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// Copyright 2020 ConsenSys AG
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
// field modulus q =
//
// 21888242871839275222246405745257275088548364400416034343698204186575808495617
// Code generated by goff DO NOT EDIT
// goff version: - build:
// Element are assumed to be in Montgomery form in all methods
// Package ff (generated by goff) contains field arithmetics operations
package ff
import ( "crypto/rand" "encoding/binary" "io" "math/big" "math/bits" "sync"
"unsafe" )
// Element represents a field element stored on 4 words (uint64)
// Element are assumed to be in Montgomery form in all methods
type Element [4]uint64
// ElementLimbs number of 64 bits words needed to represent Element
const ElementLimbs = 4
// ElementBits number bits needed to represent Element
const ElementBits = 254
// SetUint64 z = v, sets z LSB to v (non-Montgomery form) and convert z to Montgomery form
func (z *Element) SetUint64(v uint64) *Element { z[0] = v z[1] = 0 z[2] = 0 z[3] = 0 return z.ToMont() }
// Set z = x
func (z *Element) Set(x *Element) *Element { z[0] = x[0] z[1] = x[1] z[2] = x[2] z[3] = x[3] return z }
// SetZero z = 0
func (z *Element) SetZero() *Element { z[0] = 0 z[1] = 0 z[2] = 0 z[3] = 0 return z }
// SetOne z = 1 (in Montgomery form)
func (z *Element) SetOne() *Element { z[0] = 12436184717236109307 z[1] = 3962172157175319849 z[2] = 7381016538464732718 z[3] = 1011752739694698287 return z }
// Neg z = q - x
func (z *Element) Neg(x *Element) *Element { if x.IsZero() { return z.SetZero() } var borrow uint64 z[0], borrow = bits.Sub64(4891460686036598785, x[0], 0) z[1], borrow = bits.Sub64(2896914383306846353, x[1], borrow) z[2], borrow = bits.Sub64(13281191951274694749, x[2], borrow) z[3], _ = bits.Sub64(3486998266802970665, x[3], borrow) return z }
// Div z = x*y^-1 mod q
func (z *Element) Div(x, y *Element) *Element { var yInv Element yInv.Inverse(y) z.Mul(x, &yInv) return z }
// Equal returns z == x
func (z *Element) Equal(x *Element) bool { return (z[3] == x[3]) && (z[2] == x[2]) && (z[1] == x[1]) && (z[0] == x[0]) }
// IsZero returns z == 0
func (z *Element) IsZero() bool { return (z[3] | z[2] | z[1] | z[0]) == 0 }
// field modulus stored as big.Int
var _elementModulusBigInt big.Int var onceelementModulus sync.Once
func elementModulusBigInt() *big.Int { onceelementModulus.Do(func() { _elementModulusBigInt.SetString("21888242871839275222246405745257275088548364400416034343698204186575808495617", 10) }) return &_elementModulusBigInt }
// Inverse z = x^-1 mod q
// Algorithm 16 in "Efficient Software-Implementation of Finite Fields with Applications to Cryptography"
// if x == 0, sets and returns z = x
func (z *Element) Inverse(x *Element) *Element { if x.IsZero() { return z.Set(x) }
// initialize u = q
var u = Element{ 4891460686036598785, 2896914383306846353, 13281191951274694749, 3486998266802970665, }
// initialize s = r^2
var s = Element{ 1997599621687373223, 6052339484930628067, 10108755138030829701, 150537098327114917, }
