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observable_operator.go
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observable_operator.go
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package rxgo
import (
"container/ring"
"context"
"fmt"
"sync"
"sync/atomic"
"time"
"github.com/cenkalti/backoff/v4"
"github.com/emirpasic/gods/trees/binaryheap"
)
// All determines whether all items emitted by an Observable meet some criteria.
func (o *ObservableImpl) All(predicate Predicate, opts ...Option) Single {
return single(o.parent, o, func() operator {
return &allOperator{
predicate: predicate,
all: true,
}
}, false, false, opts...)
}
type allOperator struct {
predicate Predicate
all bool
}
func (op *allOperator) next(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
if !op.predicate(item.V) {
Of(false).SendContext(ctx, dst)
op.all = false
operatorOptions.stop()
}
}
func (op *allOperator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *allOperator) end(ctx context.Context, dst chan<- Item) {
if op.all {
Of(true).SendContext(ctx, dst)
}
}
func (op *allOperator) gatherNext(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
if item.V == false {
Of(false).SendContext(ctx, dst)
op.all = false
operatorOptions.stop()
}
}
// AverageFloat32 calculates the average of numbers emitted by an Observable and emits the average float32.
func (o *ObservableImpl) AverageFloat32(opts ...Option) Single {
return single(o.parent, o, func() operator {
return &averageFloat32Operator{}
}, false, false, opts...)
}
type averageFloat32Operator struct {
sum float32
count float32
}
func (op *averageFloat32Operator) next(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
switch v := item.V.(type) {
default:
Error(IllegalInputError{error: fmt.Sprintf("expected type: float or int, got: %t", item)}).SendContext(ctx, dst)
operatorOptions.stop()
case int:
op.sum += float32(v)
op.count++
case float32:
op.sum += v
op.count++
case float64:
op.sum += float32(v)
op.count++
}
}
func (op *averageFloat32Operator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *averageFloat32Operator) end(ctx context.Context, dst chan<- Item) {
if op.count == 0 {
Of(0).SendContext(ctx, dst)
} else {
Of(op.sum/op.count).SendContext(ctx, dst)
}
}
func (op *averageFloat32Operator) gatherNext(_ context.Context, item Item, _ chan<- Item, _ operatorOptions) {
v := item.V.(*averageFloat32Operator)
op.sum += v.sum
op.count += v.count
}
// AverageFloat64 calculates the average of numbers emitted by an Observable and emits the average float64.
func (o *ObservableImpl) AverageFloat64(opts ...Option) Single {
return single(o.parent, o, func() operator {
return &averageFloat64Operator{}
}, false, false, opts...)
}
type averageFloat64Operator struct {
sum float64
count float64
}
func (op *averageFloat64Operator) next(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
switch v := item.V.(type) {
default:
Error(IllegalInputError{error: fmt.Sprintf("expected type: float or int, got: %t", item)}).SendContext(ctx, dst)
operatorOptions.stop()
case int:
op.sum += float64(v)
op.count++
case float32:
op.sum += float64(v)
op.count++
case float64:
op.sum += v
op.count++
}
}
func (op *averageFloat64Operator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *averageFloat64Operator) end(ctx context.Context, dst chan<- Item) {
if op.count == 0 {
Of(0).SendContext(ctx, dst)
} else {
Of(op.sum/op.count).SendContext(ctx, dst)
}
}
func (op *averageFloat64Operator) gatherNext(_ context.Context, item Item, _ chan<- Item, _ operatorOptions) {
v := item.V.(*averageFloat64Operator)
op.sum += v.sum
op.count += v.count
}
// AverageInt calculates the average of numbers emitted by an Observable and emits the average int.
func (o *ObservableImpl) AverageInt(opts ...Option) Single {
return single(o.parent, o, func() operator {
return &averageIntOperator{}
}, false, false, opts...)
