ginger/gg/gg_test.go

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package gg
import (
"fmt"
"hash"
. "testing"
"github.com/stretchr/testify/assert"
)
type idAny struct {
i interface{}
}
func (i idAny) Identify(h hash.Hash) {
fmt.Fprintln(h, i)
}
func id(i interface{}) Identifier {
return idAny{i: i}
}
func edge(val string, from *Vertex) Edge {
return Edge{Value: id(val), From: from}
}
func value(val string, in ...Edge) *Vertex {
return &Vertex{
VertexType: Value,
Value: id(val),
In: in,
}
}
func junction(val string, in ...Edge) Edge {
return Edge{
From: &Vertex{
VertexType: Junction,
In: in,
},
Value: id(val),
}
}
func assertVertexEqual(t *T, exp, got *Vertex, msgAndArgs ...interface{}) bool {
var assertInner func(*Vertex, *Vertex, map[*Vertex]bool) bool
assertInner = func(exp, got *Vertex, m map[*Vertex]bool) bool {
// if got is already in m then we've already looked at it
if m[got] {
return true
}
m[got] = true
assert.Equal(t, exp.VertexType, got.VertexType, msgAndArgs...)
assert.Equal(t, exp.Value, got.Value, msgAndArgs...)
if !assert.Len(t, got.In, len(exp.In), msgAndArgs...) {
return false
}
for i := range exp.In {
assertInner(exp.In[i].From, got.In[i].From, m)
assert.Equal(t, exp.In[i].Value, got.In[i].Value, msgAndArgs...)
assert.Equal(t, got, got.In[i].To)
assert.Contains(t, got.In[i].From.Out, got.In[i])
}
return true
}
return assertInner(exp, got, map[*Vertex]bool{})
}
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func assertWalk(t *T, expVals, expJuncs int, g *Graph, msgAndArgs ...interface{}) {
seen := map[*Vertex]bool{}
var gotVals, gotJuncs int
g.Walk(nil, func(v *Vertex) bool {
assert.NotContains(t, seen, v, msgAndArgs...)
seen[v] = true
if v.VertexType == Value {
gotVals++
} else {
gotJuncs++
}
return true
})
assert.Equal(t, expVals, gotVals, msgAndArgs...)
assert.Equal(t, expJuncs, gotJuncs, msgAndArgs...)
}
type graphTest struct {
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name string
out func() *Graph
exp []*Vertex
numVals, numJuncs int
}
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func mkTest(name string, out func() *Graph, numVals, numJuncs int, exp ...*Vertex) graphTest {
return graphTest{
name: name,
out: out,
exp: exp,
numVals: numVals, numJuncs: numJuncs,
}
}
func TestGraph(t *T) {
tests := []graphTest{
mkTest(
"values-basic",
func() *Graph {
return Null.AddValueIn(ValueOut(id("v0"), id("e0")), id("v1"))
},
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2, 0,
value("v0"),
value("v1", edge("e0", value("v0"))),
),
mkTest(
"values-2edges",
func() *Graph {
g0 := Null.AddValueIn(ValueOut(id("v0"), id("e0")), id("v2"))
return g0.AddValueIn(ValueOut(id("v1"), id("e1")), id("v2"))
},
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3, 0,
value("v0"),
value("v1"),
value("v2",
edge("e0", value("v0")),
edge("e1", value("v1")),
),
),
mkTest(
"values-separate",
func() *Graph {
g0 := Null.AddValueIn(ValueOut(id("v0"), id("e0")), id("v1"))
return g0.AddValueIn(ValueOut(id("v2"), id("e2")), id("v3"))
},
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4, 0,
value("v0"),
value("v1", edge("e0", value("v0"))),
value("v2"),
value("v3", edge("e2", value("v2"))),
),
mkTest(
"values-circular",
func() *Graph {
return Null.AddValueIn(ValueOut(id("v0"), id("e")), id("v0"))
},
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1, 0,
value("v0", edge("e", value("v0"))),
),
mkTest(
"values-circular2",
func() *Graph {
g0 := Null.AddValueIn(ValueOut(id("v0"), id("e0")), id("v1"))
