include/mesos/type_utils.hpp - mesos - Git at Google

 // Licensed to the Apache Software Foundation (ASF) under one
 // or more contributor license agreements.  See the NOTICE file
 // distributed with this work for additional information
 // regarding copyright ownership.  The ASF licenses this file
 // to you under the Apache License, Version 2.0 (the
 // "License"); you may not use this file except in compliance
 // with the License.  You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 #ifndef __MESOS_TYPE_UTILS_H__
 #define __MESOS_TYPE_UTILS_H__

 #include <iosfwd>
 #include <string>
 #include <vector>

 #include <boost/functional/hash.hpp>

 #include <google/protobuf/repeated_field.h>

 #include <mesos/mesos.hpp>

 #include <stout/hashmap.hpp>
 #include <stout/stringify.hpp>
 #include <stout/strings.hpp>
 #include <stout/uuid.hpp>

 // This file includes definitions for operators on public protobuf
 // classes (defined in mesos.proto, module.proto, etc.) that don't
 // have these operators generated by the protobuf compiler. The
 // corresponding definitions are in src/common/type_utils.cpp.
 //
 // Mesos modules need some of the protobuf classes defined in
 // mesos.proto, module.proto, etc., and require some of these
 // operators declared in type_utils.hpp. Exposing type_utils.hpp
 // allows us to build modules without having a dependency on mesos
 // source tree (src/*).

 namespace mesos {

 bool operator==(const CheckStatusInfo& left, const CheckStatusInfo& right);
 bool operator==(const CommandInfo& left, const CommandInfo& right);
 bool operator==(const CommandInfo::URI& left, const CommandInfo::URI& right);
 bool operator==(const ContainerID& left, const ContainerID& right);
 bool operator==(const Credential& left, const Credential& right);
 bool operator==(const DiscoveryInfo& left, const DiscoveryInfo& right);
 bool operator==(const Environment& left, const Environment& right);
 bool operator==(const ExecutorInfo& left, const ExecutorInfo& right);
 bool operator==(const Label& left, const Label& right);
 bool operator==(const Labels& left, const Labels& right);
 bool operator==(const MasterInfo& left, const MasterInfo& right);

 bool operator==(
     const ResourceProviderInfo& left,
     const ResourceProviderInfo& right);

 bool operator==(
     const ResourceStatistics& left,
     const ResourceStatistics& right);

 bool operator==(const SlaveInfo& left, const SlaveInfo& right);
 bool operator==(const Task& left, const Task& right);
 bool operator==(const TaskGroupInfo& left, const TaskGroupInfo& right);
 bool operator==(const TaskInfo& left, const TaskInfo& right);
 bool operator==(const TaskStatus& left, const TaskStatus& right);
 bool operator==(const URL& left, const URL& right);
 bool operator==(const Volume& left, const Volume& right);

 bool operator!=(const CheckStatusInfo& left, const CheckStatusInfo& right);
 bool operator!=(const ExecutorInfo& left, const ExecutorInfo& right);
 bool operator!=(const Labels& left, const Labels& right);
 bool operator!=(const TaskStatus& left, const TaskStatus& right);


 bool operator!=(
     const ResourceProviderInfo& left,
     const ResourceProviderInfo& right);

 inline bool operator==(const ExecutorID& left, const ExecutorID& right)
 {
   return left.value() == right.value();
 }


 inline bool operator==(const FrameworkID& left, const FrameworkID& right)
 {
   return left.value() == right.value();
 }


 inline bool operator==(const FrameworkInfo& left, const FrameworkInfo& right)
 {
   return (left.name() == right.name()) && (left.user() == right.user());
 }


 inline bool operator==(const OfferID& left, const OfferID& right)
 {
   return left.value() == right.value();
 }


 inline bool operator==(
     const ResourceProviderID& left,
     const ResourceProviderID& right)
 {
   return left.value() == right.value();
 }


 inline bool operator==(const SlaveID& left, const SlaveID& right)
 {
   return left.value() == right.value();
 }


 inline bool operator==(const TaskID& left, const TaskID& right)
 {
   return left.value() == right.value();
 }


