2022-01-04 10:21:08 +01:00
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// Copyright (c) 2019-2022 Alexander Medvednikov. All rights reserved.
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2019-06-22 20:20:28 +02:00
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// Use of this source code is governed by an MIT license
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// that can be found in the LICENSE file.
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module math
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2021-02-27 10:18:26 +01:00
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// aprox_sin returns an approximation of sin(a) made using lolremez
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2020-05-07 07:47:24 +02:00
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pub fn aprox_sin(a f64) f64 {
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a0 := 1.91059300966915117e-31
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a1 := 1.00086760103908896
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a2 := -1.21276126894734565e-2
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a3 := -1.38078780785773762e-1
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a4 := -2.67353392911981221e-2
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a5 := 2.08026600266304389e-2
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a6 := -3.03996055049204407e-3
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a7 := 1.38235642404333740e-4
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return a0 + a * (a1 + a * (a2 + a * (a3 + a * (a4 + a * (a5 + a * (a6 + a * a7))))))
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2019-06-22 20:20:28 +02:00
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}
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2021-02-27 10:18:26 +01:00
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// aprox_cos returns an approximation of sin(a) made using lolremez
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2020-05-07 07:47:24 +02:00
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pub fn aprox_cos(a f64) f64 {
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a0 := 9.9995999154986614e-1
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a1 := 1.2548995793001028e-3
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a2 := -5.0648546280678015e-1
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a3 := 1.2942246466519995e-2
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a4 := 2.8668384702547972e-2
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a5 := 7.3726485210586547e-3
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a6 := -3.8510875386947414e-3
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a7 := 4.7196604604366623e-4
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a8 := -1.8776444013090451e-5
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return a0 + a * (a1 + a * (a2 + a * (a3 + a * (a4 + a * (a5 + a * (a6 + a * (a7 + a * a8)))))))
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2020-02-26 13:31:54 +01:00
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}
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2020-05-07 07:47:24 +02:00
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// copysign returns a value with the magnitude of x and the sign of y
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2021-05-08 13:32:18 +02:00
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[inline]
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2020-10-15 14:42:16 +02:00
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pub fn copysign(x f64, y f64) f64 {
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2020-05-07 07:47:24 +02:00
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return f64_from_bits((f64_bits(x) & ~sign_mask) | (f64_bits(y) & sign_mask))
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2019-06-23 08:19:37 +02:00
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}
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2021-09-18 11:23:31 +02:00
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// degrees converts from radians to degrees.
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2021-05-08 13:32:18 +02:00
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[inline]
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2019-07-12 07:46:40 +02:00
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pub fn degrees(radians f64) f64 {
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2019-10-12 21:31:05 +02:00
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return radians * (180.0 / pi)
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2019-07-12 07:46:40 +02:00
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}
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2022-03-14 09:41:01 +01:00
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[params]
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pub struct DigitParams {
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base int = 10
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reverse bool
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}
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// digits returns an array of the digits of `num` in the given optional `base`.
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// The `num` argument accepts any integer type (i8|i16|int|isize|i64), and will be cast to i64
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// The `base:` argument is optional, it will default to base: 10.
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// This function returns an array of the digits in reverse order i.e.:
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// Example: assert math.digits(12345, base: 10) == [5,4,3,2,1]
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// You can also use it, with an explicit `reverse: true` parameter,
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// (it will do a reverse of the result array internally => slower):
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// Example: assert math.digits(12345, reverse: true) == [1,2,3,4,5]
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pub fn digits(num i64, params DigitParams) []int {
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// set base to 10 initially and change only if base is explicitly set.
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mut b := params.base
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if b < 2 {
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panic('digits: Cannot find digits of n with base $b')
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2019-11-11 03:21:47 +01:00
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}
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2022-03-14 09:41:01 +01:00
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mut n := num
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2019-07-02 12:50:33 +02:00
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mut sign := 1
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if n < 0 {
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sign = -1
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n = -n
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}
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2022-03-14 09:41:01 +01:00
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2020-04-26 11:42:44 +02:00
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mut res := []int{}
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2022-03-14 09:41:01 +01:00
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if n == 0 {
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// short-circuit and return 0
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res << 0
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return res
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}
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2019-07-02 12:50:33 +02:00
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for n != 0 {
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2022-03-14 09:41:01 +01:00
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next_n := n / b
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res << int(n - next_n * b)
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n = next_n
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}
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if sign == -1 {
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res[res.len - 1] *= sign
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}
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if params.reverse {
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res = res.reverse()
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2019-07-02 12:50:33 +02:00
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}
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2022-03-14 09:41:01 +01:00
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2019-07-02 12:50:33 +02:00
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return res
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}
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2022-03-14 09:41:01 +01:00
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// count_digits return the number of digits in the number passed.
