number.go
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// 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 number // import "go.opentelemetry.io/otel/metric/number"
//go:generate stringer -type=Kind
import (
"fmt"
"math"
"sync/atomic"
"go.opentelemetry.io/otel/internal"
)
// Kind describes the data type of the Number.
type Kind int8
const (
// Int64Kind means that the Number stores int64.
Int64Kind Kind = iota
// Float64Kind means that the Number stores float64.
Float64Kind
)
// Zero returns a zero value for a given Kind
func (k Kind) Zero() Number {
switch k {
case Int64Kind:
return NewInt64Number(0)
case Float64Kind:
return NewFloat64Number(0.)
default:
return Number(0)
}
}
// Minimum returns the minimum representable value
// for a given Kind
func (k Kind) Minimum() Number {
switch k {
case Int64Kind:
return NewInt64Number(math.MinInt64)
case Float64Kind:
return NewFloat64Number(-1. * math.MaxFloat64)
default:
return Number(0)
}
}
// Maximum returns the maximum representable value
// for a given Kind
func (k Kind) Maximum() Number {
switch k {
case Int64Kind:
return NewInt64Number(math.MaxInt64)
case Float64Kind:
return NewFloat64Number(math.MaxFloat64)
default:
return Number(0)
}
}
// Number represents either an integral or a floating point value. It
// needs to be accompanied with a source of Kind that describes
// the actual type of the value stored within Number.
type Number uint64
// - constructors
// NewNumberFromRaw creates a new Number from a raw value.
func NewNumberFromRaw(r uint64) Number {
return Number(r)
}
// NewInt64Number creates an integral Number.
func NewInt64Number(i int64) Number {
return NewNumberFromRaw(internal.Int64ToRaw(i))
}
// NewFloat64Number creates a floating point Number.
func NewFloat64Number(f float64) Number {
return NewNumberFromRaw(internal.Float64ToRaw(f))
}
// NewNumberSignChange returns a number with the same magnitude and
// the opposite sign. `kind` must describe the kind of number in `nn`.
func NewNumberSignChange(kind Kind, nn Number) Number {
switch kind {
case Int64Kind:
return NewInt64Number(-nn.AsInt64())
case Float64Kind:
return NewFloat64Number(-nn.AsFloat64())
}
return nn
}
// - as x
// AsNumber gets the Number.
func (n *Number) AsNumber() Number {
return *n
}
// AsRaw gets the uninterpreted raw value. Might be useful for some
// atomic operations.
func (n *Number) AsRaw() uint64 {
return uint64(*n)
}
// AsInt64 assumes that the value contains an int64 and returns it as
// such.
func (n *Number) AsInt64() int64 {
return internal.RawToInt64(n.AsRaw())
}
// AsFloat64 assumes that the measurement value contains a float64 and
// returns it as such.
func (n *Number) AsFloat64() float64 {
return internal.RawToFloat64(n.AsRaw())
}
// - as x atomic
// AsNumberAtomic gets the Number atomically.
func (n *Number) AsNumberAtomic() Number {
return NewNumberFromRaw(n.AsRawAtomic())
}
// AsRawAtomic gets the uninterpreted raw value atomically. Might be
// useful for some atomic operations.
func (n *Number) AsRawAtomic() uint64 {
return atomic.LoadUint64(n.AsRawPtr())
}
// AsInt64Atomic assumes that the number contains an int64 and returns
// it as such atomically.
func (n *Number) AsInt64Atomic() int64 {
return atomic.LoadInt64(n.AsInt64Ptr())
}
// AsFloat64Atomic assumes that the measurement value contains a
// float64 and returns it as such atomically.
func (n *Number) AsFloat64Atomic() float64 {
return internal.RawToFloat64(n.AsRawAtomic())
}
// - as x ptr
// AsRawPtr gets the pointer to the raw, uninterpreted raw
// value. Might be useful for some atomic operations.
func (n *Number) AsRawPtr() *uint64 {
return (*uint64)(n)
}
// AsInt64Ptr assumes that the number contains an int64 and returns a
// pointer to it.
func (n *Number) AsInt64Ptr() *int64 {
return internal.RawPtrToInt64Ptr(n.AsRawPtr())
}
// AsFloat64Ptr assumes that the number contains a float64 and returns a
// pointer to it.
func (n *Number) AsFloat64Ptr() *float64 {
return internal.RawPtrToFloat64Ptr(n.AsRawPtr())
}
// - coerce
// CoerceToInt64 casts the number to int64. May result in
// data/precision loss.
func (n *Number) CoerceToInt64(kind Kind) int64 {
switch kind {
case Int64Kind:
return n.AsInt64()
case Float64Kind:
return int64(n.AsFloat64())
default:
// you get what you deserve
return 0
}
}
// CoerceToFloat64 casts the number to float64. May result in
// data/precision loss.
func (n *Number) CoerceToFloat64(kind Kind) float64 {
switch kind {
case Int64Kind:
return float64(n.AsInt64())
case Float64Kind:
return n.AsFloat64()
default:
// you get what you deserve
return 0
}
}
// - set
// SetNumber sets the number to the passed number. Both should be of
// the same kind.
