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llvm / llvm-project / llgo / a4744e474e3a21171c85f251a11e0705a663a0cc / . / third_party / gofrontend / libgo / go / encoding / xml / marshal_test.go
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// Copyright 2011 The Go 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 xml
import (
"bytes"
"errors"
"fmt"
"io"
"reflect"
"strconv"
"strings"
"testing"
"time"
)
type DriveType int
const (
HyperDrive DriveType = iota
ImprobabilityDrive
)
type Passenger struct {
Name []string `xml:"name"`
Weight float32 `xml:"weight"`
}
type Ship struct {
XMLName struct{} `xml:"spaceship"`
Name string `xml:"name,attr"`
Pilot string `xml:"pilot,attr"`
Drive DriveType `xml:"drive"`
Age uint `xml:"age"`
Passenger []*Passenger `xml:"passenger"`
secret string
}
type NamedType string
type Port struct {
XMLName struct{} `xml:"port"`
Type string `xml:"type,attr,omitempty"`
Comment string `xml:",comment"`
Number string `xml:",chardata"`
}
type Domain struct {
XMLName struct{} `xml:"domain"`
Country string `xml:",attr,omitempty"`
Name []byte `xml:",chardata"`
Comment []byte `xml:",comment"`
}
type Book struct {
XMLName struct{} `xml:"book"`
Title string `xml:",chardata"`
}
type Event struct {
XMLName struct{} `xml:"event"`
Year int `xml:",chardata"`
}
type Movie struct {
XMLName struct{} `xml:"movie"`
Length uint `xml:",chardata"`
}
type Pi struct {
XMLName struct{} `xml:"pi"`
Approximation float32 `xml:",chardata"`
}
type Universe struct {
XMLName struct{} `xml:"universe"`
Visible float64 `xml:",chardata"`
}
type Particle struct {
XMLName struct{} `xml:"particle"`
HasMass bool `xml:",chardata"`
}
type Departure struct {
XMLName struct{} `xml:"departure"`
When time.Time `xml:",chardata"`
}
type SecretAgent struct {
XMLName struct{} `xml:"agent"`
Handle string `xml:"handle,attr"`
Identity string
Obfuscate string `xml:",innerxml"`
}
type NestedItems struct {
XMLName struct{} `xml:"result"`
Items []string `xml:">item"`
Item1 []string `xml:"Items>item1"`
}
type NestedOrder struct {
XMLName struct{} `xml:"result"`
Field1 string `xml:"parent>c"`
Field2 string `xml:"parent>b"`
Field3 string `xml:"parent>a"`
}
type MixedNested struct {
XMLName struct{} `xml:"result"`
A string `xml:"parent1>a"`
B string `xml:"b"`
C string `xml:"parent1>parent2>c"`
D string `xml:"parent1>d"`
}
type NilTest struct {
A interface{} `xml:"parent1>parent2>a"`
B interface{} `xml:"parent1>b"`
C interface{} `xml:"parent1>parent2>c"`
}
type Service struct {
XMLName struct{} `xml:"service"`
Domain *Domain `xml:"host>domain"`
Port *Port `xml:"host>port"`
Extra1 interface{}
Extra2 interface{} `xml:"host>extra2"`
}
var nilStruct *Ship
type EmbedA struct {
EmbedC
EmbedB EmbedB
FieldA string
}
type EmbedB struct {
FieldB string
*EmbedC
}
type EmbedC struct {
FieldA1 string `xml:"FieldA>A1"`
FieldA2 string `xml:"FieldA>A2"`
FieldB string
FieldC string
}
type NameCasing struct {
XMLName struct{} `xml:"casing"`
Xy string
XY string
XyA string `xml:"Xy,attr"`
XYA string `xml:"XY,attr"`
}
type NamePrecedence struct {
XMLName Name `xml:"Parent"`
FromTag XMLNameWithoutTag `xml:"InTag"`
FromNameVal XMLNameWithoutTag
FromNameTag XMLNameWithTag
InFieldName string
}
type XMLNameWithTag struct {
XMLName Name `xml:"InXMLNameTag"`
Value string `xml:",chardata"`
}
type XMLNameWithoutTag struct {
