package wire
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import (
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"bytes"
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"fmt"
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"reflect"
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"testing"
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"time"
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. "github.com/tendermint/tendermint/common"
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)
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type SimpleStruct struct {
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String string
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Bytes []byte
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Time time.Time
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}
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type Animal interface{}
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const (
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AnimalTypeCat = byte(0x01)
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AnimalTypeDog = byte(0x02)
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AnimalTypeSnake = byte(0x03)
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AnimalTypeViper = byte(0x04)
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)
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// Implements Animal
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type Cat struct {
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SimpleStruct
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}
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// Implements Animal
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type Dog struct {
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SimpleStruct
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}
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// Implements Animal
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type Snake []byte
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// Implements Animal
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type Viper struct {
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Bytes []byte
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}
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var _ = RegisterInterface(
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struct{ Animal }{},
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ConcreteType{Cat{}, AnimalTypeCat},
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ConcreteType{Dog{}, AnimalTypeDog},
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ConcreteType{Snake{}, AnimalTypeSnake},
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ConcreteType{&Viper{}, AnimalTypeViper},
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)
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// TODO: add assertions here ...
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func TestAnimalInterface(t *testing.T) {
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var foo Animal
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// Type of pointer to Animal
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rt := reflect.TypeOf(&foo)
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fmt.Printf("rt: %v\n", rt)
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// Type of Animal itself.
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// NOTE: normally this is acquired through other means
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// like introspecting on method signatures, or struct fields.
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rte := rt.Elem()
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fmt.Printf("rte: %v\n", rte)
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// Get a new pointer to the interface
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// NOTE: calling .Interface() is to get the actual value,
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// instead of reflection values.
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ptr := reflect.New(rte).Interface()
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fmt.Printf("ptr: %v", ptr)
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// Make a binary byteslice that represents a *snake.
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foo = Snake([]byte("snake"))
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snakeBytes := BinaryBytes(foo)
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snakeReader := bytes.NewReader(snakeBytes)
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// Now you can read it.
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n, err := new(int64), new(error)
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it := ReadBinary(foo, snakeReader, n, err).(Animal)
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fmt.Println(it, reflect.TypeOf(it))
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}
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//-------------------------------------
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type Constructor func() interface{}
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type Instantiator func() (o interface{}, ptr interface{})
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type Validator func(o interface{}, t *testing.T)
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type TestCase struct {
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Constructor
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Instantiator
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Validator
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}
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//-------------------------------------
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func constructBasic() interface{} {
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cat := Cat{
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SimpleStruct{
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String: "String",
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Bytes: []byte("Bytes"),
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Time: time.Unix(123, 456789999),
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},
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}
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return cat
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}
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func instantiateBasic() (interface{}, interface{}) {
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return Cat{}, &Cat{}
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}
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func validateBasic(o interface{}, t *testing.T) {
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cat := o.(Cat)
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if cat.String != "String" {
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t.Errorf("Expected cat.String == 'String', got %v", cat.String)
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}
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if string(cat.Bytes) != "Bytes" {
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t.Errorf("Expected cat.Bytes == 'Bytes', got %X", cat.Bytes)
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}
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if cat.Time.UnixNano() != 123456000000 { // Only milliseconds
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t.Errorf("Expected cat.Time.UnixNano() == 123456000000, got %v", cat.Time.UnixNano())
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}
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}
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//-------------------------------------
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type NilTestStruct struct {
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IntPtr *int
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CatPtr *Cat
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Animal Animal
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}
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func constructNilTestStruct() interface{} {
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return NilTestStruct{}
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}
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func instantiateNilTestStruct() (interface{}, interface{}) {
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return NilTestStruct{}, &NilTestStruct{}
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}
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func validateNilTestStruct(o interface{}, t *testing.T) {
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nts := o.(NilTestStruct)
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if nts.IntPtr != nil {
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t.Errorf("Expected nts.IntPtr to be nil, got %v", nts.IntPtr)
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}
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if nts.CatPtr != nil {
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t.Errorf("Expected nts.CatPtr to be nil, got %v", nts.CatPtr)
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}
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if nts.Animal != nil {
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t.Errorf("Expected nts.Animal to be nil, got %v", nts.Animal)
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}
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}
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//-------------------------------------
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type ComplexStruct struct {
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Name string
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Animal Animal
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}
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func constructComplex() interface{} {
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c := ComplexStruct{
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Name: "Complex",
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Animal: constructBasic(),
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}
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return c
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}
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func instantiateComplex() (interface{}, interface{}) {
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return ComplexStruct{}, &ComplexStruct{}
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}
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func validateComplex(o interface{}, t *testing.T) {
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c2 := o.(ComplexStruct)
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if cat, ok := c2.Animal.(Cat); ok {
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validateBasic(cat, t)
