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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.
#include "flutter/shell/platform/windows/text_input_plugin.h"
#include "flutter/fml/string_conversion.h"
#include "flutter/shell/platform/common/text_editing_delta.h"
#include <windows.h>
#include <cstdint>
#include "flutter/shell/platform/common/json_method_codec.h"
static constexpr char kSetEditingStateMethod[] = "TextInput.setEditingState";
static constexpr char kClearClientMethod[] = "TextInput.clearClient";
static constexpr char kSetClientMethod[] = "TextInput.setClient";
static constexpr char kShowMethod[] = "TextInput.show";
static constexpr char kHideMethod[] = "TextInput.hide";
static constexpr char kSetMarkedTextRect[] = "TextInput.setMarkedTextRect";
static constexpr char kSetEditableSizeAndTransform[] =
"TextInput.setEditableSizeAndTransform";
static constexpr char kMultilineInputType[] = "TextInputType.multiline";
static constexpr char kUpdateEditingStateMethod[] =
"TextInputClient.updateEditingState";
static constexpr char kUpdateEditingStateWithDeltasMethod[] =
"TextInputClient.updateEditingStateWithDeltas";
static constexpr char kPerformActionMethod[] = "TextInputClient.performAction";
static constexpr char kDeltaOldTextKey[] = "oldText";
static constexpr char kDeltaTextKey[] = "deltaText";
static constexpr char kDeltaStartKey[] = "deltaStart";
static constexpr char kDeltaEndKey[] = "deltaEnd";
static constexpr char kDeltasKey[] = "deltas";
static constexpr char kEnableDeltaModel[] = "enableDeltaModel";
static constexpr char kTextInputAction[] = "inputAction";
static constexpr char kTextInputType[] = "inputType";
static constexpr char kTextInputTypeName[] = "name";
static constexpr char kComposingBaseKey[] = "composingBase";
static constexpr char kComposingExtentKey[] = "composingExtent";
static constexpr char kSelectionAffinityKey[] = "selectionAffinity";
static constexpr char kAffinityDownstream[] = "TextAffinity.downstream";
static constexpr char kSelectionBaseKey[] = "selectionBase";
static constexpr char kSelectionExtentKey[] = "selectionExtent";
static constexpr char kSelectionIsDirectionalKey[] = "selectionIsDirectional";
static constexpr char kTextKey[] = "text";
static constexpr char kXKey[] = "x";
static constexpr char kYKey[] = "y";
static constexpr char kWidthKey[] = "width";
static constexpr char kHeightKey[] = "height";
static constexpr char kTransformKey[] = "transform";
static constexpr char kChannelName[] = "flutter/textinput";
static constexpr char kBadArgumentError[] = "Bad Arguments";
static constexpr char kInternalConsistencyError[] =
"Internal Consistency Error";
namespace flutter {
void TextInputPlugin::TextHook(const std::u16string& text) {
if (active_model_ == nullptr) {
return;
}
std::u16string text_before_change =
fml::Utf8ToUtf16(active_model_->GetText());
TextRange selection_before_change = active_model_->selection();
active_model_->AddText(text);
if (enable_delta_model) {
TextEditingDelta delta =
TextEditingDelta(text_before_change, selection_before_change, text);
SendStateUpdateWithDelta(*active_model_, &delta);
} else {
SendStateUpdate(*active_model_);
}
}
void TextInputPlugin::KeyboardHook(int key,
int scancode,
int action,
char32_t character,
bool extended,
bool was_down) {
if (active_model_ == nullptr) {
return;
}
if (action == WM_KEYDOWN || action == WM_SYSKEYDOWN) {
// Most editing keys (arrow keys, backspace, delete, etc.) are handled in
// the framework, so don't need to be handled at this layer.
switch (key) {
case VK_RETURN:
EnterPressed(active_model_.get());
break;
default:
break;
}
}
}
TextInputPlugin::TextInputPlugin(flutter::BinaryMessenger* messenger,
TextInputPluginDelegate* delegate)
: channel_(std::make_unique<flutter::MethodChannel<rapidjson::Document>>(
messenger,
kChannelName,
&flutter::JsonMethodCodec::GetInstance())),
delegate_(delegate),
active_model_(nullptr) {
channel_->SetMethodCallHandler(
[this](
const flutter::MethodCall<rapidjson::Document>& call,
std::unique_ptr<flutter::MethodResult<rapidjson::Document>> result) {
HandleMethodCall(call, std::move(result));
});
}
TextInputPlugin::~TextInputPlugin() = default;
void TextInputPlugin::ComposeBeginHook() {
if (active_model_ == nullptr) {
return;
}
active_model_->BeginComposing();
if (enable_delta_model) {
std::string text = active_model_->GetText();
TextRange selection = active_model_->selection();
TextEditingDelta delta = TextEditingDelta(text);
SendStateUpdateWithDelta(*active_model_, &delta);
} else {
SendStateUpdate(*active_model_);
}
}
void TextInputPlugin::ComposeCommitHook() {
if (active_model_ == nullptr) {
return;
}
std::string text_before_change = active_model_->GetText();
TextRange selection_before_change = active_model_->selection();
TextRange composing_before_change = active_model_->composing_range();
std::string composing_text_before_change = text_before_change.substr(
composing_before_change.start(), composing_before_change.length());
active_model_->CommitComposing();
// We do not trigger SendStateUpdate here.
