vendor/gopkg.in/Shopify/sarama.v1/balance_strategy.go - voltha-openolt-adapter - Gitiles

 package sarama

 import (
 	"math"
 	"sort"
 )

 // BalanceStrategyPlan is the results of any BalanceStrategy.Plan attempt.
 // It contains an allocation of topic/partitions by memberID in the form of
 // a `memberID -> topic -> partitions` map.
 type BalanceStrategyPlan map[string]map[string][]int32

 // Add assigns a topic with a number partitions to a member.
 func (p BalanceStrategyPlan) Add(memberID, topic string, partitions ...int32) {
 	if len(partitions) == 0 {
 		return
 	}
 	if _, ok := p[memberID]; !ok {
 		p[memberID] = make(map[string][]int32, 1)
 	}
 	p[memberID][topic] = append(p[memberID][topic], partitions...)
 }

 // --------------------------------------------------------------------

 // BalanceStrategy is used to balance topics and partitions
 // across memebers of a consumer group
 type BalanceStrategy interface {
 	// Name uniquely identifies the strategy.
 	Name() string

 	// Plan accepts a map of `memberID -> metadata` and a map of `topic -> partitions`
 	// and returns a distribution plan.
 	Plan(members map[string]ConsumerGroupMemberMetadata, topics map[string][]int32) (BalanceStrategyPlan, error)
 }

 // --------------------------------------------------------------------

 // BalanceStrategyRange is the default and assigns partitions as ranges to consumer group members.
 // Example with one topic T with six partitions (0..5) and two members (M1, M2):
 //   M1: {T: [0, 1, 2]}
 //   M2: {T: [3, 4, 5]}
 var BalanceStrategyRange = &balanceStrategy{
 	name: "range",
 	coreFn: func(plan BalanceStrategyPlan, memberIDs []string, topic string, partitions []int32) {
 		step := float64(len(partitions)) / float64(len(memberIDs))

 		for i, memberID := range memberIDs {
 			pos := float64(i)
 			min := int(math.Floor(pos*step + 0.5))
 			max := int(math.Floor((pos+1)*step + 0.5))
 			plan.Add(memberID, topic, partitions[min:max]...)
 		}
 	},
 }

 // BalanceStrategyRoundRobin assigns partitions to members in alternating order.
 // Example with topic T with six partitions (0..5) and two members (M1, M2):
 //   M1: {T: [0, 2, 4]}
 //   M2: {T: [1, 3, 5]}
 var BalanceStrategyRoundRobin = &balanceStrategy{
 	name: "roundrobin",
 	coreFn: func(plan BalanceStrategyPlan, memberIDs []string, topic string, partitions []int32) {
 		for i, part := range partitions {
 			memberID := memberIDs[i%len(memberIDs)]
 			plan.Add(memberID, topic, part)
 		}
 	},
 }

 // --------------------------------------------------------------------

 type balanceStrategy struct {
 	name   string
 	coreFn func(plan BalanceStrategyPlan, memberIDs []string, topic string, partitions []int32)
 }

 // Name implements BalanceStrategy.
 func (s *balanceStrategy) Name() string { return s.name }

 // Balance implements BalanceStrategy.
 func (s *balanceStrategy) Plan(members map[string]ConsumerGroupMemberMetadata, topics map[string][]int32) (BalanceStrategyPlan, error) {
 	// Build members by topic map
 	mbt := make(map[string][]string)
 	for memberID, meta := range members {
 		for _, topic := range meta.Topics {
 			mbt[topic] = append(mbt[topic], memberID)
 		}
 	}

 	// Sort members for each topic
 	for topic, memberIDs := range mbt {
 		sort.Sort(&balanceStrategySortable{
 			topic:     topic,
 			memberIDs: memberIDs,
 		})
 	}

 	// Assemble plan
 	plan := make(BalanceStrategyPlan, len(members))
 	for topic, memberIDs := range mbt {
 		s.coreFn(plan, memberIDs, topic, topics[topic])
 	}
 	return plan, nil
 }

 type balanceStrategySortable struct {
 	topic     string
 	memberIDs []string
 }

 func (p balanceStrategySortable) Len() int { return len(p.memberIDs) }
 func (p balanceStrategySortable) Swap(i, j int) {
 	p.memberIDs[i], p.memberIDs[j] = p.memberIDs[j], p.memberIDs[i]
 }
 func (p balanceStrategySortable) Less(i, j int) bool {
 	return balanceStrategyHashValue(p.topic, p.memberIDs[i]) < balanceStrategyHashValue(p.topic, p.memberIDs[j])
 }

 func balanceStrategyHashValue(vv ...string) uint32 {
 	h := uint32(2166136261)
 	for _, s := range vv {
 		for _, c := range s {
 			h ^= uint32(c)
 			h *= 16777619
 		}
 	}
 	return h
 }
	package sarama

	import (
	"math"
	"sort"
	)

