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dispatch/vendor/github.com/BurntSushi/toml/decode_test.go

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package toml
import (
"fmt"
"log"
"reflect"
"testing"
"time"
)
func init() {
log.SetFlags(0)
}
func TestDecodeSimple(t *testing.T) {
var testSimple = `
age = 250
andrew = "gallant"
kait = "brady"
now = 1987-07-05T05:45:00Z
yesOrNo = true
pi = 3.14
colors = [
["red", "green", "blue"],
["cyan", "magenta", "yellow", "black"],
]
[My.Cats]
plato = "cat 1"
cauchy = "cat 2"
`
type cats struct {
Plato string
Cauchy string
}
type simple struct {
Age int
Colors [][]string
Pi float64
YesOrNo bool
Now time.Time
Andrew string
Kait string
My map[string]cats
}
var val simple
_, err := Decode(testSimple, &val)
if err != nil {
t.Fatal(err)
}
now, err := time.Parse("2006-01-02T15:04:05", "1987-07-05T05:45:00")
if err != nil {
panic(err)
}
var answer = simple{
Age: 250,
Andrew: "gallant",
Kait: "brady",
Now: now,
YesOrNo: true,
Pi: 3.14,
Colors: [][]string{
{"red", "green", "blue"},
{"cyan", "magenta", "yellow", "black"},
},
My: map[string]cats{
"Cats": {Plato: "cat 1", Cauchy: "cat 2"},
},
}
if !reflect.DeepEqual(val, answer) {
t.Fatalf("Expected\n-----\n%#v\n-----\nbut got\n-----\n%#v\n",
answer, val)
}
}
func TestDecodeEmbedded(t *testing.T) {
type Dog struct{ Name string }
type Age int
tests := map[string]struct {
input string
decodeInto interface{}
wantDecoded interface{}
}{
"embedded struct": {
input: `Name = "milton"`,
decodeInto: &struct{ Dog }{},
wantDecoded: &struct{ Dog }{Dog{"milton"}},
},
"embedded non-nil pointer to struct": {
input: `Name = "milton"`,
decodeInto: &struct{ *Dog }{},
wantDecoded: &struct{ *Dog }{&Dog{"milton"}},
},
"embedded nil pointer to struct": {
input: ``,
decodeInto: &struct{ *Dog }{},
wantDecoded: &struct{ *Dog }{nil},
},
"embedded int": {
input: `Age = -5`,
decodeInto: &struct{ Age }{},
wantDecoded: &struct{ Age }{-5},
},
}
for label, test := range tests {
_, err := Decode(test.input, test.decodeInto)
if err != nil {
t.Fatal(err)
}
if !reflect.DeepEqual(test.wantDecoded, test.decodeInto) {
t.Errorf("%s: want decoded == %+v, got %+v",
label, test.wantDecoded, test.decodeInto)
}
}
}
func TestDecodeIgnoredFields(t *testing.T) {
type simple struct {
Number int `toml:"-"`
}
const input = `
Number = 123
- = 234
`
var s simple
if _, err := Decode(input, &s); err != nil {
t.Fatal(err)
}
if s.Number != 0 {
t.Errorf("got: %d; want 0", s.Number)
}
}
func TestTableArrays(t *testing.T) {
var tomlTableArrays = `
[[albums]]
name = "Born to Run"
[[albums.songs]]
name = "Jungleland"
[[albums.songs]]
name = "Meeting Across the River"
[[albums]]
name = "Born in the USA"
[[albums.songs]]
name = "Glory Days"
[[albums.songs]]
name = "Dancing in the Dark"
`
type Song struct {
Name string
}
type Album struct {
Name string
Songs []Song
}
type Music struct {
Albums []Album
}
expected := Music{[]Album{
{"Born to Run", []Song{{"Jungleland"}, {"Meeting Across the River"}}},
{"Born in the USA", []Song{{"Glory Days"}, {"Dancing in the Dark"}}},
}}
var got Music
if _, err := Decode(tomlTableArrays, &got); err != nil {
t.Fatal(err)
}
if !reflect.DeepEqual(expected, got) {
t.Fatalf("\n%#v\n!=\n%#v\n", expected, got)
}
}
// Case insensitive matching tests.
