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eventstream.go
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eventstream.go
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package eventsourcing
import (
"fmt"
"reflect"
"sync"
)
// EventStream struct what handles event subscription
type EventStream struct {
// holds subscribers of aggregate types events
aggregateTypes map[string][]*Subscription
// holds subscribers of specific aggregates (type and identifier)
specificAggregates map[string][]*Subscription
// holds subscribers of specific events
specificEvents map[reflect.Type][]*Subscription
// holds subscribers of all events
allEvents []*Subscription
// makes sure events are delivered in order and subscriptions are persistent
lock sync.Mutex
}
// Subscription holding the subscribe / unsubscribe / and func to be called when
// event matches the subscription
type Subscription struct {
f func(e Event)
unsubF func()
subF func()
}
// Unsubscribe stops the subscription
func (s *Subscription) Unsubscribe() {
s.unsubF()
}
// Subscribe starts the subscription
func (s *Subscription) Subscribe() {
s.subF()
}
// NewEventStream factory function
func NewEventStream() *EventStream {
return &EventStream{
aggregateTypes: make(map[string][]*Subscription),
specificAggregates: make(map[string][]*Subscription),
specificEvents: make(map[reflect.Type][]*Subscription),
allEvents: []*Subscription{},
}
}
// Update calls the functions that are subscribing to event
func (e *EventStream) Update(agg aggregate, events []Event) {
// the lock prevent other event updates get mixed with this update
e.lock.Lock()
defer e.lock.Unlock()
for _, event := range events {
// call all functions that has registered for all events
for _, s := range e.allEvents {
s.f(event)
}
// call all functions that has registered for the specific event
t := reflect.TypeOf(event.Data)
if subs, ok := e.specificEvents[t]; ok {
for _, s := range subs {
s.f(event)
}
}
ref := fmt.Sprintf("%s_%s", agg.path(), event.AggregateType)
// call all functions that has registered for the aggregate type events
if subs, ok := e.aggregateTypes[ref]; ok {
for _, s := range subs {
s.f(event)
}
}
// call all functions that has registered for the aggregate type and id events
// ref also include the package name ensuring that Aggregate Types can have the same name.
ref = fmt.Sprintf("%s_%s", ref, agg.id())
if subs, ok := e.specificAggregates[ref]; ok {
for _, s := range subs {
s.f(event)
}
}
}
}
// SubscriberAll bind the f function to be called on all events independent on aggregate or event type
func (e *EventStream) SubscriberAll(f func(e Event)) *Subscription {
s := Subscription{
f : f,
}
s.unsubF = func() {
e.lock.Lock()
defer e.lock.Unlock()
for i, sub := range e.allEvents {
if &s == sub {
e.allEvents = append(e.allEvents[:i], e.allEvents[i+1:]...)
break
}
}
}
s.subF = func() {
e.lock.Lock()
defer e.lock.Unlock()
e.allEvents = append(e.allEvents, &s)
}
return &s
}
// SubscriberSpecificAggregate bind the f function to be called on events that belongs to aggregate based on type and id
func (e *EventStream) SubscriberSpecificAggregate(f func(e Event), aggregates ...aggregate) *Subscription {
s := Subscription{
f : f,
}
s.unsubF = func() {
e.lock.Lock()
defer e.lock.Unlock()
for _, a := range aggregates {
name := reflect.TypeOf(a).Elem().Name()
ref := fmt.Sprintf("%s_%s_%s", a.path(), name, a.id())
for i, sub := range e.specificAggregates[ref] {
if &s == sub {
e.specificAggregates[ref] = append(e.specificAggregates[ref][:i], e.specificAggregates[ref][i+1:]...)
break
}
}
}
}
s.subF = func() {
e.lock.Lock()
defer e.lock.Unlock()
for _, a := range aggregates {
name := reflect.TypeOf(a).Elem().Name()
ref := fmt.Sprintf("%s_%s_%s", a.path(), name, a.id())
// adds one more function to the aggregate
e.specificAggregates[ref] = append(e.specificAggregates[ref], &s)
}
}
return &s
}
// SubscriberAggregateType bind the f function to be called on events on the aggregate type
func (e *EventStream) SubscriberAggregateType(f func(e Event), aggregates ...aggregate) *Subscription {
s := Subscription{
f : f,
}
s.unsubF = func() {
e.lock.Lock()
defer e.lock.Unlock()
for _, a := range aggregates {
name := reflect.TypeOf(a).Elem().Name()
ref := fmt.Sprintf("%s_%s", a.path(), name)
for i, sub := range e.aggregateTypes[ref] {
if &s == sub {
e.aggregateTypes[ref] = append(e.aggregateTypes[ref][:i], e.aggregateTypes[ref][i+1:]...)
break
}
}
}
}
s.subF = func() {
e.lock.Lock()
defer e.lock.Unlock()
for _, a := range aggregates {
name := reflect.TypeOf(a).Elem().Name()
ref := fmt.Sprintf("%s_%s", a.path(), name)
// adds one more function to the aggregate
e.aggregateTypes[ref] = append(e.aggregateTypes[ref], &s)
}
}
return &s
}
// SubscriberSpecificEvent bind the f function to be called on specific events
func (e *EventStream) SubscriberSpecificEvent(f func(e Event), events ...interface{}) *Subscription {
s := Subscription{
f : f,
}
s.unsubF = func() {
e.lock.Lock()
defer e.lock.Unlock()
for _, event := range events {
t := reflect.TypeOf(event)
for i, sub := range e.specificEvents[t] {
if &s == sub {
e.specificEvents[t] = append(e.specificEvents[t][:i], e.specificEvents[t][i+1:]...)
break
}
}
}
}
s.subF = func() {
e.lock.Lock()
defer e.lock.Unlock()
// subscribe to specified events
for _, event := range events {
t := reflect.TypeOf(event)
// adds one more property to the event type
e.specificEvents[t] = append(e.specificEvents[t], &s)
}
}
return &s
}