blob: 7cfd6d00307eb4df4d84202466752a21ff4ce67a [file] [log] [blame]
// 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.
//
// Autogenerated from Pigeon (v9.0.1), do not edit directly.
// See also: https://pub.dev/packages/pigeon
#undef _HAS_EXCEPTIONS
#include "core_tests.gen.h"
#include <flutter/basic_message_channel.h>
#include <flutter/binary_messenger.h>
#include <flutter/encodable_value.h>
#include <flutter/standard_message_codec.h>
#include <map>
#include <optional>
#include <string>
namespace core_tests_pigeontest {
using flutter::BasicMessageChannel;
using flutter::CustomEncodableValue;
using flutter::EncodableList;
using flutter::EncodableMap;
using flutter::EncodableValue;
// AllTypes
bool AllTypes::a_bool() const { return a_bool_; }
void AllTypes::set_a_bool(bool value_arg) { a_bool_ = value_arg; }
int64_t AllTypes::an_int() const { return an_int_; }
void AllTypes::set_an_int(int64_t value_arg) { an_int_ = value_arg; }
double AllTypes::a_double() const { return a_double_; }
void AllTypes::set_a_double(double value_arg) { a_double_ = value_arg; }
const std::vector<uint8_t>& AllTypes::a_byte_array() const {
return a_byte_array_;
}
void AllTypes::set_a_byte_array(const std::vector<uint8_t>& value_arg) {
a_byte_array_ = value_arg;
}
const std::vector<int32_t>& AllTypes::a4_byte_array() const {
return a4_byte_array_;
}
void AllTypes::set_a4_byte_array(const std::vector<int32_t>& value_arg) {
a4_byte_array_ = value_arg;
}
const std::vector<int64_t>& AllTypes::a8_byte_array() const {
return a8_byte_array_;
}
void AllTypes::set_a8_byte_array(const std::vector<int64_t>& value_arg) {
a8_byte_array_ = value_arg;
}
const std::vector<double>& AllTypes::a_float_array() const {
return a_float_array_;
}
void AllTypes::set_a_float_array(const std::vector<double>& value_arg) {
a_float_array_ = value_arg;
}
const EncodableList& AllTypes::a_list() const { return a_list_; }
void AllTypes::set_a_list(const EncodableList& value_arg) {
a_list_ = value_arg;
}
const EncodableMap& AllTypes::a_map() const { return a_map_; }
void AllTypes::set_a_map(const EncodableMap& value_arg) { a_map_ = value_arg; }
const AnEnum& AllTypes::an_enum() const { return an_enum_; }
void AllTypes::set_an_enum(const AnEnum& value_arg) { an_enum_ = value_arg; }
const std::string& AllTypes::a_string() const { return a_string_; }
void AllTypes::set_a_string(std::string_view value_arg) {
a_string_ = value_arg;
}
EncodableList AllTypes::ToEncodableList() const {
EncodableList list;
list.reserve(11);
list.push_back(EncodableValue(a_bool_));
list.push_back(EncodableValue(an_int_));
list.push_back(EncodableValue(a_double_));
list.push_back(EncodableValue(a_byte_array_));
list.push_back(EncodableValue(a4_byte_array_));
list.push_back(EncodableValue(a8_byte_array_));
list.push_back(EncodableValue(a_float_array_));
list.push_back(EncodableValue(a_list_));
list.push_back(EncodableValue(a_map_));
list.push_back(EncodableValue((int)an_enum_));
list.push_back(EncodableValue(a_string_));
return list;
}
AllTypes::AllTypes() {}
AllTypes::AllTypes(const EncodableList& list) {
auto& encodable_a_bool = list[0];
if (const bool* pointer_a_bool = std::get_if<bool>(&encodable_a_bool)) {
a_bool_ = *pointer_a_bool;
}
auto& encodable_an_int = list[1];
if (const int32_t* pointer_an_int = std::get_if<int32_t>(&encodable_an_int))
an_int_ = *pointer_an_int;
else if (const int64_t* pointer_an_int_64 =
std::get_if<int64_t>(&encodable_an_int))
an_int_ = *pointer_an_int_64;
auto& encodable_a_double = list[2];
if (const double* pointer_a_double =
std::get_if<double>(&encodable_a_double)) {
a_double_ = *pointer_a_double;
}
auto& encodable_a_byte_array = list[3];
if (const std::vector<uint8_t>* pointer_a_byte_array =
std::get_if<std::vector<uint8_t>>(&encodable_a_byte_array)) {
a_byte_array_ = *pointer_a_byte_array;
}
auto& encodable_a4_byte_array = list[4];
if (const std::vector<int32_t>* pointer_a4_byte_array =
std::get_if<std::vector<int32_t>>(&encodable_a4_byte_array)) {
a4_byte_array_ = *pointer_a4_byte_array;
}
auto& encodable_a8_byte_array = list[5];
if (const std::vector<int64_t>* pointer_a8_byte_array =
std::get_if<std::vector<int64_t>>(&encodable_a8_byte_array)) {
a8_byte_array_ = *pointer_a8_byte_array;
}
auto& encodable_a_float_array = list[6];
if (const std::vector<double>* pointer_a_float_array =
std::get_if<std::vector<double>>(&encodable_a_float_array)) {
a_float_array_ = *pointer_a_float_array;
}
auto& encodable_a_list = list[7];
if (const EncodableList* pointer_a_list =
std::get_if<EncodableList>(&encodable_a_list)) {
a_list_ = *pointer_a_list;
}
auto& encodable_a_map = list[8];
if (const EncodableMap* pointer_a_map =
std::get_if<EncodableMap>(&encodable_a_map)) {
a_map_ = *pointer_a_map;
}
auto& encodable_an_enum = list[9];
