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circonusllhist.go
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circonusllhist.go
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// Copyright 2016, Circonus, Inc. All rights reserved.
// See the LICENSE file.
// Package circllhist provides an implementation of Circonus' fixed log-linear
// histogram data structure. This allows tracking of histograms in a
// composable way such that accurate error can be reasoned about.
package circonusllhist
import (
"bytes"
"encoding/base64"
"encoding/binary"
"encoding/json"
"fmt"
"io"
"math"
"strconv"
"strings"
"sync"
"time"
)
const (
defaultHistSize = uint16(100)
)
var powerOfTen = [...]float64{
1, 10, 100, 1000, 10000, 100000, 1e+06, 1e+07, 1e+08, 1e+09, 1e+10,
1e+11, 1e+12, 1e+13, 1e+14, 1e+15, 1e+16, 1e+17, 1e+18, 1e+19, 1e+20,
1e+21, 1e+22, 1e+23, 1e+24, 1e+25, 1e+26, 1e+27, 1e+28, 1e+29, 1e+30,
1e+31, 1e+32, 1e+33, 1e+34, 1e+35, 1e+36, 1e+37, 1e+38, 1e+39, 1e+40,
1e+41, 1e+42, 1e+43, 1e+44, 1e+45, 1e+46, 1e+47, 1e+48, 1e+49, 1e+50,
1e+51, 1e+52, 1e+53, 1e+54, 1e+55, 1e+56, 1e+57, 1e+58, 1e+59, 1e+60,
1e+61, 1e+62, 1e+63, 1e+64, 1e+65, 1e+66, 1e+67, 1e+68, 1e+69, 1e+70,
1e+71, 1e+72, 1e+73, 1e+74, 1e+75, 1e+76, 1e+77, 1e+78, 1e+79, 1e+80,
1e+81, 1e+82, 1e+83, 1e+84, 1e+85, 1e+86, 1e+87, 1e+88, 1e+89, 1e+90,
1e+91, 1e+92, 1e+93, 1e+94, 1e+95, 1e+96, 1e+97, 1e+98, 1e+99, 1e+100,
1e+101, 1e+102, 1e+103, 1e+104, 1e+105, 1e+106, 1e+107, 1e+108, 1e+109,
1e+110, 1e+111, 1e+112, 1e+113, 1e+114, 1e+115, 1e+116, 1e+117, 1e+118,
1e+119, 1e+120, 1e+121, 1e+122, 1e+123, 1e+124, 1e+125, 1e+126, 1e+127,
1e-128, 1e-127, 1e-126, 1e-125, 1e-124, 1e-123, 1e-122, 1e-121, 1e-120,
1e-119, 1e-118, 1e-117, 1e-116, 1e-115, 1e-114, 1e-113, 1e-112, 1e-111,
1e-110, 1e-109, 1e-108, 1e-107, 1e-106, 1e-105, 1e-104, 1e-103, 1e-102,
1e-101, 1e-100, 1e-99, 1e-98, 1e-97, 1e-96,
1e-95, 1e-94, 1e-93, 1e-92, 1e-91, 1e-90, 1e-89, 1e-88, 1e-87, 1e-86,
1e-85, 1e-84, 1e-83, 1e-82, 1e-81, 1e-80, 1e-79, 1e-78, 1e-77, 1e-76,
1e-75, 1e-74, 1e-73, 1e-72, 1e-71, 1e-70, 1e-69, 1e-68, 1e-67, 1e-66,
1e-65, 1e-64, 1e-63, 1e-62, 1e-61, 1e-60, 1e-59, 1e-58, 1e-57, 1e-56,
1e-55, 1e-54, 1e-53, 1e-52, 1e-51, 1e-50, 1e-49, 1e-48, 1e-47, 1e-46,
1e-45, 1e-44, 1e-43, 1e-42, 1e-41, 1e-40, 1e-39, 1e-38, 1e-37, 1e-36,
1e-35, 1e-34, 1e-33, 1e-32, 1e-31, 1e-30, 1e-29, 1e-28, 1e-27, 1e-26,
1e-25, 1e-24, 1e-23, 1e-22, 1e-21, 1e-20, 1e-19, 1e-18, 1e-17, 1e-16,
1e-15, 1e-14, 1e-13, 1e-12, 1e-11, 1e-10, 1e-09, 1e-08, 1e-07, 1e-06,
1e-05, 0.0001, 0.001, 0.01, 0.1,
}
// A Bracket is a part of a cumulative distribution.