return g0.AddValueIn(ValueOut(id("v1"), id("e1")), id("v0"))
},
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2, 0,
value("v0", edge("e1", value("v1", edge("e0", value("v0"))))),
value("v1", edge("e0", value("v0", edge("e1", value("v1"))))),
),
mkTest(
"values-circular3",
func() *Graph {
g0 := Null.AddValueIn(ValueOut(id("v0"), id("e0")), id("v1"))
g1 := g0.AddValueIn(ValueOut(id("v1"), id("e1")), id("v2"))
return g1.AddValueIn(ValueOut(id("v2"), id("e2")), id("v1"))
},
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3, 0,
value("v0"),
value("v1",
edge("e0", value("v0")),
edge("e2", value("v2", edge("e1", value("v1")))),
),
value("v2", edge("e1", value("v1",
edge("e0", value("v0")),
edge("e2", value("v2")),
))),
),
mkTest(
"junction-basic",
func() *Graph {
e0 := ValueOut(id("v0"), id("e0"))
e1 := ValueOut(id("v1"), id("e1"))
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ej0 := JunctionOut([]OpenEdge{e0, e1}, id("ej0"))
return Null.AddValueIn(ej0, id("v2"))
},
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3, 1,
value("v0"), value("v1"),
value("v2", junction("ej0",
edge("e0", value("v0")),
edge("e1", value("v1")),
)),
),
mkTest(
"junction-basic2",
func() *Graph {
e00 := ValueOut(id("v0"), id("e00"))
e10 := ValueOut(id("v1"), id("e10"))
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ej0 := JunctionOut([]OpenEdge{e00, e10}, id("ej0"))
e01 := ValueOut(id("v0"), id("e01"))
e11 := ValueOut(id("v1"), id("e11"))
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ej1 := JunctionOut([]OpenEdge{e01, e11}, id("ej1"))
ej2 := JunctionOut([]OpenEdge{ej0, ej1}, id("ej2"))
return Null.AddValueIn(ej2, id("v2"))
},
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3, 3,
value("v0"), value("v1"),
value("v2", junction("ej2",
junction("ej0",
edge("e00", value("v0")),
edge("e10", value("v1")),
),
junction("ej1",
edge("e01", value("v0")),
edge("e11", value("v1")),
),
)),
),
mkTest(
"junction-circular",
func() *Graph {
e0 := ValueOut(id("v0"), id("e0"))
e1 := ValueOut(id("v1"), id("e1"))
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ej0 := JunctionOut([]OpenEdge{e0, e1}, id("ej0"))
g0 := Null.AddValueIn(ej0, id("v2"))
e20 := ValueOut(id("v2"), id("e20"))
g1 := g0.AddValueIn(e20, id("v0"))
e21 := ValueOut(id("v2"), id("e21"))
return g1.AddValueIn(e21, id("v1"))
},
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3, 1,
value("v0", edge("e20", value("v2", junction("ej0",
edge("e0", value("v0")),
edge("e1", value("v1", edge("e21", value("v2")))),
)))),
value("v1", edge("e21", value("v2", junction("ej0",
edge("e0", value("v0", edge("e20", value("v2")))),
edge("e1", value("v1")),
)))),
value("v2", junction("ej0",
edge("e0", value("v0", edge("e20", value("v2")))),
edge("e1", value("v1", edge("e21", value("v2")))),
)),
),
}
for i := range tests {
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t.Logf("test[%d]:%q", i, tests[i].name)
out := tests[i].out()
for j, exp := range tests[i].exp {
msgAndArgs := []interface{}{
"tests[%d].name:%q exp[%d].val:%q",
i, tests[i].name, j, exp.Value.(idAny).i,
}
v := out.Value(exp.Value)
if !assert.NotNil(t, v, msgAndArgs...) {
continue
}
assertVertexEqual(t, exp, v, msgAndArgs...)
}
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msgAndArgs := []interface{}{
"tests[%d].name:%q",
i, tests[i].name,
}
// sanity check that graphs are equal to themselves
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assert.True(t, Equal(out, out), msgAndArgs...)
