I want to create somewhat sibling of std::fscanf() (I know it's a C function). So, my interface is something like this:

template <charT, char_traits, ...>
std::size_t ts_scanf(is, format, opening_bracket, closing_bracket, args)

I decided to implement a C# version of reading from console, since it requires programmer to maintain only one sequence (the args part), not the arguments and format.

Here is how C# version works:

"text blah blah blah {0} {1} {0}", arg1, arg2

So, it infers types of arg1, arg2, and then reads the text in location where {N} stands into the appropriate argument.

Algorithm of what I want to do:

1.Find opening bracket

2.Try to parse an int, say N

3.if succeeded, get the Nth parameter from the pack, read into it using is>>get<N>args.

4.if failed,perform dumb read

5.Repeat 1 to 4 until the end of the format or until stream exhausts

So, when writing a loop I encountered a problem:

for (i = 0; i < length; i = format.find(i, opening_bracket))

I found that I need to somehow expand the parameter pack args, which is impossible to do at runtime (since the loop is runtime). The only solution I have in mind is recurse: when finding opening bracket, read it, trim the format string, and recurse with the trimmed string and the rest of the variadic pack.

Question: is there a solution where it would be possible to expand the variadic pack at (pseudo) runtime?

  • What is opening_bracket and closing_bracket ? Why do you need that ? fscanf doesn't have anything like that AFAIK. A pseudo code on how you want it to work would go a long way in explaining than putting it in words. – Arunmu Nov 12 '16 at 18:05
  • @Arunmu, thanks, added – Incomputable Nov 12 '16 at 18:10
  • If you want to do it really efficiently, then you should use expression templates to get it done at compile time itself (the mapping). This can be done using boost::proto, though I admit it's not for the weak hearted :). The other solution that I know is only purely runtime since you are going to parse the brackets at runtime only. This would involve storing the args in a runtime container. – Arunmu Nov 12 '16 at 18:16
  • @Arunmu, I believe I will consider only {}, not {N}, since it will require magic to happen. Otherwise I could throw the function at the object, since I can't throw the object at the function. – Incomputable Nov 12 '16 at 18:20
  • 1
    github.com/fmtlib/fmt already does something you want from what I understand. – Arunmu Nov 12 '16 at 18:22
template<class=void,  std::size_t...Is >
auto indexer( std::index_sequence<Is...> ){
  return [](auto&&f)->decltype(auto){
    return decltype(f)(f)( std::integral_constant<std::size_t, Is>{}... );
template<std::size_t N>
auto indexer(){
  return indexer(std::make_index_sequence<N>{} );
template<std::size_t N>
void for_each( F&& f ) {
  indexer<N>()( [&](auto...Is){
    using discard=int[];

indexer gives you unpacked indexes.

for_each calls f with a compile time i value for each i up to N.

That will let you iterate over integers at compile time. To map integers at runtime to compile time:

template<std::size_t N, class F>
void pick( std::size_t I, F&& f ){
  for_each<N>( [&](auto i){
    if (I==i) f(i);
  } );

This invokes f with a compile time version of I so long as it is less than N.

void read( std::string pattern, Args&...args ){
  auto tied=std::tie(args...);
  for (i = 0; i < length; i = format.find(i, opening_bracket))  
    pick<sizeof...(args)>( i, [&](auto i){
    } );

Now there is an implicit chain of ifs written by the above; you can replace with a jump table using a different technique.

Code not compiled; design is sound, but there are probably tyops. Indexer can be found with google (I have written it on SO before). I have written it as for_each directly, but I find the single pack version too useful. Here I needed the separate pack version. Pick just uses it.

Here is a jump table version of pick:

template<std::size_t N, class F>
void pick( std::size_t I, F&& f ){
    using table_f=void(*)(&f);
    const table_f table[]={
      +[](F&f){ f(decltype(Is){}); }...

Bounds checking not included. This version does not require for_each, but some compilers break when asked o have a lambda with a parameter pack unexpanded inside a statement.

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