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utils.go
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utils.go
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// Copyright 2019 Gregory Petrosyan <[email protected]>
//
// This Source Code Form is subject to the terms of the Mozilla Public
// License, v. 2.0. If a copy of the MPL was not distributed with this
// file, You can obtain one at https://mozilla.org/MPL/2.0/.
package rapid
import (
"math"
"math/bits"
)
const (
biasLabel = "bias"
intBitsLabel = "intbits"
coinFlipLabel = "coinflip"
dieRollLabel = "dieroll"
repeatLabel = "@repeat"
)
func bitmask64(n uint) uint64 {
return uint64(1)<<n - 1
}
func genFloat01(s bitStream) float64 {
return float64(s.drawBits(53)) * 0x1.0p-53
}
func genGeom(s bitStream, p float64) uint64 {
assert(p > 0 && p <= 1)
f := genFloat01(s)
n := math.Log1p(-f) / math.Log1p(-p)
return uint64(n)
}
func genUintNNoReject(s bitStream, max uint64) uint64 {
bitlen := bits.Len64(max)
i := s.beginGroup(intBitsLabel, false)
u := s.drawBits(bitlen)
s.endGroup(i, false)
if u > max {
u = max
}
return u
}
func genUintNUnbiased(s bitStream, max uint64) uint64 {
bitlen := bits.Len64(max)
for {
i := s.beginGroup(intBitsLabel, false)
u := s.drawBits(bitlen)
ok := u <= max
s.endGroup(i, !ok)
if ok {
return u
}
}
}
func genUintNBiased(s bitStream, max uint64) (uint64, bool, bool) {
bitlen := bits.Len64(max)
i := s.beginGroup(biasLabel, false)
m := math.Max(8, (float64(bitlen)+48)/7)
n := genGeom(s, 1/(m+1)) + 1
s.endGroup(i, false)
if int(n) < bitlen {
bitlen = int(n)
} else if int(n) >= 64-(16-int(m))*4 {
bitlen = 65
}
for {
i := s.beginGroup(intBitsLabel, false)
u := s.drawBits(bitlen)
ok := bitlen > 64 || u <= max
s.endGroup(i, !ok)
if bitlen > 64 {
u = max
}
if u <= max {
return u, u == 0 && n == 1, u == max && bitlen >= int(n)
}
}
}
func genUintN(s bitStream, max uint64, bias bool) (uint64, bool, bool) {
if bias {
return genUintNBiased(s, max)
} else {
return genUintNUnbiased(s, max), false, false
}
}
func genUintRange(s bitStream, min uint64, max uint64, bias bool) (uint64, bool, bool) {
if min > max {
assertf(false, "invalid range [%v, %v]", min, max) // avoid allocations in the fast path
}
u, lOverflow, rOverflow := genUintN(s, max-min, bias)
return min + u, lOverflow, rOverflow
}
func genIntRange(s bitStream, min int64, max int64, bias bool) (int64, bool, bool) {
if min > max {
assertf(false, "invalid range [%v, %v]", min, max) // avoid allocations in the fast path
}
var posMin, negMin uint64
var pNeg float64
if min >= 0 {
posMin = uint64(min)
pNeg = 0
} else if max <= 0 {
negMin = uint64(-max)
pNeg = 1
} else {
posMin = 0
negMin = 1
pos := uint64(max) + 1
neg := uint64(-min)
pNeg = float64(neg) / (float64(neg) + float64(pos))
if bias {
pNeg = 0.5
}
}
if flipBiasedCoin(s, pNeg) {
u, lOverflow, rOverflow := genUintRange(s, negMin, uint64(-min), bias)
return -int64(u), rOverflow, lOverflow && max <= 0
} else {
u, lOverflow, rOverflow := genUintRange(s, posMin, uint64(max), bias)
return int64(u), lOverflow && min >= 0, rOverflow
}
}
func genIndex(s bitStream, n int, bias bool) int {
assert(n > 0)
u, _, _ := genUintN(s, uint64(n-1), bias)
return int(u)
}
func flipBiasedCoin(s bitStream, p float64) bool {
assert(p >= 0 && p <= 1)
i := s.beginGroup(coinFlipLabel, false)
f := genFloat01(s)
s.endGroup(i, false)
return f >= 1-p
}
type loadedDie struct {
table []int
}
func newLoadedDie(weights []int) *loadedDie {
assert(len(weights) > 0)
if len(weights) == 1 {
return &loadedDie{
table: []int{0},
}
}
total := 0
for _, w := range weights {
assert(w > 0 && w < 100)
total += w
}
table := make([]int, total)
i := 0
for n, w := range weights {
for j := i; i < j+w; i++ {
table[i] = n
}
}
return &loadedDie{
table: table,
}
}
func (d *loadedDie) roll(s bitStream) int {
i := s.beginGroup(dieRollLabel, false)
ix := genIndex(s, len(d.table), false)
s.endGroup(i, false)
return d.table[ix]
}
type repeat struct {
minCount int
maxCount int
avgCount float64
pContinue float64
count int
group int
rejected bool
rejections int
forceStop bool
label string
}
func newRepeat(minCount int, maxCount int, avgCount float64, label string) *repeat {
if minCount < 0 {
minCount = 0
}
if maxCount < 0 {
maxCount = math.MaxInt
}
if avgCount < 0 {
avgCount = float64(minCount) + math.Min(math.Max(float64(minCount), small), (float64(maxCount)-float64(minCount))/2)
}
return &repeat{
minCount: minCount,
maxCount: maxCount,
avgCount: avgCount,
pContinue: 1 - 1/(1+avgCount-float64(minCount)), // TODO was no -minCount intentional?
group: -1,
label: label + repeatLabel,
}
}
func (r *repeat) avg() int {
return int(math.Ceil(r.avgCount))
}
func (r *repeat) more(s bitStream) bool {
if r.group >= 0 {
s.endGroup(r.group, r.rejected)
}
r.group = s.beginGroup(r.label, true)
r.rejected = false
pCont := r.pContinue
if r.count < r.minCount {
pCont = 1
} else if r.forceStop || r.count >= r.maxCount {
pCont = 0
}
cont := flipBiasedCoin(s, pCont)
if cont {
r.count++
} else {
s.endGroup(r.group, false)
}
return cont
}
func (r *repeat) reject() {
assert(r.count > 0)
r.count--
r.rejected = true
r.rejections++
if r.rejections > r.count*2 {
if r.count >= r.minCount {
r.forceStop = true
} else {
panic(invalidData("too many rejections in repeat"))
}
}
}