diff options
Diffstat (limited to 'vendor/github.com/gorilla/schema/decoder_test.go')
| -rw-r--r-- | vendor/github.com/gorilla/schema/decoder_test.go | 1693 |
1 files changed, 1693 insertions, 0 deletions
diff --git a/vendor/github.com/gorilla/schema/decoder_test.go b/vendor/github.com/gorilla/schema/decoder_test.go new file mode 100644 index 000000000..18b3b3270 --- /dev/null +++ b/vendor/github.com/gorilla/schema/decoder_test.go @@ -0,0 +1,1693 @@ +// Copyright 2012 The Gorilla Authors. All rights reserved. +// Use of this source code is governed by a BSD-style +// license that can be found in the LICENSE file. + +package schema + +import ( + "encoding/hex" + "errors" + "reflect" + "strings" + "testing" + "time" +) + +type IntAlias int + +type rudeBool bool + +func (id *rudeBool) UnmarshalText(text []byte) error { + value := string(text) + switch { + case strings.EqualFold("Yup", value): + *id = true + case strings.EqualFold("Nope", value): + *id = false + default: + return errors.New("value must be yup or nope") + } + return nil +} + +// All cases we want to cover, in a nutshell. +type S1 struct { + F01 int `schema:"f1"` + F02 *int `schema:"f2"` + F03 []int `schema:"f3"` + F04 []*int `schema:"f4"` + F05 *[]int `schema:"f5"` + F06 *[]*int `schema:"f6"` + F07 S2 `schema:"f7"` + F08 *S1 `schema:"f8"` + F09 int `schema:"-"` + F10 []S1 `schema:"f10"` + F11 []*S1 `schema:"f11"` + F12 *[]S1 `schema:"f12"` + F13 *[]*S1 `schema:"f13"` + F14 int `schema:"f14"` + F15 IntAlias `schema:"f15"` + F16 []IntAlias `schema:"f16"` + F17 S19 `schema:"f17"` + F18 rudeBool `schema:"f18"` + F19 *rudeBool `schema:"f19"` + F20 []rudeBool `schema:"f20"` + F21 []*rudeBool `schema:"f21"` +} + +type S2 struct { + F01 *[]*int `schema:"f1"` +} + +type S19 [2]byte + +func (id *S19) UnmarshalText(text []byte) error { + buf, err := hex.DecodeString(string(text)) + if err != nil { + return err + } + if len(buf) > len(*id) { + return errors.New("out of range") + } + for i := range buf { + (*id)[i] = buf[i] + } + return nil +} + +func TestAll(t *testing.T) { + v := map[string][]string{ + "f1": {"1"}, + "f2": {"2"}, + "f3": {"31", "32"}, + "f4": {"41", "42"}, + "f5": {"51", "52"}, + "f6": {"61", "62"}, + "f7.f1": {"71", "72"}, + "f8.f8.f7.f1": {"81", "82"}, + "f9": {"9"}, + "f10.0.f10.0.f6": {"101", "102"}, + "f10.0.f10.1.f6": {"103", "104"}, + "f11.0.f11.0.f6": {"111", "112"}, + "f11.0.f11.1.f6": {"113", "114"}, + "f12.0.f12.0.f6": {"121", "122"}, + "f12.0.f12.1.f6": {"123", "124"}, + "f13.0.f13.0.f6": {"131", "132"}, + "f13.0.f13.1.f6": {"133", "134"}, + "f14": {}, + "f15": {"151"}, + "f16": {"161", "162"}, + "f17": {"1a2b"}, + "f18": {"yup"}, + "f19": {"nope"}, + "f20": {"nope", "yup"}, + "f21": {"yup", "nope"}, + } + f2 := 2 + f41, f42 := 41, 42 + f61, f62 := 61, 62 + f71, f72 := 71, 72 + f81, f82 := 81, 82 + f101, f102, f103, f104 := 101, 102, 103, 104 + f111, f112, f113, f114 := 111, 112, 113, 114 + f121, f122, f123, f124 := 121, 122, 123, 124 + f131, f132, f133, f134 := 131, 132, 133, 134 + var f151 IntAlias = 151 + var f161, f162 IntAlias = 161, 162 + var f152, f153 rudeBool = true, false + e := S1{ + F01: 1, + F02: &f2, + F03: []int{31, 32}, + F04: []*int{&f41, &f42}, + F05: &[]int{51, 52}, + F06: &[]*int{&f61, &f62}, + F07: S2{ + F01: &[]*int{&f71, &f72}, + }, + F08: &S1{ + F08: &S1{ + F07: S2{ + F01: &[]*int{&f81, &f82}, + }, + }, + }, + F09: 0, + F10: []S1{ + S1{ + F10: []S1{ + S1{F06: &[]*int{&f101, &f102}}, + S1{F06: &[]*int{&f103, &f104}}, + }, + }, + }, + F11: []*S1{ + &S1{ + F11: []*S1{ + &S1{F06: &[]*int{&f111, &f112}}, + &S1{F06: &[]*int{&f113, &f114}}, + }, + }, + }, + F12: &[]S1{ + S1{ + F12: &[]S1{ + S1{F06: &[]*int{&f121, &f122}}, + S1{F06: &[]*int{&f123, &f124}}, + }, + }, + }, + F13: &[]*S1{ + &S1{ + F13: &[]*S1{ + &S1{F06: &[]*int{&f131, &f132}}, + &S1{F06: &[]*int{&f133, &f134}}, + }, + }, + }, + F14: 0, + F15: f151, + F16: []IntAlias{f161, f162}, + F17: S19{0x1a, 0x2b}, + F18: f152, + F19: &f153, + F20: []rudeBool{f153, f152}, + F21: []*rudeBool{&f152, &f153}, + } + + s := &S1{} + _ = NewDecoder().Decode(s, v) + + vals := func(values []*int) []int { + r := make([]int, len(values)) + for k, v := range values { + r[k] = *v + } + return r + } + + if s.F01 != e.F01 { + t.Errorf("f1: expected %v, got %v", e.F01, s.F01) + } + if s.F02 == nil { + t.Errorf("f2: expected %v, got nil", *e.F02) + } else if *s.F02 != *e.F02 { + t.Errorf("f2: expected %v, got %v", *e.F02, *s.F02) + } + if s.F03 == nil { + t.Errorf("f3: expected %v, got nil", e.F03) + } else if len(s.F03) != 2 || s.F03[0] != e.F03[0] || s.F03[1] != e.F03[1] { + t.Errorf("f3: expected %v, got %v", e.F03, s.F03) + } + if s.F04 == nil { + t.Errorf("f4: expected %v, got nil", e.F04) + } else { + if len(s.F04) != 2 || *(s.F04)[0] != *(e.F04)[0] || *(s.F04)[1] != *(e.F04)[1] { + t.Errorf("f4: expected %v, got %v", vals(e.F04), vals(s.F04)) + } + } + if s.F05 == nil { + t.Errorf("f5: expected %v, got nil", e.F05) + } else { + sF05, eF05 := *s.F05, *e.F05 + if len(sF05) != 2 || sF05[0] != eF05[0] || sF05[1] != eF05[1] { + t.Errorf("f5: expected %v, got %v", eF05, sF05) + } + } + if s.F06 == nil { + t.Errorf("f6: expected %v, got nil", vals(*e.F06)) + } else { + sF06, eF06 := *s.F06, *e.F06 + if len(sF06) != 2 || *(sF06)[0] != *(eF06)[0] || *(sF06)[1] != *(eF06)[1] { + t.Errorf("f6: expected %v, got %v", vals(eF06), vals(sF06)) + } + } + if s.F07.F01 == nil { + t.Errorf("f7.f1: expected %v, got nil", vals(*e.F07.F01)) + } else { + sF07, eF07 := *s.F07.F01, *e.F07.F01 + if len(sF07) != 2 || *(sF07)[0] != *(eF07)[0] || *(sF07)[1] != *(eF07)[1] { + t.Errorf("f7.f1: expected %v, got %v", vals(eF07), vals(sF07)) + } + } + if s.F08 == nil { + t.Errorf("f8: got nil") + } else if s.F08.F08 == nil { + t.Errorf("f8.f8: got nil") + } else if s.F08.F08.F07.F01 == nil { + t.Errorf("f8.f8.f7.f1: expected %v, got nil", vals(*e.F08.F08.F07.F01)) + } else { + sF08, eF08 := *s.F08.F08.F07.F01, *e.F08.F08.F07.F01 + if len(sF08) != 2 || *(sF08)[0] != *(eF08)[0] || *(sF08)[1] != *(eF08)[1] { + t.Errorf("f8.f8.f7.f1: expected %v, got %v", vals(eF08), vals(sF08)) + } + } + if s.F09 != e.F09 { + t.Errorf("f9: expected %v, got %v", e.F09, s.F09) + } + if s.F10 == nil { + t.Errorf("f10: got nil") + } else if len(s.F10) != 1 { + t.Errorf("f10: expected 1 element, got %v", s.F10) + } else { + if len(s.F10[0].F10) != 2 { + t.Errorf("f10.0.f10: expected 1 element, got %v", s.F10[0].F10) + } else { + sF10, eF10 := *s.F10[0].F10[0].F06, *e.F10[0].F10[0].F06 + if sF10 == nil { + t.Errorf("f10.0.f10.0.f6: expected %v, got nil", vals(eF10)) + } else { + if len(sF10) != 2 || *(sF10)[0] != *(eF10)[0] || *(sF10)[1] != *(eF10)[1] { + t.Errorf("f10.0.f10.0.f6: expected %v, got %v", vals(eF10), vals(sF10)) + } + } + sF10, eF10 = *s.F10[0].F10[1].F06, *e.F10[0].F10[1].F06 + if sF10 == nil { + t.Errorf("f10.0.f10.0.f6: expected %v, got nil", vals(eF10)) + } else { + if len(sF10) != 2 || *(sF10)[0] != *(eF10)[0] || *(sF10)[1] != *(eF10)[1] { + t.Errorf("f10.0.f10.0.f6: expected %v, got %v", vals(eF10), vals(sF10)) + } + } + } + } + if s.F11 == nil { + t.Errorf("f11: got nil") + } else if len(s.F11) != 1 { + t.Errorf("f11: expected 1 element, got %v", s.F11) + } else { + if len(s.F11[0].F11) != 2 { + t.Errorf("f11.0.f11: expected 1 element, got %v", s.F11[0].F11) + } else { + sF11, eF11 := *s.F11[0].F11[0].F06, *e.F11[0].F11[0].F06 + if sF11 == nil { + t.Errorf("f11.0.f11.0.f6: expected %v, got nil", vals(eF11)) + } else { + if len(sF11) != 2 || *(sF11)[0] != *(eF11)[0] || *(sF11)[1] != *(eF11)[1] { + t.Errorf("f11.0.f11.0.f6: expected %v, got %v", vals(eF11), vals(sF11)) + } + } + sF11, eF11 = *s.F11[0].F11[1].F06, *e.F11[0].F11[1].F06 + if sF11 == nil { + t.Errorf("f11.0.f11.0.f6: expected %v, got nil", vals(eF11)) + } else { + if len(sF11) != 2 || *(sF11)[0] != *(eF11)[0] || *(sF11)[1] != *(eF11)[1] { + t.Errorf("f11.0.f11.0.f6: expected %v, got %v", vals(eF11), vals(sF11)) + } + } + } + } + if s.F12 == nil { + t.Errorf("f12: got nil") + } else if len(*s.F12) != 1 { + t.Errorf("f12: expected 1 element, got %v", *s.F12) + } else { + sF12, eF12 := *(s.F12), *(e.F12) + if len(*sF12[0].F12) != 2 { + t.Errorf("f12.0.f12: expected 1 element, got %v", *sF12[0].F12) + } else { + sF122, eF122 := *(*sF12[0].F12)[0].F06, *(*eF12[0].F12)[0].F06 + if sF122 == nil { + t.Errorf("f12.0.f12.0.f6: expected %v, got nil", vals(eF122)) + } else { + if len(sF122) != 2 || *(sF122)[0] != *(eF122)[0] || *(sF122)[1] != *(eF122)[1] { + t.Errorf("f12.0.f12.0.f6: expected %v, got %v", vals(eF122), vals(sF122)) + } + } + sF122, eF122 = *(*sF12[0].F12)[1].F06, *(*eF12[0].F12)[1].F06 + if sF122 == nil { + t.Errorf("f12.0.f12.0.f6: expected %v, got nil", vals(eF122)) + } else { + if len(sF122) != 2 || *(sF122)[0] != *(eF122)[0] || *(sF122)[1] != *(eF122)[1] { + t.Errorf("f12.0.f12.0.f6: expected %v, got %v", vals(eF122), vals(sF122)) + } + } + } + } + if s.F13 == nil { + t.Errorf("f13: got nil") + } else if len(*s.F13) != 1 { + t.Errorf("f13: expected 1 element, got %v", *s.F13) + } else { + sF13, eF13 := *(s.F13), *(e.F13) + if len(*sF13[0].F13) != 2 { + t.Errorf("f13.0.f13: expected 1 element, got %v", *sF13[0].F13) + } else { + sF132, eF132 := *(*sF13[0].F13)[0].F06, *(*eF13[0].F13)[0].F06 + if sF132 == nil { + t.Errorf("f13.0.f13.0.f6: expected %v, got nil", vals(eF132)) + } else { + if len(sF132) != 2 || *(sF132)[0] != *(eF132)[0] || *(sF132)[1] != *(eF132)[1] { + t.Errorf("f13.0.f13.0.f6: expected %v, got %v", vals(eF132), vals(sF132)) + } + } + sF132, eF132 = *(*sF13[0].F13)[1].F06, *(*eF13[0].F13)[1].F06 + if sF132 == nil { + t.Errorf("f13.0.f13.0.f6: expected %v, got nil", vals(eF132)) + } else { + if len(sF132) != 2 || *(sF132)[0] != *(eF132)[0] || *(sF132)[1] != *(eF132)[1] { + t.Errorf("f13.0.f13.0.f6: expected %v, got %v", vals(eF132), vals(sF132)) + } + } + } + } + if s.F14 != e.F14 { + t.Errorf("f14: expected %v, got %v", e.F14, s.F14) + } + if s.F15 != e.F15 { + t.Errorf("f15: expected %v, got %v", e.F15, s.F15) + } + if s.F16 == nil { + t.Errorf("f16: nil") + } else if