# “conditional” plots

I am curious how to plot function that is defined something like this:

`````` if(x < 1)
f(x) = x/10 * 1.2
if(x < 3)
f(x) = x/12 * 1.7
...
else
f(x) = x/15 * 2
``````

If the function was simple, say f(x) = x/10 * x/5 , then there would be no problem, and one could use curve() method. However I am not sure what is the best way to deal with more complex functions, like the one above. Any ideas? Bonus points, if ggplot() could be used :)

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It should just plot with curve like any other function. The complexity doesn't matter. –  John Sep 10 '11 at 20:51
the problem with `if` statements is that it is not vectorized and `curve` works based on vectorization and so does `ggplot2`. so as long as u define ur function properly (like in the answer by DWin), plotting can be done as usual –  Ramnath Sep 10 '11 at 20:53

Curve is still a possibility. (And as you read the statistical literature, this formulation shows up as I[x], "I" being for "indicator".)

``````curve( (x <1)*( (x/10)*1.2 ) +       # one line for each case
(!(x <1)&(x<3) )*(x/12)*1.7 + # logical times (local) function
(x >=3)*(x/15)*2 ,
0,4)                         # limits
``````

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`ifelse` is a better idea than multiplying by pseudobool. –  mbq Sep 10 '11 at 21:47
A matter of taste. I like TRUEboole is better than nested ifelse. And thanks to @JD Long for the kewl plot with the extensive y-axis. I should have done that myself. –  BondedDust Sep 11 '11 at 0:44
I like pretty pictures :) –  JD Long Sep 12 '11 at 14:56

Are you looking for something like `stepfun`?

``````fn <- stepfun(c(1,2,3,4,5),c(0,1,2,3,4,5))
plot(fn,verticals = FALSE)
``````

The way you specify the function will be a bit different, but it's fairly easy to grasp once you've read `?stepfun` and plotted some examples yourself.

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meanwhile I have discovered that actually my situation is a little bit different, but your answer is still very valueable! thanks! –  mkk Sep 10 '11 at 21:59

Matter of taste but I prefer `ifelse` over Dwins indicators (like in mbq comment). For compare:

``````curve(
(x <1)           * ( (x/10)*1.2 ) +
(!(x <1)&(x<3) ) * ( (x/12)*1.7 ) +
(x >=3)          * ( (x/15)*2   ) ,
0,4)

# versus

curve(
ifelse(x < 1, (x/10)*1.2,
ifelse(x < 3, (x/12)*1.7,
(x/15)*2    )),
0,4)
``````
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