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Fixup tests to test both const-eval and runtime
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@ -1,9 +1,12 @@
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// run-pass
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// compile-flags:-Zmir-opt-level=0
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// Tests saturating float->int casts. See u128-as-f32.rs for the opposite direction.
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//
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// Some of these tests come from a similar file in miri,
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// tests/run-pass/float.rs. They're just duplicated currently but we may want
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// to merge this in the future.
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// tests/run-pass/float.rs. Individual test cases are potentially duplicated
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// with the previously existing tests, but since this runs so quickly anyway,
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// we're not spending the time to figure out exactly which ones should be
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// merged.
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#![feature(test, stmt_expr_attributes)]
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#![feature(track_caller)]
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@ -21,31 +24,18 @@ macro_rules! test {
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// black_box disables constant evaluation to test run-time conversions:
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assert_eq!(black_box::<$src_ty>($val) as $dest_ty, $expected,
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"run-time {} -> {}", stringify!($src_ty), stringify!($dest_ty));
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);
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($fval:expr, f* -> $ity:ident, $ival:expr) => (
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test!($fval, f32 -> $ity, $ival);
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test!($fval, f64 -> $ity, $ival);
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)
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}
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// This macro tests const eval in addition to run-time evaluation.
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// If and when saturating casts are adopted, this macro should be merged with test!() to ensure
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// that run-time and const eval agree on inputs that currently trigger a const eval error.
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macro_rules! test_c {
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($val:expr, $src_ty:ident -> $dest_ty:ident, $expected:expr) => ({
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test!($val, $src_ty -> $dest_ty, $expected);
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{
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const X: $src_ty = $val;
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const Y: $dest_ty = X as $dest_ty;
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assert_eq!(Y, $expected,
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"const eval {} -> {}", stringify!($src_ty), stringify!($dest_ty));
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}
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});
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);
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($fval:expr, f* -> $ity:ident, $ival:expr) => (
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test_c!($fval, f32 -> $ity, $ival);
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test_c!($fval, f64 -> $ity, $ival);
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test!($fval, f32 -> $ity, $ival);
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test!($fval, f64 -> $ity, $ival);
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)
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}
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@ -59,11 +49,11 @@ macro_rules! common_fptoi_tests {
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// as well, the test is just slightly misplaced.
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test!($ity::MIN as $fty, $fty -> $ity, $ity::MIN);
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test!($ity::MAX as $fty, $fty -> $ity, $ity::MAX);
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test_c!(0., $fty -> $ity, 0);
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test_c!($fty::MIN_POSITIVE, $fty -> $ity, 0);
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test!(0., $fty -> $ity, 0);
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test!($fty::MIN_POSITIVE, $fty -> $ity, 0);
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test!(-0.9, $fty -> $ity, 0);
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test_c!(1., $fty -> $ity, 1);
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test_c!(42., $fty -> $ity, 42);
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test!(1., $fty -> $ity, 1);
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test!(42., $fty -> $ity, 42);
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)+ });
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(f* -> $($ity:ident)+) => ({
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@ -217,39 +207,6 @@ where
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assert_eq!(unsafe { x.cast_unchecked() }, y);
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}
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fn basic() {
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// basic arithmetic
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assert_eq(6.0_f32 * 6.0_f32, 36.0_f32);
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assert_eq(6.0_f64 * 6.0_f64, 36.0_f64);
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assert_eq(-{ 5.0_f32 }, -5.0_f32);
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assert_eq(-{ 5.0_f64 }, -5.0_f64);
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// infinities, NaN
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assert!((5.0_f32 / 0.0).is_infinite());
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assert_ne!({ 5.0_f32 / 0.0 }, { -5.0_f32 / 0.0 });
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assert!((5.0_f64 / 0.0).is_infinite());
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assert_ne!({ 5.0_f64 / 0.0 }, { 5.0_f64 / -0.0 });
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assert!((-5.0_f32).sqrt().is_nan());
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assert!((-5.0_f64).sqrt().is_nan());
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assert_ne!(f32::NAN, f32::NAN);
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assert_ne!(f64::NAN, f64::NAN);
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// negative zero
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let posz = 0.0f32;
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let negz = -0.0f32;
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assert_eq(posz, negz);
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assert_ne!(posz.to_bits(), negz.to_bits());
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let posz = 0.0f64;
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let negz = -0.0f64;
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assert_eq(posz, negz);
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assert_ne!(posz.to_bits(), negz.to_bits());
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// byte-level transmute
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let x: u64 = unsafe { std::mem::transmute(42.0_f64) };
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let y: f64 = unsafe { std::mem::transmute(x) };