}
type averageIntOperator struct {
sum int
count int
}
func (op *averageIntOperator) next(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
switch v := item.V.(type) {
default:
Error(IllegalInputError{error: fmt.Sprintf("expected type: int, got: %t", item)}).SendContext(ctx, dst)
operatorOptions.stop()
case int:
op.sum += v
op.count++
}
}
func (op *averageIntOperator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *averageIntOperator) end(ctx context.Context, dst chan<- Item) {
if op.count == 0 {
Of(0).SendContext(ctx, dst)
} else {
Of(op.sum/op.count).SendContext(ctx, dst)
}
}
func (op *averageIntOperator) gatherNext(_ context.Context, item Item, _ chan<- Item, _ operatorOptions) {
v := item.V.(*averageIntOperator)
op.sum += v.sum
op.count += v.count
}
// AverageInt8 calculates the average of numbers emitted by an Observable and emits the≤ average int8.
func (o *ObservableImpl) AverageInt8(opts ...Option) Single {
return single(o.parent, o, func() operator {
return &averageInt8Operator{}
}, false, false, opts...)
}
type averageInt8Operator struct {
sum int8
count int8
}
func (op *averageInt8Operator) next(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
switch v := item.V.(type) {
default:
Error(IllegalInputError{error: fmt.Sprintf("expected type: int8, got: %t", item)}).SendContext(ctx, dst)
operatorOptions.stop()
case int8:
op.sum += v
op.count++
}
}
func (op *averageInt8Operator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *averageInt8Operator) end(ctx context.Context, dst chan<- Item) {
if op.count == 0 {
Of(0).SendContext(ctx, dst)
} else {
Of(op.sum/op.count).SendContext(ctx, dst)
}
}
func (op *averageInt8Operator) gatherNext(_ context.Context, item Item, _ chan<- Item, _ operatorOptions) {
v := item.V.(*averageInt8Operator)
op.sum += v.sum
op.count += v.count
}
// AverageInt16 calculates the average of numbers emitted by an Observable and emits the average int16.
func (o *ObservableImpl) AverageInt16(opts ...Option) Single {
return single(o.parent, o, func() operator {
return &averageInt16Operator{}
}, false, false, opts...)
}
type averageInt16Operator struct {
sum int16
count int16
}
func (op *averageInt16Operator) next(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
switch v := item.V.(type) {
default:
Error(IllegalInputError{error: fmt.Sprintf("expected type: int16, got: %t", item)}).SendContext(ctx, dst)
operatorOptions.stop()
case int16:
op.sum += v
op.count++
}
}
func (op *averageInt16Operator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *averageInt16Operator) end(ctx context.Context, dst chan<- Item) {
if op.count == 0 {
Of(0).SendContext(ctx, dst)
} else {
Of(op.sum/op.count).SendContext(ctx, dst)
}
}
func (op *averageInt16Operator) gatherNext(_ context.Context, item Item, _ chan<- Item, _ operatorOptions) {
v := item.V.(*averageInt16Operator)
op.sum += v.sum
op.count += v.count
}
// AverageInt32 calculates the average of numbers emitted by an Observable and emits the average int32.
func (o *ObservableImpl) AverageInt32(opts ...Option) Single {
return single(o.parent, o, func() operator {
return &averageInt32Operator{}
}, false, false, opts...)
}
type averageInt32Operator struct {
sum int32
count int32
}
func (op *averageInt32Operator) next(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
switch v := item.V.(type) {
default:
Error(IllegalInputError{error: fmt.Sprintf("expected type: int32, got: %t", item)}).SendContext(ctx, dst)
operatorOptions.stop()
case int32:
op.sum += v
op.count++
}
}
func (op *averageInt32Operator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *averageInt32Operator) end(ctx context.Context, dst chan<- Item) {
if op.count == 0 {
Of(0).SendContext(ctx, dst)
} else {
Of(op.sum/op.count).SendContext(ctx, dst)
}
}
func (op *averageInt32Operator) gatherNext(_ context.Context, item Item, _ chan<- Item, _ operatorOptions) {
v := item.V.(*averageInt32Operator)
op.sum += v.sum
op.count += v.count
}
// AverageInt64 calculates the average of numbers emitted by an Observable and emits this average int64.
func (o *ObservableImpl) AverageInt64(opts ...Option) Single {
return single(o.parent, o, func() operator {
return &averageInt64Operator{}
}, false, false, opts...)
