package mapping import ( "encoding/json" "fmt" "strconv" "strings" "testing" "time" "unicode" "github.com/google/uuid" "github.com/stretchr/testify/assert" "github.com/zeromicro/go-zero/core/stringx" ) // because json.Number doesn't support strconv.ParseUint(...), // so we only can test to 62 bits. const maxUintBitsToTest = 62 func TestUnmarshalWithFullNameNotStruct(t *testing.T) { var s map[string]any content := []byte(`{"name":"xiaoming"}`) err := UnmarshalJsonBytes(content, &s) assert.Equal(t, errTypeMismatch, err) } func TestUnmarshalValueNotSettable(t *testing.T) { var s map[string]any content := []byte(`{"name":"xiaoming"}`) err := UnmarshalJsonBytes(content, s) assert.Equal(t, errValueNotSettable, err) } func TestUnmarshalWithoutTagName(t *testing.T) { type inner struct { Optional bool `key:",optional"` OptionalP *bool `key:",optional"` OptionalPP **bool `key:",optional"` } m := map[string]any{ "Optional": true, "OptionalP": true, "OptionalPP": true, } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.True(t, in.Optional) assert.True(t, *in.OptionalP) assert.True(t, **in.OptionalPP) } } func TestUnmarshalWithLowerField(t *testing.T) { type ( Lower struct { value int `key:"lower"` } inner struct { Lower Optional bool `key:",optional"` } ) m := map[string]any{ "Optional": true, "lower": 1, } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.True(t, in.Optional) assert.Equal(t, 0, in.value) } } func TestUnmarshalWithLowerAnonymousStruct(t *testing.T) { type ( lower struct { Value int `key:"lower"` } inner struct { lower Optional bool `key:",optional"` } ) m := map[string]any{ "Optional": true, "lower": 1, } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.True(t, in.Optional) assert.Equal(t, 1, in.Value) } } func TestUnmarshalWithoutTagNameWithCanonicalKey(t *testing.T) { type inner struct { Name string `key:"name"` } m := map[string]any{ "Name": "go-zero", } var in inner unmarshaler := NewUnmarshaler(defaultKeyName, WithCanonicalKeyFunc(func(s string) string { first := true return strings.Map(func(r rune) rune { if first { first = false return unicode.ToTitle(r) } return r }, s) })) if assert.NoError(t, unmarshaler.Unmarshal(m, &in)) { assert.Equal(t, "go-zero", in.Name) } } func TestUnmarshalWithoutTagNameWithCanonicalKeyOptionalDep(t *testing.T) { type inner struct { FirstName string `key:",optional"` LastName string `key:",optional=FirstName"` } m := map[string]any{ "firstname": "go", "lastname": "zero", } var in inner unmarshaler := NewUnmarshaler(defaultKeyName, WithCanonicalKeyFunc(func(s string) string { return strings.ToLower(s) })) if assert.NoError(t, unmarshaler.Unmarshal(m, &in)) { assert.Equal(t, "go", in.FirstName) assert.Equal(t, "zero", in.LastName) } } func TestUnmarshalBool(t *testing.T) { type inner struct { True bool `key:"yes"` False bool `key:"no"` TrueFromOne bool `key:"yesone,string"` FalseFromZero bool `key:"nozero,string"` TrueFromTrue bool `key:"yestrue,string"` FalseFromFalse bool `key:"nofalse,string"` DefaultTrue bool `key:"defaulttrue,default=1"` Optional bool `key:"optional,optional"` } m := map[string]any{ "yes": true, "no": false, "yesone": "1", "nozero": "0", "yestrue": "true", "nofalse": "false", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.True(in.True) ast.False(in.False) ast.True(in.TrueFromOne) ast.False(in.FalseFromZero) ast.True(in.TrueFromTrue) ast.False(in.FalseFromFalse) ast.True(in.DefaultTrue) } } func TestUnmarshalDuration(t *testing.T) { type inner struct { Duration time.Duration `key:"duration"` LessDuration time.Duration `key:"less"` MoreDuration time.Duration `key:"more"` PtrDuration *time.Duration `key:"ptr"` PtrPtrDuration **time.Duration `key:"ptrptr"` } m := map[string]any{ "duration": "5s", "less": "100ms", "more": "24h", "ptr": "1h", "ptrptr": "2h", } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, time.Second*5, in.Duration) assert.Equal(t, time.Millisecond*100, in.LessDuration) assert.Equal(t, time.Hour*24, in.MoreDuration) assert.Equal(t, time.Hour, *in.PtrDuration) assert.Equal(t, time.Hour*2, **in.PtrPtrDuration) } } func TestUnmarshalDurationDefault(t *testing.T) { type inner struct { Int int `key:"int"` Duration time.Duration `key:"duration,default=5s"` } m := map[string]any{ "int": 5, } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, 5, in.Int) assert.Equal(t, time.Second*5, in.Duration) } } func TestUnmarshalDurationPtr(t *testing.T) { type inner struct { Duration *time.Duration `key:"duration"` } m := map[string]any{ "duration": "5s", } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, time.Second*5, *in.Duration) } } func TestUnmarshalDurationPtrDefault(t *testing.T) { type inner struct { Int int `key:"int"` Value *int `key:",default=5"` Duration *time.Duration `key:"duration,default=5s"` } m := map[string]any{ "int": 5, } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, 5, in.Int) assert.Equal(t, 5, *in.Value) assert.Equal(t, time.Second*5, *in.Duration) } } func TestUnmarshalInt(t *testing.T) { type inner struct { Int int `key:"int"` IntFromStr int `key:"intstr,string"` Int8 int8 `key:"int8"` Int8FromStr int8 `key:"int8str,string"` Int16 int16 `key:"int16"` Int16FromStr int16 `key:"int16str,string"` Int32 int32 `key:"int32"` Int32FromStr int32 `key:"int32str,string"` Int64 int64 `key:"int64"` Int64FromStr int64 `key:"int64str,string"` DefaultInt int64 `key:"defaultint,default=11"` Optional int `key:"optional,optional"` } m := map[string]any{ "int": 1, "intstr": "2", "int8": int8(3), "int8str": "4", "int16": int16(5), "int16str": "6", "int32": int32(7), "int32str": "8", "int64": int64(9), "int64str": "10", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal(1, in.Int) ast.Equal(2, in.IntFromStr) ast.Equal(int8(3), in.Int8) ast.Equal(int8(4), in.Int8FromStr) ast.Equal(int16(5), in.Int16) ast.Equal(int16(6), in.Int16FromStr) ast.Equal(int32(7), in.Int32) ast.Equal(int32(8), in.Int32FromStr) ast.Equal(int64(9), in.Int64) ast.Equal(int64(10), in.Int64FromStr) ast.Equal(int64(11), in.DefaultInt) } } func TestUnmarshalIntPtr(t *testing.T) { type inner struct { Int *int `key:"int"` } m := map[string]any{ "int": 1, } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.NotNil(t, in.Int) assert.Equal(t, 1, *in.Int) } } func TestUnmarshalIntSliceOfPtr(t *testing.T) { t.Run("int slice", func(t *testing.T) { type inner struct { Ints []*int `key:"ints"` Intps []**int `key:"intps"` } m := map[string]any{ "ints": []int{1, 2, 3}, "intps": []int{1, 2, 3, 4}, } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.NotEmpty(t, in.Ints) var ints []int for _, i := range in.Ints { ints = append(ints, *i) } assert.EqualValues(t, []int{1, 2, 3}, ints) var intps []int for _, i := range in.Intps { intps = append(intps, **i) } assert.EqualValues(t, []int{1, 2, 3, 4}, intps) } }) t.Run("int slice with error", func(t *testing.T) { type inner struct { Ints []*int `key:"ints"` Intps []**int `key:"intps"` } m := map[string]any{ "ints": []any{1, 2, "a"}, "intps": []int{1, 2, 3, 4}, } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) t.Run("int slice with nil", func(t *testing.T) { type inner struct { Ints []int `key:"ints"` } m := map[string]any{ "ints": []any{nil}, } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Empty(t, in.Ints) } }) } func TestUnmarshalIntWithDefault(t *testing.T) { type inner struct { Int int `key:"int,default=5"` Intp *int `key:"intp,default=5"` Intpp **int `key:"intpp,default=5"` } m := map[string]any{ "int": 1, "intp": 2, "intpp": 3, } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, 1, in.Int) assert.Equal(t, 2, *in.Intp) assert.Equal(t, 3, **in.Intpp) } } func TestUnmarshalIntWithString(t *testing.T) { t.Run("int without options", func(t *testing.T) { type inner struct { Int int64 `key:"int,string"` Intp *int64 `key:"intp,string"` Intpp **int64 `key:"intpp,string"` } m := map[string]any{ "int": json.Number("1"), "intp": json.Number("2"), "intpp": json.Number("3"), } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, int64(1), in.Int) assert.Equal(t, int64(2), *in.Intp) assert.Equal(t, int64(3), **in.Intpp) } }) t.Run("int wrong range", func(t *testing.T) { type inner struct { Int int64 `key:"int,string,range=[2:3]"` Intp *int64 `key:"intp,range=[2:3]"` Intpp **int64 `key:"intpp,range=[2:3]"` } m := map[string]any{ "int": json.Number("1"), "intp": json.Number("2"), "intpp": json.Number("3"), } var in inner assert.ErrorIs(t, UnmarshalKey(m, &in), errNumberRange) }) t.Run("int with wrong type", func(t *testing.T) { type ( myString string inner struct { Int int64 `key:"int,string"` Intp *int64 `key:"intp,string"` Intpp **int64 `key:"intpp,string"` } ) m := map[string]any{ "int": myString("1"), "intp": myString("2"), "intpp": myString("3"), } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) t.Run("int with ptr", func(t *testing.T) { type inner struct { Int *int64 `key:"int"` } m := map[string]any{ "int": json.Number("1"), } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, int64(1), *in.Int) } }) t.Run("int with invalid value", func(t *testing.T) { type inner struct { Int int64 `key:"int"` } m := map[string]any{ "int": json.Number("a"), } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) t.Run("uint with invalid value", func(t *testing.T) { type inner struct { Int uint64 `key:"int"` } m := map[string]any{ "int": json.Number("a"), } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) t.Run("float with invalid value", func(t *testing.T) { type inner struct { Value float64 `key:"float"` } m := map[string]any{ "float": json.Number("a"), } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) t.Run("float with invalid value", func(t *testing.T) { type inner struct { Value string `key:"value"` } m := map[string]any{ "value": json.Number("a"), } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) t.Run("int with ptr of ptr", func(t *testing.T) { type inner struct { Int **int64 `key:"int"` } m := map[string]any{ "int": json.Number("1"), } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, int64(1), **in.Int) } }) t.Run("int with options", func(t *testing.T) { type inner struct { Int int64 `key:"int,string,options=[0,1]"` } m := map[string]any{ "int": json.Number("1"), } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, int64(1), in.Int) } }) t.Run("int with options", func(t *testing.T) { type inner struct { Int int64 `key:"int,string,options=[0,1]"` } m := map[string]any{ "int": nil, } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) t.Run("int with options", func(t *testing.T) { type ( StrType string inner struct { Int int64 `key:"int,string,options=[0,1]"` } ) m := map[string]any{ "int": StrType("1"), } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) t.Run("invalid options", func(t *testing.T) { type Value struct { Name string `key:"name,options="` } var v Value assert.Error(t, UnmarshalKey(emptyMap, &v)) }) } func TestUnmarshalBoolSliceRequired(t *testing.T) { type inner struct { Bools []bool `key:"bools"` } var in inner assert.NotNil(t, UnmarshalKey(map[string]any{}, &in)) } func TestUnmarshalBoolSliceNil(t *testing.T) { type inner struct { Bools []bool `key:"bools,optional"` } var in inner if assert.NoError(t, UnmarshalKey(map[string]any{}, &in)) { assert.Nil(t, in.Bools) } } func TestUnmarshalBoolSliceNilExplicit(t *testing.T) { type inner struct { Bools []bool `key:"bools,optional"` } var in inner if assert.NoError(t, UnmarshalKey(map[string]any{ "bools": nil, }, &in)) { assert.Nil(t, in.Bools) } } func TestUnmarshalBoolSliceEmpty(t *testing.T) { type inner struct { Bools []bool `key:"bools,optional"` } var in inner if assert.NoError(t, UnmarshalKey(map[string]any{ "bools": []bool{}, }, &in)) { assert.Empty(t, in.Bools) } } func TestUnmarshalBoolSliceWithDefault(t *testing.T) { t.Run("slice with default", func(t *testing.T) { type inner struct { Bools []bool `key:"bools,default=[true,false]"` } var in inner if assert.NoError(t, UnmarshalKey(nil, &in)) { assert.ElementsMatch(t, []bool{true, false}, in.Bools) } }) t.Run("slice with default error", func(t *testing.T) { type inner struct { Bools []bool `key:"bools,default=[true,fal]"` } var in inner assert.Error(t, UnmarshalKey(nil, &in)) }) } func TestUnmarshalIntSliceWithDefault(t *testing.T) { type inner struct { Ints []int `key:"ints,default=[1,2,3]"` } var in inner if assert.NoError(t, UnmarshalKey(nil, &in)) { assert.ElementsMatch(t, []int{1, 2, 3}, in.Ints) } } func TestUnmarshalIntSliceWithDefaultHasSpaces(t *testing.T) { type inner struct { Ints []int `key:"ints,default=[1, 2, 3]"` Intps []*int `key:"intps,default=[1, 2, 3, 4]"` Intpps []**int `key:"intpps,default=[1, 2, 3, 4, 5]"` } var in inner if assert.NoError(t, UnmarshalKey(nil, &in)) { assert.ElementsMatch(t, []int{1, 2, 3}, in.Ints) var intps []int for _, i := range in.Intps { intps = append(intps, *i) } assert.ElementsMatch(t, []int{1, 2, 3, 4}, intps) var intpps []int for _, i := range in.Intpps { intpps = append(intpps, **i) } assert.ElementsMatch(t, []int{1, 2, 3, 4, 5}, intpps) } } func TestUnmarshalFloatSliceWithDefault(t *testing.T) { type inner struct { Floats []float32 `key:"floats,default=[1.1,2.2,3.3]"` } var in inner if assert.NoError(t, UnmarshalKey(nil, &in)) { assert.ElementsMatch(t, []float32{1.1, 2.2, 3.3}, in.Floats) } } func TestUnmarshalStringSliceWithDefault(t *testing.T) { t.Run("slice with default", func(t *testing.T) { type inner struct { Strs []string `key:"strs,default=[foo,bar,woo]"` Strps []*string `key:"strs,default=[foo,bar,woo]"` Strpps []**string `key:"strs,default=[foo,bar,woo]"` } var in inner if assert.NoError(t, UnmarshalKey(nil, &in)) { assert.ElementsMatch(t, []string{"foo", "bar", "woo"}, in.Strs) var ss []string for _, s := range in.Strps { ss = append(ss, *s) } assert.ElementsMatch(t, []string{"foo", "bar", "woo"}, ss) var sss []string for _, s := range in.Strpps { sss = append(sss, **s) } assert.ElementsMatch(t, []string{"foo", "bar", "woo"}, sss) } }) t.Run("slice with default on errors", func(t *testing.T) { type ( holder struct { Chan []chan int } inner struct { Strs []holder `key:"strs,default=[foo,bar,woo]"` } ) var in inner assert.Error(t, UnmarshalKey(nil, &in)) }) t.Run("slice with default on errors", func(t *testing.T) { type inner struct { Strs []complex64 `key:"strs,default=[foo,bar,woo]"` } var in inner assert.Error(t, UnmarshalKey(nil, &in)) }) } func TestUnmarshalStringSliceWithDefaultHasSpaces(t *testing.T) { type inner struct { Strs []string `key:"strs,default=[foo, bar, woo]"` } var in inner if assert.NoError(t, UnmarshalKey(nil, &in)) { assert.ElementsMatch(t, []string{"foo", "bar", "woo"}, in.Strs) } } func TestUnmarshalUint(t *testing.T) { type inner struct { Uint uint `key:"uint"` UintFromStr uint `key:"uintstr,string"` Uint8 uint8 `key:"uint8"` Uint8FromStr uint8 `key:"uint8str,string"` Uint16 uint16 `key:"uint16"` Uint16FromStr uint16 `key:"uint16str,string"` Uint32 uint32 `key:"uint32"` Uint32FromStr uint32 `key:"uint32str,string"` Uint64 uint64 `key:"uint64"` Uint64FromStr uint64 `key:"uint64str,string"` DefaultUint uint `key:"defaultuint,default=11"` Optional uint `key:"optional,optional"` } m := map[string]any{ "uint": uint(1), "uintstr": "2", "uint8": uint8(3), "uint8str": "4", "uint16": uint16(5), "uint16str": "6", "uint32": uint32(7), "uint32str": "8", "uint64": uint64(9), "uint64str": "10", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal(uint(1), in.Uint) ast.Equal(uint(2), in.UintFromStr) ast.Equal(uint8(3), in.Uint8) ast.Equal(uint8(4), in.Uint8FromStr) ast.Equal(uint16(5), in.Uint16) ast.Equal(uint16(6), in.Uint16FromStr) ast.Equal(uint32(7), in.Uint32) ast.Equal(uint32(8), in.Uint32FromStr) ast.Equal(uint64(9), in.Uint64) ast.Equal(uint64(10), in.Uint64FromStr) ast.Equal(uint(11), in.DefaultUint) } } func TestUnmarshalFloat(t *testing.T) { type inner struct { Float32 float32 `key:"float32"` Float32Str float32 `key:"float32str,string"` Float64 float64 `key:"float64"` Float64Str float64 `key:"float64str,string"` DefaultFloat float32 `key:"defaultfloat,default=5.5"` Optional float32 `key:",optional"` } m := map[string]any{ "float32": float32(1.5), "float32str": "2.5", "float64": float64(3.5), "float64str": "4.5", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal(float32(1.5), in.Float32) ast.Equal(float32(2.5), in.Float32Str) ast.Equal(3.5, in.Float64) ast.Equal(4.5, in.Float64Str) ast.Equal(float32(5.5), in.DefaultFloat) } } func TestUnmarshalInt64Slice(t *testing.T) { var v struct { Ages []int64 `key:"ages"` Slice []int64 `key:"slice"` } m := map[string]any{ "ages": []int64{1, 2}, "slice": []any{}, } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.ElementsMatch([]int64{1, 2}, v.Ages) ast.Equal([]int64{}, v.Slice) } } func TestUnmarshalIntSlice(t *testing.T) { var v struct { Ages []int `key:"ages"` Slice []int `key:"slice"` } m := map[string]any{ "ages": []int{1, 2}, "slice": []any{}, } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.ElementsMatch([]int{1, 2}, v.Ages) ast.Equal([]int{}, v.Slice) } } func TestUnmarshalString(t *testing.T) { type inner struct { Name string `key:"name"` NameStr string `key:"namestr,string"` NotPresent string `key:",optional"` NotPresentWithTag string `key:"notpresent,optional"` DefaultString string `key:"defaultstring,default=hello"` Optional string `key:",optional"` } m := map[string]any{ "name": "kevin", "namestr": "namewithstring", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal("kevin", in.Name) ast.Equal("namewithstring", in.NameStr) ast.Empty(in.NotPresent) ast.Empty(in.NotPresentWithTag) ast.Equal("hello", in.DefaultString) } } func TestUnmarshalStringWithMissing(t *testing.T) { type inner struct { Name string `key:"name"` } m := map[string]any{} var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshalStringSliceFromString(t *testing.T) { t.Run("slice from string", func(t *testing.T) { var v struct { Names []string `key:"names"` } m := map[string]any{ "names": `["first", "second"]`, } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.Equal(2, len(v.Names)) ast.Equal("first", v.Names[0]) ast.Equal("second", v.Names[1]) } }) t.Run("slice from string with slice error", func(t *testing.T) { var v struct { Names []int `key:"names"` } m := map[string]any{ "names": `["first", 1]`, } assert.Error(t, UnmarshalKey(m, &v)) }) t.Run("slice from string with error", func(t *testing.T) { type myString string var v struct { Names []string `key:"names"` } m := map[string]any{ "names": myString("not a slice"), } assert.Error(t, UnmarshalKey(m, &v)) }) } func TestUnmarshalIntSliceFromString(t *testing.T) { var v struct { Values []int `key:"values"` } m := map[string]any{ "values": `[1, 2]`, } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.Equal(2, len(v.Values)) ast.Equal(1, v.Values[0]) ast.Equal(2, v.Values[1]) } } func TestUnmarshalIntMapFromString(t *testing.T) { var v struct { Sort map[string]int `key:"sort"` } m := map[string]any{ "sort": `{"value":12345,"zeroVal":0,"nullVal":null}`, } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.Equal(3, len(v.Sort)) ast.Equal(12345, v.Sort["value"]) ast.Equal(0, v.Sort["zeroVal"]) ast.Equal(0, v.Sort["nullVal"]) } } func TestUnmarshalBoolMapFromString(t *testing.T) { var v struct { Sort map[string]bool `key:"sort"` } m := map[string]any{ "sort": `{"value":true,"zeroVal":false,"nullVal":null}`, } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.Equal(3, len(v.Sort)) ast.Equal(true, v.Sort["value"]) ast.Equal(false, v.Sort["zeroVal"]) ast.Equal(false, v.Sort["nullVal"]) } } type CustomStringer string type UnsupportedStringer string func (c CustomStringer) String() string { return fmt.Sprintf("{%s}", string(c)) } func TestUnmarshalStringMapFromStringer(t *testing.T) { t.Run("CustomStringer", func(t *testing.T) { var v struct { Sort map[string]string `key:"sort"` } m := map[string]any{ "sort": CustomStringer(`"value":"ascend","emptyStr":""`), } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.Equal(2, len(v.Sort)) ast.Equal("ascend", v.Sort["value"]) ast.Equal("", v.Sort["emptyStr"]) } }) t.Run("CustomStringer incorrect", func(t *testing.T) { var v struct { Sort map[string]string `key:"sort"` } m := map[string]any{ "sort": CustomStringer(`"value"`), } assert.Error(t, UnmarshalKey(m, &v)) }) } func TestUnmarshalStringMapFromUnsupportedType(t *testing.T) { var v struct { Sort map[string]string `key:"sort"` } m := map[string]any{ "sort": UnsupportedStringer(`{"value":"ascend","emptyStr":""}`), } ast := assert.New(t) ast.Error(UnmarshalKey(m, &v)) } func TestUnmarshalStringMapFromNotSettableValue(t *testing.T) { var v struct { sort map[string]string `key:"sort"` psort *map[string]string `key:"psort"` } m := map[string]any{ "sort": `{"value":"ascend","emptyStr":""}`, "psort": `{"value":"ascend","emptyStr":""}`, } ast := assert.New(t) ast.NoError(UnmarshalKey(m, &v)) assert.Empty(t, v.sort) assert.Nil(t, v.psort) } func TestUnmarshalStringMapFromString(t *testing.T) { var v struct { Sort map[string]string `key:"sort"` } m := map[string]any{ "sort": `{"value":"ascend","emptyStr":""}`, } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.Equal(2, len(v.Sort)) ast.Equal("ascend", v.Sort["value"]) ast.Equal("", v.Sort["emptyStr"]) } } func TestUnmarshalStructMapFromString(t *testing.T) { var v struct { Filter map[string]struct { Field1 bool `json:"field1"` Field2 int64 `json:"field2,string"` Field3 string `json:"field3"` Field4 *string `json:"field4"` Field5 []string `json:"field5"` } `key:"filter"` } m := map[string]any{ "filter": `{"obj":{"field1":true,"field2":"1573570455447539712","field3":"this is a string", "field4":"this is a string pointer","field5":["str1","str2"]}}`, } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.Equal(1, len(v.Filter)) ast.NotNil(v.Filter["obj"]) ast.Equal(true, v.Filter["obj"].Field1) ast.Equal(int64(1573570455447539712), v.Filter["obj"].Field2) ast.Equal("this is a string", v.Filter["obj"].Field3) ast.Equal("this is a string pointer", *v.Filter["obj"].Field4) ast.ElementsMatch([]string{"str1", "str2"}, v.Filter["obj"].Field5) } } func TestUnmarshalStringSliceMapFromString(t *testing.T) { var v struct { Filter map[string][]string `key:"filter"` } m := map[string]any{ "filter": `{"assignType":null,"status":["process","comment"],"rate":[]}`, } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.Equal(3, len(v.Filter)) ast.Equal([]string(nil), v.Filter["assignType"]) ast.Equal(2, len(v.Filter["status"])) ast.Equal("process", v.Filter["status"][0]) ast.Equal("comment", v.Filter["status"][1]) ast.Equal(0, len(v.Filter["rate"])) } } func TestUnmarshalStruct(t *testing.T) { t.Run("struct", func(t *testing.T) { type address struct { City string `key:"city"` ZipCode int `key:"zipcode,string"` DefaultString string `key:"defaultstring,default=hello"` Optional string `key:",optional"` } type inner struct { Name string `key:"name"` Address address `key:"address"` AddressP *address `key:"addressp"` AddressPP **address `key:"addresspp"` } m := map[string]any{ "name": "kevin", "address": map[string]any{ "city": "shanghai", "zipcode": "200000", }, "addressp": map[string]any{ "city": "beijing", "zipcode": "300000", }, "addresspp": map[string]any{ "city": "guangzhou", "zipcode": "400000", }, } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal("kevin", in.Name) ast.Equal("shanghai", in.Address.City) ast.Equal(200000, in.Address.ZipCode) ast.Equal("hello", in.AddressP.DefaultString) ast.Equal("beijing", in.AddressP.City) ast.Equal(300000, in.AddressP.ZipCode) ast.Equal("hello", in.AddressP.DefaultString) ast.Equal("guangzhou", (*in.AddressPP).City) ast.Equal(400000, (*in.AddressPP).ZipCode) ast.Equal("hello", (*in.AddressPP).DefaultString) } }) t.Run("struct with error", func(t *testing.T) { type address struct { City string `key:"city"` ZipCode int `key:"zipcode,string"` DefaultString string `key:"defaultstring,default=hello"` Optional string `key:",optional"` } type inner struct { Name string `key:"name"` Address address `key:"address"` AddressP *address `key:"addressp"` AddressPP **address `key:"addresspp"` } m := map[string]any{ "name": "kevin", "address": map[string]any{ "city": "shanghai", "zipcode": "200000", }, "addressp": map[string]any{ "city": "beijing", "zipcode": "300000", }, "addresspp": map[string]any{ "city": "guangzhou", "zipcode": "a", }, } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) } func TestUnmarshalStructOptionalDepends(t *testing.T) { type address struct { City string `key:"city"` Optional string `key:",optional"` OptionalDepends string `key:",optional=Optional"` } type inner struct { Name string `key:"name"` Address address `key:"address"` } tests := []struct { input map[string]string pass bool }{ { pass: true, }, { input: map[string]string{ "OptionalDepends": "b", }, pass: false, }, { input: map[string]string{ "Optional": "a", }, pass: false, }, { input: map[string]string{ "Optional": "a", "OptionalDepends": "b", }, pass: true, }, } for _, test := range tests { t.Run(stringx.Rand(), func(t *testing.T) { m := map[string]any{ "name": "kevin", "address": map[string]any{ "city": "shanghai", }, } for k, v := range test.input { m["address"].