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// Copyright ©2017 The Gonum Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package graphql
import (
"bytes"
"errors"
"fmt"
"os/exec"
"slices"
"strconv"
"strings"
"testing"
"gonum.org/v1/gonum/graph"
"gonum.org/v1/gonum/graph/encoding"
"gonum.org/v1/gonum/graph/encoding/dot"
"gonum.org/v1/gonum/graph/simple"
)
var decodeTests = []struct {
name string
json string
roots map[uint64]bool
wantDOT string
wantErr error
}{
{
name: "starwars",
json: starwars,
roots: map[uint64]bool{
0xa3cff1a4c3ef3bb6: true,
0xb39aa14d66aedad5: true,
},
wantDOT: `strict digraph {
// Node definitions.
"0x8a10d5a2611fd03f" [name="Richard Marquand"];
"0xa3cff1a4c3ef3bb6" [
name="Star Wars: Episode V - The Empire Strikes Back"
release_date="1980-05-21T00:00:00Z"
revenue=534000000
running_time=124
];
"0xb39aa14d66aedad5" [
name="Star Wars: Episode VI - Return of the Jedi"
release_date="1983-05-25T00:00:00Z"
revenue=572000000
running_time=131
];
"0x0312de17a7ee89f9" [name="Luke Skywalker"];
"0x3da8d1dcab1bb381" [name="Han Solo"];
"0x4a7d0b5fe91e78a4" [name="Irvin Kernshner"];
"0x718337b9dcbaa7d9" [name="Princess Leia"];
// Edge definitions.
"0xa3cff1a4c3ef3bb6" -> "0x0312de17a7ee89f9" [label=starring];
"0xa3cff1a4c3ef3bb6" -> "0x3da8d1dcab1bb381" [label=starring];
"0xa3cff1a4c3ef3bb6" -> "0x4a7d0b5fe91e78a4" [label=director];
"0xa3cff1a4c3ef3bb6" -> "0x718337b9dcbaa7d9" [label=starring];
"0xb39aa14d66aedad5" -> "0x8a10d5a2611fd03f" [label=director];
"0xb39aa14d66aedad5" -> "0x0312de17a7ee89f9" [label=starring];
"0xb39aa14d66aedad5" -> "0x3da8d1dcab1bb381" [label=starring];
"0xb39aa14d66aedad5" -> "0x718337b9dcbaa7d9" [label=starring];
}`,
},
{
name: "tutorial",
json: dgraphTutorial,
roots: map[uint64]bool{
0xfd90205a458151f: true,
0x52a80955d40ec819: true,
},
wantDOT: `strict digraph {
// Node definitions.
"0x892a6da7ee1fbdec" [
age=55
name=Sarah
];
"0x99b74c1b5ab100ec" [
age=35
name=Artyom
];
"0xb9e12a67e34d6acc" [
age=19
name=Catalina
];
"0xbf104824c777525d" [name=Perro];
"0xf590a923ea1fccaa" [name=Goldie];
"0xf92d7dbe272d680b" [name="Hyung Sin"];
"0x0fd90205a458151f" [
age=39
name=Michael
];
"0x37734fcf0a6fcc69" [name="Rammy the sheep"];
"0x52a80955d40ec819" [
age=35
name=Amit
];
"0x5e9ad1cd9466228c" [
age=24
name="Sang Hyun"
];
// Edge definitions.