 inline bool operator==(const TimeInfo& left, const TimeInfo& right)
 {
   return left.nanoseconds() == right.nanoseconds();
 }


 inline bool operator==(const DurationInfo& left, const DurationInfo& right)
 {
   return left.nanoseconds() == right.nanoseconds();
 }


 inline bool operator==(const ContainerID& left, const std::string& right)
 {
   return left.value() == right;
 }


 inline bool operator==(const ExecutorID& left, const std::string& right)
 {
   return left.value() == right;
 }


 inline bool operator==(const FrameworkID& left, const std::string& right)
 {
   return left.value() == right;
 }


 inline bool operator==(const OfferID& left, const std::string& right)
 {
   return left.value() == right;
 }


 inline bool operator==(const SlaveID& left, const std::string& right)
 {
   return left.value() == right;
 }


 inline bool operator==(const TaskID& left, const std::string& right)
 {
   return left.value() == right;
 }


 inline bool operator==(
     const DomainInfo::FaultDomain::RegionInfo& left,
     const DomainInfo::FaultDomain::RegionInfo& right)
 {
   return left.name() == right.name();
 }


 inline bool operator==(
     const DomainInfo::FaultDomain::ZoneInfo& left,
     const DomainInfo::FaultDomain::ZoneInfo& right)
 {
   return left.name() == right.name();
 }


 inline bool operator==(
     const DomainInfo::FaultDomain& left,
     const DomainInfo::FaultDomain& right)
 {
   return left.region() == right.region() && left.zone() == right.zone();
 }


 inline bool operator==(const DomainInfo& left, const DomainInfo& right)
 {
   return left.fault_domain() == right.fault_domain();
 }


 /**
  * For machines to match, both the `hostname` and `ip` must be equivalent.
  * Hostname is not case sensitive, so it is lowercased before comparison.
  */
 inline bool operator==(const MachineID& left, const MachineID& right)
 {
   // NOTE: Both fields default to the empty string if they are not specified,
   // so the string comparisons are safe.
   return left.has_hostname() == right.has_hostname() &&
     strings::lower(left.hostname()) == strings::lower(right.hostname()) &&
     left.has_ip() == right.has_ip() &&
     left.ip() == right.ip();
 }


 inline bool operator!=(const ContainerID& left, const ContainerID& right)
 {
   return !(left == right);
 }


 inline bool operator!=(const ExecutorID& left, const ExecutorID& right)
 {
   return left.value() != right.value();
 }


 inline bool operator!=(const FrameworkID& left, const FrameworkID& right)
 {
   return left.value() != right.value();
 }


 inline bool operator!=(
     const ResourceProviderID& left,
     const ResourceProviderID& right)
 {
   return left.value() != right.value();
 }


 inline bool operator!=(const SlaveID& left, const SlaveID& right)
 {
   return left.value() != right.value();
 }


 inline bool operator!=(const TimeInfo& left, const TimeInfo& right)
 {
   return !(left == right);
 }


 inline bool operator!=(const DurationInfo& left, const DurationInfo& right)
 {
   return !(left == right);
 }


 inline bool operator!=(
     const DomainInfo::FaultDomain::RegionInfo& left,
     const DomainInfo::FaultDomain::RegionInfo& right)
 {
   return left.name() != right.name();
 }


 inline bool operator<(const ContainerID& left, const ContainerID& right)
 {
   return left.value() < right.value();
 }


 inline bool operator<(const ExecutorID& left, const ExecutorID& right)
 {
   return left.value() < right.value();
 }


 inline bool operator<(const FrameworkID& left, const FrameworkID& right)
 {
   return left.value() < right.value();
 }


 inline bool operator<(const OfferID& left, const OfferID& right)
 {
   return left.value() < right.value();
 }


 inline bool operator<(const SlaveID& left, const SlaveID& right)
 {
   return left.value() < right.value();
 }


 inline bool operator<(const TaskID& left, const TaskID& right)
 {
   return left.value() < right.value();
 }


 std::ostream& operator<<(
     std::ostream& stream,
     const CapabilityInfo& capabilityInfo);