if (const int32_t* pointer_an_enum = std::get_if<int32_t>(&encodable_an_enum))
an_enum_ = (AnEnum)*pointer_an_enum;
auto& encodable_a_string = list[10];
if (const std::string* pointer_a_string =
std::get_if<std::string>(&encodable_a_string)) {
a_string_ = *pointer_a_string;
}
}
// AllNullableTypes
const bool* AllNullableTypes::a_nullable_bool() const {
return a_nullable_bool_ ? &(*a_nullable_bool_) : nullptr;
}
void AllNullableTypes::set_a_nullable_bool(const bool* value_arg) {
a_nullable_bool_ = value_arg ? std::optional<bool>(*value_arg) : std::nullopt;
}
void AllNullableTypes::set_a_nullable_bool(bool value_arg) {
a_nullable_bool_ = value_arg;
}
const int64_t* AllNullableTypes::a_nullable_int() const {
return a_nullable_int_ ? &(*a_nullable_int_) : nullptr;
}
void AllNullableTypes::set_a_nullable_int(const int64_t* value_arg) {
a_nullable_int_ =
value_arg ? std::optional<int64_t>(*value_arg) : std::nullopt;
}
void AllNullableTypes::set_a_nullable_int(int64_t value_arg) {
a_nullable_int_ = value_arg;
}
const double* AllNullableTypes::a_nullable_double() const {
return a_nullable_double_ ? &(*a_nullable_double_) : nullptr;
}
void AllNullableTypes::set_a_nullable_double(const double* value_arg) {
a_nullable_double_ =
value_arg ? std::optional<double>(*value_arg) : std::nullopt;
}
void AllNullableTypes::set_a_nullable_double(double value_arg) {
a_nullable_double_ = value_arg;
}
const std::vector<uint8_t>* AllNullableTypes::a_nullable_byte_array() const {
return a_nullable_byte_array_ ? &(*a_nullable_byte_array_) : nullptr;
}
void AllNullableTypes::set_a_nullable_byte_array(
const std::vector<uint8_t>* value_arg) {
a_nullable_byte_array_ = value_arg
? std::optional<std::vector<uint8_t>>(*value_arg)
: std::nullopt;
}
void AllNullableTypes::set_a_nullable_byte_array(
const std::vector<uint8_t>& value_arg) {
a_nullable_byte_array_ = value_arg;
}
const std::vector<int32_t>* AllNullableTypes::a_nullable4_byte_array() const {
return a_nullable4_byte_array_ ? &(*a_nullable4_byte_array_) : nullptr;
}
void AllNullableTypes::set_a_nullable4_byte_array(
const std::vector<int32_t>* value_arg) {
a_nullable4_byte_array_ =
value_arg ? std::optional<std::vector<int32_t>>(*value_arg)
: std::nullopt;
}
void AllNullableTypes::set_a_nullable4_byte_array(
const std::vector<int32_t>& value_arg) {
a_nullable4_byte_array_ = value_arg;
}
const std::vector<int64_t>* AllNullableTypes::a_nullable8_byte_array() const {
return a_nullable8_byte_array_ ? &(*a_nullable8_byte_array_) : nullptr;
}
void AllNullableTypes::set_a_nullable8_byte_array(
const std::vector<int64_t>* value_arg) {
a_nullable8_byte_array_ =
value_arg ? std::optional<std::vector<int64_t>>(*value_arg)
: std::nullopt;
}
void AllNullableTypes::set_a_nullable8_byte_array(
const std::vector<int64_t>& value_arg) {
a_nullable8_byte_array_ = value_arg;
}
const std::vector<double>* AllNullableTypes::a_nullable_float_array() const {
return a_nullable_float_array_ ? &(*a_nullable_float_array_) : nullptr;
}
void AllNullableTypes::set_a_nullable_float_array(
const std::vector<double>* value_arg) {
a_nullable_float_array_ =
value_arg ? std::optional<std::vector<double>>(*value_arg) : std::nullopt;
}
void AllNullableTypes::set_a_nullable_float_array(
const std::vector<double>& value_arg) {
a_nullable_float_array_ = value_arg;
}
const EncodableList* AllNullableTypes::a_nullable_list() const {
return a_nullable_list_ ? &(*a_nullable_list_) : nullptr;
}
void AllNullableTypes::set_a_nullable_list(const EncodableList* value_arg) {
a_nullable_list_ =
value_arg ? std::optional<EncodableList>(*value_arg) : std::nullopt;
}
void AllNullableTypes::set_a_nullable_list(const EncodableList& value_arg) {
a_nullable_list_ = value_arg;
}
const EncodableMap* AllNullableTypes::a_nullable_map() const {
return a_nullable_map_ ? &(*a_nullable_map_) : nullptr;
}
void AllNullableTypes::set_a_nullable_map(const EncodableMap* value_arg) {
a_nullable_map_ =
value_arg ? std::optional<EncodableMap>(*value_arg) : std::nullopt;
}
void AllNullableTypes::set_a_nullable_map(const EncodableMap& value_arg) {
a_nullable_map_ = value_arg;
}
const EncodableList* AllNullableTypes::nullable_nested_list() const {
return nullable_nested_list_ ? &(*nullable_nested_list_) : nullptr;
}
void AllNullableTypes::set_nullable_nested_list(
const EncodableList* value_arg) {
nullable_nested_list_ =
value_arg ? std::optional<EncodableList>(*value_arg) : std::nullopt;
}
void AllNullableTypes::set_nullable_nested_list(
const EncodableList& value_arg) {
nullable_nested_list_ = value_arg;
}
const EncodableMap* AllNullableTypes::nullable_map_with_annotations() const {
return nullable_map_with_annotations_ ? &(*nullable_map_with_annotations_)
: nullptr;
}
void AllNullableTypes::set_nullable_map_with_annotations(
const EncodableMap* value_arg) {