type bin struct {
count uint64
val int8
exp int8
}
func newBinRaw(val int8, exp int8, count uint64) *bin {
return &bin{
count: count,
val: val,
exp: exp,
}
}
// func newBin() *bin {
// return newBinRaw(0, 0, 0)
// }
func newBinFromFloat64(d float64) *bin {
hb := newBinRaw(0, 0, 0)
hb.setFromFloat64(d)
return hb
}
type fastL2 struct {
l1, l2 int
}
func (hb *bin) newFastL2() fastL2 {
return fastL2{l1: int(uint8(hb.exp)), l2: int(uint8(hb.val))}
}
func (hb *bin) setFromFloat64(d float64) *bin { //nolint:unparam
hb.val = -1
if math.IsInf(d, 0) || math.IsNaN(d) {
return hb
}
if d == 0.0 {
hb.val = 0
return hb
}
sign := 1
if math.Signbit(d) {
sign = -1
}
d = math.Abs(d)
bigExp := int(math.Floor(math.Log10(d)))
hb.exp = int8(bigExp)
if int(hb.exp) != bigExp { // rolled
hb.exp = 0
if bigExp < 0 {
hb.val = 0
}
return hb
}
d /= hb.powerOfTen()
d *= 10
hb.val = int8(sign * int(math.Floor(d+1e-13)))
if hb.val == 100 || hb.val == -100 {
if hb.exp < 127 {
hb.val /= 10
hb.exp++
} else {
hb.val = 0
hb.exp = 0
}
}
if hb.val == 0 {
hb.exp = 0
return hb
}
if !((hb.val >= 10 && hb.val < 100) ||
(hb.val <= -10 && hb.val > -100)) {
hb.val = -1
hb.exp = 0
}
return hb
}
func (hb *bin) powerOfTen() float64 {
idx := int(uint8(hb.exp))
return powerOfTen[idx]
}
func (hb *bin) isNaN() bool {
// aval := abs(hb.val)
aval := hb.val
if aval < 0 {
aval = -aval
}
if 99 < aval { // in [100... ]: nan
return true
}
if 9 < aval { // in [10 - 99]: valid range
return false
}
if 0 < aval { // in [1 - 9 ]: nan
return true
}
if 0 == aval { // in [0] : zero bucket
return false
}
return false
}
func (hb *bin) value() float64 {
if hb.isNaN() {
return math.NaN()
}
if hb.val < 10 && hb.val > -10 {
return 0.0
}
return (float64(hb.val) / 10.0) * hb.powerOfTen()
}
func (hb *bin) binWidth() float64 {
if hb.isNaN() {
return math.NaN()
}
if hb.val < 10 && hb.val > -10 {
return 0.0
}
return hb.powerOfTen() / 10.0
}
func (hb *bin) midpoint() float64 {
if hb.isNaN() {
return math.NaN()
}
out := hb.value()
if out == 0 {
return 0
}
interval := hb.binWidth()
if out < 0 {
interval *= -1
}
return out + interval/2.0
}
func (hb *bin) left() float64 {
if hb.isNaN() {
return math.NaN()
}
out := hb.value()
if out >= 0 {
return out
}
return out - hb.binWidth()
}
func (hb *bin) compare(h2 *bin) int {
var v1, v2 int
// 1) slide exp positive
// 2) shift by size of val multiple by (val != 0)
// 3) then add or subtract val accordingly
if hb.val >= 0 {
v1 = ((int(hb.exp)+256)<<8)*(((int(hb.val)|(^int(hb.val)+1))>>8)&1) + int(hb.val)
} else {
v1 = ((int(hb.exp)+256)<<8)*(((int(hb.val)|(^int(hb.val)+1))>>8)&1) - int(hb.val)
}
if h2.val >= 0 {
v2 = ((int(h2.exp)+256)<<8)*(((int(h2.val)|(^int(h2.val)+1))>>8)&1) + int(h2.val)
} else {
v2 = ((int(h2.exp)+256)<<8)*(((int(h2.val)|(^int(h2.val)+1))>>8)&1) - int(h2.val)
}
// return the difference
return v2 - v1
}
// Histogram tracks values are two decimal digits of precision
// with a bounded error that remains bounded upon composition.
