450 lines
16 KiB
C++
450 lines
16 KiB
C++
/*
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* Copyright 2009-2017 Alibaba Cloud All rights reserved.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#include <alibabacloud/imageprocess/ImageprocessClient.h>
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#include <alibabacloud/core/SimpleCredentialsProvider.h>
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using namespace AlibabaCloud;
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using namespace AlibabaCloud::Location;
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using namespace AlibabaCloud::Imageprocess;
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using namespace AlibabaCloud::Imageprocess::Model;
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namespace
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{
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const std::string SERVICE_NAME = "imageprocess";
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}
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ImageprocessClient::ImageprocessClient(const Credentials &credentials, const ClientConfiguration &configuration) :
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RpcServiceClient(SERVICE_NAME, std::make_shared<SimpleCredentialsProvider>(credentials), configuration)
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{
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auto locationClient = std::make_shared<LocationClient>(credentials, configuration);
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endpointProvider_ = std::make_shared<EndpointProvider>(locationClient, configuration.regionId(), SERVICE_NAME, "imageprocess");
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}
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ImageprocessClient::ImageprocessClient(const std::shared_ptr<CredentialsProvider>& credentialsProvider, const ClientConfiguration & configuration) :
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RpcServiceClient(SERVICE_NAME, credentialsProvider, configuration)
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{
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auto locationClient = std::make_shared<LocationClient>(credentialsProvider, configuration);
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endpointProvider_ = std::make_shared<EndpointProvider>(locationClient, configuration.regionId(), SERVICE_NAME, "imageprocess");
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}
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ImageprocessClient::ImageprocessClient(const std::string & accessKeyId, const std::string & accessKeySecret, const ClientConfiguration & configuration) :
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RpcServiceClient(SERVICE_NAME, std::make_shared<SimpleCredentialsProvider>(accessKeyId, accessKeySecret), configuration)
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{
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auto locationClient = std::make_shared<LocationClient>(accessKeyId, accessKeySecret, configuration);
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endpointProvider_ = std::make_shared<EndpointProvider>(locationClient, configuration.regionId(), SERVICE_NAME, "imageprocess");
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}
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ImageprocessClient::~ImageprocessClient()
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{}
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ImageprocessClient::CalcCACSOutcome ImageprocessClient::calcCACS(const CalcCACSRequest &request) const
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{
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auto endpointOutcome = endpointProvider_->getEndpoint();
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if (!endpointOutcome.isSuccess())
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return CalcCACSOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return CalcCACSOutcome(CalcCACSResult(outcome.result()));
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else
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return CalcCACSOutcome(outcome.error());
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}
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void ImageprocessClient::calcCACSAsync(const CalcCACSRequest& request, const CalcCACSAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context) const
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{
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auto fn = [this, request, handler, context]()
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{
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handler(this, request, calcCACS(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImageprocessClient::CalcCACSOutcomeCallable ImageprocessClient::calcCACSCallable(const CalcCACSRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<CalcCACSOutcome()>>(
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[this, request]()
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{
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return this->calcCACS(request);
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});
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asyncExecute(new Runnable([task]() { (*task)(); }));
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return task->get_future();
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}
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ImageprocessClient::ClassifyFNFOutcome ImageprocessClient::classifyFNF(const ClassifyFNFRequest &request) const
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{
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auto endpointOutcome = endpointProvider_->getEndpoint();
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if (!endpointOutcome.isSuccess())
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return ClassifyFNFOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return ClassifyFNFOutcome(ClassifyFNFResult(outcome.result()));
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else
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return ClassifyFNFOutcome(outcome.error());
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}
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void ImageprocessClient::classifyFNFAsync(const ClassifyFNFRequest& request, const ClassifyFNFAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context) const
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{
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auto fn = [this, request, handler, context]()
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{
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handler(this, request, classifyFNF(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImageprocessClient::ClassifyFNFOutcomeCallable ImageprocessClient::classifyFNFCallable(const ClassifyFNFRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<ClassifyFNFOutcome()>>(
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[this, request]()
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{
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return this->classifyFNF(request);
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});
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asyncExecute(new Runnable([task]() { (*task)(); }));
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return task->get_future();
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}
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ImageprocessClient::DetectCovid19CadOutcome ImageprocessClient::detectCovid19Cad(const DetectCovid19CadRequest &request) const
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{
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auto endpointOutcome = endpointProvider_->getEndpoint();
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if (!endpointOutcome.isSuccess())
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return DetectCovid19CadOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return DetectCovid19CadOutcome(DetectCovid19CadResult(outcome.result()));
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else
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return DetectCovid19CadOutcome(outcome.error());
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}
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void ImageprocessClient::detectCovid19CadAsync(const DetectCovid19CadRequest& request, const DetectCovid19CadAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context) const
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{
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auto fn = [this, request, handler, context]()
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{