nullable_map_with_annotations_ =
value_arg ? std::optional<EncodableMap>(*value_arg) : std::nullopt;
}
void AllNullableTypes::set_nullable_map_with_annotations(
const EncodableMap& value_arg) {
nullable_map_with_annotations_ = value_arg;
}
const EncodableMap* AllNullableTypes::nullable_map_with_object() const {
return nullable_map_with_object_ ? &(*nullable_map_with_object_) : nullptr;
}
void AllNullableTypes::set_nullable_map_with_object(
const EncodableMap* value_arg) {
nullable_map_with_object_ =
value_arg ? std::optional<EncodableMap>(*value_arg) : std::nullopt;
}
void AllNullableTypes::set_nullable_map_with_object(
const EncodableMap& value_arg) {
nullable_map_with_object_ = value_arg;
}
const AnEnum* AllNullableTypes::a_nullable_enum() const {
return a_nullable_enum_ ? &(*a_nullable_enum_) : nullptr;
}
void AllNullableTypes::set_a_nullable_enum(const AnEnum* value_arg) {
a_nullable_enum_ =
value_arg ? std::optional<AnEnum>(*value_arg) : std::nullopt;
}
void AllNullableTypes::set_a_nullable_enum(const AnEnum& value_arg) {
a_nullable_enum_ = value_arg;
}
const std::string* AllNullableTypes::a_nullable_string() const {
return a_nullable_string_ ? &(*a_nullable_string_) : nullptr;
}
void AllNullableTypes::set_a_nullable_string(
const std::string_view* value_arg) {
a_nullable_string_ =
value_arg ? std::optional<std::string>(*value_arg) : std::nullopt;
}
void AllNullableTypes::set_a_nullable_string(std::string_view value_arg) {
a_nullable_string_ = value_arg;
}
EncodableList AllNullableTypes::ToEncodableList() const {
EncodableList list;
list.reserve(14);
list.push_back(a_nullable_bool_ ? EncodableValue(*a_nullable_bool_)
: EncodableValue());
list.push_back(a_nullable_int_ ? EncodableValue(*a_nullable_int_)
: EncodableValue());
list.push_back(a_nullable_double_ ? EncodableValue(*a_nullable_double_)
: EncodableValue());
list.push_back(a_nullable_byte_array_
? EncodableValue(*a_nullable_byte_array_)
: EncodableValue());
list.push_back(a_nullable4_byte_array_
? EncodableValue(*a_nullable4_byte_array_)
: EncodableValue());
list.push_back(a_nullable8_byte_array_
? EncodableValue(*a_nullable8_byte_array_)
: EncodableValue());
list.push_back(a_nullable_float_array_
? EncodableValue(*a_nullable_float_array_)
: EncodableValue());
list.push_back(a_nullable_list_ ? EncodableValue(*a_nullable_list_)
: EncodableValue());
list.push_back(a_nullable_map_ ? EncodableValue(*a_nullable_map_)
: EncodableValue());
list.push_back(nullable_nested_list_ ? EncodableValue(*nullable_nested_list_)
: EncodableValue());
list.push_back(nullable_map_with_annotations_
? EncodableValue(*nullable_map_with_annotations_)
: EncodableValue());
list.push_back(nullable_map_with_object_
? EncodableValue(*nullable_map_with_object_)
: EncodableValue());
list.push_back(a_nullable_enum_ ? EncodableValue((int)(*a_nullable_enum_))
: EncodableValue());
list.push_back(a_nullable_string_ ? EncodableValue(*a_nullable_string_)
: EncodableValue());
return list;
}
AllNullableTypes::AllNullableTypes() {}
AllNullableTypes::AllNullableTypes(const EncodableList& list) {
auto& encodable_a_nullable_bool = list[0];
if (const bool* pointer_a_nullable_bool =
std::get_if<bool>(&encodable_a_nullable_bool)) {
a_nullable_bool_ = *pointer_a_nullable_bool;
}
auto& encodable_a_nullable_int = list[1];
if (const int32_t* pointer_a_nullable_int =
std::get_if<int32_t>(&encodable_a_nullable_int))
a_nullable_int_ = *pointer_a_nullable_int;
else if (const int64_t* pointer_a_nullable_int_64 =
std::get_if<int64_t>(&encodable_a_nullable_int))
a_nullable_int_ = *pointer_a_nullable_int_64;
auto& encodable_a_nullable_double = list[2];
if (const double* pointer_a_nullable_double =
std::get_if<double>(&encodable_a_nullable_double)) {
a_nullable_double_ = *pointer_a_nullable_double;
}
auto& encodable_a_nullable_byte_array = list[3];
if (const std::vector<uint8_t>* pointer_a_nullable_byte_array =
std::get_if<std::vector<uint8_t>>(&encodable_a_nullable_byte_array)) {
a_nullable_byte_array_ = *pointer_a_nullable_byte_array;
}
auto& encodable_a_nullable4_byte_array = list[4];
if (const std::vector<int32_t>* pointer_a_nullable4_byte_array =
std::get_if<std::vector<int32_t>>(
&encodable_a_nullable4_byte_array)) {
a_nullable4_byte_array_ = *pointer_a_nullable4_byte_array;
}
auto& encodable_a_nullable8_byte_array = list[5];
if (const std::vector<int64_t>* pointer_a_nullable8_byte_array =
std::get_if<std::vector<int64_t>>(
&encodable_a_nullable8_byte_array)) {
a_nullable8_byte_array_ = *pointer_a_nullable8_byte_array;
}
auto& encodable_a_nullable_float_array = list[6];
if (const std::vector<double>* pointer_a_nullable_float_array =
std::get_if<std::vector<double>>(&encodable_a_nullable_float_array)) {
a_nullable_float_array_ = *pointer_a_nullable_float_array;
}
auto& encodable_a_nullable_list = list[7];