// r = 0
r := Element{}
v := *x
var carry, borrow, t, t2 uint64 var bigger, uIsOne, vIsOne bool
for !uIsOne && !vIsOne { for v[0]&1 == 0 {
// v = v >> 1
t2 = v[3] << 63 v[3] >>= 1 t = t2 t2 = v[2] << 63 v[2] = (v[2] >> 1) | t t = t2 t2 = v[1] << 63 v[1] = (v[1] >> 1) | t t = t2 v[0] = (v[0] >> 1) | t
if s[0]&1 == 1 {
// s = s + q
s[0], carry = bits.Add64(s[0], 4891460686036598785, 0) s[1], carry = bits.Add64(s[1], 2896914383306846353, carry) s[2], carry = bits.Add64(s[2], 13281191951274694749, carry) s[3], _ = bits.Add64(s[3], 3486998266802970665, carry)
}
// s = s >> 1
t2 = s[3] << 63 s[3] >>= 1 t = t2 t2 = s[2] << 63 s[2] = (s[2] >> 1) | t t = t2 t2 = s[1] << 63 s[1] = (s[1] >> 1) | t t = t2 s[0] = (s[0] >> 1) | t
} for u[0]&1 == 0 {
// u = u >> 1
t2 = u[3] << 63 u[3] >>= 1 t = t2 t2 = u[2] << 63 u[2] = (u[2] >> 1) | t t = t2 t2 = u[1] << 63 u[1] = (u[1] >> 1) | t t = t2 u[0] = (u[0] >> 1) | t
if r[0]&1 == 1 {
// r = r + q
r[0], carry = bits.Add64(r[0], 4891460686036598785, 0) r[1], carry = bits.Add64(r[1], 2896914383306846353, carry) r[2], carry = bits.Add64(r[2], 13281191951274694749, carry) r[3], _ = bits.Add64(r[3], 3486998266802970665, carry)
}
// r = r >> 1
t2 = r[3] << 63 r[3] >>= 1 t = t2 t2 = r[2] << 63 r[2] = (r[2] >> 1) | t t = t2 t2 = r[1] << 63 r[1] = (r[1] >> 1) | t t = t2 r[0] = (r[0] >> 1) | t
}
// v >= u
bigger = !(v[3] < u[3] || (v[3] == u[3] && (v[2] < u[2] || (v[2] == u[2] && (v[1] < u[1] || (v[1] == u[1] && (v[0] < u[0])))))))
if bigger {
// v = v - u
v[0], borrow = bits.Sub64(v[0], u[0], 0) v[1], borrow = bits.Sub64(v[1], u[1], borrow) v[2], borrow = bits.Sub64(v[2], u[2], borrow) v[3], _ = bits.Sub64(v[3], u[3], borrow)
// r >= s
bigger = !(r[3] < s[3] || (r[3] == s[3] && (r[2] < s[2] || (r[2] == s[2] && (r[1] < s[1] || (r[1] == s[1] && (r[0] < s[0])))))))
if bigger {
// s = s + q
s[0], carry = bits.Add64(s[0], 4891460686036598785, 0) s[1], carry = bits.Add64(s[1], 2896914383306846353, carry) s[2], carry = bits.Add64(s[2], 13281191951274694749, carry) s[3], _ = bits.Add64(s[3], 3486998266802970665, carry)
}
// s = s - r
s[0], borrow = bits.Sub64(s[0], r[0], 0) s[1], borrow = bits.Sub64(s[1], r[1], borrow) s[2], borrow = bits.Sub64(s[2], r[2], borrow) s[3], _ = bits.Sub64(s[3], r[3], borrow)
} else {
// u = u - v
u[0], borrow = bits.Sub64(u[0], v[0], 0) u[1], borrow = bits.Sub64(u[1], v[1], borrow) u[2], borrow = bits.Sub64(u[2], v[2], borrow) u[3], _ = bits.Sub64(u[3], v[3], borrow)
// s >= r
bigger = !(s[3] < r[3] || (s[3] == r[3] && (s[2] < r[2] || (s[2] == r[2] && (s[1] < r[1] || (s[1] == r[1] && (s[0] < r[0])))))))
if bigger {
// r = r + q
r[0], carry = bits.Add64(r[0], 4891460686036598785, 0) r[1], carry = bits.Add64(r[1], 2896914383306846353, carry) r[2], carry = bits.Add64(r[2], 13281191951274694749, carry) r[3], _ = bits.Add64(r[3], 3486998266802970665, carry)
}
// r = r - s
r[0], borrow = bits.Sub64(r[0], s[0], 0) r[1], borrow = bits.Sub64(r[1], s[1], borrow) r[2], borrow = bits.Sub64(r[2], s[2], borrow) r[3], _ = bits.Sub64(r[3], s[3], borrow)