len(s.F16) != len(e.F16) { + t.Errorf("f16: expected len %d, got %d", len(e.F16), len(s.F16)) + } else if !reflect.DeepEqual(s.F16, e.F16) { + t.Errorf("f16: expected %v, got %v", e.F16, s.F16) + } + if s.F17 != e.F17 { + t.Errorf("f17: expected %v, got %v", e.F17, s.F17) + } + if s.F18 != e.F18 { + t.Errorf("f18: expected %v, got %v", e.F18, s.F18) + } + if *s.F19 != *e.F19 { + t.Errorf("f19: expected %v, got %v", *e.F19, *s.F19) + } + if s.F20 == nil { + t.Errorf("f20: nil") + } else if len(s.F20) != len(e.F20) { + t.Errorf("f20: expected %v, got %v", e.F20, s.F20) + } else if !reflect.DeepEqual(s.F20, e.F20) { + t.Errorf("f20: expected %v, got %v", e.F20, s.F20) + } + if s.F21 == nil { + t.Errorf("f21: nil") + } else if len(s.F21) != len(e.F21) { + t.Errorf("f21: expected length %d, got %d", len(e.F21), len(s.F21)) + } else if !reflect.DeepEqual(s.F21, e.F21) { + t.Errorf("f21: expected %v, got %v", e.F21, s.F21) + } +} + +func BenchmarkAll(b *testing.B) { + v := map[string][]string{ + "f1": {"1"}, + "f2": {"2"}, + "f3": {"31", "32"}, + "f4": {"41", "42"}, + "f5": {"51", "52"}, + "f6": {"61", "62"}, + "f7.f1": {"71", "72"}, + "f8.f8.f7.f1": {"81", "82"}, + "f9": {"9"}, + "f10.0.f10.0.f6": {"101", "102"}, + "f10.0.f10.1.f6": {"103", "104"}, + "f11.0.f11.0.f6": {"111", "112"}, + "f11.0.f11.1.f6": {"113", "114"}, + "f12.0.f12.0.f6": {"121", "122"}, + "f12.0.f12.1.f6": {"123", "124"}, + "f13.0.f13.0.f6": {"131", "132"}, + "f13.0.f13.1.f6": {"133", "134"}, + } + + b.ResetTimer() + + for i := 0; i < b.N; i++ { + s := &S1{} + _ = NewDecoder().Decode(s, v) + } +} + +// ---------------------------------------------------------------------------- + +type S3 struct { + F01 bool + F02 float32 + F03 float64 + F04 int + F05 int8 + F06 int16 + F07 int32 + F08 int64 + F09 string + F10 uint + F11 uint8 + F12 uint16 + F13 uint32 + F14 uint64 +} + +func TestDefaultConverters(t *testing.T) { + v := map[string][]string{ + "F01": {"true"}, + "F02": {"4.2"}, + "F03": {"4.3"}, + "F04": {"-42"}, + "F05": {"-43"}, + "F06": {"-44"}, + "F07": {"-45"}, + "F08": {"-46"}, + "F09": {"foo"}, + "F10": {"42"}, + "F11": {"43"}, + "F12": {"44"}, + "F13": {"45"}, + "F14": {"46"}, + } + e := S3{ + F01: true, + F02: 4.2, + F03: 4.3, + F04: -42, + F05: -43, + F06: -44, + F07: -45, + F08: -46, + F09: "foo", + F10: 42, + F11: 43, + F12: 44, + F13: 45, + F14: 46, + } + s := &S3{} + _ = NewDecoder().Decode(s, v) + if s.F01 != e.F01 { + t.Errorf("F01: expected %v, got %v", e.F01, s.F01) + } + if s.F02 != e.F02 { + t.Errorf("F02: expected %v, got %v", e.F02, s.F02) + } + if s.F03 != e.F03 { + t.Errorf("F03: expected %v, got %v", e.F03, s.F03) + } + if s.F04 != e.F04 { + t.Errorf("F04: expected %v, got %v", e.F04, s.F04) + } + if s.F05 != e.F05 { + t.Errorf("F05: expected %v, got %v", e.F05, s.F05) + } + if s.F06 != e.F06 { + t.Errorf("F06: expected %v, got %v", e.F06, s.F06) + } + if s.F07 != e.F07 { + t.Errorf("F07: expected %v, got %v", e.F07, s.F07) + } + if s.F08 != e.F08 { + t.Errorf("F08: expected %v, got %v", e.F08, s.F08) + } + if s.F09 != e.F09 { + t.Errorf("F09: expected %v, got %v", e.F09, s.F09) + } + if s.F10 != e.F10 { + t.Errorf("F10: expected %v, got %v", e.F10, s.F10) + } + if s.F11 != e.F11 { + t.Errorf("F11: expected %v, got %v", e.F11, s.F11) + } + if s.F12 != e.F12 { + t.Errorf("F12: expected %v, got %v", e.F12, s.F12) + } + if s.F13 != e.F13 { + t.Errorf("F13: expected %v, got %v", e.F13, s.F13) + } + if s.F14 != e.F14 { + t.Errorf("F14: expected %v, got %v", e.F14, s.F14) + } +} + +func TestOn(t *testing.T) { + v := map[string][]string{ + "F01": {"on"}, + } + s := S3{} + err := NewDecoder().Decode(&s, v) + if err != nil { + t.Fatal(err) + } + if !s.F01 { + t.Fatal("Value was not set to true") + } +} + +// ---------------------------------------------------------------------------- + +func TestInlineStruct(t *testing.T) { + s1 := &struct { + F01 bool + }{} + s2 := &struct { + F01 int + }{} + v1 := map[string][]string{ + "F01": {"true"}, + } + v2 := map[string][]string{ + "F01": {"42"}, + } + decoder := NewDecoder() + _ = decoder.Decode(s1, v1) + if s1.F01 != true { + t.Errorf("s1: expected %v, got %v", true, s1.F01) + } + _ = decoder.Decode(s2, v2) + if s2.F01 != 42 { + t.Errorf("s2: expected %v, got %v", 42, s2.F01) + } +} + +// ---------------------------------------------------------------------------- + +type Foo struct { + F01 int + F02 Bar + Bif []Baz +} + +type Bar struct { + F01 string + F02 string + F03 string + F14 string + S05 string + Str string +} + +type Baz struct { + F99 []string +} + +func TestSimpleExample(t *testing.T) { + data := map[string][]string{ + "F01": {"1"}, + "F02.F01": {"S1"}, + "F02.F02": {"S2"}, + "F02.F03": {"S3"}, + "F02.F14": {"S4"}, + "F02.S05": {"S5"}, + "F02.Str": {"Str"}, + "Bif.0.F99": {"A", "B", "C"}, + } + + e := &Foo{ + F01: 1, + F02: Bar{ + F01: "S1", + F02: "S2", + F03: "S3", + F14: "S4", + S05: "S5", + Str: "Str", + }, + Bif: []Baz{{ + F99: []string{"A", "B", "C"}}, + }, + } + + s := &Foo{} + _ = NewDecoder().Decode(s, data) + + if