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convert_types_test.go
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convert_types_test.go
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// Copyright 2015 go-swagger maintainers
//
// 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.
// See the License for the specific language governing permissions and
// limitations under the License.
package swag
import (
"reflect"
"testing"
"time"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
func TestStringSlice(t *testing.T) {
testCasesStringSlice := [][]string{
{"a", "b", "c", "d", "e"},
{"a", "b", "", "", "e"},
}
for idx, in := range testCasesStringSlice {
if in == nil {
continue
}
out := StringSlice(in)
assertValues(t, in, out, true, idx)
out2 := StringValueSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestStringValueSlice(t *testing.T) {
testCasesStringValueSlice := [][]*string{
{String("a"), String("b"), nil, String("c")},
}
for idx, in := range testCasesStringValueSlice {
if in == nil {
continue
}
out := StringValueSlice(in)
assertValues(t, in, out, false, idx)
out2 := StringSlice(out)
assertValues(t, in, out2, true, idx)
}
}
func TestStringMap(t *testing.T) {
testCasesStringMap := []map[string]string{
{"a": "1", "b": "2", "c": "3"},
}
for idx, in := range testCasesStringMap {
if in == nil {
continue
}
out := StringMap(in)
assertValues(t, in, out, true, idx)
out2 := StringValueMap(out)
assertValues(t, in, out2, false, idx)
}
}
func TestBoolSlice(t *testing.T) {
testCasesBoolSlice := [][]bool{
{true, true, false, false},
}
for idx, in := range testCasesBoolSlice {
if in == nil {
continue
}
out := BoolSlice(in)
assertValues(t, in, out, true, idx)
out2 := BoolValueSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestBoolValueSlice(t *testing.T) {
testCasesBoolValueSlice := [][]*bool{
{Bool(true), Bool(true), Bool(false), Bool(false)},
}
for idx, in := range testCasesBoolValueSlice {
if in == nil {
continue
}
out := BoolValueSlice(in)
assertValues(t, in, out, false, idx)
out2 := BoolSlice(out)
assertValues(t, in, out2, true, idx)
}
}
func TestBoolMap(t *testing.T) {
testCasesBoolMap := []map[string]bool{
{"a": true, "b": false, "c": true},
}
for idx, in := range testCasesBoolMap {
if in == nil {
continue
}
out := BoolMap(in)
assertValues(t, in, out, true, idx)
out2 := BoolValueMap(out)
assertValues(t, in, out2, false, idx)
}
}
func TestIntSlice(t *testing.T) {
testCasesIntSlice := [][]int{
{1, 2, 3, 4},
}
for idx, in := range testCasesIntSlice {
if in == nil {
continue
}
out := IntSlice(in)
assertValues(t, in, out, true, idx)
out2 := IntValueSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestIntValueSlice(t *testing.T) {
testCasesIntValueSlice := [][]*int{
{Int(1), Int(2), Int(3), Int(4)},
}
for idx, in := range testCasesIntValueSlice {
if in == nil {
continue
}
out := IntValueSlice(in)
assertValues(t, in, out, false, idx)
out2 := IntSlice(out)
assertValues(t, in, out2, true, idx)
}
}
func TestIntMap(t *testing.T) {
testCasesIntMap := []map[string]int{
{"a": 3, "b": 2, "c": 1},
}
for idx, in := range testCasesIntMap {
if in == nil {
continue
}
out := IntMap(in)
assertValues(t, in, out, true, idx)
out2 := IntValueMap(out)
assertValues(t, in, out2, false, idx)
}
}
func TestInt64Slice(t *testing.T) {
testCasesInt64Slice := [][]int64{
{1, 2, 3, 4},
