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391 lines
12 KiB
391 lines
12 KiB
4 months ago
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// Copyright 2020 Google Inc. All rights reserved.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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package android
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import (
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"fmt"
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"reflect"
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"strconv"
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"strings"
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"testing"
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)
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func ExampleDepSet_ToList_postordered() {
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a := NewDepSetBuilder(POSTORDER).Direct(PathForTesting("a")).Build()
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b := NewDepSetBuilder(POSTORDER).Direct(PathForTesting("b")).Transitive(a).Build()
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c := NewDepSetBuilder(POSTORDER).Direct(PathForTesting("c")).Transitive(a).Build()
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d := NewDepSetBuilder(POSTORDER).Direct(PathForTesting("d")).Transitive(b, c).Build()
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fmt.Println(d.ToList().Strings())
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// Output: [a b c d]
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}
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func ExampleDepSet_ToList_preordered() {
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a := NewDepSetBuilder(PREORDER).Direct(PathForTesting("a")).Build()
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b := NewDepSetBuilder(PREORDER).Direct(PathForTesting("b")).Transitive(a).Build()
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c := NewDepSetBuilder(PREORDER).Direct(PathForTesting("c")).Transitive(a).Build()
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d := NewDepSetBuilder(PREORDER).Direct(PathForTesting("d")).Transitive(b, c).Build()
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fmt.Println(d.ToList().Strings())
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// Output: [d b a c]
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}
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func ExampleDepSet_ToList_topological() {
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a := NewDepSetBuilder(TOPOLOGICAL).Direct(PathForTesting("a")).Build()
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b := NewDepSetBuilder(TOPOLOGICAL).Direct(PathForTesting("b")).Transitive(a).Build()
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c := NewDepSetBuilder(TOPOLOGICAL).Direct(PathForTesting("c")).Transitive(a).Build()
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d := NewDepSetBuilder(TOPOLOGICAL).Direct(PathForTesting("d")).Transitive(b, c).Build()
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fmt.Println(d.ToList().Strings())
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// Output: [d b c a]
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}
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func ExampleDepSet_ToSortedList() {
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a := NewDepSetBuilder(POSTORDER).Direct(PathForTesting("a")).Build()
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b := NewDepSetBuilder(POSTORDER).Direct(PathForTesting("b")).Transitive(a).Build()
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c := NewDepSetBuilder(POSTORDER).Direct(PathForTesting("c")).Transitive(a).Build()
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d := NewDepSetBuilder(POSTORDER).Direct(PathForTesting("d")).Transitive(b, c).Build()
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fmt.Println(d.ToSortedList().Strings())
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// Output: [a b c d]
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}
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// Tests based on Bazel's ExpanderTestBase.java to ensure compatibility
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// https://github.com/bazelbuild/bazel/blob/master/src/test/java/com/google/devtools/build/lib/collect/nestedset/ExpanderTestBase.java
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func TestDepSet(t *testing.T) {
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a := PathForTesting("a")
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b := PathForTesting("b")
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c := PathForTesting("c")
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c2 := PathForTesting("c2")
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d := PathForTesting("d")
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e := PathForTesting("e")
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tests := []struct {
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name string
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depSet func(t *testing.T, order DepSetOrder) *DepSet
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postorder, preorder, topological []string
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}{
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{
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name: "simple",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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return NewDepSet(order, Paths{c, a, b}, nil)
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},
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postorder: []string{"c", "a", "b"},
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preorder: []string{"c", "a", "b"},
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topological: []string{"c", "a", "b"},
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},
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{
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name: "simpleNoDuplicates",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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return NewDepSet(order, Paths{c, a, a, a, b}, nil)
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},
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postorder: []string{"c", "a", "b"},
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preorder: []string{"c", "a", "b"},
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topological: []string{"c", "a", "b"},
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},
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{
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name: "nesting",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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subset := NewDepSet(order, Paths{c, a, e}, nil)
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return NewDepSet(order, Paths{b, d}, []*DepSet{subset})
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},
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postorder: []string{"c", "a", "e", "b", "d"},
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preorder: []string{"b", "d", "c", "a", "e"},
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topological: []string{"b", "d", "c", "a", "e"},
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},
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{
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name: "builderReuse",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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assertEquals := func(t *testing.T, w, g Paths) {
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t.Helper()
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if !reflect.DeepEqual(w, g) {
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t.Errorf("want %q, got %q", w, g)
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}
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}
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builder := NewDepSetBuilder(order)
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assertEquals(t, nil, builder.Build().ToList())
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builder.Direct(b)
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assertEquals(t, Paths{b}, builder.Build().ToList())
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builder.Direct(d)
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assertEquals(t, Paths{b, d}, builder.Build().ToList())
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child := NewDepSetBuilder(order).Direct(c, a, e).Build()
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builder.Transitive(child)
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return builder.Build()
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},
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postorder: []string{"c", "a", "e", "b", "d"},
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preorder: []string{"b", "d", "c", "a", "e"},
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topological: []string{"b", "d", "c", "a", "e"},
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},
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{
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name: "builderChaining",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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return NewDepSetBuilder(order).Direct(b).Direct(d).