}
type averageInt64Operator struct {
sum int64
count int64
}
func (op *averageInt64Operator) next(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
switch v := item.V.(type) {
default:
Error(IllegalInputError{error: fmt.Sprintf("expected type: int64, got: %t", item)}).SendContext(ctx, dst)
operatorOptions.stop()
case int64:
op.sum += v
op.count++
}
}
func (op *averageInt64Operator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *averageInt64Operator) end(ctx context.Context, dst chan<- Item) {
if op.count == 0 {
Of(0).SendContext(ctx, dst)
} else {
Of(op.sum/op.count).SendContext(ctx, dst)
}
}
func (op *averageInt64Operator) gatherNext(_ context.Context, item Item, _ chan<- Item, _ operatorOptions) {
v := item.V.(*averageInt64Operator)
op.sum += v.sum
op.count += v.count
}
// BackOffRetry implements a backoff retry if a source Observable sends an error, resubscribe to it in the hopes that it will complete without error.
// Cannot be run in parallel.
func (o *ObservableImpl) BackOffRetry(backOffCfg backoff.BackOff, opts ...Option) Observable {
option := parseOptions(opts...)
next := option.buildChannel()
ctx := option.buildContext(o.parent)
f := func() error {
observe := o.Observe(opts...)
for {
select {
case <-ctx.Done():
close(next)
return nil
case i, ok := <-observe:
if !ok {
return nil
}
if i.Error() {
return i.E
}
i.SendContext(ctx, next)
}
}
}
go func() {
if err := backoff.Retry(f, backOffCfg); err != nil {
Error(err).SendContext(ctx, next)
close(next)
return
}
close(next)
}()
return &ObservableImpl{
iterable: newChannelIterable(next),
}
}
// BufferWithCount returns an Observable that emits buffers of items it collects
// from the source Observable.
// The resulting Observable emits buffers every skip items, each containing a slice of count items.
// When the source Observable completes or encounters an error,
// the resulting Observable emits the current buffer and propagates
// the notification from the source Observable.
func (o *ObservableImpl) BufferWithCount(count int, opts ...Option) Observable {
if count <= 0 {
return Thrown(IllegalInputError{error: "count must be positive"})
}
return observable(o.parent, o, func() operator {
return &bufferWithCountOperator{
count: count,
buffer: make([]interface{}, count),
}
}, true, false, opts...)
}
type bufferWithCountOperator struct {
count int
iCount int
buffer []interface{}
}
func (op *bufferWithCountOperator) next(ctx context.Context, item Item, dst chan<- Item, _ operatorOptions) {
op.buffer[op.iCount] = item.V
op.iCount++
if op.iCount == op.count {
Of(op.buffer).SendContext(ctx, dst)
op.iCount = 0
op.buffer = make([]interface{}, op.count)
}
}
func (op *bufferWithCountOperator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *bufferWithCountOperator) end(ctx context.Context, dst chan<- Item) {
if op.iCount != 0 {
Of(op.buffer[:op.iCount]).SendContext(ctx, dst)
}
}
func (op *bufferWithCountOperator) gatherNext(_ context.Context, _ Item, _ chan<- Item, _ operatorOptions) {
}
// BufferWithTime returns an Observable that emits buffers of items it collects from the source
// Observable. The resulting Observable starts a new buffer periodically, as determined by the
// timeshift argument. It emits each buffer after a fixed timespan, specified by the timespan argument.
// When the source Observable completes or encounters an error, the resulting Observable emits
// the current buffer and propagates the notification from the source Observable.
func (o *ObservableImpl) BufferWithTime(timespan Duration, opts ...Option) Observable {
if timespan == nil {
return Thrown(IllegalInputError{error: "timespan must no be nil"})
}
f := func(ctx context.Context, next chan Item, option Option, opts ...Option) {
observe := o.Observe(opts...)
