double {base} | R Documentation |
Create, coerce to or test for a double-precision vector.
double(length = 0) as.double(x, ...) is.double(x) single(length = 0) as.single(x, ...)
length |
A non-negative integer specifying the desired length. Double values will be coerced to integer: supplying an argument of length other than one is an error. |
x |
object to be coerced or tested. |
... |
further arguments passed to or from other methods. |
double
creates a double-precision vector of the specified
length. The elements of the vector are all equal to 0
.
It is identical to numeric
(and real
).
as.double
is a generic function. It is identical to
as.numeric
(and as.real
). Methods should return an
object of base type "double"
.
is.double
is a test of double type.
R has no single precision data type. All real numbers are
stored in double precision format. The functions as.single
and single
are identical to as.double
and double
except they set the attribute Csingle
that is used in the
.C
and .Fortran
interface, and they are
intended only to be used in that context.
double
creates a double-precision vector of the specified
length. The elements of the vector are all equal to 0
.
as.double
attempts to coerce its argument to be of double type:
like as.vector
it strips attributes including names.
(To ensure that an object is of double type without stripping
attributes, use storage.mode
.) Character strings
containing optional whitespace followed by either a decimal
representation or a hexadecimal representation (starting with
0x
or 0X
) can be converted, as can special values such
as "NA"
, "NaN"
, "Inf"
and "infinity"
,
irrespective of case.
as.double
for factors yields the codes underlying the factor
levels, not the numeric representation of the labels, see also
factor
.
is.double
returns TRUE
or FALSE
depending on
whether its argument is of double type or not.
All R platforms are required to work with values conforming to the
IEC 60559 (also known as IEEE 754) standard. This basically works
with a precision of 53 bits, and represents to that precision a range
of absolute values from about 2e-308 to
2e+308. It also has special values
NaN
(many of them), plus and minus infinity and plus and
minus zero (although R acts as if these are the same). There are
also denormal(ized) (or subnormal) numbers with absolute
values above or below the range given above but represented to less
precision.
See .Machine
for precise information on these limits.
Note that ultimately how double precision numbers are handled is down
to the CPU/FPU and compiler.
In IEEE 754-2008/IEC60559:2011 this is called ‘binary64’ format.
It is a historical anomaly that R has three names for its
floating-point vectors, double
, numeric
and real
.
double
is the name of the type.
numeric
is the name of the mode and also of the implicit
class. As an S4 formal class, use "numeric"
.
real
is deprecated and should not be used in new code.
The potential confusion is that R has used mode
"numeric"
to mean ‘double or integer’, which conflicts
with the S4 usage. Thus is.numeric
tests the mode, not the
class, but as.numeric
(which is identical to as.double
)
coerces to the class.
Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988) The New S Language. Wadsworth & Brooks/Cole.
http://en.wikipedia.org/wiki/IEEE_754-1985, http://en.wikipedia.org/wiki/IEEE_754-2008, http://en.wikipedia.org/wiki/Double_precision, http://en.wikipedia.org/wiki/Denormal_number.
http://grouper.ieee.org/groups/754/ for links to information on the standards.
integer
, numeric
, storage.mode
.
is.double(1) all(double(3) == 0)