type Histogram struct {
bvs []bin
lookup [][]uint16
mutex sync.RWMutex
used uint16
useLookup bool
useLocks bool
}
//nolint:golint,revive
const (
BVL1, BVL1MASK uint64 = iota, 0xff << (8 * iota)
BVL2, BVL2MASK
BVL3, BVL3MASK
BVL4, BVL4MASK
BVL5, BVL5MASK
BVL6, BVL6MASK
BVL7, BVL7MASK
BVL8, BVL8MASK
)
func getBytesRequired(val uint64) int8 {
if 0 != (BVL8MASK|BVL7MASK|BVL6MASK|BVL5MASK)&val {
if 0 != BVL8MASK&val {
return int8(BVL8)
}
if 0 != BVL7MASK&val {
return int8(BVL7)
}
if 0 != BVL6MASK&val {
return int8(BVL6)
}
if 0 != BVL5MASK&val {
return int8(BVL5)
}
} else {
if 0 != BVL4MASK&val {
return int8(BVL4)
}
if 0 != BVL3MASK&val {
return int8(BVL3)
}
if 0 != BVL2MASK&val {
return int8(BVL2)
}
}
return int8(BVL1)
}
func writeBin(out io.Writer, in bin) (err error) {
err = binary.Write(out, binary.BigEndian, in.val)
if err != nil {
return
}
err = binary.Write(out, binary.BigEndian, in.exp)
if err != nil {
return
}
var tgtType = getBytesRequired(in.count)
err = binary.Write(out, binary.BigEndian, tgtType)
if err != nil {
return
}
var bcount = make([]uint8, 8)
b := bcount[0 : tgtType+1]
for i := tgtType; i >= 0; i-- {
b[i] = uint8(uint64(in.count>>(uint8(i)*8)) & 0xff) //nolint:unconvert
}
err = binary.Write(out, binary.BigEndian, b)
if err != nil {
return
}
return
}
func readBin(in io.Reader) (bin, error) {
var out bin
err := binary.Read(in, binary.BigEndian, &out.val)
if err != nil {
return out, fmt.Errorf("read: %w", err)
}
err = binary.Read(in, binary.BigEndian, &out.exp)
if err != nil {
return out, fmt.Errorf("read: %w", err)
}
var bvl uint8
err = binary.Read(in, binary.BigEndian, &bvl)
if err != nil {
return out, fmt.Errorf("read: %w", err)
}
if bvl > uint8(BVL8) {
return out, fmt.Errorf("encoding error: bvl value is greater than max allowable") //nolint:goerr113
}
bcount := make([]byte, 8)
b := bcount[0 : bvl+1]
err = binary.Read(in, binary.BigEndian, b)
if err != nil {
return out, fmt.Errorf("read: %w", err)
}
count := uint64(0)
for i := int(bvl + 1); i >= 0; i-- {
count |= uint64(bcount[i]) << (uint8(i) * 8)
}
out.count = count
return out, nil
}
func Deserialize(in io.Reader) (h *Histogram, err error) {
return DeserializeWithOptions(in)
}
func DeserializeWithOptions(in io.Reader, options ...Option) (h *Histogram, err error) {
var nbin int16
err = binary.Read(in, binary.BigEndian, &nbin)
if err != nil {
return
}
options = append(options, Size(uint16(nbin)))
h = New(options...)
