rust/src/libcore/f32.rs

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#[doc = "Floating point operations and constants for `f32`"];
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// PORT
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import cmath::c_float::*;
import cmath::c_float_targ_consts::*;
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// FIXME find out why these have to be exported explicitly
export add, sub, mul, div, rem, lt, le, gt, eq, eq, ne;
export is_positive, is_negative, is_nonpositive, is_nonnegative;
export is_zero, is_infinite, is_finite;
export NaN, is_NaN, infinity, neg_infinity;
export consts;
export logarithm;
export acos, asin, atan, atan2, cbrt, ceil, copysign, cos, cosh;
export erf, erfc, exp, expm1, exp2, abs, abs_sub;
export mul_add, fmax, fmin, nextafter, frexp, hypot, ldexp;
export lgamma, ln, log_radix, ln1p, log10, log2, ilog_radix;
export modf, pow, round, sin, sinh, sqrt, tan, tanh, tgamma, trunc;
export signbit;
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type t = f32;
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// These are not defined inside consts:: for consistency with
// the integer types
const NaN: f32 = 0.0_f32/0.0_f32;
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const infinity: f32 = 1.0_f32/0.0_f32;
const neg_infinity: f32 = -1.0_f32/0.0_f32;
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pure fn is_NaN(f: f32) -> bool { f != f }
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pure fn add(x: f32, y: f32) -> f32 { ret x + y; }
pure fn sub(x: f32, y: f32) -> f32 { ret x - y; }
pure fn mul(x: f32, y: f32) -> f32 { ret x * y; }
pure fn div(x: f32, y: f32) -> f32 { ret x / y; }
pure fn rem(x: f32, y: f32) -> f32 { ret x % y; }
pure fn lt(x: f32, y: f32) -> bool { ret x < y; }
pure fn le(x: f32, y: f32) -> bool { ret x <= y; }
pure fn eq(x: f32, y: f32) -> bool { ret x == y; }
pure fn ne(x: f32, y: f32) -> bool { ret x != y; }
pure fn ge(x: f32, y: f32) -> bool { ret x >= y; }
pure fn gt(x: f32, y: f32) -> bool { ret x > y; }
// FIXME replace the predicates below with llvm intrinsics or calls
// to the libmath macros in the rust runtime for performance
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#[doc(
brief = "Returns true if `x` is a positive number, including +0.0f320 and +Infinity."
)]
pure fn is_positive(x: f32) -> bool
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{ ret x > 0.0f32 || (1.0f32/x) == infinity; }
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#[doc(
brief = "Returns true if `x` is a negative number, including -0.0f320 and -Infinity."
)]
pure fn is_negative(x: f32) -> bool
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{ ret x < 0.0f32 || (1.0f32/x) == neg_infinity; }
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#[doc(
brief = "Returns true if `x` is a negative number, including \
-0.0f320 and -Infinity. (This is the same as \
`f32::negative`.)"
)]
pure fn is_nonpositive(x: f32) -> bool {
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ret x < 0.0f32 || (1.0f32/x) == neg_infinity;
}
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#[doc(
brief = "Returns true if `x` is a positive number, \
including +0.0f320 and +Infinity. (This is \
the same as `f32::positive`.)"
)]
pure fn is_nonnegative(x: f32) -> bool {
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ret x > 0.0f32 || (1.0f32/x) == infinity;
}
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#[doc(
brief = "Returns true if `x` is a zero number \
(positive or negative zero)"
)]
pure fn is_zero(x: f32) -> bool {
ret x == 0.0f32 || x == -0.0f32;
}
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#[doc(
brief = "Returns true if `x`is an infinite number"
)]
pure fn is_infinite(x: f32) -> bool {
ret x == infinity || x == neg_infinity;
}
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#[doc(
brief = "Returns true if `x`is a finite number"
)]
pure fn is_finite(x: f32) -> bool {
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ret !(is_NaN(x) || is_infinite(x));
}
// FIXME add is_normal, is_subnormal, and fpclassify
/* Module: consts */
mod consts {
// FIXME replace with mathematical constants from cmath
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#[doc(
brief = "Archimedes' constant"
)]
const pi: f32 = 3.14159265358979323846264338327950288_f32;
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#[doc(
brief = "pi/2.0"
)]
const frac_pi_2: f32 = 1.57079632679489661923132169163975144_f32;
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#[doc(
brief = "pi/4.0"
)]
const frac_pi_4: f32 = 0.785398163397448309615660845819875721_f32;
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#[doc(
brief = "1.0/pi"
)]
const frac_1_pi: f32 = 0.318309886183790671537767526745028724_f32;
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#[doc(
brief = "2.0/pi"
)]
const frac_2_pi: f32 = 0.636619772367581343075535053490057448_f32;
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#[doc(
brief = "2.0/sqrt(pi)"
)]
const frac_2_sqrtpi: f32 = 1.12837916709551257389615890312154517_f32;
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#[doc(
brief = "sqrt(2.0)"
)]
const sqrt2: f32 = 1.41421356237309504880168872420969808_f32;
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#[doc(
brief = "1.0/sqrt(2.0)"
)]
const frac_1_sqrt2: f32 = 0.707106781186547524400844362104849039_f32;
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#[doc(
brief = "Euler's number"
)]
const e: f32 = 2.71828182845904523536028747135266250_f32;
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#[doc(
brief = "log2(e)"
)]
const log2_e: f32 = 1.44269504088896340735992468100189214_f32;
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#[doc(
brief = "log10(e)"
)]
const log10_e: f32 = 0.434294481903251827651128918916605082_f32;
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#[doc(
brief = "ln(2.0)"
)]
const ln_2: f32 = 0.693147180559945309417232121458176568_f32;
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#[doc(
brief = "ln(10.0)"
)]
const ln_10: f32 = 2.30258509299404568401799145468436421_f32;
}
pure fn signbit(x: f32) -> int {
if is_negative(x) { ret 1; } else { ret 0; }
}
#[cfg(target_os="linux")]
#[cfg(target_os="macos")]
#[cfg(target_os="win32")]
pure fn logarithm(n: f32, b: f32) -> f32 {
// FIXME check if it is good to use log2 instead of ln here;
// in theory should be faster since the radix is 2
ret log2(n) / log2(b);
}
#[cfg(target_os="freebsd")]
pure fn logarithm(n: f32, b: f32) -> f32 {
ret ln(n) / ln(b);
}
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#[cfg(target_os="freebsd")]
pure fn log2(n: f32) -> f32 {
ret ln(n) / consts::ln_2;
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}
//
// Local Variables:
// mode: rust
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// End:
//