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} else {
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t.Errorf("Expected c2.Animal to be of type cat, got %v", reflect.ValueOf(c2.Animal).Elem().Type())
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}
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}
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//-------------------------------------
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type ComplexStruct2 struct {
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Cat Cat
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Dog *Dog
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Snake Snake
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Snake2 *Snake
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Viper Viper
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Viper2 *Viper
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}
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func constructComplex2() interface{} {
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snake_ := Snake([]byte("hiss"))
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snakePtr_ := &snake_
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c := ComplexStruct2{
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Cat: Cat{
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SimpleStruct{
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String: "String",
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Bytes: []byte("Bytes"),
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},
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},
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Dog: &Dog{
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SimpleStruct{
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String: "Woof",
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Bytes: []byte("Bark"),
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},
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},
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Snake: Snake([]byte("hiss")),
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Snake2: snakePtr_,
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Viper: Viper{Bytes: []byte("hizz")},
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Viper2: &Viper{Bytes: []byte("hizz")},
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}
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return c
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}
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func instantiateComplex2() (interface{}, interface{}) {
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return ComplexStruct2{}, &ComplexStruct2{}
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}
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func validateComplex2(o interface{}, t *testing.T) {
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c2 := o.(ComplexStruct2)
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cat := c2.Cat
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if cat.String != "String" {
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t.Errorf("Expected cat.String == 'String', got %v", cat.String)
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}
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if string(cat.Bytes) != "Bytes" {
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t.Errorf("Expected cat.Bytes == 'Bytes', got %X", cat.Bytes)
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}
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dog := c2.Dog
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if dog.String != "Woof" {
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t.Errorf("Expected dog.String == 'Woof', got %v", dog.String)
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}
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if string(dog.Bytes) != "Bark" {
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t.Errorf("Expected dog.Bytes == 'Bark', got %X", dog.Bytes)
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}
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snake := c2.Snake
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if string(snake) != "hiss" {
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t.Errorf("Expected string(snake) == 'hiss', got %v", string(snake))
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}
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snake2 := c2.Snake2
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if string(*snake2) != "hiss" {
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t.Errorf("Expected string(snake2) == 'hiss', got %v", string(*snake2))
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}
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viper := c2.Viper
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if string(viper.Bytes) != "hizz" {
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t.Errorf("Expected string(viper.Bytes) == 'hizz', got %v", string(viper.Bytes))
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}
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viper2 := c2.Viper2
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if string(viper2.Bytes) != "hizz" {
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t.Errorf("Expected string(viper2.Bytes) == 'hizz', got %v", string(viper2.Bytes))
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}
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}
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//-------------------------------------
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type ComplexStructArray struct {
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Animals []Animal
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Bytes [5]byte
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Ints [5]int
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Array SimpleArray
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}
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func constructComplexArray() interface{} {
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c := ComplexStructArray{
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Animals: []Animal{
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Cat{
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SimpleStruct{
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String: "String",
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Bytes: []byte("Bytes"),
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},
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},
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Dog{
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SimpleStruct{
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String: "Woof",
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Bytes: []byte("Bark"),
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},
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},
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Snake([]byte("hiss")),
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&Viper{
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Bytes: []byte("hizz"),
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},
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},
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Bytes: [5]byte{1, 10, 50, 100, 200},
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Ints: [5]int{1, 2, 3, 4, 5},
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Array: SimpleArray([5]byte{1, 10, 50, 100, 200}),
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}
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return c
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}
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func instantiateComplexArray() (interface{}, interface{}) {
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return ComplexStructArray{}, &ComplexStructArray{}
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}
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func validateComplexArray(o interface{}, t *testing.T) {
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c2 := o.(ComplexStructArray)
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if cat, ok := c2.Animals[0].(Cat); ok {
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if cat.String != "String" {
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t.Errorf("Expected cat.String == 'String', got %v", cat.String)
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}
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if string(cat.Bytes) != "Bytes" {
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t.Errorf("Expected cat.Bytes == 'Bytes', got %X", cat.Bytes)
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}
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} else {
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t.Errorf("Expected c2.Animals[0] to be of type cat, got %v", reflect.ValueOf(c2.Animals[0]).Elem().Type())
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}
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if dog, ok := c2.Animals[1].(Dog); ok {
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if dog.String != "Woof" {
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t.Errorf("Expected dog.String == 'Woof', got %v", dog.String)
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}
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if string(dog.Bytes) != "Bark" {
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t.Errorf("Expected dog.Bytes == 'Bark', got %X", dog.Bytes)
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}
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} else {
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t.Errorf("Expected c2.Animals[1] to be of type dog, got %v", reflect.ValueOf(c2.Animals[1]).Elem().Type())
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}
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if snake, ok := c2.Animals[2].(Snake); ok {
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if string(snake) != "hiss" {
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t.Errorf("Expected string(snake) == 'hiss', got %v", string(snake))
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}
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} else {
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t.Errorf("Expected c2.Animals[2] to be of type Snake, got %v", reflect.ValueOf(c2.Animals[2]).Elem().Type())
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}
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if viper, ok := c2.Animals[3].(*Viper); ok {
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if string(viper.Bytes) != "hizz" {
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t.Errorf("Expected string(viper.Bytes) == 'hizz', got %v", string(viper.Bytes))
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}
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} else {
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t.Errorf("Expected c2.Animals[3] to be of type *Viper, got %v", reflect.ValueOf(c2.Animals[3]).Elem().Type())