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Transitive(NewDepSetBuilder(order).Direct(c, a, e).Build()).Build()
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},
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postorder: []string{"c", "a", "e", "b", "d"},
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preorder: []string{"b", "d", "c", "a", "e"},
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topological: []string{"b", "d", "c", "a", "e"},
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},
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{
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name: "transitiveDepsHandledSeparately",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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subset := NewDepSetBuilder(order).Direct(c, a, e).Build()
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builder := NewDepSetBuilder(order)
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// The fact that we add the transitive subset between the Direct(b) and Direct(d)
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// calls should not change the result.
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builder.Direct(b)
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builder.Transitive(subset)
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builder.Direct(d)
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return builder.Build()
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},
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postorder: []string{"c", "a", "e", "b", "d"},
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preorder: []string{"b", "d", "c", "a", "e"},
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topological: []string{"b", "d", "c", "a", "e"},
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},
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{
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name: "nestingNoDuplicates",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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subset := NewDepSetBuilder(order).Direct(c, a, e).Build()
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return NewDepSetBuilder(order).Direct(b, d, e).Transitive(subset).Build()
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},
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postorder: []string{"c", "a", "e", "b", "d"},
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preorder: []string{"b", "d", "e", "c", "a"},
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topological: []string{"b", "d", "c", "a", "e"},
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},
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{
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name: "chain",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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c := NewDepSetBuilder(order).Direct(c).Build()
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b := NewDepSetBuilder(order).Direct(b).Transitive(c).Build()
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a := NewDepSetBuilder(order).Direct(a).Transitive(b).Build()
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return a
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},
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postorder: []string{"c", "b", "a"},
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preorder: []string{"a", "b", "c"},
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topological: []string{"a", "b", "c"},
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},
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{
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name: "diamond",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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d := NewDepSetBuilder(order).Direct(d).Build()
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c := NewDepSetBuilder(order).Direct(c).Transitive(d).Build()
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b := NewDepSetBuilder(order).Direct(b).Transitive(d).Build()
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a := NewDepSetBuilder(order).Direct(a).Transitive(b).Transitive(c).Build()
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return a
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},
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postorder: []string{"d", "b", "c", "a"},
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preorder: []string{"a", "b", "d", "c"},
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topological: []string{"a", "b", "c", "d"},
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},
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{
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name: "extendedDiamond",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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d := NewDepSetBuilder(order).Direct(d).Build()
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e := NewDepSetBuilder(order).Direct(e).Build()
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b := NewDepSetBuilder(order).Direct(b).Transitive(d).Transitive(e).Build()
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c := NewDepSetBuilder(order).Direct(c).Transitive(e).Transitive(d).Build()
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a := NewDepSetBuilder(order).Direct(a).Transitive(b).Transitive(c).Build()
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return a
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},
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postorder: []string{"d", "e", "b", "c", "a"},
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preorder: []string{"a", "b", "d", "e", "c"},
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topological: []string{"a", "b", "c", "e", "d"},
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},
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{
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name: "extendedDiamondRightArm",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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d := NewDepSetBuilder(order).Direct(d).Build()
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e := NewDepSetBuilder(order).Direct(e).Build()
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b := NewDepSetBuilder(order).Direct(b).Transitive(d).Transitive(e).Build()
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c2 := NewDepSetBuilder(order).Direct(c2).Transitive(e).Transitive(d).Build()
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c := NewDepSetBuilder(order).Direct(c).Transitive(c2).Build()
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a := NewDepSetBuilder(order).Direct(a).Transitive(b).Transitive(c).Build()
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return a
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},
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postorder: []string{"d", "e", "b", "c2", "c", "a"},
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preorder: []string{"a", "b", "d", "e", "c", "c2"},
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topological: []string{"a", "b", "c", "c2", "e", "d"},
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},
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{
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name: "orderConflict",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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child1 := NewDepSetBuilder(order).Direct(a, b).Build()
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child2 := NewDepSetBuilder(order).Direct(b, a).Build()
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parent := NewDepSetBuilder(order).Transitive(child1).Transitive(child2).Build()
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return parent
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},
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postorder: []string{"a", "b"},
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preorder: []string{"a", "b"},
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topological: []string{"b", "a"},
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},
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{
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name: "orderConflictNested",
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depSet: func(t *testing.T, order DepSetOrder) *DepSet {
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a := NewDepSetBuilder(order).Direct(a).Build()
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b := NewDepSetBuilder(order).Direct(b).Build()
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child1 := NewDepSetBuilder(order).Transitive(a).Transitive(b).Build()
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child2 := NewDepSetBuilder(order).Transitive(b).Transitive(a).Build()
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parent := NewDepSetBuilder(order).Transitive(child1).Transitive(child2).Build()
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return parent
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},
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postorder: []string{"a", "b"},
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preorder: []string{"a", "b"},
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topological: []string{"b", "a"},
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},
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}
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for _, tt := range tests {