XMLName Name
Value string `xml:",chardata"`
}
type NameInField struct {
Foo Name `xml:"ns foo"`
}
type AttrTest struct {
Int int `xml:",attr"`
Named int `xml:"int,attr"`
Float float64 `xml:",attr"`
Uint8 uint8 `xml:",attr"`
Bool bool `xml:",attr"`
Str string `xml:",attr"`
Bytes []byte `xml:",attr"`
}
type OmitAttrTest struct {
Int int `xml:",attr,omitempty"`
Named int `xml:"int,attr,omitempty"`
Float float64 `xml:",attr,omitempty"`
Uint8 uint8 `xml:",attr,omitempty"`
Bool bool `xml:",attr,omitempty"`
Str string `xml:",attr,omitempty"`
Bytes []byte `xml:",attr,omitempty"`
}
type OmitFieldTest struct {
Int int `xml:",omitempty"`
Named int `xml:"int,omitempty"`
Float float64 `xml:",omitempty"`
Uint8 uint8 `xml:",omitempty"`
Bool bool `xml:",omitempty"`
Str string `xml:",omitempty"`
Bytes []byte `xml:",omitempty"`
Ptr *PresenceTest `xml:",omitempty"`
}
type AnyTest struct {
XMLName struct{} `xml:"a"`
Nested string `xml:"nested>value"`
AnyField AnyHolder `xml:",any"`
}
type AnyOmitTest struct {
XMLName struct{} `xml:"a"`
Nested string `xml:"nested>value"`
AnyField *AnyHolder `xml:",any,omitempty"`
}
type AnySliceTest struct {
XMLName struct{} `xml:"a"`
Nested string `xml:"nested>value"`
AnyField []AnyHolder `xml:",any"`
}
type AnyHolder struct {
XMLName Name
XML string `xml:",innerxml"`
}
type RecurseA struct {
A string
B *RecurseB
}
type RecurseB struct {
A *RecurseA
B string
}
type PresenceTest struct {
Exists *struct{}
}
type IgnoreTest struct {
PublicSecret string `xml:"-"`
}
type MyBytes []byte
type Data struct {
Bytes []byte
Attr []byte `xml:",attr"`
Custom MyBytes
}
type Plain struct {
V interface{}
}
type MyInt int
type EmbedInt struct {
MyInt
}
type Strings struct {
X []string `xml:"A>B,omitempty"`
}
type PointerFieldsTest struct {
XMLName Name `xml:"dummy"`
Name *string `xml:"name,attr"`
Age *uint `xml:"age,attr"`
Empty *string `xml:"empty,attr"`
Contents *string `xml:",chardata"`
}
type ChardataEmptyTest struct {
XMLName Name `xml:"test"`
Contents *string `xml:",chardata"`
}
type MyMarshalerTest struct {
}
var _ Marshaler = (*MyMarshalerTest)(nil)
func (m *MyMarshalerTest) MarshalXML(e *Encoder, start StartElement) error {
e.EncodeToken(start)
e.EncodeToken(CharData([]byte("hello world")))
e.EncodeToken(EndElement{start.Name})
return nil
}
type MyMarshalerAttrTest struct {
}
var _ MarshalerAttr = (*MyMarshalerAttrTest)(nil)
func (m *MyMarshalerAttrTest) MarshalXMLAttr(name Name) (Attr, error) {
return Attr{name, "hello world"}, nil
}
type MarshalerStruct struct {
Foo MyMarshalerAttrTest `xml:",attr"`
}
type InnerStruct struct {
XMLName Name `xml:"testns outer"`
}
type OuterStruct struct {
InnerStruct
IntAttr int `xml:"int,attr"`
}
type OuterNamedStruct struct {
InnerStruct
XMLName Name `xml:"outerns test"`
IntAttr int `xml:"int,attr"`
}
type OuterNamedOrderedStruct struct {
XMLName Name `xml:"outerns test"`
InnerStruct
IntAttr int `xml:"int,attr"`
}
type OuterOuterStruct struct {
OuterStruct
}
func ifaceptr(x interface{}) interface{} {
return &x
}
var (
nameAttr = "Sarah"
ageAttr = uint(12)
contentsAttr = "lorem ipsum"
)
// Unless explicitly stated as such (or *Plain), all of the
// tests below are two-way tests. When introducing new tests,
// please try to make them two-way as well to ensure that
// marshalling and unmarshalling are as symmetrical as feasible.
