func defaultPredicates() sets.String {
	return sets.NewString(
		// Fit is defined based on the absence of port conflicts.
		factory.RegisterFitPredicate("PodFitsHostPorts", predicates.PodFitsHostPorts),
		// Fit is determined by resource availability.
		factory.RegisterFitPredicateFactory(
			"PodFitsResources",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				return predicates.NewResourceFitPredicate(args.NodeInfo)
			},
		),
		// Fit is determined by non-conflicting disk volumes.
		factory.RegisterFitPredicate("NoDiskConflict", predicates.NoDiskConflict),
		// Fit is determined by volume zone requirements.
		factory.RegisterFitPredicateFactory(
			"NoVolumeZoneConflict",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				return predicates.NewVolumeZonePredicate(args.NodeInfo, args.PVInfo, args.PVCInfo)
			},
		),
		// Fit is determined by node selector query.
		factory.RegisterFitPredicateFactory(
			"MatchNodeSelector",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				return predicates.NewSelectorMatchPredicate(args.NodeInfo)
			},
		),
		// Fit is determined by the presence of the Host parameter and a string match
		factory.RegisterFitPredicate("HostName", predicates.PodFitsHost),
	)
}
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func defaultPredicates() sets.String {
	return sets.NewString(
		// Fit is determined by non-conflicting disk volumes.
		factory.RegisterFitPredicate("NoDiskConflict", predicates.NoDiskConflict),
		// Fit is determined by volume zone requirements.
		factory.RegisterFitPredicateFactory(
			"NoVolumeZoneConflict",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				return predicates.NewVolumeZonePredicate(args.PVInfo, args.PVCInfo)
			},
		),
		// Fit is determined by whether or not there would be too many AWS EBS volumes attached to the node
		factory.RegisterFitPredicateFactory(
			"MaxEBSVolumeCount",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				// TODO: allow for generically parameterized scheduler predicates, because this is a bit ugly
				maxVols := getMaxVols(aws.DefaultMaxEBSVolumes)
				return predicates.NewMaxPDVolumeCountPredicate(predicates.EBSVolumeFilter, maxVols, args.PVInfo, args.PVCInfo)
			},
		),
		// Fit is determined by whether or not there would be too many GCE PD volumes attached to the node
		factory.RegisterFitPredicateFactory(
			"MaxGCEPDVolumeCount",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				// TODO: allow for generically parameterized scheduler predicates, because this is a bit ugly
				maxVols := getMaxVols(DefaultMaxGCEPDVolumes)
				return predicates.NewMaxPDVolumeCountPredicate(predicates.GCEPDVolumeFilter, maxVols, args.PVInfo, args.PVCInfo)
			},
		),
		// GeneralPredicates are the predicates that are enforced by all Kubernetes components
		// (e.g. kubelet and all schedulers)
		factory.RegisterFitPredicate("GeneralPredicates", predicates.GeneralPredicates),
	)
}
func defaultPredicates() sets.String {
	return sets.NewString(
		// Fit is determined by volume zone requirements.
		factory.RegisterFitPredicateFactory(
			"NoVolumeZoneConflict",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				return predicates.NewVolumeZonePredicate(args.PVInfo, args.PVCInfo)
			},
		),
		// Fit is determined by whether or not there would be too many AWS EBS volumes attached to the node
		factory.RegisterFitPredicateFactory(
			"MaxEBSVolumeCount",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				// TODO: allow for generically parameterized scheduler predicates, because this is a bit ugly
				maxVols := getMaxVols(aws.DefaultMaxEBSVolumes)
				return predicates.NewMaxPDVolumeCountPredicate(predicates.EBSVolumeFilter, maxVols, args.PVInfo, args.PVCInfo)
			},
		),
		// Fit is determined by whether or not there would be too many GCE PD volumes attached to the node
		factory.RegisterFitPredicateFactory(
			"MaxGCEPDVolumeCount",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				// TODO: allow for generically parameterized scheduler predicates, because this is a bit ugly
				maxVols := getMaxVols(DefaultMaxGCEPDVolumes)
				return predicates.NewMaxPDVolumeCountPredicate(predicates.GCEPDVolumeFilter, maxVols, args.PVInfo, args.PVCInfo)
			},
		),
		// Fit is determined by inter-pod affinity.
		factory.RegisterFitPredicateFactory(
			"MatchInterPodAffinity",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				return predicates.NewPodAffinityPredicate(args.NodeInfo, args.PodLister, args.FailureDomains)
			},
		),