 std::ostream& operator<<(
     std::ostream& stream,
     const DeviceWhitelist& deviceWhitelist);


 std::ostream& operator<<(
     std::ostream& stream,
     const CheckStatusInfo& checkStatusInfo);


 std::ostream& operator<<(std::ostream& stream, const CommandInfo& commandInfo);


 std::ostream& operator<<(std::ostream& stream, const ContainerID& containerId);


 std::ostream& operator<<(
     std::ostream& stream,
     const ContainerInfo& containerInfo);


 std::ostream& operator<<(std::ostream& stream, const DomainInfo& domainInfo);


 std::ostream& operator<<(std::ostream& stream, const Environment& environment);


 std::ostream& operator<<(std::ostream& stream, const ExecutorID& executorId);


 std::ostream& operator<<(std::ostream& stream, const ExecutorInfo& executor);


 std::ostream& operator<<(std::ostream& stream, const FrameworkID& frameworkId);


 std::ostream& operator<<(std::ostream& stream, const MasterInfo& master);


 std::ostream& operator<<(std::ostream& stream, const OfferID& offerId);


 std::ostream& operator<<(std::ostream& stream, const RateLimits& limits);


 std::ostream& operator<<(
     std::ostream& stream,
     const ResourceProviderID& resourceProviderId);


 std::ostream& operator<<(
     std::ostream& stream,
     const ResourceProviderInfo& resourceProviderInfo);


 std::ostream& operator<<(std::ostream& stream, const RLimitInfo& rlimitInfo);


 std::ostream& operator<<(std::ostream& stream, const SlaveID& slaveId);


 std::ostream& operator<<(std::ostream& stream, const SlaveInfo& slave);


 std::ostream& operator<<(std::ostream& stream, const TaskID& taskId);


 std::ostream& operator<<(std::ostream& stream, const MachineID& machineId);


 std::ostream& operator<<(std::ostream& stream, const TaskInfo& task);


 std::ostream& operator<<(std::ostream& stream, const TaskState& state);


 std::ostream& operator<<(std::ostream& stream, const CheckInfo::Type& type);


 std::ostream& operator<<(
     std::ostream& stream,
     const FrameworkInfo::Capability& capability);


 std::ostream& operator<<(std::ostream& stream, const Image::Type& imageType);


 std::ostream& operator<<(std::ostream& stream, const Secret::Type& secretType);


 template <typename T>
 inline std::ostream& operator<<(
     std::ostream& stream,
     const google::protobuf::RepeatedPtrField<T>& messages)
 {
   stream << "[ ";
   for (auto it = messages.begin(); it != messages.end(); ++it) {
     if (it != messages.begin()) {
       stream << ", ";
     }
     stream << *it;
   }
   stream << " ]";
   return stream;
 }


 template <typename T>
 inline std::ostream& operator<<(
     std::ostream& stream,
     const std::vector<T>& messages)
 {
   stream << "[ ";
   for (auto it = messages.begin(); it != messages.end(); ++it) {
     if (it != messages.begin()) {
       stream << ", ";
     }
     stream << *it;
   }
   stream << " ]";
   return stream;
 }


 std::ostream& operator<<(
     std::ostream& stream,
     const hashmap<std::string, std::string>& map);

 } // namespace mesos {

 namespace std {

 template <>
 struct hash<mesos::CommandInfo_URI>
 {
   typedef size_t result_type;

   typedef mesos::CommandInfo_URI argument_type;

   result_type operator()(const argument_type& uri) const
   {
     size_t seed = 0;

     if (uri.extract()) {
       seed += 11;
     }

     if (uri.executable()) {
       seed += 2003;
     }

     boost::hash_combine(seed, uri.value());
     return seed;
   }
 };


 template <>
 struct hash<mesos::ContainerID>
 {
   typedef size_t result_type;

   typedef mesos::ContainerID argument_type;

   result_type operator()(const argument_type& containerId) const
   {
     size_t seed = 0;
     boost::hash_combine(seed, containerId.value());

     if (containerId.has_parent()) {
       boost::hash_combine(
           seed,
           std::hash<mesos::ContainerID>()(containerId.parent()));
     }

