332 lines
6.6 KiB
Go
332 lines
6.6 KiB
Go
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// Copyright (c) 2014 The mathutil Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package mathutil // import "modernc.org/mathutil"
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import (
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"math"
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)
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// IsPrimeUint16 returns true if n is prime. Typical run time is few ns.
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func IsPrimeUint16(n uint16) bool {
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return n > 0 && primes16[n-1] == 1
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}
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// NextPrimeUint16 returns first prime > n and true if successful or an
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// undefined value and false if there is no next prime in the uint16 limits.
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// Typical run time is few ns.
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func NextPrimeUint16(n uint16) (p uint16, ok bool) {
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return n + uint16(primes16[n]), n < 65521
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}
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// IsPrime returns true if n is prime. Typical run time is about 100 ns.
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func IsPrime(n uint32) bool {
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switch {
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case n&1 == 0:
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return n == 2
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case n%3 == 0:
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return n == 3
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case n%5 == 0:
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return n == 5
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case n%7 == 0:
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return n == 7
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case n%11 == 0:
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return n == 11
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case n%13 == 0:
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return n == 13
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case n%17 == 0:
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return n == 17
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case n%19 == 0:
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return n == 19
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case n%23 == 0:
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return n == 23
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case n%29 == 0:
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return n == 29
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case n%31 == 0:
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return n == 31
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case n%37 == 0:
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return n == 37
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case n%41 == 0:
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return n == 41
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case n%43 == 0:
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return n == 43
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case n%47 == 0:
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return n == 47
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case n%53 == 0:
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return n == 53 // Benchmarked optimum
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case n < 65536:
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// use table data
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return IsPrimeUint16(uint16(n))
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default:
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mod := ModPowUint32(2, (n+1)/2, n)
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if mod != 2 && mod != n-2 {
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return false
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}
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blk := &lohi[n>>24]
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lo, hi := blk.lo, blk.hi
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for lo <= hi {
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index := (lo + hi) >> 1
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liar := liars[index]
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switch {
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case n > liar:
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lo = index + 1
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case n < liar:
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hi = index - 1
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default:
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return false
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}
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}
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return true
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}
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}
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// IsPrimeUint64 returns true if n is prime. Typical run time is few tens of µs.
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//
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// SPRP bases: http://miller-rabin.appspot.com
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func IsPrimeUint64(n uint64) bool {
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switch {
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case n%2 == 0:
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return n == 2
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case n%3 == 0:
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return n == 3
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case n%5 == 0:
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return n == 5
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case n%7 == 0:
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return n == 7
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case n%11 == 0:
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return n == 11
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case n%13 == 0:
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return n == 13
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case n%17 == 0:
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return n == 17
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case n%19 == 0:
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return n == 19
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case n%23 == 0:
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return n == 23
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case n%29 == 0:
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return n == 29
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case n%31 == 0:
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return n == 31
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case n%37 == 0:
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return n == 37
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case n%41 == 0:
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return n == 41
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case n%43 == 0:
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return n == 43
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case n%47 == 0:
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return n == 47
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case n%53 == 0:
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return n == 53
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case n%59 == 0:
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return n == 59
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case n%61 == 0:
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return n == 61
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case n%67 == 0:
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return n == 67
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case n%71 == 0:
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return n == 71
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case n%73 == 0:
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return n == 73
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case n%79 == 0:
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return n == 79
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case n%83 == 0:
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return n == 83
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case n%89 == 0:
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return n == 89 // Benchmarked optimum
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case n <= math.MaxUint16:
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return IsPrimeUint16(uint16(n))
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case n <= math.MaxUint32:
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return ProbablyPrimeUint32(uint32(n), 11000544) &&
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ProbablyPrimeUint32(uint32(n), 31481107)
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case n < 105936894253:
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return ProbablyPrimeUint64_32(n, 2) &&
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ProbablyPrimeUint64_32(n, 1005905886) &&
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ProbablyPrimeUint64_32(n, 1340600841)
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case n < 31858317218647:
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return ProbablyPrimeUint64_32(n, 2) &&
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ProbablyPrimeUint64_32(n, 642735) &&
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ProbablyPrimeUint64_32(n, 553174392) &&
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ProbablyPrimeUint64_32(n, 3046413974)
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case n < 3071837692357849:
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return ProbablyPrimeUint64_32(n, 2) &&
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ProbablyPrimeUint64_32(n, 75088) &&
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ProbablyPrimeUint64_32(n, 642735) &&
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ProbablyPrimeUint64_32(n, 203659041) &&
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ProbablyPrimeUint64_32(n, 3613982119)
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default:
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return ProbablyPrimeUint64_32(n, 2) &&
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ProbablyPrimeUint64_32(n, 325) &&
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ProbablyPrimeUint64_32(n, 9375) &&
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ProbablyPrimeUint64_32(n, 28178) &&
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ProbablyPrimeUint64_32(n, 450775) &&
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ProbablyPrimeUint64_32(n, 9780504) &&
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ProbablyPrimeUint64_32(n, 1795265022)
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}
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}
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// NextPrime returns first prime > n and true if successful or an undefined value and false if there
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// is no next prime in the uint32 limits. Typical run time is about 2 µs.
