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go-zero/core/mr/mapreduce.go

383 lines
8.9 KiB
Go

package mr
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import (
"context"
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"errors"
"sync"
"sync/atomic"
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"github.com/zeromicro/go-zero/core/errorx"
"github.com/zeromicro/go-zero/core/lang"
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)
const (
defaultWorkers = 16
minWorkers = 1
)
var (
// ErrCancelWithNil is an error that mapreduce was cancelled with nil.
ErrCancelWithNil = errors.New("mapreduce cancelled with nil")
// ErrReduceNoOutput is an error that reduce did not output a value.
ErrReduceNoOutput = errors.New("reduce not writing value")
)
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type (
// ForEachFunc is used to do element processing, but no output.
ForEachFunc func(item interface{})
// GenerateFunc is used to let callers send elements into source.
GenerateFunc func(source chan<- interface{})
// MapFunc is used to do element processing and write the output to writer.
MapFunc func(item interface{}, writer Writer)
// MapperFunc is used to do element processing and write the output to writer,
// use cancel func to cancel the processing.
MapperFunc func(item interface{}, writer Writer, cancel func(error))
// ReducerFunc is used to reduce all the mapping output and write to writer,
// use cancel func to cancel the processing.
ReducerFunc func(pipe <-chan interface{}, writer Writer, cancel func(error))
// VoidReducerFunc is used to reduce all the mapping output, but no output.
// Use cancel func to cancel the processing.
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VoidReducerFunc func(pipe <-chan interface{}, cancel func(error))
// Option defines the method to customize the mapreduce.
Option func(opts *mapReduceOptions)
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mapperContext struct {
ctx context.Context
mapper MapFunc
source <-chan interface{}
panicChan *onceChan
collector chan<- interface{}
doneChan <-chan lang.PlaceholderType
workers int
}
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mapReduceOptions struct {
ctx context.Context
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workers int
}
// Writer interface wraps Write method.
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Writer interface {
Write(v interface{})
}
)
// Finish runs fns parallelly, cancelled on any error.
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func Finish(fns ...func() error) error {
if len(fns) == 0 {
return nil
}
return MapReduceVoid(func(source chan<- interface{}) {
for _, fn := range fns {
source <- fn
}
}, func(item interface{}, writer Writer, cancel func(error)) {
fn := item.(func() error)
if err := fn(); err != nil {
cancel(err)
}
}, func(pipe <-chan interface{}, cancel func(error)) {
}, WithWorkers(len(fns)))
}
// FinishVoid runs fns parallelly.
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func FinishVoid(fns ...func()) {
if len(fns) == 0 {
return
}
ForEach(func(source chan<- interface{}) {
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for _, fn := range fns {
source <- fn
}
}, func(item interface{}) {
fn := item.(func())
fn()
}, WithWorkers(len(fns)))
}
// ForEach maps all elements from given generate but no output.
func ForEach(generate GenerateFunc, mapper ForEachFunc, opts ...Option) {
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options := buildOptions(opts...)
panicChan := &onceChan{channel: make(chan interface{})}
source := buildSource(generate, panicChan)
collector := make(chan interface{})
done := make(chan lang.PlaceholderType)
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go executeMappers(mapperContext{
ctx: options.ctx,
mapper: func(item interface{}, _ Writer) {
mapper(item)
},
source: source,
panicChan: panicChan,
collector: collector,
doneChan: done,
workers: options.workers,
})
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for {
select {
case v := <-panicChan.channel:
panic(v)
case _, ok := <-collector:
if !ok {
return
}
}
}
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}
// MapReduce maps all elements generated from given generate func,
// and reduces the output elements with given reducer.
func MapReduce(generate GenerateFunc, mapper MapperFunc, reducer ReducerFunc,
opts ...Option) (interface{}, error) {
panicChan := &onceChan{channel: make(chan interface{})}
source := buildSource(generate, panicChan)
return mapReduceWithPanicChan(source, panicChan, mapper, reducer, opts...)
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}
// MapReduceChan maps all elements from source, and reduce the output elements with given reducer.
func MapReduceChan(source <-chan interface{}, mapper MapperFunc, reducer ReducerFunc,
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opts ...Option) (interface{}, error) {
panicChan := &onceChan{channel: make(chan interface{})}
return mapReduceWithPanicChan(source, panicChan, mapper, reducer, opts...)
}
// MapReduceChan maps all elements from source, and reduce the output elements with given reducer.
func mapReduceWithPanicChan(source <-chan interface{}, panicChan *onceChan, mapper MapperFunc,
reducer ReducerFunc, opts ...Option) (interface{}, error) {
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options := buildOptions(opts...)
