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arith_generic.go
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/
arith_generic.go
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// Code generated by go generate; DO NOT EDIT.
// This file was generated by robots.
//go:build purego || (!amd64 && !arm64)
// +build purego !amd64,!arm64
package p503
import (
"math/bits"
"github.com/cloudflare/circl/dh/sidh/internal/common"
)
// Compute z = x + y (mod p).
func addP503(z, x, y *common.Fp) {
var carry uint64
// z=x+y % P503
for i := 0; i < FpWords; i++ {
z[i], carry = bits.Add64(x[i], y[i], carry)
}
// z = z - P503x2
carry = 0
for i := 0; i < FpWords; i++ {
z[i], carry = bits.Sub64(z[i], P503x2[i], carry)
}
// if z<0 add P503x2 back
mask := uint64(0 - carry)
carry = 0
for i := 0; i < FpWords; i++ {
z[i], carry = bits.Add64(z[i], P503x2[i]&mask, carry)
}
}
// Compute z = x - y (mod p).
func subP503(z, x, y *common.Fp) {
var borrow uint64
for i := 0; i < FpWords; i++ {
z[i], borrow = bits.Sub64(x[i], y[i], borrow)
}
mask := uint64(0 - borrow)
borrow = 0
for i := 0; i < FpWords; i++ {
z[i], borrow = bits.Add64(z[i], P503x2[i]&mask, borrow)
}
}
// If choice = 0, leave x unchanged. If choice = 1, sets x to y.
// If choice is neither 0 nor 1 then behaviour is undefined.
// This function executes in constant time.
func cmovP503(x, y *common.Fp, choice uint8) {
mask := 0 - uint64(choice)
for i := 0; i < FpWords; i++ {
x[i] ^= mask & (x[i] ^ y[i])
}
}
// Conditionally swaps bits in x and y in constant time.
// mask indicates bits to be swapped (set bits are swapped)
// For details see "Hackers Delight, 2.20"
//
// Implementation doesn't actually depend on a prime field.
func cswapP503(x, y *common.Fp, mask uint8) {
var tmp, mask64 uint64
mask64 = 0 - uint64(mask)
for i := 0; i < FpWords; i++ {
tmp = mask64 & (x[i] ^ y[i])
x[i] = tmp ^ x[i]
y[i] = tmp ^ y[i]
}
}
// Perform Montgomery reduction: set z = x R^{-1} (mod 2*p)
// with R=2^(FpWords*64). Destroys the input value.
func rdcP503(z *common.Fp, x *common.FpX2) {
var carry, t, u, v uint64
var hi, lo uint64
var count int
count = P503p1Zeros
for i := 0; i < FpWords; i++ {
for j := 0; j < i; j++ {
if j < (i - count + 1) {
hi, lo = bits.Mul64(z[j], P503p1[i-j])
v, carry = bits.Add64(lo, v, 0)
u, carry = bits.Add64(hi, u, carry)
t += carry
}
}
v, carry = bits.Add64(v, x[i], 0)
u, carry = bits.Add64(u, 0, carry)
t += carry
z[i] = v
v = u
u = t
t = 0
}
for i := FpWords; i < 2*FpWords-1; i++ {
if count > 0 {
count--
}
for j := i - FpWords + 1; j < FpWords; j++ {
if j < (FpWords - count) {
hi, lo = bits.Mul64(z[j], P503p1[i-j])
v, carry = bits.Add64(lo, v, 0)
u, carry = bits.Add64(hi, u, carry)
t += carry
}
}
v, carry = bits.Add64(v, x[i], 0)
u, carry = bits.Add64(u, 0, carry)
t += carry
z[i-FpWords] = v
v = u
u = t
t = 0
}
v, _ = bits.Add64(v, x[2*FpWords-1], 0)
z[FpWords-1] = v
}
// Compute z = x * y.
func mulP503(z *common.FpX2, x, y *common.Fp) {
var u, v, t uint64
var hi, lo uint64
var carry uint64
for i := uint64(0); i < FpWords; i++ {
for j := uint64(0); j <= i; j++ {
hi, lo = bits.Mul64(x[j], y[i-j])
v, carry = bits.Add64(lo, v, 0)
u, carry = bits.Add64(hi, u, carry)
t += carry
}
z[i] = v
v = u
u = t
t = 0
}
for i := FpWords; i < (2*FpWords)-1; i++ {
for j := i - FpWords + 1; j < FpWords; j++ {
hi, lo = bits.Mul64(x[j], y[i-j])
v, carry = bits.Add64(lo, v, 0)
u, carry = bits.Add64(hi, u, carry)
t += carry
}
z[i] = v
v = u
u = t
t = 0
}
z[2*FpWords-1] = v
}
// Compute z = x + y, without reducing mod p.
func adlP503(z, x, y *common.FpX2) {
var carry uint64
for i := 0; i < 2*FpWords; i++ {
z[i], carry = bits.Add64(x[i], y[i], carry)
}
}
// Reduce a field element in [0, 2*p) to one in [0,p).
func modP503(x *common.Fp) {
var borrow, mask uint64
for i := 0; i < FpWords; i++ {
x[i], borrow = bits.Sub64(x[i], P503[i], borrow)
}
// Sets all bits if borrow = 1
mask = 0 - borrow
borrow = 0
for i := 0; i < FpWords; i++ {
x[i], borrow = bits.Add64(x[i], P503[i]&mask, borrow)
}
}
// Compute z = x - y, without reducing mod p.
func sulP503(z, x, y *common.FpX2) {
var borrow, mask uint64
for i := 0; i < 2*FpWords; i++ {
z[i], borrow = bits.Sub64(x[i], y[i], borrow)
}
// Sets all bits if borrow = 1
mask = 0 - borrow
borrow = 0
for i := FpWords; i < 2*FpWords; i++ {
z[i], borrow = bits.Add64(z[i], P503[i-FpWords]&mask, borrow)
}
}