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loop/fsm/observer.go

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Go
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package fsm
import (
"context"
"sync"
"time"
)
// CachedObserver is an observer that caches all states and transitions of
// the observed state machine.
type CachedObserver struct {
lastNotification Notification
cachedNotifications *FixedSizeSlice[Notification]
notificationCond *sync.Cond
notificationMx sync.Mutex
}
// NewCachedObserver creates a new cached observer with the given maximum
// number of cached notifications.
func NewCachedObserver(maxElements int) *CachedObserver {
fixedSizeSlice := NewFixedSizeSlice[Notification](maxElements)
observer := &CachedObserver{
cachedNotifications: fixedSizeSlice,
}
observer.notificationCond = sync.NewCond(&observer.notificationMx)
return observer
}
// Notify implements the Observer interface.
func (c *CachedObserver) Notify(notification Notification) {
c.notificationMx.Lock()
defer c.notificationMx.Unlock()
c.cachedNotifications.Add(notification)
c.lastNotification = notification
c.notificationCond.Broadcast()
}
// GetCachedNotifications returns a copy of the cached notifications.
func (c *CachedObserver) GetCachedNotifications() []Notification {
c.notificationMx.Lock()
defer c.notificationMx.Unlock()
return c.cachedNotifications.Get()
}
// WaitForStateOption is an option that can be passed to the WaitForState
// function.
type WaitForStateOption interface {
apply(*fsmOptions)
}
// fsmOptions is a struct that holds all options that can be passed to the
// WaitForState function.
type fsmOptions struct {
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initialWait time.Duration
abortEarlyOnError bool
}
// InitialWaitOption is an option that can be passed to the WaitForState
// function to wait for a given duration before checking the state.
type InitialWaitOption struct {
initialWait time.Duration
}
// WithWaitForStateOption creates a new InitialWaitOption.
func WithWaitForStateOption(initialWait time.Duration) WaitForStateOption {
return &InitialWaitOption{
initialWait,
}
}
// apply implements the WaitForStateOption interface.
func (w *InitialWaitOption) apply(o *fsmOptions) {
o.initialWait = w.initialWait
}
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// AbortEarlyOnErrorOption is an option that can be passed to the WaitForState
// function to abort early if an error occurs.
type AbortEarlyOnErrorOption struct {
abortEarlyOnError bool
}
// apply implements the WaitForStateOption interface.
func (a *AbortEarlyOnErrorOption) apply(o *fsmOptions) {
o.abortEarlyOnError = a.abortEarlyOnError
}
// WithAbortEarlyOnErrorOption creates a new AbortEarlyOnErrorOption.
func WithAbortEarlyOnErrorOption() WaitForStateOption {
return &AbortEarlyOnErrorOption{
abortEarlyOnError: true,
}
}
// WaitForState waits for the state machine to reach the given state.
// If the optional initialWait parameter is set, the function will wait for
// the given duration before checking the state. This is useful if the
// function is called immediately after sending an event to the state machine
// and the state machine needs some time to process the event.
func (s *CachedObserver) WaitForState(ctx context.Context,
timeout time.Duration, state StateType,
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opts ...WaitForStateOption) error {
var options fsmOptions
for _, opt := range opts {
opt.apply(&options)
}
// Wait for the initial wait duration if set.
if options.initialWait > 0 {
select {
case <-time.After(options.initialWait):
case <-ctx.Done():
return ctx.Err()
}
}
timeoutCtx, cancel := context.WithTimeout(ctx, timeout)
defer cancel()
// Channel to notify when the desired state is reached
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// or an error occurred.
ch := make(chan error)
// Goroutine to wait on condition variable
go func() {
s.notificationMx.Lock()
defer s.notificationMx.Unlock()
for {
// Check if the last state is the desired state
if s.lastNotification.NextState == state {
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select {
case <-timeoutCtx.Done():
return
case ch <- nil:
return
}
}
// Check if an error occurred
if s.lastNotification.Event == OnError {
if options.abortEarlyOnError {
select {
case <-timeoutCtx.Done():
return
case ch <- s.lastNotification.LastActionError:
return
}
}
}
// Otherwise, wait for the next notification
s.notificationCond.Wait()
}
}()
// Wait for either the condition to be met or for a timeout
select {
case <-timeoutCtx.Done():
return NewErrWaitingForStateTimeout(
state, s.lastNotification.NextState,
)
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case lastActionErr := <-ch:
if lastActionErr != nil {
return lastActionErr
}
return nil
}
}
// FixedSizeSlice is a slice with a fixed size.
type FixedSizeSlice[T any] struct {
data []T
maxLen int
sync.Mutex
}
// NewFixedSlice initializes a new FixedSlice with a given maximum length.
func NewFixedSizeSlice[T any](maxLen int) *FixedSizeSlice[T] {
return &FixedSizeSlice[T]{
data: make([]T, 0, maxLen),
maxLen: maxLen,
}
}
// Add appends a new element to the slice. If the slice reaches its maximum
// length, the first element is removed.
func (fs *FixedSizeSlice[T]) Add(element T) {
fs.Lock()
defer fs.Unlock()
if len(fs.data) == fs.maxLen {
// Remove the first element
fs.data = fs.data[1:]
}
// Add the new element
fs.data = append(fs.data, element)
}
// Get returns a copy of the slice.
func (fs *FixedSizeSlice[T]) Get() []T {
fs.Lock()
defer fs.Unlock()
data := make([]T, len(fs.data))
copy(data, fs.data)
return data
}
// GetElement returns the element at the given index.
func (fs *FixedSizeSlice[T]) GetElement(index int) T {
fs.Lock()
defer fs.Unlock()
return fs.data[index]
}