} uIsOne = (u[0] == 1) && (u[3]|u[2]|u[1]) == 0 vIsOne = (v[0] == 1) && (v[3]|v[2]|v[1]) == 0 }
if uIsOne { z.Set(&r) } else { z.Set(&s) }
return z }
// SetRandom sets z to a random element < q
func (z *Element) SetRandom() *Element { bytes := make([]byte, 32) io.ReadFull(rand.Reader, bytes) z[0] = binary.BigEndian.Uint64(bytes[0:8]) z[1] = binary.BigEndian.Uint64(bytes[8:16]) z[2] = binary.BigEndian.Uint64(bytes[16:24]) z[3] = binary.BigEndian.Uint64(bytes[24:32]) z[3] %= 3486998266802970665
// if z > q --> z -= q
if !(z[3] < 3486998266802970665 || (z[3] == 3486998266802970665 && (z[2] < 13281191951274694749 || (z[2] == 13281191951274694749 && (z[1] < 2896914383306846353 || (z[1] == 2896914383306846353 && (z[0] < 4891460686036598785))))))) { var b uint64 z[0], b = bits.Sub64(z[0], 4891460686036598785, 0) z[1], b = bits.Sub64(z[1], 2896914383306846353, b) z[2], b = bits.Sub64(z[2], 13281191951274694749, b) z[3], _ = bits.Sub64(z[3], 3486998266802970665, b) }
return z }
// Add z = x + y mod q
func (z *Element) Add(x, y *Element) *Element { var carry uint64
z[0], carry = bits.Add64(x[0], y[0], 0) z[1], carry = bits.Add64(x[1], y[1], carry) z[2], carry = bits.Add64(x[2], y[2], carry) z[3], _ = bits.Add64(x[3], y[3], carry)
// if z > q --> z -= q
if !(z[3] < 3486998266802970665 || (z[3] == 3486998266802970665 && (z[2] < 13281191951274694749 || (z[2] == 13281191951274694749 && (z[1] < 2896914383306846353 || (z[1] == 2896914383306846353 && (z[0] < 4891460686036598785))))))) { var b uint64 z[0], b = bits.Sub64(z[0], 4891460686036598785, 0) z[1], b = bits.Sub64(z[1], 2896914383306846353, b) z[2], b = bits.Sub64(z[2], 13281191951274694749, b) z[3], _ = bits.Sub64(z[3], 3486998266802970665, b) } return z }
// AddAssign z = z + x mod q
func (z *Element) AddAssign(x *Element) *Element { var carry uint64
z[0], carry = bits.Add64(z[0], x[0], 0) z[1], carry = bits.Add64(z[1], x[1], carry) z[2], carry = bits.Add64(z[2], x[2], carry) z[3], _ = bits.Add64(z[3], x[3], carry)
// if z > q --> z -= q
if !(z[3] < 3486998266802970665 || (z[3] == 3486998266802970665 && (z[2] < 13281191951274694749 || (z[2] == 13281191951274694749 && (z[1] < 2896914383306846353 || (z[1] == 2896914383306846353 && (z[0] < 4891460686036598785))))))) { var b uint64 z[0], b = bits.Sub64(z[0], 4891460686036598785, 0) z[1], b = bits.Sub64(z[1], 2896914383306846353, b) z[2], b = bits.Sub64(z[2], 13281191951274694749, b) z[3], _ = bits.Sub64(z[3], 3486998266802970665, b) } return z }
// Double z = x + x mod q, aka Lsh 1
func (z *Element) Double(x *Element) *Element { var carry uint64
z[0], carry = bits.Add64(x[0], x[0], 0) z[1], carry = bits.Add64(x[1], x[1], carry) z[2], carry = bits.Add64(x[2], x[2], carry) z[3], _ = bits.Add64(x[3], x[3], carry)
// if z > q --> z -= q