//
// Until a WM_IME_ENDCOMPOSING event, the user is still composing from the OS
// point of view. Commit events are always immediately followed by another
// composing event or an end composing event. However, in the brief window
// between the commit event and the following event, the composing region is
// collapsed. Notifying the framework of this intermediate state will trigger
// any framework code designed to execute at the end of composing, such as
// input formatters, which may try to update the text and send a message back
// to the engine with changes.
//
// This is a particular problem with Korean IMEs, which build up one
// character at a time in their composing region until a keypress that makes
// no sense for the in-progress character. At that point, the result
// character is committed and a compose event is immedidately received with
// the new composing region.
//
// In the case where this event is immediately followed by a composing event,
// the state will be sent in ComposeChangeHook.
//
// In the case where this event is immediately followed by an end composing
// event, the state will be sent in ComposeEndHook.
}
void TextInputPlugin::ComposeEndHook() {
if (active_model_ == nullptr) {
return;
}
std::string text_before_change = active_model_->GetText();
TextRange selection_before_change = active_model_->selection();
active_model_->CommitComposing();
active_model_->EndComposing();
if (enable_delta_model) {
std::string text = active_model_->GetText();
TextEditingDelta delta = TextEditingDelta(text);
SendStateUpdateWithDelta(*active_model_, &delta);
} else {
SendStateUpdate(*active_model_);
}
}
void TextInputPlugin::ComposeChangeHook(const std::u16string& text,
int cursor_pos) {
if (active_model_ == nullptr) {
return;
}
std::string text_before_change = active_model_->GetText();
TextRange composing_before_change = active_model_->composing_range();
active_model_->AddText(text);
cursor_pos += active_model_->composing_range().extent();
active_model_->UpdateComposingText(text);
active_model_->SetSelection(TextRange(cursor_pos, cursor_pos));
std::string text_after_change = active_model_->GetText();
if (enable_delta_model) {
TextEditingDelta delta = TextEditingDelta(
fml::Utf8ToUtf16(text_before_change), composing_before_change, text);
SendStateUpdateWithDelta(*active_model_, &delta);
} else {
SendStateUpdate(*active_model_);
}
}
void TextInputPlugin::HandleMethodCall(
const flutter::MethodCall<rapidjson::Document>& method_call,
std::unique_ptr<flutter::MethodResult<rapidjson::Document>> result) {
const std::string& method = method_call.method_name();
if (method.compare(kShowMethod) == 0 || method.compare(kHideMethod) == 0) {
// These methods are no-ops.
