// Copyright The OpenTelemetry Authors // SPDX-License-Identifier: Apache-2.0 // Code generated by "internal/cmd/pdatagen/main.go". DO NOT EDIT. // To regenerate this file run "make genpdata". package pmetric import ( "testing" "github.com/stretchr/testify/assert" "go.opentelemetry.io/collector/pdata/internal" "go.opentelemetry.io/collector/pdata/pcommon" ) func TestExponentialHistogramDataPoint_MoveTo(t *testing.T) { ms := generateTestExponentialHistogramDataPoint() dest := NewExponentialHistogramDataPoint() ms.MoveTo(dest) assert.Equal(t, NewExponentialHistogramDataPoint(), ms) assert.Equal(t, generateTestExponentialHistogramDataPoint(), dest) dest.MoveTo(dest) assert.Equal(t, generateTestExponentialHistogramDataPoint(), dest) sharedState := internal.NewState() sharedState.MarkReadOnly() assert.Panics(t, func() { ms.MoveTo(newExponentialHistogramDataPoint(internal.NewExponentialHistogramDataPoint(), sharedState)) }) assert.Panics(t, func() { newExponentialHistogramDataPoint(internal.NewExponentialHistogramDataPoint(), sharedState).MoveTo(dest) }) } func TestExponentialHistogramDataPoint_CopyTo(t *testing.T) { ms := NewExponentialHistogramDataPoint() orig := NewExponentialHistogramDataPoint() orig.CopyTo(ms) assert.Equal(t, orig, ms) orig = generateTestExponentialHistogramDataPoint() orig.CopyTo(ms) assert.Equal(t, orig, ms) sharedState := internal.NewState() sharedState.MarkReadOnly() assert.Panics(t, func() { ms.CopyTo(newExponentialHistogramDataPoint(internal.NewExponentialHistogramDataPoint(), sharedState)) }) } func TestExponentialHistogramDataPoint_Attributes(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.Equal(t, pcommon.NewMap(), ms.Attributes()) ms.orig.Attributes = internal.GenTestKeyValueSlice() assert.Equal(t, pcommon.Map(internal.GenTestMapWrapper()), ms.Attributes()) } func TestExponentialHistogramDataPoint_StartTimestamp(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.Equal(t, pcommon.Timestamp(0), ms.StartTimestamp()) testValStartTimestamp := pcommon.Timestamp(1234567890) ms.SetStartTimestamp(testValStartTimestamp) assert.Equal(t, testValStartTimestamp, ms.StartTimestamp()) } func TestExponentialHistogramDataPoint_Timestamp(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.Equal(t, pcommon.Timestamp(0), ms.Timestamp()) testValTimestamp := pcommon.Timestamp(1234567890) ms.SetTimestamp(testValTimestamp) assert.Equal(t, testValTimestamp, ms.Timestamp()) } func TestExponentialHistogramDataPoint_Count(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.Equal(t, uint64(0), ms.Count()) ms.SetCount(uint64(13)) assert.Equal(t, uint64(13), ms.Count()) sharedState := internal.NewState() sharedState.MarkReadOnly() assert.Panics(t, func() { newExponentialHistogramDataPoint(internal.NewExponentialHistogramDataPoint(), sharedState).SetCount(uint64(13)) }) } func TestExponentialHistogramDataPoint_Sum(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.InDelta(t, float64(0), ms.Sum(), 0.01) ms.SetSum(float64(3.1415926)) assert.True(t, ms.HasSum()) assert.InDelta(t, float64(3.1415926), ms.Sum(), 0.01) ms.RemoveSum() assert.False(t, ms.HasSum()) dest := NewExponentialHistogramDataPoint() dest.SetSum(float64(3.1415926)) ms.CopyTo(dest) assert.False(t, dest.HasSum()) } func TestExponentialHistogramDataPoint_Scale(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.Equal(t, int32(0), ms.Scale()) ms.SetScale(int32(13)) assert.Equal(t, int32(13), ms.Scale()) sharedState := internal.NewState() sharedState.MarkReadOnly() assert.Panics(t, func() { newExponentialHistogramDataPoint(internal.NewExponentialHistogramDataPoint(), sharedState).SetScale(int32(13)) }) } func TestExponentialHistogramDataPoint_ZeroCount(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.Equal(t, uint64(0), ms.ZeroCount()) ms.SetZeroCount(uint64(13)) assert.Equal(t, uint64(13), ms.ZeroCount()) sharedState := internal.NewState() sharedState.MarkReadOnly() assert.Panics(t, func() { newExponentialHistogramDataPoint(internal.NewExponentialHistogramDataPoint(), sharedState).SetZeroCount(uint64(13)) }) } func TestExponentialHistogramDataPoint_Positive(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.Equal(t, NewExponentialHistogramDataPointBuckets(), ms.Positive()) ms.orig.Positive = *internal.GenTestExponentialHistogramDataPointBuckets() assert.Equal(t, generateTestExponentialHistogramDataPointBuckets(), ms.Positive()) } func TestExponentialHistogramDataPoint_Negative(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.Equal(t, NewExponentialHistogramDataPointBuckets(), ms.Negative()) ms.orig.Negative = *internal.GenTestExponentialHistogramDataPointBuckets() assert.Equal(t, generateTestExponentialHistogramDataPointBuckets(), ms.Negative()) } func TestExponentialHistogramDataPoint_Flags(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.Equal(t, DataPointFlags(0), ms.Flags()) testValFlags := DataPointFlags(1) ms.SetFlags(testValFlags) assert.Equal(t, testValFlags, ms.Flags()) } func TestExponentialHistogramDataPoint_Exemplars(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.Equal(t, NewExemplarSlice(), ms.Exemplars()) ms.orig.Exemplars = internal.GenTestExemplarSlice() assert.Equal(t, generateTestExemplarSlice(), ms.Exemplars()) } func TestExponentialHistogramDataPoint_Min(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.InDelta(t, float64(0), ms.Min(), 0.01) ms.SetMin(float64(3.1415926)) assert.True(t, ms.HasMin()) assert.InDelta(t, float64(3.1415926), ms.Min(), 0.01) ms.RemoveMin() assert.False(t, ms.HasMin()) dest := NewExponentialHistogramDataPoint() dest.SetMin(float64(3.1415926)) ms.CopyTo(dest) assert.False(t, dest.HasMin()) } func TestExponentialHistogramDataPoint_Max(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.InDelta(t, float64(0), ms.Max(), 0.01) ms.SetMax(float64(3.1415926)) assert.True(t, ms.HasMax()) assert.InDelta(t, float64(3.1415926), ms.Max(), 0.01) ms.RemoveMax() assert.False(t, ms.HasMax()) dest := NewExponentialHistogramDataPoint() dest.SetMax(float64(3.1415926)) ms.CopyTo(dest) assert.False(t, dest.HasMax()) } func TestExponentialHistogramDataPoint_ZeroThreshold(t *testing.T) { ms := NewExponentialHistogramDataPoint() assert.InDelta(t, float64(0), ms.ZeroThreshold(), 0.01) ms.SetZeroThreshold(float64(3.1415926)) assert.InDelta(t, float64(3.1415926), ms.ZeroThreshold(), 0.01) sharedState := internal.NewState() sharedState.MarkReadOnly() assert.Panics(t, func() { newExponentialHistogramDataPoint(internal.NewExponentialHistogramDataPoint(), sharedState).SetZeroThreshold(float64(3.1415926)) }) } func generateTestExponentialHistogramDataPoint() ExponentialHistogramDataPoint { return newExponentialHistogramDataPoint(internal.GenTestExponentialHistogramDataPoint(), internal.NewState()) }