if !(z[3] < 3486998266802970665 || (z[3] == 3486998266802970665 && (z[2] < 13281191951274694749 || (z[2] == 13281191951274694749 && (z[1] < 2896914383306846353 || (z[1] == 2896914383306846353 && (z[0] < 4891460686036598785))))))) { var b uint64 z[0], b = bits.Sub64(z[0], 4891460686036598785, 0) z[1], b = bits.Sub64(z[1], 2896914383306846353, b) z[2], b = bits.Sub64(z[2], 13281191951274694749, b) z[3], _ = bits.Sub64(z[3], 3486998266802970665, b) } return z }
// Sub z = x - y mod q
func (z *Element) Sub(x, y *Element) *Element { var b uint64 z[0], b = bits.Sub64(x[0], y[0], 0) z[1], b = bits.Sub64(x[1], y[1], b) z[2], b = bits.Sub64(x[2], y[2], b) z[3], b = bits.Sub64(x[3], y[3], b) if b != 0 { var c uint64 z[0], c = bits.Add64(z[0], 4891460686036598785, 0) z[1], c = bits.Add64(z[1], 2896914383306846353, c) z[2], c = bits.Add64(z[2], 13281191951274694749, c) z[3], _ = bits.Add64(z[3], 3486998266802970665, c) } return z }
// SubAssign z = z - x mod q
func (z *Element) SubAssign(x *Element) *Element { var b uint64 z[0], b = bits.Sub64(z[0], x[0], 0) z[1], b = bits.Sub64(z[1], x[1], b) z[2], b = bits.Sub64(z[2], x[2], b) z[3], b = bits.Sub64(z[3], x[3], b) if b != 0 { var c uint64 z[0], c = bits.Add64(z[0], 4891460686036598785, 0) z[1], c = bits.Add64(z[1], 2896914383306846353, c) z[2], c = bits.Add64(z[2], 13281191951274694749, c) z[3], _ = bits.Add64(z[3], 3486998266802970665, c) } return z }
// Exp z = x^e mod q
func (z *Element) Exp(x Element, e uint64) *Element { if e == 0 { return z.SetOne() }
z.Set(&x)
l := bits.Len64(e) - 2 for i := l; i >= 0; i-- { z.Square(z) if e&(1<<uint(i)) != 0 { z.MulAssign(&x) } } return z }
// FromMont converts z in place (i.e. mutates) from Montgomery to regular representation
// sets and returns z = z * 1
func (z *Element) FromMont() *Element {
// the following lines implement z = z * 1
// with a modified CIOS montgomery multiplication
{ // m = z[0]n'[0] mod W
m := z[0] * 14042775128853446655 C := madd0(m, 4891460686036598785, z[0]) C, z[0] = madd2(m, 2896914383306846353, z[1], C) C, z[1] = madd2(m, 13281191951274694749, z[2], C) C, z[2] = madd2(m, 3486998266802970665, z[3], C) z[3] = C } { // m = z[0]n'[0] mod W
m := z[0] * 14042775128853446655 C := madd0(m, 4891460686036598785, z[0]) C, z[0] = madd2(m, 2896914383306846353, z[1], C) C, z[1] = madd2(m, 13281191951274694749, z[2], C) C, z[2] = madd2(m, 3486998266802970665, z[3], C) z[3] = C } { // m = z[0]n'[0] mod W
m := z[0] * 14042775128853446655 C := madd0(m, 4891460686036598785, z[0]) C, z[0] = madd2(m, 2896914383306846353, z[1], C) C, z[1] = madd2(m, 13281191951274694749, z[2], C) C, z[2] = madd2(m, 3486998266802970665, z[3], C) z[3] = C } { // m = z[0]n'[0] mod W
m := z[0] * 14042775128853446655 C := madd0(m, 4891460686036598785, z[0]) C, z[0] = madd2(m, 2896914383306846353, z[1], C) C, z[1] = madd2(m, 13281191951274694749, z[2], C) C, z[2] = madd2(m, 3486998266802970665, z[3], C) z[3] = C }
// if z > q --> z -= q