// test the Walk method in here too
assertWalk(t, tests[i].numVals, tests[i].numJuncs, out, msgAndArgs...)
}
}
func TestGraphImmutability(t *T) {
e0 := ValueOut(id("v0"), id("e0"))
g0 := Null.AddValueIn(e0, id("v1"))
assert.Nil(t, Null.Value(id("v0")))
assert.Nil(t, Null.Value(id("v1")))
assert.NotNil(t, g0.Value(id("v0")))
assert.NotNil(t, g0.Value(id("v1")))
// half-edges should be re-usable
e1 := ValueOut(id("v2"), id("e1"))
g1a := g0.AddValueIn(e1, id("v3a"))
g1b := g0.AddValueIn(e1, id("v3b"))
assertVertexEqual(t, value("v3a", edge("e1", value("v2"))), g1a.Value(id("v3a")))
assert.Nil(t, g1a.Value(id("v3b")))
assertVertexEqual(t, value("v3b", edge("e1", value("v2"))), g1b.Value(id("v3b")))
assert.Nil(t, g1b.Value(id("v3a")))
// ... even re-usable twice in succession
g2 := g0.AddValueIn(e1, id("v3")).AddValueIn(e1, id("v4"))
assert.Nil(t, g2.Value(id("v3b")))
assert.Nil(t, g2.Value(id("v3a")))
assertVertexEqual(t, value("v3", edge("e1", value("v2"))), g2.Value(id("v3")))
assertVertexEqual(t, value("v4", edge("e1", value("v2"))), g2.Value(id("v4")))
}
func TestGraphDelValueIn(t *T) {
{ // removing from null
g := Null.DelValueIn(ValueOut(id("v0"), id("e0")), id("v1"))
assert.True(t, Equal(Null, g))
}
{ // removing edge from vertex which doesn't have that edge
g0 := Null.AddValueIn(ValueOut(id("v0"), id("e0")), id("v1"))
g1 := g0.DelValueIn(ValueOut(id("v0"), id("e1")), id("v1"))
assert.True(t, Equal(g0, g1))
}
{ // removing only edge
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oe := ValueOut(id("v0"), id("e0"))
g0 := Null.AddValueIn(oe, id("v1"))
g1 := g0.DelValueIn(oe, id("v1"))
assert.True(t, Equal(Null, g1))
}
{ // removing only edge (junction)
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oe := JunctionOut([]OpenEdge{
ValueOut(id("v0"), id("e0")),
ValueOut(id("v1"), id("e1")),
}, id("ej0"))
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g0 := Null.AddValueIn(oe, id("v2"))
g1 := g0.DelValueIn(oe, id("v2"))
assert.True(t, Equal(Null, g1))
}
{ // removing one of two edges
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oe := ValueOut(id("v1"), id("e0"))
g0 := Null.AddValueIn(ValueOut(id("v0"), id("e0")), id("v2"))
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g1 := g0.AddValueIn(oe, id("v2"))
g2 := g1.DelValueIn(oe, id("v2"))
assert.True(t, Equal(g0, g2))
assert.NotNil(t, g2.Value(id("v0")))
assert.Nil(t, g2.Value(id("v1")))
assert.NotNil(t, g2.Value(id("v2")))
}
{ // removing one of two edges (junction)
e0 := ValueOut(id("v0"), id("e0"))
e1 := ValueOut(id("v1"), id("e1"))
e2 := ValueOut(id("v2"), id("e2"))
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oeA := JunctionOut([]OpenEdge{e0, e1}, id("oeA"))
oeB := JunctionOut([]OpenEdge{e1, e2}, id("oeB"))
g0a := Null.AddValueIn(oeA, id("v3"))
g0b := Null.AddValueIn(oeB, id("v3"))
g1 := g0a.Union(g0b).DelValueIn(oeA, id("v3"))
assert.True(t, Equal(g1, g0b))
assert.Nil(t, g1.Value(id("v0")))
assert.NotNil(t, g1.Value(id("v1")))
