cri-o/vendor/github.com/mailru/easyjson/tests/errors_test.go
Jacek J. Łakis bf51655a7b vendor: Update vendoring for the exec client and server implementations
Signed-off-by: Jacek J. Łakis <jacek.lakis@intel.com>
Signed-off-by: Samuel Ortiz <sameo@linux.intel.com>
2017-04-24 18:38:41 +02:00

243 lines
5.3 KiB
Go

package tests
import (
"testing"
"github.com/mailru/easyjson/jlexer"
)
func TestMultipleErrorsInt(t *testing.T) {
for i, test := range []struct {
Data []byte
Offsets []int
}{
{
Data: []byte(`[1, 2, 3, "4", "5"]`),
Offsets: []int{10, 15},
},
{
Data: []byte(`[1, {"2":"3"}, 3, "4"]`),
Offsets: []int{4, 18},
},
{
Data: []byte(`[1, "2", "3", "4", "5", "6"]`),
Offsets: []int{4, 9, 14, 19, 24},
},
{
Data: []byte(`[1, 2, 3, 4, "5"]`),
Offsets: []int{13},
},
{
Data: []byte(`[{"1": "2"}]`),
Offsets: []int{1},
},
} {
l := jlexer.Lexer{
Data: test.Data,
UseMultipleErrors: true,
}
var v ErrorIntSlice
v.UnmarshalEasyJSON(&l)
errors := l.GetNonFatalErrors()
if len(errors) != len(test.Offsets) {
t.Errorf("[%d] TestMultipleErrorsInt(): errornum: want: %d, got %d", i, len(test.Offsets), len(errors))
return
}
for ii, e := range errors {
if e.Offset != test.Offsets[ii] {
t.Errorf("[%d] TestMultipleErrorsInt(): offset[%d]: want %d, got %d", i, ii, test.Offsets[ii], e.Offset)
}
}
}
}
func TestMultipleErrorsBool(t *testing.T) {
for i, test := range []struct {
Data []byte
Offsets []int
}{
{
Data: []byte(`[true, false, true, false]`),
},
{
Data: []byte(`["test", "value", "lol", "1"]`),
Offsets: []int{1, 9, 18, 25},
},
{
Data: []byte(`[true, 42, {"a":"b", "c":"d"}, false]`),
Offsets: []int{7, 11},
},
} {
l := jlexer.Lexer{
Data: test.Data,
UseMultipleErrors: true,
}
var v ErrorBoolSlice
v.UnmarshalEasyJSON(&l)
errors := l.GetNonFatalErrors()
if len(errors) != len(test.Offsets) {
t.Errorf("[%d] TestMultipleErrorsBool(): errornum: want: %d, got %d", i, len(test.Offsets), len(errors))
return
}
for ii, e := range errors {
if e.Offset != test.Offsets[ii] {
t.Errorf("[%d] TestMultipleErrorsBool(): offset[%d]: want %d, got %d", i, ii, test.Offsets[ii], e.Offset)
}
}
}
}
func TestMultipleErrorsUint(t *testing.T) {
for i, test := range []struct {
Data []byte
Offsets []int
}{
{
Data: []byte(`[42, 42, 42]`),
},
{
Data: []byte(`[17, "42", 32]`),
Offsets: []int{5},
},
{
Data: []byte(`["zz", "zz"]`),
Offsets: []int{1, 7},
},
{
Data: []byte(`[{}, 42]`),
Offsets: []int{1},
},
} {
l := jlexer.Lexer{
Data: test.Data,
UseMultipleErrors: true,
}
var v ErrorUintSlice
v.UnmarshalEasyJSON(&l)
errors := l.GetNonFatalErrors()
if len(errors) != len(test.Offsets) {
t.Errorf("[%d] TestMultipleErrorsUint(): errornum: want: %d, got %d", i, len(test.Offsets), len(errors))
return
}
for ii, e := range errors {
if e.Offset != test.Offsets[ii] {
t.Errorf("[%d] TestMultipleErrorsUint(): offset[%d]: want %d, got %d", i, ii, test.Offsets[ii], e.Offset)
}
}
}
}
func TestMultipleErrorsStruct(t *testing.T) {
for i, test := range []struct {
Data []byte
Offsets []int
}{
{
Data: []byte(`{"string": "test", "slice":[42, 42, 42], "int_slice":[1, 2, 3]}`),
},
{
Data: []byte(`{"string": {"test": "test"}, "slice":[42, 42, 42], "int_slice":["1", 2, 3]}`),
Offsets: []int{11, 64},
},
{
Data: []byte(`{"slice": [42, 42], "string": {"test": "test"}, "int_slice":["1", "2", 3]}`),
Offsets: []int{30, 61, 66},
},
{
Data: []byte(`{"string": "test", "slice": {}}`),
Offsets: []int{28},
},
{
Data: []byte(`{"slice":5, "string" : "test"}`),
Offsets: []int{9},
},
{
Data: []byte(`{"slice" : "test", "string" : "test"}`),
Offsets: []int{11},
},
{
Data: []byte(`{"slice": "", "string" : {}, "int":{}}`),
Offsets: []int{10, 25, 35},
},
} {
l := jlexer.Lexer{
Data: test.Data,
UseMultipleErrors: true,
}
var v ErrorStruct
v.UnmarshalEasyJSON(&l)
errors := l.GetNonFatalErrors()
if len(errors) != len(test.Offsets) {
t.Errorf("[%d] TestMultipleErrorsStruct(): errornum: want: %d, got %d", i, len(test.Offsets), len(errors))
return
}
for ii, e := range errors {
if e.Offset != test.Offsets[ii] {
t.Errorf("[%d] TestMultipleErrorsStruct(): offset[%d]: want %d, got %d", i, ii, test.Offsets[ii], e.Offset)
}
}
}
}
func TestMultipleErrorsNestedStruct(t *testing.T) {
for i, test := range []struct {
Data []byte
Offsets []int
}{
{
Data: []byte(`{"error_struct":{}}`),
},
{
Data: []byte(`{"error_struct":5}`),
Offsets: []int{16},
},
{
Data: []byte(`{"error_struct":[]}`),
Offsets: []int{16},
},
{
Data: []byte(`{"error_struct":{"int":{}}}`),
Offsets: []int{23},
},
{
Data: []byte(`{"error_struct":{"int_slice":{}}, "int":4}`),
Offsets: []int{29},
},
{
Data: []byte(`{"error_struct":{"int_slice":["1", 2, "3"]}, "int":[]}`),
Offsets: []int{30, 38, 51},
},
} {
l := jlexer.Lexer{
Data: test.Data,
UseMultipleErrors: true,
}
var v ErrorNestedStruct
v.UnmarshalEasyJSON(&l)
errors := l.GetNonFatalErrors()
if len(errors) != len(test.Offsets) {
t.Errorf("[%d] TestMultipleErrorsNestedStruct(): errornum: want: %d, got %d", i, len(test.Offsets), len(errors))
return
}
for ii, e := range errors {
if e.Offset != test.Offsets[ii] {
t.Errorf("[%d] TestMultipleErrorsNestedStruct(): offset[%d]: want %d, got %d", i, ii, test.Offsets[ii], e.Offset)
}
}
}
}