v/vlib/rand/random_numbers_test.v

import rand

const (
	rnd_count = 40
	seeds     = [42, 256]
)

fn test_rand_reproducibility() {
	for seed in seeds {
		mut randoms1 := gen_randoms(seed)
		mut randoms2 := gen_randoms(seed)
		assert_randoms_equal(randoms1, randoms2)
	}
}

fn test_rand_r_reproducibility() {
	for seed in seeds {
		mut randoms1 := gen_randoms_r(seed)
		mut randoms2 := gen_randoms_r(seed)
		assert_randoms_equal(randoms1, randoms2)
	}
}

fn test_rand_r_seed_update() {
	seed := 10
	for _ in 0 .. rnd_count {
		prev_seed := seed
		_ := rand.rand_r(&seed)
		assert prev_seed != seed
	}
}

fn gen_randoms(seed int) []int {
	mut randoms := [0].repeat(rnd_count)
	rand.seed(seed)
	for i in 0 .. rnd_count {
		randoms[i] = rand.next(100)
	}
	return randoms
}

fn gen_randoms_r(seed int) []int {
	mut randoms := [0].repeat(rnd_count)
	for i in 0 .. rnd_count {
		randoms[i] = rand.rand_r(&seed)
	}
	return randoms
}

fn assert_randoms_equal(r1, r2 []int) {
	for i in 0 .. rnd_count {
		assert r1[i] == r2[i]
	}
}

fn test_rand_f32() {
	for seed in seeds {
		rand.seed(seed)
		for _ in 0 .. rnd_count {
			res := rand.rand_f32(100.0)
			assert res >= 0.0
			assert res < 100.0
		}
	}
}

fn test_rand_f32_in_range() {
	for seed in seeds {
		rand.seed(seed)
		for _ in 0 .. rnd_count {
			res := rand.rand_f32_in_range(1.0, 2048.0)
			assert res >= 1.0
			assert res < 2048.0
		}
	}
}

fn test_rand_f64() {
	for seed in seeds {
		rand.seed(seed)
		for _ in 0 .. rnd_count {
			res := rand.rand_f64(100.0)
			assert res >= 0.0
			assert res < 100.0
		}
	}
}

fn test_rand_f64_in_range() {
	for seed in seeds {
		rand.seed(seed)
		for _ in 0 .. rnd_count {
			res := rand.rand_f64_in_range(1.0, 2048.0)
			assert res >= 1.0
			assert res < 2048.0
		}
	}
}

fn test_rand_uniform_f32() {
	for seed in seeds {
		rand.seed(seed)
		for _ in 0 .. rnd_count {
			res := rand.rand_uniform_f32()
			assert res >= 0.0
			assert res < 1.0
		}
	}
}

fn test_rand_uniform_f64() {
	for seed in seeds {
		rand.seed(seed)
		for _ in 0 .. rnd_count {
			res := rand.rand_uniform_f64()
			assert res >= 0.0
			assert res < 1.0
		}
	}
}
rand: change rand.seed() to receive seed value 2019-07-13 18:17:45 +02:00			`import rand`

rand: update module 2020-04-03 08:53:57 +02:00			`const (`
rand: refactor rand.v and random_numbers_test.v 2020-05-28 01:16:17 +02:00			`rnd_count = 40`
			`seeds = [42, 256]`
rand: update module 2020-04-03 08:53:57 +02:00			`)`

			`fn test_rand_reproducibility() {`
			`for seed in seeds {`
			`mut randoms1 := gen_randoms(seed)`
			`mut randoms2 := gen_randoms(seed)`
			`assert_randoms_equal(randoms1, randoms2)`
rand: change rand.seed() to receive seed value 2019-07-13 18:17:45 +02:00			`}`
			`}`

rand: update module 2020-04-03 08:53:57 +02:00			`fn test_rand_r_reproducibility() {`
			`for seed in seeds {`
			`mut randoms1 := gen_randoms_r(seed)`
			`mut randoms2 := gen_randoms_r(seed)`
			`assert_randoms_equal(randoms1, randoms2)`
rand: change rand.seed() to receive seed value 2019-07-13 18:17:45 +02:00			`}`
rand: update module 2020-04-03 08:53:57 +02:00			`}`