assert.NotNil(t, g1.Value(id("v2")))
assert.NotNil(t, g1.Value(id("v3")))
}
{ // removing one of two edges in circular graph
e0 := ValueOut(id("v0"), id("e0"))
e1 := ValueOut(id("v1"), id("e1"))
g0 := Null.AddValueIn(e0, id("v1")).AddValueIn(e1, id("v0"))
g1 := g0.DelValueIn(e0, id("v1"))
assert.True(t, Equal(Null.AddValueIn(e1, id("v0")), g1))
assert.NotNil(t, g1.Value(id("v0")))
assert.NotNil(t, g1.Value(id("v1")))
}
{ // removing to's only edge, sub-nodes have edge to each other
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ej := JunctionOut([]OpenEdge{
ValueOut(id("v0"), id("ej0")),
ValueOut(id("v1"), id("ej0")),
}, id("ej"))
g0 := Null.AddValueIn(ej, id("v2"))
e0 := ValueOut(id("v0"), id("e0"))
g1 := g0.AddValueIn(e0, id("v1"))
g2 := g1.DelValueIn(ej, id("v2"))
assert.True(t, Equal(Null.AddValueIn(e0, id("v1")), g2))
assert.NotNil(t, g2.Value(id("v0")))
assert.NotNil(t, g2.Value(id("v1")))
assert.Nil(t, g2.Value(id("v2")))
}
}
func TestGraphUnion(t *T) {
assertUnion := func(g1, g2 *Graph) *Graph {
ga := g1.Union(g2)
gb := g2.Union(g1)
assert.True(t, Equal(ga, gb))
return ga
}
{ // Union with Null
assert.True(t, Equal(Null, Null.Union(Null)))
g := Null.AddValueIn(ValueOut(id("v0"), id("e0")), id("v1"))
assert.True(t, Equal(g, assertUnion(g, Null)))
}
{ // Two disparate graphs union'd
g0 := Null.AddValueIn(ValueOut(id("v0"), id("e0")), id("v1"))
g1 := Null.AddValueIn(ValueOut(id("v2"), id("e1")), id("v3"))
g := assertUnion(g0, g1)
assertVertexEqual(t, value("v0"), g.Value(id("v0")))
assertVertexEqual(t, value("v1", edge("e0", value("v0"))), g.Value(id("v1")))
assertVertexEqual(t, value("v2"), g.Value(id("v2")))
assertVertexEqual(t, value("v3", edge("e1", value("v2"))), g.Value(id("v3")))
}
{ // Two disparate graphs with junctions
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ga := Null.AddValueIn(JunctionOut([]OpenEdge{
ValueOut(id("va0"), id("ea0")),
ValueOut(id("va1"), id("ea1")),
}, id("eaj")), id("va2"))
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gb := Null.AddValueIn(JunctionOut([]OpenEdge{
ValueOut(id("vb0"), id("eb0")),
ValueOut(id("vb1"), id("eb1")),
}, id("ebj")), id("vb2"))
g := assertUnion(ga, gb)
assertVertexEqual(t, value("va0"), g.Value(id("va0")))
assertVertexEqual(t, value("va1"), g.Value(id("va1")))
assertVertexEqual(t,
value("va2", junction("eaj",
edge("ea0", value("va0")),
edge("ea1", value("va1")))),
g.Value(id("va2")),
)
assertVertexEqual(t, value("vb0"), g.Value(id("vb0")))
assertVertexEqual(t, value("vb1"), g.Value(id("vb1")))
assertVertexEqual(t,
value("vb2", junction("ebj",
edge("eb0", value("vb0")),
edge("eb1", value("vb1")))),
g.Value(id("vb2")),
)
}
{ // Two partially overlapping graphs
g0 := Null.AddValueIn(ValueOut(id("v0"), id("e0")), id("v2"))
g1 := Null.AddValueIn(ValueOut(id("v1"), id("e1")), id("v2"))
g := assertUnion(g0, g1)
assertVertexEqual(t, value("v0"), g.Value(id("v0")))
assertVertexEqual(t, value("v1"), g.Value(id("v1")))
assertVertexEqual(t,
value("v2",