// A bit more comprehensive than needed given the current implementation,
// but implementations change.
// Probably still missing demonstrations of some ugly corner cases regarding
// case insensitive matching and multiple fields.
func TestCase(t *testing.T) {
var caseToml = `
tOpString = "string"
tOpInt = 1
tOpFloat = 1.1
tOpBool = true
tOpdate = 2006-01-02T15:04:05Z
tOparray = [ "array" ]
Match = "i should be in Match only"
MatcH = "i should be in MatcH only"
once = "just once"
[nEst.eD]
nEstedString = "another string"
`
type InsensitiveEd struct {
NestedString string
}
type InsensitiveNest struct {
Ed InsensitiveEd
}
type Insensitive struct {
TopString string
TopInt int
TopFloat float64
TopBool bool
TopDate time.Time
TopArray []string
Match string
MatcH string
Once string
OncE string
Nest InsensitiveNest
}
tme, err := time.Parse(time.RFC3339, time.RFC3339[:len(time.RFC3339)-5])
if err != nil {
panic(err)
}
expected := Insensitive{
TopString: "string",
TopInt: 1,
TopFloat: 1.1,
TopBool: true,
TopDate: tme,
TopArray: []string{"array"},
MatcH: "i should be in MatcH only",
Match: "i should be in Match only",
Once: "just once",
OncE: "",
Nest: InsensitiveNest{
Ed: InsensitiveEd{NestedString: "another string"},
},
}
var got Insensitive
if _, err := Decode(caseToml, &got); err != nil {
t.Fatal(err)
}
if !reflect.DeepEqual(expected, got) {
t.Fatalf("\n%#v\n!=\n%#v\n", expected, got)
}
}
func TestPointers(t *testing.T) {
type Object struct {
Type string
Description string
}
type Dict struct {
NamedObject map[string]*Object
BaseObject *Object
Strptr *string
Strptrs []*string
}
s1, s2, s3 := "blah", "abc", "def"
expected := &Dict{
Strptr: &s1,
Strptrs: []*string{&s2, &s3},
NamedObject: map[string]*Object{
"foo": {"FOO", "fooooo!!!"},
"bar": {"BAR", "ba-ba-ba-ba-barrrr!!!"},
},
BaseObject: &Object{"BASE", "da base"},
}
ex1 := `
Strptr = "blah"
Strptrs = ["abc", "def"]
[NamedObject.foo]
Type = "FOO"
Description = "fooooo!!!"
[NamedObject.bar]
Type = "BAR"
Description = "ba-ba-ba-ba-barrrr!!!"
