_content/talks/2013/advconc/dedupermain/dedupermain.go - website - Git at Google

 //go:build ignore && OMIT
 // +build ignore,OMIT

 // dedupermain runs the Subscribe example with several duplicate
 // subscriptions to demonstrate deduping.
 package main

 import (
 	"fmt"
 	"math/rand"
 	"time"
 )

 // STARTITEM OMIT
 // An Item is a stripped-down RSS item.
 type Item struct{ Title, Channel, GUID string }

 // STOPITEM OMIT

 // STARTFETCHER OMIT
 // A Fetcher fetches Items and returns the time when the next fetch should be
 // attempted.  On failure, Fetch returns a non-nil error.
 type Fetcher interface {
 	Fetch() (items []Item, next time.Time, err error)
 }

 // STOPFETCHER OMIT

 // STARTSUBSCRIPTION OMIT
 // A Subscription delivers Items over a channel.  Close cancels the
 // subscription, closes the Updates channel, and returns the last fetch error,
 // if any.
 type Subscription interface {
 	Updates() <-chan Item
 	Close() error
 }

 // STOPSUBSCRIPTION OMIT

 // STARTSUBSCRIBE OMIT
 // Subscribe returns a new Subscription that uses fetcher to fetch Items.
 func Subscribe(fetcher Fetcher) Subscription {
 	s := &sub{
 		fetcher: fetcher,
 		updates: make(chan Item),       // for Updates
 		closing: make(chan chan error), // for Close
 	}
 	go s.loop()
 	return s
 }

 // STOPSUBSCRIBE OMIT

 // sub implements the Subscription interface.
 type sub struct {
 	fetcher Fetcher         // fetches items
 	updates chan Item       // sends items to the user
 	closing chan chan error // for Close
 }

 // STARTUPDATES OMIT
 func (s *sub) Updates() <-chan Item {
 	return s.updates
 }

 // STOPUPDATES OMIT

 // STARTCLOSE OMIT
 // STARTCLOSESIG OMIT
 func (s *sub) Close() error {
 	// STOPCLOSESIG OMIT
 	errc := make(chan error)
 	s.closing <- errc // HLchan
 	return <-errc     // HLchan
 }

 // STOPCLOSE OMIT

 // loopCloseOnly is a version of loop that includes only the logic
 // that handles Close.
 func (s *sub) loopCloseOnly() {
 	// STARTCLOSEONLY OMIT
 	var err error // set when Fetch fails
 	for {
 		select {
 		case errc := <-s.closing: // HLchan
 			errc <- err      // HLchan
 			close(s.updates) // tells receiver we're done
 			return
 		}
 	}
 	// STOPCLOSEONLY OMIT
 }

 // loopFetchOnly is a version of loop that includes only the logic
 // that calls Fetch.
 func (s *sub) loopFetchOnly() {
 	// STARTFETCHONLY OMIT
 	var pending []Item // appended by fetch; consumed by send
 	var next time.Time // initially January 1, year 0
 	var err error
 	for {
 		var fetchDelay time.Duration // initially 0 (no delay)
 		if now := time.Now(); next.After(now) {
 			fetchDelay = next.Sub(now)
 		}
 		startFetch := time.After(fetchDelay)

 		select {
 		case <-startFetch:
 			var fetched []Item
 			fetched, next, err = s.fetcher.Fetch()
 			if err != nil {
 				next = time.Now().Add(10 * time.Second)
 				break
 			}
 			pending = append(pending, fetched...)
 		}
 	}
 	// STOPFETCHONLY OMIT
 }

 // loopSendOnly is a version of loop that includes only the logic for
 // sending items to s.updates.
 func (s *sub) loopSendOnly() {
 	// STARTSENDONLY OMIT
 	var pending []Item // appended by fetch; consumed by send
 	for {
 		var first Item
 		var updates chan Item // HLupdates
 		if len(pending) > 0 {
 			first = pending[0]
 			updates = s.updates // enable send case // HLupdates
 		}

 		select {
 		case updates <- first:
 			pending = pending[1:]
 		}
 	}
 	// STOPSENDONLY OMIT
 }