s.F01 != e.F01 { + t.Errorf("F01: expected %v, got %v", e.F01, s.F01) + } + if s.F02.F01 != e.F02.F01 { + t.Errorf("F02.F01: expected %v, got %v", e.F02.F01, s.F02.F01) + } + if s.F02.F02 != e.F02.F02 { + t.Errorf("F02.F02: expected %v, got %v", e.F02.F02, s.F02.F02) + } + if s.F02.F03 != e.F02.F03 { + t.Errorf("F02.F03: expected %v, got %v", e.F02.F03, s.F02.F03) + } + if s.F02.F14 != e.F02.F14 { + t.Errorf("F02.F14: expected %v, got %v", e.F02.F14, s.F02.F14) + } + if s.F02.S05 != e.F02.S05 { + t.Errorf("F02.S05: expected %v, got %v", e.F02.S05, s.F02.S05) + } + if s.F02.Str != e.F02.Str { + t.Errorf("F02.Str: expected %v, got %v", e.F02.Str, s.F02.Str) + } + if len(s.Bif) != len(e.Bif) { + t.Errorf("Bif len: expected %d, got %d", len(e.Bif), len(s.Bif)) + } else { + if len(s.Bif[0].F99) != len(e.Bif[0].F99) { + t.Errorf("Bif[0].F99 len: expected %d, got %d", len(e.Bif[0].F99), len(s.Bif[0].F99)) + } + } +} + +// ---------------------------------------------------------------------------- + +type S4 struct { + F01 int64 + F02 float64 + F03 bool + F04 rudeBool +} + +func TestConversionError(t *testing.T) { + data := map[string][]string{ + "F01": {"foo"}, + "F02": {"bar"}, + "F03": {"baz"}, + "F04": {"not-a-yes-or-nope"}, + } + s := &S4{} + e := NewDecoder().Decode(s, data) + + m := e.(MultiError) + if len(m) != 4 { + t.Errorf("Expected 3 errors, got %v", m) + } +} + +// ---------------------------------------------------------------------------- + +type S5 struct { + F01 []string +} + +func TestEmptyValue(t *testing.T) { + data := map[string][]string{ + "F01": {"", "foo"}, + } + s := &S5{} + NewDecoder().Decode(s, data) + if len(s.F01) != 1 { + t.Errorf("Expected 1 values in F01") + } +} + +func TestEmptyValueZeroEmpty(t *testing.T) { + data := map[string][]string{ + "F01": {"", "foo"}, + } + s := S5{} + d := NewDecoder() + d.ZeroEmpty(true) + err := d.Decode(&s, data) + if err != nil { + t.Fatal(err) + } + if len(s.F01) != 2 { + t.Errorf("Expected 1 values in F01") + } +} + +// ---------------------------------------------------------------------------- + +type S6 struct { + id string +} + +func TestUnexportedField(t *testing.T) { + data := map[string][]string{ + "id": {"identifier"}, + } + s := &S6{} + NewDecoder().Decode(s, data) + if s.id != "" { + t.Errorf("Unexported field expected to be ignored") + } +} + +// ---------------------------------------------------------------------------- + +type S7 struct { + ID string +} + +func TestMultipleValues(t *testing.T) { + data := map[string][]string{ + "ID": {"0", "1"}, + } + + s := S7{} + NewDecoder().Decode(&s, data) + if s.ID != "1" { + t.Errorf("Last defined value must be used when multiple values for same field are provided") + } +} + +type S8 struct { + ID string `json:"id"` +} + +func TestSetAliasTag(t *testing.T) { + data := map[string][]string{ + "id": {"foo"}, + } + + s := S8{} + dec := NewDecoder() + dec.SetAliasTag("json") + dec.Decode(&s, data) + if s.ID != "foo" { + t.Fatalf("Bad value: got %q, want %q", s.ID, "foo") + } +} + +func TestZeroEmpty(t *testing.T) { + data := map[string][]string{ + "F01": {""}, + "F03": {"true"}, + } + s := S4{1, 1, false, false} + d := NewDecoder() + d.ZeroEmpty(true) + + err := d.Decode(&s, data) + if err != nil { + t.Fatal(err) + } + if s.F01 != 0 { + t.Errorf("F01: got %v, want %v", s.F01, 0) + } + if s.F02 != 1 { + t.Errorf("F02: got %v, want %v", s.F02, 1) + } + if s.F03 != true { + t.Errorf("F03: got %v, want %v", s.F03, true) + } +} + +func TestNoZeroEmpty(t *testing.T) { + data := map[string][]string{ + "F01": {""}, + "F03": {"true"}, + } + s := S4{1, 1, false, false} + d := NewDecoder() + d.ZeroEmpty(false) + err := d.Decode(&s, data) + if err != nil { + t.Fatal(err) + } + if s.F01 != 1 { + t.Errorf("F01: got %v, want %v", s.F01, 1) + } + if s.F02 != 1 { + t.Errorf("F02: got %v, want %v", s.F02, 1) + } + if s.F03 != true { + t.Errorf("F03: got %v, want %v", s.F03, true) + } + if s.F04 != false { + t.Errorf("F04: got %v, want %v", s.F04, false) + } +} + +// ---------------------------------------------------------------------------- + +type S9 struct { + Id string +} + +type S10 struct { + S9 +} + +func TestEmbeddedField(t *testing.T) { + data := map[string][]string{ + "Id": {"identifier"}, + } + s := &S10{} + NewDecoder().Decode(s, data) + if s.Id != "identifier" { + t.Errorf("Missing support for embedded fields") + } +} + +type S11 struct { + S10 +} + +func TestMultipleLevelEmbeddedField(t *testing.T) { + data := map[string][]string{ + "Id": {"identifier"}, + } + s := &S11{} + err := NewDecoder().Decode(s, data) + if s.Id != "identifier" { + t.Errorf("Missing support for multiple-level embedded fields (%v)", err) + } +} + +func TestInvalidPath(t *testing.T) { + data := map[string][]string{ + "Foo.Bar": {"baz"}, + } + s := S9{} + err := NewDecoder().Decode(&s, data) + expectedErr := `schema: invalid path "Foo.Bar"` + if err.Error() != expectedErr { + t.Fatalf("got %q, want %q", err, expectedErr) + } +} + +func