if !(z[3] < 3486998266802970665 || (z[3] == 3486998266802970665 && (z[2] < 13281191951274694749 || (z[2] == 13281191951274694749 && (z[1] < 2896914383306846353 || (z[1] == 2896914383306846353 && (z[0] < 4891460686036598785))))))) { var b uint64 z[0], b = bits.Sub64(z[0], 4891460686036598785, 0) z[1], b = bits.Sub64(z[1], 2896914383306846353, b) z[2], b = bits.Sub64(z[2], 13281191951274694749, b) z[3], _ = bits.Sub64(z[3], 3486998266802970665, b) } return z }
// ToMont converts z to Montgomery form
// sets and returns z = z * r^2
func (z *Element) ToMont() *Element { var rSquare = Element{ 1997599621687373223, 6052339484930628067, 10108755138030829701, 150537098327114917, } return z.MulAssign(&rSquare) }
// ToRegular returns z in regular form (doesn't mutate z)
func (z Element) ToRegular() Element { return *z.FromMont() }
// String returns the string form of an Element in Montgomery form
func (z *Element) String() string { var _z big.Int return z.ToBigIntRegular(&_z).String() }
// ToBigInt returns z as a big.Int in Montgomery form
func (z *Element) ToBigInt(res *big.Int) *big.Int { if bits.UintSize == 64 { bits := (*[4]big.Word)(unsafe.Pointer(z)) return res.SetBits(bits[:]) } else { var bits [8]big.Word for i := 0; i < len(z); i++ { bits[i*2] = big.Word(z[i]) bits[i*2+1] = big.Word(z[i] >> 32) } return res.SetBits(bits[:]) } }
// ToBigIntRegular returns z as a big.Int in regular form
func (z Element) ToBigIntRegular(res *big.Int) *big.Int { z.FromMont() if bits.UintSize == 64 { bits := (*[4]big.Word)(unsafe.Pointer(&z)) return res.SetBits(bits[:]) } else { var bits [8]big.Word for i := 0; i < len(z); i++ { bits[i*2] = big.Word(z[i]) bits[i*2+1] = big.Word(z[i] >> 32) } return res.SetBits(bits[:]) } }
// SetBigInt sets z to v (regular form) and returns z in Montgomery form
func (z *Element) SetBigInt(v *big.Int) *Element { z.SetZero()
zero := big.NewInt(0) q := elementModulusBigInt()
// copy input
vv := new(big.Int).Set(v)
// while v < 0, v+=q
for vv.Cmp(zero) == -1 { vv.Add(vv, q) } // while v > q, v-=q
for vv.Cmp(q) == 1 { vv.Sub(vv, q) } // if v == q, return 0
if vv.Cmp(q) == 0 { return z } // v should
vBits := vv.Bits() if bits.UintSize == 64 { for i := 0; i < len(vBits); i++ { z[i] = uint64(vBits[i]) } } else { for i := 0; i < len(vBits); i++ { if i%2 == 0 { z[i/2] = uint64(vBits[i]) } else { z[i/2] |= uint64(vBits[i]) << 32 } } } return z.ToMont() }
// SetString creates a big.Int with s (in base 10) and calls SetBigInt on z
func (z *Element) SetString(s string) *Element { x, ok := new(big.Int).SetString(s, 10) if !ok { panic("Element.SetString failed -> can't parse number in base10 into a big.Int") } return z.SetBigInt(x) }
// Mul z = x * y mod q
func (z *Element) Mul(x, y *Element) *Element {
var t [4]uint64 var c [3]uint64 { // round 0
v := x[0] c[1], c[0] = bits.Mul64(v, y[0]) m := c[0] * 14042775128853446655 c[2] = madd0(m, 4891460686036598785, c[0]) c[1], c[0] = madd1(v, y[1], c[1]) c[2], t[0] = madd2(m, 2896914383306846353, c[2], c[0]) c[1], c[0] = madd1(v, y[2], c[1]) c[2], t[1] = madd2(m, 13281191951274694749, c[2], c[0]) c[1], c[0] = madd1(v, y[3], c[1]) t[3], t[2] = madd3(m, 3486998266802970665, c[0], c[2], c[1]) } { // round 1
