Files

abomonation

abomonated.rslib.rs

abomonation_derive

lib.rs

ansi_term

ansi.rsdebug.rsdifference.rsdisplay.rslib.rsstyle.rswindows.rswrite.rs

async_trait

args.rsexpand.rslib.rslifetime.rsparse.rsreceiver.rs

atty

lib.rs

bincode

de

mod.rsread.rs

ser

mod.rs

config.rserror.rsinternal.rslib.rs

bitflags

lib.rs

byteorder

io.rslib.rs

bytes

buf

buf.rsbuf_mut.rschain.rsfrom_buf.rsinto_buf.rsiter.rsmod.rsreader.rstake.rsvec_deque.rswriter.rs

bytes.rsdebug.rslib.rs

cfg_if

lib.rs

chrono

format

mod.rsparse.rsparsed.rsscan.rsstrftime.rs

naive

date.rsdatetime.rsinternals.rsisoweek.rstime.rs

offset

fixed.rslocal.rsmod.rsutc.rs

date.rsdatetime.rsdiv.rslib.rsround.rs

clap

app

help.rsmeta.rsmod.rsparser.rssettings.rsusage.rsvalidator.rs

args

arg_builder

base.rsflag.rsmod.rsoption.rspositional.rsswitched.rsvalued.rs

any_arg.rsarg.rsarg_matcher.rsarg_matches.rsgroup.rsmacros.rsmatched_arg.rsmod.rssettings.rssubcommand.rs

completions

bash.rselvish.rsfish.rsmacros.rsmod.rspowershell.rsshell.rszsh.rs

errors.rsfmt.rslib.rsmacros.rsmap.rsosstringext.rsstrext.rssuggestions.rsusage_parser.rs

dirs

lib.rslin.rs

dirs_sys

lib.rsxdg_user_dirs.rs

erdos

communication

control_message_codec.rscontrol_message_handler.rsendpoints.rserrors.rsmessage_codec.rsmod.rspusher.rsreceivers.rssenders.rsserializable.rs

dataflow

graph

default_graph.rsedge.rsgraph.rsmod.rsvertex.rs

operators

join_operator.rsmap_operator.rsmod.rssource_operator.rs

stream

errors.rsextract_stream.rsingest_stream.rsinternal_read_stream.rsinternal_stateful_read_stream.rsloop_stream.rsmod.rsread_stream.rsstateful_read_stream.rswrite_stream.rs

callback_builder.rsmessage.rsmod.rsoperator.rsstate.rs

node

lattice.rsmod.rsnode.rsoperator_event.rsoperator_executor.rs

scheduler

channel_manager.rsendpoints_manager.rsmod.rs

configuration.rsconnect.rslib.rs

fixedbitset

lib.rsrange.rs

fnv

lib.rs

futures

lib.rs

futures_channel

mpsc

mod.rsqueue.rssink_impl.rs

lib.rslock.rsoneshot.rs

futures_core

task

__internal

atomic_waker.rsmod.rs

mod.rspoll.rs

future.rslib.rsstream.rs

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enter.rslib.rslocal_pool.rs

futures_io

lib.rs

futures_macro

join.rslib.rsselect.rs

futures_sink

lib.rs

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arc_wake.rsfuture_obj.rslib.rsnoop_waker.rsspawn.rswaker.rswaker_ref.rs

futures_util

async_await

join_mod.rsmod.rspending.rspoll.rsrandom.rsselect_mod.rs

future

future

catch_unwind.rschain.rsflatten.rsflatten_stream.rsfuse.rsinspect.rsinto_stream.rsmap.rsmod.rsnever_error.rsremote_handle.rsshared.rsthen.rsunit_error.rs

try_future

and_then.rserr_into.rsflatten_sink.rsflatten_stream_sink.rsinspect_err.rsinspect_ok.rsinto_future.rsmap_err.rsmap_ok.rsmap_ok_or_else.rsmod.rsor_else.rstry_chain.rstry_flatten_stream.rsunwrap_or_else.rs