 // mergedLoop is a version of loop that combines loopCloseOnly,
 // loopFetchOnly, and loopSendOnly.
 func (s *sub) mergedLoop() {
 	// STARTFETCHVARS OMIT
 	var pending []Item
 	var next time.Time
 	var err error
 	// STOPFETCHVARS OMIT
 	for {
 		// STARTNOCAP OMIT
 		var fetchDelay time.Duration
 		if now := time.Now(); next.After(now) {
 			fetchDelay = next.Sub(now)
 		}
 		startFetch := time.After(fetchDelay)
 		// STOPNOCAP OMIT
 		var first Item
 		var updates chan Item
 		if len(pending) > 0 {
 			first = pending[0]
 			updates = s.updates // enable send case
 		}

 		// STARTSELECT OMIT
 		select {
 		case errc := <-s.closing: // HLcases
 			errc <- err
 			close(s.updates)
 			return
 			// STARTFETCHCASE OMIT
 		case <-startFetch: // HLcases
 			var fetched []Item
 			fetched, next, err = s.fetcher.Fetch() // HLfetch
 			if err != nil {
 				next = time.Now().Add(10 * time.Second)
 				break
 			}
 			pending = append(pending, fetched...) // HLfetch
 			// STOPFETCHCASE OMIT
 		case updates <- first: // HLcases
 			pending = pending[1:]
 		}
 		// STOPSELECT OMIT
 	}
 }

 // dedupeLoop extends mergedLoop with deduping of fetched items.
 func (s *sub) dedupeLoop() {
 	const maxPending = 10
 	// STARTSEEN OMIT
 	var pending []Item
 	var next time.Time
 	var err error
 	var seen = make(map[string]bool) // set of item.GUIDs // HLseen
 	// STOPSEEN OMIT
 	for {
 		// STARTCAP OMIT
 		var fetchDelay time.Duration
 		if now := time.Now(); next.After(now) {
 			fetchDelay = next.Sub(now)
 		}
 		var startFetch <-chan time.Time // HLcap
 		if len(pending) < maxPending {  // HLcap
 			startFetch = time.After(fetchDelay) // enable fetch case  // HLcap
 		} // HLcap
 		// STOPCAP OMIT
 		var first Item
 		var updates chan Item
 		if len(pending) > 0 {
 			first = pending[0]
 			updates = s.updates // enable send case
 		}
 		select {
 		case errc := <-s.closing:
 			errc <- err
 			close(s.updates)
 			return
 		// STARTDEDUPE OMIT
 		case <-startFetch:
 			var fetched []Item
 			fetched, next, err = s.fetcher.Fetch() // HLfetch
 			if err != nil {
 				next = time.Now().Add(10 * time.Second)
 				break
 			}
 			for _, item := range fetched {
 				if !seen[item.GUID] { // HLdupe
 					pending = append(pending, item) // HLdupe
 					seen[item.GUID] = true          // HLdupe
 				} // HLdupe
 			}
 			// STOPDEDUPE OMIT
 		case updates <- first:
 			pending = pending[1:]
 		}
 	}
 }

 // loop periodically fetches Items, sends them on s.updates, and exits
 // when Close is called.  It extends dedupeLoop with logic to run
 // Fetch asynchronously.
 func (s *sub) loop() {
 	const maxPending = 10
 	type fetchResult struct {
 		fetched []Item
 		next    time.Time
 		err     error
 	}
 	// STARTFETCHDONE OMIT
 	var fetchDone chan fetchResult // if non-nil, Fetch is running // HL
 	// STOPFETCHDONE OMIT
 	var pending []Item
 	var next time.Time
 	var err error
 	var seen = make(map[string]bool)
 	for {
 		var fetchDelay time.Duration
 		if now := time.Now(); next.After(now) {
 			fetchDelay = next.Sub(now)
 		}
 		// STARTFETCHIF OMIT
 		var startFetch <-chan time.Time
 		if fetchDone == nil && len(pending) < maxPending { // HLfetch
 			startFetch = time.After(fetchDelay) // enable fetch case
 		}
 		// STOPFETCHIF OMIT
 		var first Item
 		var updates chan Item
 		if len(pending) > 0 {
 			first = pending[0]
 			updates = s.updates // enable send case
 		}
 		// STARTFETCHASYNC OMIT
 		select {
 		case <-startFetch: // HLfetch
 			fetchDone = make(chan fetchResult, 1) // HLfetch
 			go func() {
 				fetched, next, err := s.fetcher.Fetch()
 				fetchDone <- fetchResult{fetched, next, err}
 			}()
 		case result := <-fetchDone: // HLfetch
 			fetchDone = nil // HLfetch
 			// Use result.fetched, result.next, result.err
 			// STOPFETCHASYNC OMIT
 			fetched := result.fetched
 			next, err = result.next, result.err
 			if err != nil {
 				next = time.Now().Add(10 * time.Second)
 				break
 			}
 			for _, item := range fetched {
 				if id := item.GUID; !seen[id] { // HLdupe
 					pending = append(pending, item)
 					seen[id] = true // HLdupe
 				}
 			}
 		case errc := <-s.closing:
 			errc <- err
 			close(s.updates)
 			return
 		case updates <- first:
 			pending = pending[1:]
 		}
 	}
 }