buffer := make([]interface{}, 0)
stop := make(chan struct{})
mutex := sync.Mutex{}
checkBuffer := func() {
mutex.Lock()
if len(buffer) != 0 {
if !Of(buffer).SendContext(ctx, next) {
mutex.Unlock()
return
}
buffer = make([]interface{}, 0)
}
mutex.Unlock()
}
go func() {
defer close(next)
duration := timespan.duration()
for {
select {
case <-stop:
checkBuffer()
return
case <-ctx.Done():
return
case <-time.After(duration):
checkBuffer()
}
}
}()
for {
select {
case <-ctx.Done():
close(stop)
return
case item, ok := <-observe:
if !ok {
close(stop)
return
}
if item.Error() {
item.SendContext(ctx, next)
if option.getErrorStrategy() == StopOnError {
close(stop)
return
}
} else {
mutex.Lock()
buffer = append(buffer, item.V)
mutex.Unlock()
}
}
}
}
return customObservableOperator(o.parent, f, opts...)
}
// BufferWithTimeOrCount returns an Observable that emits buffers of items it collects from the source
// Observable either from a given count or at a given time interval.
func (o *ObservableImpl) BufferWithTimeOrCount(timespan Duration, count int, opts ...Option) Observable {
if timespan == nil {
return Thrown(IllegalInputError{error: "timespan must no be nil"})
}
if count <= 0 {
return Thrown(IllegalInputError{error: "count must be positive"})
}
f := func(ctx context.Context, next chan Item, option Option, opts ...Option) {
observe := o.Observe(opts...)
buffer := make([]interface{}, 0)
stop := make(chan struct{})
send := make(chan struct{})
mutex := sync.Mutex{}
checkBuffer := func() {
mutex.Lock()
if len(buffer) != 0 {
if !Of(buffer).SendContext(ctx, next) {
mutex.Unlock()
return
}
buffer = make([]interface{}, 0)
}
mutex.Unlock()
}
go func() {
defer close(next)
duration := timespan.duration()
for {
select {
case <-send:
checkBuffer()
case <-stop:
checkBuffer()
return
case <-ctx.Done():
return
case <-time.After(duration):
checkBuffer()
}
}
}()
for {
select {
case <-ctx.Done():
return
case item, ok := <-observe:
if !ok {
close(stop)
close(send)
return
}
if item.Error() {
item.SendContext(ctx, next)
if option.getErrorStrategy() == StopOnError {
close(stop)
close(send)
return
}
} else {
mutex.Lock()
buffer = append(buffer, item.V)
if len(buffer) == count {
mutex.Unlock()
send <- struct{}{}
} else {
mutex.Unlock()
}
}
}
}
}
return customObservableOperator(o.parent, f, opts...)
}
// Connect instructs a connectable Observable to begin emitting items to its subscribers.
func (o *ObservableImpl) Connect(ctx context.Context) (context.Context, Disposable) {
ctx, cancel := context.WithCancel(ctx)
o.Observe(WithContext(ctx), connect())
return ctx, Disposable(cancel)
}
// Contains determines whether an Observable emits a particular item or not.
func (o *ObservableImpl) Contains(equal Predicate, opts ...Option) Single {
return single(o.parent, o, func() operator {
return &containsOperator{
equal: equal,
contains: false,
}
}, false, false, opts...)
}
type containsOperator struct {
equal Predicate
contains bool
}
func (op *containsOperator) next(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
if op.equal(item.V) {
Of(true).SendContext(ctx, dst)
op.contains = true
operatorOptions.stop()
}
}
func (op *containsOperator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *containsOperator) end(ctx context.Context, dst chan<- Item) {
if !op.contains {
Of(false).SendContext(ctx, dst)
}
}
func (op *containsOperator) gatherNext(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
if item.V == true {
Of(true).SendContext(ctx, dst)
operatorOptions.stop()
op.contains = true
}
}
// Count counts the number of items emitted by the source Observable and emit only this value.
func (o *ObservableImpl) Count(opts ...Option) Single {
return single(o.parent, o, func() operator {
return &countOperator{}
}, true, false, opts...)