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handler(this, request, detectCovid19Cad(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImageprocessClient::DetectCovid19CadOutcomeCallable ImageprocessClient::detectCovid19CadCallable(const DetectCovid19CadRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<DetectCovid19CadOutcome()>>(
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[this, request]()
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{
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return this->detectCovid19Cad(request);
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});
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asyncExecute(new Runnable([task]() { (*task)(); }));
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return task->get_future();
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}
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ImageprocessClient::DetectHipKeypointXRayOutcome ImageprocessClient::detectHipKeypointXRay(const DetectHipKeypointXRayRequest &request) const
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{
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auto endpointOutcome = endpointProvider_->getEndpoint();
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if (!endpointOutcome.isSuccess())
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return DetectHipKeypointXRayOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return DetectHipKeypointXRayOutcome(DetectHipKeypointXRayResult(outcome.result()));
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else
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return DetectHipKeypointXRayOutcome(outcome.error());
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}
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void ImageprocessClient::detectHipKeypointXRayAsync(const DetectHipKeypointXRayRequest& request, const DetectHipKeypointXRayAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context) const
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{
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auto fn = [this, request, handler, context]()
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{
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handler(this, request, detectHipKeypointXRay(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImageprocessClient::DetectHipKeypointXRayOutcomeCallable ImageprocessClient::detectHipKeypointXRayCallable(const DetectHipKeypointXRayRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<DetectHipKeypointXRayOutcome()>>(
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[this, request]()
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{
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return this->detectHipKeypointXRay(request);
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});
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asyncExecute(new Runnable([task]() { (*task)(); }));
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return task->get_future();
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}
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ImageprocessClient::DetectKneeKeypointXRayOutcome ImageprocessClient::detectKneeKeypointXRay(const DetectKneeKeypointXRayRequest &request) const
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{
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auto endpointOutcome = endpointProvider_->getEndpoint();
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if (!endpointOutcome.isSuccess())
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return DetectKneeKeypointXRayOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return DetectKneeKeypointXRayOutcome(DetectKneeKeypointXRayResult(outcome.result()));
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else
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return DetectKneeKeypointXRayOutcome(outcome.error());
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}
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void ImageprocessClient::detectKneeKeypointXRayAsync(const DetectKneeKeypointXRayRequest& request, const DetectKneeKeypointXRayAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context) const
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{
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auto fn = [this, request, handler, context]()
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{
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handler(this, request, detectKneeKeypointXRay(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImageprocessClient::DetectKneeKeypointXRayOutcomeCallable ImageprocessClient::detectKneeKeypointXRayCallable(const DetectKneeKeypointXRayRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<DetectKneeKeypointXRayOutcome()>>(
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[this, request]()
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{
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return this->detectKneeKeypointXRay(request);
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});
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asyncExecute(new Runnable([task]() { (*task)(); }));
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return task->get_future();
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}
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ImageprocessClient::DetectKneeXRayOutcome ImageprocessClient::detectKneeXRay(const DetectKneeXRayRequest &request) const
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{
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auto endpointOutcome = endpointProvider_->getEndpoint();
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if (!endpointOutcome.isSuccess())
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return DetectKneeXRayOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return DetectKneeXRayOutcome(DetectKneeXRayResult(outcome.result()));
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else
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return DetectKneeXRayOutcome(outcome.error());
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}
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void ImageprocessClient::detectKneeXRayAsync(const DetectKneeXRayRequest& request, const DetectKneeXRayAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context) const
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{
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auto fn = [this, request, handler, context]()
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{
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handler(this, request, detectKneeXRay(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImageprocessClient::DetectKneeXRayOutcomeCallable ImageprocessClient::detectKneeXRayCallable(const DetectKneeXRayRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<DetectKneeXRayOutcome()>>(
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[this, request]()
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{
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return this->detectKneeXRay(request);
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});
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asyncExecute(new Runnable([task]() { (*task)(); }));
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return task->get_future();
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}
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ImageprocessClient::DetectLungNoduleOutcome ImageprocessClient::detectLungNodule(const DetectLungNoduleRequest &request) const
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{
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auto endpointOutcome = endpointProvider_->getEndpoint();
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if (!endpointOutcome.isSuccess())
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return DetectLungNoduleOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return DetectLungNoduleOutcome(DetectLungNoduleResult(outcome.result()));
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else
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return DetectLungNoduleOutcome(outcome.error());
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}
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void ImageprocessClient::detectLungNoduleAsync(const DetectLungNoduleRequest& request, const DetectLungNoduleAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context) const
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{
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auto fn = [this, request, handler, context]()
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{
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handler(this, request, detectLungNodule(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImageprocessClient::DetectLungNoduleOutcomeCallable ImageprocessClient::detectLungNoduleCallable(const DetectLungNoduleRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<DetectLungNoduleOutcome()>>(
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[this, request]()