for ii := int16(0); ii < nbin; ii++ {
bb, err := readBin(in)
if err != nil {
return h, err
}
h.insertBin(&bb, int64(bb.count))
}
return h, nil
}
func (h *Histogram) Serialize(w io.Writer) error {
var nbin int16
for i := range h.bvs {
if h.bvs[i].count != 0 {
nbin++
}
}
if err := binary.Write(w, binary.BigEndian, nbin); err != nil {
return fmt.Errorf("write: %w", err)
}
for _, bv := range h.bvs {
if bv.count != 0 {
if err := writeBin(w, bv); err != nil {
return err
}
}
}
return nil
}
func (h *Histogram) SerializeB64(w io.Writer) error {
buf := bytes.NewBuffer([]byte{})
if err := h.Serialize(buf); err != nil {
return err
}
encoder := base64.NewEncoder(base64.StdEncoding, w)
if _, err := encoder.Write(buf.Bytes()); err != nil {
return fmt.Errorf("b64 encode write: %w", err)
}
if err := encoder.Close(); err != nil {
return fmt.Errorf("b64 encoder close: %w", err)
}
return nil
}
// Options are exposed options for initializing a histogram.
type Options struct {
// Size is the number of bins.
Size uint16
// UseLocks determines if the histogram should use locks
UseLocks bool
// UseLookup determines if the histogram should use a lookup table for bins
UseLookup bool
}
// Option knows how to mutate the Options to change initialization.
type Option func(*Options)
// NoLocks configures a histogram to not use locks.
func NoLocks() Option {
return func(options *Options) {
options.UseLocks = false
}
}
// NoLookup configures a histogram to not use a lookup table for bins.
// This is an appropriate option to use when the data set being operated
// over contains a large number of individual histograms and the insert
// speed into any histogram is not of the utmost importance. This option
// reduces the baseline memory consumption of one Histogram by at least
// 0.5kB and up to 130kB while increasing the insertion time by ~20%.
func NoLookup() Option {
return func(options *Options) {
options.UseLookup = false
}
}
// Size configures a histogram to initialize a specific number of bins.
// When more bins are required, allocations increase linearly by the default
// size (100).
func Size(size uint16) Option {
return func(options *Options) {
options.Size = size
}
}
// New returns a new Histogram, respecting the passed Options.
func New(options ...Option) *Histogram {
o := Options{
Size: defaultHistSize,
UseLocks: true,
UseLookup: true,
}
for _, opt := range options {
opt(&o)
}
h := &Histogram{
used: 0,
bvs: make([]bin, o.Size),
useLocks: o.UseLocks,
useLookup: o.UseLookup,
}
if h.useLookup {
h.lookup = make([][]uint16, 256)
}
return h
}
// NewNoLocks returns a new histogram not using locks.
// Deprecated: use New(NoLocks()) instead.
func NewNoLocks() *Histogram {
return New(NoLocks())
}
// NewFromStrings returns a Histogram created from DecStrings strings.
func NewFromStrings(strs []string, locks bool) (*Histogram, error) {
bin, err := stringsToBin(strs)
if err != nil {
return nil, err
}
return newFromBins(bin, locks), nil
}
// NewFromBins returns a Histogram created from a bins struct slice.
func newFromBins(bins []bin, locks bool) *Histogram {
return &Histogram{
used: uint16(len(bins)),
bvs: bins,
useLocks: locks,
lookup: make([][]uint16, 256),
useLookup: true,
}
}
// Max returns the approximate maximum recorded value.
func (h *Histogram) Max() float64 {
return h.ValueAtQuantile(1.0)
}
// Min returns the approximate minimum recorded value.
func (h *Histogram) Min() float64 {
return h.ValueAtQuantile(0.0)
}
// Mean returns the approximate arithmetic mean of the recorded values.
func (h *Histogram) Mean() float64 {
return h.ApproxMean()
}
// Count returns the number of recorded values.
func (h *Histogram) Count() uint64 {
if h.useLocks {
h.mutex.RLock()
defer h.mutex.RUnlock()
}
var count uint64
for _, bin := range h.bvs[0:h.used] {
if bin.isNaN() {
continue
}
count += bin.count
}
return count
}
// BinCount returns the number of used bins.
func (h *Histogram) BinCount() uint64 {
if h.useLocks {
h.mutex.RLock()
defer h.mutex.RUnlock()
}
binCount := h.used
return uint64(binCount)
}
// Reset forgets all bins in the histogram (they remain allocated).
