486 lines
17 KiB
C++
486 lines
17 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/imagerecog/ImagerecogClient.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::Imagerecog;
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using namespace AlibabaCloud::Imagerecog::Model;
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namespace
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{
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const std::string SERVICE_NAME = "imagerecog";
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}
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ImagerecogClient::ImagerecogClient(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, "");
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}
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ImagerecogClient::ImagerecogClient(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, "");
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}
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ImagerecogClient::ImagerecogClient(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, "");
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}
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ImagerecogClient::~ImagerecogClient()
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{}
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ImagerecogClient::ClassifyingRubbishOutcome ImagerecogClient::classifyingRubbish(const ClassifyingRubbishRequest &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 ClassifyingRubbishOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return ClassifyingRubbishOutcome(ClassifyingRubbishResult(outcome.result()));
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else
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return ClassifyingRubbishOutcome(outcome.error());
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}
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void ImagerecogClient::classifyingRubbishAsync(const ClassifyingRubbishRequest& request, const ClassifyingRubbishAsyncHandler& 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, classifyingRubbish(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImagerecogClient::ClassifyingRubbishOutcomeCallable ImagerecogClient::classifyingRubbishCallable(const ClassifyingRubbishRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<ClassifyingRubbishOutcome()>>(
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[this, request]()
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{
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return this->classifyingRubbish(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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ImagerecogClient::DetectFruitsOutcome ImagerecogClient::detectFruits(const DetectFruitsRequest &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 DetectFruitsOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return DetectFruitsOutcome(DetectFruitsResult(outcome.result()));
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else
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return DetectFruitsOutcome(outcome.error());
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}
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void ImagerecogClient::detectFruitsAsync(const DetectFruitsRequest& request, const DetectFruitsAsyncHandler& 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, detectFruits(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImagerecogClient::DetectFruitsOutcomeCallable ImagerecogClient::detectFruitsCallable(const DetectFruitsRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<DetectFruitsOutcome()>>(
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[this, request]()
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{
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return this->detectFruits(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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ImagerecogClient::DetectImageElementsOutcome ImagerecogClient::detectImageElements(const DetectImageElementsRequest &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 DetectImageElementsOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return DetectImageElementsOutcome(DetectImageElementsResult(outcome.result()));
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else
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return DetectImageElementsOutcome(outcome.error());
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}
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void ImagerecogClient::detectImageElementsAsync(const DetectImageElementsRequest& request, const DetectImageElementsAsyncHandler& 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, detectImageElements(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImagerecogClient::DetectImageElementsOutcomeCallable ImagerecogClient::detectImageElementsCallable(const DetectImageElementsRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<DetectImageElementsOutcome()>>(
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[this, request]()
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{
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return this->detectImageElements(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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ImagerecogClient::EvaluateCertificateQualityOutcome ImagerecogClient::evaluateCertificateQuality(const EvaluateCertificateQualityRequest &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 EvaluateCertificateQualityOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return EvaluateCertificateQualityOutcome(EvaluateCertificateQualityResult(outcome.result()));
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else
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return EvaluateCertificateQualityOutcome(outcome.error());
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}
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void ImagerecogClient::evaluateCertificateQualityAsync(const EvaluateCertificateQualityRequest& request, const EvaluateCertificateQualityAsyncHandler& 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, evaluateCertificateQuality(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImagerecogClient::EvaluateCertificateQualityOutcomeCallable ImagerecogClient::evaluateCertificateQualityCallable(const EvaluateCertificateQualityRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<EvaluateCertificateQualityOutcome()>>(
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[this, request]()
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{
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return this->evaluateCertificateQuality(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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ImagerecogClient::GetAsyncJobResultOutcome ImagerecogClient::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 ImagerecogClient::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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ImagerecogClient::GetAsyncJobResultOutcomeCallable ImagerecogClient::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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ImagerecogClient::RecognizeFoodOutcome ImagerecogClient::recognizeFood(const RecognizeFoodRequest &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 RecognizeFoodOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return RecognizeFoodOutcome(RecognizeFoodResult(outcome.result()));
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else
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return RecognizeFoodOutcome(outcome.error());
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}
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void ImagerecogClient::recognizeFoodAsync(const RecognizeFoodRequest& request, const RecognizeFoodAsyncHandler& 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, recognizeFood(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImagerecogClient::RecognizeFoodOutcomeCallable ImagerecogClient::recognizeFoodCallable(const RecognizeFoodRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<RecognizeFoodOutcome()>>(
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[this, request]()
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{
