5

As a learning exercise I am building a class to manage the old familiar argc and argv values to main. I am storing argv as a std::vector of std::strings. For the moment I would like to loop over my object as if it was the vector. The problem I'm having is that my solution becomes highly dependent on my choice of container and the compiler breaks when I try to fix it. Observe:

This is the way I would like my class to work for this example.

int main(int argc, char* argv) {
  CLI options(argc, argv);

  for (auto option : options) {
    cout << option << endl;
  }
}

This is fairly trivial, but did require a moment of research. Here is my header file

typedef char* cstring;

class CLI {
  std::vector<std::string> arguments;
public:
  CLI(const int argc, const cstring argv[]);

  std::vector<std::string>::const_iterator begin();
  std::vector<std::string>::const_iterator end();
};

and my source file for the CLI class. (minus includes etc)

CLI::CLI(const int argc, const cstring argv[]) {
  arguments = std::vector<std::string>(argv, argv + argc);
}

std::vector<std::string>::const_iterator CLI::begin() {
  return arguments.begin();
}

std::vector<std::string>::const_iterator CLI::end() {
  return arguments.end();
}

This works beautifully, but here is my first problem. If I decide that I wish to use a linked list instead of a vector, I now have at least five spots that need to change, more if my client code is having a silly day and doesn't use auto for its loop (or whatever else it does). This feels like it should be a case of auto-to-the-rescue! With the new C++ features I should be able to change the method signature to this:

... // Header
auto begin();

... // Source
// Possibly without the decltype now? Not sure how or when...
auto CLI::begin() -> decltype(arguments.begin()) {
  return arguments.begin();
}

This is where I finally get an error:

.../main.cpp: In function ‘int main(int, char**)’:
.../main.cpp:10:22: error: use of ‘auto CLI::begin()’ before deduction of ‘auto’
   for (auto option : options) {
                      ^
.../main.cpp:10:22: error: invalid use of ‘auto’

Okay. If I had to guess as to what this meant, I would say the auto in the for loop is looking up the signature for the begin method, hoping to find a concrete return type. What it finds instead is auto, and panics.

So, is this theory correct, and is there a better way to hide the container type despite the iterators?

P.S. The more I look at this problem, the more I am realizing that this functionality is probably not functionality I want in the final product anyways. But this still seems like an opportunity to learn something.

2
  • 1
    Why not simply std::vector<std::string> options(int argc, const char* const* argv) { return {argv, argv + argc}; }?
    – Casey
    Dec 23, 2014 at 16:04
  • Because in the future I'd like to be able to use this class to parse the options internally. That way I could have bool methods for each option instead of having to search for them externally.
    – Jwashton
    Dec 23, 2014 at 16:36

1 Answer 1

2

Since the header does not include code, the compilation unit for main.cpp cannot deduce the meaning of auto for begin()

This would work better for what you intend:

Header.h

#include <vector>                                                                  

class A {
public:
        std::vector<int> a;
        decltype(a.begin()) begin();
        decltype(a.cbegin()) cbegin() const;
};

Header.cpp

#include "header.h"
decltype(A::a.begin()) A::begin() {
        return a.begin();
}
decltype(A::a.cbegin()) A::cbegin() const {
        return a.cbegin();
}

main.cpp

#include "header.h"
int main(int argc, char **argv) {
        A a;
        auto b = a.begin();
        auto cb = a.cbegin();
        return 0;                                                               
}

A note on const safety: remember that a "const_iterator" is a unique type that is not necessarily const itself but that the object it represents is const. This means that the type is different which prevents you from returning a.begin() inside of a const function. The naive might try adding const decltype(a.begin()) return type but that is still not a vector::const_iterator but rather a const vector::iterator.

4
  • Ah! Thank you! Interesting catch. Presumably inlineing these small methods would fix the problem then. Another thought though, could I change the method declaration to include the return type postfix? auto begin() -> decltype(arguments.begin()); Again, probably not worth the effort this time, but good to know.
    – Jwashton
    Dec 23, 2014 at 15:21
  • 1
    Why not just have the decltype instead of auto?
    – inetknght
    Dec 23, 2014 at 15:23
  • Perfect! I even found that I can call cbegin() instead of begin() so that I still get a const_iterator. Same result all around. Thank you! =)
    – Jwashton
    Dec 23, 2014 at 15:35
  • Yup. I was actually editing my answer to include that (refresh to see...)
    – inetknght
    Dec 23, 2014 at 15:40

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