if (const EncodableList* pointer_a_nullable_list =
std::get_if<EncodableList>(&encodable_a_nullable_list)) {
a_nullable_list_ = *pointer_a_nullable_list;
}
auto& encodable_a_nullable_map = list[8];
if (const EncodableMap* pointer_a_nullable_map =
std::get_if<EncodableMap>(&encodable_a_nullable_map)) {
a_nullable_map_ = *pointer_a_nullable_map;
}
auto& encodable_nullable_nested_list = list[9];
if (const EncodableList* pointer_nullable_nested_list =
std::get_if<EncodableList>(&encodable_nullable_nested_list)) {
nullable_nested_list_ = *pointer_nullable_nested_list;
}
auto& encodable_nullable_map_with_annotations = list[10];
if (const EncodableMap* pointer_nullable_map_with_annotations =
std::get_if<EncodableMap>(&encodable_nullable_map_with_annotations)) {
nullable_map_with_annotations_ = *pointer_nullable_map_with_annotations;
}
auto& encodable_nullable_map_with_object = list[11];
if (const EncodableMap* pointer_nullable_map_with_object =
std::get_if<EncodableMap>(&encodable_nullable_map_with_object)) {
nullable_map_with_object_ = *pointer_nullable_map_with_object;
}
auto& encodable_a_nullable_enum = list[12];
if (const int32_t* pointer_a_nullable_enum =
std::get_if<int32_t>(&encodable_a_nullable_enum))
a_nullable_enum_ = (AnEnum)*pointer_a_nullable_enum;
auto& encodable_a_nullable_string = list[13];
if (const std::string* pointer_a_nullable_string =
std::get_if<std::string>(&encodable_a_nullable_string)) {
a_nullable_string_ = *pointer_a_nullable_string;
}
}
// AllNullableTypesWrapper
const AllNullableTypes& AllNullableTypesWrapper::values() const {
return values_;
}
void AllNullableTypesWrapper::set_values(const AllNullableTypes& value_arg) {
values_ = value_arg;
}
EncodableList AllNullableTypesWrapper::ToEncodableList() const {
EncodableList list;
list.reserve(1);
list.push_back(EncodableValue(values_.ToEncodableList()));
return list;
}
AllNullableTypesWrapper::AllNullableTypesWrapper() {}
AllNullableTypesWrapper::AllNullableTypesWrapper(const EncodableList& list) {
auto& encodable_values = list[0];
if (const EncodableList* pointer_values =
std::get_if<EncodableList>(&encodable_values)) {
values_ = AllNullableTypes(*pointer_values);
}
}
// TestMessage
const EncodableList* TestMessage::test_list() const {
return test_list_ ? &(*test_list_) : nullptr;
}
void TestMessage::set_test_list(const EncodableList* value_arg) {
test_list_ =
value_arg ? std::optional<EncodableList>(*value_arg) : std::nullopt;
}
void TestMessage::set_test_list(const EncodableList& value_arg) {
test_list_ = value_arg;
}
EncodableList TestMessage::ToEncodableList() const {
EncodableList list;
list.reserve(1);
list.push_back(test_list_ ? EncodableValue(*test_list_) : EncodableValue());
return list;
}
TestMessage::TestMessage() {}
TestMessage::TestMessage(const EncodableList& list) {
auto& encodable_test_list = list[0];
if (const EncodableList* pointer_test_list =
std::get_if<EncodableList>(&encodable_test_list)) {
test_list_ = *pointer_test_list;
}
}
HostIntegrationCoreApiCodecSerializer::HostIntegrationCoreApiCodecSerializer() {
}
EncodableValue HostIntegrationCoreApiCodecSerializer::ReadValueOfType(
uint8_t type, flutter::ByteStreamReader* stream) const {
switch (type) {
case 128:
return CustomEncodableValue(
AllNullableTypes(std::get<EncodableList>(ReadValue(stream))));
case 129:
return CustomEncodableValue(
AllNullableTypesWrapper(std::get<EncodableList>(ReadValue(stream))));
case 130:
return CustomEncodableValue(
AllTypes(std::get<EncodableList>(ReadValue(stream))));
case 131:
return CustomEncodableValue(
TestMessage(std::get<EncodableList>(ReadValue(stream))));
default:
return flutter::StandardCodecSerializer::ReadValueOfType(type, stream);
}
}
void HostIntegrationCoreApiCodecSerializer::WriteValue(
const EncodableValue& value, flutter::ByteStreamWriter* stream) const {
if (const CustomEncodableValue* custom_value =
std::get_if<CustomEncodableValue>(&value)) {
if (custom_value->type() == typeid(AllNullableTypes)) {
stream->WriteByte(128);
WriteValue(
EncodableValue(
std::any_cast<AllNullableTypes>(*custom_value).ToEncodableList()),
stream);
return;
}
if (custom_value->type() == typeid(AllNullableTypesWrapper)) {
stream->WriteByte(129);
WriteValue(
EncodableValue(std::any_cast<AllNullableTypesWrapper>(*custom_value)
.ToEncodableList()),
stream);
return;
}
if (custom_value->type() == typeid(AllTypes)) {
stream->WriteByte(130);
WriteValue(EncodableValue(
std::any_cast<AllTypes>(*custom_value).ToEncodableList()),
stream);
return;
}
if (custom_value->type() == typeid(TestMessage)) {
stream->WriteByte(131);
WriteValue(
EncodableValue(
std::any_cast<TestMessage>(*custom_value).ToEncodableList()),
stream);
return;
}
}
flutter::StandardCodecSerializer::WriteValue(value, stream);
}
/// The codec used by HostIntegrationCoreApi.