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return this->recognizeFood(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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ImagerecogClient::RecognizeImageColorOutcome ImagerecogClient::recognizeImageColor(const RecognizeImageColorRequest &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 RecognizeImageColorOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return RecognizeImageColorOutcome(RecognizeImageColorResult(outcome.result()));
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else
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return RecognizeImageColorOutcome(outcome.error());
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}
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void ImagerecogClient::recognizeImageColorAsync(const RecognizeImageColorRequest& request, const RecognizeImageColorAsyncHandler& 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, recognizeImageColor(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImagerecogClient::RecognizeImageColorOutcomeCallable ImagerecogClient::recognizeImageColorCallable(const RecognizeImageColorRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<RecognizeImageColorOutcome()>>(
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[this, request]()
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{
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return this->recognizeImageColor(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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ImagerecogClient::RecognizeImageStyleOutcome ImagerecogClient::recognizeImageStyle(const RecognizeImageStyleRequest &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 RecognizeImageStyleOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return RecognizeImageStyleOutcome(RecognizeImageStyleResult(outcome.result()));
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else
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return RecognizeImageStyleOutcome(outcome.error());
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}
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void ImagerecogClient::recognizeImageStyleAsync(const RecognizeImageStyleRequest& request, const RecognizeImageStyleAsyncHandler& 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, recognizeImageStyle(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImagerecogClient::RecognizeImageStyleOutcomeCallable ImagerecogClient::recognizeImageStyleCallable(const RecognizeImageStyleRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<RecognizeImageStyleOutcome()>>(
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[this, request]()
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{
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return this->recognizeImageStyle(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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ImagerecogClient::RecognizeSceneOutcome ImagerecogClient::recognizeScene(const RecognizeSceneRequest &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 RecognizeSceneOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return RecognizeSceneOutcome(RecognizeSceneResult(outcome.result()));
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else
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return RecognizeSceneOutcome(outcome.error());
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}
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void ImagerecogClient::recognizeSceneAsync(const RecognizeSceneRequest& request, const RecognizeSceneAsyncHandler& 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, recognizeScene(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImagerecogClient::RecognizeSceneOutcomeCallable ImagerecogClient::recognizeSceneCallable(const RecognizeSceneRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<RecognizeSceneOutcome()>>(
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[this, request]()
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{
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return this->recognizeScene(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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ImagerecogClient::RecognizeVehicleTypeOutcome ImagerecogClient::recognizeVehicleType(const RecognizeVehicleTypeRequest &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 RecognizeVehicleTypeOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return RecognizeVehicleTypeOutcome(RecognizeVehicleTypeResult(outcome.result()));
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else
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return RecognizeVehicleTypeOutcome(outcome.error());
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}
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void ImagerecogClient::recognizeVehicleTypeAsync(const RecognizeVehicleTypeRequest& request, const RecognizeVehicleTypeAsyncHandler& 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, recognizeVehicleType(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImagerecogClient::RecognizeVehicleTypeOutcomeCallable ImagerecogClient::recognizeVehicleTypeCallable(const RecognizeVehicleTypeRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<RecognizeVehicleTypeOutcome()>>(
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[this, request]()
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{
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return this->recognizeVehicleType(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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ImagerecogClient::TaggingAdImageOutcome ImagerecogClient::taggingAdImage(const TaggingAdImageRequest &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 TaggingAdImageOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return TaggingAdImageOutcome(TaggingAdImageResult(outcome.result()));
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else
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return TaggingAdImageOutcome(outcome.error());
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}
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void ImagerecogClient::taggingAdImageAsync(const TaggingAdImageRequest& request, const TaggingAdImageAsyncHandler& 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, taggingAdImage(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImagerecogClient::TaggingAdImageOutcomeCallable ImagerecogClient::taggingAdImageCallable(const TaggingAdImageRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<TaggingAdImageOutcome()>>(
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[this, request]()
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{
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return this->taggingAdImage(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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ImagerecogClient::TaggingImageOutcome ImagerecogClient::taggingImage(const TaggingImageRequest &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 TaggingImageOutcome(endpointOutcome.error());
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auto outcome = makeRequest(endpointOutcome.result(), request);
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if (outcome.isSuccess())
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return TaggingImageOutcome(TaggingImageResult(outcome.result()));
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else
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return TaggingImageOutcome(outcome.error());
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}
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void ImagerecogClient::taggingImageAsync(const TaggingImageRequest& request, const TaggingImageAsyncHandler& 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, taggingImage(request), context);
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};
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asyncExecute(new Runnable(fn));
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}
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ImagerecogClient::TaggingImageOutcomeCallable ImagerecogClient::taggingImageCallable(const TaggingImageRequest &request) const
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{
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auto task = std::make_shared<std::packaged_task<TaggingImageOutcome()>>(
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[this, request]()
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{
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return this->taggingImage(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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