tile38/index/index_test.go

package index

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

func randf(min, max float64) float64 {
	return rand.Float64()*(max-min) + min
}

func randPoint() (lat float64, lon float64) {
	// intentionally go out of range.
	return randf(-100, 100), randf(-190, 190)
}

func randRect() (swLat, swLon, neLat, neLon float64) {
	swLat, swLon = randPoint()
	// intentionally go out of range even more.
	neLat = randf(swLat-10, swLat+10)
	neLon = randf(swLon-10, swLon+10)
	return
}

func wp(swLat, swLon, neLat, neLon float64) *FlexItem {
	return &FlexItem{
		MinX: swLon,
		MinY: swLat,
		MaxX: neLon,
		MaxY: neLat,
	}
}

func TestRandomInserts(t *testing.T) {
	rand.Seed(time.Now().UnixNano())
	l := 200000
	tr := New()
	start := time.Now()
	i := 0
	for ; i < l/2; i++ {
		swLat, swLon := randPoint()
		tr.Insert(wp(swLat, swLon, swLat, swLon))
	}
	inspdur := time.Now().Sub(start)

	start = time.Now()
	for ; i < l; i++ {
		swLat, swLon, neLat, neLon := randRect()
		tr.Insert(wp(swLat, swLon, neLat, neLon))
	}
	insrdur := time.Now().Sub(start)
	count := 0

	count = tr.Count()
	if count != l {
		t.Fatalf("count == %d, expect %d", count, l)
	}
	count = 0
	items := make([]Item, 0, l)
	tr.Search(0, -90, -180, 90, 180, func(item Item) bool {
		count++
		items = append(items, item)
		return true
	})
	if count != l {
		t.Fatalf("count == %d, expect %d", count, l)
	}
	start = time.Now()
	count1 := 0
	tr.Search(0, 33, -115, 34, -114, func(item Item) bool {
		count1++
		return true
	})
	searchdur1 := time.Now().Sub(start)

	start = time.Now()
	count2 := 0

	tr.Search(0, 33-180, -115-360, 34-180, -114-360, func(item Item) bool {
		count2++
		return true
	})
	searchdur2 := time.Now().Sub(start)

	start = time.Now()
	count3 := 0
	tr.Search(0, -10, 170, 20, 200, func(item Item) bool {
		count3++
		return true
	})
	searchdur3 := time.Now().Sub(start)

	fmt.Printf("Randomly inserted %d points in %s.\n", l/2, inspdur.String())
	fmt.Printf("Randomly inserted %d rects in %s.\n", l/2, insrdur.String())
	fmt.Printf("Searched %d items in %s.\n", count1, searchdur1.String())
	fmt.Printf("Searched %d items in %s.\n", count2, searchdur2.String())
	fmt.Printf("Searched %d items in %s.\n", count3, searchdur3.String())

	tr.Search(0, -10, 170, 20, 200, func(item Item) bool {
		lat1, lon1, lat2, lon2 := item.Rect()
		if lat1 == lat2 && lon1 == lon2 {
			return false
		}
		return true
	})

	tr.Search(0, -10, 170, 20, 200, func(item Item) bool {
		lat1, lon1, lat2, lon2 := item.Rect()
		if lat1 != lat2 || lon1 != lon2 {
			return false
		}
		return true
	})

	// Remove all of the elements
	for _, item := range items {
		tr.Remove(item)
	}

	count = tr.Count()
	if count != 0 {
		t.Fatalf("count == %d, expect %d", count, 0)
	}

	tr.RemoveAll()
	/*	if tr.getQTreeItem(nil) != nil {
			t.Fatal("getQTreeItem(nil) should return nil")
		}
	*/
	if tr.getRTreeItem(nil) != nil {
		t.Fatal("getRTreeItem(nil) should return nil")
	}
}