(map[string]any)[k] = v } var in inner ast := assert.New(t) if test.pass { if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal("kevin", in.Name) ast.Equal("shanghai", in.Address.City) ast.Equal(test.input["Optional"], in.Address.Optional) ast.Equal(test.input["OptionalDepends"], in.Address.OptionalDepends) } } else { ast.Error(UnmarshalKey(m, &in)) } }) } } func TestUnmarshalStructOptionalDependsNot(t *testing.T) { type address struct { City string `key:"city"` Optional string `key:",optional"` OptionalDepends string `key:",optional=!Optional"` } type inner struct { Name string `key:"name"` Address address `key:"address"` } tests := []struct { input map[string]string pass bool }{ { input: map[string]string{}, pass: false, }, { input: map[string]string{ "Optional": "a", "OptionalDepends": "b", }, pass: false, }, { input: map[string]string{ "Optional": "a", }, pass: true, }, { input: map[string]string{ "OptionalDepends": "b", }, pass: true, }, } for _, test := range tests { t.Run(stringx.Rand(), func(t *testing.T) { m := map[string]any{ "name": "kevin", "address": map[string]any{ "city": "shanghai", }, } for k, v := range test.input { m["address"].(map[string]any)[k] = v } var in inner ast := assert.New(t) if test.pass { if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal("kevin", in.Name) ast.Equal("shanghai", in.Address.City) ast.Equal(test.input["Optional"], in.Address.Optional) ast.Equal(test.input["OptionalDepends"], in.Address.OptionalDepends) } } else { ast.Error(UnmarshalKey(m, &in)) } }) } } func TestUnmarshalStructOptionalDependsNotErrorDetails(t *testing.T) { t.Run("mutal optionals", func(t *testing.T) { type address struct { Optional string `key:",optional"` OptionalDepends string `key:",optional=!Optional"` } type inner struct { Name string `key:"name"` Address address `key:"address"` } m := map[string]any{ "name": "kevin", } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) t.Run("with default", func(t *testing.T) { type address struct { Optional string `key:",optional"` OptionalDepends string `key:",default=value,optional"` } type inner struct { Name string `key:"name"` Address address `key:"address"` } m := map[string]any{ "name": "kevin", } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, "kevin", in.Name) assert.Equal(t, "value", in.Address.OptionalDepends) } }) } func TestUnmarshalStructOptionalDependsNotNested(t *testing.T) { t.Run("mutal optionals", func(t *testing.T) { type address struct { Optional string `key:",optional"` OptionalDepends string `key:",optional=!Optional"` } type combo struct { Name string `key:"name,optional"` Address address `key:"address"` } type inner struct { Name string `key:"name"` Combo combo `key:"combo"` } m := map[string]any{ "name": "kevin", } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) t.Run("bad format", func(t *testing.T) { type address struct { Optional string `key:",optional"` OptionalDepends string `key:",optional=!Optional=abcd"` } type combo struct { Name string `key:"name,optional"` Address address `key:"address"` } type inner struct { Name string `key:"name"` Combo combo `key:"combo"` } m := map[string]any{ "name": "kevin", } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) t.Run("invalid option", func(t *testing.T) { type address struct { Optional string `key:",optional"` OptionalDepends string `key:",opt=abcd"` } type combo struct { Name string `key:"name,optional"` Address address `key:"address"` } type inner struct { Name string `key:"name"` Combo combo `key:"combo"` } m := map[string]any{ "name": "kevin", } var in inner assert.Error(t, UnmarshalKey(m, &in)) }) } func TestUnmarshalStructOptionalNestedDifferentKey(t *testing.T) { type address struct { Optional string `dkey:",optional"` OptionalDepends string `key:",optional"` } type combo struct { Name string `key:"name,optional"` Address address `key:"address"` } type inner struct { Name string `key:"name"` Combo combo `key:"combo"` } m := map[string]any{ "name": "kevin", } var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshalStructOptionalDependsNotEnoughValue(t *testing.T) { type address struct { Optional string `key:",optional"` OptionalDepends string `key:",optional=!"` } type inner struct { Name string `key:"name"` Address address `key:"address"` } m := map[string]any{ "name": "kevin", "address": map[string]any{}, } var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshalStructOptionalDependsMoreValues(t *testing.T) { type address struct { Optional string `key:",optional"` OptionalDepends string `key:",optional=a=b"` } type inner struct { Name string `key:"name"` Address address `key:"address"` } m := map[string]any{ "name": "kevin", "address": map[string]any{}, } var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshalStructMissing(t *testing.T) { type address struct { Optional string `key:",optional"` OptionalDepends string `key:",optional=a=b"` } type inner struct { Name string `key:"name"` Address address `key:"address"` } m := map[string]any{ "name": "kevin", } var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshalNestedStructMissing(t *testing.T) { type mostInner struct { Name string `key:"name"` } type address struct { Optional string `key:",optional"` OptionalDepends string `key:",optional=a=b"` MostInner mostInner } type inner struct { Name string `key:"name"` Address address `key:"address"` } m := map[string]any{ "name": "kevin", "address": map[string]any{}, } var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshalAnonymousStructOptionalDepends(t *testing.T) { type AnonAddress struct { City string `key:"city"` Optional string `key:",optional"` OptionalDepends string `key:",optional=Optional"` } type inner struct { Name string `key:"name"` AnonAddress } tests := []struct { input map[string]string pass bool }{ { pass: true, }, { input: map[string]string{ "OptionalDepends": "b", }, pass: false, }, { input: map[string]string{ "Optional": "a", }, pass: false, }, { input: map[string]string{ "Optional": "a", "OptionalDepends": "b", }, pass: true, }, } for _, test := range tests { t.Run(stringx.Rand(), func(t *testing.T) { m := map[string]any{ "name": "kevin", "city": "shanghai", } for k, v := range test.input { m[k] = v } var in inner ast := assert.New(t) if test.pass { if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal("kevin", in.Name) ast.Equal("shanghai", in.City) ast.Equal(test.input["Optional"], in.Optional) ast.Equal(test.input["OptionalDepends"], in.OptionalDepends) } } else { ast.Error(UnmarshalKey(m, &in)) } }) } } func TestUnmarshalStructPtr(t *testing.T) { type address struct { City string `key:"city"` ZipCode int `key:"zipcode,string"` DefaultString string `key:"defaultstring,default=hello"` Optional string `key:",optional"` } type inner struct { Name string `key:"name"` Address *address `key:"address"` } m := map[string]any{ "name": "kevin", "address": map[string]any{ "city": "shanghai", "zipcode": "200000", }, } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal("kevin", in.Name) ast.Equal("shanghai", in.Address.City) ast.Equal(200000, in.Address.ZipCode) ast.Equal("hello", in.Address.DefaultString) } } func TestUnmarshalWithStringIgnored(t *testing.T) { type inner struct { True bool `key:"yes"` False bool `key:"no"` Int int `key:"int"` Int8 int8 `key:"int8"` Int16 int16 `key:"int16"` Int32 int32 `key:"int32"` Int64 int64 `key:"int64"` Uint uint `key:"uint"` Uint8 uint8 `key:"uint8"` Uint16 uint16 `key:"uint16"` Uint32 uint32 `key:"uint32"` Uint64 uint64 `key:"uint64"` Float32 float32 `key:"float32"` Float64 float64 `key:"float64"` } m := map[string]any{ "yes": "1", "no": "0", "int": "1", "int8": "3", "int16": "5", "int32": "7", "int64": "9", "uint": "1", "uint8": "3", "uint16": "5", "uint32": "7", "uint64": "9", "float32": "1.5", "float64": "3.5", } var in inner um := NewUnmarshaler("key", WithStringValues()) ast := assert.New(t) if ast.NoError(um.Unmarshal(m, &in)) { ast.True(in.True) ast.False(in.False) ast.Equal(1, in.Int) ast.Equal(int8(3), in.Int8) ast.Equal(int16(5), in.Int16) ast.Equal(int32(7), in.Int32) ast.Equal(int64(9), in.Int64) ast.Equal(uint(1), in.Uint) ast.Equal(uint8(3), in.Uint8) ast.Equal(uint16(5), in.Uint16) ast.Equal(uint32(7), in.Uint32) ast.Equal(uint64(9), in.Uint64) ast.Equal(float32(1.5), in.Float32) ast.Equal(3.5, in.Float64) } } func TestUnmarshalJsonNumberInt64(t *testing.T) { for i := 0; i <= maxUintBitsToTest; i++ { var intValue int64 = 1 << uint(i) strValue := strconv.FormatInt(intValue, 10) number := json.Number(strValue) m := map[string]any{ "ID": number, } var v struct { ID int64 } if assert.NoError(t, UnmarshalKey(m, &v)) { assert.Equal(t, intValue, v.ID) } } } func TestUnmarshalJsonNumberUint64(t *testing.T) { for i := 0; i <= maxUintBitsToTest; i++ { var intValue uint64 = 1 << uint(i) strValue := strconv.FormatUint(intValue, 10) number := json.Number(strValue) m := map[string]any{ "ID": number, } var v struct { ID uint64 } if assert.NoError(t, UnmarshalKey(m, &v)) { assert.Equal(t, intValue, v.ID) } } } func TestUnmarshalJsonNumberUint64Ptr(t *testing.T) { for i := 0; i <= maxUintBitsToTest; i++ { var intValue uint64 = 1 << uint(i) strValue := strconv.FormatUint(intValue, 10) number := json.Number(strValue) m := map[string]any{ "ID": number, } var v struct { ID *uint64 } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.NotNil(v.ID) ast.Equal(intValue, *v.ID) } } } func TestUnmarshalMapOfInt(t *testing.T) { m := map[string]any{ "Ids": map[string]bool{"first": true}, } var v struct { Ids map[string]bool } if assert.NoError(t, UnmarshalKey(m, &v)) { assert.True(t, v.Ids["first"]) } } func TestUnmarshalMapOfStruct(t *testing.T) { t.Run("map of struct with error", func(t *testing.T) { m := map[string]any{ "Ids": map[string]any{"first": "second"}, } var v struct { Ids map[string]struct { Name string } } assert.Error(t, UnmarshalKey(m, &v)) }) t.Run("map of struct", func(t *testing.T) { m := map[string]any{ "Ids": map[string]any{ "foo": map[string]any{"Name": "foo"}, }, } var v struct { Ids map[string]struct { Name string } } if assert.NoError(t, UnmarshalKey(m, &v)) { assert.Equal(t, "foo", v.Ids["foo"].Name) } }) t.Run("map of struct error", func(t *testing.T) { m := map[string]any{ "Ids": map[string]any{ "foo": map[string]any{"name": "foo"}, }, } var v struct { Ids map[string]struct { Name string } } assert.Error(t, UnmarshalKey(m, &v)) }) } func TestUnmarshalSlice(t *testing.T) { t.Run("slice of string", func(t *testing.T) { m := map[string]any{ "Ids": []any{"first", "second"}, } var v struct { Ids []string } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.Equal(2, len(v.Ids)) ast.Equal("first", v.Ids[0]) ast.Equal("second", v.Ids[1]) } }) t.Run("slice with type mismatch", func(t *testing.T) { var v struct { Ids string } assert.Error(t, NewUnmarshaler(jsonTagKey).Unmarshal([]any{1, 2}, &v)) }) t.Run("slice", func(t *testing.T) { var v []int ast := assert.New(t) if ast.NoError(NewUnmarshaler(jsonTagKey).Unmarshal([]any{1, 2}, &v)) { ast.Equal(2, len(v)) ast.Equal(1, v[0]) ast.Equal(2, v[1]) } }) t.Run("slice with unsupported type", func(t *testing.T) { var v int assert.Error(t, NewUnmarshaler(jsonTagKey).Unmarshal(1, &v)) }) } func TestUnmarshalSliceOfStruct(t *testing.T) { t.Run("slice of struct", func(t *testing.T) { m := map[string]any{ "Ids": []map[string]any{ { "First": 1, "Second": 2, }, }, } var v struct { Ids []struct { First int Second int } } ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &v)) { ast.Equal(1, len(v.Ids)) ast.Equal(1, v.Ids[0].First) ast.Equal(2, v.Ids[0].Second) } }) t.Run("slice of struct", func(t *testing.T) { m := map[string]any{ "Ids": []map[string]any{ { "First": "a", "Second": 2, }, }, } var v struct { Ids []struct { First int Second int } } assert.Error(t, UnmarshalKey(m, &v)) }) } func TestUnmarshalWithStringOptionsCorrect(t *testing.T) { type inner struct { Value string `key:"value,options=first|second"` Foo string `key:"foo,options=[bar,baz]"` Correct string `key:"correct,options=1|2"` } m := map[string]any{ "value": "first", "foo": "bar", "correct": "2", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal("first", in.Value) ast.Equal("bar", in.Foo) ast.Equal("2", in.Correct) } } func TestUnmarshalOptionsOptional(t *testing.T) { type inner struct { Value string `key:"value,options=first|second,optional"` OptionalValue string `key:"optional_value,options=first|second,optional"` Foo string `key:"foo,options=[bar,baz]"` Correct string `key:"correct,options=1|2"` } m := map[string]any{ "value": "first", "foo": "bar", "correct": "2", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal("first", in.Value) ast.Equal("", in.OptionalValue) ast.Equal("bar", in.Foo) ast.Equal("2", in.Correct) } } func TestUnmarshalOptionsOptionalWrongValue(t *testing.T) { type inner struct { Value string `key:"value,options=first|second,optional"` OptionalValue string `key:"optional_value,options=first|second,optional"` WrongValue string `key:"wrong_value,options=first|second,optional"` } m := map[string]any{ "value": "first", "wrong_value": "third", } var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshalOptionsMissingValues(t *testing.T) { type inner struct { Value string `key:"value,options"` } m := map[string]any{ "value": "first", } var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshalStringOptionsWithStringOptionsNotString(t *testing.T) { type inner struct { Value string `key:"value,options=first|second"` Correct string `key:"correct,options=1|2"` } m := map[string]any{ "value": "first", "correct": 2, } var in inner unmarshaler := NewUnmarshaler(defaultKeyName, WithStringValues()) assert.Error(t, unmarshaler.Unmarshal(m, &in)) } func TestUnmarshalStringOptionsWithStringOptions(t *testing.T) { type inner struct { Value string `key:"value,options=first|second"` Correct string `key:"correct,options=1|2"` } m := map[string]any{ "value": "first", "correct": "2", } var in inner unmarshaler := NewUnmarshaler(defaultKeyName, WithStringValues()) ast := assert.New(t) if ast.NoError(unmarshaler.Unmarshal(m, &in)) { ast.Equal("first", in.Value) ast.Equal("2", in.Correct) } } func TestUnmarshalStringOptionsWithStringOptionsPtr(t *testing.T) { type inner struct { Value *string `key:"value,options=first|second"` ValueP **string `key:"valuep,options=first|second"` Correct *int `key:"correct,options=1|2"` } m := map[string]any{ "value": "first", "valuep": "second", "correct": "2", } var in inner unmarshaler := NewUnmarshaler(defaultKeyName, WithStringValues()) ast := assert.New(t) if ast.NoError(unmarshaler.Unmarshal(m, &in)) { ast.True(*in.Value == "first") ast.True(**in.ValueP == "second") ast.True(*in.Correct == 2) } } func TestUnmarshalStringOptionsWithStringOptionsIncorrect(t *testing.T) { type inner struct { Value string `key:"value,options=first|second"` Correct string `key:"correct,options=1|2"` } m := map[string]any{ "value": "third", "correct": "2", } var in inner unmarshaler := NewUnmarshaler(defaultKeyName, WithStringValues()) assert.Error(t, unmarshaler.Unmarshal(m, &in)) } func TestUnmarshalStringOptionsWithStringOptionsIncorrectGrouped(t *testing.T) { type inner struct { Value string `key:"value,options=[first,second]"` Correct string `key:"correct,options=1|2"` } m := map[string]any{ "value": "third", "correct": "2", } var in inner unmarshaler := NewUnmarshaler(defaultKeyName, WithStringValues()) assert.Error(t, unmarshaler.Unmarshal(m, &in)) } func TestUnmarshalWithStringOptionsIncorrect(t *testing.T) { type inner struct { Value string `key:"value,options=first|second"` Incorrect string `key:"incorrect,options=1|2"` } m := map[string]any{ "value": "first", "incorrect": "3", } var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshalWithIntOptionsCorrect(t *testing.T) { type inner struct { Value string `key:"value,options=first|second"` Number int `key:"number,options=1|2"` } m := map[string]any{ "value": "first", "number": 2, } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal("first", in.Value) ast.Equal(2, in.Number) } } func TestUnmarshalWithIntOptionsCorrectPtr(t *testing.T) { type inner struct { Value *string `key:"value,options=first|second"` Number *int `key:"number,options=1|2"` } m := map[string]any{ "value": "first", "number": 2, } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.True(*in.Value == "first") ast.True(*in.Number == 2) } } func TestUnmarshalWithIntOptionsIncorrect(t *testing.T) { type inner struct { Value string `key:"value,options=first|second"` Incorrect int `key:"incorrect,options=1|2"` } m := map[string]any{ "value": "first", "incorrect": 3, } var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshalWithJsonNumberOptionsIncorrect(t *testing.T) { type inner struct { Value string `key:"value,options=first|second"` Incorrect int `key:"incorrect,options=1|2"` } m := map[string]any{ "value": "first", "incorrect": json.Number("3"), } var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshaler_UnmarshalIntOptions(t *testing.T) { var val struct { Sex int `json:"sex,options=0|1"` } input := []byte(`{"sex": 2}`) assert.Error(t, UnmarshalJsonBytes(input, &val)) } func TestUnmarshalWithUintOptionsCorrect(t *testing.T) { type inner struct { Value string `key:"value,options=first|second"` Number uint `key:"number,options=1|2"` } m := map[string]any{ "value": "first", "number": uint(2), } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal("first", in.Value) ast.Equal(uint(2), in.Number) } } func TestUnmarshalWithUintOptionsIncorrect(t *testing.T) { type inner struct { Value string `key:"value,options=first|second"` Incorrect uint `key:"incorrect,options=1|2"` } m := map[string]any{ "value": "first", "incorrect": uint(3), } var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshalWithOptionsAndDefault(t *testing.T) { type inner struct { Value string `key:"value,options=first|second|third,default=second"` } m := map[string]any{} var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, "second", in.Value) } } func TestUnmarshalWithOptionsAndSet(t *testing.T) { type inner struct { Value string `key:"value,options=first|second|third,default=second"` } m := map[string]any{ "value": "first", } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, "first", in.Value) } } func TestUnmarshalNestedKey(t *testing.T) { var c struct { ID int `json:"Persons.first.ID"` } m := map[string]any{ "Persons": map[string]any{ "first": map[string]any{ "ID": 1, }, }, } if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &c)) { assert.Equal(t, 1, c.ID) } } func TestUnmarhsalNestedKeyArray(t *testing.T) { var c struct { First []struct { ID int } `json:"Persons.first"` } m := map[string]any{ "Persons": map[string]any{ "first": []map[string]any{ {"ID": 1}, {"ID": 2}, }, }, } if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &c)) { assert.Equal(t, 2, len(c.First)) assert.Equal(t, 1, c.First[0].ID) } } func TestUnmarshalAnonymousOptionalRequiredProvided(t *testing.T) { type ( Foo struct { Value string `json:"v"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{ "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousOptionalRequiredMissed(t *testing.T) { type ( Foo struct { Value string `json:"v"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{} var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.True(t, len(b.Value) == 0) } } func TestUnmarshalAnonymousOptionalOptionalProvided(t *testing.T) { type ( Foo struct { Value string `json:"v,optional"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{ "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousOptionalOptionalMissed(t *testing.T) { type ( Foo struct { Value string `json:"v,optional"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{} var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.True(t, len(b.Value) == 0) } } func TestUnmarshalAnonymousOptionalRequiredBothProvided(t *testing.T) { type ( Foo struct { Name string `json:"n"` Value string `json:"v"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{ "n": "kevin", "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "kevin", b.Name) assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousOptionalRequiredOneProvidedOneMissed(t *testing.T) { type ( Foo struct { Name string `json:"n"` Value string `json:"v"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{ "v": "anything", } var b Bar assert.Error(t, NewUnmarshaler("json").Unmarshal(m, &b)) } func TestUnmarshalAnonymousOptionalRequiredBothMissed(t *testing.T) { type ( Foo struct { Name string `json:"n"` Value string `json:"v"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{} var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.True(t, len(b.Name) == 0) assert.True(t, len(b.Value) == 0) } } func TestUnmarshalAnonymousOptionalOneRequiredOneOptionalBothProvided(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{ "n": "kevin", "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "kevin", b.Name) assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousOptionalOneRequiredOneOptionalBothMissed(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{} var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.True(t, len(b.Name) == 0) assert.True(t, len(b.Value) == 0) } } func TestUnmarshalAnonymousOptionalOneRequiredOneOptionalRequiredProvidedOptionalMissed(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{ "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.True(t, len(b.Name) == 0) assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousOptionalOneRequiredOneOptionalRequiredMissedOptionalProvided(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{ "n": "anything", } var b Bar assert.Error(t, NewUnmarshaler("json").Unmarshal(m, &b)) } func TestUnmarshalAnonymousOptionalBothOptionalBothProvided(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v,optional"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{ "n": "kevin", "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "kevin", b.Name) assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousOptionalBothOptionalOneProvidedOneMissed(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v,optional"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{ "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.True(t, len(b.Name) == 0) assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousOptionalBothOptionalBothMissed(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v,optional"` } Bar struct { Foo `json:",optional"` } ) m := map[string]any{} var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.True(t, len(b.Name) == 0) assert.True(t, len(b.Value) == 0) } } func TestUnmarshalAnonymousRequiredProvided(t *testing.T) { type ( Foo struct { Value string `json:"v"` } Bar struct { Foo } ) m := map[string]any{ "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousRequiredMissed(t *testing.T) { type ( Foo struct { Value string `json:"v"` } Bar struct { Foo } ) m := map[string]any{} var b Bar assert.Error(t, NewUnmarshaler("json").Unmarshal(m, &b)) } func TestUnmarshalAnonymousOptionalProvided(t *testing.T) { type ( Foo struct { Value string `json:"v,optional"` } Bar struct { Foo } ) m := map[string]any{ "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousOptionalMissed(t *testing.T) { type ( Foo struct { Value string `json:"v,optional"` } Bar struct { Foo } ) m := map[string]any{} var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.True(t, len(b.Value) == 0) } } func TestUnmarshalAnonymousRequiredBothProvided(t *testing.T) { type ( Foo struct { Name string `json:"n"` Value string `json:"v"` } Bar struct { Foo } ) m := map[string]any{ "n": "kevin", "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "kevin", b.Name) assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousRequiredOneProvidedOneMissed(t *testing.T) { type ( Foo struct { Name string `json:"n"` Value string `json:"v"` } Bar struct { Foo } ) m := map[string]any{ "v": "anything", } var b Bar assert.Error(t, NewUnmarshaler("json").Unmarshal(m, &b)) } func TestUnmarshalAnonymousRequiredBothMissed(t *testing.T) { type ( Foo struct { Name string `json:"n"` Value string `json:"v"` } Bar struct { Foo } ) m := map[string]any{ "v": "anything", } var b Bar assert.Error(t, NewUnmarshaler("json").Unmarshal(m, &b)) } func TestUnmarshalAnonymousOneRequiredOneOptionalBothProvided(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v"` } Bar struct { Foo } ) m := map[string]any{ "n": "kevin", "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "kevin", b.Name) assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousOneRequiredOneOptionalBothMissed(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v"` } Bar struct { Foo } ) m := map[string]any{} var b Bar assert.Error(t, NewUnmarshaler("json").Unmarshal(m, &b)) } func TestUnmarshalAnonymousOneRequiredOneOptionalRequiredProvidedOptionalMissed(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v"` } Bar struct { Foo } ) m := map[string]any{ "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.True(t, len(b.Name) == 0) assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousOneRequiredOneOptionalRequiredMissedOptionalProvided(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v"` } Bar struct { Foo } ) m := map[string]any{ "n": "anything", } var b Bar assert.Error(t, NewUnmarshaler("json").Unmarshal(m, &b)) } func TestUnmarshalAnonymousBothOptionalBothProvided(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v,optional"` } Bar struct { Foo } ) m := map[string]any{ "n": "kevin", "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "kevin", b.Name) assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousBothOptionalOneProvidedOneMissed(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v,optional"` } Bar struct { Foo } ) m := map[string]any{ "v": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.True(t, len(b.Name) == 0) assert.Equal(t, "anything", b.Value) } } func TestUnmarshalAnonymousBothOptionalBothMissed(t *testing.T) { type ( Foo struct { Name string `json:"n,optional"` Value string `json:"v,optional"` } Bar struct { Foo } ) m := map[string]any{} var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.True(t, len(b.Name) == 0) assert.True(t, len(b.Value) == 0) } } func TestUnmarshalAnonymousWrappedToMuch(t *testing.T) { type ( Foo struct { Name string `json:"n"` Value string `json:"v"` } Bar struct { Foo } ) m := map[string]any{ "Foo": map[string]any{ "n": "name", "v": "anything", }, } var b Bar assert.Error(t, NewUnmarshaler("json").Unmarshal(m, &b)) } func TestUnmarshalWrappedObject(t *testing.T) { type ( Foo struct { Value string `json:"v"` } Bar struct { Inner Foo } ) m := map[string]any{ "Inner": map[string]any{ "v": "anything", }, } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "anything", b.Inner.Value) } } func TestUnmarshalWrappedObjectOptional(t *testing.T) { type ( Foo struct { Hosts []string Key string } Bar struct { Inner Foo `json:",optional"` Name string } ) m := map[string]any{ "Name": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "anything", b.Name) } } func TestUnmarshalWrappedObjectOptionalFilled(t *testing.T) { type ( Foo struct { Hosts []string Key string } Bar struct { Inner Foo `json:",optional"` Name string } ) hosts := []string{"1", "2"} m := map[string]any{ "Inner": map[string]any{ "Hosts": hosts, "Key": "key", }, "Name": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.EqualValues(t, hosts, b.Inner.Hosts) assert.Equal(t, "key", b.Inner.Key) assert.Equal(t, "anything", b.Name) } } func TestUnmarshalWrappedNamedObjectOptional(t *testing.T) { type ( Foo struct { Host string Key string } Bar struct { Inner Foo `json:",optional"` Name string } ) m := map[string]any{ "Inner": map[string]any{ "Host": "thehost", "Key": "thekey", }, "Name": "anything", } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "thehost", b.Inner.Host) assert.Equal(t, "thekey", b.Inner.Key) assert.Equal(t, "anything", b.Name) } } func TestUnmarshalWrappedObjectNamedPtr(t *testing.T) { type ( Foo struct { Value string `json:"v"` } Bar struct { Inner *Foo `json:"foo,optional"` } ) m := map[string]any{ "foo": map[string]any{ "v": "anything", }, } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "anything", b.Inner.Value) } } func TestUnmarshalWrappedObjectPtr(t *testing.T) { type ( Foo struct { Value string `json:"v"` } Bar struct { Inner *Foo } ) m := map[string]any{ "Inner": map[string]any{ "v": "anything", }, } var b Bar if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &b)) { assert.Equal(t, "anything", b.Inner.Value) } } func TestUnmarshalInt2String(t *testing.T) { type inner struct { Int string `key:"int"` } m := map[string]any{ "int": 123, } var in inner assert.Error(t, UnmarshalKey(m, &in)) } func TestUnmarshalZeroValues(t *testing.T) { type inner struct { False bool `key:"no"` Int int `key:"int"` String string `key:"string"` } m := map[string]any{ "no": false, "int": 0, "string": "", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.False(in.False) ast.Equal(0, in.Int) ast.Equal("", in.String) } } func TestUnmarshalUsingDifferentKeys(t *testing.T) { type inner struct { False bool `key:"no"` Int int `key:"int"` String string `bson:"string"` } m := map[string]any{ "no": false, "int": 9, "string": "value", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.False(in.False) ast.Equal(9, in.Int) ast.True(len(in.String) == 0) } } func TestUnmarshalNumberRangeInt(t *testing.T) { type inner struct { Value1 int `key:"value1,range=[1:]"` Value2 int8 `key:"value2,range=[1:5]"` Value3 int16 `key:"value3,range=[1:5]"` Value4 int32 `key:"value4,range=[1:5]"` Value5 int64 `key:"value5,range=[1:5]"` Value6 uint `key:"value6,range=[:5]"` Value8 uint8 `key:"value8,range=[1:5],string"` Value9 uint16 `key:"value9,range=[1:5],string"` Value10 uint32 `key:"value10,range=[1:5],string"` Value11 uint64 `key:"value11,range=[1:5],string"` } m := map[string]any{ "value1": 10, "value2": int8(1), "value3": int16(2), "value4": int32(4), "value5": int64(5), "value6": uint(0), "value8": "1", "value9": "2", "value10": "4", "value11": "5", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal(10, in.Value1) ast.Equal(int8(1), in.Value2) ast.Equal(int16(2), in.Value3) ast.Equal(int32(4), in.Value4) ast.Equal(int64(5), in.Value5) ast.Equal(uint(0), in.Value6) ast.Equal(uint8(1), in.Value8) ast.Equal(uint16(2), in.Value9) ast.Equal(uint32(4), in.Value10) ast.Equal(uint64(5), in.Value11) } } func TestUnmarshalNumberRangeJsonNumber(t *testing.T) { type inner struct { Value3 uint `key:"value3,range=(1:5]"` Value4 uint8 `key:"value4,range=(1:5]"` Value5 uint16 `key:"value5,range=(1:5]"` } m := map[string]any{ "value3": json.Number("2"), "value4": json.Number("4"), "value5": json.Number("5"), } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal(uint(2), in.Value3) ast.Equal(uint8(4), in.Value4) ast.Equal(uint16(5), in.Value5) } type inner1 struct { Value int `key:"value,range=(1:5]"` } m = map[string]any{ "value": json.Number("a"), } var in1 inner1 ast.Error(UnmarshalKey(m, &in1)) } func TestUnmarshalNumberRangeIntLeftExclude(t *testing.T) { type inner struct { Value3 uint `key:"value3,range=(1:5]"` Value4 uint32 `key:"value4,default=4,range=(1:5]"` Value5 uint64 `key:"value5,range=(1:5]"` Value9 int `key:"value9,range=(1:5],string"` Value10 int `key:"value10,range=(1:5],string"` Value11 int `key:"value11,range=(1:5],string"` } m := map[string]any{ "value3": uint(2), "value4": uint32(4), "value5": uint64(5), "value9": "2", "value10": "4", "value11": "5", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal(uint(2), in.Value3) ast.Equal(uint32(4), in.Value4) ast.Equal(uint64(5), in.Value5) ast.Equal(2, in.Value9) ast.Equal(4, in.Value10) ast.Equal(5, in.Value11) } } func TestUnmarshalNumberRangeIntRightExclude(t *testing.T) { type inner struct { Value2 uint `key:"value2,range=[1:5)"` Value3 uint8 `key:"value3,range=[1:5)"` Value4 uint16 `key:"value4,range=[1:5)"` Value8 int `key:"value8,range=[1:5),string"` Value9 int `key:"value9,range=[1:5),string"` Value10 int `key:"value10,range=[1:5),string"` } m := map[string]any{ "value2": uint(1), "value3": uint8(2), "value4": uint16(4), "value8": "1", "value9": "2", "value10": "4", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal(uint(1), in.Value2) ast.Equal(uint8(2), in.Value3) ast.Equal(uint16(4), in.Value4) ast.Equal(1, in.Value8) ast.Equal(2, in.Value9) ast.Equal(4, in.Value10) } } func TestUnmarshalNumberRangeIntExclude(t *testing.T) { type inner struct { Value3 int `key:"value3,range=(1:5)"` Value4 int `key:"value4,range=(1:5)"` Value9 int `key:"value9,range=(1:5),string"` Value10 int `key:"value10,range=(1:5),string"` } m := map[string]any{ "value3": 2, "value4": 4, "value9": "2", "value10": "4", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal(2, in.Value3) ast.Equal(4, in.Value4) ast.Equal(2, in.Value9) ast.Equal(4, in.Value10) } } func TestUnmarshalNumberRangeIntOutOfRange(t *testing.T) { type inner1 struct { Value int64 `key:"value,default=3,range=(1:5)"` } var in1 inner1 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": int64(1), }, &in1)) assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": int64(0), }, &in1)) assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": int64(5), }, &in1)) assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": json.Number("6"), }, &in1)) type inner2 struct { Value int64 `key:"value,optional,range=[1:5)"` } var in2 inner2 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": int64(0), }, &in2)) assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": int64(5), }, &in2)) type inner3 struct { Value int64 `key:"value,range=(1:5]"` } var in3 inner3 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": int64(1), }, &in3)) assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": int64(6), }, &in3)) type inner4 struct { Value int64 `key:"value,range=[1:5]"` } var in4 inner4 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": int64(0), }, &in4)) assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": int64(6), }, &in4)) } func TestUnmarshalNumberRangeFloat(t *testing.T) { type inner struct { Value2 float32 `key:"value2,range=[1:5]"` Value3 float32 `key:"value3,range=[1:5]"` Value4 float64 `key:"value4,range=[1:5]"` Value5 float64 `key:"value5,range=[1:5]"` Value8 float64 `key:"value8,range=[1:5],string"` Value9 float64 `key:"value9,range=[1:5],string"` Value10 float64 `key:"value10,range=[1:5],string"` Value11 float64 `key:"value11,range=[1:5],string"` } m := map[string]any{ "value2": float32(1), "value3": float32(2), "value4": float64(4), "value5": float64(5), "value8": "1", "value9": "2", "value10": "4", "value11": "5", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal(float32(1), in.Value2) ast.Equal(float32(2), in.Value3) ast.Equal(float64(4), in.Value4) ast.Equal(float64(5), in.Value5) ast.Equal(float64(1), in.Value8) ast.Equal(float64(2), in.Value9) ast.Equal(float64(4), in.Value10) ast.Equal(float64(5), in.Value11) } } func TestUnmarshalNumberRangeFloatLeftExclude(t *testing.T) { type inner struct { Value3 float64 `key:"value3,range=(1:5]"` Value4 float64 `key:"value4,range=(1:5]"` Value5 float64 `key:"value5,range=(1:5]"` Value9 float64 `key:"value9,range=(1:5],string"` Value10 float64 `key:"value10,range=(1:5],string"` Value11 float64 `key:"value11,range=(1:5],string"` } m := map[string]any{ "value3": float64(2), "value4": float64(4), "value5": float64(5), "value9": "2", "value10": "4", "value11": "5", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal(float64(2), in.Value3) ast.Equal(float64(4), in.Value4) ast.Equal(float64(5), in.Value5) ast.Equal(float64(2), in.Value9) ast.Equal(float64(4), in.Value10) ast.Equal(float64(5), in.Value11) } } func TestUnmarshalNumberRangeFloatRightExclude(t *testing.T) { type inner struct { Value2 float64 `key:"value2,range=[1:5)"` Value3 float64 `key:"value3,range=[1:5)"` Value4 float64 `key:"value4,range=[1:5)"` Value8 