var marshalTests = []struct {
Value interface{}
ExpectXML string
MarshalOnly bool
UnmarshalOnly bool
}{
// Test nil marshals to nothing
{Value: nil, ExpectXML: ``, MarshalOnly: true},
{Value: nilStruct, ExpectXML: ``, MarshalOnly: true},
// Test value types
{Value: &Plain{true}, ExpectXML: `<Plain><V>true</V></Plain>`},
{Value: &Plain{false}, ExpectXML: `<Plain><V>false</V></Plain>`},
{Value: &Plain{int(42)}, ExpectXML: `<Plain><V>42</V></Plain>`},
{Value: &Plain{int8(42)}, ExpectXML: `<Plain><V>42</V></Plain>`},
{Value: &Plain{int16(42)}, ExpectXML: `<Plain><V>42</V></Plain>`},
{Value: &Plain{int32(42)}, ExpectXML: `<Plain><V>42</V></Plain>`},
{Value: &Plain{uint(42)}, ExpectXML: `<Plain><V>42</V></Plain>`},
{Value: &Plain{uint8(42)}, ExpectXML: `<Plain><V>42</V></Plain>`},
{Value: &Plain{uint16(42)}, ExpectXML: `<Plain><V>42</V></Plain>`},
{Value: &Plain{uint32(42)}, ExpectXML: `<Plain><V>42</V></Plain>`},
{Value: &Plain{float32(1.25)}, ExpectXML: `<Plain><V>1.25</V></Plain>`},
{Value: &Plain{float64(1.25)}, ExpectXML: `<Plain><V>1.25</V></Plain>`},
{Value: &Plain{uintptr(0xFFDD)}, ExpectXML: `<Plain><V>65501</V></Plain>`},
{Value: &Plain{"gopher"}, ExpectXML: `<Plain><V>gopher</V></Plain>`},
{Value: &Plain{[]byte("gopher")}, ExpectXML: `<Plain><V>gopher</V></Plain>`},
{Value: &Plain{"</>"}, ExpectXML: `<Plain><V>&lt;/&gt;</V></Plain>`},
{Value: &Plain{[]byte("</>")}, ExpectXML: `<Plain><V>&lt;/&gt;</V></Plain>`},
{Value: &Plain{[3]byte{'<', '/', '>'}}, ExpectXML: `<Plain><V>&lt;/&gt;</V></Plain>`},
{Value: &Plain{NamedType("potato")}, ExpectXML: `<Plain><V>potato</V></Plain>`},
{Value: &Plain{[]int{1, 2, 3}}, ExpectXML: `<Plain><V>1</V><V>2</V><V>3</V></Plain>`},
{Value: &Plain{[3]int{1, 2, 3}}, ExpectXML: `<Plain><V>1</V><V>2</V><V>3</V></Plain>`},
{Value: ifaceptr(true), MarshalOnly: true, ExpectXML: `<bool>true</bool>`},
// Test time.
{
Value: &Plain{time.Unix(1e9, 123456789).UTC()},
ExpectXML: `<Plain><V>2001-09-09T01:46:40.123456789Z</V></Plain>`,
},
// A pointer to struct{} may be used to test for an element's presence.
{
Value: &PresenceTest{new(struct{})},
ExpectXML: `<PresenceTest><Exists></Exists></PresenceTest>`,
},
{
Value: &PresenceTest{},
ExpectXML: `<PresenceTest></PresenceTest>`,
},
// A pointer to struct{} may be used to test for an element's presence.
{
Value: &PresenceTest{new(struct{})},
ExpectXML: `<PresenceTest><Exists></Exists></PresenceTest>`,
},
{
Value: &PresenceTest{},
ExpectXML: `<PresenceTest></PresenceTest>`,
},
// A []byte field is only nil if the element was not found.
{
Value: &Data{},
ExpectXML: `<Data></Data>`,
UnmarshalOnly: true,
},
{
Value: &Data{Bytes: []byte{}, Custom: MyBytes{}, Attr: []byte{}},
ExpectXML: `<Data Attr=""><Bytes></Bytes><Custom></Custom></Data>`,
UnmarshalOnly: true,
},
// Check that []byte works, including named []byte types.
{
Value: &Data{Bytes: []byte("ab"), Custom: MyBytes("cd"), Attr: []byte{'v'}},
ExpectXML: `<Data Attr="v"><Bytes>ab</Bytes><Custom>cd</Custom></Data>`,
},
// Test innerxml
{
Value: &SecretAgent{
Handle: "007",
Identity: "James Bond",
Obfuscate: "<redacted/>",
},
ExpectXML: `<agent handle="007"><Identity>James Bond</Identity><redacted/></agent>`,
MarshalOnly: true,
},
{
Value: &SecretAgent{
Handle: "007",
Identity: "James Bond",
Obfuscate: "<Identity>James Bond</Identity><redacted/>",
},
ExpectXML: `<agent handle="007"><Identity>James Bond</Identity><redacted/></agent>`,
UnmarshalOnly: true,