TestInvalidPathIgnoreUnknownKeys(t *testing.T) { + data := map[string][]string{ + "Foo.Bar": {"baz"}, + } + s := S9{} + dec := NewDecoder() + dec.IgnoreUnknownKeys(true) + err := dec.Decode(&s, data) + if err != nil { + t.Fatal(err) + } +} + +// ---------------------------------------------------------------------------- + +type S1NT struct { + F1 int + F2 *int + F3 []int + F4 []*int + F5 *[]int + F6 *[]*int + F7 S2 + F8 *S1 + F9 int `schema:"-"` + F10 []S1 + F11 []*S1 + F12 *[]S1 + F13 *[]*S1 +} + +func TestAllNT(t *testing.T) { + v := map[string][]string{ + "f1": {"1"}, + "f2": {"2"}, + "f3": {"31", "32"}, + "f4": {"41", "42"}, + "f5": {"51", "52"}, + "f6": {"61", "62"}, + "f7.f1": {"71", "72"}, + "f8.f8.f7.f1": {"81", "82"}, + "f9": {"9"}, + "f10.0.f10.0.f6": {"101", "102"}, + "f10.0.f10.1.f6": {"103", "104"}, + "f11.0.f11.0.f6": {"111", "112"}, + "f11.0.f11.1.f6": {"113", "114"}, + "f12.0.f12.0.f6": {"121", "122"}, + "f12.0.f12.1.f6": {"123", "124"}, + "f13.0.f13.0.f6": {"131", "132"}, + "f13.0.f13.1.f6": {"133", "134"}, + } + f2 := 2 + f41, f42 := 41, 42 + f61, f62 := 61, 62 + f71, f72 := 71, 72 + f81, f82 := 81, 82 + f101, f102, f103, f104 := 101, 102, 103, 104 + f111, f112, f113, f114 := 111, 112, 113, 114 + f121, f122, f123, f124 := 121, 122, 123, 124 + f131, f132, f133, f134 := 131, 132, 133, 134 + e := S1NT{ + F1: 1, + F2: &f2, + F3: []int{31, 32}, + F4: []*int{&f41, &f42}, + F5: &[]int{51, 52}, + F6: &[]*int{&f61, &f62}, + F7: S2{ + F01: &[]*int{&f71, &f72}, + }, + F8: &S1{ + F08: &S1{ + F07: S2{ + F01: &[]*int{&f81, &f82}, + }, + }, + }, + F9: 0, + F10: []S1{ + S1{ + F10: []S1{ + S1{F06: &[]*int{&f101, &f102}}, + S1{F06: &[]*int{&f103, &f104}}, + }, + }, + }, + F11: []*S1{ + &S1{ + F11: []*S1{ + &S1{F06: &[]*int{&f111, &f112}}, + &S1{F06: &[]*int{&f113, &f114}}, + }, + }, + }, + F12: &[]S1{ + S1{ + F12: &[]S1{ + S1{F06: &[]*int{&f121, &f122}}, + S1{F06: &[]*int{&f123, &f124}}, + }, + }, + }, + F13: &[]*S1{ + &S1{ + F13: &[]*S1{ + &S1{F06: &[]*int{&f131, &f132}}, + &S1{F06: &[]*int{&f133, &f134}}, + }, + }, + }, + } + + s := &S1NT{} + _ = NewDecoder().Decode(s, v) + + vals := func(values []*int) []int { + r := make([]int, len(values)) + for k, v := range values { + r[k] = *v + } + return r + } + + if s.F1 != e.F1 { + t.Errorf("f1: expected %v, got %v", e.F1, s.F1) + } + if s.F2 == nil { + t.Errorf("f2: expected %v, got nil", *e.F2) + } else if *s.F2 != *e.F2 { + t.Errorf("f2: expected %v, got %v", *e.F2, *s.F2) + } + if s.F3 == nil { + t.Errorf("f3: expected %v, got nil", e.F3) + } else if len(s.F3) != 2 || s.F3[0] != e.F3[0] || s.F3[1] != e.F3[1] { + t.Errorf("f3: expected %v, got %v", e.F3, s.F3) + } + if s.F4 == nil { + t.Errorf("f4: expected %v, got nil", e.F4) + } else { + if len(s.F4) != 2 || *(s.F4)[0] != *(e.F4)[0] || *(s.F4)[1] != *(e.F4)[1] { + t.Errorf("f4: expected %v, got %v", vals(e.F4), vals(s.F4)) + } + } + if s.F5 == nil { + t.Errorf("f5: expected %v, got nil", e.F5) + } else { + sF5, eF5 := *s.F5, *e.F5 + if len(sF5) != 2 || sF5[0] != eF5[0] || sF5[1] != eF5[1] { + t.Errorf("f5: expected %v, got %v", eF5, sF5) + } + } + if s.F6 == nil { + t.Errorf("f6: expected %v, got nil", vals(*e.F6)) + } else { + sF6, eF6 := *s.F6, *e.F6 + if len(sF6) != 2 || *(sF6)[0] != *(eF6)[0] || *(sF6)[1] != *(eF6)[1] { + t.Errorf("f6: expected %v, got %v", vals(eF6), vals(sF6)) + } + } + if s.F7.F01 == nil { + t.Errorf("f7.f1: expected %v, got nil", vals(*e.F7.F01)) + } else { + sF7, eF7 := *s.F7.F01, *e.F7.F01 + if len(sF7) != 2 || *(sF7)[0] != *(eF7)[0] || *(sF7)[1] != *(eF7)[1] { + t.Errorf("f7.f1: expected %v, got %v", vals(eF7), vals(sF7)) + } + } + if s.F8 == nil { + t.Errorf("f8: got nil") + } else if s.F8.F08 == nil { + t.Errorf("f8.f8: got nil") + } else if s.F8.F08.F07.F01 == nil { + t.Errorf("f8.f8.f7.f1: expected %v, got nil", vals(*e.F8.F08.F07.F01)) + } else { + sF8, eF8 := *s.F8.F08.F07.F01, *e.F8.F08.F07.F01 + if len(sF8) != 2 || *(sF8)[0] != *(eF8)[0] || *(sF8)[1] != *(eF8)[1] { + t.Errorf("f8.f8.f7.f1: expected %v, got %v", vals(eF8), vals(sF8)) + } + } + if s.F9 != e.F9 { + t.Errorf("f9: expected %v, got %v", e.F9, s.F9) + } + if s.F10 == nil { + t.Errorf("f10: got nil") + } else if len(s.F10) != 1 { + t.Errorf("f10: expected 1 element, got %v", s.F10) + } else { + if len(s.F10[0].F10) != 2 { + t.Errorf("f10.0.f10: expected 1 element, got %v", s.F10[0].F10) + } else { + sF10, eF10 := *s.F10[0].F10[0].F06, *e.F10[0].F10[0].F06 + if sF10 == nil { + t.Errorf("f10.0.f10.0.f6: expected %v, got nil", vals(eF10)) + } else { + if len(sF10) != 2 || *(sF10)[0] != *(eF10)[0] || *(sF10)[1] != *(eF10)[1] { + t.Errorf("f10.0.f10.0.f6: expected %v, got %v", vals(eF10), vals(sF10)) + } + } + sF10, eF10 = *s.F10[0].F10[1].F06, *e.F10[0].F10[1].F06 + if sF10 == nil { + t.Errorf("f10.0.f10.0.f6: expected %v, got nil", vals(eF10)) + } else { + if len(sF10) != 2 || *(sF10)[0] != *(eF10)[0] || *(sF10)[1] != *(eF10)[1] { + t.Errorf("f10.0.f10.0.f6: expected %v, got %v", vals(eF10), vals(sF10)) + } + } + } + } + if s.F11 == nil { + t.Errorf("f11: got nil") + } else if len(s.F11) != 1 { + t.Errorf("f11: expected 1 element, got %v", s.F11) + } else { + if len(s.F11[0].F11) != 2 { + t.Errorf("f11.0.f11: expected 1 element, got %v", s.F11[0].F11) + } else { + sF11, eF11 := *s.F11[0].F11[0].F06, *e.F11[0].F11[0].F06 + if sF11 == nil { + t.Errorf("f11.0.f11.0.f6: expected %v, got nil", vals(eF11)) + } else { + if len(sF11) != 2 || *(sF11)[0] != *(eF11)[0] || *(sF11)[1] != *(eF11)[1] { + t.Errorf("f11.0.f11.0.f6: expected %v, got %v", vals(eF11), vals(sF11)) + } + } + sF11, eF11 = *s.F11[0].F11[1].F06, *e.F11[0].F11[1].F06 + if sF11 == nil { + t.Errorf("f11.0.f11.0.f6: expected %v, got nil", vals(eF11)) + } else { + if len(sF11) != 2 || *(sF11)[0] != *(eF11)[0] || *(sF11)[1] != *(eF11)[1] { + t.Errorf("f11.0.f11.0.f6: expected %v, got %v", vals(eF11), vals(sF11)) + } + } + } + } + if s.F12 == nil { + t.Errorf("f12: got nil") + } else if len(*s.F12) != 1 { + t.Errorf("f12: expected 1 element, got %v", *s.F12) + } else { + sF12, eF12 := *(s.F12), *(e.F12) + if len(*sF12[0].F12) != 2 { + t.Errorf("f12.0.f12: expected 1 element, got %v", *sF12[0].F12) + } else { + sF122, eF122 := *(*sF12[0].F12)[0].F06, *(*eF12[0].F12)[0].F06 + if sF122 == nil { + t.Errorf("f12.0.f12.0.f6: expected %v, got nil", vals(eF122)) + } else { + if len(sF122) != 2 || *(sF122)[0] != *(eF122)[0] || *(sF122)[1] != *(eF122)[1] { + t.Errorf("f12.0.f12.0.f6: expected %v, got %v", vals(eF122), vals(sF122)) + } + } + sF122, eF122 = *(*sF12[0].F12)[1].F06, *(*eF12[0].F12)[1].F06 + if sF122 == nil { + t.Errorf("f12.0.f12.0.f6: expected %v, got nil", vals(eF122)) + } else { + if len(sF122) != 2 || *(sF122)[0] != *(eF122)[0] || *(sF122)[1] != *(eF122)[1] { + t.Errorf("f12.0.f12.0.f6: expected %v, got %v", vals(eF122), vals(sF122)) + } + } + } + } + if s.F13 == nil { + t.Errorf("f13: got nil") + } else if len(*s.F13) != 1 { + t.Errorf("f13: expected 1 element, got %v", *s.F13) + } else { + sF13, eF13 := *(s.F13), *(e.F13) + if len(*sF13[0].F13) != 2 { + t.Errorf("f13.0.f13: expected 1 element, got %v", *sF13[0].F13) + } else { + sF132, eF132 := *(*sF13[0].F13)[0].F06, *(*eF13[0].F13)[0].F06 + if sF132 == nil { + t.Errorf("f13.0.f13.0.f6: expected %v, got nil", vals(eF132)) + } else { + if len(sF132) != 2 || *(sF132)[0] != *(eF132)[0] || *(sF132)[1] != *(eF132)[1] { + t.Errorf("f13.0.f13.0.f6: expected %v, got %v", vals(eF132), vals(sF132)) + } + } + sF132, eF132 = *(*sF13[0].F13)[1].F06, *(*eF13[0].F13)[1].F06 + if sF132 == nil { + t.Errorf("f13.0.f13.0.f6: expected %v, got nil", vals(eF132)) + } else { + if len(sF132) != 2 || *(sF132)[0] != *(eF132)[0] || *(sF132)[1] != *(eF132)[1] { + t.Errorf("f13.0.f13.0.f6: expected %v, got %v", vals(eF132), vals(sF132)) + } + } + } + } +} + +// ---------------------------------------------------------------------------- + +type S12A struct { + ID []int +} + +func TestCSVSlice(t *testing.T) { + data := map[string][]string{ + "ID": {"0,1"}, + } + + s := S12A{} + NewDecoder().Decode(&s, data) + if len(s.ID) != 2 { + t.Errorf("Expected two values in the result list, got %+v", s.ID) + } + if s.ID[0] != 0 || s.ID[1] != 1 { + t.Errorf("Expected []{0, 1} got %+v", s) + } +} + +type S12B struct { + ID []string +} + +//Decode should not split on , into a slice for string only +func TestCSVStringSlice(t *testing.T) { + data := map[string][]string{ + "ID": {"0,1"}, + } + + s := S12B{} + NewDecoder().Decode(&s, data) + if len(s.ID) != 1 { + t.Errorf("Expected one value in the result list, got %+v", s.ID) + } + if s.ID[0] != "0,1" { + t.Errorf("Expected []{0, 1} got %+v", s) + } +} + +//Invalid data provided by client should not panic (github issue 33) +func TestInvalidDataProvidedByClient(t *testing.T) { + defer func() { + if r := recover(); r != nil { + t.Errorf("Panicked calling decoder.Decode: %v", r) + } + }() + + type S struct { + f string + } + + data := map[string][]string{ + "f.f": {"v"}, + } + + err := NewDecoder().Decode(new(S), data) + if err == nil { + t.Errorf("invalid path in decoder.Decode should return an error.") + } +} + +// underlying cause of error in issue 33 +func TestInvalidPathInCacheParsePath(t *testing.T) { + type S struct { + f string + } + + typ := reflect.ValueOf(new(S)).Elem().Type() + c := newCache() + _, err := c.parsePath("f.f", typ) + if err == nil { + t.Errorf("invalid path in cache.parsePath should return an error.") + } +} + +// issue 32 +func TestDecodeToTypedField(t *testing.T) { + type Aa bool + s1 := &struct{ Aa }{} + v1 := map[string][]string{"Aa": {"true"}} + NewDecoder().Decode(s1, v1) + if s1.Aa != Aa(true) { + t.Errorf("s1: expected %v, got %v", true, s1.Aa) + } +} + +// issue 37 +func TestRegisterConverter(t *testing.T) { + type Aa int + type Bb int + s1 := &struct { + Aa + Bb + }{} + decoder := NewDecoder() + + decoder.RegisterConverter(s1.Aa, func(s string) reflect.Value { return reflect.ValueOf(1) }) + decoder.RegisterConverter(s1.Bb, func(s string) reflect.Value { return reflect.ValueOf(2) }) + + v1 := map[string][]string{"Aa": {"4"}, "Bb": {"5"}} + decoder.Decode(s1, v1) + + if s1.Aa != Aa(1) { + t.Errorf("s1.Aa: expected %v, got %v", 1, s1.Aa) + } + if s1.Bb != Bb(2) { + t.Errorf("s1.Bb: expected %v, got %v", 2, s1.Bb) + } +} + +// Issue #40 +func TestRegisterConverterSlice(t *testing.T) { + decoder := NewDecoder() + decoder.RegisterConverter([]string{}, func(input string) reflect.Value { + return reflect.ValueOf(strings.Split(input, ",")) + }) + + result := struct { + Multiple []string `schema:"multiple"` + }{} + + expected := []string{"one", "two", "three"} + decoder.Decode(&result, map[string][]string{ + "multiple": []string{"one,two,three"}, + }) + for i := range expected { + if got, want := expected[i], result.Multiple[i]; got != want { + t.Errorf("%d: got %s, want %s", i, got, want) + } + } +} + +func TestRegisterConverterMap(t *testing.T) { + decoder := NewDecoder() + decoder.IgnoreUnknownKeys(false) + decoder.RegisterConverter(map[string]string{}, func(input string) reflect.Value { + m := make(map[string]string) + for _, pair := range strings.Split(input, ",") { + parts := strings.Split(pair, ":") + switch len(parts) { + case 2: + m[parts[0]] = parts[1] + } + } + return reflect.ValueOf(m) + }) + + result := struct { + Multiple map[string]string `schema:"multiple"` + }{} + + err := decoder.Decode(&result, map[string][]string{ + "multiple": []string{"a:one,b:two"}, + }) + if err != nil { + t.Fatal(err) + } + expected := map[string]string{"a": "one", "b": "two"} + for k, v := range expected { + got, ok := result.Multiple[k] + if !ok { + t.Fatalf("got %v, want %v", result.Multiple, expected) + } + if got != v { + t.Errorf("got %s, want %s", got, v) + } + } +} + +type S13 struct { + Value []S14 +} + +type S14 struct { + F1 string + F2 string +} + +func (n *S14) UnmarshalText(text []byte) error { + textParts := strings.Split(string(text), " ") + if len(textParts) < 2 { + return errors.New("Not a valid name!") + } + + n.F1, n.F2 = textParts[0], textParts[len(textParts)-1] + return nil +} + +type S15 struct { + Value []S16 +} + +type S16 struct { + F1 string + F2 string +} + +func TestCustomTypeSlice(t *testing.T) { + data := map[string][]string{ + "Value.0": []string{"Louisa May Alcott"}, + "Value.1": []string{"Florence Nightingale"}, + "Value.2": []string{"Clara Barton"}, + } + + s := S13{} + decoder := NewDecoder() + + if err := decoder.Decode(&s, data); err != nil { + t.Fatal(err) + } + + if len(s.Value) != 3 { + t.Fatalf("Expected 3 values in the result list, got %+v", s.Value) + } + if s.Value[0].F1 != "Louisa" || s.Value[0].F2 != "Alcott" { + t.Errorf("Expected S14{'Louisa', 'Alcott'} got %+v", s.Value[0]) + } + if s.Value[1].F1 != "Florence" || s.Value[1].F2 != "Nightingale" { + t.Errorf("Expected S14{'Florence', 'Nightingale'} got %+v", s.Value[1]) + } + if s.Value[2].F1 != "Clara" || s.Value[2].F2 != "Barton" { + t.Errorf("Expected S14{'Clara', 'Barton'} got %+v", s.Value[2]) + } +} + +func TestCustomTypeSliceWithError(t *testing.T) { + data := map[string][]string{ + "Value.0": []string{"Louisa May Alcott"}, + "Value.1": []string{"Florence Nightingale"}, + "Value.2": []string{"Clara"}, + } + + s := S13{} + decoder := NewDecoder() + + if err := decoder.Decode(&s, data); err == nil { + t.Error("Not detecting error in conversion") + } +} + +func TestNoTextUnmarshalerTypeSlice(t *testing.T) { + data := map[string][]string{ + "Value.0": []string{"Louisa May Alcott"}, + "Value.1": []string{"Florence Nightingale"}, + "Value.2": []string{"Clara Barton"}, + } + + s := S15{} + decoder := NewDecoder() + + if err := decoder.Decode(&s, data); err == nil { + t.Error("Not detecting when there's no converter") + } +} + +// ---------------------------------------------------------------------------- + +type S17 struct { + Value S14 +} + +type S18 struct { + Value S16 +} + +func TestCustomType(t *testing.T) { + data := map[string][]string{ + "Value": []string{"Louisa May Alcott"}, + } + + s := S17{} + decoder := NewDecoder() + + if err := decoder.Decode(&s, data); err != nil { + t.Fatal(err) + } + + if s.Value.F1 != "Louisa" || s.Value.F2 != "Alcott" { + t.Errorf("Expected S14{'Louisa', 'Alcott'} got %+v", s.Value) + } +} + +func TestCustomTypeWithError(t *testing.T) { + data := map[string][]string{ + "Value": []string{"Louisa"}, + } + + s := S17{} + decoder := NewDecoder() + + if err := decoder.Decode(&s, data); err == nil { + t.Error("Not detecting error in conversion") + } +} + +func TestNoTextUnmarshalerType(t *testing.T) { + data := map[string][]string{ + "Value": []string{"Louisa May Alcott"}, + } + + s := S18{} + decoder := NewDecoder() + + if err := decoder.Decode(&s, data); err == nil { + t.Error("Not detecting when there's no converter") + } +} + +func TestExpectedType(t *testing.T) { + data := map[string][]string{ + "bools": []string{"1", "a"}, + "date": []string{"invalid"}, + "Foo.Bar": []string{"a", "b"}, + } + + type B struct { + Bar *int + } + type A struct { + Bools []bool `schema:"bools"` + Date time.Time `schema:"date"` + Foo B + } + + a := A{} + + err := NewDecoder().Decode(&a, data) + + e := err.