For this program i have only used field separators from data files in shell script. But I am trying to use the standard library function ifstream() to read in from a data file. The only problem is I am getting the data like so

A:KT5:14:executive desk:

This is for a hash table, and I need to separate the values in the line for the data structure as well as the transaction type. I’ve been looking around the web and have not found much on field separators and what I have found was quite confusing.

The question then being, is there a way to set a field separator with the ifstream function or is there another standard library i/o function I should be using?



getline gives you the option to specify a delimiter. You can then read the input from a stream as a sequence of string separated by _Delim:

template<class CharType, class Traits, class Allocator>
   basic_istream< CharType, Traits >& getline(
       basic_istream< CharType, Traits >& _Istr,
       basic_string< CharType, Traits, Allocator >& _Str,
       CharType _Delim

If this is uniformly structured data it might be useful to define a struct to contain it and implement operator>> to load each instance from the stream, using the above function internal to the operator code.

If you have to process multiple lines (so that newline is a record separator and : a field separator), load each line in turn into a stringstream using basic_istream::getline, and then postprocess the line into fields as shown.

  • 1
    Wow... and not in a good way. I think I'll stick to C. – onemasse Nov 16 '10 at 18:45
  • @onemasse, erm: the declaration actually looks like: istream& getline ( istream& is, string& str, char delim );, not so bad now is it? :), not to mention what std::getline gives you over the equivalent C! :) – Nim Nov 16 '10 at 18:47
  • @onemasse - it does not look so bad when coded up. The first param is ifstream&, the second is string& and the last just a char. – Steve Townsend Nov 16 '10 at 18:49
  • @Nim Ok, that's not so bad. I might try C++ some time after all. :) – onemasse Nov 16 '10 at 18:52
  • @Nim What do you meen std::getline give you over the equivalent in C? I'm curious, I don't want to start a language bashing war. – onemasse Nov 16 '10 at 18:58

@Steve Townsend has already pointed out one possibility. If you prefer to use operator>> instead of std::getline, you can do that as well. An istream always treats whitespace as a separator. Each stream has an associated locale, and each locale includes a ctype facet. That ctype facet is what the istream uses to determine what input characters are whitespace.

In your case, you apparently want the stream to treat only newlines and colons as "whitespace" (i.e., separators), while the actual space character is just treated as a "normal" character, not a separator.

To do that, you can create a ctype facet like this:

struct field_reader: std::ctype<char> {

    field_reader(): std::ctype<char>(get_table()) {}

    static std::ctype_base::mask const* get_table() {
        static std::vector<std::ctype_base::mask> 
            rc(table_size, std::ctype_base::mask());

        rc['\n'] = std::ctype_base::space;
        rc[':'] = std::ctype_base::space;
        return &rc[0];

To use, this, you have to "imbue" the stream with a locale using this facet:

int main() {
    std::stringstream input("A:KT5:14:executive desk:");

    // have the stream use our ctype facet:
    input.imbue(std::locale(std::locale(), new field_reader()));

    // copy fields from the stream to standard output, one per line:
              std::ostream_iterator<std::string>(std::cout, "\n"));
    return 0;

I'm the first to admit, however, that this has some shortcomings. First of all, locales and facets are generally pretty poorly documented, so most C++ programmers are likely to find this fairly difficult to understand (especially when all the real work happens "under the covers", so to speak).

Another possibility is to use Boost Tokenizer. In all honesty, this is a little more work to use -- it'll require that you do something like reading a string, then breaking it up separately. At the same time, it's well documented, pretty widely known, and fits enough better with people's preconceptions about how to do things like that, that quite a few people will probably find it easier to follow despite the extra complexity.

  • 1
    I agree that Locales/facets are poorly understood by a lot of C++ developers. But that's because few people actually bother to I18N or L10N their code and thus never bother learning this stuff. But that's another reason to keep bringing it up as often as possible to show that when used correctly it makes the main code so much easier to write and understand. That's another trick I have learned with facets and intend to use it ASAP. – Martin York Nov 16 '10 at 19:37

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