func TestMemory(t *testing.T) {
	rand.Seed(0)
	l := 100000
	tr := New()
	for i := 0; i < l; i++ {
		swLat, swLon, neLat, neLon := randRect()
		if rand.Int()%2 == 0 { // one in three chance that the rect is actually a point.
			neLat, neLon = swLat, swLon
		}
		tr.Insert(wp(swLat, swLon, neLat, neLon))
	}
	runtime.GC()
	var m runtime.MemStats
	runtime.ReadMemStats(&m)
	const PtrSize = 32 << uintptr(uint64(^uintptr(0))>>63)
	fmt.Printf("Memory consumption is %d bytes/object. Pointers are %d bytes.\n", int(m.HeapAlloc)/tr.Count(), PtrSize/8)
}

func TestInsertVarious(t *testing.T) {
	var count int
	tr := New()
	item := wp(33, -115, 33, -115)
	tr.Insert(item)
	count = tr.Count()
	if count != 1 {
		t.Fatalf("count = %d, expect 1", count)
	}
	tr.Remove(item)
	count = tr.Count()
	if count != 0 {
		t.Fatalf("count = %d, expect 0", count)
	}
	tr.Insert(item)
	count = tr.Count()
	if count != 1 {
		t.Fatalf("count = %d, expect 1", count)
	}
	found := false
	tr.Search(0, -90, -180, 90, 180, func(item2 Item) bool {
		if item2 == item {
			found = true
		}
		return true
	})
	if !found {
		t.Fatal("did not find item")
	}
}

func BenchmarkInsertRect(b *testing.B) {
	rand.Seed(time.Now().UnixNano())
	tr := New()
	for i := 0; i < b.N; i++ {
		swLat, swLon, neLat, neLon := randRect()
		tr.Insert(wp(swLat, swLon, neLat, neLon))
	}
}

func BenchmarkInsertPoint(b *testing.B) {
	rand.Seed(time.Now().UnixNano())
	tr := New()
	for i := 0; i < b.N; i++ {
		swLat, swLon, _, _ := randRect()
		tr.Insert(wp(swLat, swLon, swLat, swLon))
	}
}

func BenchmarkInsertEither(b *testing.B) {
	rand.Seed(time.Now().UnixNano())
	tr := New()
	for i := 0; i < b.N; i++ {
		swLat, swLon, neLat, neLon := randRect()
		if rand.Int()%3 == 0 { // one in three chance that the rect is actually a point.
			neLat, neLon = swLat, swLon
		}
		tr.Insert(wp(swLat, swLon, neLat, neLon))
	}
}

// func BenchmarkSearchRect(b *testing.B) {
// 	rand.Seed(time.Now().UnixNano())
// 	tr := New()
// 	for i := 0; i < 100000; i++ {
// 		swLat, swLon, neLat, neLon := randRect()
// 		tr.Insert(swLat, swLon, neLat, neLon)
// 	}
// 	b.ResetTimer()
// 	count := 0
// 	//for i := 0; i < b.N; i++ {
// 	tr.Search(0, -180, 90, 180, func(id int) bool {
// 		count++
// 		return true
// 	})
// 	//}
// 	println(count)
// }
first commit 2016-03-05 02:08:16 +03:00			`package index`

			`import (`
			`"fmt"`
			`"math/rand"`
			`"runtime"`
			`"testing"`
			`"time"`
			`)`

			`func randf(min, max float64) float64 {`
			`return rand.Float64()*(max-min) + min`
			`}`

			`func randPoint() (lat float64, lon float64) {`
added coverage 2016-04-03 17:59:23 +03:00			`// intentionally go out of range.`
			`return randf(-100, 100), randf(-190, 190)`
first commit 2016-03-05 02:08:16 +03:00			`}`

			`func randRect() (swLat, swLon, neLat, neLon float64) {`
			`swLat, swLon = randPoint()`
added coverage 2016-04-03 17:59:23 +03:00			`// intentionally go out of range even more.`
first commit 2016-03-05 02:08:16 +03:00			`neLat = randf(swLat-10, swLat+10)`
			`neLon = randf(swLon-10, swLon+10)`
			`return`
			`}`

			`func wp(swLat, swLon, neLat, neLon float64) *FlexItem {`
			`return &FlexItem{`
			`MinX: swLon,`
			`MinY: swLat,`
			`MaxX: neLon,`
			`MaxY: neLat,`
			`}`
			`}`