     return seed;
   }
 };


 template <>
 struct hash<mesos::ExecutorID>
 {
   typedef size_t result_type;

   typedef mesos::ExecutorID argument_type;

   result_type operator()(const argument_type& executorId) const
   {
     size_t seed = 0;
     boost::hash_combine(seed, executorId.value());
     return seed;
   }
 };


 template <>
 struct hash<mesos::FrameworkID>
 {
   typedef size_t result_type;

   typedef mesos::FrameworkID argument_type;

   result_type operator()(const argument_type& frameworkId) const
   {
     size_t seed = 0;
     boost::hash_combine(seed, frameworkId.value());
     return seed;
   }
 };


 template <>
 struct hash<mesos::OfferID>
 {
   typedef size_t result_type;

   typedef mesos::OfferID argument_type;

   result_type operator()(const argument_type& offerId) const
   {
     size_t seed = 0;
     boost::hash_combine(seed, offerId.value());
     return seed;
   }
 };


 template <>
 struct hash<mesos::SlaveID>
 {
   typedef size_t result_type;

   typedef mesos::SlaveID argument_type;

   result_type operator()(const argument_type& slaveId) const
   {
     size_t seed = 0;
     boost::hash_combine(seed, slaveId.value());
     return seed;
   }
 };


 template <>
 struct hash<mesos::TaskID>
 {
   typedef size_t result_type;

   typedef mesos::TaskID argument_type;

   result_type operator()(const argument_type& taskId) const
   {
     size_t seed = 0;
     boost::hash_combine(seed, taskId.value());
     return seed;
   }
 };


 template <>
 struct hash<mesos::TaskState>
 {
   typedef size_t result_type;

   typedef mesos::TaskState argument_type;

   result_type operator()(const argument_type& taskState) const
   {
     // Use the underlying type of the enum as hash value.
     return static_cast<size_t>(taskState);
   }
 };


 template <>
 struct hash<mesos::TaskStatus_Source>
 {
   typedef size_t result_type;

   typedef mesos::TaskStatus_Source argument_type;

   result_type operator()(const argument_type& source) const
   {
     // Use the underlying type of the enum as hash value.
     return static_cast<size_t>(source);
   }
 };


 template <>
 struct hash<mesos::TaskStatus_Reason>
 {
   typedef size_t result_type;

   typedef mesos::TaskStatus_Reason argument_type;

   result_type operator()(const argument_type& reason) const
   {
     // Use the underlying type of the enum as hash value.
     return static_cast<size_t>(reason);
   }
 };


 template <>
 struct hash<mesos::Image::Type>
 {
   typedef size_t result_type;

   typedef mesos::Image::Type argument_type;

   result_type operator()(const argument_type& imageType) const
   {
     // Use the underlying type of the enum as hash value.
     return static_cast<size_t>(imageType);
   }
 };


 template <>
 struct hash<std::pair<mesos::FrameworkID, mesos::ExecutorID>>
 {
   typedef size_t result_type;

   typedef std::pair<
       mesos::FrameworkID, mesos::ExecutorID> argument_type;

   result_type operator()(const argument_type& pair) const
   {
     size_t seed = 0;
     boost::hash_combine(seed, std::hash<mesos::FrameworkID>()(pair.first));
     boost::hash_combine(seed, std::hash<mesos::ExecutorID>()(pair.second));
     return seed;
   }
 };


 template <>
 struct hash<mesos::MachineID>
 {
   typedef size_t result_type;

   typedef mesos::MachineID argument_type;

   result_type operator()(const argument_type& machineId) const
   {
     size_t seed = 0;
     boost::hash_combine(seed, strings::lower(machineId.hostname()));
     boost::hash_combine(seed, machineId.ip());
     return seed;
   }
 };


 template <>
 struct hash<mesos::ResourceProviderID>
 {
   typedef size_t result_type;

   typedef mesos::ResourceProviderID argument_type;

   result_type operator()(const argument_type& resourceProviderId) const
   {
     size_t seed = 0;
     boost::hash_combine(seed, resourceProviderId.value());
     return seed;
   }
 };

