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88 lines
1.6 KiB
V
88 lines
1.6 KiB
V
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module math
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// Floating-point mod function.
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// mod returns the floating-point remainder of x/y.
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// The magnitude of the result is less than y and its
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// sign agrees with that of x.
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//
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// special cases are:
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// mod(±inf, y) = nan
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// mod(nan, y) = nan
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// mod(x, 0) = nan
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// mod(x, ±inf) = x
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// mod(x, nan) = nan
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pub fn mod(x f64, y f64) f64 {
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return fmod(x, y)
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}
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// fmod returns the floating-point remainder of number / denom (rounded towards zero)
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pub fn fmod(x f64, y f64) f64 {
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if y == 0 || is_inf(x, 0) || is_nan(x) || is_nan(y) {
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return nan()
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}
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abs_y := abs(y)
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abs_y_fr, abs_y_exp := frexp(abs_y)
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mut r := x
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if x < 0 {
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r = -x
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}
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for r >= abs_y {
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rfr, mut rexp := frexp(r)
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if rfr < abs_y_fr {
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rexp = rexp - 1
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}
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r = r - ldexp(abs_y, rexp - abs_y_exp)
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}
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if x < 0 {
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r = -r
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}
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return r
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}
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// gcd calculates greatest common (positive) divisor (or zero if a and b are both zero).
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pub fn gcd(a_ i64, b_ i64) i64 {
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mut a := a_
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mut b := b_
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if a < 0 {
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a = -a
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}
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if b < 0 {
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b = -b
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}
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for b != 0 {
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a %= b
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if a == 0 {
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return b
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}
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b %= a
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}
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return a
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}
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// egcd returns (gcd(a, b), x, y) such that |a*x + b*y| = gcd(a, b)
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pub fn egcd(a i64, b i64) (i64, i64, i64) {
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mut old_r, mut r := a, b
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mut old_s, mut s := i64(1), i64(0)
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mut old_t, mut t := i64(0), i64(1)
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for r != 0 {
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quot := old_r / r
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old_r, r = r, old_r % r
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old_s, s = s, old_s - quot * s
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old_t, t = t, old_t - quot * t
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}
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return if old_r < 0 { -old_r } else { old_r }, old_s, old_t
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}
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// lcm calculates least common (non-negative) multiple.
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pub fn lcm(a i64, b i64) i64 {
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if a == 0 {
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return a
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}
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res := a * (b / gcd(b, a))
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if res < 0 {
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return -res
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}
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return res
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}
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