float64 `key:"value8,range=[1:5),string"` Value9 float64 `key:"value9,range=[1:5),string"` Value10 float64 `key:"value10,range=[1:5),string"` } m := map[string]any{ "value2": float64(1), "value3": float64(2), "value4": float64(4), "value8": "1", "value9": "2", "value10": "4", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal(float64(1), in.Value2) ast.Equal(float64(2), in.Value3) ast.Equal(float64(4), in.Value4) ast.Equal(float64(1), in.Value8) ast.Equal(float64(2), in.Value9) ast.Equal(float64(4), in.Value10) } } func TestUnmarshalNumberRangeFloatExclude(t *testing.T) { type inner struct { Value3 float64 `key:"value3,range=(1:5)"` Value4 float64 `key:"value4,range=(1:5)"` Value9 float64 `key:"value9,range=(1:5),string"` Value10 float64 `key:"value10,range=(1:5),string"` } m := map[string]any{ "value3": float64(2), "value4": float64(4), "value9": "2", "value10": "4", } var in inner ast := assert.New(t) if ast.NoError(UnmarshalKey(m, &in)) { ast.Equal(float64(2), in.Value3) ast.Equal(float64(4), in.Value4) ast.Equal(float64(2), in.Value9) ast.Equal(float64(4), in.Value10) } } func TestUnmarshalNumberRangeFloatOutOfRange(t *testing.T) { type inner1 struct { Value float64 `key:"value,range=(1:5)"` } var in1 inner1 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": float64(1), }, &in1)) assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": float64(0), }, &in1)) assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": float64(5), }, &in1)) assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": json.Number("6"), }, &in1)) type inner2 struct { Value float64 `key:"value,range=[1:5)"` } var in2 inner2 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": float64(0), }, &in2)) assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": float64(5), }, &in2)) type inner3 struct { Value float64 `key:"value,range=(1:5]"` } var in3 inner3 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": float64(1), }, &in3)) assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": float64(6), }, &in3)) type inner4 struct { Value float64 `key:"value,range=[1:5]"` } var in4 inner4 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": float64(0), }, &in4)) assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "value": float64(6), }, &in4)) } func TestUnmarshalRangeError(t *testing.T) { type inner1 struct { Value int `key:",range="` } var in1 inner1 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "Value": 1, }, &in1)) type inner2 struct { Value int `key:",range=["` } var in2 inner2 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "Value": 1, }, &in2)) type inner3 struct { Value int `key:",range=[:"` } var in3 inner3 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "Value": 1, }, &in3)) type inner4 struct { Value int `key:",range=[:]"` } var in4 inner4 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "Value": 1, }, &in4)) type inner5 struct { Value int `key:",range={:]"` } var in5 inner5 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "Value": 1, }, &in5)) type inner6 struct { Value int `key:",range=[:}"` } var in6 inner6 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "Value": 1, }, &in6)) type inner7 struct { Value int `key:",range=[]"` } var in7 inner7 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "Value": 1, }, &in7)) type inner8 struct { Value int `key:",range=[a:]"` } var in8 inner8 assert.Error(t, UnmarshalKey(map[string]any{ "Value": 1, }, &in8)) type inner9 struct { Value int `key:",range=[:a]"` } var in9 inner9 assert.Error(t, UnmarshalKey(map[string]any{ "Value": 1, }, &in9)) type inner10 struct { Value int `key:",range"` } var in10 inner10 assert.Error(t, UnmarshalKey(map[string]any{ "Value": 1, }, &in10)) type inner11 struct { Value int `key:",range=[1,2]"` } var in11 inner11 assert.Equal(t, errNumberRange, UnmarshalKey(map[string]any{ "Value": "a", }, &in11)) } func TestUnmarshalNestedMap(t *testing.T) { t.Run("nested map", func(t *testing.T) { var c struct { Anything map[string]map[string]string `json:"anything"` } m := map[string]any{ "anything": map[string]map[string]any{ "inner": { "id": "1", "name": "any", }, }, } if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &c)) { assert.Equal(t, "1", c.Anything["inner"]["id"]) } }) t.Run("nested map with slice element", func(t *testing.T) { var c struct { Anything map[string][]string `json:"anything"` } m := map[string]any{ "anything": map[string][]any{ "inner": { "id", "name", }, }, } if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &c)) { assert.Equal(t, []string{"id", "name"}, c.Anything["inner"]) } }) t.Run("nested map with slice element error", func(t *testing.T) { var c struct { Anything map[string][]string `json:"anything"` } m := map[string]any{ "anything": map[string][]any{ "inner": { "id", 1, }, }, } assert.Error(t, NewUnmarshaler("json").Unmarshal(m, &c)) }) } func TestUnmarshalNestedMapMismatch(t *testing.T) { var c struct { Anything map[string]map[string]map[string]string `json:"anything"` } m := map[string]any{ "anything": map[string]map[string]any{ "inner": { "name": "any", }, }, } assert.Error(t, NewUnmarshaler("json").Unmarshal(m, &c)) } func TestUnmarshalNestedMapSimple(t *testing.T) { var c struct { Anything map[string]string `json:"anything"` } m := map[string]any{ "anything": map[string]any{ "id": "1", "name": "any", }, } if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &c)) { assert.Equal(t, "1", c.Anything["id"]) } } func TestUnmarshalNestedMapSimpleTypeMatch(t *testing.T) { var c struct { Anything map[string]string `json:"anything"` } m := map[string]any{ "anything": map[string]string{ "id": "1", "name": "any", }, } if assert.NoError(t, NewUnmarshaler("json").Unmarshal(m, &c)) { assert.Equal(t, "1", c.Anything["id"]) } } func TestUnmarshalInheritPrimitiveUseParent(t *testing.T) { type ( component struct { Name string `key:"name"` Discovery string `key:"discovery,inherit"` } server struct { Discovery string `key:"discovery"` Component component `key:"component"` } ) var s server if assert.NoError(t, UnmarshalKey(map[string]any{ "discovery": "localhost:8080", "component": map[string]any{ "name": "test", }, }, &s)) { assert.Equal(t, "localhost:8080", s.Discovery) assert.Equal(t, "localhost:8080", s.Component.Discovery) } } func TestUnmarshalInheritPrimitiveUseSelf(t *testing.T) { type ( component struct { Name string `key:"name"` Discovery string `key:"discovery,inherit"` } server struct { Discovery string `key:"discovery"` Component component `key:"component"` } ) var s server if assert.NoError(t, UnmarshalKey(map[string]any{ "discovery": "localhost:8080", "component": map[string]any{ "name": "test", "discovery": "localhost:8888", }, }, &s)) { assert.Equal(t, "localhost:8080", s.Discovery) assert.Equal(t, "localhost:8888", s.Component.Discovery) } } func TestUnmarshalInheritPrimitiveNotExist(t *testing.T) { type ( component struct { Name string `key:"name"` Discovery string `key:"discovery,inherit"` } server struct { Component component `key:"component"` } ) var s server assert.Error(t, UnmarshalKey(map[string]any{ "component": map[string]any{ "name": "test", }, }, &s)) } func TestUnmarshalInheritStructUseParent(t *testing.T) { type ( discovery struct { Host string `key:"host"` Port int `key:"port"` } component struct { Name string `key:"name"` Discovery discovery `key:"discovery,inherit"` } server struct { Discovery discovery `key:"discovery"` Component component `key:"component"` } ) var s server if assert.NoError(t, UnmarshalKey(map[string]any{ "discovery": map[string]any{ "host": "localhost", "port": 8080, }, "component": map[string]any{ "name": "test", }, }, &s)) { assert.Equal(t, "localhost", s.Discovery.Host) assert.Equal(t, 8080, s.Discovery.Port) assert.Equal(t, "localhost", s.Component.Discovery.Host) assert.Equal(t, 8080, s.Component.Discovery.Port) } } func TestUnmarshalInheritStructUseSelf(t *testing.T) { type ( discovery struct { Host string `key:"host"` Port int `key:"port"` } component struct { Name string `key:"name"` Discovery discovery `key:"discovery,inherit"` } server struct { Discovery discovery `key:"discovery"` Component component `key:"component"` } ) var s server if assert.NoError(t, UnmarshalKey(map[string]any{ "discovery": map[string]any{ "host": "localhost", "port": 8080, }, "component": map[string]any{ "name": "test", "discovery": map[string]any{ "host": "remotehost", "port": 8888, }, }, }, &s)) { assert.Equal(t, "localhost", s.Discovery.Host) assert.Equal(t, 8080, s.Discovery.Port) assert.Equal(t, "remotehost", s.Component.Discovery.Host) assert.Equal(t, 8888, s.Component.Discovery.Port) } } func TestUnmarshalInheritStructNotExist(t *testing.T) { type ( discovery struct { Host string `key:"host"` Port int `key:"port"` } component struct { Name string `key:"name"` Discovery discovery `key:"discovery,inherit"` } server struct { Component component `key:"component"` } ) var s server assert.Error(t, UnmarshalKey(map[string]any{ "component": map[string]any{ "name": "test", }, }, &s)) } func TestUnmarshalInheritStructUsePartial(t *testing.T) { type ( discovery struct { Host string `key:"host"` Port int `key:"port"` } component struct { Name string `key:"name"` Discovery discovery `key:"discovery,inherit"` } server struct { Discovery discovery `key:"discovery"` Component component `key:"component"` } ) var s server if assert.NoError(t, UnmarshalKey(map[string]any{ "discovery": map[string]any{ "host": "localhost", "port": 8080, }, "component": map[string]any{ "name": "test", "discovery": map[string]any{ "port": 8888, }, }, }, &s)) { assert.Equal(t, "localhost", s.Discovery.Host) assert.Equal(t, 8080, s.Discovery.Port) assert.Equal(t, "localhost", s.Component.Discovery.Host) assert.Equal(t, 8888, s.Component.Discovery.Port) } } func TestUnmarshalInheritStructUseSelfIncorrectType(t *testing.T) { type ( discovery struct { Host string `key:"host"` Port int `key:"port"` } component struct { Name string `key:"name"` Discovery discovery `key:"discovery,inherit"` } server struct { Discovery discovery `key:"discovery"` Component component `key:"component"` } ) var s server assert.Error(t, UnmarshalKey(map[string]any{ "discovery": map[string]any{ "host": "localhost", }, "component": map[string]any{ "name": "test", "discovery": map[string]string{ "host": "remotehost", }, }, }, &s)) } func TestUnmarshaler_InheritFromGrandparent(t *testing.T) { type ( component struct { Name string `key:"name"` Discovery string `key:"discovery,inherit"` } middle struct { Value component `key:"value"` } server struct { Discovery string `key:"discovery"` Middle middle `key:"middle"` } ) var s server if assert.NoError(t, UnmarshalKey(map[string]any{ "discovery": "localhost:8080", "middle": map[string]any{ "value": map[string]any{ "name": "test", }, }, }, &s)) { assert.Equal(t, "localhost:8080", s.Discovery) assert.Equal(t, "localhost:8080", s.Middle.Value.Discovery) } } func TestUnmarshaler_InheritSequence(t *testing.T) { var testConf = []byte(` Nacos: NamespaceId: "123" RpcConf: Nacos: NamespaceId: "456" Name: hello `) type ( NacosConf struct { NamespaceId string } RpcConf struct { Nacos NacosConf `json:",inherit"` Name string } Config1 struct { RpcConf RpcConf Nacos NacosConf } Config2 struct { RpcConf RpcConf Nacos NacosConf } ) var c1 Config1 if assert.NoError(t, UnmarshalYamlBytes(testConf, &c1)) { assert.Equal(t, "123", c1.Nacos.NamespaceId) assert.Equal(t, "456", c1.RpcConf.Nacos.NamespaceId) } var c2 Config2 if assert.NoError(t, UnmarshalYamlBytes(testConf, &c2)) { assert.Equal(t, "123", c1.Nacos.NamespaceId) assert.Equal(t, "456", c1.RpcConf.Nacos.NamespaceId) } } func TestUnmarshaler_InheritNested(t *testing.T) { var testConf = []byte(` Nacos: Value1: "123" Server: Nacos: Value2: "456" Rpc: Nacos: Value3: "789" Name: hello `) type ( NacosConf struct { Value1 string `json:",optional"` Value2 string `json:",optional"` Value3 string `json:",optional"` } RpcConf struct { Nacos NacosConf `json:",inherit"` Name string } ServerConf struct { Nacos NacosConf `json:",inherit"` Rpc RpcConf } Config struct { Server ServerConf Nacos NacosConf } ) var c Config if