Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I am trying to parse a simple CSV file, with data in a format such as:

20.5,20.5,20.5,0.794145,4.05286,0.792519,1
20.5,30.5,20.5,0.753669,3.91888,0.749897,1
20.5,40.5,20.5,0.701055,3.80348,0.695326,1

So, a very simple and fixed format file. I am storing each column of this data into a STL vector. As such I've tried to stay the C++ way using the standard library, and my implementation within a loop looks something like:

string field;
getline(file,line);
stringstream ssline(line);

getline( ssline, field, ',' );
stringstream fs1(field);
fs1 >> cent_x.at(n);

getline( ssline, field, ',' );
stringstream fs2(field);
fs2 >> cent_y.at(n);

getline( ssline, field, ',' );
stringstream fs3(field);
fs3 >> cent_z.at(n);

getline( ssline, field, ',' );
stringstream fs4(field);
fs4 >> u.at(n);

getline( ssline, field, ',' );
stringstream fs5(field);
fs5 >> v.at(n);

getline( ssline, field, ',' );
stringstream fs6(field);
fs6 >> w.at(n);

The problem is, this is extremely slow (there are over 1 million rows per data file), and seems to me to be a bit inelegant. Is there a faster approach using the standard library, or should I just use stdio functions? It seems to me this entire code block would reduce to a single fscanf call.

Thanks in advance!

share|improve this question
1  
Duplicate of the following question: stackoverflow.com/questions/1120140/csv-parser-in-c –  Zamfir Kerlukson Feb 23 '13 at 9:42
    

3 Answers 3

up vote 6 down vote accepted

Using 7 string streams when you can do it with just one sure doesn't help wrt. performance. Try this instead:

string line;
getline(file, line);

istringstream ss(line);  // note we use istringstream, we don't need the o part of stringstream

char c1, c2, c3, c4, c5;  // to eat the commas

ss >> cent_x.at(n) >> c1 >>
      cent_y.at(n) >> c2 >>
      cent_z.at(n) >> c3 >>
      u.at(n) >> c4 >>
      v.at(n) >> c5 >>
      w.at(n);

If you know the number of lines in the file, you can resize the vectors prior to reading and then use operator[] instead of at(). This way you avoid bounds checking and thus gain a little performance.

share|improve this answer
    
Perfect! It works much, much better. Thanks for the hint about the chars for eating the commas! –  Kyle Lynch May 30 '12 at 10:33
    
@KyleLynch: I would seriously advise that you check the char were initialized to commas. Also, you should be checking that the stream is valid OR set the exceptions flags, to be warned in case of bad output. –  Matthieu M. May 30 '12 at 12:13

I believe the major bottleneck (put aside the getline()-based non-buffered I/O) is the string parsing. Since you have the "," symbol as a delimiter, you may perform a linear scan over the string and replace all "," by "\0" (the end-of-string marker, zero-terminator).

Something like this:

// tmp array for the line part values
double parts[MAX_PARTS];

while(getline(file, line))
{
    size_t len = line.length();
    size_t j;

    if(line.empty()) { continue; }

    const char* last_start = &line[0];
    int num_parts = 0;

    while(j < len)
    {
        if(line[j] == ',')
        {
           line[j] = '\0';

           if(num_parts == MAX_PARTS) { break; }

           parts[num_parts] = atof(last_start);
           j++;
           num_parts++;
           last_start = &line[j];
        }
        j++;
    }

    /// do whatever you need with the parts[] array
 }
share|improve this answer

I don't know if this will be quicker than the accepted answer, but I might as well post it anyway in case you wish to try it. You can load in the entire contents of the file using a single read call by knowing the size of the file using some fseek magic. This will be much faster than multiple read calls.

You could then do something like this to parse your string:

//Delimited string to vector
vector<string> dstov(string& str, string delimiter)
{
  //Vector to populate
  vector<string> ret;
  //Current position in str
  size_t pos = 0;
  //While the the string from point pos contains the delimiter
  while(str.substr(pos).find(delimiter) != string::npos)
  {
    //Insert the substring from pos to the start of the found delimiter to the vector
    ret.push_back(str.substr(pos, str.substr(pos).find(delimiter)));
    //Move the pos past this found section and the found delimiter so the search can continue
    pos += str.substr(pos).find(delimiter) + delimiter.size();
  }
  //Push back the final element in str when str contains no more delimiters
  ret.push_back(str.substr(pos));
  return ret;
}

string rawfiledata;

//This call will parse the raw data into a vector containing lines of
//20.5,30.5,20.5,0.753669,3.91888,0.749897,1 by treating the newline
//as the delimiter
vector<string> lines = dstov(rawfiledata, "\n");

//You can then iterate over the lines and parse them into variables and do whatever you need with them.
for(size_t itr = 0; itr < lines.size(); ++itr)
  vector<string> line_variables = dstov(lines[itr], ",");
share|improve this answer

Your Answer

 
discard

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.