUITaskRunner()->PostTask([view_holder_id]() {
flutter::SceneHost::OnViewConnected(view_holder_id);
});
}
void PlatformView::OnChildViewDisconnected(scenic::ResourceId view_holder_id) {
task_runners_.GetUITaskRunner()->PostTask([view_holder_id]() {
flutter::SceneHost::OnViewDisconnected(view_holder_id);
});
}
void PlatformView::OnChildViewStateChanged(scenic::ResourceId view_holder_id,
bool state) {
task_runners_.GetUITaskRunner()->PostTask([view_holder_id, state]() {
flutter::SceneHost::OnViewStateChanged(view_holder_id, state);
});
}
#endif
static flutter::PointerData::Change GetChangeFromPointerEventPhase(
fuchsia::ui::input::PointerEventPhase phase) {
switch (phase) {
case fuchsia::ui::input::PointerEventPhase::ADD:
return flutter::PointerData::Change::kAdd;
case fuchsia::ui::input::PointerEventPhase::HOVER:
return flutter::PointerData::Change::kHover;
case fuchsia::ui::input::PointerEventPhase::DOWN:
return flutter::PointerData::Change::kDown;
case fuchsia::ui::input::PointerEventPhase::MOVE:
return flutter::PointerData::Change::kMove;
case fuchsia::ui::input::PointerEventPhase::UP:
return flutter::PointerData::Change::kUp;
case fuchsia::ui::input::PointerEventPhase::REMOVE:
return flutter::PointerData::Change::kRemove;
case fuchsia::ui::input::PointerEventPhase::CANCEL:
return flutter::PointerData::Change::kCancel;
default:
return flutter::PointerData::Change::kCancel;
}
}
static flutter::PointerData::DeviceKind GetKindFromPointerType(
fuchsia::ui::input::PointerEventType type) {
switch (type) {
case fuchsia::ui::input::PointerEventType::TOUCH:
return flutter::PointerData::DeviceKind::kTouch;
case fuchsia::ui::input::PointerEventType::MOUSE:
return flutter::PointerData::DeviceKind::kMouse;
default:
return flutter::PointerData::DeviceKind::kTouch;
}
}
// TODO(SCN-1278): Remove this.
// Turns two floats (high bits, low bits) into a 64-bit uint.
static trace_flow_id_t PointerTraceHACK(float fa, float fb) {
uint32_t ia, ib;
memcpy(&ia, &fa, sizeof(uint32_t));
memcpy(&ib, &fb, sizeof(uint32_t));
return (((uint64_t)ia) << 32) | ib;
}
bool PlatformView::OnHandlePointerEvent(
const fuchsia::ui::input::PointerEvent& pointer) {
TRACE_EVENT0("flutter", "PlatformView::OnHandlePointerEvent");
// TODO(SCN-1278): Use proper trace_id for tracing flow.
trace_flow_id_t trace_id =
PointerTraceHACK(pointer.radius_major, pointer.radius_minor);
TRACE_FLOW_END("input", "dispatch_event_to_client", trace_id);
flutter::PointerData pointer_data;
pointer_data.Clear();
pointer_data.time_stamp = pointer.event_time / 1000;
pointer_data.change = GetChangeFromPointerEventPhase(pointer.phase);
pointer_data.kind = GetKindFromPointerType(pointer.type);
pointer_data.device = pointer.pointer_id;
// Pointer events are in logical pixels, so scale to physical.
pointer_data.physical_x = pointer.x * view_pixel_ratio_;
pointer_data.physical_y = pointer.y * view_pixel_ratio_;
// Buttons are single bit values starting with kMousePrimaryButton = 1.