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}
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}
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//-----------------------------------------------------------------------------
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var testCases = []TestCase{}
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func init() {
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testCases = append(testCases, TestCase{constructBasic, instantiateBasic, validateBasic})
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testCases = append(testCases, TestCase{constructComplex, instantiateComplex, validateComplex})
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testCases = append(testCases, TestCase{constructComplex2, instantiateComplex2, validateComplex2})
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testCases = append(testCases, TestCase{constructComplexArray, instantiateComplexArray, validateComplexArray})
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testCases = append(testCases, TestCase{constructNilTestStruct, instantiateNilTestStruct, validateNilTestStruct})
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}
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func TestBinary(t *testing.T) {
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for i, testCase := range testCases {
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log.Notice(fmt.Sprintf("Running test case %v", i))
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// Construct an object
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o := testCase.Constructor()
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// Write the object
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data := BinaryBytes(o)
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t.Logf("Binary: %X", data)
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instance, instancePtr := testCase.Instantiator()
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// Read onto a struct
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n, err := new(int64), new(error)
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res := ReadBinary(instance, bytes.NewReader(data), n, err)
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if *err != nil {
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t.Fatalf("Failed to read into instance: %v", *err)
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}
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// Validate object
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testCase.Validator(res, t)
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// Read onto a pointer
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n, err = new(int64), new(error)
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res = ReadBinaryPtr(instancePtr, bytes.NewReader(data), n, err)
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if *err != nil {
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t.Fatalf("Failed to read into instance: %v", *err)
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}
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if res != instancePtr {
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t.Errorf("Expected pointer to pass through")
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}
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// Validate object
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testCase.Validator(reflect.ValueOf(res).Elem().Interface(), t)
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}
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}
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func TestJSON(t *testing.T) {
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for i, testCase := range testCases {
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log.Notice(fmt.Sprintf("Running test case %v", i))
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// Construct an object
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o := testCase.Constructor()
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// Write the object
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data := JSONBytes(o)
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t.Logf("JSON: %v", string(data))
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instance, instancePtr := testCase.Instantiator()
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// Read onto a struct
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err := new(error)
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res := ReadJSON(instance, data, err)
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if *err != nil {
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t.Fatalf("Failed to read cat: %v", *err)
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}
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// Validate object
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testCase.Validator(res, t)
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// Read onto a pointer
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res = ReadJSON(instancePtr, data, err)
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if *err != nil {
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t.Fatalf("Failed to read cat: %v", *err)
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}
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if res != instancePtr {
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t.Errorf("Expected pointer to pass through")
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}
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// Validate object
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testCase.Validator(reflect.ValueOf(res).Elem().Interface(), t)
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}
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}
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//------------------------------------------------------------------------------
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type Foo struct {
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FieldA string `json:"fieldA"` // json field name is "fieldA"
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FieldB string // json field name is "FieldB"
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fieldC string // not exported, not serialized.
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}
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func TestJSONFieldNames(t *testing.T) {
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for i := 0; i < 20; i++ { // Try to ensure deterministic success.
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foo := Foo{"a", "b", "c"}
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stringified := string(JSONBytes(foo))
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expected := `{"fieldA":"a","FieldB":"b"}`
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if stringified != expected {
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t.Fatalf("JSONFieldNames error: expected %v, got %v",
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expected, stringified)
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}
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}
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}
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//------------------------------------------------------------------------------
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func TestBadAlloc(t *testing.T) {
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n, err := new(int64), new(error)
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instance := new([]byte)
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data := RandBytes(100 * 1024)
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b := new(bytes.Buffer)
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// this slice of data claims to be much bigger than it really is
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WriteUvarint(uint(10000000000000000), b, n, err)
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b.Write(data)
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res := ReadBinary(instance, b, n, err)
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fmt.Println(res, *err)
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}
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//------------------------------------------------------------------------------
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type SimpleArray [5]byte
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func TestSimpleArray(t *testing.T) {
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var foo SimpleArray
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// Type of pointer to array
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rt := reflect.TypeOf(&foo)
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fmt.Printf("rt: %v\n", rt) // *binary.SimpleArray
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// Type of array itself.
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// NOTE: normally this is acquired through other means
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// like introspecting on method signatures, or struct fields.
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rte := rt.Elem()
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fmt.Printf("rte: %v\n", rte) // binary.SimpleArray
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// Get a new pointer to the array
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// NOTE: calling .Interface() is to get the actual value,
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// instead of reflection values.
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ptr := reflect.New(rte).Interface()
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fmt.Printf("ptr: %v\n", ptr) // &[0 0 0 0 0]
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|
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// Make a simple int aray
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fooArray := SimpleArray([5]byte{1, 10, 50, 100, 200})
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fooBytes := BinaryBytes(fooArray)
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fooReader := bytes.NewReader(fooBytes)
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|
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// Now you can read it.
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n, err := new(int64), new(error)
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it := ReadBinary(foo, fooReader, n, err).(SimpleArray)
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if !bytes.Equal(it[:], fooArray[:]) {
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t.Errorf("Expected %v but got %v", fooArray, it)
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}
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}
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