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io

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lock

bilock.rsmod.rsmutex.rs

sink

buffer.rsclose.rsdrain.rserr_into.rsfanout.rsflush.rsmap_err.rsmod.rssend.rssend_all.rswith.rswith_flat_map.rs

stream

futures_unordered

abort.rsiter.rsmod.rsready_to_run_queue.rstask.rs

stream

buffer_unordered.rsbuffered.rscatch_unwind.rschain.rschunks.rscollect.rsconcat.rsenumerate.rsfilter.rsfilter_map.rsflatten.rsfold.rsfor_each.rsfor_each_concurrent.rsforward.rsfuse.rsinspect.rsinto_future.rsmap.rsmod.rsnext.rspeek.rsscan.rsselect_next_some.rsskip.rsskip_while.rssplit.rstake.rstake_while.rsthen.rszip.rs

try_stream

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empty.rsfutures_ordered.rsiter.rsmod.rsonce.rspending.rspoll_fn.rsrepeat.rsselect.rsselect_all.rsunfold.rs

task

mod.rsspawn.rs

lib.rsnever.rs

indexmap

equivalent.rslib.rsmacros.rsmap.rsmutable_keys.rsset.rsutil.rs

iovec

sys

mod.rsunix.rs

lib.rsunix.rs

lazy_static

inline_lazy.rslib.rs

libc

unix

linux_like

linux

gnu

b64

x86_64

align.rsmod.rsnot_x32.rs

mod.rs

align.rsmod.rs

align.rsmod.rs

mod.rs

align.rsmod.rs

fixed_width_ints.rslib.rsmacros.rs

log

lib.rsmacros.rs

memchr

x86

avx.rsmod.rssse2.rs

fallback.rsiter.rslib.rsnaive.rs

mio

deprecated

event_loop.rshandler.rsio.rsmod.rsnotify.rsunix.rs

net

mod.rstcp.rsudp.rs

sys

unix

awakener.rsdlsym.rsepoll.rseventedfd.rsio.rsmod.rsready.rstcp.rsudp.rsuds.rsuio.rs

mod.rs

channel.rsevent_imp.rsio.rslazycell.rslib.rspoll.rstimer.rstoken.rsudp.rs

net2

sys

unix

impls.rsmod.rs

ext.rslib.rssocket.rstcp.rsudp.rsunix.rsutils.rs

num_cpus

lib.rs

num_integer

lib.rsroots.rs

num_traits

ops

checked.rsinv.rsmod.rsmul_add.rssaturating.rswrapping.rs

bounds.rscast.rsfloat.rsidentities.rsint.rslib.rsmacros.rspow.rsreal.rssign.rs

petgraph

algo

dominators.rsmod.rs

graph_impl

stable_graph

mod.rs

frozen.rsmod.rs

visit

dfsvisit.rsfilter.rsmacros.rsmod.rsreversed.rstraversal.rs

astar.rscsr.rsdata.rsdijkstra.rsdot.rsgraphmap.rsisomorphism.rsiter_format.rsiter_utils.rslib.rsmacros.rsmatrix_graph.rsprelude.rsscored.rssimple_paths.rstraits_graph.rsunionfind.rsutil.rs

pin_project_lite

lib.rs

pin_utils

lib.rsprojection.rsstack_pin.rs

proc_macro2

fallback.rslib.rsstrnom.rswrapper.rs

proc_macro_hack

lib.rs

proc_macro_nested

lib.rs

quote

ext.rsformat.rsident_fragment.rslib.rsruntime.rsspanned.rsto_tokens.rs

rand

distributions

bernoulli.rsbinomial.rscauchy.rsdirichlet.rsexponential.rsfloat.rsgamma.rsinteger.rsmod.rsnormal.rsother.rspareto.rspoisson.rstriangular.rsuniform.rsunit_circle.rsunit_sphere.rsutils.rsweibull.rsweighted.rsziggurat_tables.rs