[BaseObject]
Type = "BASE"
Description = "da base"
`
dict := new(Dict)
_, err := Decode(ex1, dict)
if err != nil {
t.Errorf("Decode error: %v", err)
}
if !reflect.DeepEqual(expected, dict) {
t.Fatalf("\n%#v\n!=\n%#v\n", expected, dict)
}
}
func TestDecodeBadTimestamp(t *testing.T) {
var x struct {
T time.Time
}
for _, s := range []string{
"T = 123", "T = 2006-01-50T00:00:00Z", "T = 2006-01-30T00:00:00",
} {
if _, err := Decode(s, &x); err == nil {
t.Errorf("Expected invalid DateTime error for %q", s)
}
}
}
func TestDecodeMultilineStrings(t *testing.T) {
var x struct {
S string
}
const s0 = `s = """
a b \n c
d e f
"""`
if _, err := Decode(s0, &x); err != nil {
t.Fatal(err)
}
if want := "a b \n c\nd e f\n"; x.S != want {
t.Errorf("got: %q; want: %q", x.S, want)
}
const s1 = `s = """a b c\
"""`
if _, err := Decode(s1, &x); err != nil {
t.Fatal(err)
}
if want := "a b c"; x.S != want {
t.Errorf("got: %q; want: %q", x.S, want)
}
}
type sphere struct {
Center [3]float64
Radius float64
}
func TestDecodeSimpleArray(t *testing.T) {
var s1 sphere
if _, err := Decode(`center = [0.0, 1.5, 0.0]`, &s1); err != nil {
t.Fatal(err)
}
}
func TestDecodeArrayWrongSize(t *testing.T) {
var s1 sphere
if _, err := Decode(`center = [0.1, 2.3]`, &s1); err == nil {
t.Fatal("Expected array type mismatch error")
}
}
func TestDecodeLargeIntoSmallInt(t *testing.T) {
type table struct {
Value int8
}
var tab table
if _, err := Decode(`value = 500`, &tab); err == nil {
t.Fatal("Expected integer out-of-bounds error.")
}
}
func TestDecodeSizedInts(t *testing.T) {
type table struct {
U8 uint8
U16 uint16
U32 uint32
U64 uint64
U uint
I8 int8
I16 int16
I32 int32
I64 int64
I int
}
answer := table{1, 1, 1, 1, 1, -1, -1, -1, -1, -1}
toml := `
u8 = 1
u16 = 1
u32 = 1
u64 = 1
u = 1
i8 = -1
i16 = -1
i32 = -1
i64 = -1
i = -1
`
var tab table
if _, err := Decode(toml, &tab); err != nil {
t.Fatal(err.Error())
}
if answer != tab {
t.Fatalf("Expected %#v but got %#v", answer, tab)
}
}
func TestUnmarshaler(t *testing.T) {
var tomlBlob = `
[dishes.hamboogie]
name = "Hamboogie with fries"
price = 10.99
[[dishes.hamboogie.ingredients]]
name = "Bread Bun"
[[dishes.hamboogie.ingredients]]
name = "Lettuce"
[[dishes.hamboogie.ingredients]]
name = "Real Beef Patty"
[[dishes.hamboogie.ingredients]]
name = "Tomato"
[dishes.eggsalad]
name = "Egg Salad with rice"
price = 3.99
[[dishes.eggsalad.ingredients]]
name = "Egg"
[[dishes.eggsalad.ingredients]]
name = "Mayo"
[[dishes.eggsalad.ingredients]]
name = "Rice"
`
m := &menu{}
if _, err := Decode(tomlBlob, m); err != nil {
log.Fatal(err)
}
if len(m.Dishes) != 2 {
t.Log("two dishes should be loaded with UnmarshalTOML()")
t.Errorf("expected %d but got %d", 2, len(m.Dishes))
}
eggSalad := m.Dishes["eggsalad"]
if _, ok := interface{}(eggSalad).(dish); !ok {
t.Errorf("expected a dish")
}
if eggSalad.Name != "Egg Salad with rice" {
t.Errorf("expected the dish to be named 'Egg Salad with rice'")
}
if len(eggSalad.Ingredients) != 3 {
t.Log("dish should be loaded with UnmarshalTOML()")
t.Errorf("expected %d but got %d", 3, len(eggSalad.Ingredients))
}
found := false
for _, i := range eggSalad.Ingredients {
if i.Name == "Rice" {
found = true
break
}
}
if !found {
t.Error("Rice was not loaded in UnmarshalTOML()")
}
// test on a value - must be passed as *
o := menu{}
if _, err := Decode(tomlBlob, &o); err != nil {
log.Fatal(err)
}
}
type menu struct {
Dishes map[string]dish
}
func (m *menu) UnmarshalTOML(p interface{}) error {
m.Dishes = make(map[string]dish)
data, _ := p.(map[string]interface{})
dishes := data["dishes"].(map[string]interface{})
for n, v := range dishes {
if d, ok := v.(map[string]interface{}); ok {
nd := dish{}
nd.UnmarshalTOML(d)
m.Dishes[n] = nd