pointer_data.buttons = static_cast<uint64_t>(pointer.buttons);
switch (pointer_data.change) {
case flutter::PointerData::Change::kDown:
down_pointers_.insert(pointer_data.device);
break;
case flutter::PointerData::Change::kCancel:
case flutter::PointerData::Change::kUp:
down_pointers_.erase(pointer_data.device);
break;
case flutter::PointerData::Change::kMove:
if (down_pointers_.count(pointer_data.device) == 0) {
pointer_data.change = flutter::PointerData::Change::kHover;
}
break;
case flutter::PointerData::Change::kAdd:
if (down_pointers_.count(pointer_data.device) != 0) {
FML_DLOG(ERROR) << "Received add event for down pointer.";
}
break;
case flutter::PointerData::Change::kRemove:
if (down_pointers_.count(pointer_data.device) != 0) {
FML_DLOG(ERROR) << "Received remove event for down pointer.";
}
break;
case flutter::PointerData::Change::kHover:
if (down_pointers_.count(pointer_data.device) != 0) {
FML_DLOG(ERROR) << "Received hover event for down pointer.";
}
break;
}
auto packet = std::make_unique<flutter::PointerDataPacket>(1);
packet->SetPointerData(0, pointer_data);
DispatchPointerDataPacket(std::move(packet));
return true;
}
bool PlatformView::OnHandleKeyboardEvent(
const fuchsia::ui::input::KeyboardEvent& keyboard) {
const char* type = nullptr;
if (keyboard.phase == fuchsia::ui::input::KeyboardEventPhase::PRESSED) {
type = "keydown";
} else if (keyboard.phase == fuchsia::ui::input::KeyboardEventPhase::REPEAT) {
type = "keydown"; // TODO change this to keyrepeat
} else if (keyboard.phase ==
fuchsia::ui::input::KeyboardEventPhase::RELEASED) {
type = "keyup";
}
if (type == nullptr) {
FML_DLOG(ERROR) << "Unknown key event phase.";
return false;
}
rapidjson::Document document;
auto& allocator = document.GetAllocator();
document.SetObject();
document.AddMember("type", rapidjson::Value(type, strlen(type)), allocator);
document.AddMember("keymap", rapidjson::Value("fuchsia"), allocator);
document.AddMember("hidUsage", keyboard.hid_usage, allocator);
document.AddMember("codePoint", keyboard.code_point, allocator);
document.AddMember("modifiers", keyboard.modifiers, allocator);
rapidjson::StringBuffer buffer;
rapidjson::Writer<rapidjson::StringBuffer> writer(buffer);
document.Accept(writer);
const uint8_t* data = reinterpret_cast<const uint8_t*>(buffer.GetString());
DispatchPlatformMessage(fml::MakeRefCounted<flutter::PlatformMessage>(
kKeyEventChannel, // channel
std::vector<uint8_t>(data, data + buffer.GetSize()), // data
nullptr) // response
);
return true;
}
bool PlatformView::OnHandleFocusEvent(
const fuchsia::ui::input::FocusEvent& focus) {
// Ensure last_text_state_ is set to make sure Flutter actually wants an IME.
