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keyed_test.go
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package flow_test
import (
"fmt"
"testing"
"time"
"github.com/reugn/go-streams"
ext "github.com/reugn/go-streams/extension"
"github.com/reugn/go-streams/flow"
"github.com/reugn/go-streams/internal/assert"
)
type keyedElement struct {
key int
data string
}
func (e *keyedElement) String() string {
return e.data
}
func newKeyedElement(key int) *keyedElement {
return &keyedElement{
key: key,
data: fmt.Sprint(key),
}
}
func TestKeyed(t *testing.T) {
in := make(chan any, 30)
out := make(chan any, 20)
source := ext.NewChanSource(in)
sink := ext.NewChanSink(out)
keyed := flow.NewKeyed(func(e keyedElement) int { return e.key },
func() streams.Flow {
return flow.NewBatch[keyedElement](4, 10*time.Millisecond)
})
inputValues := values(makeElements(30))
ingestSlice(inputValues, in)
close(in)
go func() {
source.
Via(keyed).
To(sink)
}()
outputValues := readSlice[[]keyedElement](sink.Out)
assert.Equal(t, 20, len(outputValues))
var sum int
for _, batch := range outputValues {
for _, v := range batch {
sum += v.key
}
}
assert.Equal(t, 292, sum)
}
func TestKeyed_Ptr(t *testing.T) {
in := make(chan any, 30)
out := make(chan any, 20)
source := ext.NewChanSource(in)
sink := ext.NewChanSink(out)
keyed := flow.NewKeyed(func(e *keyedElement) int { return e.key },
func() streams.Flow {
return flow.NewBatch[*keyedElement](4, 10*time.Millisecond)
})
assert.NotEqual(t, keyed.Out(), nil)
inputValues := makeElements(30)
ingestSlice(inputValues, in)
close(in)
go func() {
source.
Via(keyed).
Via(flow.NewPassThrough()). // Via coverage
To(sink)
}()
outputValues := readSlice[[]*keyedElement](sink.Out)
fmt.Println(outputValues)
assert.Equal(t, 20, len(outputValues))
var sum int
for _, batch := range outputValues {
for _, v := range batch {
sum += v.key
}
}
assert.Equal(t, 292, sum)
}
func TestKeyed_MultipleOperators(t *testing.T) {
in := make(chan any, 30)
out := make(chan any, 20)
source := ext.NewChanSource(in)
sink := ext.NewChanSink(out)
keyedFlow := flow.NewKeyed(func(e *keyedElement) int { return e.key },
func() streams.Flow {
return flow.NewBatch[*keyedElement](4, 10*time.Millisecond)
},
func() streams.Flow {
return flow.NewMap(func(b []*keyedElement) int {
var sum int
for _, v := range b {
sum += v.key
}
return sum
}, 1)
})
collectFlow := flow.NewTumblingWindow[int](25 * time.Millisecond)
sumFlow := flow.NewMap(sum, 1)
inputValues := makeElements(30)
go ingestSlice(inputValues, in)
go closeDeferred(in, 10*time.Millisecond)
go func() {
source.
Via(keyedFlow).Via(collectFlow).Via(sumFlow).
To(sink)
}()
outputValues := readSlice[int](sink.Out)
assert.Equal(t, 1, len(outputValues))
assert.Equal(t, 292, outputValues[0])
}
func TestKeyed_InvalidArguments(t *testing.T) {
assert.Panics(t, func() {
flow.NewKeyed(func(e *keyedElement) int { return e.key })
})
}
func makeElements(n int) []*keyedElement {
elements := make([]*keyedElement, n)
denominators := []int{3, 7, 10}
outer:
for i := range elements {
for _, d := range denominators {
if i%d == 0 {
elements[i] = newKeyedElement(d)
continue outer
}
}
elements[i] = newKeyedElement(i)
}
fmt.Println(elements)
return elements
}
func values[T any](pointers []*T) []T {
values := make([]T, len(pointers))
for i, ptr := range pointers {
values[i] = *ptr
}
return values
}
func sum(values []int) int {
var result int
for _, v := range values {
result += v
}
return result
}