v := x[1] c[1], c[0] = madd1(v, y[0], t[0]) m := c[0] * 14042775128853446655 c[2] = madd0(m, 4891460686036598785, c[0]) c[1], c[0] = madd2(v, y[1], c[1], t[1]) c[2], t[0] = madd2(m, 2896914383306846353, c[2], c[0]) c[1], c[0] = madd2(v, y[2], c[1], t[2]) c[2], t[1] = madd2(m, 13281191951274694749, c[2], c[0]) c[1], c[0] = madd2(v, y[3], c[1], t[3]) t[3], t[2] = madd3(m, 3486998266802970665, c[0], c[2], c[1]) } { // round 2
v := x[2] c[1], c[0] = madd1(v, y[0], t[0]) m := c[0] * 14042775128853446655 c[2] = madd0(m, 4891460686036598785, c[0]) c[1], c[0] = madd2(v, y[1], c[1], t[1]) c[2], t[0] = madd2(m, 2896914383306846353, c[2], c[0]) c[1], c[0] = madd2(v, y[2], c[1], t[2]) c[2], t[1] = madd2(m, 13281191951274694749, c[2], c[0]) c[1], c[0] = madd2(v, y[3], c[1], t[3]) t[3], t[2] = madd3(m, 3486998266802970665, c[0], c[2], c[1]) } { // round 3
v := x[3] c[1], c[0] = madd1(v, y[0], t[0]) m := c[0] * 14042775128853446655 c[2] = madd0(m, 4891460686036598785, c[0]) c[1], c[0] = madd2(v, y[1], c[1], t[1]) c[2], z[0] = madd2(m, 2896914383306846353, c[2], c[0]) c[1], c[0] = madd2(v, y[2], c[1], t[2]) c[2], z[1] = madd2(m, 13281191951274694749, c[2], c[0]) c[1], c[0] = madd2(v, y[3], c[1], t[3]) z[3], z[2] = madd3(m, 3486998266802970665, c[0], c[2], c[1]) }
// if z > q --> z -= q
if !(z[3] < 3486998266802970665 || (z[3] == 3486998266802970665 && (z[2] < 13281191951274694749 || (z[2] == 13281191951274694749 && (z[1] < 2896914383306846353 || (z[1] == 2896914383306846353 && (z[0] < 4891460686036598785))))))) { var b uint64 z[0], b = bits.Sub64(z[0], 4891460686036598785, 0) z[1], b = bits.Sub64(z[1], 2896914383306846353, b) z[2], b = bits.Sub64(z[2], 13281191951274694749, b) z[3], _ = bits.Sub64(z[3], 3486998266802970665, b) } return z }
// MulAssign z = z * x mod q
func (z *Element) MulAssign(x *Element) *Element {
var t [4]uint64 var c [3]uint64 { // round 0
v := z[0] c[1], c[0] = bits.Mul64(v, x[0]) m := c[0] * 14042775128853446655 c[2] = madd0(m, 4891460686036598785, c[0]) c[1], c[0] = madd1(v, x[1], c[1]) c[2], t[0] = madd2(m, 2896914383306846353, c[2], c[0]) c[1], c[0] = madd1(v, x[2], c[1]) c[2], t[1] = madd2(m, 13281191951274694749, c[2], c[0]) c[1], c[0] = madd1(v, x[3], c[1]) t[3], t[2] = madd3(m, 3486998266802970665, c[0], c[2], c[1]) } { // round 1
v := z[1] c[1], c[0] = madd1(v, x[0], t[0]) m := c[0] * 14042775128853446655 c[2] = madd0(m, 4891460686036598785, c[0]) c[1], c[0] = madd2(v, x[1], c[1], t[1]) c[2], t[0] = madd2(m, 2896914383306846353, c[2], c[0]) c[1], c[0] = madd2(v, x[2], c[1], t[2]) c[2], t[1] = madd2(m, 13281191951274694749, c[2], c[0]) c[1], c[0] = madd2(v, x[3], c[1], t[3]) t[3], t[2] = madd3(m, 3486998266802970665, c[0], c[2], c[1]) } { // round 2
v := z[2] c[1], c[0] = madd1(v, x[0], t[0]) m := c[0] * 14042775128853446655 c[2] = madd0(m, 4891460686036598785, c[0]) c[1], c[0] = madd2(v, x[1], c[1], t[1]) c[2], t[0] = madd2(m, 2896914383306846353, c[2], c[0]) c[1], c[0] = madd2(v, x[2], c[1], t[2]) c[2], t[1] = madd2(m, 13281191951274694749, c[2], c[0]) c[1], c[0] = madd2(v, x[3], c[1], t[3]) t[3], t[2] = madd3(m, 3486998266802970665, c[0], c[2], c[1]) } { // round 3
