// Copyright (C) 2014 The Syncthing Authors. // // This Source Code Form is subject to the terms of the Mozilla Public // License, v. 2.0. If a copy of the MPL was not distributed with this file, // You can obtain one at http://mozilla.org/MPL/2.0/. package model import ( "fmt" "reflect" "testing" ) func TestJobQueue(t *testing.T) { // Some random actions q := newJobQueue() q.Push("f1", 0, 0) q.Push("f2", 0, 0) q.Push("f3", 0, 0) q.Push("f4", 0, 0) progress, queued := q.Jobs() if len(progress) != 0 || len(queued) != 4 { t.Fatal("Wrong length") } for i := 1; i < 5; i++ { n, ok := q.Pop() if !ok || n != fmt.Sprintf("f%d", i) { t.Fatal("Wrong element") } progress, queued = q.Jobs() if len(progress) != 1 || len(queued) != 3 { t.Log(progress) t.Log(queued) t.Fatal("Wrong length") } q.Done(n) progress, queued = q.Jobs() if len(progress) != 0 || len(queued) != 3 { t.Fatal("Wrong length", len(progress), len(queued)) } q.Push(n, 0, 0) progress, queued = q.Jobs() if len(progress) != 0 || len(queued) != 4 { t.Fatal("Wrong length") } q.Done("f5") // Does not exist progress, queued = q.Jobs() if len(progress) != 0 || len(queued) != 4 { t.Fatal("Wrong length") } } if len(q.progress) > 0 || len(q.queued) != 4 { t.Fatal("Wrong length") } for i := 4; i > 0; i-- { progress, queued = q.Jobs() if len(progress) != 4-i || len(queued) != i { t.Fatal("Wrong length") } s := fmt.Sprintf("f%d", i) q.BringToFront(s) progress, queued = q.Jobs() if len(progress) != 4-i || len(queued) != i { t.Fatal("Wrong length") } n, ok := q.Pop() if !ok || n != s { t.Fatal("Wrong element") } progress, queued = q.Jobs() if len(progress) != 5-i || len(queued) != i-1 { t.Fatal("Wrong length") } q.Done("f5") // Does not exist progress, queued = q.Jobs() if len(progress) != 5-i || len(queued) != i-1 { t.Fatal("Wrong length") } } _, ok := q.Pop() if len(q.progress) != 4 || ok { t.Fatal("Wrong length") } q.Done("f1") q.Done("f2") q.Done("f3") q.Done("f4") q.Done("f5") // Does not exist _, ok = q.Pop() if len(q.progress) != 0 || ok { t.Fatal("Wrong length") } progress, queued = q.Jobs() if len(progress) != 0 || len(queued) != 0 { t.Fatal("Wrong length") } q.BringToFront("") q.Done("f5") // Does not exist progress, queued = q.Jobs() if len(progress) != 0 || len(queued) != 0 { t.Fatal("Wrong length") } } func TestBringToFront(t *testing.T) { q := newJobQueue() q.Push("f1", 0, 0) q.Push("f2", 0, 0) q.Push("f3", 0, 0) q.Push("f4", 0, 0) _, queued := q.Jobs() if !reflect.DeepEqual(queued, []string{"f1", "f2", "f3", "f4"}) { t.Errorf("Incorrect order %v at start", queued) } q.BringToFront("f1") // corner case: does nothing _, queued = q.Jobs() if !reflect.DeepEqual(queued, []string{"f1", "f2", "f3", "f4"}) { t.Errorf("Incorrect order %v", queued) } q.BringToFront("f3") _, queued = q.Jobs() if !reflect.DeepEqual(queued, []string{"f3", "f1", "f2", "f4"}) { t.Errorf("Incorrect order %v", queued) } q.BringToFront("f2") _, queued = q.Jobs() if !reflect.DeepEqual(queued, []string{"f2", "f3", "f1", "f4"}) { t.Errorf("Incorrect order %v", queued) } q.BringToFront("f4") // corner case: last element _, queued = q.Jobs() if !reflect.DeepEqual(queued, []string{"f4", "f2", "f3", "f1"}) { t.Errorf("Incorrect order %v", queued) } } func TestShuffle(t *testing.T) { q := newJobQueue() q.Push("f1", 0, 0) q.Push("f2", 0, 0) q.Push("f3", 0, 0) q.Push("f4", 0, 0) // This test will fail once in eight million times (1 / (4!)^5) :) for i := 0; i < 5; i++ { q.Shuffle() _, queued := q.Jobs() if l := len(queued); l != 4 { t.Fatalf("Weird length %d returned from Jobs()", l) } t.Logf("%v", queued) if !reflect.DeepEqual(queued, []string{"f1", "f2", "f3", "f4"}) { // The queue was shuffled return } } t.Error("Queue was not shuffled after five attempts.") } func TestSortBySize(t *testing.T) { q := newJobQueue() q.Push("f1", 20, 0) q.Push("f2", 40, 0) q.Push("f3", 30, 0) q.Push("f4", 10, 0) q.SortSmallestFirst() _, actual := q.Jobs() if l := len(actual); l != 4 { t.Fatalf("Weird length %d returned from Jobs()", l) } expected := []string{"f4", "f1", "f3", "f2"} if !reflect.DeepEqual(actual, expected) { t.Errorf("SortSmallestFirst(): %#v != %#v", actual, expected) } q.SortLargestFirst() _, actual = q.Jobs() if l := len(actual); l != 4 { t.Fatalf("Weird length %d returned from Jobs()", l) } expected = []string{"f2", "f3", "f1", "f4"} if !reflect.DeepEqual(actual, expected) { t.Errorf("SortLargestFirst(): %#v != %#v", actual, expected) } } func TestSortByAge(t *testing.T) { q := newJobQueue() q.Push("f1", 0, 20) q.Push("f2", 0, 40) q.Push("f3", 0, 30) q.Push("f4", 0, 10) q.SortOldestFirst() _, actual := q.Jobs() if l := len(actual); l != 4 { t.Fatalf("Weird length %d returned from Jobs()", l) } expected := []string{"f4", "f1", "f3", "f2"} if !reflect.DeepEqual(actual, expected) { t.Errorf("SortOldestFirst(): %#v != %#v", actual, expected) } q.SortNewestFirst() _, actual = q.Jobs() if l := len(actual); l != 4 { t.Fatalf("Weird length %d returned from Jobs()", l) } expected = []string{"f2", "f3", "f1", "f4"} if !reflect.DeepEqual(actual, expected) { t.Errorf("SortNewestFirst(): %#v != %#v", actual, expected) } } func BenchmarkJobQueueBump(b *testing.B) { files := genFiles(b.N) q := newJobQueue() for _, f := range files { q.Push(f.Name, 0, 0) } b.ResetTimer() for i := 0; i < b.N; i++ { q.BringToFront(files[i].Name) } } func BenchmarkJobQueuePushPopDone10k(b *testing.B) { files := genFiles(10000) b.ResetTimer() for i := 0; i < b.N; i++ { q := newJobQueue() for _, f := range files { q.Push(f.Name, 0, 0) } for _ = range files { n, _ := q.Pop() q.Done(n) } } }