} else {
return fmt.Errorf("not a dish")
}
}
return nil
}
type dish struct {
Name string
Price float32
Ingredients []ingredient
}
func (d *dish) UnmarshalTOML(p interface{}) error {
data, _ := p.(map[string]interface{})
d.Name, _ = data["name"].(string)
d.Price, _ = data["price"].(float32)
ingredients, _ := data["ingredients"].([]map[string]interface{})
for _, e := range ingredients {
n, _ := interface{}(e).(map[string]interface{})
name, _ := n["name"].(string)
i := ingredient{name}
d.Ingredients = append(d.Ingredients, i)
}
return nil
}
type ingredient struct {
Name string
}
func TestDecodeSlices(t *testing.T) {
s := struct{ Test []string }{Test: []string{}}
if _, err := Decode(`Test = ["test"]`, &s); err != nil {
t.Errorf("Error decoding into empty slice: %s", err)
}
s.Test = []string{"a", "b", "c"}
if _, err := Decode(`Test = ["test"]`, &s); err != nil {
t.Errorf("Error decoding into oversized slice: %s", err)
}
if want := []string{"test"}; !reflect.DeepEqual(s.Test, want) {
t.Errorf("Got %v; want %v", s.Test, want)
}
}
func ExampleMetaData_PrimitiveDecode() {
var md MetaData
var err error
var tomlBlob = `
ranking = ["Springsteen", "J Geils"]
[bands.Springsteen]
started = 1973
albums = ["Greetings", "WIESS", "Born to Run", "Darkness"]
[bands."J Geils"]
started = 1970
albums = ["The J. Geils Band", "Full House", "Blow Your Face Out"]
`
type band struct {
Started int
Albums []string
}
type classics struct {
Ranking []string
Bands map[string]Primitive
}
// Do the initial decode. Reflection is delayed on Primitive values.
var music classics
if md, err = Decode(tomlBlob, &music); err != nil {
log.Fatal(err)
}
// MetaData still includes information on Primitive values.
fmt.Printf("Is `bands.Springsteen` defined? %v\n",
md.IsDefined("bands", "Springsteen"))
// Decode primitive data into Go values.
for _, artist := range music.Ranking {
// A band is a primitive value, so we need to decode it to get a
// real `band` value.
primValue := music.Bands[artist]
var aBand band
if err = md.PrimitiveDecode(primValue, &aBand); err != nil {
log.Fatal(err)
}
fmt.Printf("%s started in %d.\n", artist, aBand.Started)
}
// Check to see if there were any fields left undecoded.
// Note that this won't be empty before decoding the Primitive value!
fmt.Printf("Undecoded: %q\n", md.Undecoded())
// Output:
// Is `bands.Springsteen` defined? true
// Springsteen started in 1973.
// J Geils started in 1970.
// Undecoded: []
}
func ExampleDecode() {
var tomlBlob = `
# Some comments.
[alpha]
ip = "10.0.0.1"
[alpha.config]
Ports = [ 8001, 8002 ]
Location = "Toronto"
Created = 1987-07-05T05:45:00Z
[beta]
ip = "10.0.0.2"
[beta.config]
Ports = [ 9001, 9002 ]
Location = "New Jersey"
Created = 1887-01-05T05:55:00Z
`
type serverConfig struct {
Ports []int
Location string
Created time.Time
}
type server struct {
IP string `toml:"ip,omitempty"`
Config serverConfig `toml:"config"`
}
type servers map[string]server
var config servers
if _, err := Decode(tomlBlob, &config); err != nil {
log.Fatal(err)
}
for _, name := range []string{"alpha", "beta"} {
s := config[name]
fmt.Printf("Server: %s (ip: %s) in %s created on %s\n",
name, s.IP, s.Config.Location,
s.Config.Created.Format("2006-01-02"))
fmt.Printf("Ports: %v\n", s.Config.Ports)
}
// Output:
// Server: alpha (ip: 10.0.0.1) in Toronto created on 1987-07-05
// Ports: [8001 8002]
// Server: beta (ip: 10.0.0.2) in New Jersey created on 1887-01-05
// Ports: [9001 9002]
}
type duration struct {
time.Duration
}
func (d *duration) UnmarshalText(text []byte) error {
var err error
d.Duration, err = time.ParseDuration(string(text))
return err
}
// Example Unmarshaler shows how to decode TOML strings into your own
// custom data type.
