mirror of
https://github.com/vlang/v.git
synced 2023-08-10 21:13:21 +03:00
377 lines
8.1 KiB
V
377 lines
8.1 KiB
V
module unsigned
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import math.bits
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pub const (
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uint256_zero = Uint256{Uint128{}, Uint128{}}
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uint256_max = Uint256{uint128_max, uint128_max}
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)
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// Uint256 is an unsigned 256-bit number
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pub struct Uint256 {
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pub mut:
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lo Uint128 = uint128_zero // lower 128 bit half
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hi Uint128 = uint128_zero // upper 128 bit half
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}
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pub fn uint256_from_128(v Uint128) Uint256 {
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return Uint256{v, uint128_zero}
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}
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pub fn uint256_from_64(v u64) Uint256 {
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return uint256_from_128(uint128_from_64(v))
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}
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pub fn (u Uint256) is_zero() bool {
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return u.lo.is_zero() && u.hi.is_zero()
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}
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pub fn (u Uint256) equals(v Uint256) bool {
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return u.lo.equals(v.lo) && u.hi.equals(v.hi)
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}
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pub fn (u Uint256) euqals_128(v Uint128) bool {
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return u.lo.equals(v) && u.hi.is_zero()
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}
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pub fn (u Uint256) cmp(v Uint256) int {
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h := u.hi.cmp(v.hi)
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if h != 0 {
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return h
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}
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return u.lo.cmp(v.lo)
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}
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pub fn (u Uint256) cmp_128(v Uint128) int {
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if !u.hi.is_zero() {
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return 1
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}
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return u.lo.cmp(v)
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}
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pub fn (u Uint256) not() Uint256 {
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return Uint256{u.lo.not(), u.hi.not()}
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}
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pub fn (u Uint256) and(v Uint256) Uint256 {
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return Uint256{u.lo.and(v.lo), u.hi.and(v.hi)}
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}
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pub fn (u Uint256) and_128(v Uint128) Uint256 {
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return Uint256{u.lo.and(v), uint128_zero}
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}
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pub fn (u Uint256) or_(v Uint256) Uint256 {
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return Uint256{u.lo.or_(v.lo), u.hi.or_(v.hi)}
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}
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pub fn (u Uint256) or_128(v Uint128) Uint256 {
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return Uint256{u.lo.or_(v), u.hi}
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}
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pub fn (u Uint256) xor(v Uint256) Uint256 {
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return Uint256{u.lo.xor(v.lo), u.hi.xor(v.hi)}
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}
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pub fn (u Uint256) xor_128(v Uint128) Uint256 {
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return Uint256{u.lo.xor(v), u.hi}
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}
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pub fn add_256(x Uint256, y Uint256, carry u64) (Uint256, u64) {
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mut sum := Uint256{}
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mut carry_out := u64(0)
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sum.lo, carry_out = add_128(x.lo, y.lo, carry)
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sum.hi, carry_out = add_128(x.hi, y.hi, carry_out)
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return sum, carry_out
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}
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pub fn sub_256(x Uint256, y Uint256, borrow u64) (Uint256, u64) {
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mut diff := Uint256{}
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mut borrow_out := u64(0)
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diff.lo, borrow_out = sub_128(x.lo, y.lo, borrow)
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diff.hi, borrow_out = sub_128(x.hi, y.hi, borrow_out)
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return diff, borrow_out
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}
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pub fn mul_256(x Uint256, y Uint256) (Uint256, Uint256) {
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mut hi := Uint256{}
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mut lo := Uint256{}
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lo.hi, lo.lo = mul_128(x.lo, y.lo)
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hi.hi, hi.lo = mul_128(x.hi, y.hi)
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t0, t1 := mul_128(x.lo, y.hi)
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t2, t3 := mul_128(x.hi, y.lo)
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mut c0 := u64(0)
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mut c1 := u64(0)
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lo.hi, c0 = add_128(lo.hi, t1, 0)
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lo.hi, c1 = add_128(lo.hi, t3, 0)
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hi.lo, c0 = add_128(hi.lo, t0, c0)
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hi.lo, c1 = add_128(hi.lo, t2, c1)
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hi.hi = hi.hi.add_64(c0 + c1)
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return hi, lo
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}
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pub fn (u Uint256) add(v Uint256) Uint256 {
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sum, _ := add_256(u, v, 0)
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return sum
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}
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pub fn (u Uint256) overflowing_add(v Uint256) (Uint256, u64) {
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sum, overflow := add_256(u, v, 0)
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return sum, overflow
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}
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pub fn (u Uint256) add_128(v Uint128) Uint256 {