			`func TestRandomInserts(t *testing.T) {`
added coverage 2016-04-03 17:59:23 +03:00			`rand.Seed(time.Now().UnixNano())`
			`l := 200000`
first commit 2016-03-05 02:08:16 +03:00			`tr := New()`
			`start := time.Now()`
			`i := 0`
			`for ; i < l/2; i++ {`
			`swLat, swLon := randPoint()`
			`tr.Insert(wp(swLat, swLon, swLat, swLon))`
			`}`
			`inspdur := time.Now().Sub(start)`

			`start = time.Now()`
			`for ; i < l; i++ {`
			`swLat, swLon, neLat, neLon := randRect()`
			`tr.Insert(wp(swLat, swLon, neLat, neLon))`
			`}`
			`insrdur := time.Now().Sub(start)`
added coverage 2016-04-03 17:59:23 +03:00			`count := 0`
first commit 2016-03-05 02:08:16 +03:00
added coverage 2016-04-03 17:59:23 +03:00			`count = tr.Count()`
first commit 2016-03-05 02:08:16 +03:00			`if count != l {`
			`t.Fatalf("count == %d, expect %d", count, l)`
			`}`
			`count = 0`
added coverage 2016-04-03 17:59:23 +03:00			`items := make([]Item, 0, l)`
first commit 2016-03-05 02:08:16 +03:00			`tr.Search(0, -90, -180, 90, 180, func(item Item) bool {`
			`count++`
added coverage 2016-04-03 17:59:23 +03:00			`items = append(items, item)`
first commit 2016-03-05 02:08:16 +03:00			`return true`
			`})`
			`if count != l {`
			`t.Fatalf("count == %d, expect %d", count, l)`
			`}`
			`start = time.Now()`
added coverage 2016-04-03 17:59:23 +03:00			`count1 := 0`
first commit 2016-03-05 02:08:16 +03:00			`tr.Search(0, 33, -115, 34, -114, func(item Item) bool {`
added coverage 2016-04-03 17:59:23 +03:00			`count1++`
			`return true`
			`})`
			`searchdur1 := time.Now().Sub(start)`

			`start = time.Now()`
			`count2 := 0`

			`tr.Search(0, 33-180, -115-360, 34-180, -114-360, func(item Item) bool {`
			`count2++`
			`return true`
			`})`
			`searchdur2 := time.Now().Sub(start)`

			`start = time.Now()`
			`count3 := 0`
			`tr.Search(0, -10, 170, 20, 200, func(item Item) bool {`
			`count3++`
first commit 2016-03-05 02:08:16 +03:00			`return true`
			`})`
added coverage 2016-04-03 17:59:23 +03:00			`searchdur3 := time.Now().Sub(start)`
first commit 2016-03-05 02:08:16 +03:00
			`fmt.Printf("Randomly inserted %d points in %s.\n", l/2, inspdur.String())`
			`fmt.Printf("Randomly inserted %d rects in %s.\n", l/2, insrdur.String())`
added coverage 2016-04-03 17:59:23 +03:00			`fmt.Printf("Searched %d items in %s.\n", count1, searchdur1.String())`
			`fmt.Printf("Searched %d items in %s.\n", count2, searchdur2.String())`
			`fmt.Printf("Searched %d items in %s.\n", count3, searchdur3.String())`

			`tr.Search(0, -10, 170, 20, 200, func(item Item) bool {`
			`lat1, lon1, lat2, lon2 := item.Rect()`
			`if lat1 == lat2 && lon1 == lon2 {`
			`return false`
			`}`
			`return true`
			`})`

			`tr.Search(0, -10, 170, 20, 200, func(item Item) bool {`
			`lat1, lon1, lat2, lon2 := item.Rect()`
			`if lat1 != lat2 \|\| lon1 != lon2 {`
			`return false`
			`}`
			`return true`
			`})`

			`// Remove all of the elements`
			`for _, item := range items {`
			`tr.Remove(item)`
			`}`

			`count = tr.Count()`
			`if count != 0 {`
			`t.Fatalf("count == %d, expect %d", count, 0)`
			`}`