			`fn test_rand_r_seed_update() {`
			`seed := 10`
rand: refactor rand.v and random_numbers_test.v 2020-05-28 01:16:17 +02:00			`for _ in 0 .. rnd_count {`
rand: update module 2020-04-03 08:53:57 +02:00			`prev_seed := seed`
checker: check array and fields mutability 2020-04-27 22:53:26 +02:00			`_ := rand.rand_r(&seed)`
rand: update module 2020-04-03 08:53:57 +02:00			`assert prev_seed != seed`
rand: change rand.seed() to receive seed value 2019-07-13 18:17:45 +02:00			`}`
			`}`
rand: rand_r(seed) 2019-09-16 21:21:21 +02:00
rand: update module 2020-04-03 08:53:57 +02:00			`fn gen_randoms(seed int) []int {`
			`mut randoms := [0].repeat(rnd_count)`
			`rand.seed(seed)`
rand: refactor rand.v and random_numbers_test.v 2020-05-28 01:16:17 +02:00			`for i in 0 .. rnd_count {`
rand: update module 2020-04-03 08:53:57 +02:00			`randoms[i] = rand.next(100)`
rand: rand_r(seed) 2019-09-16 21:21:21 +02:00			`}`
			`return randoms`
			`}`

rand: update module 2020-04-03 08:53:57 +02:00			`fn gen_randoms_r(seed int) []int {`
			`mut randoms := [0].repeat(rnd_count)`
rand: refactor rand.v and random_numbers_test.v 2020-05-28 01:16:17 +02:00			`for i in 0 .. rnd_count {`
rand: update module 2020-04-03 08:53:57 +02:00			`randoms[i] = rand.rand_r(&seed)`
rand: rand_r(seed) 2019-09-16 21:21:21 +02:00			`}`
rand: update module 2020-04-03 08:53:57 +02:00			`return randoms`
			`}`
rand: rand_r(seed) 2019-09-16 21:21:21 +02:00
rand: update module 2020-04-03 08:53:57 +02:00			`fn assert_randoms_equal(r1, r2 []int) {`
rand: refactor rand.v and random_numbers_test.v 2020-05-28 01:16:17 +02:00			`for i in 0 .. rnd_count {`
rand: update module 2020-04-03 08:53:57 +02:00			`assert r1[i] == r2[i]`
rand: rand_r(seed) 2019-09-16 21:21:21 +02:00			`}`
			`}`
rand: add random functions for f32 and f64, [0,max] and [min,max] versions 2020-05-27 15:41:37 +02:00
			`fn test_rand_f32() {`
rand: refactor rand.v and random_numbers_test.v 2020-05-28 01:16:17 +02:00			`for seed in seeds {`
			`rand.seed(seed)`
			`for _ in 0 .. rnd_count {`
			`res := rand.rand_f32(100.0)`
			`assert res >= 0.0`
			`assert res < 100.0`
			`}`
rand: add random functions for f32 and f64, [0,max] and [min,max] versions 2020-05-27 15:41:37 +02:00			`}`
			`}`

			`fn test_rand_f32_in_range() {`
rand: refactor rand.v and random_numbers_test.v 2020-05-28 01:16:17 +02:00			`for seed in seeds {`
			`rand.seed(seed)`
			`for _ in 0 .. rnd_count {`
			`res := rand.rand_f32_in_range(1.0, 2048.0)`
			`assert res >= 1.0`
			`assert res < 2048.0`
			`}`
rand: add random functions for f32 and f64, [0,max] and [min,max] versions 2020-05-27 15:41:37 +02:00			`}`
			`}`

			`fn test_rand_f64() {`
rand: refactor rand.v and random_numbers_test.v 2020-05-28 01:16:17 +02:00			`for seed in seeds {`
			`rand.seed(seed)`
			`for _ in 0 .. rnd_count {`
			`res := rand.rand_f64(100.0)`
			`assert res >= 0.0`
			`assert res < 100.0`
			`}`
rand: add random functions for f32 and f64, [0,max] and [min,max] versions 2020-05-27 15:41:37 +02:00			`}`
			`}`

			`fn test_rand_f64_in_range() {`
rand: refactor rand.v and random_numbers_test.v 2020-05-28 01:16:17 +02:00			`for seed in seeds {`
			`rand.seed(seed)`
			`for _ in 0 .. rnd_count {`
			`res := rand.rand_f64_in_range(1.0, 2048.0)`
			`assert res >= 1.0`
			`assert res < 2048.0`
			`}`
			`}`
			`}`
rand: add random functions for f32 and f64, [0,max] and [min,max] versions 2020-05-27 15:41:37 +02:00
rand: refactor rand.v and random_numbers_test.v 2020-05-28 01:16:17 +02:00			`fn test_rand_uniform_f32() {`
			`for seed in seeds {`
			`rand.seed(seed)`
			`for _ in 0 .. rnd_count {`
			`res := rand.rand_uniform_f32()`
			`assert res >= 0.0`
			`assert res < 1.0`
			`}`
			`}`
			`}`
rand: add random functions for f32 and f64, [0,max] and [min,max] versions 2020-05-27 15:41:37 +02:00
rand: refactor rand.v and random_numbers_test.v 2020-05-28 01:16:17 +02:00			`fn test_rand_uniform_f64() {`
			`for seed in seeds {`
			`rand.seed(seed)`
			`for _ in 0 .. rnd_count {`
			`res := rand.rand_uniform_f64()`
			`assert res >= 0.0`
			`assert res < 1.0`
			`}`
rand: add random functions for f32 and f64, [0,max] and [min,max] versions 2020-05-27 15:41:37 +02:00			`}`
			`}`