edge("e0", value("v0")),
edge("e1", value("v1")),
),
g.Value(id("v2")),
)
}
{ // two partially overlapping graphs with junctions
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g0 := Null.AddValueIn(JunctionOut([]OpenEdge{
ValueOut(id("v0"), id("e0")),
ValueOut(id("v1"), id("e1")),
}, id("ej0")), id("v2"))
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g1 := Null.AddValueIn(JunctionOut([]OpenEdge{
ValueOut(id("v0"), id("e0")),
ValueOut(id("v1"), id("e1")),
}, id("ej1")), id("v2"))
g := assertUnion(g0, g1)
assertVertexEqual(t, value("v0"), g.Value(id("v0")))
assertVertexEqual(t, value("v1"), g.Value(id("v1")))
assertVertexEqual(t,
value("v2",
junction("ej0", edge("e0", value("v0")), edge("e1", value("v1"))),
junction("ej1", edge("e0", value("v0")), edge("e1", value("v1"))),
),
g.Value(id("v2")),
)
}
{ // Two equal graphs
g0 := Null.AddValueIn(ValueOut(id("v0"), id("e0")), id("v1"))
g := assertUnion(g0, g0)
assertVertexEqual(t, value("v0"), g.Value(id("v0")))
assertVertexEqual(t,
value("v1", edge("e0", value("v0"))),
g.Value(id("v1")),
)
}
{ // Two equal graphs with junctions
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g0 := Null.AddValueIn(JunctionOut([]OpenEdge{
ValueOut(id("v0"), id("e0")),
ValueOut(id("v1"), id("e1")),
}, id("ej0")), id("v2"))
g := assertUnion(g0, g0)
assertVertexEqual(t, value("v0"), g.Value(id("v0")))
assertVertexEqual(t, value("v1"), g.Value(id("v1")))
assertVertexEqual(t,
value("v2",
junction("ej0", edge("e0", value("v0")), edge("e1", value("v1"))),
),
g.Value(id("v2")),
)
}
}
func TestGraphEqual(t *T) {
assertEqual := func(g1, g2 *Graph) {
assert.True(t, Equal(g1, g2))
assert.True(t, Equal(g2, g1))
}
assertNotEqual := func(g1, g2 *Graph) {
assert.False(t, Equal(g1, g2))
assert.False(t, Equal(g2, g1))
}
assertEqual(Null, Null) // duh
{
// graph is equal to itself, not to null
e0 := ValueOut(id("v0"), id("e0"))
g0 := Null.AddValueIn(e0, id("v1"))
assertNotEqual(g0, Null)
assertEqual(g0, g0)
// adding the an existing edge again shouldn't do anything
assertEqual(g0, g0.AddValueIn(e0, id("v1")))
// g1a and g1b have the same vertices, but the edges are different
g1a := g0.AddValueIn(ValueOut(id("v0"), id("e1a")), id("v2"))
g1b := g0.AddValueIn(ValueOut(id("v0"), id("e1b")), id("v2"))
assertNotEqual(g1a, g1b)
}
{ // equal construction should yield equality, even if out of order
ga := Null.AddValueIn(ValueOut(id("v0"), id("e0")), id("v1"))
ga = ga.AddValueIn(ValueOut(id("v1"), id("e1")), id("v2"))
gb := Null.AddValueIn(ValueOut(id("v1"), id("e1")), id("v2"))
gb = gb.AddValueIn(ValueOut(id("v0"), id("e0")), id("v1"))
assertEqual(ga, gb)
}
{ // junction basic test
e0 := ValueOut(id("v0"), id("e0"))
e1 := ValueOut(id("v1"), id("e1"))
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ga := Null.AddValueIn(JunctionOut([]OpenEdge{e0, e1}, id("ej")), id("v2"))
gb := Null.AddValueIn(JunctionOut([]OpenEdge{e1, e0}, id("ej")), id("v2"))
assertEqual(ga, ga)
assertNotEqual(ga, gb)
}
}