// Copyright 2021 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. //go:build go1.13 // +build go1.13 package trie import ( "reflect" "strconv" "testing" ) func TestScope(t *testing.T) { def := Scope{} s0, s1 := newScope(), newScope() if s0 == def || s1 == def { t.Error("newScope() should never be == to the default scope") } if s0 == s1 { t.Errorf("newScope() %q and %q should not be ==", s0, s1) } if s0.id == 0 { t.Error("s0.id is 0") } if s1.id == 0 { t.Error("s1.id is 0") } got := s0.String() if _, err := strconv.Atoi(got); err != nil { t.Errorf("scope{%s}.String() is not an int: got %s with error %s", s0, got, err) } } func TestCollision(t *testing.T) { var x interface{} = 1 var y interface{} = 2 if v := TakeLhs(x, y); v != x { t.Errorf("TakeLhs(%s, %s) got %s. want %s", x, y, v, x) } if v := TakeRhs(x, y); v != y { t.Errorf("TakeRhs(%s, %s) got %s. want %s", x, y, v, y) } } func TestDefault(t *testing.T) { def := Map{} if def.Size() != 0 { t.Errorf("default node has non-0 size %d", def.Size()) } if want, got := (Scope{}), def.Scope(); got != want { t.Errorf("default is in a non default scope (%s) from b (%s)", got, want) } if v, ok := def.Lookup(123); !(v == nil && !ok) { t.Errorf("Scope{}.Lookup() = (%s, %v) not (nil, false)", v, ok) } if !def.Range(func(k uint64, v interface{}) bool { t.Errorf("Scope{}.Range() called it callback on %d:%s", k, v) return true }) { t.Error("Scope{}.Range() always iterates through all elements") } if got, want := def.String(), "{}"; got != want { t.Errorf("Scope{}.String() got %s. want %s", got, want) } b := NewBuilder() if def == b.Empty() { t.Error("Scope{} == to an empty node from a builder") } if b.Clone(def) != b.Empty() { t.Error("b.Clone(Scope{}) should equal b.Empty()") } if !def.DeepEqual(b.Empty()) { t.Error("Scope{}.DeepEqual(b.Empty()) should hold") } } func TestBuilders(t *testing.T) { b0, b1 := NewBuilder(), NewBuilder() if b0.Scope() == b1.Scope() { t.Errorf("builders have the same scope %s", b0.Scope()) } if b0.Empty() == b1.Empty() { t.Errorf("empty nodes from different scopes are disequal") } if !b0.Empty().DeepEqual(b1.Empty()) { t.Errorf("empty nodes from different scopes are not DeepEqual") } clone := b1.Clone(b0.Empty()) if clone != b1.Empty() { t.Errorf("Clone() empty nodes %v != %v", clone, b1.Empty()) } } func TestEmpty(t *testing.T) { b := NewBuilder() e := b.Empty() if e.Size() != 0 { t.Errorf("empty nodes has non-0 size %d", e.Size()) } if e.Scope() != b.Scope() { t.Errorf("b.Empty() is in a different scope (%s) from b (%s)", e.Scope(), b.Scope()) } if v, ok := e.Lookup(123); !(v == nil && !ok) { t.Errorf("empty.Lookup() = (%s, %v) not (nil, false)", v, ok) } if l := e.n.find(123); l != nil { t.Errorf("empty.find(123) got %v. want nil", l) } e.Range(func(k uint64, v interface{}) bool { t.Errorf("empty.Range() called it callback on %d:%s", k, v) return true }) want := "{}" if got := e.String(); got != want { t.Errorf("empty.String(123) got %s. want %s", got, want) } } func TestCreate(t *testing.T) { // The node orders are printed in lexicographic little-endian. b := NewBuilder() for _, c := range []struct { m map[uint64]interface{} want string }{ { map[uint64]interface{}{}, "{}", }, { map[uint64]interface{}{1: "a"}, "{1: a}", }, { map[uint64]interface{}{2: "b", 1: "a"}, "{1: a, 2: b}", }, { map[uint64]interface{}{1: "x", 4: "y", 5: "z"}, "{1: x, 4: y, 5: z}", }, } { m := b.Create(c.m) if got := m.String(); got != c.want { t.Errorf("Create(%v) got %q. want %q ", c.m, got, c.want) } } } func TestElems(t *testing.T) { b := NewBuilder() for _, orig := range []map[uint64]interface{}{ {}, {1: "a"}, {1: "a", 2: "b"}, {1: "x", 4: "y", 5: "z"}, {1: "x", 4: "y", 5: "z", 123: "abc"}, } { m := b.Create(orig) if elems := Elems(m); !reflect.DeepEqual(orig, elems) { t.Errorf("Elems(%v) got %q. want %q ", m, elems, orig) } } } func TestRange(t *testing.T) { b := NewBuilder() m := b.Create(map[uint64]interface{}{1: "x", 3: "y", 5: "z", 6: "stop", 8: "a"}) calls := 0 cb := func(k uint64, v interface{}) bool { t.Logf("visiting (%d, %v)", k, v) calls++ return k%2 != 0 // stop after the first even number. } // The nodes are visited in increasing order. all := m.Range(cb) if all { t.Error("expected to stop early") } want := 4 if calls != want { t.Errorf("# of callbacks (%d) was expected to equal %d (1 + # of evens)", calls, want) } } func TestDeepEqual(t *testing.T) { for _, m := range []map[uint64]interface{}{ {}, {1: "x"}, {1: "x", 2: "y"}, } { l := NewBuilder().Create(m) r := NewBuilder().Create(m) if !l.DeepEqual(r) { t.Errorf("Expect %v to be DeepEqual() to %v", l, r) } } } func TestNotDeepEqual(t *testing.T) { for _, c := range []struct { left map[uint64]interface{} right map[uint64]interface{} }{ { map[uint64]interface{}{1: "x"}, map[uint64]interface{}{}, }, { map[uint64]interface{}{}, map[uint64]interface{}{1: "y"}, }, { map[uint64]interface{}{1: "x"}, map[uint64]interface{}{1: "y"}, }, { map[uint64]interface{}{1: "x"}, map[uint64]interface{}{1: "x", 2: "Y"}, }, { map[uint64]interface{}{1: "x", 2: "Y"}, map[uint64]interface{}{1: "x"}, }, { map[uint64]interface{}{1: "x", 2: "y"}, map[uint64]interface{}{1: "x", 2: "Y"}, }, } { l := NewBuilder().Create(c.left) r := NewBuilder().Create(c.right) if l.DeepEqual(r) { t.Errorf("Expect %v to be !DeepEqual() to %v", l, r) } } } func TestMerge(t *testing.T) { b := NewBuilder() for _, c := range []struct { left map[uint64]interface{} right map[uint64]interface{} want string }{ { map[uint64]interface{}{}, map[uint64]interface{}{}, "{}", }, { map[uint64]interface{}{}, map[uint64]interface{}{1: "a"}, "{1: a}", }, { map[uint64]interface{}{1: "a"}, map[uint64]interface{}{}, "{1: a}", }, { map[uint64]interface{}{1: "a", 2: "b"}, map[uint64]interface{}{}, "{1: a, 2: b}", }, { map[uint64]interface{}{1: "x"}, map[uint64]interface{}{1: "y"}, "{1: x}", // default collision is left }, { map[uint64]interface{}{1: "x"}, map[uint64]interface{}{2: "y"}, "{1: x, 2: y}", }, { map[uint64]interface{}{4: "y", 5: "z"}, map[uint64]interface{}{1: "x"}, "{1: x, 4: y, 5: z}", }, { map[uint64]interface{}{1: "x", 5: "z"}, map[uint64]interface{}{4: "y"}, "{1: x, 4: y, 5: z}", }, { map[uint64]interface{}{1: "x", 4: "y"}, map[uint64]interface{}{5: "z"}, "{1: x, 4: y, 5: z}", }, { map[uint64]interface{}{1: "a", 4: "c"}, map[uint64]interface{}{2: "b", 5: "d"}, "{1: a, 2: b, 4: c, 5: d}", }, { map[uint64]interface{}{1: "a", 4: "c"}, map[uint64]interface{}{2: "b", 5 + 8: "d"}, "{1: a, 