Trig | R Documentation |
These functions give the obvious trigonometric functions. They respectively compute the cosine, sine, tangent, arc-cosine, arc-sine, arc-tangent, and the two-argument arc-tangent.
cospi(x)
, sinpi(x)
, and tanpi(x)
, compute
cos(pi*x)
, sin(pi*x)
, and tan(pi*x)
.
cos(x) sin(x) tan(x) acos(x) asin(x) atan(x) atan2(y, x) cospi(x) sinpi(x) tanpi(x)
x, y |
numeric or complex vectors. |
The arc-tangent of two arguments atan2(y, x)
returns the angle
between the x-axis and the vector from the origin to (x, y),
i.e., for positive arguments atan2(y, x) == atan(y/x)
.
Angles are in radians, not degrees, for the standard versions (i.e., a
right angle is π/2), and in ‘half-rotations’ for
cospi
etc.
cospi(x)
, sinpi(x)
, and tanpi(x)
are accurate
for x
values which are multiples of a half.
All except atan2
are internal generic primitive
functions: methods can be defined for them individually or via the
Math
group generic.
These are all wrappers to system calls of the same name (with prefix
c
for complex arguments) where available. (cospi
,
sinpi
, and tanpi
are part of a C11 extension
and provided by e.g. macOS and Solaris: where not yet
available call to cos
etc are used, with special cases
for multiples of a half.)
tanpi(0.5)
is NaN
. Similarly for other inputs
with fractional part 0.5
.
For the inverse trigonometric functions, branch cuts are defined as in Abramowitz and Stegun, figure 4.4, page 79.
For asin
and acos
, there are two cuts, both along
the real axis: (-Inf, -1] and
[1, Inf).
For atan
there are two cuts, both along the pure imaginary
axis: (-1i*Inf, -1i] and
[1i, 1i*Inf).
The behaviour actually on the cuts follows the C99 standard which requires continuity coming round the endpoint in a counter-clockwise direction.
Complex arguments for cospi
, sinpi
, and tanpi
are not yet implemented, and they are a ‘future direction’ of
ISO/IEC TS 18661-4.
All except atan2
are S4 generic functions: methods can be defined
for them individually or via the
Math
group generic.
Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988) The New S Language. Wadsworth & Brooks/Cole.
Abramowitz, M. and Stegun, I. A. (1972). Handbook of
Mathematical Functions. New York: Dover.
Chapter 4. Elementary Transcendental Functions: Logarithmic,
Exponential, Circular and Hyperbolic Functions
For cospi
, sinpi
, and tanpi
the C11 extension
ISO/IEC TS 18661-4:2015 (draft at
http://www.open-std.org/jtc1/sc22/wg14/www/docs/n1950.pdf).
x <- seq(-3, 7, by = 1/8) tx <- cbind(x, cos(pi*x), cospi(x), sin(pi*x), sinpi(x), tan(pi*x), tanpi(x), deparse.level=2) op <- options(digits = 4, width = 90) # for nice formatting head(tx) tx[ (x %% 1) %in% c(0, 0.5) ,] options(op)
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