			`tr.RemoveAll()`
removed quadtree 2016-08-19 17:47:39 +03:00			`/* if tr.getQTreeItem(nil) != nil {`
			`t.Fatal("getQTreeItem(nil) should return nil")`
			`}`
			`*/`
added coverage 2016-04-03 17:59:23 +03:00			`if tr.getRTreeItem(nil) != nil {`
			`t.Fatal("getRTreeItem(nil) should return nil")`
			`}`
first commit 2016-03-05 02:08:16 +03:00			`}`

			`func TestMemory(t *testing.T) {`
			`rand.Seed(0)`
			`l := 100000`
			`tr := New()`
			`for i := 0; i < l; i++ {`
			`swLat, swLon, neLat, neLon := randRect()`
			`if rand.Int()%2 == 0 { // one in three chance that the rect is actually a point.`
			`neLat, neLon = swLat, swLon`
			`}`
			`tr.Insert(wp(swLat, swLon, neLat, neLon))`
			`}`
			`runtime.GC()`
			`var m runtime.MemStats`
			`runtime.ReadMemStats(&m)`
			`const PtrSize = 32 << uintptr(uint64(^uintptr(0))>>63)`
			`fmt.Printf("Memory consumption is %d bytes/object. Pointers are %d bytes.\n", int(m.HeapAlloc)/tr.Count(), PtrSize/8)`
			`}`

			`func TestInsertVarious(t *testing.T) {`
			`var count int`
			`tr := New()`
			`item := wp(33, -115, 33, -115)`
			`tr.Insert(item)`
			`count = tr.Count()`
			`if count != 1 {`
			`t.Fatalf("count = %d, expect 1", count)`
			`}`
			`tr.Remove(item)`
			`count = tr.Count()`
			`if count != 0 {`
			`t.Fatalf("count = %d, expect 0", count)`
			`}`
			`tr.Insert(item)`
			`count = tr.Count()`
			`if count != 1 {`
			`t.Fatalf("count = %d, expect 1", count)`
			`}`
			`found := false`
			`tr.Search(0, -90, -180, 90, 180, func(item2 Item) bool {`
			`if item2 == item {`
			`found = true`
			`}`
			`return true`
			`})`
			`if !found {`
			`t.Fatal("did not find item")`
			`}`
			`}`

			`func BenchmarkInsertRect(b *testing.B) {`
			`rand.Seed(time.Now().UnixNano())`
			`tr := New()`
			`for i := 0; i < b.N; i++ {`
			`swLat, swLon, neLat, neLon := randRect()`
			`tr.Insert(wp(swLat, swLon, neLat, neLon))`
			`}`
			`}`

			`func BenchmarkInsertPoint(b *testing.B) {`
			`rand.Seed(time.Now().UnixNano())`
			`tr := New()`
			`for i := 0; i < b.N; i++ {`
			`swLat, swLon, _, _ := randRect()`
			`tr.Insert(wp(swLat, swLon, swLat, swLon))`
			`}`
			`}`

			`func BenchmarkInsertEither(b *testing.B) {`
			`rand.Seed(time.Now().UnixNano())`
			`tr := New()`
			`for i := 0; i < b.N; i++ {`
			`swLat, swLon, neLat, neLon := randRect()`
			`if rand.Int()%3 == 0 { // one in three chance that the rect is actually a point.`
			`neLat, neLon = swLat, swLon`
			`}`
			`tr.Insert(wp(swLat, swLon, neLat, neLon))`
			`}`
			`}`

			`// func BenchmarkSearchRect(b *testing.B) {`
			`// rand.Seed(time.Now().UnixNano())`
			`// tr := New()`
			`// for i := 0; i < 100000; i++ {`
			`// swLat, swLon, neLat, neLon := randRect()`
			`// tr.Insert(swLat, swLon, neLat, neLon)`
			`// }`
			`// b.ResetTimer()`
			`// count := 0`
			`// //for i := 0; i < b.N; i++ {`
			`// tr.Search(0, -180, 90, 180, func(id int) bool {`
			`// count++`
			`// return true`
			`// })`
			`// //}`
			`// println(count)`
			`// }`