// 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 core import ( "testing" "unsafe" "github.com/stretchr/testify/require" ) func TestNumber(t *testing.T) { iNeg := NewInt64Number(-42) iZero := NewInt64Number(0) iPos := NewInt64Number(42) i64Numbers := [3]Number{iNeg, iZero, iPos} for idx, i := range []int64{-42, 0, 42} { n := i64Numbers[idx] if got := n.AsInt64(); got != i { t.Errorf("Number %#v (%s) int64 check failed, expected %d, got %d", n, n.Emit(Int64NumberKind), i, got) } } for _, n := range i64Numbers { expected := unsafe.Pointer(&n) got := unsafe.Pointer(n.AsRawPtr()) if expected != got { t.Errorf("Getting raw pointer failed, got %v, expected %v", got, expected) } } fNeg := NewFloat64Number(-42.) fZero := NewFloat64Number(0.) fPos := NewFloat64Number(42.) f64Numbers := [3]Number{fNeg, fZero, fPos} for idx, f := range []float64{-42., 0., 42.} { n := f64Numbers[idx] if got := n.AsFloat64(); got != f { t.Errorf("Number %#v (%s) float64 check failed, expected %f, got %f", n, n.Emit(Int64NumberKind), f, got) } } for _, n := range f64Numbers { expected := unsafe.Pointer(&n) got := unsafe.Pointer(n.AsRawPtr()) if expected != got { t.Errorf("Getting raw pointer failed, got %v, expected %v", got, expected) } } cmpsForNeg := [3]int{0, -1, -1} cmpsForZero := [3]int{1, 0, -1} cmpsForPos := [3]int{1, 1, 0} type testcase struct { // n needs to be aligned for 64-bit atomic operations. n Number // nums needs to be aligned for 64-bit atomic operations. nums [3]Number kind NumberKind pos bool zero bool neg bool cmps [3]int } testcases := []testcase{ { n: iNeg, kind: Int64NumberKind, pos: false, zero: false, neg: true, nums: i64Numbers, cmps: cmpsForNeg, }, { n: iZero, kind: Int64NumberKind, pos: false, zero: true, neg: false, nums: i64Numbers, cmps: cmpsForZero, }, { n: iPos, kind: Int64NumberKind, pos: true, zero: false, neg: false, nums: i64Numbers, cmps: cmpsForPos, }, { n: fNeg, kind: Float64NumberKind, pos: false, zero: false, neg: true, nums: f64Numbers, cmps: cmpsForNeg, }, { n: fZero, kind: Float64NumberKind, pos: false, zero: true, neg: false, nums: f64Numbers, cmps: cmpsForZero, }, { n: fPos, kind: Float64NumberKind, pos: true, zero: false, neg: false, nums: f64Numbers, cmps: cmpsForPos, }, } for _, tt := range testcases { if got := tt.n.IsPositive(tt.kind); got != tt.pos { t.Errorf("Number %#v (%s) positive check failed, expected %v, got %v", tt.n, tt.n.Emit(tt.kind), tt.pos, got) } if got := tt.n.IsZero(tt.kind); got != tt.zero { t.Errorf("Number %#v (%s) zero check failed, expected %v, got %v", tt.n, tt.n.Emit(tt.kind), tt.pos, got) } if got := tt.n.IsNegative(tt.kind); got != tt.neg { t.Errorf("Number %#v (%s) negative check failed, expected %v, got %v", tt.n, tt.n.Emit(tt.kind), tt.pos, got) } for i := 0; i < 3; i++ { if got := tt.n.CompareRaw(tt.kind, tt.nums[i].AsRaw()); got != tt.cmps[i] { t.Errorf("Number %#v (%s) compare check with %#v (%s) failed, expected %d, got %d", tt.n, tt.n.Emit(tt.kind), tt.nums[i], tt.nums[i].Emit(tt.kind), tt.cmps[i], got) } } } } func TestNumberZero(t *testing.T) { zero := Number(0) zerof := NewFloat64Number(0) zeroi := NewInt64Number(0) zerou := NewUint64Number(0) if zero != zerof || zero != zeroi || zero != zerou { t.Errorf("Invalid zero representations") } } func TestNumberAsInterface(t *testing.T) { i64 := NewInt64Number(10) f64 := NewFloat64Number(11.11) u64 := NewUint64Number(100) require.Equal(t, int64(10), (&i64).AsInterface(Int64NumberKind).(int64)) require.Equal(t, 11.11, (&f64).AsInterface(Float64NumberKind).(float64)) require.Equal(t, uint64(100), (&u64).AsInterface(Uint64NumberKind).(uint64)) }