Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

I apologize first for bringing what I imagine to be a ridiculously simple problem here, but I have been unable to glean from the help file for package 'polynom' how to solve this problem. For one out of several years, I have two vectors of x (d for day of year) and y (e for an index of egg production) data:

e=c(0,0,0.006839425,0.027323127,0.024666883,0.005603878,0.016599262,0.002810977,0.00560387  8,0,0.002810977,0.002810977)

I want to, for each year, use the poly.calc function to create a polynomial function that I can use to interpolate the timing of maximum egg production. I want then to superimpose the function on a plot of the data. To begin, I have no problem with the poly.calc function:

3216904000 - 173356400*x + 4239900*x^2 - 62124.17*x^3 + 605.9178*x^4 - 4.13053*x^5 +  
0.02008226*x^6 - 6.963636e-05*x^7 + 1.687736e-07*x^8 

I can then simply


But when I try to use the lines function to superimpose the function on the plot, I get confused. The help file states that the output of poly.calc is an object of class polynomial, and so I assume that "egg1996" will be the "x" in:

lines(x, len = 100, xlim = NULL, ylim = NULL, ...)

But I cannot seem to, based on the example listed:

lines (poly.calc( 2:4), lty = 2)

Or based on the arguments:

  1. x an object of class "polynomial".
  2. len size of vector at which evaluations are to be made.
  3. xlim, ylim the range of x and y values with sensible defaults

Come up with a command that successfully graphs the polynomial "egg1996" onto the raw data. I understand that this question is beneath you folks, but I would be very grateful for a little help. Many thanks.

share|improve this question

I don't work with the polynom package, but the resultant data set is on a completely different scale (both X & Y axes) than the first plot() call. If you don't mind having it in two separate panels, this provides both plots for comparison:


d <- c(169,176,183,190,197,204,211,218,225,232,239,246)
e <- c(0,0,0.006839425,0.027323127,0.024666883,0.005603878,

egg1996 <- poly.calc(d,e)

plot(d, e)

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.