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assert_eq(y, 42.0_f64);
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let x: u32 = unsafe { std::mem::transmute(42.0_f32) };
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let y: f32 = unsafe { std::mem::transmute(x) };
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assert_eq(y, 42.0_f32);
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}
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fn casts() {
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// f32 -> i8
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test_both_cast::<f32, i8>(127.99, 127);
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@ -500,42 +457,8 @@ fn casts() {
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assert_eq::<f32>(f64::NEG_INFINITY as f32, f32::NEG_INFINITY);
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}
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fn ops() {
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// f32 min/max
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assert_eq((1.0 as f32).max(-1.0), 1.0);
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assert_eq((1.0 as f32).min(-1.0), -1.0);
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assert_eq(f32::NAN.min(9.0), 9.0);
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assert_eq(f32::NAN.max(-9.0), -9.0);
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assert_eq((9.0 as f32).min(f32::NAN), 9.0);
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assert_eq((-9.0 as f32).max(f32::NAN), -9.0);
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// f64 min/max
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assert_eq((1.0 as f64).max(-1.0), 1.0);
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assert_eq((1.0 as f64).min(-1.0), -1.0);
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assert_eq(f64::NAN.min(9.0), 9.0);
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assert_eq(f64::NAN.max(-9.0), -9.0);
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assert_eq((9.0 as f64).min(f64::NAN), 9.0);
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assert_eq((-9.0 as f64).max(f64::NAN), -9.0);
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// f32 copysign
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assert_eq(3.5_f32.copysign(0.42), 3.5_f32);
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assert_eq(3.5_f32.copysign(-0.42), -3.5_f32);
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assert_eq((-3.5_f32).copysign(0.42), 3.5_f32);
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assert_eq((-3.5_f32).copysign(-0.42), -3.5_f32);
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assert!(f32::NAN.copysign(1.0).is_nan());
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// f64 copysign
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assert_eq(3.5_f64.copysign(0.42), 3.5_f64);
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assert_eq(3.5_f64.copysign(-0.42), -3.5_f64);
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assert_eq((-3.5_f64).copysign(0.42), 3.5_f64);
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assert_eq((-3.5_f64).copysign(-0.42), -3.5_f64);
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assert!(f64::NAN.copysign(1.0).is_nan());
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}
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pub fn main() {
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basic();
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casts();
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ops();
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casts(); // from miri's tests
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common_fptoi_tests!(f* -> i8 i16 i32 i64 u8 u16 u32 u64);
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fptoui_tests!(f* -> u8 u16 u32 u64);
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@ -549,39 +472,39 @@ pub fn main() {
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// The following tests cover edge cases for some integer types.
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// # u8
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test_c!(254., f* -> u8, 254);
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test!(254., f* -> u8, 254);
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test!(256., f* -> u8, 255);
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// # i8
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test_c!(-127., f* -> i8, -127);
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test!(-127., f* -> i8, -127);
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test!(-129., f* -> i8, -128);
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test_c!(126., f* -> i8, 126);
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test!(126., f* -> i8, 126);
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test!(128., f* -> i8, 127);
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// # i32
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// -2147483648. is i32::MIN (exactly)
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test_c!(-2147483648., f* -> i32, i32::MIN);
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test!(-2147483648., f* -> i32, i32::MIN);
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// 2147483648. is i32::MAX rounded up
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test!(2147483648., f32 -> i32, 2147483647);
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// With 24 significand bits, floats with magnitude in [2^30 + 1, 2^31] are rounded to
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// multiples of 2^7. Therefore, nextDown(round(i32::MAX)) is 2^31 - 128:
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test_c!(2147483520., f32 -> i32, 2147483520);
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test!(2147483520., f32 -> i32, 2147483520);
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// Similarly, nextUp(i32::MIN) is i32::MIN + 2^8 and nextDown(i32::MIN) is i32::MIN - 2^7
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test!(-2147483904., f* -> i32, i32::MIN);
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test_c!(-2147483520., f* -> i32, -2147483520);
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test!(-2147483520., f* -> i32, -2147483520);
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// # u32
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// round(MAX) and nextUp(round(MAX))
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test_c!(4294967040., f* -> u32, 4294967040);
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test!(4294967040., f* -> u32, 4294967040);
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test!(4294967296., f* -> u32, 4294967295);
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// # u128
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#[cfg(not(target_os = "emscripten"))]
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{
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// float->int:
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test_c!(f32::MAX, f32 -> u128, 0xffffff00000000000000000000000000);
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test!(f32::MAX, f32 -> u128, 0xffffff00000000000000000000000000);
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// nextDown(f32::MAX) = 2^128 - 2 * 2^104
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const SECOND_LARGEST_F32: f32 = 340282326356119256160033759537265639424.;
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test_c!(SECOND_LARGEST_F32, f32 -> u128, 0xfffffe00000000000000000000000000);
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test!(SECOND_LARGEST_F32, f32 -> u128, 0xfffffe00000000000000000000000000);
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}
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}
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