}
for idx, in := range testCasesInt64Slice {
if in == nil {
continue
}
out := Int64Slice(in)
assertValues(t, in, out, true, idx)
out2 := Int64ValueSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestInt64ValueSlice(t *testing.T) {
testCasesInt64ValueSlice := [][]*int64{
{Int64(1), Int64(2), Int64(3), Int64(4)},
}
for idx, in := range testCasesInt64ValueSlice {
if in == nil {
continue
}
out := Int64ValueSlice(in)
assertValues(t, in, out, false, idx)
out2 := Int64Slice(out)
assertValues(t, in, out2, true, idx)
}
}
func TestInt64Map(t *testing.T) {
testCasesInt64Map := []map[string]int64{
{"a": 3, "b": 2, "c": 1},
}
for idx, in := range testCasesInt64Map {
if in == nil {
continue
}
out := Int64Map(in)
assertValues(t, in, out, true, idx)
out2 := Int64ValueMap(out)
assertValues(t, in, out2, false, idx)
}
}
func TestFloat32Slice(t *testing.T) {
testCasesFloat32Slice := [][]float32{
{1, 2, 3, 4},
}
for idx, in := range testCasesFloat32Slice {
if in == nil {
continue
}
out := Float32Slice(in)
assertValues(t, in, out, true, idx)
out2 := Float32ValueSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestFloat64Slice(t *testing.T) {
testCasesFloat64Slice := [][]float64{
{1, 2, 3, 4},
}
for idx, in := range testCasesFloat64Slice {
if in == nil {
continue
}
out := Float64Slice(in)
assertValues(t, in, out, true, idx)
out2 := Float64ValueSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestUintSlice(t *testing.T) {
testCasesUintSlice := [][]uint{
{1, 2, 3, 4},
}
for idx, in := range testCasesUintSlice {
if in == nil {
continue
}
out := UintSlice(in)
assertValues(t, in, out, true, idx)
out2 := UintValueSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestUintValueSlice(t *testing.T) {
testCasesUintValueSlice := [][]*uint{}
for idx, in := range testCasesUintValueSlice {
if in == nil {
continue
}
out := UintValueSlice(in)
assertValues(t, in, out, true, idx)
out2 := UintSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestUintMap(t *testing.T) {
testCasesUintMap := []map[string]uint{
{"a": 3, "b": 2, "c": 1},
}
for idx, in := range testCasesUintMap {
if in == nil {
continue
}
out := UintMap(in)
assertValues(t, in, out, true, idx)
out2 := UintValueMap(out)
assertValues(t, in, out2, false, idx)
}
}
func TestUint16Slice(t *testing.T) {
testCasesUint16Slice := [][]uint16{
{1, 2, 3, 4},
}
for idx, in := range testCasesUint16Slice {
if in == nil {
continue
}
out := Uint16Slice(in)
assertValues(t, in, out, true, idx)
out2 := Uint16ValueSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestUint16ValueSlice(t *testing.T) {
testCasesUint16ValueSlice := [][]*uint16{}
for idx, in := range testCasesUint16ValueSlice {
if in == nil {
continue
}
out := Uint16ValueSlice(in)
assertValues(t, in, out, true, idx)
out2 := Uint16Slice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestUint16Map(t *testing.T) {
testCasesUint16Map := []map[string]uint16{
{"a": 3, "b": 2, "c": 1},
}
for idx, in := range testCasesUint16Map {
if in == nil {
continue
}
out := Uint16Map(in)
assertValues(t, in, out, true, idx)
out2 := Uint16ValueMap(out)
assertValues(t, in, out2, false, idx)
}
}
func TestUint64Slice(t *testing.T) {
testCasesUint64Slice := [][]uint64{
{1, 2, 3, 4},
}
for idx, in := range testCasesUint64Slice {
if in == nil {
continue
}
out := Uint64Slice(in)
assertValues(t, in, out, true, idx)