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func NextPrime(n uint32) (p uint32, ok bool) {
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switch {
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case n < 65521:
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p16, _ := NextPrimeUint16(uint16(n))
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return uint32(p16), true
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case n >= math.MaxUint32-4:
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return
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}
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n++
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var d0, d uint32
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switch mod := n % 6; mod {
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case 0:
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d0, d = 1, 4
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case 1:
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d = 4
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case 2, 3, 4:
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d0, d = 5-mod, 2
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case 5:
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d = 2
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}
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p = n + d0
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if p < n { // overflow
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return
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}
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for {
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if IsPrime(p) {
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return p, true
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}
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p0 := p
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p += d
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if p < p0 { // overflow
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break
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}
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d ^= 6
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}
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return
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}
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// NextPrimeUint64 returns first prime > n and true if successful or an undefined value and false if there
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// is no next prime in the uint64 limits. Typical run time is in hundreds of µs.
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func NextPrimeUint64(n uint64) (p uint64, ok bool) {
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switch {
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case n < 65521:
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p16, _ := NextPrimeUint16(uint16(n))
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return uint64(p16), true
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case n >= 18446744073709551557: // last uint64 prime
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return
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}
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n++
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var d0, d uint64
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switch mod := n % 6; mod {
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case 0:
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d0, d = 1, 4
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case 1:
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d = 4
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case 2, 3, 4:
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d0, d = 5-mod, 2
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case 5:
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d = 2
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}
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p = n + d0
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if p < n { // overflow
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return
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}
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for {
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if ok = IsPrimeUint64(p); ok {
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break
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}
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p0 := p
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p += d
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if p < p0 { // overflow
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break
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}
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d ^= 6
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}
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return
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}
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// FactorTerm is one term of an integer factorization.
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type FactorTerm struct {
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Prime uint32 // The divisor
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Power uint32 // Term == Prime^Power
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}
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// FactorTerms represent a factorization of an integer
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type FactorTerms []FactorTerm
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// FactorInt returns prime factorization of n > 1 or nil otherwise.
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// Resulting factors are ordered by Prime. Typical run time is few µs.
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func FactorInt(n uint32) (f FactorTerms) {
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switch {
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case n < 2:
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return
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case IsPrime(n):
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return []FactorTerm{{n, 1}}
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}
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f, w := make([]FactorTerm, 9), 0
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for p := 2; p < len(primes16); p += int(primes16[p]) {
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if uint(p*p) > uint(n) {
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break
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}
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power := uint32(0)
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for n%uint32(p) == 0 {
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n /= uint32(p)
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power++
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}
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if power != 0 {
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f[w] = FactorTerm{uint32(p), power}
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w++
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}
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if n == 1 {
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break
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}
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}
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if n != 1 {
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f[w] = FactorTerm{n, 1}
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w++
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}
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return f[:w]
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}
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// PrimorialProductsUint32 returns a slice of numbers in [lo, hi] which are a
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// product of max 'max' primorials. The slice is not sorted.
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//
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// See also: http://en.wikipedia.org/wiki/Primorial
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func PrimorialProductsUint32(lo, hi, max uint32) (r []uint32) {
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lo64, hi64 := int64(lo), int64(hi)
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if max > 31 { // N/A
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max = 31
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}
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var f func(int64, int64, uint32)
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f = func(n, p int64, emax uint32) {
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e := uint32(1)
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for n <= hi64 && e <= emax {
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n *= p
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if n >= lo64 && n <= hi64 {
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r = append(r, uint32(n))
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}
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if n < hi64 {
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p, _ := NextPrime(uint32(p))
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f(n, int64(p), e)
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}
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e++
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}
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}
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f(1, 2, max)
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return
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}
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