I have a MATLAB struct, containing a number of fields which together describe, say, 100 observations of a number of variables, as follows (MATLAB output):

```
mystruct =
fieldA: [100x1 double]
fieldB: [100x1 double]
fieldC: [100x1 double]
fieldD: [100x1 char]
fieldE: {100x1 cell}
```

I want to use R with this data, so I save the struct as a .mat file. and import it using the R.matlab package. Because I'm new to R, the following is likely clumsy, but I can access individual fields just fine (R code):

```
> f = readMat('myfile.mat')
> data = f$mystruct
> data
, , 1
[,1]
fieldA Numeric,100
fieldB Numeric,100
fieldC Numeric,100
fieldD Character,100
fieldE List,100
> data = data[, , 1]
> df <- data.frame(fieldA = data$fieldA, fieldB = data$fieldB)
```

OK, so here is the question: how can I generalize the above so that a data frame is generated for an arbitrary number of fields in the original struct? For my 5-field example I can manually do it, but the next data set I have has many fields, and I don't want to enter them all.

As per this question, I tried `rbind()`

and `ldply()`

, which construct outrageously dimensioned data frames (401 obs of 1 variable and 401 obs of 105 variables respectively).

`data`

(you could post the output of`str(data)`

), but perhaps all you need is`df <- as.data.frame(data)`

`data`

now included; doing this gives a data frame with 100 obs of 104 variables (should be 100 obs of 5 variables)`Matlab`

write it to a csv file, read that in, and resize/reshape as desired.