const flutter::StandardMessageCodec& HostIntegrationCoreApi::GetCodec() {
return flutter::StandardMessageCodec::GetInstance(
&HostIntegrationCoreApiCodecSerializer::GetInstance());
}
// Sets up an instance of `HostIntegrationCoreApi` to handle messages through
// the `binary_messenger`.
void HostIntegrationCoreApi::SetUp(flutter::BinaryMessenger* binary_messenger,
HostIntegrationCoreApi* api) {
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger, "dev.flutter.pigeon.HostIntegrationCoreApi.noop",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
std::optional<FlutterError> output = api->Noop();
if (output.has_value()) {
reply(WrapError(output.value()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue());
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAllTypes", &GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_everything_arg = args.at(0);
if (encodable_everything_arg.IsNull()) {
reply(WrapError("everything_arg unexpectedly null."));
return;
}
const auto& everything_arg = std::any_cast<const AllTypes&>(
std::get<CustomEncodableValue>(encodable_everything_arg));
ErrorOr<AllTypes> output = api->EchoAllTypes(everything_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
CustomEncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.throwError", &GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
ErrorOr<std::optional<EncodableValue>> output = api->ThrowError();
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.throwErrorFromVoid",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
std::optional<FlutterError> output = api->ThrowErrorFromVoid();
if (output.has_value()) {
reply(WrapError(output.value()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue());
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger, "dev.flutter.pigeon.HostIntegrationCoreApi.echoInt",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_an_int_arg = args.at(0);
if (encodable_an_int_arg.IsNull()) {
reply(WrapError("an_int_arg unexpectedly null."));
return;
}
const int64_t an_int_arg = encodable_an_int_arg.LongValue();
ErrorOr<int64_t> output = api->EchoInt(an_int_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoDouble", &GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_double_arg = args.at(0);
if (encodable_a_double_arg.IsNull()) {
reply(WrapError("a_double_arg unexpectedly null."));
return;
}
const auto& a_double_arg =
std::get<double>(encodable_a_double_arg);
ErrorOr<double> output = api->EchoDouble(a_double_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger, "dev.flutter.pigeon.HostIntegrationCoreApi.echoBool",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_bool_arg = args.at(0);
if (encodable_a_bool_arg.IsNull()) {
reply(WrapError("a_bool_arg unexpectedly null."));
return;
}
const auto& a_bool_arg = std::get<bool>(encodable_a_bool_arg);
ErrorOr<bool> output = api->EchoBool(a_bool_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoString", &GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_string_arg = args.at(0);
if (encodable_a_string_arg.IsNull()) {
reply(WrapError("a_string_arg unexpectedly null."));
return;
}
const auto& a_string_arg =
std::get<std::string>(encodable_a_string_arg);
ErrorOr<std::string> output = api->EchoString(a_string_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoUint8List", &GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_uint8_list_arg = args.at(0);
if (encodable_a_uint8_list_arg.IsNull()) {
reply(WrapError("a_uint8_list_arg unexpectedly null."));
return;
}
const auto& a_uint8_list_arg =
std::get<std::vector<uint8_t>>(encodable_a_uint8_list_arg);
ErrorOr<std::vector<uint8_t>> output =
api->EchoUint8List(a_uint8_list_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoObject", &GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_an_object_arg = args.at(0);
if (encodable_an_object_arg.IsNull()) {
reply(WrapError("an_object_arg unexpectedly null."));
return;
}
const auto& an_object_arg = encodable_an_object_arg;
ErrorOr<EncodableValue> output = api->EchoObject(an_object_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger, "dev.flutter.pigeon.HostIntegrationCoreApi.echoList",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_list_arg = args.at(0);
if (encodable_a_list_arg.IsNull()) {
reply(WrapError("a_list_arg unexpectedly null."));
return;
}
const auto& a_list_arg =
std::get<EncodableList>(encodable_a_list_arg);
ErrorOr<EncodableList> output = api->EchoList(a_list_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger, "dev.flutter.pigeon.HostIntegrationCoreApi.echoMap",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_map_arg = args.at(0);
if (encodable_a_map_arg.IsNull()) {
reply(WrapError("a_map_arg unexpectedly null."));
return;
}
const auto& a_map_arg =
std::get<EncodableMap>(encodable_a_map_arg);
ErrorOr<EncodableMap> output = api->EchoMap(a_map_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAllNullableTypes",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_everything_arg = args.at(0);
const auto* everything_arg =
&(std::any_cast<const AllNullableTypes&>(
std::get<CustomEncodableValue>(
encodable_everything_arg)));
ErrorOr<std::optional<AllNullableTypes>> output =
api->EchoAllNullableTypes(everything_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
CustomEncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.extractNestedNullableString",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_wrapper_arg = args.at(0);
if (encodable_wrapper_arg.IsNull()) {
reply(WrapError("wrapper_arg unexpectedly null."));
return;
}
const auto& wrapper_arg =
std::any_cast<const AllNullableTypesWrapper&>(
std::get<CustomEncodableValue>(encodable_wrapper_arg));
ErrorOr<std::optional<std::string>> output =
api->ExtractNestedNullableString(wrapper_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.createNestedNullableString",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_nullable_string_arg = args.at(0);
const auto* nullable_string_arg =
std::get_if<std::string>(&encodable_nullable_string_arg);