func Example_unmarshaler() {
blob := `
[[song]]
name = "Thunder Road"
duration = "4m49s"
[[song]]
name = "Stairway to Heaven"
duration = "8m03s"
`
type song struct {
Name string
Duration duration
}
type songs struct {
Song []song
}
var favorites songs
if _, err := Decode(blob, &favorites); err != nil {
log.Fatal(err)
}
// Code to implement the TextUnmarshaler interface for `duration`:
//
// type duration struct {
// time.Duration
// }
//
// func (d *duration) UnmarshalText(text []byte) error {
// var err error
// d.Duration, err = time.ParseDuration(string(text))
// return err
// }
for _, s := range favorites.Song {
fmt.Printf("%s (%s)\n", s.Name, s.Duration)
}
// Output:
// Thunder Road (4m49s)
// Stairway to Heaven (8m3s)
}
// Example StrictDecoding shows how to detect whether there are keys in the
// TOML document that weren't decoded into the value given. This is useful
// for returning an error to the user if they've included extraneous fields
// in their configuration.
func Example_strictDecoding() {
var blob = `
key1 = "value1"
key2 = "value2"
key3 = "value3"
`
type config struct {
Key1 string
Key3 string
}
var conf config
md, err := Decode(blob, &conf)
if err != nil {
log.Fatal(err)
}
fmt.Printf("Undecoded keys: %q\n", md.Undecoded())
// Output:
// Undecoded keys: ["key2"]
}
// Example UnmarshalTOML shows how to implement a struct type that knows how to
// unmarshal itself. The struct must take full responsibility for mapping the
// values passed into the struct. The method may be used with interfaces in a
// struct in cases where the actual type is not known until the data is
// examined.
func Example_unmarshalTOML() {
var blob = `
[[parts]]
type = "valve"
id = "valve-1"
size = 1.2
rating = 4
[[parts]]
type = "valve"
id = "valve-2"
size = 2.1
rating = 5
[[parts]]
type = "pipe"
id = "pipe-1"
length = 2.1
diameter = 12
[[parts]]
type = "cable"
id = "cable-1"
length = 12
rating = 3.1
`
o := &order{}
err := Unmarshal([]byte(blob), o)
if err != nil {
log.Fatal(err)
}
fmt.Println(len(o.parts))
for _, part := range o.parts {
fmt.Println(part.Name())
}
// Code to implement UmarshalJSON.
// type order struct {
// // NOTE `order.parts` is a private slice of type `part` which is an
// // interface and may only be loaded from toml using the
// // UnmarshalTOML() method of the Umarshaler interface.
// parts parts
// }
// func (o *order) UnmarshalTOML(data interface{}) error {
// // NOTE the example below contains detailed type casting to show how
// // the 'data' is retrieved. In operational use, a type cast wrapper
// // may be prefered e.g.