 // naiveMerge is a version of Merge that doesn't quite work right.  In
 // particular, the goroutines it starts may block forever on m.updates
 // if the receiver stops receiving.
 type naiveMerge struct {
 	subs    []Subscription
 	updates chan Item
 }

 // STARTNAIVEMERGE OMIT
 func NaiveMerge(subs ...Subscription) Subscription {
 	m := &naiveMerge{
 		subs:    subs,
 		updates: make(chan Item),
 	}
 	// STARTNAIVEMERGELOOP OMIT
 	for _, sub := range subs {
 		go func(s Subscription) {
 			for it := range s.Updates() {
 				m.updates <- it // HL
 			}
 		}(sub)
 	}
 	// STOPNAIVEMERGELOOP OMIT
 	return m
 }

 // STOPNAIVEMERGE OMIT

 // STARTNAIVEMERGECLOSE OMIT
 func (m *naiveMerge) Close() (err error) {
 	for _, sub := range m.subs {
 		if e := sub.Close(); err == nil && e != nil {
 			err = e
 		}
 	}
 	close(m.updates) // HL
 	return
 }

 // STOPNAIVEMERGECLOSE OMIT

 func (m *naiveMerge) Updates() <-chan Item {
 	return m.updates
 }

 type merge struct {
 	subs    []Subscription
 	updates chan Item
 	quit    chan struct{}
 	errs    chan error
 }

 // STARTMERGESIG OMIT
 // Merge returns a Subscription that merges the item streams from subs.
 // Closing the merged subscription closes subs.
 func Merge(subs ...Subscription) Subscription {
 	// STOPMERGESIG OMIT
 	m := &merge{
 		subs:    subs,
 		updates: make(chan Item),
 		quit:    make(chan struct{}),
 		errs:    make(chan error),
 	}
 	// STARTMERGE OMIT
 	for _, sub := range subs {
 		go func(s Subscription) {
 			for {
 				var it Item
 				select {
 				case it = <-s.Updates():
 				case <-m.quit: // HL
 					m.errs <- s.Close() // HL
 					return              // HL
 				}
 				select {
 				case m.updates <- it:
 				case <-m.quit: // HL
 					m.errs <- s.Close() // HL
 					return              // HL
 				}
 			}
 		}(sub)
 	}
 	// STOPMERGE OMIT
 	return m
 }

 func (m *merge) Updates() <-chan Item {
 	return m.updates
 }

 // STARTMERGECLOSE OMIT
 func (m *merge) Close() (err error) {
 	close(m.quit) // HL
 	for _ = range m.subs {
 		if e := <-m.errs; e != nil { // HL
 			err = e
 		}
 	}
 	close(m.updates) // HL
 	return
 }

 // STOPMERGECLOSE OMIT

 // NaiveDedupe converts a stream of Items that may contain duplicates
 // into one that doesn't.
 func NaiveDedupe(in <-chan Item) <-chan Item {
 	out := make(chan Item)
 	go func() {
 		seen := make(map[string]bool)
 		for it := range in {
 			if !seen[it.GUID] {
 				// BUG: this send blocks if the
 				// receiver closes the Subscription
 				// and stops receiving.
 				out <- it // HL
 				seen[it.GUID] = true
 			}
 		}
 		close(out)
 	}()
 	return out
 }

 type deduper struct {
 	s       Subscription
 	updates chan Item
 	closing chan chan error
 }