} else if (method.compare(kClearClientMethod) == 0) {
if (active_model_ != nullptr && active_model_->composing()) {
active_model_->CommitComposing();
active_model_->EndComposing();
SendStateUpdate(*active_model_);
}
delegate_->OnResetImeComposing();
active_model_ = nullptr;
} else if (method.compare(kSetClientMethod) == 0) {
if (!method_call.arguments() || method_call.arguments()->IsNull()) {
result->Error(kBadArgumentError, "Method invoked without args");
return;
}
const rapidjson::Document& args = *method_call.arguments();
const rapidjson::Value& client_id_json = args[0];
const rapidjson::Value& client_config = args[1];
if (client_id_json.IsNull()) {
result->Error(kBadArgumentError, "Could not set client, ID is null.");
return;
}
if (client_config.IsNull()) {
result->Error(kBadArgumentError,
"Could not set client, missing arguments.");
return;
}
client_id_ = client_id_json.GetInt();
auto enable_delta_model_json = client_config.FindMember(kEnableDeltaModel);
if (enable_delta_model_json != client_config.MemberEnd() &&
enable_delta_model_json->value.IsBool()) {
enable_delta_model = enable_delta_model_json->value.GetBool();
}
input_action_ = "";
auto input_action_json = client_config.FindMember(kTextInputAction);
if (input_action_json != client_config.MemberEnd() &&
input_action_json->value.IsString()) {
input_action_ = input_action_json->value.GetString();
}
input_type_ = "";
auto input_type_info_json = client_config.FindMember(kTextInputType);
if (input_type_info_json != client_config.MemberEnd() &&
input_type_info_json->value.IsObject()) {
auto input_type_json =
input_type_info_json->value.FindMember(kTextInputTypeName);
if (input_type_json != input_type_info_json->value.MemberEnd() &&
input_type_json->value.IsString()) {
input_type_ = input_type_json->value.GetString();
}
}
active_model_ = std::make_unique<TextInputModel>();
} else if (method.compare(kSetEditingStateMethod) == 0) {
if (!method_call.arguments() || method_call.arguments()->IsNull()) {
result->Error(kBadArgumentError, "Method invoked without args");
return;
}
const rapidjson::Document& args = *method_call.arguments();
if (active_model_ == nullptr) {
result->Error(
kInternalConsistencyError,
"Set editing state has been invoked, but no client is set.");
return;
}
auto text = args.FindMember(kTextKey);
if (text == args.MemberEnd() || text->value.IsNull()) {
result->Error(kBadArgumentError,
"Set editing state has been invoked, but without text.");
return;
}
auto base = args.FindMember(kSelectionBaseKey);
auto extent = args.FindMember(kSelectionExtentKey);
if (base == args.MemberEnd() || base->value.IsNull() ||
extent == args.MemberEnd() || extent->value.IsNull()) {
result->Error(kInternalConsistencyError,
"Selection base/extent values invalid.");
return;
}
// Flutter uses -1/-1 for invalid; translate that to 0/0 for the model.
int selection_base = base->value.GetInt();
int selection_extent = extent->value.GetInt();
if (selection_base == -1 && selection_extent == -1) {
selection_base = selection_extent = 0;
}
active_model_->SetText(text->value.GetString());
active_model_->SetSelection(TextRange(selection_base, selection_extent));
base = args.FindMember(kComposingBaseKey);
extent = args.FindMember(kComposingExtentKey);
if (base == args.MemberEnd() || base->value.IsNull() ||
extent == args.MemberEnd() || extent->value.IsNull()) {
result->Error(kInternalConsistencyError,
"Composing base/extent values invalid.");
return;
}
int composing_base = base->value.GetInt();
int composing_extent = base->value.GetInt();
if (composing_base == -1 && composing_extent == -1) {
active_model_->EndComposing();
} else {
int composing_start = std::min(composing_base, composing_extent);
int cursor_offset = selection_base - composing_start;
active_model_->SetComposingRange(
TextRange(composing_base, composing_extent), cursor_offset);
}
} else if (method.compare(kSetMarkedTextRect) == 0) {
if (!method_call.arguments() || method_call.arguments()->IsNull()) {
result->Error(kBadArgumentError, "Method invoked without args");
return;
}
const rapidjson::Document& args = *method_call.arguments();
auto x = args.FindMember(kXKey);
auto y = args.FindMember(kYKey);
auto width = args.FindMember(kWidthKey);
auto height = args.FindMember(kHeightKey);
if (x == args.MemberEnd() || x->value.IsNull() || //
y == args.MemberEnd() || y->value.IsNull() || //
width == args.MemberEnd() || width->value.IsNull() || //
height == args.MemberEnd() || height->value.IsNull()) {
result->Error(kInternalConsistencyError,
"Composing rect values invalid.");
return;
}
composing_rect_ = {{x->value.GetDouble(), y->value.GetDouble()},
{width->value.GetDouble(), height->value.GetDouble()}};
Rect transformed_rect = GetCursorRect();
delegate_->OnCursorRectUpdated(transformed_rect);
} else if (method.compare(kSetEditableSizeAndTransform) == 0) {
if (!method_call.arguments() || method_call.arguments()->IsNull()) {
result->Error(kBadArgumentError, "Method invoked without args");
return;
}
const rapidjson::Document& args = *method_call.arguments();
auto transform = args.FindMember(kTransformKey);
if (transform == args.MemberEnd() || transform->value.IsNull() ||
!transform->value.IsArray() || transform->value.Size() != 16) {
result->Error(kInternalConsistencyError,
"EditableText transform invalid.");
return;
}
size_t i = 0;
for (auto& entry : transform->value.GetArray()) {
if (entry.IsNull()) {
result->Error(kInternalConsistencyError,
"EditableText transform contains null value.");
return;
}
editabletext_transform_[i / 4][i % 4] = entry.GetDouble();
++i;
}
Rect transformed_rect = GetCursorRect();
delegate_->OnCursorRectUpdated(transformed_rect);
} else {
result->NotImplemented();
return;
}
// All error conditions return early, so if nothing has gone wrong indicate
// success.