prng

mod.rs

rngs

adapter

mod.rsread.rsreseeding.rs

entropy.rsmock.rsmod.rssmall.rsstd.rsthread.rs

seq

index.rsmod.rs

deprecated.rslib.rsprelude.rs

rand_chacha

chacha.rslib.rs

rand_core

lib.rs

rand_hc

hc128.rslib.rs

rand_isaac

isaac.rsisaac64.rsisaac_array.rslib.rs

rand_jitter

dummy_log.rserror.rslib.rsplatform.rs

rand_os

dummy_log.rslib.rslinux_android.rsrandom_device.rs

rand_pcg

lib.rspcg128.rspcg64.rs

rand_xorshift

lib.rs

serde

de

from_primitive.rsignored_any.rsimpls.rsmod.rsutf8.rsvalue.rs

private

de.rsmacros.rsmod.rsser.rs

ser

impls.rsimpossible.rsmod.rs

export.rsinteger128.rslib.rsmacros.rs

serde_derive

internals

ast.rsattr.rscase.rscheck.rsctxt.rsmod.rssymbol.rs

bound.rsde.rsdummy.rsfragment.rslib.rspretend.rsser.rstry.rs

sha1

lib.rssimd.rs

slab

lib.rs

slog

key

mod.rsstatic.rs

lib.rs

slog_term

lib.rs

strsim

lib.rs

syn

gen

gen_helper.rsvisit.rsvisit_mut.rs

attr.rsbigint.rsbuffer.rscustom_keyword.rscustom_punctuation.rsdata.rsderive.rsdiscouraged.rserror.rsexport.rsexpr.rsext.rsfile.rsgenerics.rsgroup.rsident.rsitem.rslib.rslifetime.rslit.rslookahead.rsmac.rsmacros.rsop.rsparse.rsparse_macro_input.rsparse_quote.rspat.rspath.rsprint.rspunctuated.rssealed.rsspan.rsspanned.rsstmt.rsthread.rstoken.rstt.rsty.rsverbatim.rs

synstructure

lib.rsmacros.rs

term

terminfo

parser

compiled.rsnames.rs

mod.rsparm.rssearcher.rs

lib.rs

textwrap

indentation.rslib.rssplitting.rs

thread_local

cached.rslib.rsthread_id.rsunreachable.rs

time

display.rsduration.rslib.rsparse.rssys.rs

tokio

future

maybe_done.rsmod.rspoll_fn.rsready.rstry_join.rs

io

driver

mod.rsplatform.rsscheduled_io.rs

util

async_buf_read_ext.rsasync_read_ext.rsasync_seek_ext.rsasync_write_ext.rsbuf_reader.rsbuf_stream.rsbuf_writer.rschain.rscopy.rsempty.rsflush.rslines.rsmod.rsread.rsread_buf.rsread_exact.rsread_int.rsread_line.rsread_to_end.rsread_to_string.rsread_until.rsrepeat.rsshutdown.rssink.rssplit.rsstream_reader.rstake.rswrite.rswrite_all.rswrite_buf.rswrite_int.rs

async_buf_read.rsasync_read.rsasync_seek.rsasync_write.rsmod.rspoll_evented.rsregistration.rsseek.rssplit.rs

loom

std

atomic_ptr.rsatomic_u16.rsatomic_u32.rsatomic_u64.rsatomic_u8.rsatomic_usize.rsmod.rsunsafe_cell.rs

mod.rs

macros

cfg.rsjoin.rsloom.rsmod.rspin.rsready.rsscoped_tls.rsselect.rssupport.rsthread_local.rstry_join.rs

net

tcp

incoming.rslistener.rsmod.rssplit.rssplit_owned.rsstream.rs

addr.rsmod.rs

park

either.rsmod.rsthread.rs

runtime

blocking

mod.rspool.rsschedule.rsshutdown.rstask.rs

task

core.rserror.rsharness.rsjoin.rsmod.rsraw.rsstack.rsstate.rswaker.rs

thread_pool

atomic_cell.rsidle.rsmod.rsworker.rs

basic_scheduler.rsbuilder.rscontext.rsenter.rshandle.rsio.rsmod.rspark.rsqueue.rsshell.rsspawner.rstime.rs

stream

all.rsany.rschain.rscollect.rsempty.rsfilter.rsfilter_map.rsfold.rsfuse.rsiter.rsmap.rsmerge.rsmod.rsnext.rsonce.rspending.rsskip.rsskip_while.rsstream_map.rstake.rstake_while.rstimeout.rstry_next.rs

sync

mpsc

block.rsbounded.rschan.rserror.rslist.rsmod.rsunbounded.rs

task

atomic_waker.rsmod.rs

barrier.rsbatch_semaphore.rsbroadcast.rsmod.rsmutex.rsnotify.rsoneshot.rsrwlock.rssemaphore.rssemaphore_ll.rswatch.rs