// output is used to write the final result
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output := make(chan interface{})
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defer func() {
// reducer can only write once, if more, panic
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for range output {
panic("more than one element written in reducer")
}
}()
// collector is used to collect data from mapper, and consume in reducer
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collector := make(chan interface{}, options.workers)
// if done is closed, all mappers and reducer should stop processing
done := make(chan lang.PlaceholderType)
writer := newGuardedWriter(options.ctx, output, done)
var closeOnce sync.Once
// use atomic.Value to avoid data race
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var retErr errorx.AtomicError
finish := func() {
closeOnce.Do(func() {
close(done)
close(output)
})
}
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cancel := once(func(err error) {
if err != nil {
retErr.Set(err)
} else {
retErr.Set(ErrCancelWithNil)
}
drain(source)
finish()
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})
go func() {
defer func() {
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drain(collector)
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if r := recover(); r != nil {
panicChan.write(r)
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}
finish()
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}()
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reducer(collector, writer, cancel)
}()
go executeMappers(mapperContext{
ctx: options.ctx,
mapper: func(item interface{}, w Writer) {
mapper(item, w, cancel)
},
source: source,
panicChan: panicChan,
collector: collector,
doneChan: done,
workers: options.workers,
})
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select {
case <-options.ctx.Done():
cancel(context.DeadlineExceeded)
return nil, context.DeadlineExceeded
case v := <-panicChan.channel:
panic(v)
case v, ok := <-output:
if err := retErr.Load(); err != nil {
return nil, err
} else if ok {
return v, nil
} else {
return nil, ErrReduceNoOutput
}
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}
}
// MapReduceVoid maps all elements generated from given generate,
// and reduce the output elements with given reducer.
func MapReduceVoid(generate GenerateFunc, mapper MapperFunc, reducer VoidReducerFunc, opts ...Option) error {
_, err := MapReduce(generate, mapper, func(input <-chan interface{}, writer Writer, cancel func(error)) {
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reducer(input, cancel)
}, opts...)
if errors.Is(err, ErrReduceNoOutput) {
return nil
}
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return err
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}
// WithContext customizes a mapreduce processing accepts a given ctx.
func WithContext(ctx context.Context) Option {
return func(opts *mapReduceOptions) {
opts.ctx = ctx
}
}
// WithWorkers customizes a mapreduce processing with given workers.
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func WithWorkers(workers int) Option {
return func(opts *mapReduceOptions) {
if workers < minWorkers {
opts.workers = minWorkers
} else {
opts.workers = workers
}
}
}
func buildOptions(opts ...Option) *mapReduceOptions {
options := newOptions()
for _, opt := range opts {
opt(options)
}
return options
}
func buildSource(generate GenerateFunc, panicChan *onceChan) chan interface{} {
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source := make(chan interface{})
go func() {
defer func() {
if r := recover(); r != nil {
panicChan.write(r)
}
close(source)
}()
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generate(source)
}()
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return source
}
// drain drains the channel.
func drain(channel <-chan interface{}) {
// drain the channel
for range channel {
}
}
func executeMappers(mCtx mapperContext) {
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var wg sync.WaitGroup
defer func() {
wg.Wait()
close(mCtx.collector)
drain(mCtx.source)
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}()
var failed int32
pool := make(chan lang.PlaceholderType, mCtx.workers)
writer := newGuardedWriter(mCtx.ctx, mCtx.collector, mCtx.doneChan)
for atomic.LoadInt32(&failed) == 0 {
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select {
case <-mCtx.ctx.Done():
return
case <-mCtx.doneChan:
return
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case pool <- lang.Placeholder:
item, ok := <-mCtx.source
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if !ok {
<-pool
return
}
wg.Add(1)
go func() {
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defer func() {
if r := recover(); r != nil {
atomic.AddInt32(&failed, 1)
mCtx.panicChan.write(r)
}
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wg.Done()
<-pool
}()
mCtx.mapper(item, writer)
}()
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}
}
}
func newOptions() *mapReduceOptions {
return &mapReduceOptions{
ctx: context.Background(),
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workers: defaultWorkers,
}
}
func once(fn func(error)) func(error) {
once := new(sync.Once)
return func(err error) {
once.Do(func() {
fn(err)
})
}
}
type guardedWriter struct {
ctx context.Context
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channel chan<- interface{}
done <-chan lang.PlaceholderType
}
func newGuardedWriter(ctx context.Context, channel chan<- interface{},
done <-chan lang.PlaceholderType) guardedWriter {
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return guardedWriter{
ctx: ctx,
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channel: channel,
done: done,
}
}
func (gw guardedWriter) Write(v interface{}) {
select {
case <-gw.ctx.Done():
return
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case <-gw.done:
return
default:
gw.channel <- v
}
}
type onceChan struct {
channel chan interface{}
wrote int32
}
func (oc *onceChan) write(val interface{}) {
if atomic.CompareAndSwapInt32(&oc.wrote, 0, 1) {
oc.channel <- val
}
}