 } // namespace std {

 #endif // __MESOS_TYPE_UTILS_H__
	// Licensed to the Apache Software Foundation (ASF) under one
	// or more contributor license agreements. See the NOTICE file
	// distributed with this work for additional information
	// regarding copyright ownership. The ASF licenses this file
	// to you under the Apache License, Version 2.0 (the
	// "License"); you may not use this file except in compliance
	// with the License. You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	#ifndef __MESOS_TYPE_UTILS_H__
	#define __MESOS_TYPE_UTILS_H__

	#include <iosfwd>
	#include <string>
	#include <vector>

	#include <boost/functional/hash.hpp>

	#include <google/protobuf/repeated_field.h>

	#include <mesos/mesos.hpp>

	#include <stout/hashmap.hpp>
	#include <stout/stringify.hpp>
	#include <stout/strings.hpp>
	#include <stout/uuid.hpp>

	// This file includes definitions for operators on public protobuf
	// classes (defined in mesos.proto, module.proto, etc.) that don't
	// have these operators generated by the protobuf compiler. The
	// corresponding definitions are in src/common/type_utils.cpp.
	//
	// Mesos modules need some of the protobuf classes defined in
	// mesos.proto, module.proto, etc., and require some of these
	// operators declared in type_utils.hpp. Exposing type_utils.hpp
	// allows us to build modules without having a dependency on mesos
	// source tree (src/*).

	namespace mesos {

	bool operator==(const CheckStatusInfo& left, const CheckStatusInfo& right);
	bool operator==(const CommandInfo& left, const CommandInfo& right);
	bool operator==(const CommandInfo::URI& left, const CommandInfo::URI& right);
	bool operator==(const ContainerID& left, const ContainerID& right);
	bool operator==(const Credential& left, const Credential& right);
	bool operator==(const DiscoveryInfo& left, const DiscoveryInfo& right);
	bool operator==(const Environment& left, const Environment& right);
	bool operator==(const ExecutorInfo& left, const ExecutorInfo& right);
	bool operator==(const Label& left, const Label& right);
	bool operator==(const Labels& left, const Labels& right);
	bool operator==(const MasterInfo& left, const MasterInfo& right);

	bool operator==(
	const ResourceProviderInfo& left,
	const ResourceProviderInfo& right);

	bool operator==(
	const ResourceStatistics& left,
	const ResourceStatistics& right);

	bool operator==(const SlaveInfo& left, const SlaveInfo& right);
	bool operator==(const Task& left, const Task& right);
	bool operator==(const TaskGroupInfo& left, const TaskGroupInfo& right);
	bool operator==(const TaskInfo& left, const TaskInfo& right);
	bool operator==(const TaskStatus& left, const TaskStatus& right);
	bool operator==(const URL& left, const URL& right);
	bool operator==(const Volume& left, const Volume& right);

	bool operator!=(const CheckStatusInfo& left, const CheckStatusInfo& right);
	bool operator!=(const ExecutorInfo& left, const ExecutorInfo& right);
	bool operator!=(const Labels& left, const Labels& right);
	bool operator!=(const TaskStatus& left, const TaskStatus& right);


	bool operator!=(
	const ResourceProviderInfo& left,
	const ResourceProviderInfo& right);

	inline bool operator==(const ExecutorID& left, const ExecutorID& right)
	{
	return left.value() == right.value();
	}


	inline bool operator==(const FrameworkID& left, const FrameworkID& right)
	{
	return left.value() == right.value();
	}


	inline bool operator==(const FrameworkInfo& left, const FrameworkInfo& right)
	{
	return (left.name() == right.name()) && (left.user() == right.user());
	}


	inline bool operator==(const OfferID& left, const OfferID& right)
	{
	return left.value() == right.value();
	}


	inline bool operator==(
	const ResourceProviderID& left,
	const ResourceProviderID& right)
	{
	return left.value() == right.value();
	}


	inline bool operator==(const SlaveID& left, const SlaveID& right)
	{
	return left.value() == right.value();
	}


	inline bool operator==(const TaskID& left, const TaskID& right)
	{
	return left.value() == right.value();
	}