func (h *Histogram) Reset() {
if h.useLocks {
h.mutex.Lock()
defer h.mutex.Unlock()
}
h.used = 0
if !h.useLookup {
return
}
for i := 0; i < 256; i++ {
if h.lookup[i] != nil {
for j := range h.lookup[i] {
h.lookup[i][j] = 0
}
}
}
}
// RecordIntScale records an integer scaler value, returning an error if the
// value is out of range.
func (h *Histogram) RecordIntScale(val int64, scale int) error {
return h.RecordIntScales(val, scale, 1)
}
// RecordValue records the given value, returning an error if the value is out
// of range.
func (h *Histogram) RecordValue(v float64) error {
return h.RecordValues(v, 1)
}
// RecordDuration records the given time.Duration in seconds, returning an error
// if the value is out of range.
func (h *Histogram) RecordDuration(v time.Duration) error {
return h.RecordIntScale(int64(v), -9)
}
// RecordCorrectedValue records the given value, correcting for stalls in the
// recording process. This only works for processes which are recording values
// at an expected interval (e.g., doing jitter analysis). Processes which are
// recording ad-hoc values (e.g., latency for incoming requests) can't take
// advantage of this.
// CH Compat.
func (h *Histogram) RecordCorrectedValue(v, expectedInterval int64) error {
if err := h.RecordValue(float64(v)); err != nil {
return err
}
if expectedInterval <= 0 || v <= expectedInterval {
return nil
}
missingValue := v - expectedInterval
for missingValue >= expectedInterval {
if err := h.RecordValue(float64(missingValue)); err != nil {
return err
}
missingValue -= expectedInterval
}
return nil
}
// find where a new bin should go.
func (h *Histogram) internalFind(hb *bin) (bool, uint16) {
if h.used == 0 {
return false, 0
}
if h.useLookup {
f2 := hb.newFastL2()
if h.lookup[f2.l1] != nil {
if idx := h.lookup[f2.l1][f2.l2]; idx != 0 {
return true, idx - 1
}
}
}
rv := -1
idx := uint16(0)
l := int(0)
r := int(h.used - 1)
for l < r {
check := (r + l) / 2
rv = h.bvs[check].compare(hb)
switch {
case rv == 0:
l = check
r = check
case rv > 0:
l = check + 1
default:
r = check - 1
}
}
if rv != 0 {
rv = h.bvs[l].compare(hb)
}
idx = uint16(l)
if rv == 0 {
return true, idx
}
if rv < 0 {
return false, idx
}
idx++
return false, idx
}
func (h *Histogram) insertBin(hb *bin, count int64) uint64 { //nolint:unparam
if h.useLocks {
h.mutex.Lock()
defer h.mutex.Unlock()
}
found, idx := h.internalFind(hb)
if !found {
count := h.insertNewBinAt(idx, hb, count)
// update the fast lookup table data after the index
h.updateFast(idx)
return count
}
return h.updateOldBinAt(idx, count)
}
func (h *Histogram) insertNewBinAt(idx uint16, hb *bin, count int64) uint64 {
h.bvs = append(h.bvs, bin{})
copy(h.bvs[idx+1:], h.bvs[idx:])
h.bvs[idx].val = hb.val
h.bvs[idx].exp = hb.exp
h.bvs[idx].count = uint64(count)
h.used++
return h.bvs[idx].count
}
func (h *Histogram) updateFast(start uint16) {
if !h.useLookup {
return
}
for i := start; i < h.used; i++ {
f2 := h.bvs[i].newFastL2()
if h.lookup[f2.l1] == nil {
h.lookup[f2.l1] = make([]uint16, 256)
}
h.lookup[f2.l1][f2.l2] = i + 1
}
}
func (h *Histogram) updateOldBinAt(idx uint16, count int64) uint64 {
var newval uint64
if count >= 0 {
newval = h.bvs[idx].count + uint64(count)
} else {
newval = h.bvs[idx].count - uint64(-count)
}
if newval < h.bvs[idx].count { // rolled
newval = ^uint64(0)
}
h.bvs[idx].count = newval
return newval - h.bvs[idx].count
}
// RecordIntScales records n occurrences of the given value, returning an error if
// the value is out of range.
