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big: cleanup and removal of redundant functionality
R=rsc CC=golang-dev https://golang.org/cl/1048041
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@ -211,19 +211,32 @@ func divStep(x1, x0, y Word) (q, r Word) {
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}
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// Number of leading zeros in x.
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func leadingZeros(x Word) (n uint) {
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if x == 0 {
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return _W
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// Length of x in bits.
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func bitLen(x Word) (n int) {
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for ; x >= 0x100; x >>= 8 {
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n += 8
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}
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for x&(1<<(_W-1)) == 0 {
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for ; x > 0; x >>= 1 {
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n++
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x <<= 1
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}
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return
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}
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// log2 computes the integer binary logarithm of x.
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// The result is the integer n for which 2^n <= x < 2^(n+1).
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// If x == 0, the result is -1.
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func log2(x Word) int {
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return bitLen(x) - 1
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}
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// Number of leading zeros in x.
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func leadingZeros(x Word) uint {
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return uint(_W - bitLen(x))
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}
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// q = (x1<<_W + x0 - r)/y
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func divWW_g(x1, x0, y Word) (q, r Word) {
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if x1 == 0 {
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@ -165,9 +165,8 @@ func (z nat) sub(x, y nat) nat {
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if c != 0 {
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panic("underflow")
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}
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z = z.norm()
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return z
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return z.norm()
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}
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@ -495,7 +494,7 @@ func (z nat) divW(x nat, y Word) (q nat, r Word) {
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q = z.set(x) // result is x
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return
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case m == 0:
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q = z.set(nil) // result is 0
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q = z.make(0) // result is 0
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return
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}
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// m > 0
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@ -553,10 +552,10 @@ func (z nat) divLarge(z2, uIn, v nat) (q, r nat) {
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q = z.make(m + 1)
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// D1.
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shift := uint(leadingZeroBits(v[n-1]))
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shift := leadingZeros(v[n-1])
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v.shiftLeftDeprecated(v, shift)
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u.shiftLeftDeprecated(uIn, shift)
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u[len(uIn)] = uIn[len(uIn)-1] >> (_W - uint(shift))
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u[len(uIn)] = uIn[len(uIn)-1] >> (_W - shift)
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// D2.
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for j := m; j >= 0; j-- {
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@ -605,26 +604,12 @@ func (z nat) divLarge(z2, uIn, v nat) (q, r nat) {
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}
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// log2 computes the integer binary logarithm of x.
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// The result is the integer n for which 2^n <= x < 2^(n+1).
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// If x == 0, the result is -1.
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func log2(x Word) int {
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n := -1
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for ; x > 0; x >>= 1 {
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n++
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}
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return n
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}
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// log2 computes the integer binary logarithm of x.
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// The result is the integer n for which 2^n <= x < 2^(n+1).
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// If x == 0, the result is -1.
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func (x nat) log2() int {
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// Length of x in bits. x must be normalized.
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func (x nat) bitLen() int {
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if i := len(x) - 1; i >= 0 {
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return i*_W + log2(x[i])
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return i*_W + bitLen(x[i])
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}
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return -1
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return 0
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}
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@ -703,7 +688,7 @@ func (x nat) string(base int) string {
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}
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// allocate buffer for conversion
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i := (x.log2()+1)/log2(Word(base)) + 1 // +1: round up
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i := x.bitLen()/log2(Word(base)) + 1 // +1: round up
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s := make([]byte, i)
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// don't destroy x
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@ -721,24 +706,6 @@ func (x nat) string(base int) string {
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}
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// leadingZeroBits returns the number of leading zero bits in x.
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func leadingZeroBits(x Word) int {
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c := 0
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if x < 1<<(_W/2) {
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x <<= _W / 2
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c = _W / 2
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}
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for i := 0; x != 0; i++ {
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if x&(1<<(_W-1)) != 0 {
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return i + c
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}
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x <<= 1
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}
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return _W
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}
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const deBruijn32 = 0x077CB531
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var deBruijn32Lookup = []byte{
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@ -997,16 +964,6 @@ func (z nat) expNN(x, y, m nat) nat {
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}
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// len returns the bit length of z.
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func (z nat) len() int {
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if len(z) == 0 {
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return 0
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}
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return (len(z)-1)*_W + (_W - leadingZeroBits(z[len(z)-1]))
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}
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// probablyPrime performs reps Miller-Rabin tests to check whether n is prime.
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// If it returns true, n is prime with probability 1 - 1/4^reps.
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// If it returns false, n is not prime.
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@ -1063,7 +1020,7 @@ func (n nat) probablyPrime(reps int) bool {
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rand := rand.New(rand.NewSource(int64(n[0])))
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var x, y, quotient nat
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nm3Len := nm3.len()
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nm3Len := nm3.bitLen()
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NextRandom:
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for i := 0; i < reps; i++ {
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@ -209,11 +209,11 @@ func TestString(t *testing.T) {
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}
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func TestLeadingZeroBits(t *testing.T) {
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var x Word = 1 << (_W - 1)
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func TestLeadingZeros(t *testing.T) {
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var x Word = _B >> 1
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for i := 0; i <= _W; i++ {
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if leadingZeroBits(x) != i {
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t.Errorf("failed at %x: got %d want %d", x, leadingZeroBits(x), i)
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if int(leadingZeros(x)) != i {
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t.Errorf("failed at %x: got %d want %d", x, leadingZeros(x), i)
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}
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x >>= 1
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}
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