I'm trying to move some Fortran code to R for finite differences related to chemical kinetics.

Sample Fortran loop:

```
DOUBLE PRECISION, DIMENSION (2000,2) :: data=0.0
DOUBLE PRECISION :: k1=5.0, k2=20.0, dt=0.0005
DO i=2, 2000
data(i,1) = data(i-1,1) + data(i-1,1)*(-k1)*dt
data(i,2) = data(i-1,2) + ( data(i-1,1)*k1*dt - data(i-1,2)*k2*dt )
...
END DO
```

The analogous R code:

```
k1=5
k2=20
dt=0.0005
data=data.frame(cbind(c(500,rep(0,1999)),rep(0,2000)))
a.fun=function(y){
y2=y-k1*y*dt
return(y2)
}
apply(data,2,a.fun)
```

This overwrites my first value in the dataframe and leaves zeros elsewhere. I'd like to run this vectorized and not using a for loop since they are *so* slow in R. Also, my function only calculates the first column so far. I can't get the second column working until I get the syntax right on the first.

`Error in FUN(newX[, i], ...) : object 'k1' not found1`

– Matthew Lundberg Apr 19 '13 at 2:25`data[1,2]=data[1,1]-data[1,1]*k1*dt`

Does that make sense? Also Fortran is handy on Linux, but not as much for Windows. – scs217 Apr 19 '13 at 2:31`data`

has two columns, and column 2 is all zeros, as can be seen by`any(data$X2 != 0)`

. More comments: Your R code doesn't define`k1`

or`dt`

. Also, don't use`data`

or`dt`

as variable names. These are names of R functions. – Matthew Lundberg Apr 19 '13 at 2:36`data[1,]= 500 0`

. – scs217 Apr 19 '13 at 2:42