func (h *Histogram) RecordIntScales(val int64, scale int, n int64) error {
sign := int64(1)
if val == 0 {
scale = 0
} else {
scale++
if val < 0 {
val = 0 - val
sign = -1
}
if val < 10 {
val *= 10
scale--
}
for val >= 100 {
val /= 10
scale++
}
}
if scale < -128 {
val = 0
scale = 0
} else if scale > 127 {
val = 0xff
scale = 0
}
val *= sign
hb := bin{val: int8(val), exp: int8(scale), count: 0}
h.insertBin(&hb, n)
return nil
}
// RecordValues records n occurrences of the given value, returning an error if
// the value is out of range.
func (h *Histogram) RecordValues(v float64, n int64) error {
var hb bin
hb.setFromFloat64(v)
h.insertBin(&hb, n)
return nil
}
// ApproxMean returns an approximate mean.
func (h *Histogram) ApproxMean() float64 {
if h.useLocks {
h.mutex.RLock()
defer h.mutex.RUnlock()
}
divisor := 0.0
sum := 0.0
for i := uint16(0); i < h.used; i++ {
midpoint := h.bvs[i].midpoint()
cardinality := float64(h.bvs[i].count)
divisor += cardinality
sum += midpoint * cardinality
}
if divisor == 0.0 {
return math.NaN()
}
return sum / divisor
}
// ApproxSum returns an approximate sum.
func (h *Histogram) ApproxSum() float64 {
if h.useLocks {
h.mutex.RLock()
defer h.mutex.RUnlock()
}
sum := 0.0
for i := uint16(0); i < h.used; i++ {
midpoint := h.bvs[i].midpoint()
cardinality := float64(h.bvs[i].count)
sum += midpoint * cardinality
}
return sum
}
func (h *Histogram) ApproxQuantile(qIn []float64) ([]float64, error) {
if h.useLocks {
h.mutex.RLock()
defer h.mutex.RUnlock()
}
qOut := make([]float64, len(qIn))
iq, ib := 0, uint16(0)
totalCnt, binWidth, binLeft, lowerCnt, upperCnt := 0.0, 0.0, 0.0, 0.0, 0.0
if len(qIn) == 0 {
return qOut, nil
}
// Make sure the requested quantiles are in order
for iq = 1; iq < len(qIn); iq++ {
if qIn[iq-1] > qIn[iq] {
return nil, fmt.Errorf("out of order") //nolint:goerr113
}
}
// Add up the bins
for ib = 0; ib < h.used; ib++ {
if !h.bvs[ib].isNaN() {
totalCnt += float64(h.bvs[ib].count)
}
}
if totalCnt == 0.0 {
return nil, fmt.Errorf("empty_histogram") //nolint:goerr113
}
for iq = 0; iq < len(qIn); iq++ {
if qIn[iq] < 0.0 || qIn[iq] > 1.0 {
return nil, fmt.Errorf("out of bound quantile") //nolint:goerr113
}
qOut[iq] = totalCnt * qIn[iq]
}
for ib = 0; ib < h.used; ib++ {
if h.bvs[ib].isNaN() {
continue
}
binWidth = h.bvs[ib].binWidth()
binLeft = h.bvs[ib].left()
lowerCnt = upperCnt
upperCnt = lowerCnt + float64(h.bvs[ib].count)
break
}
for iq = 0; iq < len(qIn); iq++ {
for ib < (h.used-1) && upperCnt < qOut[iq] {
ib++
binWidth = h.bvs[ib].binWidth()
binLeft = h.bvs[ib].left()
lowerCnt = upperCnt
upperCnt = lowerCnt + float64(h.bvs[ib].count)
}
switch {
case lowerCnt == qOut[iq]:
qOut[iq] = binLeft
case upperCnt == qOut[iq]:
qOut[iq] = binLeft + binWidth
default:
if binWidth == 0 {
qOut[iq] = binLeft
} else {
qOut[iq] = binLeft + (qOut[iq]-lowerCnt)/(upperCnt-lowerCnt)*binWidth
}
}
}
return qOut, nil
}
// ValueAtQuantile returns the recorded value at the given quantile (0..1).