if (focus.focused && last_text_state_ != nullptr) {
ActivateIme();
return true;
} else if (!focus.focused) {
DeactivateIme();
return true;
}
return false;
}
void PlatformView::ActivateIme() {
DEBUG_CHECK(last_text_state_ != nullptr, LOG_TAG, "");
text_sync_service_->GetInputMethodEditor(
fuchsia::ui::input::KeyboardType::TEXT, // keyboard type
fuchsia::ui::input::InputMethodAction::DONE, // input method action
*last_text_state_, // initial state
ime_client_.NewBinding(), // client
ime_.NewRequest() // editor
);
}
void PlatformView::DeactivateIme() {
if (ime_) {
text_sync_service_->HideKeyboard();
ime_ = nullptr;
}
if (ime_client_.is_bound()) {
ime_client_.Unbind();
}
}
// |flutter::PlatformView|
std::unique_ptr<flutter::VsyncWaiter> PlatformView::CreateVSyncWaiter() {
return std::make_unique<flutter_runner::VsyncWaiter>(
debug_label_, vsync_event_handle_, task_runners_, vsync_offset_);
}
// |flutter::PlatformView|
std::unique_ptr<flutter::Surface> PlatformView::CreateRenderingSurface() {
return on_create_surface_callback_ ? on_create_surface_callback_() : nullptr;
}
// |flutter::PlatformView|
void PlatformView::HandlePlatformMessage(
fml::RefPtr<flutter::PlatformMessage> message) {
if (!message) {
return;
}
const std::string channel = message->channel();
auto found = platform_message_handlers_.find(channel);
if (found == platform_message_handlers_.end()) {
const bool already_errored = unregistered_channels_.count(channel);
if (!already_errored) {
FML_LOG(INFO)
<< "Platform view received message on channel '" << message->channel()
<< "' with no registered handler. And empty response will be "
"generated. Please implement the native message handler. This "
"message will appear only once per channel.";
unregistered_channels_.insert(channel);
}
flutter::PlatformView::HandlePlatformMessage(std::move(message));
return;
}
found->second(std::move(message));
}
// |flutter::PlatformView|
// |flutter_runner::AccessibilityBridge::Delegate|
void PlatformView::SetSemanticsEnabled(bool enabled) {
flutter::PlatformView::SetSemanticsEnabled(enabled);
if (enabled) {
SetAccessibilityFeatures(static_cast<int32_t>(
flutter::AccessibilityFeatureFlag::kAccessibleNavigation));
} else {
SetAccessibilityFeatures(0);
}
}
// |flutter::PlatformView|
// |flutter_runner::AccessibilityBridge::Delegate|
void PlatformView::DispatchSemanticsAction(int32_t node_id,
flutter::SemanticsAction action) {
flutter::PlatformView::DispatchSemanticsAction(node_id, action, {});
}
// |flutter::PlatformView|
void PlatformView::UpdateSemantics(
flutter::SemanticsNodeUpdates update,
flutter::CustomAccessibilityActionUpdates actions) {
accessibility_bridge_->AddSemanticsNodeUpdate(update);
}
// Channel handler for kAccessibilityChannel
void PlatformView::HandleAccessibilityChannelPlatformMessage(
fml::RefPtr<flutter::PlatformMessage> message) {
FML_DCHECK(message->channel() == kAccessibilityChannel);
}
// Channel handler for kFlutterPlatformChannel
void PlatformView::HandleFlutterPlatformChannelPlatformMessage(
fml::RefPtr<flutter::PlatformMessage> message) {
FML_DCHECK(message->channel() == kFlutterPlatformChannel);
const auto& data = message->data();
rapidjson::Document document;
document.Parse(reinterpret_cast<const char*>(data.data()), data.size());
if (document.HasParseError() || !document.IsObject()) {
return;
}
auto root = document.GetObject();
auto method = root.FindMember("method");
if (method == root.MemberEnd() || !method->value.IsString()) {
return;
}
// Fuchsia does not handle any platform messages at this time.
message->response()->CompleteEmpty();
}
// Channel handler for kTextInputChannel
void PlatformView::HandleFlutterTextInputChannelPlatformMessage(
fml::RefPtr<flutter::PlatformMessage> message) {
FML_DCHECK(message->channel() == kTextInputChannel);
const auto& data = message->data();
rapidjson::Document document;
document.Parse(reinterpret_cast<const char*>(data.data()), data.size());
if (document.HasParseError() || !document.IsObject()) {
return;
}
auto root = document.GetObject();
auto method = root.FindMember("method");
if (method == root.MemberEnd() || !method->value.IsString()) {
return;
}
if (method->value == "TextInput.show") {
if (ime_) {
text_sync_service_->ShowKeyboard();
}
} else if (method->value == "TextInput.hide") {
if (ime_) {
text_sync_service_->HideKeyboard();
}
} else if (method->value == "TextInput.setClient") {
current_text_input_client_ = 0;
DeactivateIme();
auto args = root.FindMember("args");
if (args == root.MemberEnd() || !args->value.IsArray() ||
args->value.Size() != 2)
return;
const auto& configuration = args->value[1];
if (!configuration.IsObject()) {
return;
}
// TODO(abarth): Read the keyboard type from the configuration.