result->Success();
}
Rect TextInputPlugin::GetCursorRect() const {
Point transformed_point = {
composing_rect_.left() * editabletext_transform_[0][0] +
composing_rect_.top() * editabletext_transform_[1][0] +
editabletext_transform_[3][0] + composing_rect_.width(),
composing_rect_.left() * editabletext_transform_[0][1] +
composing_rect_.top() * editabletext_transform_[1][1] +
editabletext_transform_[3][1] + composing_rect_.height()};
return {transformed_point, composing_rect_.size()};
}
void TextInputPlugin::SendStateUpdate(const TextInputModel& model) {
auto args = std::make_unique<rapidjson::Document>(rapidjson::kArrayType);
auto& allocator = args->GetAllocator();
args->PushBack(client_id_, allocator);
TextRange selection = model.selection();
rapidjson::Value editing_state(rapidjson::kObjectType);
editing_state.AddMember(kSelectionAffinityKey, kAffinityDownstream,
allocator);
editing_state.AddMember(kSelectionBaseKey, selection.base(), allocator);
editing_state.AddMember(kSelectionExtentKey, selection.extent(), allocator);
editing_state.AddMember(kSelectionIsDirectionalKey, false, allocator);
int composing_base = model.composing() ? model.composing_range().base() : -1;
int composing_extent =
model.composing() ? model.composing_range().extent() : -1;
editing_state.AddMember(kComposingBaseKey, composing_base, allocator);
editing_state.AddMember(kComposingExtentKey, composing_extent, allocator);
editing_state.AddMember(
kTextKey, rapidjson::Value(model.GetText(), allocator).Move(), allocator);
args->PushBack(editing_state, allocator);
channel_->InvokeMethod(kUpdateEditingStateMethod, std::move(args));
}
void TextInputPlugin::SendStateUpdateWithDelta(const TextInputModel& model,
const TextEditingDelta* delta) {
auto args = std::make_unique<rapidjson::Document>(rapidjson::kArrayType);
auto& allocator = args->GetAllocator();
args->PushBack(client_id_, allocator);
rapidjson::Value object(rapidjson::kObjectType);
rapidjson::Value deltas(rapidjson::kArrayType);
rapidjson::Value deltaJson(rapidjson::kObjectType);
deltaJson.AddMember(kDeltaOldTextKey, delta->old_text(), allocator);
deltaJson.AddMember(kDeltaTextKey, delta->delta_text(), allocator);
deltaJson.AddMember(kDeltaStartKey, delta->delta_start(), allocator);
deltaJson.AddMember(kDeltaEndKey, delta->delta_end(), allocator);
TextRange selection = model.selection();
deltaJson.AddMember(kSelectionAffinityKey, kAffinityDownstream, allocator);
deltaJson.AddMember(kSelectionBaseKey, selection.base(), allocator);
deltaJson.AddMember(kSelectionExtentKey, selection.extent(), allocator);
deltaJson.AddMember(kSelectionIsDirectionalKey, false, allocator);
int composing_base = model.composing() ? model.composing_range().base() : -1;
int composing_extent =
model.composing() ? model.composing_range().extent() : -1;
deltaJson.AddMember(kComposingBaseKey, composing_base, allocator);
deltaJson.AddMember(kComposingExtentKey, composing_extent, allocator);
deltas.PushBack(deltaJson, allocator);
object.AddMember(kDeltasKey, deltas, allocator);
args->PushBack(object, allocator);
channel_->InvokeMethod(kUpdateEditingStateWithDeltasMethod, std::move(args));
}
void TextInputPlugin::EnterPressed(TextInputModel* model) {
if (input_type_ == kMultilineInputType) {
std::u16string text_before_change = fml::Utf8ToUtf16(model->GetText());
TextRange selection_before_change = model->selection();
model->AddText(u"\n");
if (enable_delta_model) {
TextEditingDelta delta(text_before_change, selection_before_change,
u"\n");
SendStateUpdateWithDelta(*model, &delta);
} else {
SendStateUpdate(*model);
}
}
auto args = std::make_unique<rapidjson::Document>(rapidjson::kArrayType);
auto& allocator = args->GetAllocator();
args->PushBack(client_id_, allocator);
args->PushBack(rapidjson::Value(input_action_, allocator).Move(), allocator);
channel_->InvokeMethod(kPerformActionMethod, std::move(args));
}
} // namespace flutter