out2 := Uint64ValueSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestUint64ValueSlice(t *testing.T) {
testCasesUint64ValueSlice := [][]*uint64{}
for idx, in := range testCasesUint64ValueSlice {
if in == nil {
continue
}
out := Uint64ValueSlice(in)
assertValues(t, in, out, true, idx)
out2 := Uint64Slice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestUint64Map(t *testing.T) {
testCasesUint64Map := []map[string]uint64{
{"a": 3, "b": 2, "c": 1},
}
for idx, in := range testCasesUint64Map {
if in == nil {
continue
}
out := Uint64Map(in)
assertValues(t, in, out, true, idx)
out2 := Uint64ValueMap(out)
assertValues(t, in, out2, false, idx)
}
}
func TestFloat32ValueSlice(t *testing.T) {
testCasesFloat32ValueSlice := [][]*float32{}
for idx, in := range testCasesFloat32ValueSlice {
if in == nil {
continue
}
out := Float32ValueSlice(in)
assertValues(t, in, out, true, idx)
out2 := Float32Slice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestFloat32Map(t *testing.T) {
testCasesFloat32Map := []map[string]float32{
{"a": 3, "b": 2, "c": 1},
}
for idx, in := range testCasesFloat32Map {
if in == nil {
continue
}
out := Float32Map(in)
assertValues(t, in, out, true, idx)
out2 := Float32ValueMap(out)
assertValues(t, in, out2, false, idx)
}
}
func TestFloat64ValueSlice(t *testing.T) {
testCasesFloat64ValueSlice := [][]*float64{}
for idx, in := range testCasesFloat64ValueSlice {
if in == nil {
continue
}
out := Float64ValueSlice(in)
assertValues(t, in, out, true, idx)
out2 := Float64Slice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestFloat64Map(t *testing.T) {
testCasesFloat64Map := []map[string]float64{
{"a": 3, "b": 2, "c": 1},
}
for idx, in := range testCasesFloat64Map {
if in == nil {
continue
}
out := Float64Map(in)
assertValues(t, in, out, true, idx)
out2 := Float64ValueMap(out)
assertValues(t, in, out2, false, idx)
}
}
func TestTimeSlice(t *testing.T) {
testCasesTimeSlice := [][]time.Time{
{time.Now(), time.Now().AddDate(100, 0, 0)},
}
for idx, in := range testCasesTimeSlice {
if in == nil {
continue
}
out := TimeSlice(in)
assertValues(t, in, out, true, idx)
out2 := TimeValueSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestTimeValueSlice(t *testing.T) {
testCasesTimeValueSlice := [][]*time.Time{
{Time(time.Now()), Time(time.Now().AddDate(100, 0, 0))},
}
for idx, in := range testCasesTimeValueSlice {
if in == nil {
continue
}
out := TimeValueSlice(in)
assertValues(t, in, out, false, idx)
out2 := TimeSlice(out)
assertValues(t, in, out2, true, idx)
}
}
func TestTimeMap(t *testing.T) {
testCasesTimeMap := []map[string]time.Time{
{"a": time.Now().AddDate(-100, 0, 0), "b": time.Now()},
}
for idx, in := range testCasesTimeMap {
if in == nil {
continue
}
out := TimeMap(in)
assertValues(t, in, out, true, idx)
out2 := TimeValueMap(out)
assertValues(t, in, out2, false, idx)
}
}
func TestInt32Slice(t *testing.T) {
testCasesInt32Slice := [][]int32{
{1, 2, 3, 4},
}
for idx, in := range testCasesInt32Slice {
if in == nil {
continue
}
out := Int32Slice(in)
assertValues(t, in, out, true, idx)
out2 := Int32ValueSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestInt32ValueSlice(t *testing.T) {
testCasesInt32ValueSlice := [][]*int32{
{Int32(1), Int32(2), Int32(3), Int32(4)},
}
for idx, in := range testCasesInt32ValueSlice {
if in == nil {
continue
}
out := Int32ValueSlice(in)