current_text_input_client_ = args->value[0].GetInt();
auto initial_text_input_state = fuchsia::ui::input::TextInputState{};
initial_text_input_state.text = "";
last_text_state_ = std::make_unique<fuchsia::ui::input::TextInputState>(
initial_text_input_state);
ActivateIme();
} else if (method->value == "TextInput.setEditingState") {
if (ime_) {
auto args_it = root.FindMember("args");
if (args_it == root.MemberEnd() || !args_it->value.IsObject()) {
return;
}
const auto& args = args_it->value;
fuchsia::ui::input::TextInputState state;
state.text = "";
// TODO(abarth): Deserialize state.
auto text = args.FindMember("text");
if (text != args.MemberEnd() && text->value.IsString())
state.text = text->value.GetString();
auto selection_base = args.FindMember("selectionBase");
if (selection_base != args.MemberEnd() && selection_base->value.IsInt())
state.selection.base = selection_base->value.GetInt();
auto selection_extent = args.FindMember("selectionExtent");
if (selection_extent != args.MemberEnd() &&
selection_extent->value.IsInt())
state.selection.extent = selection_extent->value.GetInt();
auto selection_affinity = args.FindMember("selectionAffinity");
if (selection_affinity != args.MemberEnd() &&
selection_affinity->value.IsString() &&
selection_affinity->value == "TextAffinity.upstream")
state.selection.affinity = fuchsia::ui::input::TextAffinity::UPSTREAM;
else
state.selection.affinity = fuchsia::ui::input::TextAffinity::DOWNSTREAM;
// We ignore selectionIsDirectional because that concept doesn't exist on
// Fuchsia.
auto composing_base = args.FindMember("composingBase");
if (composing_base != args.MemberEnd() && composing_base->value.IsInt())
state.composing.start = composing_base->value.GetInt();
auto composing_extent = args.FindMember("composingExtent");
if (composing_extent != args.MemberEnd() &&
composing_extent->value.IsInt())
state.composing.end = composing_extent->value.GetInt();
ime_->SetState(std::move(state));
}
} else if (method->value == "TextInput.clearClient") {
current_text_input_client_ = 0;
last_text_state_ = nullptr;
DeactivateIme();
} else {
FML_DLOG(ERROR) << "Unknown " << message->channel() << " method "
<< method->value.GetString();
}
}
void PlatformView::HandleFlutterPlatformViewsChannelPlatformMessage(
fml::RefPtr<flutter::PlatformMessage> message) {
FML_DCHECK(message->channel() == kFlutterPlatformViewsChannel);
const auto& data = message->data();
rapidjson::Document document;
document.Parse(reinterpret_cast<const char*>(data.data()), data.size());
if (document.HasParseError() || !document.IsObject()) {
FML_LOG(ERROR) << "Could not parse document";
return;
}
auto root = document.GetObject();
auto method = root.FindMember("method");
if (method == root.MemberEnd() || !method->value.IsString()) {
return;
}
if (method->value == "View.enableWireframe") {
auto args_it = root.FindMember("args");
if (args_it == root.MemberEnd() || !args_it->value.IsObject()) {
FML_LOG(ERROR) << "No arguments found.";
return;
}
const auto& args = args_it->value;
auto enable = args.FindMember("enable");
if (!enable->value.IsBool()) {
FML_LOG(ERROR) << "Argument 'enable' is not a bool";
return;
}
wireframe_enabled_callback_(enable->value.GetBool());
} else if (method->value == "View.create") {
auto args_it = root.FindMember("args");
if (args_it == root.MemberEnd() || !args_it->value.IsObject()) {
FML_LOG(ERROR) << "No arguments found.";
return;
}
const auto& args = args_it->value;
auto view_id = args.FindMember("viewId");
if (!view_id->value.IsUint64()) {
FML_LOG(ERROR) << "Argument 'viewId' is not a int64";
return;
}
auto hit_testable = args.FindMember("hitTestable");
if (!hit_testable->value.IsBool()) {
FML_LOG(ERROR) << "Argument 'hitTestable' is not a bool";
return;
}
auto focusable = args.FindMember("focusable");
if (!focusable->value.IsBool()) {
FML_LOG(ERROR) << "Argument 'focusable' is not a bool";
return;
}
on_create_view_callback_(view_id->value.GetUint64(),
hit_testable->value.GetBool(),
focusable->value.GetBool());
// The client is waiting for view creation. Send an empty response back
// to signal the view was created.
