203 lines
6.7 KiB
Rust
203 lines
6.7 KiB
Rust
#![cfg(not(target_arch = "wasm32"))]
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use std::mem::MaybeUninit;
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use std::str;
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use core::num::flt2dec::strategy::grisu::format_exact_opt;
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use core::num::flt2dec::strategy::grisu::format_shortest_opt;
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use core::num::flt2dec::MAX_SIG_DIGITS;
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use core::num::flt2dec::{decode, DecodableFloat, Decoded, FullDecoded};
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use rand::distributions::{Distribution, Uniform};
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use rand::rngs::StdRng;
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use rand::SeedableRng;
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pub fn decode_finite<T: DecodableFloat>(v: T) -> Decoded {
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match decode(v).1 {
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FullDecoded::Finite(decoded) => decoded,
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full_decoded => panic!("expected finite, got {:?} instead", full_decoded),
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}
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}
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fn iterate<F, G, V>(func: &str, k: usize, n: usize, mut f: F, mut g: G, mut v: V) -> (usize, usize)
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where
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F: for<'a> FnMut(&Decoded, &'a mut [MaybeUninit<u8>]) -> Option<(&'a [u8], i16)>,
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G: for<'a> FnMut(&Decoded, &'a mut [MaybeUninit<u8>]) -> (&'a [u8], i16),
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V: FnMut(usize) -> Decoded,
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{
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assert!(k <= 1024);
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let mut npassed = 0; // f(x) = Some(g(x))
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let mut nignored = 0; // f(x) = None
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for i in 0..n {
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if (i & 0xfffff) == 0 {
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println!(
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"in progress, {:x}/{:x} (ignored={} passed={} failed={})",
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i,
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n,
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nignored,
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npassed,
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i - nignored - npassed
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);
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}
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let decoded = v(i);
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let mut buf1 = [MaybeUninit::new(0); 1024];
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if let Some((buf1, e1)) = f(&decoded, &mut buf1[..k]) {
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let mut buf2 = [MaybeUninit::new(0); 1024];
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let (buf2, e2) = g(&decoded, &mut buf2[..k]);
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if e1 == e2 && buf1 == buf2 {
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npassed += 1;
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} else {
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println!(
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"equivalence test failed, {:x}/{:x}: {:?} f(i)={}e{} g(i)={}e{}",
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i,
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n,
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decoded,
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str::from_utf8(buf1).unwrap(),
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e1,
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str::from_utf8(buf2).unwrap(),
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e2
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);
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}
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} else {
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nignored += 1;
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}
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}
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println!(
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"{}({}): done, ignored={} passed={} failed={}",
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func,
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k,
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nignored,
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npassed,
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n - nignored - npassed
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);
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assert!(
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nignored + npassed == n,
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"{}({}): {} out of {} values returns an incorrect value!",
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func,
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k,
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n - nignored - npassed,
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n
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);
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(npassed, nignored)
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}
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pub fn f32_random_equivalence_test<F, G>(f: F, g: G, k: usize, n: usize)
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where
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F: for<'a> FnMut(&Decoded, &'a mut [MaybeUninit<u8>]) -> Option<(&'a [u8], i16)>,
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G: for<'a> FnMut(&Decoded, &'a mut [MaybeUninit<u8>]) -> (&'a [u8], i16),
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{
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if cfg!(target_os = "emscripten") {
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return; // using rng pulls in i128 support, which doesn't work
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}
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let mut rng = StdRng::from_entropy();
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let f32_range = Uniform::new(0x0000_0001u32, 0x7f80_0000);
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iterate("f32_random_equivalence_test", k, n, f, g, |_| {
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let x = f32::from_bits(f32_range.sample(&mut rng));
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decode_finite(x)
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});
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}
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pub fn f64_random_equivalence_test<F, G>(f: F, g: G, k: usize, n: usize)
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where
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F: for<'a> FnMut(&Decoded, &'a mut [MaybeUninit<u8>]) -> Option<(&'a [u8], i16)>,
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G: for<'a> FnMut(&Decoded, &'a mut [MaybeUninit<u8>]) -> (&'a [u8], i16),
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{
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if cfg!(target_os = "emscripten") {
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return; // using rng pulls in i128 support, which doesn't work
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}
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let mut rng = StdRng::from_entropy();
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let f64_range = Uniform::new(0x0000_0000_0000_0001u64, 0x7ff0_0000_0000_0000);
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iterate("f64_random_equivalence_test", k, n, f, g, |_| {
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let x = f64::from_bits(f64_range.sample(&mut rng));
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decode_finite(x)
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});
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}
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pub fn f32_exhaustive_equivalence_test<F, G>(f: F, g: G, k: usize)
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where
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F: for<'a> FnMut(&Decoded, &'a mut [MaybeUninit<u8>]) -> Option<(&'a [u8], i16)>,
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G: for<'a> FnMut(&Decoded, &'a mut [MaybeUninit<u8>]) -> (&'a [u8], i16),
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{
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// we have only 2^23 * (2^8 - 1) - 1 = 2,139,095,039 positive finite f32 values,
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// so why not simply testing all of them?