assertValues(t, in, out, false, idx)
out2 := Int32Slice(out)
assertValues(t, in, out2, true, idx)
}
}
func TestInt32Map(t *testing.T) {
testCasesInt32Map := []map[string]int32{
{"a": 3, "b": 2, "c": 1},
}
for idx, in := range testCasesInt32Map {
if in == nil {
continue
}
out := Int32Map(in)
assertValues(t, in, out, true, idx)
out2 := Int32ValueMap(out)
assertValues(t, in, out2, false, idx)
}
}
func TestUint32Slice(t *testing.T) {
testCasesUint32Slice := [][]uint32{
{1, 2, 3, 4},
}
for idx, in := range testCasesUint32Slice {
if in == nil {
continue
}
out := Uint32Slice(in)
assertValues(t, in, out, true, idx)
out2 := Uint32ValueSlice(out)
assertValues(t, in, out2, false, idx)
}
}
func TestUint32ValueSlice(t *testing.T) {
testCasesUint32ValueSlice := [][]*uint32{
{Uint32(1), Uint32(2), Uint32(3), Uint32(4)},
}
for idx, in := range testCasesUint32ValueSlice {
if in == nil {
continue
}
out := Uint32ValueSlice(in)
assertValues(t, in, out, false, idx)
out2 := Uint32Slice(out)
assertValues(t, in, out2, true, idx)
}
}
func TestUint32Map(t *testing.T) {
testCasesUint32Map := []map[string]uint32{
{"a": 3, "b": 2, "c": 1},
}
for idx, in := range testCasesUint32Map {
if in == nil {
continue
}
out := Uint32Map(in)
assertValues(t, in, out, true, idx)
out2 := Uint32ValueMap(out)
assertValues(t, in, out2, false, idx)
}
}
func TestStringValue(t *testing.T) {
testCasesString := []string{"a", "b", "c", "d", "e", ""}
for idx, in := range testCasesString {
out := String(in)
assertValues(t, in, out, true, idx)
out2 := StringValue(out)
assertValues(t, in, out2, false, idx)
}
assert.Zerof(t, StringValue(nil), "expected conversion from nil to return zero value")
}
func TestBoolValue(t *testing.T) {
testCasesBool := []bool{true, false}
for idx, in := range testCasesBool {
out := Bool(in)
assertValues(t, in, out, true, idx)
out2 := BoolValue(out)
assertValues(t, in, out2, false, idx)
}
assert.Zerof(t, BoolValue(nil), "expected conversion from nil to return zero value")
}
func TestIntValue(t *testing.T) {
testCasesInt := []int{1, 2, 3, 0}
for idx, in := range testCasesInt {
out := Int(in)
assertValues(t, in, out, true, idx)
out2 := IntValue(out)
assertValues(t, in, out2, false, idx)
}
assert.Zerof(t, IntValue(nil), "expected conversion from nil to return zero value")
}
func TestInt32Value(t *testing.T) {
testCasesInt32 := []int32{1, 2, 3, 0}
for idx, in := range testCasesInt32 {
out := Int32(in)
assertValues(t, in, out, true, idx)
out2 := Int32Value(out)
assertValues(t, in, out2, false, idx)
}
assert.Zerof(t, Int32Value(nil), "expected conversion from nil to return zero value")
}
func TestInt64Value(t *testing.T) {
testCasesInt64 := []int64{1, 2, 3, 0}
for idx, in := range testCasesInt64 {
out := Int64(in)
assertValues(t, in, out, true, idx)
out2 := Int64Value(out)
assertValues(t, in, out2, false, idx)
}
assert.Zerof(t, Int64Value(nil), "expected conversion from nil to return zero value")
}
func TestUintValue(t *testing.T) {
testCasesUint := []uint{1, 2, 3, 0}
for idx, in := range testCasesUint {
out := Uint(in)
assertValues(t, in, out, true, idx)
out2 := UintValue(out)
assertValues(t, in, out2, false, idx)
}
assert.Zerof(t, UintValue(nil), "expected conversion from nil to return zero value")
}
func TestUint32Value(t *testing.T) {
testCasesUint32 := []uint32{1, 2, 3, 0}
for idx, in := range testCasesUint32 {
