Your own type predicate

In this post we will see how to define a type trait or a type predicate or a meta-function that would allow us to check at compile time whether a type exposes an interface that we need. That is, we want to check if a given type T has:

  • nested typename result_type,
  • static member function set_limit that takes one argument of type int,
  • member function get_result that returns type const result_type& and that is declared not to throw exceptions,

In other words, the following expressions and constructs need to be valid for any variable x of type T:

T::result_type is a type
T::set_limit(1) return type unimportant
x.get_result() returns const result_type&, throws nothing

By “checking” I mean being able to test it at compile time, for instance like this:

static_assert(is_acceptable<X>::value,
              "X does not have a desired interface");

We will do it in C++11. This is also going to be an introduction to “metafunctions” in C++.

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error codes — some clarifications

In this post I would like to discuss two issues brought up by the readers regarding previous posts on using <system_error>:

  1. Storing 0 in error codes, and using non-0 success values.
  2. Concerns about using globals.

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Using error codes effectively

In the previous posts we have seen what error codes and error conditions are. But the way we used them is far from optimum. In particular, the implementation of FailureSourceCategory::equivalent was huge and error category FailureSourceCategory was forced to be aware of all error codes from all sub-systems in the project. In this post we will see how we can do better, especially in more complex systems.
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Your own error condition

In the previous post we have seen how you can create your own error-code enumeration for representing different reasons for failure in your component, and how you can store them and convey them type erased via std::error_code. In this post we will see how you can inspect an error situation encoded in std::error_code, and how you can build useful queries about error conditions. Continue reading

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Your own error code

I was recently implementing the “classification of error conditions” in my application offered by the functionality behind std::error_code. In this post I want to share some of my experience and insight.

C++11 comes with a quite sophisticated mechanism for classifying error conditions. You may have encountered names like “error code”, “error condition”, error category”, but figuring out what good they are, and how to use them is difficult. The only valuable source of information on the subject in the Internet is a series of blog posts by Christopher Kohlhoff, the author of Boost.Asio library:

And this was a really good start for me. But still, I believe it would be beneficial to have more than one source of information, and more than one way of explaining the subject. So here we go… Continue reading

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Compile-time string concatenation

We will start with a bug, taken from real life. It spans across three files:

#include <string>

struct Service
{
  static const std::string NAME;
};
#include "service.h"

const std::string Service::NAME = "SERVICE1";
#include "service.h"
#include <iostream>

const std::string MSG = "service " + Service::NAME + " ready";

int main()
{
  std::cout << MSG << std::endl;
}

Question: what happens when this program is executed? Continue reading

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Asserts in constexpr functions

Assertions (like C-style macro assert) are not an ideal, but still useful tool for indicating assumptions about program correctness, and help finding programmer bugs. In this post we will see how we can use assertions in constexpr functions. This works different in C++11 and C++14. Continue reading

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