package clist
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import (
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"fmt"
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"math/rand"
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"runtime"
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"sync/atomic"
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"testing"
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"time"
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)
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func TestSmall(t *testing.T) {
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l := New()
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el1 := l.PushBack(1)
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el2 := l.PushBack(2)
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el3 := l.PushBack(3)
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if l.Len() != 3 {
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t.Error("Expected len 3, got ", l.Len())
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}
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//fmt.Printf("%p %v\n", el1, el1)
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//fmt.Printf("%p %v\n", el2, el2)
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//fmt.Printf("%p %v\n", el3, el3)
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r1 := l.Remove(el1)
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//fmt.Printf("%p %v\n", el1, el1)
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//fmt.Printf("%p %v\n", el2, el2)
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//fmt.Printf("%p %v\n", el3, el3)
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r2 := l.Remove(el2)
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//fmt.Printf("%p %v\n", el1, el1)
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//fmt.Printf("%p %v\n", el2, el2)
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//fmt.Printf("%p %v\n", el3, el3)
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r3 := l.Remove(el3)
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if r1 != 1 {
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t.Error("Expected 1, got ", r1)
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}
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if r2 != 2 {
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t.Error("Expected 2, got ", r2)
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}
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if r3 != 3 {
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t.Error("Expected 3, got ", r3)
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}
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if l.Len() != 0 {
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t.Error("Expected len 0, got ", l.Len())
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}
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}
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/*
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This test is quite hacky because it relies on SetFinalizer
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which isn't guaranteed to run at all.
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*/
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// nolint: megacheck
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func _TestGCFifo(t *testing.T) {
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const numElements = 1000000
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l := New()
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gcCount := new(uint64)
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// SetFinalizer doesn't work well with circular structures,
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// so we construct a trivial non-circular structure to
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// track.
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type value struct {
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Int int
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}
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done := make(chan struct{})
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for i := 0; i < numElements; i++ {
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v := new(value)
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v.Int = i
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l.PushBack(v)
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runtime.SetFinalizer(v, func(v *value) {
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atomic.AddUint64(gcCount, 1)
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})
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}
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for el := l.Front(); el != nil; {
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l.Remove(el)
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//oldEl := el
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el = el.Next()
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//oldEl.DetachPrev()
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//oldEl.DetachNext()
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}
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runtime.GC()
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time.Sleep(time.Second * 3)
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runtime.GC()
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time.Sleep(time.Second * 3)
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_ = done
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if *gcCount != numElements {
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t.Errorf("Expected gcCount to be %v, got %v", numElements,
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*gcCount)
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}
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}
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/*
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This test is quite hacky because it relies on SetFinalizer
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which isn't guaranteed to run at all.
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*/
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// nolint: megacheck
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func _TestGCRandom(t *testing.T) {
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const numElements = 1000000
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l := New()
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gcCount := 0
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// SetFinalizer doesn't work well with circular structures,
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// so we construct a trivial non-circular structure to
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// track.
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type value struct {
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Int int
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}
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for i := 0; i < numElements; i++ {
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v := new(value)
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v.Int = i
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l.PushBack(v)
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runtime.SetFinalizer(v, func(v *value) {
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gcCount += 1
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})
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}
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els := make([]*CElement, 0, numElements)
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for el := l.Front(); el != nil; el = el.Next() {
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els = append(els, el)
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}
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for _, i := range rand.Perm(numElements) {
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el := els[i]
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l.Remove(el)
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_ = el.Next()
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}
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runtime.GC()
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time.Sleep(time.Second * 3)
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if gcCount != numElements {
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t.Errorf("Expected gcCount to be %v, got %v", numElements,
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gcCount)
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}
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}
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func TestScanRightDeleteRandom(t *testing.T) {
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const numElements = 10000
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const numTimes = 1000
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const numScanners = 10
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l := New()
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stop := make(chan struct{})
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els := make([]*CElement, numElements)
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for i := 0; i < numElements; i++ {
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el := l.PushBack(i)
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els[i] = el
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}
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// Launch scanner routines that will rapidly iterate over elements.
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for i := 0; i < numScanners; i++ {
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go func(scannerID int) {
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var el *CElement
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restartCounter := 0
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counter := 0
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FOR_LOOP:
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for {
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select {
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case <-stop:
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fmt.Println("stopped")
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break FOR_LOOP
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default:
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}
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if el == nil {
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el = l.FrontWait()
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restartCounter += 1
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}
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el = el.Next()
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counter += 1
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}
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fmt.Printf("Scanner %v restartCounter: %v counter: %v\n", scannerID, restartCounter, counter)
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}(i)
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}
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// Remove an element, push back an element.
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for i := 0; i < numTimes; i++ {
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// Pick an element to remove
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rmElIdx := rand.Intn(len(els))
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rmEl := els[rmElIdx]
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// Remove it
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l.Remove(rmEl)
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//fmt.Print(".")
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// Insert a new element
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newEl := l.PushBack(-1*i - 1)
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els[rmElIdx] = newEl
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if i%100000 == 0 {
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fmt.Printf("Pushed %vK elements so far...\n", i/1000)
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}
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}
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// Stop scanners
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close(stop)
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time.Sleep(time.Second * 1)
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// And remove all the elements.
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for el := l.Front(); el != nil; el = el.Next() {
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l.Remove(el)
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}
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if l.Len() != 0 {
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t.Fatal("Failed to remove all elements from CList")
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}
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}
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