opentofu/dag/graph_test.go

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package dag
import (
"fmt"
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"strings"
"testing"
)
func TestGraph_empty(t *testing.T) {
var g Graph
g.Add(1)
g.Add(2)
g.Add(3)
actual := strings.TrimSpace(g.String())
expected := strings.TrimSpace(testGraphEmptyStr)
if actual != expected {
t.Fatalf("bad: %s", actual)
}
}
func TestGraph_basic(t *testing.T) {
var g Graph
g.Add(1)
g.Add(2)
g.Add(3)
g.Connect(BasicEdge(1, 3))
actual := strings.TrimSpace(g.String())
expected := strings.TrimSpace(testGraphBasicStr)
if actual != expected {
t.Fatalf("bad: %s", actual)
}
}
func TestGraph_remove(t *testing.T) {
var g Graph
g.Add(1)
g.Add(2)
g.Add(3)
g.Connect(BasicEdge(1, 3))
g.Remove(3)
actual := strings.TrimSpace(g.String())
expected := strings.TrimSpace(testGraphRemoveStr)
if actual != expected {
t.Fatalf("bad: %s", actual)
}
}
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func TestGraph_replace(t *testing.T) {
var g Graph
g.Add(1)
g.Add(2)
g.Add(3)
g.Connect(BasicEdge(1, 2))
g.Connect(BasicEdge(2, 3))
g.Replace(2, 42)
actual := strings.TrimSpace(g.String())
expected := strings.TrimSpace(testGraphReplaceStr)
if actual != expected {
t.Fatalf("bad: %s", actual)
}
}
func TestGraph_replaceSelf(t *testing.T) {
var g Graph
g.Add(1)
g.Add(2)
g.Add(3)
g.Connect(BasicEdge(1, 2))
g.Connect(BasicEdge(2, 3))
g.Replace(2, 2)
actual := strings.TrimSpace(g.String())
expected := strings.TrimSpace(testGraphReplaceSelfStr)
if actual != expected {
t.Fatalf("bad: %s", actual)
}
}
// This tests that connecting edges works based on custom Hashcode
// implementations for uniqueness.
func TestGraph_hashcode(t *testing.T) {
var g Graph
g.Add(&hashVertex{code: 1})
g.Add(&hashVertex{code: 2})
g.Add(&hashVertex{code: 3})
g.Connect(BasicEdge(
&hashVertex{code: 1},
&hashVertex{code: 3}))
actual := strings.TrimSpace(g.String())
expected := strings.TrimSpace(testGraphBasicStr)
if actual != expected {
t.Fatalf("bad: %s", actual)
}
}
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func TestGraphHasVertex(t *testing.T) {
var g Graph
g.Add(1)
if !g.HasVertex(1) {
t.Fatal("should have 1")
}
if g.HasVertex(2) {
t.Fatal("should not have 2")
}
}
func TestGraphHasEdge(t *testing.T) {
var g Graph
g.Add(1)
g.Add(2)
g.Connect(BasicEdge(1, 2))
if !g.HasEdge(BasicEdge(1, 2)) {
t.Fatal("should have 1,2")
}
if g.HasVertex(BasicEdge(2, 3)) {
t.Fatal("should not have 2,3")
}
}
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func TestGraphEdgesFrom(t *testing.T) {
var g Graph
g.Add(1)
g.Add(2)
g.Add(3)
g.Connect(BasicEdge(1, 3))
g.Connect(BasicEdge(2, 3))
edges := g.EdgesFrom(1)
expected := make(Set)
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expected.Add(BasicEdge(1, 3))
s := make(Set)
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for _, e := range edges {
s.Add(e)
}
if s.Intersection(expected).Len() != expected.Len() {
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t.Fatalf("bad: %#v", edges)
}
}
func TestGraphEdgesTo(t *testing.T) {
var g Graph
g.Add(1)
g.Add(2)
g.Add(3)
g.Connect(BasicEdge(1, 3))
g.Connect(BasicEdge(1, 2))
edges := g.EdgesTo(3)
expected := make(Set)
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expected.Add(BasicEdge(1, 3))
s := make(Set)
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for _, e := range edges {
s.Add(e)
}
if s.Intersection(expected).Len() != expected.Len() {
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t.Fatalf("bad: %#v", edges)
}
}
func TestGraphUpdownEdges(t *testing.T) {
// Verify that we can't inadvertently modify the internal graph sets
var g Graph
g.Add(1)
g.Add(2)
g.Add(3)
g.Connect(BasicEdge(1, 2))
g.Connect(BasicEdge(2, 3))
up := g.UpEdges(2)
if up.Len() != 1 || !up.Include(1) {
t.Fatalf("expected only an up edge of '1', got %#v", up)
}
// modify the up set
up.Add(9)
orig := g.UpEdges(2)
diff := up.Difference(orig)
if diff.Len() != 1 || !diff.Include(9) {
t.Fatalf("expected a diff of only '9', got %#v", diff)
}
down := g.DownEdges(2)
if down.Len() != 1 || !down.Include(3) {
t.Fatalf("expected only a down edge of '3', got %#v", down)
}
// modify the down set
down.Add(8)
orig = g.DownEdges(2)
diff = down.Difference(orig)
if diff.Len() != 1 || !diff.Include(8) {
t.Fatalf("expected a diff of only '8', got %#v", diff)
}
}
type hashVertex struct {
code interface{}
}
func (v *hashVertex) Hashcode() interface{} {
return v.code
}
func (v *hashVertex) Name() string {
return fmt.Sprintf("%#v", v.code)
}
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const testGraphBasicStr = `
1
3
2
3
`
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const testGraphEmptyStr = `
1
2
3
`
const testGraphRemoveStr = `
1
2
`
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const testGraphReplaceStr = `
1
42
3
42
3
`
const testGraphReplaceSelfStr = `
1
2
2
3
3
`