}
type countOperator struct {
count int64
}
func (op *countOperator) next(_ context.Context, _ Item, _ chan<- Item, _ operatorOptions) {
op.count++
}
func (op *countOperator) err(_ context.Context, _ Item, _ chan<- Item, operatorOptions operatorOptions) {
operatorOptions.stop()
}
func (op *countOperator) end(ctx context.Context, dst chan<- Item) {
Of(op.count).SendContext(ctx, dst)
}
func (op *countOperator) gatherNext(_ context.Context, _ Item, _ chan<- Item, _ operatorOptions) {
}
// Debounce only emits an item from an Observable if a particular timespan has passed without it emitting another item.
func (o *ObservableImpl) Debounce(timespan Duration, opts ...Option) Observable {
f := func(ctx context.Context, next chan Item, option Option, opts ...Option) {
defer close(next)
observe := o.Observe(opts...)
var latest interface{}
for {
select {
case <-ctx.Done():
return
case item, ok := <-observe:
if !ok {
return
}
if item.Error() {
if !item.SendContext(ctx, next) {
return
}
if option.getErrorStrategy() == StopOnError {
return
}
} else {
latest = item.V
}
case <-time.After(timespan.duration()):
if latest != nil {
if !Of(latest).SendContext(ctx, next) {
return
}
latest = nil
}
}
}
}
return customObservableOperator(o.parent, f, opts...)
}
// DefaultIfEmpty returns an Observable that emits the items emitted by the source
// Observable or a specified default item if the source Observable is empty.
func (o *ObservableImpl) DefaultIfEmpty(defaultValue interface{}, opts ...Option) Observable {
return observable(o.parent, o, func() operator {
return &defaultIfEmptyOperator{
defaultValue: defaultValue,
empty: true,
}
}, true, false, opts...)
}
type defaultIfEmptyOperator struct {
defaultValue interface{}
empty bool
}
func (op *defaultIfEmptyOperator) next(ctx context.Context, item Item, dst chan<- Item, _ operatorOptions) {
op.empty = false
item.SendContext(ctx, dst)
}
func (op *defaultIfEmptyOperator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *defaultIfEmptyOperator) end(ctx context.Context, dst chan<- Item) {
if op.empty {
Of(op.defaultValue).SendContext(ctx, dst)
}
}
func (op *defaultIfEmptyOperator) gatherNext(_ context.Context, _ Item, _ chan<- Item, _ operatorOptions) {
}
// Distinct suppresses duplicate items in the original Observable and returns
// a new Observable.
func (o *ObservableImpl) Distinct(apply Func, opts ...Option) Observable {
return observable(o.parent, o, func() operator {
return &distinctOperator{
apply: apply,
keyset: make(map[interface{}]interface{}),
}
}, false, false, opts...)
}
type distinctOperator struct {
apply Func
keyset map[interface{}]interface{}
}
func (op *distinctOperator) next(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
key, err := op.apply(ctx, item.V)
if err != nil {
Error(err).SendContext(ctx, dst)
operatorOptions.stop()
return
}
_, ok := op.keyset[key]
if !ok {
item.SendContext(ctx, dst)
}
op.keyset[key] = nil
}
func (op *distinctOperator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *distinctOperator) end(_ context.Context, _ chan<- Item) {
}
func (op *distinctOperator) gatherNext(ctx context.Context, item Item, dst chan<- Item, _ operatorOptions) {
switch item.V.(type) {
case *distinctOperator:
return
}
if _, contains := op.keyset[item.V]; !contains {
Of(item.V).SendContext(ctx, dst)
op.keyset[item.V] = nil
}
}
// DistinctUntilChanged suppresses consecutive duplicate items in the original Observable.
// Cannot be run in parallel.
func (o *ObservableImpl) DistinctUntilChanged(apply Func, opts ...Option) Observable {
return observable(o.parent, o, func() operator {
return &distinctUntilChangedOperator{
apply: apply,
}
}, true, false, opts...)