},
// Test structs
{Value: &Port{Type: "ssl", Number: "443"}, ExpectXML: `<port type="ssl">443</port>`},
{Value: &Port{Number: "443"}, ExpectXML: `<port>443</port>`},
{Value: &Port{Type: "<unix>"}, ExpectXML: `<port type="&lt;unix&gt;"></port>`},
{Value: &Port{Number: "443", Comment: "https"}, ExpectXML: `<port><!--https-->443</port>`},
{Value: &Port{Number: "443", Comment: "add space-"}, ExpectXML: `<port><!--add space- -->443</port>`, MarshalOnly: true},
{Value: &Domain{Name: []byte("google.com&friends")}, ExpectXML: `<domain>google.com&amp;friends</domain>`},
{Value: &Domain{Name: []byte("google.com"), Comment: []byte(" &friends ")}, ExpectXML: `<domain>google.com<!-- &friends --></domain>`},
{Value: &Book{Title: "Pride & Prejudice"}, ExpectXML: `<book>Pride &amp; Prejudice</book>`},
{Value: &Event{Year: -3114}, ExpectXML: `<event>-3114</event>`},
{Value: &Movie{Length: 13440}, ExpectXML: `<movie>13440</movie>`},
{Value: &Pi{Approximation: 3.14159265}, ExpectXML: `<pi>3.1415927</pi>`},
{Value: &Universe{Visible: 9.3e13}, ExpectXML: `<universe>9.3e+13</universe>`},
{Value: &Particle{HasMass: true}, ExpectXML: `<particle>true</particle>`},
{Value: &Departure{When: ParseTime("2013-01-09T00:15:00-09:00")}, ExpectXML: `<departure>2013-01-09T00:15:00-09:00</departure>`},
{Value: atomValue, ExpectXML: atomXml},
{
Value: &Ship{
Name: "Heart of Gold",
Pilot: "Computer",
Age: 1,
Drive: ImprobabilityDrive,
Passenger: []*Passenger{
{
Name: []string{"Zaphod", "Beeblebrox"},
Weight: 7.25,
},
{
Name: []string{"Trisha", "McMillen"},
Weight: 5.5,
},
{
Name: []string{"Ford", "Prefect"},
Weight: 7,
},
{
Name: []string{"Arthur", "Dent"},
Weight: 6.75,
},
},
},
ExpectXML: `<spaceship name="Heart of Gold" pilot="Computer">` +
`<drive>` + strconv.Itoa(int(ImprobabilityDrive)) + `</drive>` +
`<age>1</age>` +
`<passenger>` +
`<name>Zaphod</name>` +
`<name>Beeblebrox</name>` +
`<weight>7.25</weight>` +
`</passenger>` +
`<passenger>` +
`<name>Trisha</name>` +
`<name>McMillen</name>` +
`<weight>5.5</weight>` +
`</passenger>` +
`<passenger>` +
`<name>Ford</name>` +
`<name>Prefect</name>` +
`<weight>7</weight>` +
`</passenger>` +
`<passenger>` +
`<name>Arthur</name>` +
`<name>Dent</name>` +
`<weight>6.75</weight>` +
`</passenger>` +
`</spaceship>`,
},
// Test a>b
{
Value: &NestedItems{Items: nil, Item1: nil},
ExpectXML: `<result>` +
`<Items>` +
`</Items>` +
`</result>`,
},
{
Value: &NestedItems{Items: []string{}, Item1: []string{}},
ExpectXML: `<result>` +
`<Items>` +
`</Items>` +
`</result>`,
MarshalOnly: true,
},
{
Value: &NestedItems{Items: nil, Item1: []string{"A"}},
ExpectXML: `<result>` +
`<Items>` +
`<item1>A</item1>` +
`</Items>` +
`</result>`,
},
{
Value: &NestedItems{Items: []string{"A", "B"}, Item1: nil},
ExpectXML: `<result>` +
`<Items>` +
`<item>A</item>` +
`<item>B</item>` +
`</Items>` +
`</result>`,
},
{
Value: &NestedItems{Items: []string{"A", "B"}, Item1: []string{"C"}},
ExpectXML: `<result>` +
`<Items>` +
`<item>A</item>` +
`<item>B</item>` +
`<item1>C</item1>` +
`</Items>` +
`</result>`,
},
{
Value: &NestedOrder{Field1: "C", Field2: "B", Field3: "A"},
ExpectXML: `<result>` +
`<parent>` +
`<c>C</c>` +
`<b>B</b>` +
`<a>A</a>` +
`</parent>` +
`</result>`,
},
{
Value: &NilTest{A: "A", B: nil, C: "C"},
ExpectXML: `<NilTest>` +
`<parent1>` +
`<parent2><a>A</a></parent2>` +
`<parent2><c>C</c></parent2>` +
`</parent1>` +
`</NilTest>`,
MarshalOnly: true, // Uses interface{}
},
{