	inline bool operator==(const TimeInfo& left, const TimeInfo& right)
	{
	return left.nanoseconds() == right.nanoseconds();
	}


	inline bool operator==(const DurationInfo& left, const DurationInfo& right)
	{
	return left.nanoseconds() == right.nanoseconds();
	}


	inline bool operator==(const ContainerID& left, const std::string& right)
	{
	return left.value() == right;
	}


	inline bool operator==(const ExecutorID& left, const std::string& right)
	{
	return left.value() == right;
	}


	inline bool operator==(const FrameworkID& left, const std::string& right)
	{
	return left.value() == right;
	}


	inline bool operator==(const OfferID& left, const std::string& right)
	{
	return left.value() == right;
	}


	inline bool operator==(const SlaveID& left, const std::string& right)
	{
	return left.value() == right;
	}


	inline bool operator==(const TaskID& left, const std::string& right)
	{
	return left.value() == right;
	}


	inline bool operator==(
	const DomainInfo::FaultDomain::RegionInfo& left,
	const DomainInfo::FaultDomain::RegionInfo& right)
	{
	return left.name() == right.name();
	}


	inline bool operator==(
	const DomainInfo::FaultDomain::ZoneInfo& left,
	const DomainInfo::FaultDomain::ZoneInfo& right)
	{
	return left.name() == right.name();
	}


	inline bool operator==(
	const DomainInfo::FaultDomain& left,
	const DomainInfo::FaultDomain& right)
	{
	return left.region() == right.region() && left.zone() == right.zone();
	}


	inline bool operator==(const DomainInfo& left, const DomainInfo& right)
	{
	return left.fault_domain() == right.fault_domain();
	}


	/**
	* For machines to match, both the `hostname` and `ip` must be equivalent.
	* Hostname is not case sensitive, so it is lowercased before comparison.
	*/
	inline bool operator==(const MachineID& left, const MachineID& right)
	{
	// NOTE: Both fields default to the empty string if they are not specified,
	// so the string comparisons are safe.
	return left.has_hostname() == right.has_hostname() &&
	strings::lower(left.hostname()) == strings::lower(right.hostname()) &&
	left.has_ip() == right.has_ip() &&
	left.ip() == right.ip();
	}


	inline bool operator!=(const ContainerID& left, const ContainerID& right)
	{
	return !(left == right);
	}


	inline bool operator!=(const ExecutorID& left, const ExecutorID& right)
	{
	return left.value() != right.value();
	}


	inline bool operator!=(const FrameworkID& left, const FrameworkID& right)
	{
	return left.value() != right.value();
	}


	inline bool operator!=(
	const ResourceProviderID& left,
	const ResourceProviderID& right)
	{
	return left.value() != right.value();
	}


	inline bool operator!=(const SlaveID& left, const SlaveID& right)
	{
	return left.value() != right.value();
	}


	inline bool operator!=(const TimeInfo& left, const TimeInfo& right)
	{
	return !(left == right);
	}


	inline bool operator!=(const DurationInfo& left, const DurationInfo& right)
	{
	return !(left == right);
	}


	inline bool operator!=(
	const DomainInfo::FaultDomain::RegionInfo& left,
	const DomainInfo::FaultDomain::RegionInfo& right)
	{
	return left.name() != right.name();
	}


	inline bool operator<(const ContainerID& left, const ContainerID& right)
	{
	return left.value() < right.value();
	}


	inline bool operator<(const ExecutorID& left, const ExecutorID& right)
	{
	return left.value() < right.value();
	}


	inline bool operator<(const FrameworkID& left, const FrameworkID& right)
	{
	return left.value() < right.value();
	}


	inline bool operator<(const OfferID& left, const OfferID& right)
	{
	return left.value() < right.value();
	}


	inline bool operator<(const SlaveID& left, const SlaveID& right)
	{
	return left.value() < right.value();
	}


	inline bool operator<(const TaskID& left, const TaskID& right)
	{
	return left.value() < right.value();
	}


	std::ostream& operator<<(
	std::ostream& stream,
	const CapabilityInfo& capabilityInfo);


	std::ostream& operator<<(
	std::ostream& stream,
	const DeviceWhitelist& deviceWhitelist);


