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factory.go
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factory.go
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package rxgo
import (
"context"
"math"
"sync"
"sync/atomic"
"time"
)
// Amb takes several Observables, emit all of the items from only the first of these Observables
// to emit an item or notification.
func Amb(observables []Observable, opts ...Option) Observable {
option := parseOptions(opts...)
ctx := option.buildContext(emptyContext)
next := option.buildChannel()
once := sync.Once{}
f := func(o Observable) {
it := o.Observe(opts...)
select {
case <-ctx.Done():
return
case item, ok := <-it:
if !ok {
return
}
once.Do(func() {
defer close(next)
if item.Error() {
next <- item
return
}
next <- item
for {
select {
case <-ctx.Done():
return
case item, ok := <-it:
if !ok {
return
}
if item.Error() {
next <- item
return
}
next <- item
}
}
})
}
}
for _, o := range observables {
go f(o)
}
return &ObservableImpl{
iterable: newChannelIterable(next),
}
}
// CombineLatest combines the latest item emitted by each Observable via a specified function
// and emit items based on the results of this function.
func CombineLatest(f FuncN, observables []Observable, opts ...Option) Observable {
option := parseOptions(opts...)
ctx := option.buildContext(emptyContext)
next := option.buildChannel()
go func() {
size := uint32(len(observables))
var counter uint32
s := make([]interface{}, size)
mutex := sync.Mutex{}
wg := sync.WaitGroup{}
wg.Add(int(size))
errCh := make(chan struct{})
handler := func(ctx context.Context, it Iterable, i int) {
defer wg.Done()
observe := it.Observe(opts...)
for {
select {
case <-ctx.Done():
return
case item, ok := <-observe:
if !ok {
return
}
if item.Error() {
next <- item
errCh <- struct{}{}
return
}
if s[i] == nil {
atomic.AddUint32(&counter, 1)
}
mutex.Lock()
s[i] = item.V
if atomic.LoadUint32(&counter) == size {
next <- Of(f(s...))
}
mutex.Unlock()
}
}
}
ctx, cancel := context.WithCancel(ctx)
for i, o := range observables {
go handler(ctx, o, i)
}
go func() {
for range errCh {
cancel()
}
}()
wg.Wait()
close(next)
close(errCh)
}()
return &ObservableImpl{
iterable: newChannelIterable(next),
}
}
// Concat emits the emissions from two or more Observables without interleaving them.
func Concat(observables []Observable, opts ...Option) Observable {
option := parseOptions(opts...)
ctx := option.buildContext(emptyContext)
next := option.buildChannel()
go func() {
defer close(next)
for _, obs := range observables {
observe := obs.Observe(opts...)
loop:
for {
select {
case <-ctx.Done():
return
case item, ok := <-observe:
if !ok {
break loop
}
if item.Error() {
next <- item
return
}
next <- item
}
}
}
}()
return &ObservableImpl{
iterable: newChannelIterable(next),
}
}
// Create creates an Observable from scratch by calling observer methods programmatically.
func Create(f []Producer, opts ...Option) Observable {
return &ObservableImpl{
iterable: newCreateIterable(f, opts...),
}
}
// Defer does not create the Observable until the observer subscribes,
// and creates a fresh Observable for each observer.
func Defer(f []Producer, opts ...Option) Observable {
return &ObservableImpl{
iterable: newDeferIterable(f, opts...),
}
}
// Empty creates an Observable with no item and terminate immediately.
func Empty() Observable {
next := make(chan Item)
close(next)
return &ObservableImpl{
iterable: newChannelIterable(next),
}
}
// FromChannel creates a cold observable from a channel.
func FromChannel(next <-chan Item, opts ...Option) Observable {
option := parseOptions(opts...)
ctx := option.buildContext(emptyContext)
return &ObservableImpl{
parent: ctx,
iterable: newChannelIterable(next, opts...),
}
}
// FromEventSource creates a hot observable from a channel.
func FromEventSource(next <-chan Item, opts ...Option) Observable {
option := parseOptions(opts...)
return &ObservableImpl{
iterable: newEventSourceIterable(option.buildContext(emptyContext), next, option.getBackPressureStrategy()),
}
}
// Interval creates an Observable emitting incremental integers infinitely between
// each given time interval.
func Interval(interval Duration, opts ...Option) Observable {
option := parseOptions(opts...)
next := option.buildChannel()
ctx := option.buildContext(emptyContext)
go func() {
i := 0
for {
select {
case <-time.After(interval.duration()):
if !Of(i).SendContext(ctx, next) {
return
}
i++
case <-ctx.Done():
close(next)
return
}
}
}()
return &ObservableImpl{
iterable: newEventSourceIterable(ctx, next, option.getBackPressureStrategy()),
}
}
// Just creates an Observable with the provided items.
func Just(items ...interface{}) func(opts ...Option) Observable {
return func(opts ...Option) Observable {
return &ObservableImpl{
iterable: newJustIterable(items...)(opts...),
}
}
}
// JustItem creates a single from one item.
func JustItem(item interface{}, opts ...Option) Single {
return &SingleImpl{
iterable: newJustIterable(item)(opts...),
}
}
// Merge combines multiple Observables into one by merging their emissions
func Merge(observables []Observable, opts ...Option) Observable {
option := parseOptions(opts...)
ctx := option.buildContext(emptyContext)
next := option.buildChannel()
wg := sync.WaitGroup{}
wg.Add(len(observables))
f := func(o Observable) {
defer wg.Done()
observe := o.Observe(opts...)
for {
select {
case <-ctx.Done():
return
case item, ok := <-observe:
if !ok {
return
}
if item.Error() {
next <- item
return
}
next <- item
}
}
}
for _, o := range observables {
go f(o)
}
go func() {
wg.Wait()
close(next)
}()
return &ObservableImpl{
iterable: newChannelIterable(next),
}
}
// Never creates an Observable that emits no items and does not terminate.
func Never() Observable {
next := make(chan Item)
return &ObservableImpl{
iterable: newChannelIterable(next),
}
}
// Range creates an Observable that emits count sequential integers beginning
// at start.
func Range(start, count int, opts ...Option) Observable {
if count < 0 {
return Thrown(IllegalInputError{error: "count must be positive"})
}
if start+count-1 > math.MaxInt32 {
return Thrown(IllegalInputError{error: "max value is bigger than math.MaxInt32"})
}
return &ObservableImpl{
iterable: newRangeIterable(start, count, opts...),
}
}
// Start creates an Observable from one or more directive-like Supplier
// and emits the result of each operation asynchronously on a new Observable.
func Start(fs []Supplier, opts ...Option) Observable {
option := parseOptions(opts...)
next := option.buildChannel()
ctx := option.buildContext(emptyContext)
go func() {
defer close(next)
for _, f := range fs {
select {
case <-ctx.Done():
return
case next <- f(ctx):
}
}
}()
return &ObservableImpl{
iterable: newChannelIterable(next),
}
}
// Thrown creates an Observable that emits no items and terminates with an error.
func Thrown(err error) Observable {
next := make(chan Item, 1)
next <- Error(err)
close(next)
return &ObservableImpl{
iterable: newChannelIterable(next),
}
}
// Timer returns an Observable that completes after a specified delay.
func Timer(d Duration, opts ...Option) Observable {
option := parseOptions(opts...)
next := make(chan Item, 1)
ctx := option.buildContext(emptyContext)
go func() {
defer close(next)
select {
case <-ctx.Done():
return
case <-time.After(d.duration()):
return
}
}()
return &ObservableImpl{
iterable: newChannelIterable(next),
}
}