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{
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return this->detectLungNodule(request);
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});
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asyncExecute(new Runnable([task]() { (*task)(); }));
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return task->get_future();
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}
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ImageprocessClient::DetectSpineMRIOutcome ImageprocessClient::detectSpineMRI(const DetectSpineMRIRequest &request) const
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{
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auto endpointOutcome = endpointProvider_->getEndpoint();
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if (!endpointOutcome.isSuccess())
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return DetectSpineMRIOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return DetectSpineMRIOutcome(DetectSpineMRIResult(outcome.result()));
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else
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return DetectSpineMRIOutcome(outcome.error());
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}
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void ImageprocessClient::detectSpineMRIAsync(const DetectSpineMRIRequest& request, const DetectSpineMRIAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context) const
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{
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auto fn = [this, request, handler, context]()
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{
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handler(this, request, detectSpineMRI(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImageprocessClient::DetectSpineMRIOutcomeCallable ImageprocessClient::detectSpineMRICallable(const DetectSpineMRIRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<DetectSpineMRIOutcome()>>(
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[this, request]()
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{
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return this->detectSpineMRI(request);
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});
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asyncExecute(new Runnable([task]() { (*task)(); }));
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return task->get_future();
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}
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ImageprocessClient::GetAsyncJobResultOutcome ImageprocessClient::getAsyncJobResult(const GetAsyncJobResultRequest &request) const
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{
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auto endpointOutcome = endpointProvider_->getEndpoint();
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if (!endpointOutcome.isSuccess())
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return GetAsyncJobResultOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return GetAsyncJobResultOutcome(GetAsyncJobResultResult(outcome.result()));
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else
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return GetAsyncJobResultOutcome(outcome.error());
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}
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void ImageprocessClient::getAsyncJobResultAsync(const GetAsyncJobResultRequest& request, const GetAsyncJobResultAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context) const
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{
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auto fn = [this, request, handler, context]()
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{
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handler(this, request, getAsyncJobResult(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImageprocessClient::GetAsyncJobResultOutcomeCallable ImageprocessClient::getAsyncJobResultCallable(const GetAsyncJobResultRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<GetAsyncJobResultOutcome()>>(
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[this, request]()
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{
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return this->getAsyncJobResult(request);
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});
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asyncExecute(new Runnable([task]() { (*task)(); }));
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return task->get_future();
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}
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ImageprocessClient::RunCTRegistrationOutcome ImageprocessClient::runCTRegistration(const RunCTRegistrationRequest &request) const
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{
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auto endpointOutcome = endpointProvider_->getEndpoint();
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if (!endpointOutcome.isSuccess())
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return RunCTRegistrationOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return RunCTRegistrationOutcome(RunCTRegistrationResult(outcome.result()));
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else
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return RunCTRegistrationOutcome(outcome.error());
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}
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void ImageprocessClient::runCTRegistrationAsync(const RunCTRegistrationRequest& request, const RunCTRegistrationAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context) const
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{
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auto fn = [this, request, handler, context]()
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{
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handler(this, request, runCTRegistration(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImageprocessClient::RunCTRegistrationOutcomeCallable ImageprocessClient::runCTRegistrationCallable(const RunCTRegistrationRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<RunCTRegistrationOutcome()>>(
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[this, request]()
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{
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return this->runCTRegistration(request);
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});
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asyncExecute(new Runnable([task]() { (*task)(); }));
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return task->get_future();
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}
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ImageprocessClient::TranslateMedOutcome ImageprocessClient::translateMed(const TranslateMedRequest &request) const
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{
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auto endpointOutcome = endpointProvider_->getEndpoint();
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if (!endpointOutcome.isSuccess())
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return TranslateMedOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return TranslateMedOutcome(TranslateMedResult(outcome.result()));
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else
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return TranslateMedOutcome(outcome.error());
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}
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void ImageprocessClient::translateMedAsync(const TranslateMedRequest& request, const TranslateMedAsyncHandler& handler, const std::shared_ptr<const AsyncCallerContext>& context) const
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{
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auto fn = [this, request, handler, context]()
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{
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handler(this, request, translateMed(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImageprocessClient::TranslateMedOutcomeCallable ImageprocessClient::translateMedCallable(const TranslateMedRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<TranslateMedOutcome()>>(
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[this, request]()
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{
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return this->translateMed(request);
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});
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asyncExecute(new Runnable([task]() { (*task)(); }));
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return task->get_future();
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}
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