# Evaluate a symbolic Ryacas expression

This is a reproducible example:

``````a <- 0.05
za.2 <- qnorm(1-a/2)
b <- 0.20
zb <- qnorm(1-b)

lambda12 <- -log(1/2)/12
lambda18 <- -log(1/2)/18
theta <- lambda18/lambda12
(d = round(4*(za.2+zb)^2/log(theta)^2))

Tf<-36
library(Ryacas)
n <- Sym("n")

Solve(n/2*(2-exp(-lambda12*Tf)-exp(-lambda18*Tf))==d , n)
``````

The last line returns

``````expression(list(n == 382/1.625))
``````

Is there a way to extract the quotient and assign it to another variable (235.0769)?

-

G.Grothendieck pointed out in comments that you'll need to first to capture the expression to be operated upon below:

``````soln <- Solve(n/2*(2-exp(-lambda12*Tf)-exp(-lambda18*Tf))==d , n)
X <- yacas(soln)\$text
``````

Then, to extract the quotient, you can take advantage of the fact that many R language objects either are or can be coerced to lists.

`````` X <- expression(list(n == 382/1.625))
res <- eval(X[[1]][[2]][[3]])
res
[1] 235.0769
``````

The following just shows why that sequence of indices extracts the right piece of the expression:

``````as.list(X)
# [[1]]
# list(n == 382/1.625)

as.list(X[[1]])
# [[1]]
# list
#
# [[2]]
# n == 382/1.625

as.list(X[[1]][[2]])
# [[1]]
# `==`
#
# [[2]]
# n
#
# [[3]]
# 382/1.625
``````
-
If `soln <- Solve(n/2*(2-exp(-lambda12*Tf)-exp(-lambda18*Tf))==d , n)` then set `x <- yacas(soln)\$text` and now follow poster's instructions for x. –  G. Grothendieck Dec 13 '11 at 4:14
@G.Grothendieck -- Thanks for the helpful comment. I've grafted it in above, to make the answer complete. –  Josh O'Brien Dec 13 '11 at 6:47
@G. Grothendieck Thank you. This is the step I was missing. Post it as an answer. –  George Dontas Dec 13 '11 at 6:50
@gd047, Josh has incorporated my earlier comment into his answer making it complete so its fine with me if you choose his answer. –  G. Grothendieck Dec 13 '11 at 13:00