Value: &MixedNested{A: "A", B: "B", C: "C", D: "D"},
ExpectXML: `<result>` +
`<parent1><a>A</a></parent1>` +
`<b>B</b>` +
`<parent1>` +
`<parent2><c>C</c></parent2>` +
`<d>D</d>` +
`</parent1>` +
`</result>`,
},
{
Value: &Service{Port: &Port{Number: "80"}},
ExpectXML: `<service><host><port>80</port></host></service>`,
},
{
Value: &Service{},
ExpectXML: `<service></service>`,
},
{
Value: &Service{Port: &Port{Number: "80"}, Extra1: "A", Extra2: "B"},
ExpectXML: `<service>` +
`<host><port>80</port></host>` +
`<Extra1>A</Extra1>` +
`<host><extra2>B</extra2></host>` +
`</service>`,
MarshalOnly: true,
},
{
Value: &Service{Port: &Port{Number: "80"}, Extra2: "example"},
ExpectXML: `<service>` +
`<host><port>80</port></host>` +
`<host><extra2>example</extra2></host>` +
`</service>`,
MarshalOnly: true,
},
// Test struct embedding
{
Value: &EmbedA{
EmbedC: EmbedC{
FieldA1: "", // Shadowed by A.A
FieldA2: "", // Shadowed by A.A
FieldB: "A.C.B",
FieldC: "A.C.C",
},
EmbedB: EmbedB{
FieldB: "A.B.B",
EmbedC: &EmbedC{
FieldA1: "A.B.C.A1",
FieldA2: "A.B.C.A2",
FieldB: "", // Shadowed by A.B.B
FieldC: "A.B.C.C",
},
},
FieldA: "A.A",
},
ExpectXML: `<EmbedA>` +
`<FieldB>A.C.B</FieldB>` +
`<FieldC>A.C.C</FieldC>` +
`<EmbedB>` +
`<FieldB>A.B.B</FieldB>` +
`<FieldA>` +
`<A1>A.B.C.A1</A1>` +
`<A2>A.B.C.A2</A2>` +
`</FieldA>` +
`<FieldC>A.B.C.C</FieldC>` +
`</EmbedB>` +
`<FieldA>A.A</FieldA>` +
`</EmbedA>`,
},
// Test that name casing matters
{
Value: &NameCasing{Xy: "mixed", XY: "upper", XyA: "mixedA", XYA: "upperA"},
ExpectXML: `<casing Xy="mixedA" XY="upperA"><Xy>mixed</Xy><XY>upper</XY></casing>`,
},
// Test the order in which the XML element name is chosen
{
Value: &NamePrecedence{
FromTag: XMLNameWithoutTag{Value: "A"},
FromNameVal: XMLNameWithoutTag{XMLName: Name{Local: "InXMLName"}, Value: "B"},
FromNameTag: XMLNameWithTag{Value: "C"},
InFieldName: "D",
},
ExpectXML: `<Parent>` +
`<InTag>A</InTag>` +
`<InXMLName>B</InXMLName>` +
`<InXMLNameTag>C</InXMLNameTag>` +
`<InFieldName>D</InFieldName>` +
`</Parent>`,
MarshalOnly: true,
},
{
Value: &NamePrecedence{
XMLName: Name{Local: "Parent"},
FromTag: XMLNameWithoutTag{XMLName: Name{Local: "InTag"}, Value: "A"},
FromNameVal: XMLNameWithoutTag{XMLName: Name{Local: "FromNameVal"}, Value: "B"},
FromNameTag: XMLNameWithTag{XMLName: Name{Local: "InXMLNameTag"}, Value: "C"},
InFieldName: "D",
},
ExpectXML: `<Parent>` +
`<InTag>A</InTag>` +
`<FromNameVal>B</FromNameVal>` +
`<InXMLNameTag>C</InXMLNameTag>` +
`<InFieldName>D</InFieldName>` +
`</Parent>`,
UnmarshalOnly: true,
},
// xml.Name works in a plain field as well.
{
Value: &NameInField{Name{Space: "ns", Local: "foo"}},
ExpectXML: `<NameInField><foo xmlns="ns"></foo></NameInField>`,
},
{
Value: &NameInField{Name{Space: "ns", Local: "foo"}},
ExpectXML: `<NameInField><foo xmlns="ns"><ignore></ignore></foo></NameInField>`,
UnmarshalOnly: true,
},
// Marshaling zero xml.Name uses the tag or field name.
{
Value: &NameInField{},
ExpectXML: `<NameInField><foo xmlns="ns"></foo></NameInField>`,
MarshalOnly: true,
},
// Test attributes
{
Value: &AttrTest{
Int: 8,
Named: 9,
Float: 23.5,
Uint8: 255,
Bool: true,
Str: "str",
Bytes: []byte("byt"),
},
ExpectXML: `<AttrTest Int="8" int="9" Float="23.5" Uint8="255"` +
` Bool="true" Str="str" Bytes="byt"></AttrTest>`,
},
{
Value: &AttrTest{Bytes: []byte{}},
ExpectXML: `<AttrTest Int="0" int="0" Float="0" Uint8="0"` +
` Bool="false" Str="" Bytes=""></AttrTest>`,
},
{
