package ptrrtree import ( "fmt" "math/rand" "sort" "strconv" "strings" "testing" "time" "unsafe" ) type tBox struct { min [dims]float64 max [dims]float64 } var boxes []*tBox var points []*tBox func init() { seed := time.Now().UnixNano() // seed = 1532132365683340889 println("seed:", seed) rand.Seed(seed) } func randPoints(N int) []*tBox { boxes := make([]*tBox, N) for i := 0; i < N; i++ { boxes[i] = new(tBox) boxes[i].min[0] = rand.Float64()*360 - 180 boxes[i].min[1] = rand.Float64()*180 - 90 for j := 2; j < dims; j++ { boxes[i].min[j] = rand.Float64() } boxes[i].max = boxes[i].min } return boxes } func randBoxes(N int) []*tBox { boxes := make([]*tBox, N) for i := 0; i < N; i++ { boxes[i] = new(tBox) boxes[i].min[0] = rand.Float64()*360 - 180 boxes[i].min[1] = rand.Float64()*180 - 90 for j := 2; j < dims; j++ { boxes[i].min[j] = rand.Float64() * 100 } boxes[i].max[0] = boxes[i].min[0] + rand.Float64() boxes[i].max[1] = boxes[i].min[1] + rand.Float64() for j := 2; j < dims; j++ { boxes[i].max[j] = boxes[i].min[j] + rand.Float64() } if boxes[i].max[0] > 180 || boxes[i].max[1] > 90 { i-- } } return boxes } func sortBoxes(boxes []*tBox) { sort.Slice(boxes, func(i, j int) bool { for k := 0; k < len(boxes[i].min); k++ { if boxes[i].min[k] < boxes[j].min[k] { return true } if boxes[i].min[k] > boxes[j].min[k] { return false } if boxes[i].max[k] < boxes[j].max[k] { return true } if boxes[i].max[k] > boxes[j].max[k] { return false } } return i < j }) } func sortBoxesNearby(boxes []tBox, min, max []float64) { sort.Slice(boxes, func(i, j int) bool { return testBoxDist(boxes[i].min[:], boxes[i].max[:], min, max) < testBoxDist(boxes[j].min[:], boxes[j].max[:], min, max) }) } func testBoxDist(amin, amax, bmin, bmax []float64) float64 { var dist float64 for i := 0; i < len(amin); i++ { var min, max float64 if amin[i] > bmin[i] { min = amin[i] } else { min = bmin[i] } if amax[i] < bmax[i] { max = amax[i] } else { max = bmax[i] } squared := min - max if squared > 0 { dist += squared * squared } } return dist } func testBoxesVarious(t *testing.T, boxes []*tBox, label string) { N := len(boxes) var tr BoxTree // N := 10000 // boxes := randPoints(N) ///////////////////////////////////////// // insert ///////////////////////////////////////// for i := 0; i < N; i++ { tr.Insert(boxes[i].min[:], boxes[i].max[:], unsafe.Pointer(boxes[i])) } if tr.Count() != N { t.Fatalf("expected %d, got %d", N, tr.Count()) } // area := tr.TotalOverlapArea() // fmt.Printf("overlap: %.0f, %.1f/item\n", area, area/float64(N)) // ioutil.WriteFile(label+".svg", []byte(rtreetools.SVG(&tr)), 0600) ///////////////////////////////////////// // scan all items and count one-by-one ///////////////////////////////////////// var count int tr.Scan(func(min, max []float64, value unsafe.Pointer) bool { count++ return true }) if count != N { t.Fatalf("expected %d, got %d", N, count) } ///////////////////////////////////////// // check every point for correctness ///////////////////////////////////////// var tboxes1 []*tBox tr.Scan(func(min, max []float64, value unsafe.Pointer) bool { tboxes1 = append(tboxes1, (*tBox)(value)) return true }) tboxes2 := make([]*tBox, len(boxes)) copy(tboxes2, boxes) sortBoxes(tboxes1) sortBoxes(tboxes2) for i := 0; i < len(tboxes1); i++ { if tboxes1[i] != tboxes2[i] { t.Fatalf("expected '%v', got '%v'", tboxes2[i], tboxes1[i]) } } ///////////////////////////////////////// // search for each item one-by-one ///////////////////////////////////////// for i := 0; i < N; i++ { var found bool tr.Search(boxes[i].min[:], boxes[i].max[:], func(min, max []float64, value unsafe.Pointer) bool { if value == unsafe.Pointer(boxes[i]) { found = true return false } return true }) if !found { t.Fatalf("did not find item %d", i) } } centerMin, centerMax := []float64{-18, -9}, []float64{18, 9} for j := 2; j < dims; j++ { centerMin = append(centerMin, -10) centerMax = append(centerMax, 10) } ///////////////////////////////////////// // search for 10% of the items ///////////////////////////////////////// for i := 0; i < N/5; i++ { var count int tr.Search(centerMin, centerMax, func(min, max []float64, value unsafe.Pointer) bool { count++ return true }, ) } ///////////////////////////////////////// // delete