Lines Matching refs:power

460 @cindex power functions
473 to the power @var{x}.
488 These functions compute @code{2} raised to the power @var{x}.
501 These functions compute @code{10} raised to the power @var{x}.
656 @deftypefun double pow (double @var{base}, double @var{power})
657 @deftypefunx float powf (float @var{base}, float @var{power})
658 @deftypefunx {long double} powl (long double @var{base}, long double @var{power})
659 @deftypefunx _FloatN powfN (_Float@var{N} @var{base}, _Float@var{N} @var{power})
660 @deftypefunx _FloatNx powfNx (_Float@var{N}x @var{base}, _Float@var{N}x @var{power})
666 to @var{power}.
669 is negative and @var{power} is not an integral value.  @code{pow} can't
766 logarithms) raised to the power of @var{z}.
837 @deftypefun {complex double} cpow (complex double @var{base}, complex double @var{power})
838 @deftypefunx {complex float} cpowf (complex float @var{base}, complex float @var{power})
839 …efunx {complex long double} cpowl (complex long double @var{base}, complex long double @var{power})
840 …funx {complex _FloatN} cpowfN (complex _Float@var{N} @var{base}, complex _Float@var{N} @var{power})
841 … {complex _FloatNx} cpowfNx (complex _Float@var{N}x @var{base}, complex _Float@var{N}x @var{power})
846 These functions return @var{base} raised to the power of
847 @var{power}.  This is equivalent to @w{@code{cexp (y * clog (x))}}
1560 power of two.  The bigger the @var{state} array, the better.
2024 upper bound is not a power of two.