// //
// // func AsMap(v interface{}) (map[string]interface{}, error) {
// // return v.(map[string]interface{})
// // }
// //
// // resulting in:
// // d, _ := AsMap(data)
// //
// d, _ := data.(map[string]interface{})
// parts, _ := d["parts"].([]map[string]interface{})
// for _, p := range parts {
// typ, _ := p["type"].(string)
// id, _ := p["id"].(string)
// // detect the type of part and handle each case
// switch p["type"] {
// case "valve":
// size := float32(p["size"].(float64))
// rating := int(p["rating"].(int64))
// valve := &valve{
// Type: typ,
// ID: id,
// Size: size,
// Rating: rating,
// }
// o.parts = append(o.parts, valve)
// case "pipe":
// length := float32(p["length"].(float64))
// diameter := int(p["diameter"].(int64))
// pipe := &pipe{
// Type: typ,
// ID: id,
// Length: length,
// Diameter: diameter,
// }
// o.parts = append(o.parts, pipe)
// case "cable":
// length := int(p["length"].(int64))
// rating := float32(p["rating"].(float64))
// cable := &cable{
// Type: typ,
// ID: id,
// Length: length,
// Rating: rating,
// }
// o.parts = append(o.parts, cable)
// }
// }
// return nil
// }
// type parts []part
// type part interface {
// Name() string
// }
// type valve struct {
// Type string
// ID string
// Size float32
// Rating int
// }
// func (v *valve) Name() string {
// return fmt.Sprintf("VALVE: %s", v.ID)
// }
// type pipe struct {
// Type string
// ID string
// Length float32
// Diameter int
// }
// func (p *pipe) Name() string {
// return fmt.Sprintf("PIPE: %s", p.ID)
// }
// type cable struct {
// Type string
// ID string
// Length int
// Rating float32
// }
// func (c *cable) Name() string {
// return fmt.Sprintf("CABLE: %s", c.ID)
// }
// Output:
// 4
// VALVE: valve-1
// VALVE: valve-2
// PIPE: pipe-1
// CABLE: cable-1
}
type order struct {
// NOTE `order.parts` is a private slice of type `part` which is an
// interface and may only be loaded from toml using the UnmarshalTOML()
// method of the Umarshaler interface.
parts parts
}
func (o *order) UnmarshalTOML(data interface{}) error {
// NOTE the example below contains detailed type casting to show how
// the 'data' is retrieved. In operational use, a type cast wrapper
// may be prefered e.g.
//
// func AsMap(v interface{}) (map[string]interface{}, error) {
// return v.(map[string]interface{})
// }
//
// resulting in:
// d, _ := AsMap(data)
//
d, _ := data.(map[string]interface{})
parts, _ := d["parts"].([]map[string]interface{})
for _, p := range parts {
typ, _ := p["type"].(string)
id, _ := p["id"].(string)
// detect the type of part and handle each case
switch p["type"] {
case "valve":
size := float32(p["size"].(float64))
rating := int(p["rating"].(int64))
valve := &valve{
Type: typ,
ID: id,
Size: size,
Rating: rating,
}
o.parts = append(o.parts, valve)
case "pipe":
length := float32(p["length"].(float64))
diameter := int(p["diameter"].(int64))
pipe := &pipe{
Type: typ,
ID: id,
Length: length,
Diameter: diameter,
}
o.parts = append(o.parts, pipe)
case "cable":
length := int(p["length"].(int64))
rating := float32(p["rating"].(float64))
cable := &cable{
Type: typ,
ID: id,
Length: length,
Rating: rating,
}
o.parts = append(o.parts, cable)
}
}
return nil
}
type parts []part
type part interface {
Name() string
}
type valve struct {
Type string
ID string
Size float32
Rating int
}
func (v *valve) Name() string {
return fmt.Sprintf("VALVE: %s", v.ID)
}
type pipe struct {
Type string
ID string
Length float32
Diameter int
}
func (p *pipe) Name() string {
return fmt.Sprintf("PIPE: %s", p.ID)
}
type cable struct {
Type string
ID string
Length int
Rating float32
}
func (c *cable) Name() string {
return fmt.Sprintf("CABLE: %s", c.ID)
}
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