Did you already try using the new initialization syntax with STL containers?
vector<string> va {"three", "element", "vector"};
vector<string> vb {"vector"};
vector<string> vc {};
This works as you might have expected:
assert (va.size() == 3); assert (vb.size() == 1); assert (vc.size() == 0);
The above initialization works because the constructs use the new initializer-list constructor. Well, not really… Continue reading
This is the last post about preconditions. We will try to address concerns about a potential UB connected with expressing preconditions. We will also try to explore how language support for preconditions could look like. Continue reading
In this post, I examine a couple of cases and try to answer the question when and how to specify preconditions, and when it is better not to do it. I believe it gives a deeper insight into the nature of preconditions. Continue reading
In this post I will continue sharing my thoughts on preconditions. It will cover some philosophy behind the concept of preconditions (and bugs), and investigate the possibility of employing the compiler to verify some preconditions. Many people provided a useful feedback on my previous post. I will also try to incorporate it into this post. Continue reading
In this post, I want to share my thoughts about the notion of precondition. In “Design by Contract” philosophy, preconditions are always mentioned along postconditions and invariants, and in the context of OO design. In this post I focus only on preconditions and not necessarily related to any class. For instance, the following function specifies a precondition on its argument:
double sqrt(double x); // precondition: x >= 0
Note that the function specifies the precondition even though there is no language feature for this purpose (at least in C++). A precondition is a “concept” or an “idea” rather than a language feature. This is the kind of preconditions that this post is about. Continue reading
I assume you are already familiar with constexpr functions. (If not, see a short introduction here.) In this post I wanted to share my experience with using unions in constant expressions. Unions are not very popular due to type-safety hole they open, but they offer some capabilities that I found priceless when working with Fernando Cacciola on std::optional proposal. Continue reading
This post is about std::thread but not about threads or multi-threading. This is not an introduction to C++ threads. I assume that you are already familiar with Standard Library components thread and async.
I encountered a couple of introductions to C++ threads that gave a code example similar to the one below:
void run_in_parallel(function<void()> f1, function<void()> f2)
{
thread thr{f1}; // run f1 in a new thread
f2(); // run f2 in this thread
thr.join(); // wait until f1 is done
}
While it does give you a feel of what thread’s constructor does and how forking and joining works, I feel it does not stress enough how exception-unsafe this code is, and how unsafe using naked threads in general is. In this post I try to analyze this “safety” issues. Continue reading