func (n *Number) SetNumber(nn Number) {
*n.AsRawPtr() = nn.AsRaw()
}
// SetRaw sets the number to the passed raw value. Both number and the
// raw number should represent the same kind.
func (n *Number) SetRaw(r uint64) {
*n.AsRawPtr() = r
}
// SetInt64 assumes that the number contains an int64 and sets it to
// the passed value.
func (n *Number) SetInt64(i int64) {
*n.AsInt64Ptr() = i
}
// SetFloat64 assumes that the number contains a float64 and sets it
// to the passed value.
func (n *Number) SetFloat64(f float64) {
*n.AsFloat64Ptr() = f
}
// - set atomic
// SetNumberAtomic sets the number to the passed number
// atomically. Both should be of the same kind.
func (n *Number) SetNumberAtomic(nn Number) {
atomic.StoreUint64(n.AsRawPtr(), nn.AsRaw())
}
// SetRawAtomic sets the number to the passed raw value
// atomically. Both number and the raw number should represent the
// same kind.
func (n *Number) SetRawAtomic(r uint64) {
atomic.StoreUint64(n.AsRawPtr(), r)
}
// SetInt64Atomic assumes that the number contains an int64 and sets
// it to the passed value atomically.
func (n *Number) SetInt64Atomic(i int64) {
atomic.StoreInt64(n.AsInt64Ptr(), i)
}
// SetFloat64Atomic assumes that the number contains a float64 and
// sets it to the passed value atomically.
func (n *Number) SetFloat64Atomic(f float64) {
atomic.StoreUint64(n.AsRawPtr(), internal.Float64ToRaw(f))
}
// - swap
// SwapNumber sets the number to the passed number and returns the old
// number. Both this number and the passed number should be of the
// same kind.
func (n *Number) SwapNumber(nn Number) Number {
old := *n
n.SetNumber(nn)
return old
}
// SwapRaw sets the number to the passed raw value and returns the old
// raw value. Both number and the raw number should represent the same
// kind.
func (n *Number) SwapRaw(r uint64) uint64 {
old := n.AsRaw()
n.SetRaw(r)
return old
}
// SwapInt64 assumes that the number contains an int64, sets it to the
// passed value and returns the old int64 value.
func (n *Number) SwapInt64(i int64) int64 {
old := n.AsInt64()
n.SetInt64(i)
return old
}
// SwapFloat64 assumes that the number contains an float64, sets it to
// the passed value and returns the old float64 value.
func (n *Number) SwapFloat64(f float64) float64 {
old := n.AsFloat64()
n.SetFloat64(f)
return old
}
// - swap atomic
// SwapNumberAtomic sets the number to the passed number and returns
// the old number atomically. Both this number and the passed number
// should be of the same kind.
func (n *Number) SwapNumberAtomic(nn Number) Number {
return NewNumberFromRaw(atomic.SwapUint64(n.AsRawPtr(), nn.AsRaw()))
}
// SwapRawAtomic sets the number to the passed raw value and returns
// the old raw value atomically. Both number and the raw number should
// represent the same kind.
func (n *Number) SwapRawAtomic(r uint64) uint64 {
return atomic.SwapUint64(n.AsRawPtr(), r)
}
// SwapInt64Atomic assumes that the number contains an int64, sets it
// to the passed value and returns the old int64 value atomically.
func (n *Number) SwapInt64Atomic(i int64) int64 {
return atomic.SwapInt64(n.AsInt64Ptr(), i)
}
// SwapFloat64Atomic assumes that the number contains an float64, sets
// it to the passed value and returns the old float64 value
// atomically.
func (n *Number) SwapFloat64Atomic(f float64) float64 {
return internal.RawToFloat64(atomic.SwapUint64(n.AsRawPtr(), internal.Float64ToRaw(f)))
}
// - add
// AddNumber assumes that this and the passed number are of the passed
// kind and adds the passed number to this number.
func (n *Number) AddNumber(kind Kind, nn Number) {
switch kind {
case Int64Kind:
n.AddInt64(nn.AsInt64())
case Float64Kind:
n.AddFloat64(nn.AsFloat64())
}
}
// AddRaw assumes that this number and the passed raw value are of the
// passed kind and adds the passed raw value to this number.
func (n *Number) AddRaw(kind Kind, r uint64) {
n.AddNumber(kind, NewNumberFromRaw(r))
}
// AddInt64 assumes that the number contains an int64 and adds the
// passed int64 to it.
func (n *Number) AddInt64(i int64) {
*n.AsInt64Ptr() += i
}
// AddFloat64 assumes that the number contains a float64 and adds the
// passed float64 to it.
func (n *Number) AddFloat64(f float64) {
*n.AsFloat64Ptr() += f
}
// - add atomic
// AddNumberAtomic assumes that this and the passed number are of the
// passed kind and adds the passed number to this number atomically.
func (n *Number) AddNumberAtomic(kind Kind, nn Number) {
switch kind {
case Int64Kind:
n.AddInt64Atomic(nn.AsInt64())
case Float64Kind:
n.AddFloat64Atomic(nn.AsFloat64())
}
}
// AddRawAtomic assumes that this number and the passed raw value are
// of the passed kind and adds the passed raw value to this number
// atomically.