task

blocking.rsmod.rsspawn.rsyield_now.rs

time

driver

atomic_stack.rsentry.rshandle.rsmod.rsregistration.rsstack.rs

wheel

level.rsmod.rsstack.rs

clock.rsdelay.rsdelay_queue.rserror.rsinstant.rsinterval.rsmod.rsthrottle.rstimeout.rs

util

slab

addr.rsentry.rsgeneration.rsmod.rspage.rsshard.rsslot.rsstack.rs

bit.rsintrusive_double_linked_list.rslinked_list.rsmod.rsrand.rstry_lock.rswake.rs

coop.rslib.rsprelude.rs

tokio_macros

entry.rslib.rsselect.rs

tokio_serde

buffer_one.rslib.rs

tokio_serde_bincode

lib.rs

tokio_util

codec

bytes_codec.rsdecoder.rsencoder.rsframed.rsframed_read.rsframed_write.rslength_delimited.rslines_codec.rsmod.rs

cfg.rslib.rs

unicode_width

lib.rstables.rs

unicode_xid

lib.rstables.rs

uuid

adapter

core_support

mod.rs

compact.rsmod.rs

parser

core_support.rsmod.rsstd_support.rs

builder.rscore_support.rslib.rsprelude.rsserde_support.rsstd_support.rsv4.rsv5.rs

vec_map

lib.rs

>

// Copyright 2018 Developers of the Rand project.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// https://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or https://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.

//! Basic floating-point number distributions

use core::mem;
use Rng;
use distributions::{Distribution, Standard};
use distributions::utils::FloatSIMDUtils;
#[cfg(feature="simd_support")]
use packed_simd::*;

/// A distribution to sample floating point numbers uniformly in the half-open
/// interval `(0, 1]`, i.e. including 1 but not 0.
///
/// All values that can be generated are of the form `n * ε/2`. For `f32`
/// the 23 most significant random bits of a `u32` are used and for `f64` the
/// 53 most significant bits of a `u64` are used. The conversion uses the
/// multiplicative method.
///
/// See also: [`Standard`] which samples from `[0, 1)`, [`Open01`]
/// which samples from `(0, 1)` and [`Uniform`] which samples from arbitrary
/// ranges.
///
/// # Example
/// ```
/// use rand::{thread_rng, Rng};
/// use rand::distributions::OpenClosed01;
///
/// let val: f32 = thread_rng().sample(OpenClosed01);
/// println!("f32 from (0, 1): {}", val);
/// ```
///
/// [`Standard`]: crate::distributions::Standard
/// [`Open01`]: crate::distributions::Open01
/// [`Uniform`]: crate::distributions::uniform::Uniform
#[derive(Clone, Copy, Debug)]
pub struct OpenClosed01;

/// A distribution to sample floating point numbers uniformly in the open
/// interval `(0, 1)`, i.e. not including either endpoint.
///
/// All values that can be generated are of the form `n * ε + ε/2`. For `f32`
/// the 22 most significant random bits of an `u32` are used, for `f64` 52 from
/// an `u64`. The conversion uses a transmute-based method.
///
/// See also: [`Standard`] which samples from `[0, 1)`, [`OpenClosed01`]
/// which samples from `(0, 1]` and [`Uniform`] which samples from arbitrary
/// ranges.
///
/// # Example
/// ```
/// use rand::{thread_rng, Rng};
/// use rand::distributions::Open01;
///
/// let val: f32 = thread_rng().sample(Open01);
/// println!("f32 from (0, 1): {}", val);
/// ```
///
/// [`Standard`]: crate::distributions::Standard
/// [`OpenClosed01`]: crate::distributions::OpenClosed01
/// [`Uniform`]: crate::distributions::uniform::Uniform
#[derive(Clone, Copy, Debug)]
pub struct Open01;


pub(crate) trait IntoFloat {
    type F;