ErrorOr<AllNullableTypesWrapper> output =
api->CreateNestedNullableString(nullable_string_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
CustomEncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.sendMultipleNullableTypes",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_nullable_bool_arg = args.at(0);
const auto* a_nullable_bool_arg =
std::get_if<bool>(&encodable_a_nullable_bool_arg);
const auto& encodable_a_nullable_int_arg = args.at(1);
const int64_t a_nullable_int_arg_value =
encodable_a_nullable_int_arg.IsNull()
? 0
: encodable_a_nullable_int_arg.LongValue();
const auto* a_nullable_int_arg =
encodable_a_nullable_int_arg.IsNull()
? nullptr
: &a_nullable_int_arg_value;
const auto& encodable_a_nullable_string_arg = args.at(2);
const auto* a_nullable_string_arg =
std::get_if<std::string>(&encodable_a_nullable_string_arg);
ErrorOr<AllNullableTypes> output = api->SendMultipleNullableTypes(
a_nullable_bool_arg, a_nullable_int_arg,
a_nullable_string_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
CustomEncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoNullableInt",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_nullable_int_arg = args.at(0);
const int64_t a_nullable_int_arg_value =
encodable_a_nullable_int_arg.IsNull()
? 0
: encodable_a_nullable_int_arg.LongValue();
const auto* a_nullable_int_arg =
encodable_a_nullable_int_arg.IsNull()
? nullptr
: &a_nullable_int_arg_value;
ErrorOr<std::optional<int64_t>> output =
api->EchoNullableInt(a_nullable_int_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoNullableDouble",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_nullable_double_arg = args.at(0);
const auto* a_nullable_double_arg =
std::get_if<double>(&encodable_a_nullable_double_arg);
ErrorOr<std::optional<double>> output =
api->EchoNullableDouble(a_nullable_double_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoNullableBool",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_nullable_bool_arg = args.at(0);
const auto* a_nullable_bool_arg =
std::get_if<bool>(&encodable_a_nullable_bool_arg);
ErrorOr<std::optional<bool>> output =
api->EchoNullableBool(a_nullable_bool_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoNullableString",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_nullable_string_arg = args.at(0);
const auto* a_nullable_string_arg =
std::get_if<std::string>(&encodable_a_nullable_string_arg);
ErrorOr<std::optional<std::string>> output =
api->EchoNullableString(a_nullable_string_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoNullableUint8List",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_nullable_uint8_list_arg = args.at(0);
const auto* a_nullable_uint8_list_arg =
std::get_if<std::vector<uint8_t>>(
&encodable_a_nullable_uint8_list_arg);
ErrorOr<std::optional<std::vector<uint8_t>>> output =
api->EchoNullableUint8List(a_nullable_uint8_list_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoNullableObject",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_nullable_object_arg = args.at(0);
const auto* a_nullable_object_arg =
&encodable_a_nullable_object_arg;
ErrorOr<std::optional<EncodableValue>> output =
api->EchoNullableObject(a_nullable_object_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoNullableList",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_nullable_list_arg = args.at(0);
const auto* a_nullable_list_arg =
std::get_if<EncodableList>(&encodable_a_nullable_list_arg);
ErrorOr<std::optional<EncodableList>> output =
api->EchoNullableList(a_nullable_list_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoNullableMap",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_nullable_map_arg = args.at(0);
const auto* a_nullable_map_arg =
std::get_if<EncodableMap>(&encodable_a_nullable_map_arg);
ErrorOr<std::optional<EncodableMap>> output =
api->EchoNullableMap(a_nullable_map_arg);
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger, "dev.flutter.pigeon.HostIntegrationCoreApi.noopAsync",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
api->NoopAsync([reply](std::optional<FlutterError>&& output) {
if (output.has_value()) {
reply(WrapError(output.value()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue());
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncInt", &GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_an_int_arg = args.at(0);
if (encodable_an_int_arg.IsNull()) {
reply(WrapError("an_int_arg unexpectedly null."));
return;
}
const int64_t an_int_arg = encodable_an_int_arg.LongValue();
api->EchoAsyncInt(an_int_arg, [reply](ErrorOr<int64_t>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncDouble",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_double_arg = args.at(0);
if (encodable_a_double_arg.IsNull()) {
reply(WrapError("a_double_arg unexpectedly null."));
return;
}
const auto& a_double_arg =
std::get<double>(encodable_a_double_arg);
api->EchoAsyncDouble(
a_double_arg, [reply](ErrorOr<double>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncBool", &GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_bool_arg = args.at(0);
if (encodable_a_bool_arg.IsNull()) {
reply(WrapError("a_bool_arg unexpectedly null."));
return;
}
const auto& a_bool_arg = std::get<bool>(encodable_a_bool_arg);
api->EchoAsyncBool(a_bool_arg, [reply](ErrorOr<bool>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncString",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_string_arg = args.at(0);
if (encodable_a_string_arg.IsNull()) {
reply(WrapError("a_string_arg unexpectedly null."));
return;
}
const auto& a_string_arg =
std::get<std::string>(encodable_a_string_arg);
api->EchoAsyncString(
a_string_arg, [reply](ErrorOr<std::string>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncUint8List",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_uint8_list_arg = args.at(0);
if (encodable_a_uint8_list_arg.IsNull()) {
reply(WrapError("a_uint8_list_arg unexpectedly null."));
return;
}
const auto& a_uint8_list_arg =
std::get<std::vector<uint8_t>>(encodable_a_uint8_list_arg);
api->EchoAsyncUint8List(
