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196 lines
4.6 KiB
V
196 lines
4.6 KiB
V
module bignum
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// Wrapper for https://github.com/kokke/tiny-bignum-c
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#flag -I @VROOT/thirdparty/bignum
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#flag @VROOT/thirdparty/bignum/bn.o
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#include "bn.h"
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const (
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STRING_BUFFER_SIZE = 8192
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)
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pub struct Number {
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array [32]u32
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}
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fn C.bignum_init( n &Number )
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fn C.bignum_from_int( n &Number, i u64 )
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fn C.bignum_to_int( n &Number ) int
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fn C.bignum_from_string( n &Number, s byteptr, nbytes int)
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fn C.bignum_to_string( n &Number, s byteptr, maxsize int)
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fn C.bignum_add( a &Number, b &Number, c &Number) // c = a + b
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fn C.bignum_sub( a &Number, b &Number, c &Number) // c = a - b
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fn C.bignum_mul( a &Number, b &Number, c &Number) // c = a * b
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fn C.bignum_div( a &Number, b &Number, c &Number) // c = a / b
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fn C.bignum_mod( a &Number, b &Number, c &Number) // c = a % b
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fn C.bignum_divmod( a &Number, b &Number, c &Number, d &Number) // c = a/b d=a%b
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fn C.bignum_and( a &Number, b &Number, c &Number) // c = a & b
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fn C.bignum_or( a &Number, b &Number, c &Number) // c = a | b
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fn C.bignum_xor( a &Number, b &Number, c &Number) // c = a xor b
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fn C.bignum_lshift( a &Number, b &Number, nbits int) // b = a << nbits
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fn C.bignum_rshift( a &Number, b &Number, nbits int) // b = a >> nbits
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fn C.bignum_cmp( a &Number, b &Number) int
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fn C.bignum_is_zero( a &Number) int
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fn C.bignum_inc(n &Number)
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fn C.bignum_dec(n &Number)
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fn C.bignum_pow( a &Number, b &Number, c &Number) // c = a ^ b
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fn C.bignum_isqrt( a &Number, b &Number) // b = integer_square_root_of(a)
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fn C.bignum_assign( dst &Number, src &Number) // copy src number to dst number
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////////////////////////////////////////////////////////////
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// conversion actions to/from big numbers:
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pub fn new_bignum() Number {
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return Number{}
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}
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pub fn from_int(i int) Number {
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n := Number{}
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C.bignum_from_int( &n, i)
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return n
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}
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pub fn from_u64(u u64) Number {
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n := Number{}
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C.bignum_from_int( &n, u)
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return n
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}
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pub fn from_string(s string) Number {
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n := Number{}
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C.bignum_from_string(&n, s.str, s.len)
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return n
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}
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pub fn (n Number) int() int {
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r := C.bignum_to_int(&n)
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return r
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}
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pub fn (n Number) str() string {
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// TODO: return a decimal representation of the bignumber n.
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// A decimal representation will be easier to use in the repl
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// but will be slower to calculate. Also, it is not implemented
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// in the bn library.
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return 'Number (in hex): ' + n.hexstr()
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}
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pub fn (n Number) hexstr() string {
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mut buf := [STRING_BUFFER_SIZE]byte
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C.bignum_to_string( &n, buf, STRING_BUFFER_SIZE)
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// NB: bignum_to_string , returns the HEXADECIMAL representation of the bignum n
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s := tos_clone( buf )
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if s.len == 0 { return '0' }
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return s
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}
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////////////////////////////////////////////////////////////
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// overloaded ops for the numbers:
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pub fn (a Number) + (b Number) Number {
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c := Number{}
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C.bignum_add(&a, &b, &c)
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return c
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}
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pub fn (a Number) - (b Number) Number {
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c := Number{}
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C.bignum_sub(&a, &b, &c)
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return c
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}
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pub fn (a Number) * (b Number) Number {
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c := Number{}
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C.bignum_mul(&a, &b, &c)
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return c
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}
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pub fn (a Number) / (b Number) Number {
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c := Number{}
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C.bignum_div(&a, &b, &c)
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return c
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}
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pub fn (a Number) % (b Number) Number {
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c := Number{}
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C.bignum_mod(&a, &b, &c)
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return c
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}
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pub fn divmod( a &Number, b &Number, c &Number) Number {
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d := Number{}
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C.bignum_divmod( a, b, c, &d)
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return d
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}
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////////////////////////////////////////////////////////////
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pub fn cmp(a Number, b Number) int {
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return C.bignum_cmp(&a,&b)
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}
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pub fn (a Number) is_zero() bool {
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return int(C.bignum_is_zero(&a)) != 0
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}
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pub fn (a mut Number) inc() {
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C.bignum_inc(a)
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}
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pub fn (a mut Number) dec() {
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C.bignum_dec(a)
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}
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pub fn pow(a Number, b Number) Number {
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c := Number{}
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C.bignum_pow(&a,&b,&c)
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return c
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}
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pub fn (a Number) isqrt() Number {
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b := Number{}
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C.bignum_isqrt(&a,&b)
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return b
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}
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////////////////////////////////////////////////////////////
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pub fn b_and(a Number, b Number) Number {
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c := Number{}
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C.bignum_and(&a,&b,&c)
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return c
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}
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pub fn b_or(a Number, b Number) Number {
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c := Number{}
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C.bignum_or(&a,&b,&c)
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return c
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}
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pub fn b_xor(a Number, b Number) Number {
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c := Number{}
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C.bignum_xor(&a,&b,&c)
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return c
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}
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pub fn (a Number) lshift(nbits int) Number {
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b := Number{}
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C.bignum_lshift(&a,&b,nbits)
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return b
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}
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pub fn (a Number) rshift(nbits int) Number {
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b := Number{}
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C.bignum_rshift(&a,&b,nbits)
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return b
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}
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pub fn (a Number) clone() Number {
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b := Number{}
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C.bignum_assign(&b,&a)
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return b
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}
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////////////////////////////////////////////////////////////
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pub fn factorial(nn bignum.Number) bignum.Number {
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mut n := nn.clone()
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mut a := nn.clone()
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n.dec()
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mut i:=1
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for !n.is_zero() {
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res := a * n
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n.dec()
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a = res
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i++
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}
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return a
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}
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pub fn fact(n int) bignum.Number {
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return factorial( bignum.from_int(n) )
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}
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