 // Dedupe converts a Subscription that may send duplicate Items into
 // one that doesn't.
 func Dedupe(s Subscription) Subscription {
 	d := &deduper{
 		s:       s,
 		updates: make(chan Item),
 		closing: make(chan chan error),
 	}
 	go d.loop()
 	return d
 }

 func (d *deduper) loop() {
 	in := d.s.Updates() // enable receive
 	var pending Item
 	var out chan Item // disable send
 	seen := make(map[string]bool)
 	for {
 		select {
 		case it := <-in:
 			if !seen[it.GUID] {
 				pending = it
 				in = nil        // disable receive
 				out = d.updates // enable send
 				seen[it.GUID] = true
 			}
 		case out <- pending:
 			in = d.s.Updates() // enable receive
 			out = nil          // disable send
 		case errc := <-d.closing:
 			err := d.s.Close()
 			errc <- err
 			close(d.updates)
 			return
 		}
 	}
 }

 func (d *deduper) Close() error {
 	errc := make(chan error)
 	d.closing <- errc
 	return <-errc
 }

 func (d *deduper) Updates() <-chan Item {
 	return d.updates
 }

 // Fetch returns a Fetcher for Items from domain.
 func Fetch(domain string) Fetcher {
 	return fakeFetch(domain)
 }

 func fakeFetch(domain string) Fetcher {
 	return &fakeFetcher{channel: domain}
 }

 type fakeFetcher struct {
 	channel string
 	items   []Item
 }

 // FakeDuplicates causes the fake fetcher to return duplicate items.
 var FakeDuplicates bool

 func (f *fakeFetcher) Fetch() (items []Item, next time.Time, err error) {
 	now := time.Now()
 	next = now.Add(time.Duration(rand.Intn(5)) * 500 * time.Millisecond)
 	item := Item{
 		Channel: f.channel,
 		Title:   fmt.Sprintf("Item %d", len(f.items)),
 	}
 	item.GUID = item.Channel + "/" + item.Title
 	f.items = append(f.items, item)
 	if FakeDuplicates {
 		items = f.items
 	} else {
 		items = []Item{item}
 	}
 	return
 }

 func init() {
 	rand.Seed(time.Now().UnixNano())
 }

 // STARTMAIN OMIT
 func main() {
 	// STARTMERGECALL OMIT
 	// Subscribe to some feeds, and create a merged update stream.
 	merged := Dedupe(Merge(
 		Subscribe(Fetch("blog.golang.org")),
 		Subscribe(Fetch("blog.golang.org")),
 		Subscribe(Fetch("blog.golang.org")),
 		Subscribe(Fetch("googleblog.blogspot.com")),
 		Subscribe(Fetch("googledevelopers.blogspot.com"))))
 	// STOPMERGECALL OMIT

 	// Close the subscriptions after some time.
 	time.AfterFunc(3*time.Second, func() {
 		fmt.Println("closed:", merged.Close())
 	})

 	// Print the stream.
 	for it := range merged.Updates() {
 		fmt.Println(it.Channel, it.Title)
 	}

 	panic("show me the stacks")
 }

 // STOPMAIN OMIT
	//go:build ignore && OMIT
	// +build ignore,OMIT

	// dedupermain runs the Subscribe example with several duplicate
	// subscriptions to demonstrate deduping.
	package main

	import (
	"fmt"
	"math/rand"
	"time"
	)

	// STARTITEM OMIT
	// An Item is a stripped-down RSS item.
	type Item struct{ Title, Channel, GUID string }

	// STOPITEM OMIT

	// STARTFETCHER OMIT
	// A Fetcher fetches Items and returns the time when the next fetch should be
	// attempted. On failure, Fetch returns a non-nil error.
	type Fetcher interface {
	Fetch() (items []Item, next time.Time, err error)
	}

	// STOPFETCHER OMIT

	// STARTSUBSCRIPTION OMIT
	// A Subscription delivers Items over a channel. Close cancels the
	// subscription, closes the Updates channel, and returns the last fetch error,
	// if any.
	type Subscription interface {
	Updates() <-chan Item
	Close() error
	}

	// STOPSUBSCRIPTION OMIT

	// STARTSUBSCRIBE OMIT
	// Subscribe returns a new Subscription that uses fetcher to fetch Items.
	func Subscribe(fetcher Fetcher) Subscription {
	s := &sub{
	fetcher: fetcher,
	updates: make(chan Item), // for Updates
	closing: make(chan chan error), // for Close
	}
	go s.loop()
	return s
	}

	// STOPSUBSCRIBE OMIT

	// sub implements the Subscription interface.
	type sub struct {
	fetcher Fetcher // fetches items
	updates chan Item // sends items to the user
	closing chan chan error // for Close
	}