Value: &OmitAttrTest{
Int: 8,
Named: 9,
Float: 23.5,
Uint8: 255,
Bool: true,
Str: "str",
Bytes: []byte("byt"),
},
ExpectXML: `<OmitAttrTest Int="8" int="9" Float="23.5" Uint8="255"` +
` Bool="true" Str="str" Bytes="byt"></OmitAttrTest>`,
},
{
Value: &OmitAttrTest{},
ExpectXML: `<OmitAttrTest></OmitAttrTest>`,
},
// pointer fields
{
Value: &PointerFieldsTest{Name: &nameAttr, Age: &ageAttr, Contents: &contentsAttr},
ExpectXML: `<dummy name="Sarah" age="12">lorem ipsum</dummy>`,
MarshalOnly: true,
},
// empty chardata pointer field
{
Value: &ChardataEmptyTest{},
ExpectXML: `<test></test>`,
MarshalOnly: true,
},
// omitempty on fields
{
Value: &OmitFieldTest{
Int: 8,
Named: 9,
Float: 23.5,
Uint8: 255,
Bool: true,
Str: "str",
Bytes: []byte("byt"),
Ptr: &PresenceTest{},
},
ExpectXML: `<OmitFieldTest>` +
`<Int>8</Int>` +
`<int>9</int>` +
`<Float>23.5</Float>` +
`<Uint8>255</Uint8>` +
`<Bool>true</Bool>` +
`<Str>str</Str>` +
`<Bytes>byt</Bytes>` +
`<Ptr></Ptr>` +
`</OmitFieldTest>`,
},
{
Value: &OmitFieldTest{},
ExpectXML: `<OmitFieldTest></OmitFieldTest>`,
},
// Test ",any"
{
ExpectXML: `<a><nested><value>known</value></nested><other><sub>unknown</sub></other></a>`,
Value: &AnyTest{
Nested: "known",
AnyField: AnyHolder{
XMLName: Name{Local: "other"},
XML: "<sub>unknown</sub>",
},
},
},
{
Value: &AnyTest{Nested: "known",
AnyField: AnyHolder{
XML: "<unknown/>",
XMLName: Name{Local: "AnyField"},
},
},
ExpectXML: `<a><nested><value>known</value></nested><AnyField><unknown/></AnyField></a>`,
},
{
ExpectXML: `<a><nested><value>b</value></nested></a>`,
Value: &AnyOmitTest{
Nested: "b",
},
},
{
ExpectXML: `<a><nested><value>b</value></nested><c><d>e</d></c><g xmlns="f"><h>i</h></g></a>`,
Value: &AnySliceTest{
Nested: "b",
AnyField: []AnyHolder{
{
XMLName: Name{Local: "c"},
XML: "<d>e</d>",
},
{
XMLName: Name{Space: "f", Local: "g"},
XML: "<h>i</h>",
},
},
},
},
{
ExpectXML: `<a><nested><value>b</value></nested></a>`,
Value: &AnySliceTest{
Nested: "b",
},
},
// Test recursive types.
{
Value: &RecurseA{
A: "a1",
B: &RecurseB{
A: &RecurseA{"a2", nil},
B: "b1",
},
},
ExpectXML: `<RecurseA><A>a1</A><B><A><A>a2</A></A><B>b1</B></B></RecurseA>`,
},
// Test ignoring fields via "-" tag
{
ExpectXML: `<IgnoreTest></IgnoreTest>`,
Value: &IgnoreTest{},
},
{
ExpectXML: `<IgnoreTest></IgnoreTest>`,
Value: &IgnoreTest{PublicSecret: "can't tell"},
MarshalOnly: true,
},
{
ExpectXML: `<IgnoreTest><PublicSecret>ignore me</PublicSecret></IgnoreTest>`,
Value: &IgnoreTest{},
UnmarshalOnly: true,
},
// Test escaping.
{
ExpectXML: `<a><nested><value>dquote: &#34;; squote: &#39;; ampersand: &amp;; less: &lt;; greater: &gt;;</value></nested><empty></empty></a>`,
Value: &AnyTest{
Nested: `dquote: "; squote: '; ampersand: &; less: <; greater: >;`,
AnyField: AnyHolder{XMLName: Name{Local: "empty"}},
},
},
{
ExpectXML: `<a><nested><value>newline: &#xA;; cr: &#xD;; tab: &#x9;;</value></nested><AnyField></AnyField></a>`,
Value: &AnyTest{
Nested: "newline: \n; cr: \r; tab: \t;",
AnyField: AnyHolder{XMLName: Name{Local: "AnyField"}},
},
},
{
ExpectXML: "<a><nested><value>1\r2\r\n3\n\r4\n5</value></nested></a>",
Value: &AnyTest{
Nested: "1\n2\n3\n\n4\n5",
},
UnmarshalOnly: true,
},
{
ExpectXML: `<EmbedInt><MyInt>42</MyInt></EmbedInt>`,
Value: &EmbedInt{
MyInt: 42,
},
},
// Test omitempty with parent chain; see golang.org/issue/4168.
{
ExpectXML: `<Strings><A></A></Strings>`,
Value: &Strings{},
},
// Custom marshalers.