	std::ostream& operator<<(
	std::ostream& stream,
	const CheckStatusInfo& checkStatusInfo);


	std::ostream& operator<<(std::ostream& stream, const CommandInfo& commandInfo);


	std::ostream& operator<<(std::ostream& stream, const ContainerID& containerId);


	std::ostream& operator<<(
	std::ostream& stream,
	const ContainerInfo& containerInfo);


	std::ostream& operator<<(std::ostream& stream, const DomainInfo& domainInfo);


	std::ostream& operator<<(std::ostream& stream, const Environment& environment);


	std::ostream& operator<<(std::ostream& stream, const ExecutorID& executorId);


	std::ostream& operator<<(std::ostream& stream, const ExecutorInfo& executor);


	std::ostream& operator<<(std::ostream& stream, const FrameworkID& frameworkId);


	std::ostream& operator<<(std::ostream& stream, const MasterInfo& master);


	std::ostream& operator<<(std::ostream& stream, const OfferID& offerId);


	std::ostream& operator<<(std::ostream& stream, const RateLimits& limits);


	std::ostream& operator<<(
	std::ostream& stream,
	const ResourceProviderID& resourceProviderId);


	std::ostream& operator<<(
	std::ostream& stream,
	const ResourceProviderInfo& resourceProviderInfo);


	std::ostream& operator<<(std::ostream& stream, const RLimitInfo& rlimitInfo);


	std::ostream& operator<<(std::ostream& stream, const SlaveID& slaveId);


	std::ostream& operator<<(std::ostream& stream, const SlaveInfo& slave);


	std::ostream& operator<<(std::ostream& stream, const TaskID& taskId);


	std::ostream& operator<<(std::ostream& stream, const MachineID& machineId);


	std::ostream& operator<<(std::ostream& stream, const TaskInfo& task);


	std::ostream& operator<<(std::ostream& stream, const TaskState& state);


	std::ostream& operator<<(std::ostream& stream, const CheckInfo::Type& type);


	std::ostream& operator<<(
	std::ostream& stream,
	const FrameworkInfo::Capability& capability);


	std::ostream& operator<<(std::ostream& stream, const Image::Type& imageType);


	std::ostream& operator<<(std::ostream& stream, const Secret::Type& secretType);


	template <typename T>
	inline std::ostream& operator<<(
	std::ostream& stream,
	const google::protobuf::RepeatedPtrField<T>& messages)
	{
	stream << "[ ";
	for (auto it = messages.begin(); it != messages.end(); ++it) {
	if (it != messages.begin()) {
	stream << ", ";
	}
	stream << *it;
	}
	stream << " ]";
	return stream;
	}


	template <typename T>
	inline std::ostream& operator<<(
	std::ostream& stream,
	const std::vector<T>& messages)
	{
	stream << "[ ";
	for (auto it = messages.begin(); it != messages.end(); ++it) {
	if (it != messages.begin()) {
	stream << ", ";
	}
	stream << *it;
	}
	stream << " ]";
	return stream;
	}


	std::ostream& operator<<(
	std::ostream& stream,
	const hashmap<std::string, std::string>& map);

	} // namespace mesos {

	namespace std {

	template <>
	struct hash<mesos::CommandInfo_URI>
	{
	typedef size_t result_type;

	typedef mesos::CommandInfo_URI argument_type;

	result_type operator()(const argument_type& uri) const
	{
	size_t seed = 0;

	if (uri.extract()) {
	seed += 11;
	}

	if (uri.executable()) {
	seed += 2003;
	}

	boost::hash_combine(seed, uri.value());
	return seed;
	}
	};


	template <>
	struct hash<mesos::ContainerID>
	{
	typedef size_t result_type;

	typedef mesos::ContainerID argument_type;

	result_type operator()(const argument_type& containerId) const
	{
	size_t seed = 0;
	boost::hash_combine(seed, containerId.value());

	if (containerId.has_parent()) {
	boost::hash_combine(
	seed,
	std::hash<mesos::ContainerID>()(containerId.parent()));
	}

	return seed;
	}
	};