every other item ///////////////////////////////////////// for i := 0; i < N/2; i++ { j := i * 2 tr.Delete(boxes[j].min[:], boxes[j].max[:], unsafe.Pointer(boxes[j])) } ///////////////////////////////////////// // count all items. should be half of N ///////////////////////////////////////// count = 0 tr.Scan(func(min, max []float64, value unsafe.Pointer) bool { count++ return true }) if count != N/2 { t.Fatalf("expected %d, got %d", N/2, count) } /////////////////////////////////////////////////// // reinsert every other item, but in random order /////////////////////////////////////////////////// var ij []int for i := 0; i < N/2; i++ { j := i * 2 ij = append(ij, j) } rand.Shuffle(len(ij), func(i, j int) { ij[i], ij[j] = ij[j], ij[i] }) for i := 0; i < N/2; i++ { j := ij[i] tr.Insert(boxes[j].min[:], boxes[j].max[:], unsafe.Pointer(boxes[j])) } ////////////////////////////////////////////////////// // replace each item with an item that is very close ////////////////////////////////////////////////////// var nboxes = make([]*tBox, N) for i := 0; i < N; i++ { nboxes[i] = new(tBox) for j := 0; j < len(boxes[i].min); j++ { nboxes[i].min[j] = boxes[i].min[j] + (rand.Float64() - 0.5) if boxes[i].min == boxes[i].max { nboxes[i].max[j] = nboxes[i].min[j] } else { nboxes[i].max[j] = boxes[i].max[j] + (rand.Float64() - 0.5) } } } for i := 0; i < N; i++ { tr.Insert(nboxes[i].min[:], nboxes[i].max[:], unsafe.Pointer(nboxes[i])) tr.Delete(boxes[i].min[:], boxes[i].max[:], unsafe.Pointer(boxes[i])) } if tr.Count() != N { t.Fatalf("expected %d, got %d", N, tr.Count()) } // area = tr.TotalOverlapArea() // fmt.Fprintf(wr, "overlap: %.0f, %.1f/item\n", area, area/float64(N)) ///////////////////////////////////////// // check every point for correctness ///////////////////////////////////////// tboxes1 = nil tr.Scan(func(min, max []float64, value unsafe.Pointer) bool { tboxes1 = append(tboxes1, (*tBox)(value)) return true }) tboxes2 = make([]*tBox, len(nboxes)) copy(tboxes2, nboxes) sortBoxes(tboxes1) sortBoxes(tboxes2) for i := 0; i < len(tboxes1); i++ { if tboxes1[i] != tboxes2[i] { t.Fatalf("expected '%v', got '%v'", tboxes2[i], tboxes1[i]) } } ///////////////////////////////////////// // search for 10% of the items ///////////////////////////////////////// for i := 0; i < N/5; i++ { var count int tr.Search(centerMin, centerMax, func(min, max []float64, value unsafe.Pointer) bool { count++ return true }, ) } var boxes3 []*tBox tr.Nearby(centerMin, centerMax, func(min, max []float64, value unsafe.Pointer) bool { boxes3 = append(boxes3, (*tBox)(value)) return true }, ) if len(boxes3) != len(nboxes) { t.Fatalf("expected %d, got %d", len(nboxes), len(boxes3)) } if len(boxes3) != tr.Count() { t.Fatalf("expected %d, got %d", tr.Count(), len(boxes3)) } var ldist float64 for i, box := range boxes3 { dist := testBoxDist(box.min[:], box.max[:], centerMin, centerMax) if i > 0 && dist < ldist { t.Fatalf("out of order") } ldist = dist } } func TestRandomBoxes(t *testing.T) { testBoxesVarious(t, randBoxes(10000), "boxes") } func TestRandomPoints(t *testing.T) { testBoxesVarious(t, randPoints(10000), "points") } func (r *box) boxstr() string { var b []byte b = append(b, '[', '[') for i := 0; i < len(r.min); i++ { if i != 0 { b = append(b, ' ') } b = strconv.AppendFloat(b, r.min[i], 'f', -1, 64) } b = append(b, ']', '[') for i := 0; i < len(r.max); i++ { if i != 0 { b = append(b, ' ') } b = strconv.AppendFloat(b, r.max[i], 'f', -1, 64) } b = append(b, ']', ']') return string(b) } func (r *box) print(height, indent int) { fmt.Printf("%s%s", strings.Repeat(" ", indent), r.boxstr()) if height == 0 { fmt.Printf("\t'%v'\n", r.data) } else { fmt.Printf("\n") for i := 0; i < (*node)(r.data).count; i++ { (*node)(r.data).boxes[i].print(height-1, indent+1) } } } func (tr BoxTree) print() { if tr.root.data == nil { println("EMPTY TREE") return } tr.root.print(tr.height+1, 0) } func TestZeroPoints(t *testing.T) { N := 10000 var tr BoxTree pt := make([]float64, dims) for i := 0; i < N; i++ { tr.Insert(pt, nil, nil) } } func BenchmarkRandomInsert(b *testing.B) { var tr BoxTree boxes := randBoxes(b.N) b.ResetTimer() for i := 0; i < b.N; i++ { tr.Insert(boxes[i].min[:], boxes[i].max[:], nil) } }