{
ExpectXML: `<MyMarshalerTest>hello world</MyMarshalerTest>`,
Value: &MyMarshalerTest{},
},
{
ExpectXML: `<MarshalerStruct Foo="hello world"></MarshalerStruct>`,
Value: &MarshalerStruct{},
},
{
ExpectXML: `<outer xmlns="testns" int="10"></outer>`,
Value: &OuterStruct{IntAttr: 10},
},
{
ExpectXML: `<test xmlns="outerns" int="10"></test>`,
Value: &OuterNamedStruct{XMLName: Name{Space: "outerns", Local: "test"}, IntAttr: 10},
},
{
ExpectXML: `<test xmlns="outerns" int="10"></test>`,
Value: &OuterNamedOrderedStruct{XMLName: Name{Space: "outerns", Local: "test"}, IntAttr: 10},
},
{
ExpectXML: `<outer xmlns="testns" int="10"></outer>`,
Value: &OuterOuterStruct{OuterStruct{IntAttr: 10}},
},
}
func TestMarshal(t *testing.T) {
for idx, test := range marshalTests {
if test.UnmarshalOnly {
continue
}
data, err := Marshal(test.Value)
if err != nil {
t.Errorf("#%d: Error: %s", idx, err)
continue
}
if got, want := string(data), test.ExpectXML; got != want {
if strings.Contains(want, "\n") {
t.Errorf("#%d: marshal(%#v):\nHAVE:\n%s\nWANT:\n%s", idx, test.Value, got, want)
} else {
t.Errorf("#%d: marshal(%#v):\nhave %#q\nwant %#q", idx, test.Value, got, want)
}
}
}
}
type AttrParent struct {
X string `xml:"X>Y,attr"`
}
type BadAttr struct {
Name []string `xml:"name,attr"`
}
var marshalErrorTests = []struct {
Value interface{}
Err string
Kind reflect.Kind
}{
{
Value: make(chan bool),
Err: "xml: unsupported type: chan bool",
Kind: reflect.Chan,
},
{
Value: map[string]string{
"question": "What do you get when you multiply six by nine?",
"answer": "42",
},
Err: "xml: unsupported type: map[string]string",
Kind: reflect.Map,
},
{
Value: map[*Ship]bool{nil: false},
Err: "xml: unsupported type: map[*xml.Ship]bool",
Kind: reflect.Map,
},
{
Value: &Domain{Comment: []byte("f--bar")},
Err: `xml: comments must not contain "--"`,
},
// Reject parent chain with attr, never worked; see golang.org/issue/5033.
{
Value: &AttrParent{},
Err: `xml: X>Y chain not valid with attr flag`,
},
{
Value: BadAttr{[]string{"X", "Y"}},
Err: `xml: unsupported type: []string`,
},
}
var marshalIndentTests = []struct {
Value interface{}
Prefix string
Indent string
ExpectXML string
}{
{
Value: &SecretAgent{
Handle: "007",
Identity: "James Bond",
Obfuscate: "<redacted/>",
},
Prefix: "",
Indent: "\t",
ExpectXML: fmt.Sprintf("<agent handle=\"007\">\n\t<Identity>James Bond</Identity><redacted/>\n</agent>"),
},
}
func TestMarshalErrors(t *testing.T) {
for idx, test := range marshalErrorTests {
data, err := Marshal(test.Value)
if err == nil {
t.Errorf("#%d: marshal(%#v) = [success] %q, want error %v", idx, test.Value, data, test.Err)
continue
}
if err.Error() != test.Err {
t.Errorf("#%d: marshal(%#v) = [error] %v, want %v", idx, test.Value, err, test.Err)
}
if test.Kind != reflect.Invalid {
if kind := err.(*UnsupportedTypeError).Type.Kind(); kind != test.Kind {
t.Errorf("#%d: marshal(%#v) = [error kind] %s, want %s", idx, test.Value, kind, test.Kind)
}
}
}
}
// Do invertibility testing on the various structures that we test
func TestUnmarshal(t *testing.T) {
for i, test := range marshalTests {
if test.MarshalOnly {
continue
}
if _, ok := test.Value.(*Plain); ok {
continue
}
vt := reflect.TypeOf(test.Value)
dest := reflect.New(vt.Elem()).Interface()
err := Unmarshal([]byte(test.ExpectXML), dest)
switch fix := dest.(type) {
case *Feed:
fix.Author.InnerXML = ""
for i := range fix.Entry {
fix.Entry[i].Author.InnerXML = ""
}
}
if err != nil {
t.Errorf("#%d: unexpected error: %#v", i, err)
} else if got, want := dest, test.Value; !reflect.DeepEqual(got, want) {
t.Errorf("#%d: unmarshal(%q):\nhave %#v\nwant %#v", i, test.ExpectXML, got, want)
}
}
}
func TestMarshalIndent(t *testing.T) {
for i, test := range marshalIndentTests {
data, err := MarshalIndent(test.Value, test.Prefix, test.Indent)
if err != nil {
t.Errorf("#%d: Error: %s", i, err)
continue
}
if got, want := string(data), test.ExpectXML; got != want {
t.Errorf("#%d: MarshalIndent:\nGot:%s\nWant:\n%s", i, got, want)
}
}
}
type limitedBytesWriter struct {
w io.Writer
remain int // until writes fail
}
func (lw *limitedBytesWriter) Write(p []byte) (n int, err error) {
if lw.remain <= 0 {
println("error")
return 0, errors.New("write limit hit")
}