if (message->response().get()) {
message->response()->Complete(
std::make_unique<fml::NonOwnedMapping>((const uint8_t*)"[0]", 3u));
}
} else if (method->value == "View.update") {
auto args_it = root.FindMember("args");
if (args_it == root.MemberEnd() || !args_it->value.IsObject()) {
FML_LOG(ERROR) << "No arguments found.";
return;
}
const auto& args = args_it->value;
auto view_id = args.FindMember("viewId");
if (!view_id->value.IsUint64()) {
FML_LOG(ERROR) << "Argument 'viewId' is not a int64";
return;
}
auto hit_testable = args.FindMember("hitTestable");
if (!hit_testable->value.IsBool()) {
FML_LOG(ERROR) << "Argument 'hitTestable' is not a bool";
return;
}
auto focusable = args.FindMember("focusable");
if (!focusable->value.IsBool()) {
FML_LOG(ERROR) << "Argument 'focusable' is not a bool";
return;
}
on_update_view_callback_(view_id->value.GetUint64(),
hit_testable->value.GetBool(),
focusable->value.GetBool());
} else if (method->value == "View.dispose") {
auto args_it = root.FindMember("args");
if (args_it == root.MemberEnd() || !args_it->value.IsObject()) {
FML_LOG(ERROR) << "No arguments found.";
return;
}
const auto& args = args_it->value;
auto view_id = args.FindMember("viewId");
if (!view_id->value.IsUint64()) {
FML_LOG(ERROR) << "Argument 'viewId' is not a int64";
return;
}
on_destroy_view_callback_(view_id->value.GetUint64());
} else if (method->value == "View.requestFocus") {
auto args_it = root.FindMember("args");
if (args_it == root.MemberEnd() || !args_it->value.IsObject()) {
FML_LOG(ERROR) << "No arguments found.";
return;
}
const auto& args = args_it->value;
auto view_ref = args.FindMember("viewRef");
if (!view_ref->value.IsUint64()) {
FML_LOG(ERROR) << "Argument 'viewRef' is not a int64";
return;
}
zx_handle_t handle = view_ref->value.GetUint64();
zx_handle_t out_handle;
zx_status_t status =
zx_handle_duplicate(handle, ZX_RIGHT_SAME_RIGHTS, &out_handle);
if (status != ZX_OK) {
FML_LOG(ERROR) << "Argument 'viewRef' is not valid";
return;
}
auto ref = fuchsia::ui::views::ViewRef({
.reference = zx::eventpair(out_handle),
});
focuser_->RequestFocus(
std::move(ref),
[view_ref = view_ref->value.GetUint64()](
fuchsia::ui::views::Focuser_RequestFocus_Result result) {
if (result.is_err()) {
FML_LOG(ERROR) << "Failed to request focus for view: " << view_ref;
}
});
} else {
FML_DLOG(ERROR) << "Unknown " << message->channel() << " method "
<< method->value.GetString();
}
}
flutter::PointerDataDispatcherMaker PlatformView::GetDispatcherMaker() {
return [](flutter::DefaultPointerDataDispatcher::Delegate& delegate) {
return std::make_unique<flutter::SmoothPointerDataDispatcher>(delegate);
};
}
} // namespace flutter_runner