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- Function: double exp (double x)
-
- Function: float expf (float x)
-
- Function: long double expl (long double x)
-
These functions compute
e
(the base of natural logarithms) raised
to the power x.
If the magnitude of the result is too large to be representable,
exp
signals overflow.
- Function: double exp2 (double x)
-
- Function: float exp2f (float x)
-
- Function: long double exp2l (long double x)
-
These functions compute
2
raised to the power x.
Mathematically, exp2 (x)
is the same as exp (x * log (2))
.
- Function: double exp10 (double x)
-
- Function: float exp10f (float x)
-
- Function: long double exp10l (long double x)
-
- Function: double pow10 (double x)
-
- Function: float pow10f (float x)
-
- Function: long double pow10l (long double x)
-
These functions compute
10
raised to the power x.
Mathematically, exp10 (x)
is the same as exp (x * log (10))
.
These functions are GNU extensions. The name exp10
is
preferred, since it is analogous to exp
and exp2
.
- Function: double log (double x)
-
- Function: float logf (float x)
-
- Function: long double logl (long double x)
-
These functions compute the natural logarithm of x.
exp (log
(x))
equals x, exactly in mathematics and approximately in
C.
If x is negative, log
signals a domain error. If x
is zero, it returns negative infinity; if x is too close to zero,
it may signal overflow.
- Function: double log10 (double x)
-
- Function: float log10f (float x)
-
- Function: long double log10l (long double x)
-
These functions return the base-10 logarithm of x.
log10 (x)
equals log (x) / log (10)
.
- Function: double log2 (double x)
-
- Function: float log2f (float x)
-
- Function: long double log2l (long double x)
-
These functions return the base-2 logarithm of x.
log2 (x)
equals log (x) / log (2)
.
- Function: double logb (double x)
-
- Function: float logbf (float x)
-
- Function: long double logbl (long double x)
-
These functions extract the exponent of x and return it as a
floating-point value. If
FLT_RADIX
is two, logb
is equal
to floor (log2 (x))
, except it's probably faster.
If x is de-normalized, logb
returns the exponent x
would have if it were normalized. If x is infinity (positive or
negative), logb
returns @math{@infinity{}}. If x is zero,
logb
returns @math{@infinity{}}. It does not signal.
- Function: int ilogb (double x)
-
- Function: int ilogbf (float x)
-
- Function: int ilogbl (long double x)
-
These functions are equivalent to the corresponding
logb
functions except that they return signed integer values.
Since integers cannot represent infinity and NaN, ilogb
instead
returns an integer that can't be the exponent of a normal floating-point
number. `math.h' defines constants so you can check for this.
- Macro: int FP_ILOGB0
-
ilogb
returns this value if its argument is 0
. The
numeric value is either INT_MIN
or -INT_MAX
.
This macro is defined in ISO C99.
- Macro: int FP_ILOGBNAN
-
ilogb
returns this value if its argument is NaN
. The
numeric value is either INT_MIN
or INT_MAX
.
This macro is defined in ISO C99.
These values are system specific. They might even be the same. The
proper way to test the result of ilogb
is as follows:
i = ilogb (f);
if (i == FP_ILOGB0 || i == FP_ILOGBNAN)
{
if (isnan (f))
{
/* Handle NaN. */
}
else if (f == 0.0)
{
/* Handle 0.0. */
}
else
{
/* Some other value with large exponent,
perhaps +Inf. */
}
}
- Function: double pow (double base, double power)
-
- Function: float powf (float base, float power)
-
- Function: long double powl (long double base, long double power)
-
These are general exponentiation functions, returning base raised
to power.
Mathematically, pow
would return a complex number when base
is negative and power is not an integral value. pow
can't
do that, so instead it signals a domain error. pow
may also
underflow or overflow the destination type.
- Function: double sqrt (double x)
-
- Function: float sqrtf (float x)
-
- Function: long double sqrtl (long double x)
-
These functions return the nonnegative square root of x.
If x is negative, sqrt
signals a domain error.
Mathematically, it should return a complex number.
- Function: double cbrt (double x)
-
- Function: float cbrtf (float x)
-
- Function: long double cbrtl (long double x)
-
These functions return the cube root of x. They cannot
fail; every representable real value has a representable real cube root.
- Function: double hypot (double x, double y)
-
- Function: float hypotf (float x, float y)
-
- Function: long double hypotl (long double x, long double y)
-
These functions return
sqrt (x*x +
y*y)
. This is the length of the hypotenuse of a right
triangle with sides of length x and y, or the distance
of the point (x, y) from the origin. Using this function
instead of the direct formula is wise, since the error is
much smaller. See also the function cabs
in section Absolute Value.
- Function: double expm1 (double x)
-
- Function: float expm1f (float x)
-
- Function: long double expm1l (long double x)
-
These functions return a value equivalent to
exp (x) - 1
.
They are computed in a way that is accurate even if x is
near zero--a case where exp (x) - 1
would be inaccurate owing
to subtraction of two numbers that are nearly equal.
- Function: double log1p (double x)
-
- Function: float log1pf (float x)
-
- Function: long double log1pl (long double x)
-
These functions returns a value equivalent to
log (1 + x)
.
They are computed in a way that is accurate even if x is
near zero.
ISO C99 defines complex variants of some of the exponentiation and
logarithm functions.
- Function: complex double cexp (complex double z)
-
- Function: complex float cexpf (complex float z)
-
- Function: complex long double cexpl (complex long double z)
-
These functions return
e
(the base of natural
logarithms) raised to the power of z.
Mathematically, this corresponds to the value
@ifnottex
@math{exp (z) = exp (creal (z)) * (cos (cimag (z)) + I * sin (cimag (z)))}
- Function: complex double clog (complex double z)
-
- Function: complex float clogf (complex float z)
-
- Function: complex long double clogl (complex long double z)
-
These functions return the natural logarithm of z.
Mathematically, this corresponds to the value
@ifnottex
@math{log (z) = log (cabs (z)) + I * carg (z)}
clog
has a pole at 0, and will signal overflow if z equals
or is very close to 0. It is well-defined for all other values of
z.
- Function: complex double clog10 (complex double z)
-
- Function: complex float clog10f (complex float z)
-
- Function: complex long double clog10l (complex long double z)
-
These functions return the base 10 logarithm of the complex value
z. Mathematically, this corresponds to the value
@ifnottex
@math{log (z) = log10 (cabs (z)) + I * carg (z)}
These functions are GNU extensions.
- Function: complex double csqrt (complex double z)
-
- Function: complex float csqrtf (complex float z)
-
- Function: complex long double csqrtl (complex long double z)
-
These functions return the complex square root of the argument z. Unlike
the real-valued functions, they are defined for all values of z.
- Function: complex double cpow (complex double base, complex double power)
-
- Function: complex float cpowf (complex float base, complex float power)
-
- Function: complex long double cpowl (complex long double base, complex long double power)
-
These functions return base raised to the power of
power. This is equivalent to
cexp (y * clog (x))
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