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lo, c0 := add_128(u.lo, v, 0)
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return Uint256{lo, u.hi.add_64(c0)}
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}
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pub fn (u Uint256) sub(v Uint256) Uint256 {
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diff, _ := sub_256(u, v, 0)
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return diff
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}
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pub fn (u Uint256) sub_128(v Uint128) Uint256 {
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lo, b0 := sub_128(u.lo, v, 0)
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return Uint256{lo, u.hi.sub_64(b0)}
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}
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pub fn (u Uint256) mul(v Uint256) Uint256 {
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mut hi, mut lo := mul_128(u.lo, v.lo)
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hi = hi.add(u.hi.mul(v.lo))
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hi = hi.add(u.lo.mul(v.hi))
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return Uint256{lo, hi}
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}
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pub fn (u Uint256) mul_128(v Uint128) Uint256 {
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hi, lo := mul_128(u.lo, v)
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return Uint256{lo, hi.add(u.hi.mul(v))}
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}
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pub fn (u Uint256) quo_rem(v Uint256) (Uint256, Uint256) {
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if v.hi.is_zero() {
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q, r := u.quo_rem_128(v.lo)
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return q, uint256_from_128(r)
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}
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n := u64(v.hi.leading_zeros())
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u1, v1 := u.rsh(1), v.lsh(u32(n))
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mut tq, _ := div_128(u1.hi, u1.lo, v1.hi)
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tq = tq.rsh(u32(127 - n))
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if !tq.is_zero() {
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tq = tq.sub_64(1)
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}
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mut q, mut r := uint256_from_128(tq), u.sub(v.mul_128(tq))
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if r.cmp(v) >= 0 {
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q = q.add_128(Uint128{1, 0})
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r = r.sub(v)
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}
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return q, r
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}
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pub fn (u Uint256) quo_rem_128(v Uint128) (Uint256, Uint128) {
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if u.hi.cmp(v) < 0 {
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lo, r := div_128(u.hi, u.lo, v)
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return Uint256{lo, uint128_zero}, r
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}
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hi, r := div_128(uint128_zero, u.hi, v)
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lo, r2 := div_128(r, u.lo, v)
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return Uint256{lo, hi}, r2
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}
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pub fn (u Uint256) quo_rem_64(v u64) (Uint256, u64) {
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mut q := Uint256{}
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mut r := u64(0)
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q.lo.hi, r = bits.div_64(r, u.lo.hi, v)
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q.lo.lo, r = bits.div_64(r, u.lo.lo, v)
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return q, r
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}
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pub fn (u Uint256) rsh(n_ u32) Uint256 {
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mut n := n_
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if n > 128 {
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return Uint256{u.hi.rsh(n - 128), uint128_zero}
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}
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if n > 64 {
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n -= 64
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return Uint256{Uint128{u.lo.hi >> n | u.hi.lo << (64 - n), u.hi.lo >> n | u.hi.hi << (64 - n)}, Uint128{u.hi.hi >> n, 0}}
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}
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return Uint256{Uint128{u.lo.lo >> n | u.lo.hi << (64 - n), u.lo.hi >> n | u.hi.lo << (64 - n)}, Uint128{u.hi.lo >> n | u.hi.hi << (64 - n), u.hi.hi >> n}}
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}
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pub fn (u Uint256) lsh(n_ u32) Uint256 {
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mut n := n_
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if n > 128 {
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return Uint256{u.lo.lsh(n - 128), uint128_zero}
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}
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if n > 64 {
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n -= 64
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return Uint256{Uint128{u.lo.lo << n, 0}, Uint128{u.lo.hi << n | u.lo.lo >> (64 - n), u.hi.lo << n | u.lo.hi >> (64 - n)}}
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}
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return Uint256{Uint128{u.lo.lo << n, u.lo.hi << n | u.lo.lo >> (64 - n)}, Uint128{u.hi.lo << n | u.lo.hi >> (64 - n), u.hi.hi << n | u.hi.lo >> (64 - n)}}
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}
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pub fn (u Uint256) div(v Uint256) Uint256 {
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q, _ := u.quo_rem(v)
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return q
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}
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pub fn (u Uint256) div_128(v Uint128) Uint256 {
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q, _ := u.quo_rem_128(v)
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return q
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}
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pub fn (u Uint256) div_64(v u64) Uint256 {
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q, _ := u.quo_rem_64(v)
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return q
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}
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pub fn (u Uint256) mod(v Uint256) Uint256 {
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_, r := u.quo_rem(v)
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return r
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}
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pub fn (u Uint256) mod_128(v Uint128) Uint128 {
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_, r := u.quo_rem_128(v)
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return r
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}
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pub fn (u Uint256) mod_64(v u64) u64 {
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_, r := u.quo_rem_64(v)
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return r
