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https://github.com/vlang/v.git
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329 lines
6.3 KiB
V
329 lines
6.3 KiB
V
import rand
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import math
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const (
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range_limit = 40
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value_count = 1000
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seeds = [[u32(42), 242, 267, 14195], [u32(256), 340, 1451, 1505]]
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)
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const (
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sample_size = 1000
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stats_epsilon = 0.05
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inv_sqrt_12 = 1.0 / math.sqrt(12)
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)
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fn gen_randoms(seed_data []u32, bound int) []u32 {
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mut randoms := []u32{len: 20}
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mut rng := rand.PCG32RNG{}
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rng.seed(seed_data)
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for i in 0 .. 20 {
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randoms[i] = rng.u32n(u32(bound))
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}
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return randoms
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}
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fn test_pcg32_reproducibility() {
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randoms1 := gen_randoms(rand.time_seed_array(4), 1000)
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randoms2 := gen_randoms(rand.time_seed_array(4), 1000)
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assert randoms1.len == randoms2.len
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len := randoms1.len
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for i in 0 .. len {
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assert randoms1[i] == randoms2[i]
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}
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}
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// TODO: use the `in` syntax and remove this function
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// after generics has been completely implemented
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fn found(value u64, arr []u64) bool {
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for item in arr {
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if value == item {
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return true
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}
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}
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return false
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}
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fn test_pcg32_variability() {
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// If this test fails and if it is certainly not the implementation
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// at fault, try changing the seed values. Repeated values are
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// improbable but not impossible.
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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mut values := []u64{cap: value_count}
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for i in 0 .. value_count {
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value := rng.u64()
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assert !found(value, values)
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assert values.len == i
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values << value
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}
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}
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}
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fn check_uniformity_u64(mut rng rand.PCG32RNG, range u64) {
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range_f64 := f64(range)
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expected_mean := range_f64 / 2.0
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mut variance := 0.0
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for _ in 0 .. sample_size {
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diff := f64(rng.u64n(range)) - expected_mean
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variance += diff * diff
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}
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variance /= sample_size - 1
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sigma := math.sqrt(variance)
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expected_sigma := range_f64 * inv_sqrt_12
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error := (sigma - expected_sigma) / expected_sigma
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assert math.abs(error) < stats_epsilon
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}
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fn test_pcg32_uniformity_u64() {
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ranges := [14019545, 80240, 130]
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for range in ranges {
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check_uniformity_u64(mut rng, u64(range))
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}
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}
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}
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fn check_uniformity_f64(mut rng rand.PCG32RNG) {
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expected_mean := 0.5
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mut variance := 0.0
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for _ in 0 .. sample_size {
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diff := rng.f64() - expected_mean
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variance += diff * diff
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}
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variance /= sample_size - 1
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sigma := math.sqrt(variance)
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expected_sigma := inv_sqrt_12
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error := (sigma - expected_sigma) / expected_sigma
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assert math.abs(error) < stats_epsilon
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}
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fn test_pcg32_uniformity_f64() {
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// The f64 version
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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check_uniformity_f64(mut rng)
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}
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}
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fn test_pcg32_u32n() {
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max := 16384
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.u32n(u32(max))
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assert value >= 0
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assert value < max
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}
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}
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}
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fn test_pcg32_u64n() {
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max := u64(379091181005)
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.u64n(max)
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assert value >= 0
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assert value < max
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}
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}
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}
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fn test_pcg32_u32_in_range() {
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max := 484468466
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min := 316846
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.u32_in_range(u64(min), u64(max))
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assert value >= min
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assert value < max
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}
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}
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}
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fn test_pcg32_u64_in_range() {
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max := u64(216468454685163)
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min := u64(6848646868)
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.u64_in_range(min, max)
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assert value >= min
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assert value < max
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}
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}
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}
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fn test_pcg32_int31() {
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max_u31 := 0x7FFFFFFF
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sign_mask := 0x80000000
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.int31()
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assert value >= 0
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assert value <= max_u31
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// This statement ensures that the sign bit is zero
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assert (value & sign_mask) == 0
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}
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}
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}
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fn test_pcg32_int63() {
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max_u63 := i64(0x7FFFFFFFFFFFFFFF)
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sign_mask := i64(0x8000000000000000)
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.int63()
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assert value >= 0
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assert value <= max_u63
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assert (value & sign_mask) == 0
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}
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}
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}
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fn test_pcg32_intn() {
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max := 2525642
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.intn(max)
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assert value >= 0
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assert value < max
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}
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}
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}
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fn test_pcg32_i64n() {
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max := i64(3246727724653636)
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.i64n(max)
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assert value >= 0
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assert value < max
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}
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}
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}
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fn test_pcg32_int_in_range() {
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min := -4252
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max := 1034
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.int_in_range(min, max)
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assert value >= min
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assert value < max
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}
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}
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}
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fn test_pcg32_i64_in_range() {
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min := i64(-24095)
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max := i64(324058)
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.i64_in_range(min, max)
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assert value >= min
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assert value < max
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}
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}
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}
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fn test_pcg32_f32() {
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.f32()
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assert value >= 0.0
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assert value < 1.0
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}
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}
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}
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fn test_pcg32_f64() {
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.f64()
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assert value >= 0.0
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assert value < 1.0
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}
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}
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}
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fn test_pcg32_f32n() {
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max := f32(357.0)
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.f32()
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assert value >= 0.0
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assert value < max
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}
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}
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}
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fn test_pcg32_f64n() {
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max := 1.52e6
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.f64()
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assert value >= 0.0
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assert value < max
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}
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}
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}
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fn test_pcg32_f32_in_range() {
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min := f32(-24.0)
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max := f32(125.0)
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.f32()
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assert value >= min
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assert value < max
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}
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}
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}
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fn test_pcg32_f64_in_range() {
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min := -548.7
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max := 5015.2
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for seed in seeds {
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mut rng := rand.PCG32RNG{}
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rng.seed(seed)
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for _ in 0 .. range_limit {
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value := rng.f64()
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assert value >= min
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assert value < max
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}
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}
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}
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