// Copyright The OpenTelemetry Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. package attribute_test import ( "testing" "github.com/google/go-cmp/cmp" "github.com/stretchr/testify/assert" "go.opentelemetry.io/otel/attribute" ) func TestValue(t *testing.T) { k := attribute.Key("test") for _, testcase := range []struct { name string value attribute.Value wantType attribute.Type wantValue interface{} }{ { name: "Key.Bool() correctly returns keys's internal bool value", value: k.Bool(true).Value, wantType: attribute.BOOL, wantValue: true, }, { name: "Key.BoolSlice() correctly returns keys's internal []bool value", value: k.BoolSlice([]bool{true, false, true}).Value, wantType: attribute.BOOLSLICE, wantValue: []bool{true, false, true}, }, { name: "Key.Int64() correctly returns keys's internal int64 value", value: k.Int64(42).Value, wantType: attribute.INT64, wantValue: int64(42), }, { name: "Key.Int64Slice() correctly returns keys's internal []int64 value", value: k.Int64Slice([]int64{42, -3, 12}).Value, wantType: attribute.INT64SLICE, wantValue: []int64{42, -3, 12}, }, { name: "Key.Int() correctly returns keys's internal signed integral value", value: k.Int(42).Value, wantType: attribute.INT64, wantValue: int64(42), }, { name: "Key.IntSlice() correctly returns keys's internal []int64 value", value: k.IntSlice([]int{42, -3, 12}).Value, wantType: attribute.INT64SLICE, wantValue: []int64{42, -3, 12}, }, { name: "Key.Float64() correctly returns keys's internal float64 value", value: k.Float64(42.1).Value, wantType: attribute.FLOAT64, wantValue: 42.1, }, { name: "Key.Float64Slice() correctly returns keys's internal []float64 value", value: k.Float64Slice([]float64{42, -3, 12}).Value, wantType: attribute.FLOAT64SLICE, wantValue: []float64{42, -3, 12}, }, { name: "Key.String() correctly returns keys's internal string value", value: k.String("foo").Value, wantType: attribute.STRING, wantValue: "foo", }, { name: "Key.StringSlice() correctly returns keys's internal []string value", value: k.StringSlice([]string{"forty-two", "negative three", "twelve"}).Value, wantType: attribute.STRINGSLICE, wantValue: []string{"forty-two", "negative three", "twelve"}, }, } { t.Logf("Running test case %s", testcase.name) if testcase.value.Type() != testcase.wantType { t.Errorf("wrong value type, got %#v, expected %#v", testcase.value.Type(), testcase.wantType) } if testcase.wantType == attribute.INVALID { continue } got := testcase.value.AsInterface() if diff := cmp.Diff(testcase.wantValue, got); diff != "" { t.Errorf("+got, -want: %s", diff) } } } func TestSetComparability(t *testing.T) { pairs := [][2]attribute.KeyValue{ { attribute.Bool("Bool", true), attribute.Bool("Bool", true), }, { attribute.BoolSlice("BoolSlice", []bool{true, false, true}), attribute.BoolSlice("BoolSlice", []bool{true, false, true}), }, { attribute.Int("Int", 34), attribute.Int("Int", 34), }, { attribute.IntSlice("IntSlice", []int{312, 1, -2}), attribute.IntSlice("IntSlice", []int{312, 1, -2}), }, { attribute.Int64("Int64", 98), attribute.Int64("Int64", 98), }, { attribute.Int64Slice("Int64Slice", []int64{12, 1298, -219, 2}), attribute.Int64Slice("Int64Slice", []int64{12, 1298, -219, 2}), }, { attribute.Float64("Float64", 19.09), attribute.Float64("Float64", 19.09), }, { attribute.Float64Slice("Float64Slice", []float64{12398.1, -37.1713873737, 3}), attribute.Float64Slice("Float64Slice", []float64{12398.1, -37.1713873737, 3}), }, { attribute.String("String", "string value"), attribute.String("String", "string value"), }, { attribute.StringSlice("StringSlice", []string{"one", "two", "three"}), attribute.StringSlice("StringSlice", []string{"one", "two", "three"}), }, } for _, p := range pairs { s0, s1 := attribute.NewSet(p[0]), attribute.NewSet(p[1]) m := map[attribute.Set]struct{}{s0: {}} _, ok := m[s1] assert.Truef(t, ok, "%s not comparable", p[0].Value.Type()) } } func TestAsSlice(t *testing.T) { bs1 := []bool{true, false, true} kv := attribute.BoolSlice("BoolSlice", bs1) bs2 := kv.Value.AsBoolSlice() assert.Equal(t, bs1, bs2) i64s1 := []int64{12, 1298, -219, 2} kv = attribute.Int64Slice("Int64Slice", i64s1) i64s2 := kv.Value.AsInt64Slice() assert.Equal(t, i64s1, i64s2) is1 := []int{12, 1298, -219, 2} kv = attribute.IntSlice("IntSlice", is1) i64s2 = kv.Value.AsInt64Slice() assert.Equal(t, i64s1, i64s2) fs1 := []float64{12398.1, -37.1713873737, 3} kv = attribute.Float64Slice("Float64Slice", fs1) fs2 := kv.Value.AsFloat64Slice() assert.Equal(t, fs1, fs2) ss1 := []string{"one", "two", "three"} kv = attribute.StringSlice("StringSlice", ss1) ss2 := kv.Value.AsStringSlice() assert.Equal(t, ss1, ss2) }