package mapping import ( "reflect" "testing" "github.com/stretchr/testify/assert" ) const testTagName = "key" type Foo struct { Str string StrWithTag string `key:"stringwithtag"` StrWithTagAndOption string `key:"stringwithtag,string"` } func TestDerefInt(t *testing.T) { i := 1 s := "hello" number := struct { f float64 }{ f: 6.4, } cases := []struct { t reflect.Type expect reflect.Kind }{ { t: reflect.TypeOf(i), expect: reflect.Int, }, { t: reflect.TypeOf(&i), expect: reflect.Int, }, { t: reflect.TypeOf(s), expect: reflect.String, }, { t: reflect.TypeOf(&s), expect: reflect.String, }, { t: reflect.TypeOf(number.f), expect: reflect.Float64, }, { t: reflect.TypeOf(&number.f), expect: reflect.Float64, }, } for _, each := range cases { t.Run(each.t.String(), func(t *testing.T) { assert.Equal(t, each.expect, Deref(each.t).Kind()) }) } } func TestDerefValInt(t *testing.T) { i := 1 s := "hello" number := struct { f float64 }{ f: 6.4, } cases := []struct { t reflect.Value expect reflect.Kind }{ { t: reflect.ValueOf(i), expect: reflect.Int, }, { t: reflect.ValueOf(&i), expect: reflect.Int, }, { t: reflect.ValueOf(s), expect: reflect.String, }, { t: reflect.ValueOf(&s), expect: reflect.String, }, { t: reflect.ValueOf(number.f), expect: reflect.Float64, }, { t: reflect.ValueOf(&number.f), expect: reflect.Float64, }, } for _, each := range cases { t.Run(each.t.String(), func(t *testing.T) { assert.Equal(t, each.expect, ensureValue(each.t).Kind()) }) } } func TestParseKeyAndOptionWithoutTag(t *testing.T) { var foo Foo rte := reflect.TypeOf(&foo).Elem() field, _ := rte.FieldByName("Str") key, options, err := parseKeyAndOptions(testTagName, field) assert.Nil(t, err) assert.Equal(t, "Str", key) assert.Nil(t, options) } func TestParseKeyAndOptionWithTagWithoutOption(t *testing.T) { var foo Foo rte := reflect.TypeOf(&foo).Elem() field, _ := rte.FieldByName("StrWithTag") key, options, err := parseKeyAndOptions(testTagName, field) assert.Nil(t, err) assert.Equal(t, "stringwithtag", key) assert.Nil(t, options) } func TestParseKeyAndOptionWithTagAndOption(t *testing.T) { var foo Foo rte := reflect.TypeOf(&foo).Elem() field, _ := rte.FieldByName("StrWithTagAndOption") key, options, err := parseKeyAndOptions(testTagName, field) assert.Nil(t, err) assert.Equal(t, "stringwithtag", key) assert.True(t, options.FromString) } func TestParseSegments(t *testing.T) { tests := []struct { input string expect []string }{ { input: "", expect: []string{}, }, { input: ",", expect: []string{""}, }, { input: "foo,", expect: []string{"foo"}, }, { input: ",foo", // the first empty string cannot be ignored, it's the key. expect: []string{"", "foo"}, }, { input: "foo", expect: []string{"foo"}, }, { input: "foo,bar", expect: []string{"foo", "bar"}, }, { input: "foo,bar,baz", expect: []string{"foo", "bar", "baz"}, }, { input: "foo,options=a|b", expect: []string{"foo", "options=a|b"}, }, { input: "foo,bar,default=[baz,qux]", expect: []string{"foo", "bar", "default=[baz,qux]"}, }, { input: "foo,bar,options=[baz,qux]", expect: []string{"foo", "bar", "options=[baz,qux]"}, }, { input: `foo\,bar,options=[baz,qux]`, expect: []string{`foo,bar`, "options=[baz,qux]"}, }, { input: `foo,bar,options=\[baz,qux]`, expect: []string{"foo", "bar", "options=[baz", "qux]"}, }, { input: `foo,bar,options=[baz\,qux]`, expect: []string{"foo", "bar", `options=[baz\,qux]`}, }, { input: `foo\,bar,options=[baz,qux],default=baz`, expect: []string{`foo,bar`, "options=[baz,qux]", "default=baz"}, }, { input: `foo\,bar,options=[baz,qux, quux],default=[qux, baz]`, expect: []string{`foo,bar`, "options=[baz,qux, quux]", "default=[qux, baz]"}, }, } for _, test := range tests { test := test t.Run(test.input, func(t *testing.T) { assert.ElementsMatch(t, test.expect, parseSegments(test.input)) }) } } func TestValidatePtrWithNonPtr(t *testing.T) { var foo string rve := reflect.ValueOf(foo) assert.NotNil(t, ValidatePtr(&rve)) } func TestValidatePtrWithPtr(t *testing.T) { var foo string rve := reflect.ValueOf(&foo) assert.Nil(t, ValidatePtr(&rve)) } func TestValidatePtrWithNilPtr(t *testing.T) { var foo *string rve := reflect.ValueOf(foo) assert.NotNil(t, ValidatePtr(&rve)) } func TestValidatePtrWithZeroValue(t *testing.T) { var s string e := reflect.Zero(reflect.TypeOf(s)) assert.NotNil(t, ValidatePtr(&e)) } func TestSetValueNotSettable(t *testing.T) { var i int assert.NotNil(t, setValueFromString(reflect.Int, reflect.ValueOf(i), "1")) } func TestParseKeyAndOptionsErrors(t *testing.T) { type Bar struct { OptionsValue string `key:",options=a=b"` DefaultValue string `key:",default=a=b"` } var bar Bar _, _, err := parseKeyAndOptions("key", reflect.TypeOf(&bar).Elem().Field(0)) assert.NotNil(t, err) _, _, err = parseKeyAndOptions("key", reflect.TypeOf(&bar).Elem().Field(1)) assert.NotNil(t, err) } func TestSetValueFormatErrors(t *testing.T) { type Bar struct { IntValue int UintValue uint FloatValue float32 MapValue map[string]interface{} } var bar Bar tests := []struct { kind reflect.Kind target reflect.Value value string }{ { kind: reflect.Int, target: reflect.ValueOf(&bar.IntValue).Elem(), value: "a", }, { kind: reflect.Uint, target: reflect.ValueOf(&bar.UintValue).Elem(), value: "a", }, { kind: reflect.Float32, target: reflect.ValueOf(&bar.FloatValue).Elem(), value: "a", }, { kind: reflect.Map, target: reflect.ValueOf(&bar.MapValue).Elem(), }, } for _, test := range tests { t.Run(test.kind.String(), func(t *testing.T) { err := setValueFromString(test.kind, test.target, test.value) assert.NotEqual(t, errValueNotSettable, err) assert.NotNil(t, err) }) } }