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//
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// this is of course very stressful (and thus should be behind an `#[ignore]` attribute),
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// but with `-C opt-level=3 -C lto` this only takes about an hour or so.
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// iterate from 0x0000_0001 to 0x7f7f_ffff, i.e., all finite ranges
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let (npassed, nignored) =
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iterate("f32_exhaustive_equivalence_test", k, 0x7f7f_ffff, f, g, |i: usize| {
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let x = f32::from_bits(i as u32 + 1);
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decode_finite(x)
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});
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assert_eq!((npassed, nignored), (2121451881, 17643158));
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}
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#[test]
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fn shortest_random_equivalence_test() {
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use core::num::flt2dec::strategy::dragon::format_shortest as fallback;
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// Miri is too slow
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let n = if cfg!(miri) { 10 } else { 10_000 };
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f64_random_equivalence_test(format_shortest_opt, fallback, MAX_SIG_DIGITS, n);
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f32_random_equivalence_test(format_shortest_opt, fallback, MAX_SIG_DIGITS, n);
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}
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#[test]
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#[ignore] // it is too expensive
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fn shortest_f32_exhaustive_equivalence_test() {
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// it is hard to directly test the optimality of the output, but we can at least test if
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// two different algorithms agree to each other.
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//
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// this reports the progress and the number of f32 values returned `None`.
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// with `--nocapture` (and plenty of time and appropriate rustc flags), this should print:
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// `done, ignored=17643158 passed=2121451881 failed=0`.
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use core::num::flt2dec::strategy::dragon::format_shortest as fallback;
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f32_exhaustive_equivalence_test(format_shortest_opt, fallback, MAX_SIG_DIGITS);
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}
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#[test]
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#[ignore] // it is too expensive
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fn shortest_f64_hard_random_equivalence_test() {
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// this again probably has to use appropriate rustc flags.
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use core::num::flt2dec::strategy::dragon::format_shortest as fallback;
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f64_random_equivalence_test(format_shortest_opt, fallback, MAX_SIG_DIGITS, 100_000_000);
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}
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#[test]
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fn exact_f32_random_equivalence_test() {
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use core::num::flt2dec::strategy::dragon::format_exact as fallback;
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// Miri is too slow
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let n = if cfg!(miri) { 3 } else { 1_000 };
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for k in 1..21 {
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f32_random_equivalence_test(
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|d, buf| format_exact_opt(d, buf, i16::MIN),
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|d, buf| fallback(d, buf, i16::MIN),
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k,
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n,
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);
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}
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}
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#[test]
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fn exact_f64_random_equivalence_test() {
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use core::num::flt2dec::strategy::dragon::format_exact as fallback;
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// Miri is too slow
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let n = if cfg!(miri) { 2 } else { 1_000 };
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for k in 1..21 {
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f64_random_equivalence_test(
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|d, buf| format_exact_opt(d, buf, i16::MIN),
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|d, buf| fallback(d, buf, i16::MIN),
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k,
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n,
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);
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}
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}
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