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union_test.go
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union_test.go
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// Copyright [2019] LinkedIn Corp. Licensed under the Apache License, Version
// 2.0 (the "License"); you may not use this file except in compliance with the
// License. You may obtain a copy of the License at
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
// WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
package goavro
import (
"bytes"
"fmt"
"math"
"strconv"
"testing"
)
func TestSchemaUnion(t *testing.T) {
testSchemaInvalid(t, `[{"type":"enum","name":"e1","symbols":["alpha","bravo"]},"e1"]`, "Union item 2 ought to be unique type")
testSchemaInvalid(t, `[{"type":"enum","name":"com.example.one","symbols":["red","green","blue"]},{"type":"enum","name":"one","namespace":"com.example","symbols":["dog","cat"]}]`, "Union item 2 ought to be unique type")
}
func TestUnion(t *testing.T) {
testBinaryCodecPass(t, `["null"]`, Union("null", nil), []byte("\x00"))
testBinaryCodecPass(t, `["null","int"]`, Union("null", nil), []byte("\x00"))
testBinaryCodecPass(t, `["int","null"]`, Union("null", nil), []byte("\x02"))
testBinaryCodecPass(t, `["null","int"]`, 3, []byte("\x02\x06"))
testBinaryCodecPass(t, `["null","long"]`, 3, []byte("\x02\x06"))
testBinaryEncodeFail(t, `[{"type":"enum","name":"colors","symbols":["red","green","blue"]},{"type":"enum","name":"animals","symbols":["dog","cat"]}]`, Union("colors", "bravo"), "value ought to be member of symbols")
testBinaryEncodeFail(t, `[{"type":"enum","name":"colors","symbols":["red","green","blue"]},{"type":"enum","name":"animals","symbols":["dog","cat"]}]`, Union("animals", "bravo"), "value ought to be member of symbols")
testBinaryCodecPass(t, `[{"type":"enum","name":"colors","symbols":["red","green","blue"]},{"type":"enum","name":"animals","symbols":["dog","cat"]}]`, Union("colors", "green"), []byte{0, 2})
testBinaryCodecPass(t, `[{"type":"enum","name":"colors","symbols":["red","green","blue"]},{"type":"enum","name":"animals","symbols":["dog","cat"]}]`, Union("animals", "cat"), []byte{2, 2})
}
func TestUnionRejectInvalidType(t *testing.T) {
testBinaryEncodeFailBadDatumType(t, `["null","long"]`, Union("long", 3))
testBinaryEncodeFailBadDatumType(t, `["null","int","long","float"]`, float64(3.5))
testBinaryEncodeFailBadDatumType(t, `["null","int","long","float"]`, Union("double", float64(3.5)))
}
func TestUnionWillCoerceTypeIfPossible(t *testing.T) {
testBinaryCodecPass(t, `["null","long","float","double"]`, Union("long", int32(3)), []byte("\x02\x06"))
testBinaryCodecPass(t, `["null","int","float","double"]`, Union("int", int64(3)), []byte("\x02\x06"))
testBinaryCodecPass(t, `["null","int","long","double"]`, Union("double", float32(3.5)), []byte("\x06\x00\x00\x00\x00\x00\x00\f@"))
testBinaryCodecPass(t, `["null","int","long","float"]`, Union("float", float64(3.5)), []byte("\x06\x00\x00\x60\x40"))
}
func TestUnionNumericCoercionGuardsPrecision(t *testing.T) {
testBinaryEncodeFail(t, `["null","int","long","double"]`, Union("int", float32(3.5)), "lose precision")
}
func TestUnionWithArray(t *testing.T) {
testBinaryCodecPass(t, `["null",{"type":"array","items":"int"}]`, nil, []byte("\x00"))
testBinaryCodecPass(t, `["null",{"type":"array","items":"int"}]`, []interface{}{}, []byte("\x02\x00"))
testBinaryCodecPass(t, `["null",{"type":"array","items":"int"}]`, []interface{}{1}, []byte("\x02\x02\x02\x00"))
testBinaryCodecPass(t, `["null",{"type":"array","items":"int"}]`, []interface{}{1, 2}, []byte("\x02\x04\x02\x04\x00"))
testBinaryCodecPass(t, `[{"type": "array", "items": "string"}, "null"]`, nil, []byte{2})
testBinaryCodecPass(t, `[{"type": "array", "items": "string"}, "null"]`, []string{"foo"}, []byte("\x00\x02\x06foo\x00"))
testBinaryCodecPass(t, `[{"type": "array", "items": "string"}, "null"]`, []string{"foo", "bar"}, []byte("\x00\x04\x06foo\x06bar\x00"))
}
func TestUnionWithMap(t *testing.T) {
testBinaryCodecPass(t, `["null",{"type":"map","values":"string"}]`, nil, []byte("\x00"))
testBinaryCodecPass(t, `["string",{"type":"map","values":"string"}]`, Union("map", map[string]interface{}{"He": "Helium"}), []byte("\x02\x02\x04He\x0cHelium\x00"))