if len(p) > lw.remain {
p = p[:lw.remain]
n, _ = lw.w.Write(p)
lw.remain = 0
return n, errors.New("write limit hit")
}
n, err = lw.w.Write(p)
lw.remain -= n
return n, err
}
func TestMarshalWriteErrors(t *testing.T) {
var buf bytes.Buffer
const writeCap = 1024
w := &limitedBytesWriter{&buf, writeCap}
enc := NewEncoder(w)
var err error
var i int
const n = 4000
for i = 1; i <= n; i++ {
err = enc.Encode(&Passenger{
Name: []string{"Alice", "Bob"},
Weight: 5,
})
if err != nil {
break
}
}
if err == nil {
t.Error("expected an error")
}
if i == n {
t.Errorf("expected to fail before the end")
}
if buf.Len() != writeCap {
t.Errorf("buf.Len() = %d; want %d", buf.Len(), writeCap)
}
}
func TestMarshalWriteIOErrors(t *testing.T) {
enc := NewEncoder(errWriter{})
expectErr := "unwritable"
err := enc.Encode(&Passenger{})
if err == nil || err.Error() != expectErr {
t.Errorf("EscapeTest = [error] %v, want %v", err, expectErr)
}
}
func TestMarshalFlush(t *testing.T) {
var buf bytes.Buffer
enc := NewEncoder(&buf)
if err := enc.EncodeToken(CharData("hello world")); err != nil {
t.Fatalf("enc.EncodeToken: %v", err)
}
if buf.Len() > 0 {
t.Fatalf("enc.EncodeToken caused actual write: %q", buf.Bytes())
}
if err := enc.Flush(); err != nil {
t.Fatalf("enc.Flush: %v", err)
}
if buf.String() != "hello world" {
t.Fatalf("after enc.Flush, buf.String() = %q, want %q", buf.String(), "hello world")
}
}
func BenchmarkMarshal(b *testing.B) {
for i := 0; i < b.N; i++ {
Marshal(atomValue)
}
}
func BenchmarkUnmarshal(b *testing.B) {
xml := []byte(atomXml)
for i := 0; i < b.N; i++ {
Unmarshal(xml, &Feed{})
}
}
// golang.org/issue/6556
func TestStructPointerMarshal(t *testing.T) {
type A struct {
XMLName string `xml:"a"`
B []interface{}
}
type C struct {
XMLName Name
Value string `xml:"value"`
}
a := new(A)
a.B = append(a.B, &C{
XMLName: Name{Local: "c"},
Value: "x",
})
b, err := Marshal(a)
if err != nil {
t.Fatal(err)
}
if x := string(b); x != "<a><c><value>x</value></c></a>" {
t.Fatal(x)
}
var v A
err = Unmarshal(b, &v)
if err != nil {
t.Fatal(err)
}
}
var encodeTokenTests = []struct {
tok Token
want string
ok bool
}{
{StartElement{Name{"space", "local"}, nil}, "<local xmlns=\"space\">", true},
{StartElement{Name{"space", ""}, nil}, "", false},
{EndElement{Name{"space", ""}}, "", false},
{CharData("foo"), "foo", true},
{Comment("foo"), "<!--foo-->", true},
{Comment("foo-->"), "", false},
{ProcInst{"Target", []byte("Instruction")}, "<?Target Instruction?>", true},
{ProcInst{"", []byte("Instruction")}, "", false},
{ProcInst{"Target", []byte("Instruction?>")}, "", false},
{Directive("foo"), "<!foo>", true},
{Directive("foo>"), "", false},
}
func TestEncodeToken(t *testing.T) {
for _, tt := range encodeTokenTests {
var buf bytes.Buffer
enc := NewEncoder(&buf)
err := enc.EncodeToken(tt.tok)
switch {
case !tt.ok && err == nil:
t.Errorf("enc.EncodeToken(%#v): expected error; got none", tt.tok)
case tt.ok && err != nil:
t.Fatalf("enc.EncodeToken: %v", err)
case !tt.ok && err != nil:
// expected error, got one
}
if err := enc.Flush(); err != nil {
t.Fatalf("enc.EncodeToken: %v", err)
}
if got := buf.String(); got != tt.want {
t.Errorf("enc.EncodeToken = %s; want: %s", got, tt.want)
}
}
}
func TestProcInstEncodeToken(t *testing.T) {
var buf bytes.Buffer
enc := NewEncoder(&buf)
if err := enc.EncodeToken(ProcInst{"xml", []byte("Instruction")}); err != nil {
t.Fatalf("enc.EncodeToken: expected to be able to encode xml target ProcInst as first token, %s", err)
}
if err := enc.EncodeToken(ProcInst{"Target", []byte("Instruction")}); err != nil {
t.Fatalf("enc.EncodeToken: expected to be able to add non-xml target ProcInst")
}
if err := enc.EncodeToken(ProcInst{"xml", []byte("Instruction")}); err == nil {
t.Fatalf("enc.EncodeToken: expected to not be allowed to encode xml target ProcInst when not first token")
}
}
func TestDecodeEncode(t *testing.T) {
var in, out bytes.Buffer
in.WriteString(`<?xml version="1.0" encoding="UTF-8"?>
<?Target Instruction?>
<root>
</root>
`)
dec := NewDecoder(&in)
enc := NewEncoder(&out)
for tok, err := dec.Token(); err == nil; tok, err = dec.Token() {
err = enc.EncodeToken(tok)
if err != nil {
t.Fatalf("enc.EncodeToken: Unable to encode token (%#v), %v", tok, err)
}
}
}