    /// Helper method to combine the fraction and a contant exponent into a
    /// float.
    ///
    /// Only the least significant bits of `self` may be set, 23 for `f32` and
    /// 52 for `f64`.
    /// The resulting value will fall in a range that depends on the exponent.
    /// As an example the range with exponent 0 will be
    /// [2<sup>0</sup>..2<sup>1</sup>), which is [1..2).
    fn into_float_with_exponent(self, exponent: i32) -> Self::F;
}

macro_rules! float_impls {
    ($ty:ident, $uty:ident, $f_scalar:ident, $u_scalar:ty,
     $fraction_bits:expr, $exponent_bias:expr) => {
        impl IntoFloat for $uty {
            type F = $ty;
            #[inline(always)]
            fn into_float_with_exponent(self, exponent: i32) -> $ty {
                // The exponent is encoded using an offset-binary representation
                let exponent_bits: $u_scalar =
                    (($exponent_bias + exponent) as $u_scalar) << $fraction_bits;
                // TODO: use from_bits when min compiler > 1.25 (see #545)
                // $ty::from_bits(self | exponent_bits)
                unsafe{ mem::transmute(self | exponent_bits) }
            }
        }

        impl Distribution<$ty> for Standard {
            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> $ty {
                // Multiply-based method; 24/53 random bits; [0, 1) interval.
                // We use the most significant bits because for simple RNGs
                // those are usually more random.
                let float_size = mem::size_of::<$f_scalar>() as u32 * 8;
                let precision = $fraction_bits + 1;
                let scale = 1.0 / ((1 as $u_scalar << precision) as $f_scalar);

                let value: $uty = rng.gen();
                let value = value >> (float_size - precision);
                scale * $ty::cast_from_int(value)
            }
        }

        impl Distribution<$ty> for OpenClosed01 {
            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> $ty {
                // Multiply-based method; 24/53 random bits; (0, 1] interval.
                // We use the most significant bits because for simple RNGs
                // those are usually more random.
                let float_size = mem::size_of::<$f_scalar>() as u32 * 8;
                let precision = $fraction_bits + 1;
                let scale = 1.0 / ((1 as $u_scalar << precision) as $f_scalar);

                let value: $uty = rng.gen();
                let value = value >> (float_size - precision);
                // Add 1 to shift up; will not overflow because of right-shift:
                scale * $ty::cast_from_int(value + 1)
            }
        }

        impl Distribution<$ty> for Open01 {
            fn sample<R: Rng + ?Sized>(&self, rng: &mut R) -> $ty {
                // Transmute-based method; 23/52 random bits; (0, 1) interval.
                // We use the most significant bits because for simple RNGs
                // those are usually more random.
                use core::$f_scalar::EPSILON;
                let float_size = mem::size_of::<$f_scalar>() as u32 * 8;

                let value: $uty = rng.gen();
                let fraction = value >> (float_size - $fraction_bits);
                fraction.into_float_with_exponent(0) - (1.0 - EPSILON / 2.0)
            }
        }
    }
}

float_impls! { f32, u32, f32, u32, 23, 127 }
float_impls! { f64, u64, f64, u64, 52, 1023 }

#[cfg(feature="simd_support")]
float_impls! { f32x2, u32x2, f32, u32, 23, 127 }
#[cfg(feature="simd_support")]
float_impls! { f32x4, u32x4, f32, u32, 23, 127 }
#[cfg(feature="simd_support")]
float_impls! { f32x8, u32x8, f32, u32, 23, 127 }
#[cfg(feature="simd_support")]
float_impls! { f32x16, u32x16, f32, u32, 23, 127 }

#[cfg(feature="simd_support")]
float_impls! { f64x2, u64x2, f64, u64, 52, 1023 }
#[cfg(feature="simd_support")]
float_impls! { f64x4, u64x4, f64, u64, 52, 1023 }
#[cfg(feature="simd_support")]
float_impls! { f64x8, u64x8, f64, u64, 52, 1023 }


#[cfg(test)]
mod tests {
    use Rng;
    use distributions::{Open01, OpenClosed01};
    use rngs::mock::StepRng;
    #[cfg(feature="simd_support")]
    use packed_simd::*;

    const EPSILON32: f32 = ::core::f32::EPSILON;
    const EPSILON64: f64 = ::core::f64::EPSILON;

    macro_rules! test_f32 {
        ($fnn:ident, $ty:ident, $ZERO:expr, $EPSILON:expr) => {
            #[test]
            fn $fnn() {
                // Standard
                let mut zeros = StepRng::new(0, 0);
                assert_eq!(zeros.gen::<$ty>(), $ZERO);
                let mut one = StepRng::new(1 << 8 | 1 << (8 + 32), 0);
                assert_eq!(one.gen::<$ty>(), $EPSILON / 2.0);
                let mut max = StepRng::new(!0, 0);
                assert_eq!(max.gen::<$ty>(), 1.0 - $EPSILON / 2.0);