assert.NoError(t, UnmarshalYamlBytes(testConf, &c)) { assert.Equal(t, "123", c.Nacos.Value1) assert.Empty(t, c.Nacos.Value2) assert.Empty(t, c.Nacos.Value3) assert.Equal(t, "123", c.Server.Nacos.Value1) assert.Equal(t, "456", c.Server.Nacos.Value2) assert.Empty(t, c.Nacos.Value3) assert.Equal(t, "123", c.Server.Rpc.Nacos.Value1) assert.Equal(t, "456", c.Server.Rpc.Nacos.Value2) assert.Equal(t, "789", c.Server.Rpc.Nacos.Value3) } } func TestUnmarshalValuer(t *testing.T) { unmarshaler := NewUnmarshaler(jsonTagKey) var foo string err := unmarshaler.UnmarshalValuer(nil, foo) assert.Error(t, err) } func TestUnmarshal_EnvString(t *testing.T) { t.Run("valid env", func(t *testing.T) { type Value struct { Name string `key:"name,env=TEST_NAME_STRING"` } const ( envName = "TEST_NAME_STRING" envVal = "this is a name" ) t.Setenv(envName, envVal) var v Value if assert.NoError(t, UnmarshalKey(emptyMap, &v)) { assert.Equal(t, envVal, v.Name) } }) t.Run("invalid env", func(t *testing.T) { type Value struct { Name string `key:"name,env=TEST_NAME_STRING=invalid"` } const ( envName = "TEST_NAME_STRING" envVal = "this is a name" ) t.Setenv(envName, envVal) var v Value assert.Error(t, UnmarshalKey(emptyMap, &v)) }) } func TestUnmarshal_EnvStringOverwrite(t *testing.T) { type Value struct { Name string `key:"name,env=TEST_NAME_STRING"` } const ( envName = "TEST_NAME_STRING" envVal = "this is a name" ) t.Setenv(envName, envVal) var v Value if assert.NoError(t, UnmarshalKey(map[string]any{ "name": "local value", }, &v)) { assert.Equal(t, envVal, v.Name) } } func TestUnmarshal_EnvInt(t *testing.T) { type Value struct { Age int `key:"age,env=TEST_NAME_INT"` } const ( envName = "TEST_NAME_INT" envVal = "123" ) t.Setenv(envName, envVal) var v Value if assert.NoError(t, UnmarshalKey(emptyMap, &v)) { assert.Equal(t, 123, v.Age) } } func TestUnmarshal_EnvIntOverwrite(t *testing.T) { type Value struct { Age int `key:"age,env=TEST_NAME_INT"` } const ( envName = "TEST_NAME_INT" envVal = "123" ) t.Setenv(envName, envVal) var v Value if assert.NoError(t, UnmarshalKey(map[string]any{ "age": 18, }, &v)) { assert.Equal(t, 123, v.Age) } } func TestUnmarshal_EnvFloat(t *testing.T) { type Value struct { Age float32 `key:"name,env=TEST_NAME_FLOAT"` } const ( envName = "TEST_NAME_FLOAT" envVal = "123.45" ) t.Setenv(envName, envVal) var v Value if assert.NoError(t, UnmarshalKey(emptyMap, &v)) { assert.Equal(t, float32(123.45), v.Age) } } func TestUnmarshal_EnvFloatOverwrite(t *testing.T) { type Value struct { Age float32 `key:"age,env=TEST_NAME_FLOAT"` } const ( envName = "TEST_NAME_FLOAT" envVal = "123.45" ) t.Setenv(envName, envVal) var v Value if assert.NoError(t, UnmarshalKey(map[string]any{ "age": 18.5, }, &v)) { assert.Equal(t, float32(123.45), v.Age) } } func TestUnmarshal_EnvBoolTrue(t *testing.T) { type Value struct { Enable bool `key:"enable,env=TEST_NAME_BOOL_TRUE"` } const ( envName = "TEST_NAME_BOOL_TRUE" envVal = "true" ) t.Setenv(envName, envVal) var v Value if assert.NoError(t, UnmarshalKey(emptyMap, &v)) { assert.True(t, v.Enable) } } func TestUnmarshal_EnvBoolFalse(t *testing.T) { type Value struct { Enable bool `key:"enable,env=TEST_NAME_BOOL_FALSE"` } const ( envName = "TEST_NAME_BOOL_FALSE" envVal = "false" ) t.Setenv(envName, envVal) var v Value if assert.NoError(t, UnmarshalKey(emptyMap, &v)) { assert.False(t, v.Enable) } } func TestUnmarshal_EnvBoolBad(t *testing.T) { type Value struct { Enable bool `key:"enable,env=TEST_NAME_BOOL_BAD"` } const ( envName = "TEST_NAME_BOOL_BAD" envVal = "bad" ) t.Setenv(envName, envVal) var v Value assert.Error(t, UnmarshalKey(emptyMap, &v)) } func TestUnmarshal_EnvDuration(t *testing.T) { type Value struct { Duration time.Duration `key:"duration,env=TEST_NAME_DURATION"` } const ( envName = "TEST_NAME_DURATION" envVal = "1s" ) t.Setenv(envName, envVal) var v Value if assert.NoError(t, UnmarshalKey(emptyMap, &v)) { assert.Equal(t, time.Second, v.Duration) } } func TestUnmarshal_EnvDurationBadValue(t *testing.T) { type Value struct { Duration time.Duration `key:"duration,env=TEST_NAME_BAD_DURATION"` } const ( envName = "TEST_NAME_BAD_DURATION" envVal = "bad" ) t.Setenv(envName, envVal) var v Value assert.Error(t, UnmarshalKey(emptyMap, &v)) } func TestUnmarshal_EnvWithOptions(t *testing.T) { t.Run("valid options", func(t *testing.T) { type Value struct { Name string `key:"name,env=TEST_NAME_ENV_OPTIONS_MATCH,options=[abc,123,xyz]"` } const ( envName = "TEST_NAME_ENV_OPTIONS_MATCH" envVal = "123" ) t.Setenv(envName, envVal) var v Value if assert.NoError(t, UnmarshalKey(emptyMap, &v)) { assert.Equal(t, envVal, v.Name) } }) } func TestUnmarshal_EnvWithOptionsWrongValueBool(t *testing.T) { type Value struct { Enable bool `key:"enable,env=TEST_NAME_ENV_OPTIONS_BOOL,options=[true]"` } const ( envName = "TEST_NAME_ENV_OPTIONS_BOOL" envVal = "false" ) t.Setenv(envName, envVal) var v Value assert.Error(t, UnmarshalKey(emptyMap, &v)) } func TestUnmarshal_EnvWithOptionsWrongValueDuration(t *testing.T) { type Value struct { Duration time.Duration `key:"duration,env=TEST_NAME_ENV_OPTIONS_DURATION,options=[1s,2s,3s]"` } const ( envName = "TEST_NAME_ENV_OPTIONS_DURATION" envVal = "4s" ) t.Setenv(envName, envVal) var v Value assert.Error(t, UnmarshalKey(emptyMap, &v)) } func TestUnmarshal_EnvWithOptionsWrongValueNumber(t *testing.T) { type Value struct { Age int `key:"age,env=TEST_NAME_ENV_OPTIONS_AGE,options=[18,19,20]"` } const ( envName = "TEST_NAME_ENV_OPTIONS_AGE" envVal = "30" ) t.Setenv(envName, envVal) var v Value assert.Error(t, UnmarshalKey(emptyMap, &v)) } func TestUnmarshal_EnvWithOptionsWrongValueString(t *testing.T) { type Value struct { Name string `key:"name,env=TEST_NAME_ENV_OPTIONS_STRING,options=[abc,123,xyz]"` } const ( envName = "TEST_NAME_ENV_OPTIONS_STRING" envVal = "this is a name" ) t.Setenv(envName, envVal) var v Value assert.Error(t, UnmarshalKey(emptyMap, &v)) } func TestUnmarshalJsonReaderMultiArray(t *testing.T) { t.Run("reader multi array", func(t *testing.T) { var res struct { A string `json:"a"` B [][]string `json:"b"` } payload := `{"a": "133", "b": [["add", "cccd"], ["eeee"]]}` reader := strings.NewReader(payload) if assert.NoError(t, UnmarshalJsonReader(reader, &res)) { assert.Equal(t, 2, len(res.B)) } }) t.Run("reader multi array with error", func(t *testing.T) { var res struct { A string `json:"a"` B [][]string `json:"b"` } payload := `{"a": "133", "b": ["eeee"]}` reader := strings.NewReader(payload) assert.Error(t, UnmarshalJsonReader(reader, &res)) }) } func TestUnmarshalJsonReaderPtrMultiArrayString(t *testing.T) { var res struct { A string `json:"a"` B [][]*string `json:"b"` } payload := `{"a": "133", "b": [["add", "cccd"], ["eeee"]]}` reader := strings.NewReader(payload) if assert.NoError(t, UnmarshalJsonReader(reader, &res)) { assert.Equal(t, 2, len(res.B)) assert.Equal(t, 2, len(res.B[0])) } } func TestUnmarshalJsonReaderPtrMultiArrayString_Int(t *testing.T) { var res struct { A string `json:"a"` B [][]*string `json:"b"` } payload := `{"a": "133", "b": [[11, 22], [33]]}` reader := strings.NewReader(payload) if assert.NoError(t, UnmarshalJsonReader(reader, &res)) { assert.Equal(t, 2, len(res.B)) assert.Equal(t, 2, len(res.B[0])) } } func TestUnmarshalJsonReaderPtrMultiArrayInt(t *testing.T) { var res struct { A string `json:"a"` B [][]*int `json:"b"` } payload := `{"a": "133", "b": [[11, 22], [33]]}` reader := strings.NewReader(payload) if assert.NoError(t, UnmarshalJsonReader(reader, &res)) { assert.Equal(t, 2, len(res.B)) assert.Equal(t, 2, len(res.B[0])) } } func TestUnmarshalJsonReaderPtrArray(t *testing.T) { var res struct { A string `json:"a"` B []*string `json:"b"` } payload := `{"a": "133", "b": ["add", "cccd", "eeee"]}` reader := strings.NewReader(payload) if assert.NoError(t, UnmarshalJsonReader(reader, &res)) { assert.Equal(t, 3, len(res.B)) } } func TestUnmarshalJsonReaderPtrArray_Int(t *testing.T) { var res struct { A string `json:"a"` B []*string `json:"b"` } payload := `{"a": "133", "b": [11, 22, 33]}` reader := strings.NewReader(payload) if assert.NoError(t, UnmarshalJsonReader(reader, &res)) { assert.Equal(t, 3, len(res.B)) } } func TestUnmarshalJsonReaderPtrInt(t *testing.T) { var res struct { A string `json:"a"` B []*string `json:"b"` } payload := `{"a": "133", "b": [11, 22, 33]}` reader := strings.NewReader(payload) if assert.NoError(t, UnmarshalJsonReader(reader, &res)) { assert.Equal(t, 3, len(res.B)) } } func TestUnmarshalJsonWithoutKey(t *testing.T) { var res struct { A string `json:""` B string `json:","` } payload := `{"A": "1", "B": "2"}` reader := strings.NewReader(payload) if assert.NoError(t, UnmarshalJsonReader(reader, &res)) { assert.Equal(t, "1", res.A) assert.Equal(t, "2", res.B) } } func TestUnmarshalJsonUintNegative(t *testing.T) { var res struct { A uint `json:"a"` } payload := `{"a": -1}` reader := strings.NewReader(payload) assert.Error(t, UnmarshalJsonReader(reader, &res)) } func TestUnmarshalJsonDefinedInt(t *testing.T) { type Int int var res struct { A Int `json:"a"` } payload := `{"a": -1}` reader := strings.NewReader(payload) if assert.NoError(t, UnmarshalJsonReader(reader, &res)) { assert.Equal(t, Int(-1), res.A) } } func TestUnmarshalJsonDefinedString(t *testing.T) { type String string var res struct { A String `json:"a"` } payload := `{"a": "foo"}` reader := strings.NewReader(payload) if assert.NoError(t, UnmarshalJsonReader(reader, &res)) { assert.Equal(t, String("foo"), res.A) } } func TestUnmarshalJsonDefinedStringPtr(t *testing.T) { type String string var res struct { A *String `json:"a"` } payload := `{"a": "foo"}` reader := strings.NewReader(payload) if assert.NoError(t, UnmarshalJsonReader(reader, &res)) { assert.Equal(t, String("foo"), *res.A) } } func TestUnmarshalJsonReaderComplex(t *testing.T) { type ( MyInt int MyTxt string MyTxtArray []string Req struct { MyInt MyInt `json:"my_int"` // int.. ok MyTxtArray MyTxtArray `json:"my_txt_array"` MyTxt MyTxt `json:"my_txt"` // but string is not assignable Int int `json:"int"` Txt string `json:"txt"` } ) body := `{ "my_int": 100, "my_txt_array": [ "a", "b" ], "my_txt": "my_txt", "int": 200, "txt": "txt" }` var req Req if assert.NoError(t, UnmarshalJsonReader(strings.NewReader(body), &req)) { assert.Equal(t, MyInt(100), req.MyInt) assert.Equal(t, MyTxt("my_txt"), req.MyTxt) assert.EqualValues(t, MyTxtArray([]string{"a", "b"}), req.MyTxtArray) assert.Equal(t, 200, req.Int) assert.Equal(t, "txt", req.Txt) } } func TestUnmarshalJsonReaderArrayBool(t *testing.T) { var res struct { ID []string `json:"id"` } payload := `{"id": false}` reader := strings.NewReader(payload) assert.Error(t, UnmarshalJsonReader(reader, &res)) } func TestUnmarshalJsonReaderArrayInt(t *testing.T) { var res struct { ID []string `json:"id"` } payload := `{"id": 123}` reader := strings.NewReader(payload) assert.Error(t, UnmarshalJsonReader(reader, &res)) } func TestUnmarshalJsonReaderArrayString(t *testing.T) { var res struct { ID []string `json:"id"` } payload := `{"id": "123"}` reader := strings.NewReader(payload) assert.Error(t, UnmarshalJsonReader(reader, &res)) } func TestGoogleUUID(t *testing.T) { var val struct { Uid uuid.UUID `json:"uid,optional"` Uidp *uuid.UUID `json:"uidp,optional"` Uidpp **uuid.UUID `json:"uidpp,optional"` Uidppp ***uuid.UUID `json:"uidppp,optional"` } t.Run("bytes", func(t *testing.T) { if assert.NoError(t, UnmarshalJsonBytes([]byte(`{ "uid": "6ba7b810-9dad-11d1-80b4-00c04fd430c8", "uidp": "a0b3d4af-4232-4c7d-b722-7ae879620518", "uidpp": "a0b3d4af-4232-4c7d-b722-7ae879620519", "uidppp": "6ba7b810-9dad-11d1-80b4-00c04fd430c9"}`), &val)) { assert.Equal(t, "6ba7b810-9dad-11d1-80b4-00c04fd430c8", val.Uid.String()) assert.Equal(t, "a0b3d4af-4232-4c7d-b722-7ae879620518", val.Uidp.String()) assert.Equal(t, "a0b3d4af-4232-4c7d-b722-7ae879620519", (*val.Uidpp).String()) assert.Equal(t, "6ba7b810-9dad-11d1-80b4-00c04fd430c9", (**val.Uidppp).String()) } }) t.Run("map", func(t *testing.T) { if assert.NoError(t, UnmarshalJsonMap(map[string]any{ "uid": []byte("6ba7b810-9dad-11d1-80b4-00c04fd430c1"), "uidp": []byte("6ba7b810-9dad-11d1-80b4-00c04fd430c2"), "uidpp": []byte("6ba7b810-9dad-11d1-80b4-00c04fd430c3"), "uidppp": []byte("6ba7b810-9dad-11d1-80b4-00c04fd430c4"), }, &val)) { assert.Equal(t, "6ba7b810-9dad-11d1-80b4-00c04fd430c1", val.Uid.String()) assert.Equal(t, "6ba7b810-9dad-11d1-80b4-00c04fd430c2", val.Uidp.String()) assert.Equal(t, "6ba7b810-9dad-11d1-80b4-00c04fd430c3", (*val.Uidpp).String()) assert.Equal(t, "6ba7b810-9dad-11d1-80b4-00c04fd430c4", (**val.Uidppp).String()) } }) } func TestUnmarshalJsonReaderWithTypeMismatchBool(t *testing.T) { var req struct { Params map[string]bool `json:"params"` } body := `{"params":{"a":"123"}}` assert.Equal(t, errTypeMismatch, UnmarshalJsonReader(strings.NewReader(body), &req)) } func TestUnmarshalJsonReaderWithTypeString(t *testing.T) { t.Run("string type", func(t *testing.T) { var req struct { Params map[string]string `json:"params"` } body := `{"params":{"a":"b"}}` if assert.NoError(t, UnmarshalJsonReader(strings.NewReader(body), &req)) { assert.Equal(t, "b", req.Params["a"]) } }) t.Run("string type mismatch", func(t *testing.T) { var req struct { Params map[string]string `json:"params"` } body := `{"params":{"a":{"a":123}}}` assert.Equal(t, errTypeMismatch, UnmarshalJsonReader(strings.NewReader(body), &req)) }) t.Run("customized string type", func(t *testing.T) { type myString string var req struct { Params map[string]myString `json:"params"` } body := `{"params":{"a":"b"}}` assert.Equal(t, errTypeMismatch, UnmarshalJsonReader(strings.NewReader(body), &req)) }) } func TestUnmarshalJsonReaderWithMismatchType(t *testing.T) { type Req struct { Params map[string]string `json:"params"` } var req Req body := `{"params":{"a":{"a":123}}}` assert.Equal(t, errTypeMismatch, UnmarshalJsonReader(strings.NewReader(body), &req)) } func TestUnmarshalJsonReaderWithTypeBool(t *testing.T) { t.Run("bool type", func(t *testing.T) { type Req struct { Params map[string]bool `json:"params"` } tests := []struct { name string input string expect bool }{ { name: "int", input: `{"params":{"a":1}}`, expect: true, }, { name: "int", input: `{"params":{"a":0}}`, expect: false, }, } for _, test := range tests { test := test t.Run(test.name, func(t *testing.T) { var req Req if assert.NoError(t, UnmarshalJsonReader(strings.NewReader(test.input), &req)) { assert.Equal(t, test.expect, req.Params["a"]) } }) } }) t.Run("bool type mismatch", func(t *testing.T) { type Req struct { Params map[string]bool `json:"params"` } tests := []struct { name string input string }{ { name: "int", input: `{"params":{"a":123}}`, }, { name: "int", input: `{"params":{"a":"123"}}`, }, } for _, test := range tests { test := test t.Run(test.name, func(t *testing.T) { var req Req assert.Equal(t, errTypeMismatch, UnmarshalJsonReader(strings.NewReader(test.input), &req)) }) } }) } func TestUnmarshalJsonReaderWithTypeBoolMap(t *testing.T) { t.Run("bool map", func(t *testing.T) { var req struct { Params map[string]bool `json:"params"` } if assert.NoError(t, UnmarshalJsonMap(map[string]any{ "params": map[string]any{ "a": true, }, }, &req)) { assert.Equal(t, map[string]bool{ "a": true, }, req.Params) } }) t.Run("bool map with error", func(t *testing.T) { var req struct { Params map[string]string `json:"params"` } assert.Equal(t, errTypeMismatch, UnmarshalJsonMap(map[string]any{ "params": map[string]any{ "a": true, }, }, &req)) }) } func TestUnmarshalJsonBytesSliceOfMaps(t *testing.T) { input := []byte(`{ "order_id": "1234567", "refund_reason": { "reason_code": [ 123, 234 ], "desc": "not wanted", "show_reason": [ { "123": "not enough", "234": "closed" } ] }, "product_detail": { "product_id": "123", "sku_id": "123", "name": "cake", "actual_amount": 100 } }`) type ( RefundReasonData struct { ReasonCode []int `json:"reason_code"` Desc string `json:"desc"` ShowReason []map[string]string `json:"show_reason"` } ProductDetailData struct { ProductId string `json:"product_id"` SkuId string `json:"sku_id"` Name string `json:"name"` ActualAmount int `json:"actual_amount"` } OrderApplyRefundReq struct { OrderId string `json:"order_id"` RefundReason RefundReasonData `json:"refund_reason,optional"` ProductDetail ProductDetailData `json:"product_detail,optional"` } ) var req OrderApplyRefundReq assert.NoError(t, UnmarshalJsonBytes(input, &req)) } func TestUnmarshalJsonBytesWithAnonymousField(t *testing.T) { type ( Int int InnerConf struct { Name string } Conf struct { Int InnerConf } ) var ( input = []byte(`{"Name": "hello", "Int": 3}`) c Conf ) if assert.NoError(t, UnmarshalJsonBytes(input, &c)) { assert.Equal(t, "hello", c.Name) assert.Equal(t, Int(3), c.Int) } } func TestUnmarshalJsonBytesWithAnonymousFieldOptional(t *testing.T) { type ( Int int InnerConf struct { Name string } Conf struct { Int `json:",optional"` InnerConf } ) var ( input = []byte(`{"Name": "hello", "Int": 3}`) c Conf ) if assert.NoError(t, UnmarshalJsonBytes(input, &c)) { assert.Equal(t, "hello", c.Name) assert.Equal(t, Int(3), c.Int) } } func TestUnmarshalJsonBytesWithAnonymousFieldBadTag(t *testing.T) { type ( Int int InnerConf struct { Name string } Conf struct { Int `json:",optional=123"` InnerConf } ) var ( input = []byte(`{"Name": "hello", "Int": 3}`) c Conf ) assert.Error(t, UnmarshalJsonBytes(input, &c)) } func TestUnmarshalJsonBytesWithAnonymousFieldBadValue(t *testing.T) { type ( Int int InnerConf struct { Name string } Conf struct { Int InnerConf } ) var ( input = []byte(`{"Name": "hello", "Int": "3"}`) c Conf ) assert.Error(t, UnmarshalJsonBytes(input, &c)) } func TestUnmarshalJsonBytesWithAnonymousFieldBadTagInStruct(t *testing.T) { type ( InnerConf struct { Name string `json:",optional=123"` } Conf struct { InnerConf `json:",optional"` } ) var ( input = []byte(`{"Name": "hello"}`) c Conf ) assert.Error(t, UnmarshalJsonBytes(input, &c)) } func TestUnmarshalJsonBytesWithAnonymousFieldNotInOptions(t *testing.T) { type ( InnerConf struct { Name string `json:",options=[a,b]"` } Conf struct { InnerConf `json:",optional"` } ) var ( input = []byte(`{"Name": "hello"}`) c Conf ) assert.Error(t, UnmarshalJsonBytes(input, &c)) } func TestUnmarshalNestedPtr(t *testing.T) { type inner struct { Int **int `key:"int"` } m := map[string]any{ "int": 1, } var in inner if assert.NoError(t, UnmarshalKey(m, &in)) { assert.NotNil(t, in.Int) assert.Equal(t, 1, **in.Int) } } func TestUnmarshalStructPtrOfPtr(t *testing.T) { type inner struct { Int int `key:"int"` } m := map[string]any{ "int": 1, } in := new(inner) if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, 1, in.Int) } } func TestUnmarshalOnlyPublicVariables(t *testing.T) { type demo struct { age int `key:"age"` Name string `key:"name"` } m := map[string]any{ "age": 3, "name": "go-zero", } var in demo if assert.NoError(t, UnmarshalKey(m, &in)) { assert.Equal(t, 0, in.age) assert.Equal(t, "go-zero", in.Name) } } func TestFillDefaultUnmarshal(t *testing.T) { fillDefaultUnmarshal := NewUnmarshaler(jsonTagKey, WithDefault()) t.Run("nil", func(t *testing.T) { type St struct{} err := fillDefaultUnmarshal.Unmarshal(map[string]any{}, St{}) assert.Error(t, err) }) t.Run("not nil", func(t *testing.T) { type St struct{} err := fillDefaultUnmarshal.Unmarshal(map[string]any{}, &St{}) assert.NoError(t, err) }) t.Run("default", func(t *testing.T) { type St struct { A string `json:",default=a"` B string } var st St err := fillDefaultUnmarshal.Unmarshal(map[string]any{}, &st) assert.NoError(t, err) assert.Equal(t, "a", st.A) }) t.Run("env", func(t *testing.T) { type St struct { A string `json:",default=a"` B string C string `json:",env=TEST_C"` } t.Setenv("TEST_C", "c") var st St err := fillDefaultUnmarshal.Unmarshal(map[string]any{}, &st) assert.NoError(t, err) assert.Equal(t, "a", st.A) assert.Equal(t, "c", st.C) }) t.Run("has value", func(t *testing.T) { type St struct { A string `json:",default=a"` B string } var st = St{ A: "b", } err := fillDefaultUnmarshal.Unmarshal(map[string]any{}, &st) assert.Error(t, err) }) t.Run("handling struct", func(t *testing.T) { type St struct { A string `json:",default=a"` B string } type St2 struct { St St1 St St3 *St C string `json:",default=c"` D string Child *St2 } var st2 St2 err := fillDefaultUnmarshal.Unmarshal(map[string]any{}, &st2) assert.NoError(t, err) assert.Equal(t, "a", st2.St.A) assert.Equal(t, "a", st2.St1.A) assert.Nil(t, st2.St3) assert.Equal(t, "c", st2.C) assert.Nil(t, st2.Child) }) } func Test_UnmarshalMap(t *testing.T) { t.Run("type mismatch", func(t *testing.T) { type Customer struct { Names map[int]string `key:"names"` } input := map[string]any{ "names": map[string]any{ "19": "Tom", }, } var customer Customer assert.ErrorIs(t, UnmarshalKey(input, &customer), errTypeMismatch) }) t.Run("map type mismatch", func(t *testing.T) { type Customer struct { Names struct { Values map[string]string } `key:"names"` } input := map[string]any{ "names": map[string]string{ "19": "Tom", }, } var customer Customer assert.ErrorIs(t, UnmarshalKey(input, &customer), errTypeMismatch) }) t.Run("map from string", func(t *testing.T) { type Customer struct { Names map[string]string `key:"names,string"` } input := map[string]any{ "names": `{"name": "Tom"}`, } var customer Customer assert.NoError(t, UnmarshalKey(input, &customer)) assert.Equal(t, "Tom", customer.Names["name"]) }) t.Run("map from string with error", func(t *testing.T) { type Customer struct { Names map[string]any `key:"names,string"` } input := map[string]any{ "names": `"name"`, } var customer Customer assert.Error(t, UnmarshalKey(input, &customer)) }) } func TestUnmarshaler_Unmarshal(t *testing.T) { t.Run("not struct", func(t *testing.T) { var i int unmarshaler := NewUnmarshaler(jsonTagKey) err := unmarshaler.UnmarshalValuer(nil, &i) assert.Error(t, err) }) } func TestGetValueWithChainedKeys(t *testing.T) { t.Run("no key", func(t *testing.T) { _, ok := getValueWithChainedKeys(nil, []string{}) assert.False(t, ok) }) t.Run("one key", func(t *testing.T) { v, ok := getValueWithChainedKeys(mockValuerWithParent{ value: "bar", ok: true, }, []string{"foo"}) assert.True(t, ok) assert.Equal(t, "bar", v) }) t.Run("two keys", func(t *testing.T) { v, ok := getValueWithChainedKeys(mockValuerWithParent{ value: map[string]any{ "bar": "baz", }, ok: true, }, []string{"foo", "bar"}) assert.True(t, ok) assert.Equal(t, "baz", v) }) t.Run("two keys not found", func(t *testing.T) { _, ok := getValueWithChainedKeys(mockValuerWithParent{ value: "bar", ok: false, }, []string{"foo", "bar"}) assert.False(t, ok) }) t.Run("two keys type mismatch", func(t *testing.T) { _, ok := getValueWithChainedKeys(mockValuerWithParent{ value: "bar", ok: true, }, []string{"foo", "bar"}) assert.False(t, ok) }) } func BenchmarkDefaultValue(b *testing.B) { for i := 0; i < b.N; i++ { var a struct { Ints []int `json:"ints,default=[1,2,3]"` Strs []string `json:"strs,default=[foo,bar,baz]"` } _ = UnmarshalJsonMap(nil, &a) if len(a.Strs) != 3 || len(a.Ints) != 3 { b.Fatal("failed") } } } func BenchmarkUnmarshalString(b *testing.B) { type inner struct { Value string `key:"value"` } m := map[string]any{ "value": "first", } for i := 0; i < b.N; i++ { var in inner if err := UnmarshalKey(m, &in); err != nil { b.Fatal(err) } } } func BenchmarkUnmarshalStruct(b *testing.B) { b.ReportAllocs() m := map[string]any{ "Ids": []map[string]any{ { "First": 1, "Second": 2, }, }, } for i := 0; i < b.N; i++ { var v struct { Ids []struct { First int Second int } } if err := UnmarshalKey(m, &v); err != nil { b.Fatal(err) } } } func BenchmarkMapToStruct(b *testing.B) { data := map[string]any{ "valid": "1", "age": "5", "name": "liao", } type anonymous struct { Valid bool Age int Name string } for i := 0; i < b.N; i++ { var an anonymous if valid, ok := data["valid"]; ok { an.Valid = valid == "1" } if age, ok := data["age"]; ok { ages, _ := age.(string) an.Age, _ = strconv.Atoi(ages) } if name, ok := data["name"]; ok { names, _ := name.(string) an.Name = names } } } func BenchmarkUnmarshal(b *testing.B) { data := map[string]any{ "valid": "1", "age": "5", "name": "liao", } type anonymous struct { Valid bool `key:"valid,string"` Age int `key:"age,string"` Name string `key:"name"` } for i := 0; i < b.N; i++ { var an anonymous UnmarshalKey(data, &an) } } type mockValuerWithParent struct { parent valuerWithParent value any ok bool } func (m mockValuerWithParent) Value(key string) (any, bool) { return m.value, m.ok } func (m mockValuerWithParent) Parent() valuerWithParent { return m.parent }