	template <>
	struct hash<mesos::ExecutorID>
	{
	typedef size_t result_type;

	typedef mesos::ExecutorID argument_type;

	result_type operator()(const argument_type& executorId) const
	{
	size_t seed = 0;
	boost::hash_combine(seed, executorId.value());
	return seed;
	}
	};


	template <>
	struct hash<mesos::FrameworkID>
	{
	typedef size_t result_type;

	typedef mesos::FrameworkID argument_type;

	result_type operator()(const argument_type& frameworkId) const
	{
	size_t seed = 0;
	boost::hash_combine(seed, frameworkId.value());
	return seed;
	}
	};


	template <>
	struct hash<mesos::OfferID>
	{
	typedef size_t result_type;

	typedef mesos::OfferID argument_type;

	result_type operator()(const argument_type& offerId) const
	{
	size_t seed = 0;
	boost::hash_combine(seed, offerId.value());
	return seed;
	}
	};


	template <>
	struct hash<mesos::SlaveID>
	{
	typedef size_t result_type;

	typedef mesos::SlaveID argument_type;

	result_type operator()(const argument_type& slaveId) const
	{
	size_t seed = 0;
	boost::hash_combine(seed, slaveId.value());
	return seed;
	}
	};


	template <>
	struct hash<mesos::TaskID>
	{
	typedef size_t result_type;

	typedef mesos::TaskID argument_type;

	result_type operator()(const argument_type& taskId) const
	{
	size_t seed = 0;
	boost::hash_combine(seed, taskId.value());
	return seed;
	}
	};


	template <>
	struct hash<mesos::TaskState>
	{
	typedef size_t result_type;

	typedef mesos::TaskState argument_type;

	result_type operator()(const argument_type& taskState) const
	{
	// Use the underlying type of the enum as hash value.
	return static_cast<size_t>(taskState);
	}
	};


	template <>
	struct hash<mesos::TaskStatus_Source>
	{
	typedef size_t result_type;

	typedef mesos::TaskStatus_Source argument_type;

	result_type operator()(const argument_type& source) const
	{
	// Use the underlying type of the enum as hash value.
	return static_cast<size_t>(source);
	}
	};


	template <>
	struct hash<mesos::TaskStatus_Reason>
	{
	typedef size_t result_type;

	typedef mesos::TaskStatus_Reason argument_type;

	result_type operator()(const argument_type& reason) const
	{
	// Use the underlying type of the enum as hash value.
	return static_cast<size_t>(reason);
	}
	};


	template <>
	struct hash<mesos::Image::Type>
	{
	typedef size_t result_type;

	typedef mesos::Image::Type argument_type;

	result_type operator()(const argument_type& imageType) const
	{
	// Use the underlying type of the enum as hash value.
	return static_cast<size_t>(imageType);
	}
	};


	template <>
	struct hash<std::pair<mesos::FrameworkID, mesos::ExecutorID>>
	{
	typedef size_t result_type;

	typedef std::pair<
	mesos::FrameworkID, mesos::ExecutorID> argument_type;

	result_type operator()(const argument_type& pair) const
	{
	size_t seed = 0;
	boost::hash_combine(seed, std::hash<mesos::FrameworkID>()(pair.first));
	boost::hash_combine(seed, std::hash<mesos::ExecutorID>()(pair.second));
	return seed;
	}
	};


	template <>
	struct hash<mesos::MachineID>
	{
	typedef size_t result_type;

	typedef mesos::MachineID argument_type;

	result_type operator()(const argument_type& machineId) const
	{
	size_t seed = 0;
	boost::hash_combine(seed, strings::lower(machineId.hostname()));
	boost::hash_combine(seed, machineId.ip());
	return seed;
	}
	};


	template <>
	struct hash<mesos::ResourceProviderID>
	{
	typedef size_t result_type;

	typedef mesos::ResourceProviderID argument_type;

	result_type operator()(const argument_type& resourceProviderId) const
	{
	size_t seed = 0;
	boost::hash_combine(seed, resourceProviderId.value());
	return seed;
	}
	};

	} // namespace std {

	#endif // __MESOS_TYPE_UTILS_H__