a_uint8_list_arg,
[reply](ErrorOr<std::vector<uint8_t>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncObject",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_an_object_arg = args.at(0);
if (encodable_an_object_arg.IsNull()) {
reply(WrapError("an_object_arg unexpectedly null."));
return;
}
const auto& an_object_arg = encodable_an_object_arg;
api->EchoAsyncObject(
an_object_arg, [reply](ErrorOr<EncodableValue>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncList", &GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_list_arg = args.at(0);
if (encodable_a_list_arg.IsNull()) {
reply(WrapError("a_list_arg unexpectedly null."));
return;
}
const auto& a_list_arg =
std::get<EncodableList>(encodable_a_list_arg);
api->EchoAsyncList(
a_list_arg, [reply](ErrorOr<EncodableList>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncMap", &GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_map_arg = args.at(0);
if (encodable_a_map_arg.IsNull()) {
reply(WrapError("a_map_arg unexpectedly null."));
return;
}
const auto& a_map_arg =
std::get<EncodableMap>(encodable_a_map_arg);
api->EchoAsyncMap(
a_map_arg, [reply](ErrorOr<EncodableMap>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.throwAsyncError",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
api->ThrowAsyncError(
[reply](ErrorOr<std::optional<EncodableValue>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.throwAsyncErrorFromVoid",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
api->ThrowAsyncErrorFromVoid(
[reply](std::optional<FlutterError>&& output) {
if (output.has_value()) {
reply(WrapError(output.value()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue());
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncAllTypes",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_everything_arg = args.at(0);
if (encodable_everything_arg.IsNull()) {
reply(WrapError("everything_arg unexpectedly null."));
return;
}
const auto& everything_arg = std::any_cast<const AllTypes&>(
std::get<CustomEncodableValue>(encodable_everything_arg));
api->EchoAsyncAllTypes(
everything_arg, [reply](ErrorOr<AllTypes>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
CustomEncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi."
"echoAsyncNullableAllNullableTypes",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_everything_arg = args.at(0);
const auto* everything_arg =
&(std::any_cast<const AllNullableTypes&>(
std::get<CustomEncodableValue>(
encodable_everything_arg)));
api->EchoAsyncNullableAllNullableTypes(
everything_arg,
[reply](ErrorOr<std::optional<AllNullableTypes>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(CustomEncodableValue(
std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncNullableInt",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_an_int_arg = args.at(0);
const int64_t an_int_arg_value =
encodable_an_int_arg.IsNull()
? 0
: encodable_an_int_arg.LongValue();
const auto* an_int_arg =
encodable_an_int_arg.IsNull() ? nullptr : &an_int_arg_value;
api->EchoAsyncNullableInt(
an_int_arg,
[reply](ErrorOr<std::optional<int64_t>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncNullableDouble",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_double_arg = args.at(0);
const auto* a_double_arg =
std::get_if<double>(&encodable_a_double_arg);
api->EchoAsyncNullableDouble(
a_double_arg,
[reply](ErrorOr<std::optional<double>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncNullableBool",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_bool_arg = args.at(0);
const auto* a_bool_arg = std::get_if<bool>(&encodable_a_bool_arg);
api->EchoAsyncNullableBool(
a_bool_arg, [reply](ErrorOr<std::optional<bool>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncNullableString",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_string_arg = args.at(0);
const auto* a_string_arg =
std::get_if<std::string>(&encodable_a_string_arg);
api->EchoAsyncNullableString(
a_string_arg,
[reply](ErrorOr<std::optional<std::string>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncNullableUint8List",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_uint8_list_arg = args.at(0);
const auto* a_uint8_list_arg = std::get_if<std::vector<uint8_t>>(
&encodable_a_uint8_list_arg);
api->EchoAsyncNullableUint8List(
a_uint8_list_arg,
[reply](
ErrorOr<std::optional<std::vector<uint8_t>>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncNullableObject",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_an_object_arg = args.at(0);
const auto* an_object_arg = &encodable_an_object_arg;
api->EchoAsyncNullableObject(
an_object_arg,
[reply](ErrorOr<std::optional<EncodableValue>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncNullableList",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_list_arg = args.at(0);
const auto* a_list_arg =
std::get_if<EncodableList>(&encodable_a_list_arg);
api->EchoAsyncNullableList(
a_list_arg,
[reply](ErrorOr<std::optional<EncodableList>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.echoAsyncNullableMap",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_map_arg = args.at(0);
const auto* a_map_arg =
std::get_if<EncodableMap>(&encodable_a_map_arg);
api->EchoAsyncNullableMap(
a_map_arg,
[reply](ErrorOr<std::optional<EncodableMap>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.callFlutterNoop",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
api->CallFlutterNoop(
[reply](std::optional<FlutterError>&& output) {
if (output.has_value()) {
reply(WrapError(output.value()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue());
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.callFlutterThrowError",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
api->CallFlutterThrowError(
[reply](ErrorOr<std::optional<EncodableValue>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeValue();
if (output_optional) {
wrapped.push_back(
EncodableValue(std::move(output_optional).value()));
} else {
wrapped.push_back(EncodableValue());
}
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi."