(MultiError)["bools"].(ConversionError) + if e.Type != reflect.TypeOf(false) && e.Index == 1 { + t.Errorf("Expected bool, index: 1 got %+v, index: %d", e.Type, e.Index) + } + e = err.(MultiError)["date"].(ConversionError) + if e.Type != reflect.TypeOf(time.Time{}) { + t.Errorf("Expected time.Time got %+v", e.Type) + } + e = err.(MultiError)["Foo.Bar"].(ConversionError) + if e.Type != reflect.TypeOf(0) { + t.Errorf("Expected int got %+v", e.Type) + } +} + +type R1 struct { + A string `schema:"a,required"` + B struct { + C int `schema:"c,required"` + D float64 `schema:"d"` + E string `schema:"e,required"` + } `schema:"b"` + F []string `schema:"f,required"` + G []int `schema:"g,othertag"` + H bool `schema:"h,required"` +} + +func TestRequiredField(t *testing.T) { + var a R1 + v := map[string][]string{ + "a": []string{"bbb"}, + "b.c": []string{"88"}, + "b.d": []string{"9"}, + "f": []string{""}, + "h": []string{"true"}, + } + err := NewDecoder().Decode(&a, v) + if err == nil { + t.Errorf("error nil, b.e is empty expect") + return + } + // b.e empty + v["b.e"] = []string{""} // empty string + err = NewDecoder().Decode(&a, v) + if err == nil { + t.Errorf("error nil, b.e is empty expect") + return + } + + // all fields ok + v["b.e"] = []string{"nonempty"} + err = NewDecoder().Decode(&a, v) + if err != nil { + t.Errorf("error: %v", err) + return + } + + // set f empty + v["f"] = []string{} + err = NewDecoder().Decode(&a, v) + if err == nil { + t.Errorf("error nil, f is empty expect") + return + } + v["f"] = []string{"nonempty"} + + // b.c type int with empty string + v["b.c"] = []string{""} + err = NewDecoder().Decode(&a, v) + if err == nil { + t.Errorf("error nil, b.c is empty expect") + return + } + v["b.c"] = []string{"3"} + + // h type bool with empty string + v["h"] = []string{""} + err = NewDecoder().Decode(&a, v) + if err == nil { + t.Errorf("error nil, h is empty expect") + return + } +} + +type AS1 struct { + A int32 `schema:"a,required"` + E int32 `schema:"e,required"` +} +type AS2 struct { + AS1 + B string `schema:"b,required"` +} +type AS3 struct { + C int32 `schema:"c"` +} + +type AS4 struct { + AS3 + D string `schema:"d"` +} + +func TestAnonymousStructField(t *testing.T) { + patterns := []map[string][]string{ + { + "a": {"1"}, + "e": {"2"}, + "b": {"abc"}, + }, + { + "AS1.a": {"1"}, + "AS1.e": {"2"}, + "b": {"abc"}, + }, + } + for _, v := range patterns { + a := AS2{} + err := NewDecoder().Decode(&a, v) + if err != nil { + t.Errorf("Decode failed %s, %#v", err, v) + continue + } + if a.A != 1 { + t.Errorf("A: expected %v, got %v", 1, a.A) + } + if a.E != 2 { + t.Errorf("E: expected %v, got %v", 2, a.E) + } + if a.B != "abc" { + t.Errorf("B: expected %v, got %v", "abc", a.B) + } + if a.AS1.A != 1 { + t.Errorf("AS1.A: expected %v, got %v", 1, a.AS1.A) + } + if a.AS1.E != 2 { + t.Errorf("AS1.E: expected %v, got %v", 2, a.AS1.E) + } + } + a := AS2{} + err := NewDecoder().Decode(&a, map[string][]string{ + "e": {"2"}, + "b": {"abc"}, + }) + if err == nil { + t.Errorf("error nil, a is empty expect") + } + patterns = []map[string][]string{ + { + "c": {"1"}, + "d": {"abc"}, + }, + { + "AS3.c": {"1"}, + "d": {"abc"}, + }, + } + for _, v := range patterns { + a := AS4{} + err := NewDecoder().Decode(&a, v) + if err != nil { + t.Errorf("Decode failed %s, %#v", err, v) + continue + } + if a.C != 1 { + t.Errorf("C: expected %v, got %v", 1, a.C) + } + if a.D != "abc" { + t.Errorf("D: expected %v, got %v", "abc", a.D) + } + if a.AS3.C != 1 { + t.Errorf("AS3.C: expected %v, got %v", 1, a.AS3.C) + } + } +} + +// Test to ensure that a registered converter overrides the default text unmarshaler. +func TestRegisterConverterOverridesTextUnmarshaler(t *testing.T) { + type MyTime time.Time + s1 := &struct { + MyTime + }{} + decoder := NewDecoder() + + ts := time.Date(2009, time.November, 10, 23, 0, 0, 0, time.UTC) + decoder.RegisterConverter(s1.MyTime, func(s string) reflect.Value { return reflect.ValueOf(ts) }) + + v1 := map[string][]string{"MyTime": {"4"}, "Bb": {"5"}} + decoder.Decode(s1, v1) + + if s1.MyTime != MyTime(ts) { + t.Errorf("s1.Aa: expected %v, got %v", ts, s1.MyTime) + } +} + +type S20E string + +func (e *S20E) UnmarshalText(text []byte) error { + *e = S20E("x") + return nil +} + +type S20 []S20E + +func (s *S20) UnmarshalText(text []byte) error { + *s = S20{"a", "b", "c"} + return nil +} + +// Test to ensure that when a custom type based on a slice implements an +// encoding.TextUnmarshaler interface that it takes precedence over any +// implementations by its elements. +func TestTextUnmarshalerTypeSlice(t *testing.T) { + data := map[string][]string{ + "Value": []string{"a,b,c"}, + } + s := struct { + Value S20 + }{} + decoder := NewDecoder() + if err := decoder.Decode(&s, data); err != nil { + t.Error("Error while decoding:", err) + } + expected := S20{"a", "b", "c"} + if !reflect.DeepEqual(expected, s.Value) { + t.Errorf("Expected %v errors, got %v", expected, s.Value) + } +} |