"0xb9e12a67e34d6acc" -> "0xbf104824c777525d" [label=owns_pet];
"0xb9e12a67e34d6acc" -> "0x5e9ad1cd9466228c" [label=friend];
"0xf92d7dbe272d680b" -> "0x5e9ad1cd9466228c" [label=friend];
"0x0fd90205a458151f" -> "0x892a6da7ee1fbdec" [label=friend];
"0x0fd90205a458151f" -> "0x99b74c1b5ab100ec" [label=friend];
"0x0fd90205a458151f" -> "0xb9e12a67e34d6acc" [label=friend];
"0x0fd90205a458151f" -> "0x37734fcf0a6fcc69" [label=owns_pet];
"0x0fd90205a458151f" -> "0x52a80955d40ec819" [label=friend];
"0x0fd90205a458151f" -> "0x5e9ad1cd9466228c" [label=friend];
"0x52a80955d40ec819" -> "0x99b74c1b5ab100ec" [label=friend];
"0x52a80955d40ec819" -> "0x0fd90205a458151f" [label=friend];
"0x52a80955d40ec819" -> "0x5e9ad1cd9466228c" [label=friend];
"0x5e9ad1cd9466228c" -> "0xb9e12a67e34d6acc" [label=friend];
"0x5e9ad1cd9466228c" -> "0xf590a923ea1fccaa" [label=owns_pet];
"0x5e9ad1cd9466228c" -> "0xf92d7dbe272d680b" [label=friend];
"0x5e9ad1cd9466228c" -> "0x52a80955d40ec819" [label=friend];
}`,
},
{
name: "tutorial missing IDs",
json: dgraphTutorialMissingIDs,
wantErr: errors.New("graphql: no UID for node"), // Incomplete error string.
},
}
func TestDecode(t *testing.T) {
for _, test := range decodeTests {
dst := newDirectedGraph()
err := Unmarshal([]byte(test.json), "_uid_", dst)
if test.wantErr == nil && err != nil {
t.Errorf("failed to unmarshal GraphQL JSON graph for %q: %v", test.name, err)
} else if test.wantErr != nil {
if err == nil {
t.Errorf("expected error for %q: got:%v want:%v", test.name, err, test.wantErr)
}
continue
}
b, err := dot.Marshal(dst, "", "", " ")
if err != nil {
t.Fatalf("failed to DOT marshal graph %q: %v", test.name, err)
}
gotDOT := string(b)
if gotDOT != test.wantDOT {
t.Errorf("unexpected DOT encoding for %q:\ngot:\n%s\nwant:\n%s", test.name, gotDOT, test.wantDOT)
}
checkDOT(t, b)
}
}
type directedGraph struct {
*simple.DirectedGraph
}
func newDirectedGraph() *directedGraph {
return &directedGraph{DirectedGraph: simple.NewDirectedGraph()}
}
func (g *directedGraph) NewNode() graph.Node {
return &node{attributes: make(attributes)}
}
func (g *directedGraph) NewEdge(from, to graph.Node) graph.Edge {
return &edge{Edge: g.DirectedGraph.NewEdge(from, to)}
}
type node struct {
id uint64
attributes
}
func (n *node) ID() int64 { return int64(n.id) }
func (n *node) DOTID() string { return fmt.Sprintf("0x%016x", n.id) }
func (n *node) SetIDFromString(uid string) error {
if !strings.HasPrefix(uid, "0x") {
return fmt.Errorf("uid is not hex value: %q", uid)
}
var err error
n.id, err = strconv.ParseUint(uid[2:], 16, 64)
return err
}
type edge struct {
graph.Edge
label string
}
func (e *edge) SetLabel(l string) {
e.label = l
}
func (e *edge) Attributes() []encoding.Attribute {
return []encoding.Attribute{{Key: "label", Value: e.label}}
}
type attributes map[string]encoding.Attribute
func (a attributes) SetAttribute(attr encoding.Attribute) error {
a[attr.Key] = attr
return nil
}
func (a attributes) Attributes() []encoding.Attribute {
keys := make([]string, 0, len(a))
for k := range a {
keys = append(keys, k)
}
slices.Sort(keys)
attr := make([]encoding.Attribute, 0, len(keys))
for _, k := range keys {
v := a[k]
if strings.Contains(v.Value, " ") {
v.Value = `"` + v.Value + `"`
}
attr = append(attr, v)
}
return attr
}
// checkDOT hands b to the dot executable if it exists and fails t if dot
// returns an error.
func checkDOT(t *testing.T, b []byte) {
dot, err := exec.LookPath("dot")
if err != nil {
t.Logf("skipping DOT syntax check: %v", err)
return
}
cmd := exec.Command(dot)
cmd.Stdin = bytes.NewReader(b)
stderr := &bytes.Buffer{}
cmd.Stderr = stderr
err = cmd.Run()
if err != nil {
t.Errorf("invalid DOT syntax: %v\n%s\ninput:\n%s", err, stderr.String(), b)
}
}
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