	// BalanceStrategyPlan is the results of any BalanceStrategy.Plan attempt.
	// It contains an allocation of topic/partitions by memberID in the form of
	// a `memberID -> topic -> partitions` map.
	type BalanceStrategyPlan map[string]map[string][]int32

	// Add assigns a topic with a number partitions to a member.
	func (p BalanceStrategyPlan) Add(memberID, topic string, partitions ...int32) {
	if len(partitions) == 0 {
	return
	}
	if _, ok := p[memberID]; !ok {
	p[memberID] = make(map[string][]int32, 1)
	}
	p[memberID][topic] = append(p[memberID][topic], partitions...)
	}

	// --------------------------------------------------------------------

	// BalanceStrategy is used to balance topics and partitions
	// across memebers of a consumer group
	type BalanceStrategy interface {
	// Name uniquely identifies the strategy.
	Name() string

	// Plan accepts a map of `memberID -> metadata` and a map of `topic -> partitions`
	// and returns a distribution plan.
	Plan(members map[string]ConsumerGroupMemberMetadata, topics map[string][]int32) (BalanceStrategyPlan, error)
	}

	// --------------------------------------------------------------------

	// BalanceStrategyRange is the default and assigns partitions as ranges to consumer group members.
	// Example with one topic T with six partitions (0..5) and two members (M1, M2):
	// M1: {T: [0, 1, 2]}
	// M2: {T: [3, 4, 5]}
	var BalanceStrategyRange = &balanceStrategy{
	name: "range",
	coreFn: func(plan BalanceStrategyPlan, memberIDs []string, topic string, partitions []int32) {
	step := float64(len(partitions)) / float64(len(memberIDs))

	for i, memberID := range memberIDs {
	pos := float64(i)
	min := int(math.Floor(pos*step + 0.5))
	max := int(math.Floor((pos+1)*step + 0.5))
	plan.Add(memberID, topic, partitions[min:max]...)
	}
	},
	}

	// BalanceStrategyRoundRobin assigns partitions to members in alternating order.
	// Example with topic T with six partitions (0..5) and two members (M1, M2):
	// M1: {T: [0, 2, 4]}
	// M2: {T: [1, 3, 5]}
	var BalanceStrategyRoundRobin = &balanceStrategy{
	name: "roundrobin",
	coreFn: func(plan BalanceStrategyPlan, memberIDs []string, topic string, partitions []int32) {
	for i, part := range partitions {
	memberID := memberIDs[i%len(memberIDs)]
	plan.Add(memberID, topic, part)
	}
	},
	}

	// --------------------------------------------------------------------

	type balanceStrategy struct {
	name string
	coreFn func(plan BalanceStrategyPlan, memberIDs []string, topic string, partitions []int32)
	}

	// Name implements BalanceStrategy.
	func (s *balanceStrategy) Name() string { return s.name }

	// Balance implements BalanceStrategy.
	func (s *balanceStrategy) Plan(members map[string]ConsumerGroupMemberMetadata, topics map[string][]int32) (BalanceStrategyPlan, error) {
	// Build members by topic map
	mbt := make(map[string][]string)
	for memberID, meta := range members {
	for _, topic := range meta.Topics {
	mbt[topic] = append(mbt[topic], memberID)
	}
	}

	// Sort members for each topic
	for topic, memberIDs := range mbt {
	sort.Sort(&balanceStrategySortable{
	topic: topic,
	memberIDs: memberIDs,
	})
	}

	// Assemble plan
	plan := make(BalanceStrategyPlan, len(members))
	for topic, memberIDs := range mbt {
	s.coreFn(plan, memberIDs, topic, topics[topic])
	}
	return plan, nil
	}

	type balanceStrategySortable struct {
	topic string
	memberIDs []string
	}

	func (p balanceStrategySortable) Len() int { return len(p.memberIDs) }
	func (p balanceStrategySortable) Swap(i, j int) {
	p.memberIDs[i], p.memberIDs[j] = p.memberIDs[j], p.memberIDs[i]
	}
	func (p balanceStrategySortable) Less(i, j int) bool {
	return balanceStrategyHashValue(p.topic, p.memberIDs[i]) < balanceStrategyHashValue(p.topic, p.memberIDs[j])
	}

	func balanceStrategyHashValue(vv ...string) uint32 {
	h := uint32(2166136261)
	for _, s := range vv {
	for _, c := range s {
	h ^= uint32(c)
	h *= 16777619
	}
	}
	return h
	}