testBinaryCodecPass(t, `["string",{"type":"array","items":"string"}]`, Union("string", "Helium"), []byte("\x00\x0cHelium"))
}
func TestUnionMapRecordFitsInRecord(t *testing.T) {
// union value may be either map or a record
codec, err := NewCodec(`["null",{"type":"map","values":"double"},{"type":"record","name":"com.example.record","fields":[{"name":"field1","type":"int"},{"name":"field2","type":"float"}]}]`)
if err != nil {
t.Fatal(err)
}
// the provided datum value could be encoded by either the map or the record
// schemas above
datum := map[string]interface{}{
"field1": 3,
"field2": 3.5,
}
datumIn := Union("com.example.record", datum)
buf, err := codec.BinaryFromNative(nil, datumIn)
if err != nil {
t.Fatal(err)
}
if !bytes.Equal(buf, []byte{
0x04, // prefer record (union item 2) over map (union item 1)
0x06, // field1 == 3
0x00, 0x00, 0x60, 0x40, // field2 == 3.5
}) {
t.Errorf("GOT: %#v; WANT: %#v", buf, []byte{byte(2)})
}
// round trip
datumOut, buf, err := codec.NativeFromBinary(buf)
if err != nil {
t.Fatal(err)
}
if actual, expected := len(buf), 0; actual != expected {
t.Errorf("GOT: %#v; WANT: %#v", actual, expected)
}
datumOutMap, ok := datumOut.(map[string]interface{})
if !ok {
t.Fatalf("GOT: %#v; WANT: %#v", ok, false)
}
if actual, expected := len(datumOutMap), 1; actual != expected {
t.Fatalf("GOT: %#v; WANT: %#v", actual, expected)
}
datumValue, ok := datumOutMap["com.example.record"]
if !ok {
t.Fatalf("GOT: %#v; WANT: %#v", datumOutMap, "have `com.example.record` key")
}
datumValueMap, ok := datumValue.(map[string]interface{})
if !ok {
t.Errorf("GOT: %#v; WANT: %#v", ok, true)
}
if actual, expected := len(datumValueMap), len(datum); actual != expected {
t.Errorf("GOT: %#v; WANT: %#v", actual, expected)
}
for k, v := range datum {
if actual, expected := fmt.Sprintf("%v", datumValueMap[k]), fmt.Sprintf("%v", v); actual != expected {
t.Errorf("GOT: %#v; WANT: %#v", actual, expected)
}
}
}
func TestUnionRecordFieldWhenNull(t *testing.T) {
schema := `{
"type": "record",
"name": "r1",
"fields": [
{"name": "f1", "type": [{"type": "array", "items": "string"}, "null"]}
]
}`
testBinaryCodecPass(t, schema, map[string]interface{}{"f1": []interface{}{}}, []byte("\x00\x00"))
testBinaryCodecPass(t, schema, map[string]interface{}{"f1": []string{"bar"}}, []byte("\x00\x02\x06bar\x00"))
testBinaryCodecPass(t, schema, map[string]interface{}{"f1": []string{}}, []byte("\x00\x00"))
testBinaryCodecPass(t, schema, map[string]interface{}{"f1": nil}, []byte("\x02"))
}
func TestUnionText(t *testing.T) {
testTextEncodeFail(t, `["null","int"]`, Union("null", 3), "expected")
testTextCodecPass(t, `["null","int"]`, nil, []byte("null"))
testTextCodecPass(t, `["null","int"]`, 3, []byte(`{"int":3}`))
testTextCodecPass(t, `["null","int","string"]`, Union("string", "😂 "), []byte(`{"string":"\u0001\uD83D\uDE02 "}`))
}
func ExampleUnion() {
codec, err := NewCodec(`["null","string","int"]`)
if err != nil {
fmt.Println(err)
}
buf, err := codec.TextualFromNative(nil, Union("string", "some string"))
if err != nil {
fmt.Println(err)
}
fmt.Println(string(buf))
// Output: {"string":"some string"}
}
func ExampleUnion3() {
// Imagine a record field with the following union type. I have seen this
// sort of type in many schemas. I have been told the reasoning behind it is
// when the writer desires to encode data to JSON that cannot be written as
// a JSON number, then to encode it as a string and allow the reader to
// parse the string accordingly.
codec, err := NewCodec(`["null","double","string"]`)
if err != nil {
fmt.Println(err)
}
native, _, err := codec.NativeFromTextual([]byte(`{"string":"NaN"}`))
if err != nil {
fmt.Println(err)
}
value := math.NaN()
if native == nil {
fmt.Print("decoded null: ")
} else {
for k, v := range native.(map[string]interface{}) {
switch k {
case "double":
fmt.Print("decoded double: ")
value = v.(float64)
case "string":
fmt.Print("decoded string: ")
s := v.(string)
switch s {
case "NaN":
value = math.NaN()
case "+Infinity":
value = math.Inf(1)
case "-Infinity":
value = math.Inf(-1)
default:
var err error
value, err = strconv.ParseFloat(s, 64)
if err != nil {
fmt.Println(err)
}
}
}
}
}
fmt.Println(value)
// Output: decoded string: NaN
}