pretty: Pretty Breakpoints
In robertzk/monadicbase: The R Base Package
Description
Usage
Arguments
Details
References
See Also
Examples
Description
Compute a sequence of about n+1 equally spaced ‘round’
values which cover the range of the values in x.
The values are chosen so that they are 1, 2 or 5 times a power of 10.
Usage
1
2
3
4
5
6
Arguments
x
an object coercible to numeric by as.numeric.
n
integer giving the desired number of
intervals. Non-integer values are rounded down.
min.n
nonnegative integer giving the minimal number of
intervals. If min.n == 0, pretty(.) may return a
single value.
shrink.sml
positive numeric
by a which a default scale is shrunk in the case when
range(x) is very small (usually 0).
high.u.bias
non-negative numeric, typically > 1.
The interval unit is determined as {1,2,5,10} times b, a
power of 10. Larger high.u.bias values favor larger units.
u5.bias
non-negative numeric
multiplier favoring factor 5 over 2. Default and ‘optimal’:
u5.bias = .5 + 1.5*high.u.bias.
eps.correct
integer code, one of {0,1,2}. If non-0, an
epsilon correction is made at the boundaries such that
the result boundaries will be outside range(x); in the
small case, the correction is only done if eps.correct
>= 2.
...
further arguments for methods.
Details
pretty ignores non-finite values in x.
Let d <- max(x) - min(x) ≥ 0.
If d is not (very close) to 0, we let c <- d/n,
otherwise more or less c <- max(abs(range(x)))*shrink.sml / min.n.
Then, the 10 base b is
10^(floor(log10(c))) such
that b ≤ c < 10b.
Now determine the basic unit u as one of
{1,2,5,10} b, depending on
c/b in [1,10
and the two ‘bias’ coefficients, h
=high.u.bias and f =u5.bias.
.........
References
Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988)
The New S Language.
Wadsworth & Brooks/Cole.
See Also
axTicks for the computation of pretty axis tick
locations in plots, particularly on the log scale.
Examples
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
pretty(1:15) # 0 2 4 6 8 10 12 14 16
pretty(1:15, h = 2) # 0 5 10 15
pretty(1:15, n = 4) # 0 5 10 15
pretty(1:15 * 2) # 0 5 10 15 20 25 30
pretty(1:20) # 0 5 10 15 20
pretty(1:20, n = 2) # 0 10 20
pretty(1:20, n = 10) # 0 2 4 ... 20
for(k in 5:11) {
cat("k=", k, ": "); print(diff(range(pretty(100 + c(0, pi*10^-k)))))}
##-- more bizarre, when min(x) == max(x):
pretty(pi)
add.names <- function(v) { names(v) <- paste(v); v}
utils::str(lapply(add.names(-10:20), pretty))
utils::str(lapply(add.names(0:20), pretty, min.n = 0))
sapply( add.names(0:20), pretty, min.n = 4)
pretty(1.234e100)
pretty(1001.1001)
pretty(1001.1001, shrink = 0.2)
for(k in -7:3)
cat("shrink=", formatC(2^k, width = 9),":",
formatC(pretty(1001.1001, shrink.sml = 2^k), width = 6),"\n")
robertzk/monadicbase documentation built on May 27, 2019, 10:35 a.m.
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Description Usage Arguments Details References See Also Examples
Description
Compute a sequence of about n+1 equally spaced ‘round’
values which cover the range of the values in x.
The values are chosen so that they are 1, 2 or 5 times a power of 10.
Usage
1 2 3 4 5 6 |
Arguments
x |
an object coercible to numeric by |
n |
integer giving the desired number of intervals. Non-integer values are rounded down. |
min.n |
nonnegative integer giving the minimal number of
intervals. If |
shrink.sml |
positive numeric
by a which a default scale is shrunk in the case when
|
high.u.bias |
non-negative numeric, typically > 1.
The interval unit is determined as {1,2,5,10} times |
u5.bias |
non-negative numeric
multiplier favoring factor 5 over 2. Default and ‘optimal’:
|
eps.correct |
integer code, one of {0,1,2}. If non-0, an
epsilon correction is made at the boundaries such that
the result boundaries will be outside |
... |
further arguments for methods. |
Details
pretty ignores non-finite values in x.
Let d <- max(x) - min(x) ≥ 0.
If d is not (very close) to 0, we let c <- d/n,
otherwise more or less c <- max(abs(range(x)))*shrink.sml / min.n.
Then, the 10 base b is
10^(floor(log10(c))) such
that b ≤ c < 10b.
Now determine the basic unit u as one of
{1,2,5,10} b, depending on
c/b in [1,10
and the two ‘bias’ coefficients, h
=high.u.bias and f =u5.bias.
.........
References
Becker, R. A., Chambers, J. M. and Wilks, A. R. (1988) The New S Language. Wadsworth & Brooks/Cole.
See Also
axTicks for the computation of pretty axis tick
locations in plots, particularly on the log scale.
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 | pretty(1:15) # 0 2 4 6 8 10 12 14 16
pretty(1:15, h = 2) # 0 5 10 15
pretty(1:15, n = 4) # 0 5 10 15
pretty(1:15 * 2) # 0 5 10 15 20 25 30
pretty(1:20) # 0 5 10 15 20
pretty(1:20, n = 2) # 0 10 20
pretty(1:20, n = 10) # 0 2 4 ... 20
for(k in 5:11) {
cat("k=", k, ": "); print(diff(range(pretty(100 + c(0, pi*10^-k)))))}
##-- more bizarre, when min(x) == max(x):
pretty(pi)
add.names <- function(v) { names(v) <- paste(v); v}
utils::str(lapply(add.names(-10:20), pretty))
utils::str(lapply(add.names(0:20), pretty, min.n = 0))
sapply( add.names(0:20), pretty, min.n = 4)
pretty(1.234e100)
pretty(1001.1001)
pretty(1001.1001, shrink = 0.2)
for(k in -7:3)
cat("shrink=", formatC(2^k, width = 9),":",
formatC(pretty(1001.1001, shrink.sml = 2^k), width = 6),"\n")
|
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