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yaml_test.go
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yaml_test.go
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package yaml
import (
"fmt"
"math"
"reflect"
"runtime"
"strconv"
"strings"
"testing"
)
type MarshalTest struct {
A string
B int64
C float32
D float64
}
func TestMarshal(t *testing.T) {
f32String := strconv.FormatFloat(math.MaxFloat32, 'g', -1, 32)
f64String := strconv.FormatFloat(math.MaxFloat64, 'g', -1, 64)
s := MarshalTest{"a", math.MaxInt64, math.MaxFloat32, math.MaxFloat64}
e := []byte(fmt.Sprintf("A: a\nB: %d\nC: %s\nD: %s\n", int64(math.MaxInt64), f32String, f64String))
y, err := Marshal(s)
if err != nil {
t.Errorf("error marshaling YAML: %v", err)
}
if !reflect.DeepEqual(y, e) {
t.Errorf("marshal YAML was unsuccessful, expected: %#v, got: %#v",
string(e), string(y))
}
}
type UnmarshalString struct {
A string
B string
}
type UnmarshalStringMap struct {
A map[string]string
}
type UnmarshalNestedString struct {
A NestedString
}
type NestedString struct {
A string
}
type UnmarshalSlice struct {
A []NestedSlice
}
type NestedSlice struct {
B string
C *string
}
func TestUnmarshal(t *testing.T) {
y := []byte("a: 1")
s1 := UnmarshalString{}
e1 := UnmarshalString{A: "1"}
unmarshalEqual(t, y, &s1, &e1)
y = []byte(`a: "1"`)
s1 = UnmarshalString{}
e1 = UnmarshalString{A: "1"}
unmarshalEqual(t, y, &s1, &e1)
y = []byte("a: true")
s1 = UnmarshalString{}
e1 = UnmarshalString{A: "true"}
unmarshalEqual(t, y, &s1, &e1)
y = []byte("a: 1")
s1 = UnmarshalString{}
e1 = UnmarshalString{A: "1"}
unmarshalEqual(t, y, &s1, &e1)
y = []byte("a:\n a: 1")
s2 := UnmarshalNestedString{}
e2 := UnmarshalNestedString{NestedString{"1"}}
unmarshalEqual(t, y, &s2, &e2)
y = []byte("a:\n - b: abc\n c: def\n - b: 123\n c: 456\n")
s3 := UnmarshalSlice{}
e3 := UnmarshalSlice{[]NestedSlice{{"abc", strPtr("def")}, {"123", strPtr("456")}}}
unmarshalEqual(t, y, &s3, &e3)
y = []byte("a:\n b: 1")
s4 := UnmarshalStringMap{}
e4 := UnmarshalStringMap{map[string]string{"b": "1"}}
unmarshalEqual(t, y, &s4, &e4)
y = []byte(`
a:
name: TestA
b:
name: TestB
`)
type NamedThing struct {
Name string `json:"name"`
}
s5 := map[string]*NamedThing{}
e5 := map[string]*NamedThing{
"a": {Name: "TestA"},
"b": {Name: "TestB"},
}
unmarshalEqual(t, y, &s5, &e5)
}
// TestUnmarshalNonStrict tests that we parse ambiguous YAML without error.
func TestUnmarshalNonStrict(t *testing.T) {
for _, tc := range []struct {
yaml []byte
want UnmarshalString
}{
{
yaml: []byte("a: 1"),
want: UnmarshalString{A: "1"},
},
{
// Order does not matter.
yaml: []byte("b: 1\na: 2"),
want: UnmarshalString{A: "2", B: "1"},
},
{
// Unknown field get ignored.
yaml: []byte("a: 1\nunknownField: 2"),
want: UnmarshalString{A: "1"},
},
{
// Unknown fields get ignored.
yaml: []byte("unknownOne: 2\na: 1\nunknownTwo: 2"),
want: UnmarshalString{A: "1"},
},
{
// In YAML, `YES` is no longer Boolean true.
yaml: []byte("a: YES"),
want: UnmarshalString{A: "YES"},
},
} {
s := UnmarshalString{}
unmarshalEqual(t, tc.yaml, &s, &tc.want)
}
}
// prettyFunctionName converts a slice of JSONOpt function pointers to a human
// readable string representation.
func prettyFunctionName(opts []JSONOpt) []string {
var r []string
for _, o := range opts {
r = append(r, runtime.FuncForPC(reflect.ValueOf(o).Pointer()).Name())
}
return r
}
func unmarshalEqual(t *testing.T, y []byte, s, e interface{}, opts ...JSONOpt) { //nolint:unparam
t.Helper()
err := Unmarshal(y, s, opts...)
if err != nil {
t.Errorf("Unmarshal(%#q, s, %v) = %v", string(y), prettyFunctionName(opts), err)
return
}
if !reflect.DeepEqual(s, e) {
t.Errorf("Unmarshal(%#q, s, %v) = %+#v; want %+#v", string(y), prettyFunctionName(opts), s, e)
}
}
// TestUnmarshalErrors tests that we return an error on ambiguous YAML.
func TestUnmarshalErrors(t *testing.T) {
for _, tc := range []struct {
yaml []byte
wantErr string
}{
{
// Declaring `a` twice produces an error.
yaml: []byte("a: 1\na: 2"),
wantErr: `key "a" already defined`,
},
{
// Not ignoring first declaration of A with wrong type.