	// STARTUPDATES OMIT
	func (s *sub) Updates() <-chan Item {
	return s.updates
	}

	// STOPUPDATES OMIT

	// STARTCLOSE OMIT
	// STARTCLOSESIG OMIT
	func (s *sub) Close() error {
	// STOPCLOSESIG OMIT
	errc := make(chan error)
	s.closing <- errc // HLchan
	return <-errc // HLchan
	}

	// STOPCLOSE OMIT

	// loopCloseOnly is a version of loop that includes only the logic
	// that handles Close.
	func (s *sub) loopCloseOnly() {
	// STARTCLOSEONLY OMIT
	var err error // set when Fetch fails
	for {
	select {
	case errc := <-s.closing: // HLchan
	errc <- err // HLchan
	close(s.updates) // tells receiver we're done
	return
	}
	}
	// STOPCLOSEONLY OMIT
	}

	// loopFetchOnly is a version of loop that includes only the logic
	// that calls Fetch.
	func (s *sub) loopFetchOnly() {
	// STARTFETCHONLY OMIT
	var pending []Item // appended by fetch; consumed by send
	var next time.Time // initially January 1, year 0
	var err error
	for {
	var fetchDelay time.Duration // initially 0 (no delay)
	if now := time.Now(); next.After(now) {
	fetchDelay = next.Sub(now)
	}
	startFetch := time.After(fetchDelay)

	select {
	case <-startFetch:
	var fetched []Item
	fetched, next, err = s.fetcher.Fetch()
	if err != nil {
	next = time.Now().Add(10 * time.Second)
	break
	}
	pending = append(pending, fetched...)
	}
	}
	// STOPFETCHONLY OMIT
	}

	// loopSendOnly is a version of loop that includes only the logic for
	// sending items to s.updates.
	func (s *sub) loopSendOnly() {
	// STARTSENDONLY OMIT
	var pending []Item // appended by fetch; consumed by send
	for {
	var first Item
	var updates chan Item // HLupdates
	if len(pending) > 0 {
	first = pending[0]
	updates = s.updates // enable send case // HLupdates
	}

	select {
	case updates <- first:
	pending = pending[1:]
	}
	}
	// STOPSENDONLY OMIT
	}

	// mergedLoop is a version of loop that combines loopCloseOnly,
	// loopFetchOnly, and loopSendOnly.
	func (s *sub) mergedLoop() {
	// STARTFETCHVARS OMIT
	var pending []Item
	var next time.Time
	var err error
	// STOPFETCHVARS OMIT
	for {
	// STARTNOCAP OMIT
	var fetchDelay time.Duration
	if now := time.Now(); next.After(now) {
	fetchDelay = next.Sub(now)
	}
	startFetch := time.After(fetchDelay)
	// STOPNOCAP OMIT
	var first Item
	var updates chan Item
	if len(pending) > 0 {
	first = pending[0]
	updates = s.updates // enable send case
	}

	// STARTSELECT OMIT
	select {
	case errc := <-s.closing: // HLcases
	errc <- err
	close(s.updates)
	return
	// STARTFETCHCASE OMIT
	case <-startFetch: // HLcases
	var fetched []Item
	fetched, next, err = s.fetcher.Fetch() // HLfetch
	if err != nil {
	next = time.Now().Add(10 * time.Second)
	break
	}
	pending = append(pending, fetched...) // HLfetch
	// STOPFETCHCASE OMIT
	case updates <- first: // HLcases
	pending = pending[1:]
	}
	// STOPSELECT OMIT
	}
	}

	// dedupeLoop extends mergedLoop with deduping of fetched items.
	func (s *sub) dedupeLoop() {
	const maxPending = 10
	// STARTSEEN OMIT
	var pending []Item
	var next time.Time
	var err error
	var seen = make(map[string]bool) // set of item.GUIDs // HLseen
	// STOPSEEN OMIT
	for {
	// STARTCAP OMIT
	var fetchDelay time.Duration
	if now := time.Now(); next.After(now) {
	fetchDelay = next.Sub(now)
	}
	var startFetch <-chan time.Time // HLcap
	if len(pending) < maxPending { // HLcap
	startFetch = time.After(fetchDelay) // enable fetch case // HLcap
	} // HLcap
	// STOPCAP OMIT
	var first Item
	var updates chan Item
	if len(pending) > 0 {
	first = pending[0]
	updates = s.updates // enable send case
	}
	select {
	case errc := <-s.closing:
	errc <- err
	close(s.updates)
	return
	// STARTDEDUPE OMIT
	case <-startFetch:
	var fetched []Item
	fetched, next, err = s.fetcher.Fetch() // HLfetch
	if err != nil {
	next = time.Now().Add(10 * time.Second)
	break
	}
	for _, item := range fetched {
	if !seen[item.GUID] { // HLdupe
	pending = append(pending, item) // HLdupe
	seen[item.GUID] = true // HLdupe
	} // HLdupe
	}
	// STOPDEDUPE OMIT
	case updates <- first:
	pending = pending[1:]
	}
	}
	}