func (h *Histogram) ValueAtQuantile(q float64) float64 {
if h.useLocks {
h.mutex.RLock()
defer h.mutex.RUnlock()
}
qIn := make([]float64, 1)
qIn[0] = q
qOut, err := h.ApproxQuantile(qIn)
if err == nil && len(qOut) == 1 {
return qOut[0]
}
return math.NaN()
}
// SignificantFigures returns the significant figures used to create the
// histogram
// CH Compat.
func (h *Histogram) SignificantFigures() int64 {
return 2
}
// Equals returns true if the two Histograms are equivalent, false if not.
func (h *Histogram) Equals(other *Histogram) bool {
if h.useLocks {
h.mutex.RLock()
defer h.mutex.RUnlock()
}
if other.useLocks {
other.mutex.RLock()
defer other.mutex.RUnlock()
}
switch {
case
h.used != other.used:
return false
default:
for i := uint16(0); i < h.used; i++ {
if h.bvs[i].compare(&other.bvs[i]) != 0 {
return false
}
if h.bvs[i].count != other.bvs[i].count {
return false
}
}
}
return true
}
// Copy creates and returns an exact copy of a histogram.
func (h *Histogram) Copy() *Histogram {
if h.useLocks {
h.mutex.Lock()
defer h.mutex.Unlock()
}
newhist := New()
newhist.used = h.used
newhist.useLocks = h.useLocks
newhist.bvs = make([]bin, len(h.bvs))
copy(h.bvs, newhist.bvs)
newhist.useLookup = h.useLookup
if h.useLookup {
newhist.lookup = make([][]uint16, 256)
for i, u := range h.lookup {
newhist.lookup[i] = append(newhist.lookup[i], u...)
}
}
return newhist
}
// FullReset resets a histogram to default empty values.
func (h *Histogram) FullReset() {
if h.useLocks {
h.mutex.Lock()
defer h.mutex.Unlock()
}
h.bvs = []bin{}
h.used = 0
if h.useLookup {
h.lookup = make([][]uint16, 256)
}
}
// CopyAndReset creates and returns an exact copy of a histogram,
// and resets it to default empty values.
func (h *Histogram) CopyAndReset() *Histogram {
newhist := h.Copy()
h.FullReset()
return newhist
}
func (h *Histogram) DecStrings() []string {
if h.useLocks {
h.mutex.Lock()
defer h.mutex.Unlock()
}
out := make([]string, h.used)
for i, bin := range h.bvs[0:h.used] {
var buffer bytes.Buffer
buffer.WriteString("H[")
buffer.WriteString(fmt.Sprintf("%3.1e", bin.value()))
buffer.WriteString("]=")
buffer.WriteString(fmt.Sprintf("%v", bin.count))
out[i] = buffer.String()
}
return out
}
// takes the output of DecStrings and deserializes it into a Bin struct slice.
func stringsToBin(strs []string) ([]bin, error) {
bins := make([]bin, len(strs))
for i, str := range strs {
// H[0.0e+00]=1
// H[0.0e+00]= <1>
countString := strings.Split(str, "=")[1]
countInt, err := strconv.ParseInt(countString, 10, 64)
if err != nil {
return nil, fmt.Errorf("parse int: %w", err)
}
// H[ <0.0> e+00]=1
valString := strings.Split(strings.Split(strings.Split(str, "=")[0], "e")[0], "[")[1]
valInt, err := strconv.ParseFloat(valString, 64)
if err != nil {
return nil, fmt.Errorf("parse float: %w", err)
}
// H[0.0e <+00> ]=1
expString := strings.Split(strings.Split(strings.Split(str, "=")[0], "e")[1], "]")[0]
expInt, err := strconv.ParseInt(expString, 10, 8)
if err != nil {
return nil, fmt.Errorf("parse int: %w", err)
}
bins[i] = *newBinRaw(int8(valInt*10), int8(expInt), uint64(countInt))
}
return bins, nil
}