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// Number argument accepts any integer type (i8|i16|int|isize|i64) and will be cast to i64
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pub fn count_digits(number i64) int {
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mut n := number
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if n == 0 {
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return 1
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}
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mut c := 0
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for n != 0 {
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n = n / 10
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c++
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}
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return c
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}
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2021-08-22 23:35:28 +02:00
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// minmax returns the minimum and maximum value of the two provided.
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pub fn minmax(a f64, b f64) (f64, f64) {
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if a < b {
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return a, b
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}
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return b, a
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}
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2021-10-17 05:42:40 +02:00
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// clamp returns x constrained between a and b
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[inline]
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pub fn clamp(x f64, a f64, b f64) f64 {
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if x < a {
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return a
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}
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if x > b {
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return b
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}
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return x
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}
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2021-05-08 13:32:18 +02:00
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// sign returns the corresponding sign -1.0, 1.0 of the provided number.
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// if n is not a number, its sign is nan too.
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[inline]
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pub fn sign(n f64) f64 {
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if is_nan(n) {
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return nan()
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}
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return copysign(1.0, n)
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}
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// signi returns the corresponding sign -1.0, 1.0 of the provided number.
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[inline]
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pub fn signi(n f64) int {
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return int(copysign(1.0, n))
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}
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2021-09-18 11:23:31 +02:00
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// radians converts from degrees to radians.
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2021-05-08 13:32:18 +02:00
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[inline]
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2019-06-26 17:49:50 +02:00
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pub fn radians(degrees f64) f64 {
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2019-10-12 21:31:05 +02:00
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return degrees * (pi / 180.0)
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2019-06-22 20:20:28 +02:00
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}
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2021-03-13 08:05:02 +01:00
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// signbit returns a value with the boolean representation of the sign for x
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2021-05-08 13:32:18 +02:00
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[inline]
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2021-03-13 08:05:02 +01:00
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pub fn signbit(x f64) bool {
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return f64_bits(x) & sign_mask != 0
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}
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2021-08-14 07:48:25 +02:00
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2022-05-20 07:45:54 +02:00
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// tolerance checks if a and b difference are less than or equal to the tolerance value
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2021-08-14 07:48:25 +02:00
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pub fn tolerance(a f64, b f64, tol f64) bool {
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mut ee := tol
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// Multiplying by ee here can underflow denormal values to zero.
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// Check a==b so that at least if a and b are small and identical
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// we say they match.
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if a == b {
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return true
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}
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mut d := a - b
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if d < 0 {
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d = -d
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}
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// note: b is correct (expected) value, a is actual value.
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// make error tolerance a fraction of b, not a.
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if b != 0 {
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ee = ee * b
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if ee < 0 {
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ee = -ee
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}
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}
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return d < ee
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}
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2022-05-20 07:45:54 +02:00
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// close checks if a and b are within 1e-14 of each other
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2021-08-14 07:48:25 +02:00
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pub fn close(a f64, b f64) bool {
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return tolerance(a, b, 1e-14)
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}
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2022-05-20 07:45:54 +02:00
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// veryclose checks if a and b are within 4e-16 of each other
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2021-08-14 07:48:25 +02:00
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pub fn veryclose(a f64, b f64) bool {
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return tolerance(a, b, 4e-16)
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}
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2022-05-20 07:45:54 +02:00
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// alike checks if a and b are equal
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2021-08-14 07:48:25 +02:00
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pub fn alike(a f64, b f64) bool {
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if is_nan(a) && is_nan(b) {
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return true
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} else if a == b {
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return signbit(a) == signbit(b)
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}
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return false
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}
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2021-08-22 23:35:28 +02:00
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fn is_odd_int(x f64) bool {
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xi, xf := modf(x)
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return xf == 0 && (i64(xi) & 1) == 1
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}
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fn is_neg_int(x f64) bool {
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if x < 0 {
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_, xf := modf(x)
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return xf == 0
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}
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return false
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}
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