}
type distinctUntilChangedOperator struct {
apply Func
current interface{}
}
func (op *distinctUntilChangedOperator) next(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
key, err := op.apply(ctx, item.V)
if err != nil {
Error(err).SendContext(ctx, dst)
operatorOptions.stop()
return
}
if op.current != key {
item.SendContext(ctx, dst)
op.current = key
}
}
func (op *distinctUntilChangedOperator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *distinctUntilChangedOperator) end(_ context.Context, _ chan<- Item) {
}
func (op *distinctUntilChangedOperator) gatherNext(_ context.Context, _ Item, _ chan<- Item, _ operatorOptions) {
}
// DoOnCompleted registers a callback action that will be called once the Observable terminates.
func (o *ObservableImpl) DoOnCompleted(completedFunc CompletedFunc, opts ...Option) Disposed {
dispose := make(chan struct{})
handler := func(ctx context.Context, src <-chan Item) {
defer close(dispose)
defer completedFunc()
for {
select {
case <-ctx.Done():
return
case i, ok := <-src:
if !ok {
return
}
if i.Error() {
return
}
}
}
}
option := parseOptions(opts...)
ctx := option.buildContext(o.parent)
go handler(ctx, o.Observe(opts...))
return dispose
}
// DoOnError registers a callback action that will be called if the Observable terminates abnormally.
func (o *ObservableImpl) DoOnError(errFunc ErrFunc, opts ...Option) Disposed {
dispose := make(chan struct{})
handler := func(ctx context.Context, src <-chan Item) {
defer close(dispose)
for {
select {
case <-ctx.Done():
return
case i, ok := <-src:
if !ok {
return
}
if i.Error() {
errFunc(i.E)
return
}
}
}
}
option := parseOptions(opts...)
ctx := option.buildContext(o.parent)
go handler(ctx, o.Observe(opts...))
return dispose
}
// DoOnNext registers a callback action that will be called on each item emitted by the Observable.
func (o *ObservableImpl) DoOnNext(nextFunc NextFunc, opts ...Option) Disposed {
dispose := make(chan struct{})
handler := func(ctx context.Context, src <-chan Item) {
defer close(dispose)
for {
select {
case <-ctx.Done():
return
case i, ok := <-src:
if !ok {
return
}
if i.Error() {
return
}
nextFunc(i.V)
}
}
}
option := parseOptions(opts...)
ctx := option.buildContext(o.parent)
go handler(ctx, o.Observe(opts...))
return dispose
}
// ElementAt emits only item n emitted by an Observable.
// Cannot be run in parallel.
func (o *ObservableImpl) ElementAt(index uint, opts ...Option) Single {
return single(o.parent, o, func() operator {
return &elementAtOperator{
index: index,
}
}, true, false, opts...)
}
type elementAtOperator struct {
index uint
takeCount int
sent bool
}
func (op *elementAtOperator) next(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
if op.takeCount == int(op.index) {
item.SendContext(ctx, dst)
op.sent = true
operatorOptions.stop()
return
}
op.takeCount++
}
func (op *elementAtOperator) err(ctx context.Context, item Item, dst chan<- Item, operatorOptions operatorOptions) {
defaultErrorFuncOperator(ctx, item, dst, operatorOptions)
}
func (op *elementAtOperator) end(ctx context.Context, dst chan<- Item) {
if !op.sent {
Error(&IllegalInputError{}).SendContext(ctx, dst)
}
}
func (op *elementAtOperator) gatherNext(_ context.Context, _ Item, _ chan<- Item, _ operatorOptions) {
}
// Error returns the eventual Observable error.
// This method is blocking.
func (o *ObservableImpl) Error(opts ...Option) error {
option := parseOptions(opts...)
ctx := option.buildContext(o.parent)
observe := o.iterable.Observe(opts...)
for {
select {
case <-ctx.Done():
return ctx.Err()
case item, ok := <-observe:
if !ok {
return nil
}
if item.Error() {
return item.E
}
}
}
}
// Errors returns an eventual list of Observable errors.
// This method is blocking
func (o *ObservableImpl) Errors(opts ...Option) []error {
option := parseOptions(opts...)
ctx := option.buildContext(o.parent)
observe := o.iterable.Observe(opts...)
errs := make([]error, 0)
for {
select {
case <-ctx.Done():
return []error{ctx.Err()}
case item, ok := <-observe:
if !ok {
return errs
}
if item.Error() {
errs = append(errs, item.E)
}
}
}
}
// Filter emits only those items from an Observable that pass a predicate test.
func (o *ObservableImpl) Filter(apply Predicate, opts ...Option) Observable {
return observable(o.parent, o, func() operator {
return &filterOperator{apply: apply}
}, false, true, opts...)
}