/// Exponential, base *e*, of x-1 (f32) /// /// Calculates the exponential of `x` and subtract 1, that is, *e* raised /// to the power `x` minus 1 (where *e* is the base of the natural /// system of logarithms, approximately 2.71828). /// The result is accurate even for small values of `x`, /// where using `exp(x)-1` would lose many significant digits. #[cfg_attr(all(test, assert_no_panic), no_panic::no_panic)] pubfn expm1f(mut x: f32) -> f32 { let x1p127 = f32::from_bits(0x7f000000); // 0x1p127f === 2 ^ 127
/* filter out huge and non-finite argument */ if hx >= 0x4195b844 { /* if |x|>=27*ln2 */ if hx > 0x7f800000 { /* NaN */ return x;
} if sign { return -1.;
} if x > O_THRESHOLD {
x *= x1p127; return x;
}
}
let k: i32; let hi: f32; let lo: f32; letmut c = 0f32; /* argument reduction */ if hx > 0x3eb17218 { /* if |x| > 0.5 ln2 */ if hx < 0x3F851592 { /* and |x| < 1.5 ln2 */ if !sign {
hi = x - LN2_HI;
lo = LN2_LO;
k = 1;
} else {
hi = x + LN2_HI;
lo = -LN2_LO;
k = -1;
}
} else {
k = (INV_LN2 * x + (if sign { -0.5 } else { 0.5 })) as i32; let t = k as f32;
hi = x - t * LN2_HI; /* t*ln2_hi is exact here */
lo = t * LN2_LO;
}
x = hi - lo;
c = (hi - x) - lo;
} elseif hx < 0x33000000 { /* when |x|<2**-25, return x */ if hx < 0x00800000 {
force_eval!(x * x);
} return x;
} else {
k = 0;
}
/* x is now in primary range */ let hfx = 0.5 * x; let hxs = x * hfx; let r1 = 1. + hxs * (Q1 + hxs * Q2); let t = 3. - r1 * hfx; letmut e = hxs * ((r1 - t) / (6. - x * t)); if k == 0 { /* c is 0 */ return x - (x * e - hxs);
}
e = x * (e - c) - c;
e -= hxs; /* exp(x) ~ 2^k (x_reduced - e + 1) */ if k == -1 { return0.5 * (x - e) - 0.5;
} if k == 1 { if x < -0.25 { return -2. * (e - (x + 0.5));
} return1. + 2. * (x - e);
} let twopk = f32::from_bits(((0x7f + k) << 23) as u32); /* 2^k */ if (k < 0) || (k > 56) { /* suffice to return exp(x)-1 */ letmut y = x - e + 1.; if k == 128 {
y = y * 2. * x1p127;
} else {
y = y * twopk;
} return y - 1.;
} let uf = f32::from_bits(((0x7f - k) << 23) as u32); /* 2^-k */ if k < 23 {
(x - e + (1. - uf)) * twopk
} else {
(x - (e + uf) + 1.) * twopk
}
}
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(vorverarbeitet am 2026-06-21)
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