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}
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pub fn (u Uint256) rotate_left(k int) Uint256 {
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mut n := u32(k) & 255
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if n < 64 {
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if n == 0 {
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return u
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}
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return Uint256{Uint128{u.lo.lo << n | u.hi.hi >> (64 - n), u.lo.hi << n | u.lo.lo >> (64 - n)}, Uint128{u.hi.lo << n | u.lo.hi >> (64 - n), u.hi.hi << n | u.hi.lo >> (64 - n)}}
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}
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n -= 64
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if n < 64 {
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if n == 0 {
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return Uint256{Uint128{u.hi.hi, u.lo.lo}, Uint128{u.lo.hi, u.hi.lo}}
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}
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return Uint256{Uint128{u.hi.hi << n | u.hi.lo >> (64 - n), u.lo.lo << n | u.hi.hi >> (64 - n)}, Uint128{u.lo.hi << n | u.lo.lo >> (64 - n), u.hi.lo << n | u.lo.hi >> (64 - n)}}
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}
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n -= 64
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if n < 64 {
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if n == 0 {
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return Uint256{u.hi, u.lo}
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}
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return Uint256{Uint128{u.hi.lo << n | u.lo.hi >> (64 - n), u.hi.hi << n | u.hi.lo >> (64 - n)}, Uint128{}}
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}
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n -= 64
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if n == 0 {
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return Uint256{Uint128{u.lo.hi, u.hi.lo}, Uint128{u.hi.hi, u.lo.lo}}
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}
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return Uint256{Uint128{u.lo.hi << n | u.lo.lo >> (64 - n), u.hi.lo << n | u.lo.hi >> (64 - n)}, Uint128{u.hi.hi << n | u.hi.lo >> (64 - n), u.lo.lo << n | u.hi.hi >> (64 - n)}}
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}
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pub fn (u Uint256) rotate_right(k int) Uint256 {
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return u.rotate_left(-k)
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}
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pub fn (u Uint256) len() int {
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if !u.hi.is_zero() {
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return 128 + u.hi.len()
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}
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return u.lo.len()
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}
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pub fn (u Uint256) leading_zeros() int {
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if !u.hi.is_zero() {
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return u.hi.leading_zeros()
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}
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return 128 + u.lo.leading_zeros()
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}
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pub fn (u Uint256) trailing_zeros() int {
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if !u.lo.is_zero() {
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return u.lo.trailing_zeros()
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}
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return 128 + u.hi.trailing_zeros()
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}
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pub fn (u Uint256) ones_count() int {
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return u.lo.ones_count() + u.hi.ones_count()
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}
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pub fn (u_ Uint256) str() string {
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mut u := u_
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if u.hi.is_zero() {
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if u.lo.is_zero() {
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return '0'
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}
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return u.lo.str()
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}
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mut buf := '000000000000000000000000000000000000000000000000000000000000000000000000000000'.bytes()
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for i := buf.len; true; i -= 19 {
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q, mut r := u.quo_rem_64(u64(1e19))
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mut n := 0
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for ; r != 0; r /= 10 {
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n++
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buf[i - n] += byte(r % 10)
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}
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if q.is_zero() {
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return buf[i - n..].bytestr()
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}
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u = q
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}
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return ''
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}
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pub fn uint256_from_dec_str(value string) ?Uint256 {
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mut res := unsigned.uint256_zero
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for b_ in value.bytes() {
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b := b_ - '0'.bytes()[0]
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if b > 9 {
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return error('invalid character "$b"')
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}
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r := res.mul_128(uint128_from_64(10))
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r2 := r.add_128(uint128_from_64(u64(b)))
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res = r2
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}
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return res
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}
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pub fn (u Uint256) / (v Uint256) Uint256 {
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return u.div(v)
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}
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pub fn (u Uint256) % (v Uint256) Uint256 {
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return u.mod(v)
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}
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pub fn (u Uint256) + (v Uint256) Uint256 {
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return u.add(v)
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}
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pub fn (u Uint256) - (v Uint256) Uint256 {
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return u.sub(v)
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}
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pub fn (u Uint256) * (v Uint256) Uint256 {
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return u.mul(v)
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}
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