out := Uint32(in)
assertValues(t, in, out, true, idx)
out2 := Uint32Value(out)
assertValues(t, in, out2, false, idx)
}
assert.Zerof(t, Uint32Value(nil), "expected conversion from nil to return zero value")
}
func TestUint64Value(t *testing.T) {
testCasesUint64 := []uint64{1, 2, 3, 0}
for idx, in := range testCasesUint64 {
out := Uint64(in)
assertValues(t, in, out, true, idx)
out2 := Uint64Value(out)
assertValues(t, in, out2, false, idx)
}
assert.Zerof(t, Uint64Value(nil), "expected conversion from nil to return zero value")
}
func TestFloat32Value(t *testing.T) {
testCasesFloat32 := []float32{1, 2, 3, 0}
for idx, in := range testCasesFloat32 {
out := Float32(in)
assertValues(t, in, out, true, idx)
out2 := Float32Value(out)
assertValues(t, in, out2, false, idx)
}
assert.Zerof(t, Float32Value(nil), "expected conversion from nil to return zero value")
}
func TestFloat64Value(t *testing.T) {
testCasesFloat64 := []float64{1, 2, 3, 0}
for idx, in := range testCasesFloat64 {
out := Float64(in)
assertValues(t, in, out, true, idx)
out2 := Float64Value(out)
assertValues(t, in, out2, false, idx)
}
assert.Zerof(t, Float64Value(nil), "expected conversion from nil to return zero value")
}
func TestTimeValue(t *testing.T) {
testCasesTime := []time.Time{
time.Now().AddDate(-100, 0, 0), time.Now(),
}
for idx, in := range testCasesTime {
out := Time(in)
assertValues(t, in, out, true, idx)
out2 := TimeValue(out)
assertValues(t, in, out2, false, idx)
}
assert.Zerof(t, TimeValue(nil), "expected conversion from nil to return zero value")
}
func assertSingleValue(t *testing.T, inElem, elem reflect.Value, expectPointer bool, idx int) {
require.Equalf(t,
expectPointer, (elem.Kind() == reflect.Ptr),
"unexpected expectPointer=%t value type", expectPointer,
)
if inElem.Kind() == reflect.Ptr && !inElem.IsNil() {
inElem = reflect.Indirect(inElem)
}
if elem.Kind() == reflect.Ptr && !elem.IsNil() {
elem = reflect.Indirect(elem)
}
require.Truef(t,
(elem.Kind() == reflect.Ptr && elem.IsNil()) ||
IsZero(elem.Interface()) == (inElem.Kind() == reflect.Ptr && inElem.IsNil()) ||
IsZero(inElem.Interface()),
"unexpected nil pointer at idx %d", idx,
)
if !((elem.Kind() == reflect.Ptr && elem.IsNil()) || IsZero(elem.Interface())) {
require.IsTypef(t, inElem.Interface(), elem.Interface(), "Expected in/out to match types")
assert.EqualValuesf(t, inElem.Interface(), elem.Interface(), "Unexpected value at idx %d: %v", idx, elem.Interface())
}
}
// assertValues checks equivalent representation pointer vs values for single var, slices and maps
func assertValues(t *testing.T, in, out interface{}, expectPointer bool, idx int) {
vin := reflect.ValueOf(in)
vout := reflect.ValueOf(out)
switch vin.Kind() { //nolint:exhaustive
case reflect.Slice, reflect.Map:
require.Equalf(t, vin.Kind(), vout.Kind(), "Unexpected output type at idx %d", idx)
require.Equalf(t, vin.Len(), vout.Len(), "Unexpected len at idx %d", idx)
var elem, inElem reflect.Value
for i := 0; i < vin.Len(); i++ {
switch vin.Kind() { //nolint:exhaustive
case reflect.Slice:
elem = vout.Index(i)
inElem = vin.Index(i)
case reflect.Map:
keys := vin.MapKeys()
elem = vout.MapIndex(keys[i])
inElem = vout.MapIndex(keys[i])
default:
}
assertSingleValue(t, inElem, elem, expectPointer, idx)
}
default:
inElem := vin
elem := vout
assertSingleValue(t, inElem, elem, expectPointer, idx)
}
}