"callFlutterThrowErrorFromVoid",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
api->CallFlutterThrowErrorFromVoid(
[reply](std::optional<FlutterError>&& output) {
if (output.has_value()) {
reply(WrapError(output.value()));
return;
}
EncodableList wrapped;
wrapped.push_back(EncodableValue());
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.callFlutterEchoAllTypes",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_everything_arg = args.at(0);
if (encodable_everything_arg.IsNull()) {
reply(WrapError("everything_arg unexpectedly null."));
return;
}
const auto& everything_arg = std::any_cast<const AllTypes&>(
std::get<CustomEncodableValue>(encodable_everything_arg));
api->CallFlutterEchoAllTypes(
everything_arg, [reply](ErrorOr<AllTypes>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
CustomEncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi."
"callFlutterSendMultipleNullableTypes",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_nullable_bool_arg = args.at(0);
const auto* a_nullable_bool_arg =
std::get_if<bool>(&encodable_a_nullable_bool_arg);
const auto& encodable_a_nullable_int_arg = args.at(1);
const int64_t a_nullable_int_arg_value =
encodable_a_nullable_int_arg.IsNull()
? 0
: encodable_a_nullable_int_arg.LongValue();
const auto* a_nullable_int_arg =
encodable_a_nullable_int_arg.IsNull()
? nullptr
: &a_nullable_int_arg_value;
const auto& encodable_a_nullable_string_arg = args.at(2);
const auto* a_nullable_string_arg =
std::get_if<std::string>(&encodable_a_nullable_string_arg);
api->CallFlutterSendMultipleNullableTypes(
a_nullable_bool_arg, a_nullable_int_arg,
a_nullable_string_arg,
[reply](ErrorOr<AllNullableTypes>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
CustomEncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.callFlutterEchoBool",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_bool_arg = args.at(0);
if (encodable_a_bool_arg.IsNull()) {
reply(WrapError("a_bool_arg unexpectedly null."));
return;
}
const auto& a_bool_arg = std::get<bool>(encodable_a_bool_arg);
api->CallFlutterEchoBool(
a_bool_arg, [reply](ErrorOr<bool>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.callFlutterEchoInt",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_an_int_arg = args.at(0);
if (encodable_an_int_arg.IsNull()) {
reply(WrapError("an_int_arg unexpectedly null."));
return;
}
const int64_t an_int_arg = encodable_an_int_arg.LongValue();
api->CallFlutterEchoInt(
an_int_arg, [reply](ErrorOr<int64_t>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.callFlutterEchoDouble",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_double_arg = args.at(0);
if (encodable_a_double_arg.IsNull()) {
reply(WrapError("a_double_arg unexpectedly null."));
return;
}
const auto& a_double_arg =
std::get<double>(encodable_a_double_arg);
api->CallFlutterEchoDouble(
a_double_arg, [reply](ErrorOr<double>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.callFlutterEchoString",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_string_arg = args.at(0);
if (encodable_a_string_arg.IsNull()) {
reply(WrapError("a_string_arg unexpectedly null."));
return;
}
const auto& a_string_arg =
std::get<std::string>(encodable_a_string_arg);
api->CallFlutterEchoString(
a_string_arg, [reply](ErrorOr<std::string>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.callFlutterEchoUint8List",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_list_arg = args.at(0);
if (encodable_a_list_arg.IsNull()) {
reply(WrapError("a_list_arg unexpectedly null."));
return;
}
const auto& a_list_arg =
std::get<std::vector<uint8_t>>(encodable_a_list_arg);
api->CallFlutterEchoUint8List(
a_list_arg, [reply](ErrorOr<std::vector<uint8_t>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.callFlutterEchoList",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_list_arg = args.at(0);
if (encodable_a_list_arg.IsNull()) {
reply(WrapError("a_list_arg unexpectedly null."));
return;
}
const auto& a_list_arg =
std::get<EncodableList>(encodable_a_list_arg);
api->CallFlutterEchoList(
a_list_arg, [reply](ErrorOr<EncodableList>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.callFlutterEchoMap",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_map_arg = args.at(0);
if (encodable_a_map_arg.IsNull()) {
reply(WrapError("a_map_arg unexpectedly null."));
return;
}
const auto& a_map_arg =
std::get<EncodableMap>(encodable_a_map_arg);
api->CallFlutterEchoMap(
a_map_arg, [reply](ErrorOr<EncodableMap>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
wrapped.push_back(
EncodableValue(std::move(output).TakeValue()));
reply(EncodableValue(std::move(wrapped)));
});
} catch (const std::exception& exception) {
reply(WrapError(exception.what()));
}
});
} else {
channel->SetMessageHandler(nullptr);
}
}
{
auto channel = std::make_unique<BasicMessageChannel<>>(
binary_messenger,
"dev.flutter.pigeon.HostIntegrationCoreApi.callFlutterEchoNullableBool",
&GetCodec());
if (api != nullptr) {
channel->SetMessageHandler(
[api](const EncodableValue& message,
const flutter::MessageReply<EncodableValue>& reply) {
try {
const auto& args = std::get<EncodableList>(message);
const auto& encodable_a_bool_arg = args.at(0);
const auto* a_bool_arg = std::get_if<bool>(&encodable_a_bool_arg);
api->CallFlutterEchoNullableBool(
a_bool_arg, [reply](ErrorOr<std::optional<bool>>&& output) {
if (output.has_error()) {
reply(WrapError(output.error()));
return;
}
EncodableList wrapped;
auto output_optional = std::move(output).TakeVal