                // OpenClosed01
                let mut zeros = StepRng::new(0, 0);
                assert_eq!(zeros.sample::<$ty, _>(OpenClosed01),
                           0.0 + $EPSILON / 2.0);
                let mut one = StepRng::new(1 << 8 | 1 << (8 + 32), 0);
                assert_eq!(one.sample::<$ty, _>(OpenClosed01), $EPSILON);
                let mut max = StepRng::new(!0, 0);
                assert_eq!(max.sample::<$ty, _>(OpenClosed01), $ZERO + 1.0);

                // Open01
                let mut zeros = StepRng::new(0, 0);
                assert_eq!(zeros.sample::<$ty, _>(Open01), 0.0 + $EPSILON / 2.0);
                let mut one = StepRng::new(1 << 9 | 1 << (9 + 32), 0);
                assert_eq!(one.sample::<$ty, _>(Open01), $EPSILON / 2.0 * 3.0);
                let mut max = StepRng::new(!0, 0);
                assert_eq!(max.sample::<$ty, _>(Open01), 1.0 - $EPSILON / 2.0);
            }
        }
    }
    test_f32! { f32_edge_cases, f32, 0.0, EPSILON32 }
    #[cfg(feature="simd_support")]
    test_f32! { f32x2_edge_cases, f32x2, f32x2::splat(0.0), f32x2::splat(EPSILON32) }
    #[cfg(feature="simd_support")]
    test_f32! { f32x4_edge_cases, f32x4, f32x4::splat(0.0), f32x4::splat(EPSILON32) }
    #[cfg(feature="simd_support")]
    test_f32! { f32x8_edge_cases, f32x8, f32x8::splat(0.0), f32x8::splat(EPSILON32) }
    #[cfg(feature="simd_support")]
    test_f32! { f32x16_edge_cases, f32x16, f32x16::splat(0.0), f32x16::splat(EPSILON32) }

    macro_rules! test_f64 {
        ($fnn:ident, $ty:ident, $ZERO:expr, $EPSILON:expr) => {
            #[test]
            fn $fnn() {
                // Standard
                let mut zeros = StepRng::new(0, 0);
                assert_eq!(zeros.gen::<$ty>(), $ZERO);
                let mut one = StepRng::new(1 << 11, 0);
                assert_eq!(one.gen::<$ty>(), $EPSILON / 2.0);
                let mut max = StepRng::new(!0, 0);
                assert_eq!(max.gen::<$ty>(), 1.0 - $EPSILON / 2.0);

                // OpenClosed01
                let mut zeros = StepRng::new(0, 0);
                assert_eq!(zeros.sample::<$ty, _>(OpenClosed01),
                           0.0 + $EPSILON / 2.0);
                let mut one = StepRng::new(1 << 11, 0);
                assert_eq!(one.sample::<$ty, _>(OpenClosed01), $EPSILON);
                let mut max = StepRng::new(!0, 0);
                assert_eq!(max.sample::<$ty, _>(OpenClosed01), $ZERO + 1.0);

                // Open01
                let mut zeros = StepRng::new(0, 0);
                assert_eq!(zeros.sample::<$ty, _>(Open01), 0.0 + $EPSILON / 2.0);
                let mut one = StepRng::new(1 << 12, 0);
                assert_eq!(one.sample::<$ty, _>(Open01), $EPSILON / 2.0 * 3.0);
                let mut max = StepRng::new(!0, 0);
                assert_eq!(max.sample::<$ty, _>(Open01), 1.0 - $EPSILON / 2.0);
            }
        }
    }
    test_f64! { f64_edge_cases, f64, 0.0, EPSILON64 }
    #[cfg(feature="simd_support")]
    test_f64! { f64x2_edge_cases, f64x2, f64x2::splat(0.0), f64x2::splat(EPSILON64) }
    #[cfg(feature="simd_support")]
    test_f64! { f64x4_edge_cases, f64x4, f64x4::splat(0.0), f64x4::splat(EPSILON64) }
    #[cfg(feature="simd_support")]
    test_f64! { f64x8_edge_cases, f64x8, f64x8::splat(0.0), f64x8::splat(EPSILON64) }
}