import rand const ( rnd_count = 40 seeds = [[u32(42), 0], [u32(256), 0]] ) fn get_n_random_ints(seed_data []u32, n int) []int { mut values := []int{cap: n} rand.seed(seed_data) for _ in 0 .. n { values << rand.intn(n) } return values } fn test_rand_reproducibility() { for seed in seeds { array1 := get_n_random_ints(seed, 1000) array2 := get_n_random_ints(seed, 1000) assert array1.len == array2.len assert array1 == array2 } } fn test_rand_u32n() { max := u32(16384) for _ in 0 .. rnd_count { value := rand.u32n(max) assert value >= 0 assert value < max } } fn test_rand_u64n() { max := u64(379091181005) for _ in 0 .. rnd_count { value := rand.u64n(max) assert value >= 0 assert value < max } } fn test_rand_u32_in_range() { max := u32(484468466) min := u32(316846) for _ in 0 .. rnd_count { value := rand.u32_in_range(min, max) assert value >= min assert value < max } } fn test_rand_u64_in_range() { max := u64(216468454685163) min := u64(6848646868) for _ in 0 .. rnd_count { value := rand.u64_in_range(min, max) assert value >= min assert value < max } } fn test_rand_intn() { max := 2525642 for _ in 0 .. rnd_count { value := rand.intn(max) assert value >= 0 assert value < max } } fn test_rand_i64n() { max := i64(3246727724653636) for _ in 0 .. rnd_count { value := rand.i64n(max) assert value >= 0 assert value < max } } fn test_rand_int_in_range() { min := -4252 max := 23054962 for _ in 0 .. rnd_count { value := rand.int_in_range(min, max) assert value >= min assert value < max } } fn test_rand_i64_in_range() { min := i64(-24095) max := i64(324058) for _ in 0 .. rnd_count { value := rand.i64_in_range(min, max) assert value >= min assert value < max } } fn test_rand_int31() { max_u31 := 0x7FFFFFFF sign_mask := 0x80000000 for _ in 0 .. rnd_count { value := rand.int31() assert value >= 0 assert value <= max_u31 // This statement ensures that the sign bit is zero assert (value & sign_mask) == 0 } } fn test_rand_int63() { max_u63 := i64(0x7FFFFFFFFFFFFFFF) sign_mask := i64(0x8000000000000000) for _ in 0 .. rnd_count { value := rand.int63() assert value >= 0 assert value <= max_u63 assert (value & sign_mask) == 0 } } fn test_rand_f32() { for _ in 0 .. rnd_count { value := rand.f32() assert value >= 0.0 assert value < 1.0 } } fn test_rand_f64() { for _ in 0 .. rnd_count { value := rand.f64() assert value >= 0.0 assert value < 1.0 } } fn test_rand_f32n() { max := f32(357.0) for _ in 0 .. rnd_count { value := rand.f32n(max) assert value >= 0.0 assert value < max } } fn test_rand_f64n() { max := f64(1.52e6) for _ in 0 .. rnd_count { value := rand.f64n(max) assert value >= 0.0 assert value < max } } fn test_rand_f32_in_range() { min := f32(-24.0) max := f32(125.0) for _ in 0 .. rnd_count { value := rand.f32_in_range(min, max) assert value >= min assert value < max } } fn test_rand_f64_in_range() { min := f64(-548.7) max := f64(5015.2) for _ in 0 .. rnd_count { value := rand.f64_in_range(min, max) assert value >= min assert value < max } } fn test_rand_uuid_v4() { uuid1 := rand.uuid_v4() uuid2 := rand.uuid_v4() uuid3 := rand.uuid_v4() assert uuid1 != uuid2 assert uuid1 != uuid3 assert uuid2 != uuid3 assert uuid1.len == 36 assert uuid2.len == 36 assert uuid3.len == 36 }