v := z[3] c[1], c[0] = madd1(v, x[0], t[0]) m := c[0] * 14042775128853446655 c[2] = madd0(m, 4891460686036598785, c[0]) c[1], c[0] = madd2(v, x[1], c[1], t[1]) c[2], z[0] = madd2(m, 2896914383306846353, c[2], c[0]) c[1], c[0] = madd2(v, x[2], c[1], t[2]) c[2], z[1] = madd2(m, 13281191951274694749, c[2], c[0]) c[1], c[0] = madd2(v, x[3], c[1], t[3]) z[3], z[2] = madd3(m, 3486998266802970665, c[0], c[2], c[1]) }
// if z > q --> z -= q
if !(z[3] < 3486998266802970665 || (z[3] == 3486998266802970665 && (z[2] < 13281191951274694749 || (z[2] == 13281191951274694749 && (z[1] < 2896914383306846353 || (z[1] == 2896914383306846353 && (z[0] < 4891460686036598785))))))) { var b uint64 z[0], b = bits.Sub64(z[0], 4891460686036598785, 0) z[1], b = bits.Sub64(z[1], 2896914383306846353, b) z[2], b = bits.Sub64(z[2], 13281191951274694749, b) z[3], _ = bits.Sub64(z[3], 3486998266802970665, b) } return z }
// Square z = x * x mod q
func (z *Element) Square(x *Element) *Element {
var p [4]uint64
var u, v uint64 { // round 0
u, p[0] = bits.Mul64(x[0], x[0]) m := p[0] * 14042775128853446655 C := madd0(m, 4891460686036598785, p[0]) var t uint64 t, u, v = madd1sb(x[0], x[1], u) C, p[0] = madd2(m, 2896914383306846353, v, C) t, u, v = madd1s(x[0], x[2], t, u) C, p[1] = madd2(m, 13281191951274694749, v, C) _, u, v = madd1s(x[0], x[3], t, u) p[3], p[2] = madd3(m, 3486998266802970665, v, C, u) } { // round 1
m := p[0] * 14042775128853446655 C := madd0(m, 4891460686036598785, p[0]) u, v = madd1(x[1], x[1], p[1]) C, p[0] = madd2(m, 2896914383306846353, v, C) var t uint64 t, u, v = madd2sb(x[1], x[2], p[2], u) C, p[1] = madd2(m, 13281191951274694749, v, C) _, u, v = madd2s(x[1], x[3], p[3], t, u) p[3], p[2] = madd3(m, 3486998266802970665, v, C, u) } { // round 2
m := p[0] * 14042775128853446655 C := madd0(m, 4891460686036598785, p[0]) C, p[0] = madd2(m, 2896914383306846353, p[1], C) u, v = madd1(x[2], x[2], p[2]) C, p[1] = madd2(m, 13281191951274694749, v, C) _, u, v = madd2sb(x[2], x[3], p[3], u) p[3], p[2] = madd3(m, 3486998266802970665, v, C, u) } { // round 3
m := p[0] * 14042775128853446655 C := madd0(m, 4891460686036598785, p[0]) C, z[0] = madd2(m, 2896914383306846353, p[1], C) C, z[1] = madd2(m, 13281191951274694749, p[2], C) u, v = madd1(x[3], x[3], p[3]) z[3], z[2] = madd3(m, 3486998266802970665, v, C, u) }
// if z > q --> z -= q
if !(z[3] < 3486998266802970665 || (z[3] == 3486998266802970665 && (z[2] < 13281191951274694749 || (z[2] == 13281191951274694749 && (z[1] < 2896914383306846353 || (z[1] == 2896914383306846353 && (z[0] < 4891460686036598785))))))) { var b uint64 z[0], b = bits.Sub64(z[0], 4891460686036598785, 0) z[1], b = bits.Sub64(z[1], 2896914383306846353, b) z[2], b = bits.Sub64(z[2], 13281191951274694749, b) z[3], _ = bits.Sub64(z[3], 3486998266802970665, b) } return z }
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