yaml: []byte("a: [1,2,3]\na: value-of-a"),
wantErr: `key "a" already defined`,
},
{
// Declaring field `true` twice.
yaml: []byte("true: string-value-of-yes\ntrue: 1"),
wantErr: `key "true" already defined`,
},
} {
s := UnmarshalString{}
err := Unmarshal(tc.yaml, &s)
if tc.wantErr != "" && err == nil {
t.Errorf("Unmarshal(%#q, &s) = nil; want error", string(tc.yaml))
continue
}
if tc.wantErr == "" && err != nil {
t.Errorf("Unmarshal(%#q, &s) = %v; want no error", string(tc.yaml), err)
continue
}
// We only expect errors during unmarshalling YAML.
if tc.wantErr != "" && !strings.Contains(err.Error(), tc.wantErr) {
t.Errorf("Unmarshal(%#q, &s) = %v; want err contains %#q", string(tc.yaml), err, tc.wantErr)
}
}
}
type Case struct {
input string
output string
// By default we test that reversing the output == input. But if there is a
// difference in the reversed output, you can optionally specify it here.
reverse *string
}
type RunType int
const (
RunTypeJSONToYAML RunType = iota
RunTypeYAMLToJSON
)
func TestJSONToYAML(t *testing.T) {
cases := []Case{
{
`{"t":"a"}`,
"t: a\n",
nil,
}, {
`{"t":null}`,
"t: null\n",
nil,
},
}
runCases(t, RunTypeJSONToYAML, cases)
}
func TestYAMLToJSON(t *testing.T) {
cases := []Case{
{
"t: a\n",
`{"t":"a"}`,
nil,
}, {
"t: \n",
`{"t":null}`,
strPtr("t: null\n"),
}, {
"t: null\n",
`{"t":null}`,
nil,
},
{
"true: yes\n",
`{"true":"yes"}`,
strPtr("\"true\": \"yes\"\n"),
},
{
"false: yes\n",
`{"false":"yes"}`,
strPtr("\"false\": \"yes\"\n"),
},
{
"1: a\n",
`{"1":"a"}`,
strPtr("\"1\": a\n"),
}, {
"1000000000000000000000000000000000000: a\n",
`{"1e+36":"a"}`,
strPtr("\"1e+36\": a\n"),
}, {
"1e+36: a\n",
`{"1e+36":"a"}`,
strPtr("\"1e+36\": a\n"),
}, {
"\"1e+36\": a\n",
`{"1e+36":"a"}`,
nil,
}, {
"\"1.2\": a\n",
`{"1.2":"a"}`,
nil,
}, {
"- t: a\n",
`[{"t":"a"}]`,
nil,
}, {
"- t: a\n" +
"- t:\n" +
" b: 1\n" +
" c: 2\n",
`[{"t":"a"},{"t":{"b":1,"c":2}}]`,
nil,
}, {
`[{t: a}, {t: {b: 1, c: 2}}]`,
`[{"t":"a"},{"t":{"b":1,"c":2}}]`,
strPtr("- t: a\n" +
"- t:\n" +
" b: 1\n" +
" c: 2\n"),
}, {
"- t: \n",
`[{"t":null}]`,
strPtr("- t: null\n"),
}, {
"- t: null\n",
`[{"t":null}]`,
nil,
},
}
// Cases that should produce errors.
_ = []Case{
{
"~: a",
`{"null":"a"}`,
nil,
}, {
"a: !!binary gIGC\n",
"{\"a\":\"\x80\x81\x82\"}",
nil,
},
}
runCases(t, RunTypeYAMLToJSON, cases)
}
func runCases(t *testing.T, runType RunType, cases []Case) {
var f func([]byte) ([]byte, error)
var invF func([]byte) ([]byte, error)
var msg string
var invMsg string
if runType == RunTypeJSONToYAML {
f = JSONToYAML
invF = YAMLToJSON
msg = "JSON to YAML"
invMsg = "YAML back to JSON"
} else {
f = YAMLToJSON
invF = JSONToYAML
msg = "YAML to JSON"
invMsg = "JSON back to YAML"
}
for _, c := range cases {
// Convert the string.
t.Logf("converting %s\n", c.input)
output, err := f([]byte(c.input))
if err != nil {
t.Errorf("Failed to convert %s, input: `%s`, err: %v", msg, c.input, err)
}
// Check it against the expected output.
if string(output) != c.output {
t.Errorf("Failed to convert %s, input: `%s`, expected `%s`, got `%s`",
msg, c.input, c.output, string(output))
}
// Set the string that we will compare the reversed output to.
reverse := c.input
// If a special reverse string was specified, use that instead.
if c.reverse != nil {
reverse = *c.reverse
}
// Reverse the output.
input, err := invF(output)
if err != nil {
t.Errorf("Failed to convert %s, input: `%s`, err: %v", invMsg, string(output), err)
}
// Check the reverse is equal to the input (or to *c.reverse).
if string(input) != reverse {
t.Errorf("Failed to convert %s, input: `%s`, expected `%s`, got `%s`",
invMsg, string(output), reverse, string(input))
}
}
}
// To be able to easily fill in the *Case.reverse string above.
func strPtr(s string) *string {
return &s
}
func TestYAMLToJSONDuplicateFields(t *testing.T) {
data := []byte("foo: bar\nfoo: baz\n")
if _, err := YAMLToJSON(data); err == nil {
t.Error("expected YAMLtoJSON to fail on duplicate field names")
}
}