		// Fit is determined by non-conflicting disk volumes.
		factory.RegisterFitPredicate("NoDiskConflict", predicates.NoDiskConflict),

		// GeneralPredicates are the predicates that are enforced by all Kubernetes components
		// (e.g. kubelet and all schedulers)
		factory.RegisterFitPredicate("GeneralPredicates", predicates.GeneralPredicates),

		// Fit is determined based on whether a pod can tolerate all of the node's taints
		factory.RegisterFitPredicate("PodToleratesNodeTaints", predicates.PodToleratesNodeTaints),

		// Fit is determined by node memory pressure condition.
		factory.RegisterFitPredicate("CheckNodeMemoryPressure", predicates.CheckNodeMemoryPressurePredicate),

		// Fit is determined by node disk pressure condition.
		factory.RegisterFitPredicate("CheckNodeDiskPressure", predicates.CheckNodeDiskPressurePredicate),

		// Fit is determined by node inode pressure condition.
		factory.RegisterFitPredicate("CheckNodeInodePressure", predicates.CheckNodeInodePressurePredicate),
	)
}
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func defaultPredicates() sets.String {
	return sets.NewString(
		// Fit is defined based on the absence of port conflicts.
		factory.RegisterFitPredicate("PodFitsHostPorts", predicates.PodFitsHostPorts),
		// Fit is determined by resource availability.
		factory.RegisterFitPredicateFactory(
			"PodFitsResources",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				return predicates.NewResourceFitPredicate(args.NodeInfo)
			},
		),
		// Fit is determined by non-conflicting disk volumes.
		factory.RegisterFitPredicate("NoDiskConflict", predicates.NoDiskConflict),
		// Fit is determined by volume zone requirements.
		factory.RegisterFitPredicateFactory(
			"NoVolumeZoneConflict",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				return predicates.NewVolumeZonePredicate(args.NodeInfo, args.PVInfo, args.PVCInfo)
			},
		),
		// Fit is determined by node selector query.
		factory.RegisterFitPredicateFactory(
			"MatchNodeSelector",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				return predicates.NewSelectorMatchPredicate(args.NodeInfo)
			},
		),
		// Fit is determined by the presence of the Host parameter and a string match
		factory.RegisterFitPredicate("HostName", predicates.PodFitsHost),

		// Fit is determined by whether or not there would be too many AWS EBS volumes attached to the node
		factory.RegisterFitPredicateFactory(
			"MaxEBSVolumeCount",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				// TODO: allow for generically parameterized scheduler predicates, because this is a bit ugly
				maxVols := getMaxVols(DefaultMaxEBSVolumes)
				return predicates.NewMaxPDVolumeCountPredicate(predicates.EBSVolumeFilter, maxVols, args.PVInfo, args.PVCInfo)
			},
		),

		// Fit is determined by whether or not there would be too many GCE PD volumes attached to the node
		factory.RegisterFitPredicateFactory(
			"MaxGCEPDVolumeCount",
			func(args factory.PluginFactoryArgs) algorithm.FitPredicate {
				// TODO: allow for generically parameterized scheduler predicates, because this is a bit ugly
				maxVols := getMaxVols(DefaultMaxGCEPDVolumes)
				return predicates.NewMaxPDVolumeCountPredicate(predicates.GCEPDVolumeFilter, maxVols, args.PVInfo, args.PVCInfo)
			},
		),
	)
}