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t.Run(tt.name, func(t *testing.T) {
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t.Run("postorder", func(t *testing.T) {
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depSet := tt.depSet(t, POSTORDER)
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if g, w := depSet.ToList().Strings(), tt.postorder; !reflect.DeepEqual(g, w) {
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t.Errorf("expected ToList() = %q, got %q", w, g)
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}
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})
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t.Run("preorder", func(t *testing.T) {
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depSet := tt.depSet(t, PREORDER)
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if g, w := depSet.ToList().Strings(), tt.preorder; !reflect.DeepEqual(g, w) {
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t.Errorf("expected ToList() = %q, got %q", w, g)
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}
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})
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t.Run("topological", func(t *testing.T) {
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depSet := tt.depSet(t, TOPOLOGICAL)
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if g, w := depSet.ToList().Strings(), tt.topological; !reflect.DeepEqual(g, w) {
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t.Errorf("expected ToList() = %q, got %q", w, g)
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}
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})
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})
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}
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}
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func TestDepSetInvalidOrder(t *testing.T) {
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orders := []DepSetOrder{POSTORDER, PREORDER, TOPOLOGICAL}
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run := func(t *testing.T, order1, order2 DepSetOrder) {
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defer func() {
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if r := recover(); r != nil {
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if err, ok := r.(error); !ok {
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t.Fatalf("expected panic error, got %v", err)
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} else if !strings.Contains(err.Error(), "incompatible order") {
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t.Fatalf("expected incompatible order error, got %v", err)
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}
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}
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}()
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NewDepSet(order1, nil, []*DepSet{NewDepSet(order2, nil, nil)})
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t.Fatal("expected panic")
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}
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for _, order1 := range orders {
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t.Run(order1.String(), func(t *testing.T) {
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for _, order2 := range orders {
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t.Run(order2.String(), func(t *testing.T) {
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if order1 != order2 {
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run(t, order1, order2)
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}
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})
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}
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})
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}
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}
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func Test_firstUnique(t *testing.T) {
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f := func(t *testing.T, imp func([]string) []string, in, want []string) {
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t.Helper()
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out := imp(in)
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if !reflect.DeepEqual(out, want) {
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t.Errorf("incorrect output:")
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t.Errorf(" input: %#v", in)
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t.Errorf(" expected: %#v", want)
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t.Errorf(" got: %#v", out)
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}
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}
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for _, testCase := range firstUniqueStringsTestCases {
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t.Run("list", func(t *testing.T) {
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f(t, func(s []string) []string {
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return firstUniqueList(s).([]string)
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}, testCase.in, testCase.out)
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})
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t.Run("map", func(t *testing.T) {
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f(t, func(s []string) []string {
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return firstUniqueMap(s).([]string)
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}, testCase.in, testCase.out)
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})
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}
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}
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func Benchmark_firstUnique(b *testing.B) {
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implementations := []struct {
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name string
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f func([]string) []string
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}{
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{
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name: "list",
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f: func(slice []string) []string {
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return firstUniqueList(slice).([]string)
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},
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},
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{
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name: "map",
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f: func(slice []string) []string {
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return firstUniqueMap(slice).([]string)
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},
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},
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{
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name: "optimal",
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f: func(slice []string) []string {
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return firstUnique(slice).([]string)
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},
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},
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}
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const maxSize = 1024
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uniqueStrings := make([]string, maxSize)
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for i := range uniqueStrings {
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uniqueStrings[i] = strconv.Itoa(i)
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}
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sameString := make([]string, maxSize)
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for i := range sameString {
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sameString[i] = uniqueStrings[0]
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}
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f := func(b *testing.B, imp func([]string) []string, s []string) {
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for i := 0; i < b.N; i++ {
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b.ReportAllocs()
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s = append([]string(nil), s...)
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imp(s)
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}
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}
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for n := 1; n <= maxSize; n <<= 1 {
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b.Run(strconv.Itoa(n), func(b *testing.B) {
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for _, implementation := range implementations {
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b.Run(implementation.name, func(b *testing.B) {
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b.Run("same", func(b *testing.B) {
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f(b, implementation.f, sameString[:n])
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})
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b.Run("unique", func(b *testing.B) {
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f(b, implementation.f, uniqueStrings[:n])
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})
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})
|
||
|
}
|
||
|
})
|
||
|
}
|
||
|
}
|