func (n *Number) AddRawAtomic(kind Kind, r uint64) {
n.AddNumberAtomic(kind, NewNumberFromRaw(r))
}
// AddInt64Atomic assumes that the number contains an int64 and adds
// the passed int64 to it atomically.
func (n *Number) AddInt64Atomic(i int64) {
atomic.AddInt64(n.AsInt64Ptr(), i)
}
// AddFloat64Atomic assumes that the number contains a float64 and
// adds the passed float64 to it atomically.
func (n *Number) AddFloat64Atomic(f float64) {
for {
o := n.AsFloat64Atomic()
if n.CompareAndSwapFloat64(o, o+f) {
break
}
}
}
// - compare and swap (atomic only)
// CompareAndSwapNumber does the atomic CAS operation on this
// number. This number and passed old and new numbers should be of the
// same kind.
func (n *Number) CompareAndSwapNumber(on, nn Number) bool {
return atomic.CompareAndSwapUint64(n.AsRawPtr(), on.AsRaw(), nn.AsRaw())
}
// CompareAndSwapRaw does the atomic CAS operation on this
// number. This number and passed old and new raw values should be of
// the same kind.
func (n *Number) CompareAndSwapRaw(or, nr uint64) bool {
return atomic.CompareAndSwapUint64(n.AsRawPtr(), or, nr)
}
// CompareAndSwapInt64 assumes that this number contains an int64 and
// does the atomic CAS operation on it.
func (n *Number) CompareAndSwapInt64(oi, ni int64) bool {
return atomic.CompareAndSwapInt64(n.AsInt64Ptr(), oi, ni)
}
// CompareAndSwapFloat64 assumes that this number contains a float64 and
// does the atomic CAS operation on it.
func (n *Number) CompareAndSwapFloat64(of, nf float64) bool {
return atomic.CompareAndSwapUint64(n.AsRawPtr(), internal.Float64ToRaw(of), internal.Float64ToRaw(nf))
}
// - compare
// CompareNumber compares two Numbers given their kind. Both numbers
// should have the same kind. This returns:
// 0 if the numbers are equal
// -1 if the subject `n` is less than the argument `nn`
// +1 if the subject `n` is greater than the argument `nn`
func (n *Number) CompareNumber(kind Kind, nn Number) int {
switch kind {
case Int64Kind:
return n.CompareInt64(nn.AsInt64())
case Float64Kind:
return n.CompareFloat64(nn.AsFloat64())
default:
// you get what you deserve
return 0
}
}
// CompareRaw compares two numbers, where one is input as a raw
// uint64, interpreting both values as a `kind` of number.
func (n *Number) CompareRaw(kind Kind, r uint64) int {
return n.CompareNumber(kind, NewNumberFromRaw(r))
}
// CompareInt64 assumes that the Number contains an int64 and performs
// a comparison between the value and the other value. It returns the
// typical result of the compare function: -1 if the value is less
// than the other, 0 if both are equal, 1 if the value is greater than
// the other.
func (n *Number) CompareInt64(i int64) int {
this := n.AsInt64()
if this < i {
return -1
} else if this > i {
return 1
}
return 0
}
// CompareFloat64 assumes that the Number contains a float64 and
// performs a comparison between the value and the other value. It
// returns the typical result of the compare function: -1 if the value
// is less than the other, 0 if both are equal, 1 if the value is
// greater than the other.
//
// Do not compare NaN values.
func (n *Number) CompareFloat64(f float64) int {
this := n.AsFloat64()
if this < f {
return -1
} else if this > f {
return 1
}
return 0
}
// - relations to zero
// IsPositive returns true if the actual value is greater than zero.
func (n *Number) IsPositive(kind Kind) bool {
return n.compareWithZero(kind) > 0
}
// IsNegative returns true if the actual value is less than zero.
func (n *Number) IsNegative(kind Kind) bool {
return n.compareWithZero(kind) < 0
}
// IsZero returns true if the actual value is equal to zero.
func (n *Number) IsZero(kind Kind) bool {
return n.compareWithZero(kind) == 0
}
// - misc
// Emit returns a string representation of the raw value of the
// Number. A %d is used for integral values, %f for floating point
// values.
func (n *Number) Emit(kind Kind) string {
switch kind {
case Int64Kind:
return fmt.Sprintf("%d", n.AsInt64())
case Float64Kind:
return fmt.Sprintf("%f", n.AsFloat64())
default:
return ""
}
}
// AsInterface returns the number as an interface{}, typically used
// for Kind-correct JSON conversion.
func (n *Number) AsInterface(kind Kind) interface{} {
switch kind {
case Int64Kind:
return n.AsInt64()
case Float64Kind:
return n.AsFloat64()
default:
return math.NaN()
}
}
// - private stuff
func (n *Number) compareWithZero(kind Kind) int {
switch kind {
case Int64Kind:
return n.CompareInt64(0)
case Float64Kind:
return n.CompareFloat64(0.)
default:
// you get what you deserve
return 0
}
}