	// loop periodically fetches Items, sends them on s.updates, and exits
	// when Close is called. It extends dedupeLoop with logic to run
	// Fetch asynchronously.
	func (s *sub) loop() {
	const maxPending = 10
	type fetchResult struct {
	fetched []Item
	next time.Time
	err error
	}
	// STARTFETCHDONE OMIT
	var fetchDone chan fetchResult // if non-nil, Fetch is running // HL
	// STOPFETCHDONE OMIT
	var pending []Item
	var next time.Time
	var err error
	var seen = make(map[string]bool)
	for {
	var fetchDelay time.Duration
	if now := time.Now(); next.After(now) {
	fetchDelay = next.Sub(now)
	}
	// STARTFETCHIF OMIT
	var startFetch <-chan time.Time
	if fetchDone == nil && len(pending) < maxPending { // HLfetch
	startFetch = time.After(fetchDelay) // enable fetch case
	}
	// STOPFETCHIF OMIT
	var first Item
	var updates chan Item
	if len(pending) > 0 {
	first = pending[0]
	updates = s.updates // enable send case
	}
	// STARTFETCHASYNC OMIT
	select {
	case <-startFetch: // HLfetch
	fetchDone = make(chan fetchResult, 1) // HLfetch
	go func() {
	fetched, next, err := s.fetcher.Fetch()
	fetchDone <- fetchResult{fetched, next, err}
	}()
	case result := <-fetchDone: // HLfetch
	fetchDone = nil // HLfetch
	// Use result.fetched, result.next, result.err
	// STOPFETCHASYNC OMIT
	fetched := result.fetched
	next, err = result.next, result.err
	if err != nil {
	next = time.Now().Add(10 * time.Second)
	break
	}
	for _, item := range fetched {
	if id := item.GUID; !seen[id] { // HLdupe
	pending = append(pending, item)
	seen[id] = true // HLdupe
	}
	}
	case errc := <-s.closing:
	errc <- err
	close(s.updates)
	return
	case updates <- first:
	pending = pending[1:]
	}
	}
	}

	// naiveMerge is a version of Merge that doesn't quite work right. In
	// particular, the goroutines it starts may block forever on m.updates
	// if the receiver stops receiving.
	type naiveMerge struct {
	subs []Subscription
	updates chan Item
	}

	// STARTNAIVEMERGE OMIT
	func NaiveMerge(subs ...Subscription) Subscription {
	m := &naiveMerge{
	subs: subs,
	updates: make(chan Item),
	}
	// STARTNAIVEMERGELOOP OMIT
	for _, sub := range subs {
	go func(s Subscription) {
	for it := range s.Updates() {
	m.updates <- it // HL
	}
	}(sub)
	}
	// STOPNAIVEMERGELOOP OMIT
	return m
	}

	// STOPNAIVEMERGE OMIT

	// STARTNAIVEMERGECLOSE OMIT
	func (m *naiveMerge) Close() (err error) {
	for _, sub := range m.subs {
	if e := sub.Close(); err == nil && e != nil {
	err = e
	}
	}
	close(m.updates) // HL
	return
	}

	// STOPNAIVEMERGECLOSE OMIT

	func (m *naiveMerge) Updates() <-chan Item {
	return m.updates
	}

	type merge struct {
	subs []Subscription
	updates chan Item
	quit chan struct{}
	errs chan error
	}

