I have data that looks like this:
token eps rank # first line names columns Intercept 9.362637e+00 1 # later lines hold data A1 -2.395553e-01 30 G1 -3.864725e-01 50 T1 1.565497e-01 43 ....
Different files will have different numbers of named columns and the types of values in each column will vary among floats, ints, and strings.
I want to write a
readCols function to which i send names of columns (e.g. I may want the
rank columns) which will put the the data in the specified column into containers of the appropriate type.
My problem is not in parsing the file but in returning a variable number of containers which contain different types. For instance, I want the
rank columns put into
vector<int> containers, respectively. The issue here is that I may want the
eps column instead (stored in a vector), and I don't want to write a different
readCols function for every conceivable combination of types. (The type of container doesn't matter to me. If I have to only use
vectors, no problem; that each container contains a different type is the key.)
I'll probably need a container that holds different types to hold the different types of container. It looks like Boost.Variant might be the solution I want, but I don't know how to tell the parser which type I want each column to be (could I make something like a list of typenames? e.g.
void readCols(string filename, vector<variant<various types of vector>> &data, vector<string> colNames, vector<typename> convertTo)). Likewise, Boost.Mpl.Vector may solve the problem, but again I can't quite figure how to tell
readCols how each column wants to be cast.
I can think of at least two workarounds:
- Read each column separately with a templated function that reads into any container (
container::value_typeallows the function to know how to parse). I don't prefer this solution because the files are occasionally large (millions of lines) so parsing them multiple times would take an extra few minutes (not a negligible percentage of run-time in programs whose calculation takes ~30 minutes; the program will run over and over).
- Read all columns into containers of strings and re-cast them in the calling context rather than in the parsing context. This wouldn't be so bad, as I think I can do the conversion in one line with
boost::lexical_castor s/t. If I can avoid
2nlines of bloat, great (
n=number of columns, typically 2 or 3, 2 lines per column to declare the container and then transform).
It may be that the second workaround will require significantly less effort from me than a complete, generic solution; if that's the case, I'd like to know. I imagine that the second workaround might even be more efficient, but I'm mainly concerned with ease of use at the moment. If I can write one generic
readCols function and be done with it, that's what I'd prefer.