2: b, 4: c, 13: d}", }, { map[uint64]interface{}{2: "b", 5 + 8: "d"}, map[uint64]interface{}{1: "a", 4: "c"}, "{1: a, 2: b, 4: c, 13: d}", }, { map[uint64]interface{}{1: "a", 4: "c"}, map[uint64]interface{}{2: "b", 5 + 8: "d"}, "{1: a, 2: b, 4: c, 13: d}", }, { map[uint64]interface{}{2: "b", 5 + 8: "d"}, map[uint64]interface{}{1: "a", 4: "c"}, "{1: a, 2: b, 4: c, 13: d}", }, { map[uint64]interface{}{2: "b", 5 + 8: "d"}, map[uint64]interface{}{2: "", 3: "a"}, "{2: b, 3: a, 13: d}", }, { // crafted for `!prefixesOverlap(p, m, q, n)` left: map[uint64]interface{}{1: "a", 2 + 1: "b"}, right: map[uint64]interface{}{4 + 1: "c", 4 + 2: "d"}, // p: 5, m: 2 q: 1, n: 2 want: "{1: a, 3: b, 5: c, 6: d}", }, { // crafted for `ord(m, n) && !zeroBit(q, m)` left: map[uint64]interface{}{8 + 2 + 1: "a", 16 + 4: "b"}, right: map[uint64]interface{}{16 + 8 + 2 + 1: "c", 16 + 8 + 4 + 2 + 1: "d"}, // left: p: 15, m: 16 // right: q: 27, n: 4 want: "{11: a, 20: b, 27: c, 31: d}", }, { // crafted for `ord(n, m) && !zeroBit(p, n)` // p: 6, m: 1 q: 5, n: 2 left: map[uint64]interface{}{4 + 2: "b", 4 + 2 + 1: "c"}, right: map[uint64]interface{}{4: "a", 4 + 2 + 1: "dropped"}, want: "{4: a, 6: b, 7: c}", }, } { l, r := b.Create(c.left), b.Create(c.right) m := b.Merge(l, r) if got := m.String(); got != c.want { t.Errorf("Merge(%s, %s) got %q. want %q ", l, r, got, c.want) } } } func TestIntersect(t *testing.T) { // Most of the test cases go after specific branches of intersect. b := NewBuilder() for _, c := range []struct { left map[uint64]interface{} right map[uint64]interface{} want string }{ { left: map[uint64]interface{}{10: "a", 39: "b"}, right: map[uint64]interface{}{10: "A", 39: "B", 75: "C"}, want: "{10: a, 39: b}", }, { left: map[uint64]interface{}{10: "a", 39: "b"}, right: map[uint64]interface{}{}, want: "{}", }, { left: map[uint64]interface{}{}, right: map[uint64]interface{}{10: "A", 39: "B", 75: "C"}, want: "{}", }, { // m == n && p == q && left.(*empty) case left: map[uint64]interface{}{4: 1, 6: 3, 10: 8, 15: "on left"}, right: map[uint64]interface{}{0: 8, 7: 6, 11: 0, 15: "on right"}, want: "{15: on left}", }, { // m == n && p == q && right.(*empty) case left: map[uint64]interface{}{0: "on left", 1: 2, 2: 3, 3: 1, 7: 3}, right: map[uint64]interface{}{0: "on right", 5: 1, 6: 8}, want: "{0: on left}", }, { // m == n && p == q && both left and right are not empty left: map[uint64]interface{}{1: "a", 2: "b", 3: "c"}, right: map[uint64]interface{}{0: "A", 1: "B", 2: "C"}, want: "{1: a, 2: b}", }, { // m == n && p == q && both left and right are not empty left: map[uint64]interface{}{1: "a", 2: "b", 3: "c"}, right: map[uint64]interface{}{0: "A", 1: "B", 2: "C"}, want: "{1: a, 2: b}", }, { // !prefixesOverlap(p, m, q, n) // p = 1, m = 2, q = 5, n = 2 left: map[uint64]interface{}{0b001: 1, 0b011: 3}, right: map[uint64]interface{}{0b100: 4, 0b111: 7}, want: "{}", }, { // ord(m, n) && zeroBit(q, m) // p = 3, m = 4, q = 0, n = 1 left: map[uint64]interface{}{0b010: 2, 0b101: 5}, right: map[uint64]interface{}{0b000: 0, 0b001: 1}, want: "{}", }, { // ord(m, n) && !zeroBit(q, m) // p = 29, m = 2, q = 30, n = 1 left: map[uint64]interface{}{ 0b11101: "29", 0b11110: "30", }, right: map[uint64]interface{}{ 0b11110: "30 on right", 0b11111: "31", }, want: "{30: 30}", }, { // ord(n, m) && zeroBit(p, n) // p = 5, m = 2, q = 3, n = 4 left: map[uint64]interface{}{0b000: 0, 0b001: 1}, right: map[uint64]interface{}{0b010: 2, 0b101: 5}, want: "{}", }, { // default case // p = 5, m = 2, q = 3, n = 4 left: map[uint64]interface{}{0b100: 1, 0b110: 3}, right: map[uint64]interface{}{0b000: 8, 0b111: 6}, want: "{}", }, } { l, r := b.Create(c.left), b.Create(c.right) m := b.Intersect(l, r) if got := m.String(); got != c.want { t.Errorf("Intersect(%s, %s) got %q. want %q ", l, r, got, c.want) } } } func TestIntersectWith(t *testing.T) { b := NewBuilder() l := b.Create(map[uint64]interface{}{10: 2.0, 39: 32.0}) r := b.Create(map[uint64]interface{}{10: 6.0, 39: 10.0, 75: 1.0}) prodIfDifferent := func(x interface{}, y interface{}) interface{} { if x, ok := x.(float64); ok { if y, ok := y.(float64); ok { if x == y { return x } return x * y } } return x } m := b.IntersectWith(prodIfDifferent, l, r) want := "{10: %!s(float64=12), 39: %!s(float64=320)}" if got := m.String(); got != want { t.Errorf("IntersectWith(min, %s, %s) got %q. want %q ", l, r, got, want) } } func TestRemove(t *testing.T) { // Most of the test cases go after specific branches of intersect. b := NewBuilder() for _, c := range []struct { m map[uint64]interface{} key uint64 want string }{ {map[uint64]interface{}{}, 10, "{}"}, {map[uint64]interface{}{10: "a"}, 10, "{}"}, {map[uint64]interface{}{39: "b"}, 10, "{39: b}"}, // Branch cases: // !matchPrefix(kp, br.prefix, br.branching) {map[uint64]interface{}{10: "a", 39: "b"}, 128, "{10: a, 39: b}"}, // case: left == br.left && right == br.right {map[uint64]interface{}{10: "a", 39: "b"}, 16, "{10: a, 39: b}"}, // left updated and is empty. {map[uint64]interface{}{10: "a", 39: "b"}, 10, "{39: b}"}, // right updated and is empty. {map[uint64]interface{}{10: "a", 39: "b"}, 39, "{10: a}"}, // final b.mkBranch(...) case. {map[uint64]interface{}{10: "a", 39: "b", 128: "c"}, 39, "{10: a, 128: c}"}, } { pre := b.Create(c.m) post := b.Remove(pre, c.key) if got := post.String(); got != c.want { t.Errorf("Remove(%s, %d) got %q. want %q ", pre, c.key, got, c.want) } } } func TestRescope(t *testing.T) { b := NewBuilder() l := b.Create(map[uint64]interface{}{10: "a", 39: "b"}) r := b.Create(map[uint64]interface{}{10: "A", 39: "B", 75: "C"}) b.Rescope() m := b.Intersect(l, r) if got, want := m.String(), "{10: a, 39: b}"; got != want { t.Errorf("Intersect(%s, %s) got %q. want %q", l, r, got, want) } if m.Scope() == l.Scope() { t.Errorf("m.Scope() = %v should not equal l.Scope() = %v", m.Scope(), l.Scope()) } if m.Scope() == r.Scope() { t.Errorf("m.Scope() = %v should not equal r.Scope() = %v", m.Scope(), r.Scope()) } } func TestSharing(t *testing.T) { b := NewBuilder() l := b.Create(map[uint64]interface{}{0: "a", 1: "b"}) r := b.Create(map[uint64]interface{}{1: "B", 2: "C"}) rleftold := r.n.(*branch).left m := b.Merge(l, r) if mleft := m.n.(*branch).left; mleft != l.n { t.Errorf("unexpected value for left branch of %v. want %v got %v", m, l, mleft) } if rleftnow := r.n.(*branch).left; rleftnow != rleftold { t.Errorf("r.n.(*branch).left was modified by the Merge operation. was %v now %v", rleftold, rleftnow) } }