	// STARTMERGESIG OMIT
	// Merge returns a Subscription that merges the item streams from subs.
	// Closing the merged subscription closes subs.
	func Merge(subs ...Subscription) Subscription {
	// STOPMERGESIG OMIT
	m := &merge{
	subs: subs,
	updates: make(chan Item),
	quit: make(chan struct{}),
	errs: make(chan error),
	}
	// STARTMERGE OMIT
	for _, sub := range subs {
	go func(s Subscription) {
	for {
	var it Item
	select {
	case it = <-s.Updates():
	case <-m.quit: // HL
	m.errs <- s.Close() // HL
	return // HL
	}
	select {
	case m.updates <- it:
	case <-m.quit: // HL
	m.errs <- s.Close() // HL
	return // HL
	}
	}
	}(sub)
	}
	// STOPMERGE OMIT
	return m
	}

	func (m *merge) Updates() <-chan Item {
	return m.updates
	}

	// STARTMERGECLOSE OMIT
	func (m *merge) Close() (err error) {
	close(m.quit) // HL
	for _ = range m.subs {
	if e := <-m.errs; e != nil { // HL
	err = e
	}
	}
	close(m.updates) // HL
	return
	}

	// STOPMERGECLOSE OMIT

	// NaiveDedupe converts a stream of Items that may contain duplicates
	// into one that doesn't.
	func NaiveDedupe(in <-chan Item) <-chan Item {
	out := make(chan Item)
	go func() {
	seen := make(map[string]bool)
	for it := range in {
	if !seen[it.GUID] {
	// BUG: this send blocks if the
	// receiver closes the Subscription
	// and stops receiving.
	out <- it // HL
	seen[it.GUID] = true
	}
	}
	close(out)
	}()
	return out
	}

	type deduper struct {
	s Subscription
	updates chan Item
	closing chan chan error
	}

	// Dedupe converts a Subscription that may send duplicate Items into
	// one that doesn't.
	func Dedupe(s Subscription) Subscription {
	d := &deduper{
	s: s,
	updates: make(chan Item),
	closing: make(chan chan error),
	}
	go d.loop()
	return d
	}

	func (d *deduper) loop() {
	in := d.s.Updates() // enable receive
	var pending Item
	var out chan Item // disable send
	seen := make(map[string]bool)
	for {
	select {
	case it := <-in:
	if !seen[it.GUID] {
	pending = it
	in = nil // disable receive
	out = d.updates // enable send
	seen[it.GUID] = true
	}
	case out <- pending:
	in = d.s.Updates() // enable receive
	out = nil // disable send
	case errc := <-d.closing:
	err := d.s.Close()
	errc <- err
	close(d.updates)
	return
	}
	}
	}

	func (d *deduper) Close() error {
	errc := make(chan error)
	d.closing <- errc
	return <-errc
	}

	func (d *deduper) Updates() <-chan Item {
	return d.updates
	}

	// Fetch returns a Fetcher for Items from domain.
	func Fetch(domain string) Fetcher {
	return fakeFetch(domain)
	}

	func fakeFetch(domain string) Fetcher {
	return &fakeFetcher{channel: domain}
	}

	type fakeFetcher struct {
	channel string
	items []Item
	}

	// FakeDuplicates causes the fake fetcher to return duplicate items.
	var FakeDuplicates bool

	func (f *fakeFetcher) Fetch() (items []Item, next time.Time, err error) {
	now := time.Now()
	next = now.Add(time.Duration(rand.Intn(5)) * 500 * time.Millisecond)
	item := Item{
	Channel: f.channel,
	Title: fmt.Sprintf("Item %d", len(f.items)),
	}
	item.GUID = item.Channel + "/" + item.Title
	f.items = append(f.items, item)
	if FakeDuplicates {
	items = f.items
	} else {
	items = []Item{item}
	}
	return
	}

	func init() {
	rand.Seed(time.Now().UnixNano())
	}

	// STARTMAIN OMIT
	func main() {
	// STARTMERGECALL OMIT
	// Subscribe to some feeds, and create a merged update stream.
	merged := Dedupe(Merge(
	Subscribe(Fetch("blog.golang.org")),
	Subscribe(Fetch("blog.golang.org")),
	Subscribe(Fetch("blog.golang.org")),
	Subscribe(Fetch("googleblog.blogspot.com")),
	Subscribe(Fetch("googledevelopers.blogspot.com"))))
	// STOPMERGECALL OMIT

	// Close the subscriptions after some time.
	time.AfterFunc(3*time.Second, func() {
	fmt.Println("closed:", merged.Close())
	})

	// Print the stream.
	for it := range merged.Updates() {
	fmt.Println(it.Channel, it.Title)
	}

	panic("show me the stacks")
	}

	// STOPMAIN OMIT