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Concepts Lite vs enable_if—Andrzej KrzemieĊ„ski

By Adrien Hamelin | Sep 22, 2016 01:12 PM | News, Articles & Books | Tags: experimental community

Why having concepts?

Concepts Lite vs enable_if

by Andrzej Krzemieński

From the article:

This post contains quite advanced material. I assume you are already familiar with Concepts Lite. For an overview of what Concepts Lite is, I recommend this proposal. Also, I have found this blog very useful regarding the details of and issues with concepts’ mechanics. One could look at Concepts Lite as three features:

  1. A superior alternative to enable_if (or overload hiding).
  2. The subsumption relation that enables the additional control of partial ordering in the overload resolution process.
  3. A convenient tool for building compile-time predicates that check for valid types and expressions.

In this post I will only focus on the first feature, and try to answer the question, “what do we need Concepts Lite for, given that we already have std::enable_if (and SFINAE)?”

How to avoid bugs using modern C++

By Andrey Karpov | Sep 15, 2016 05:11 AM | Articles & Books | Tags: c++17 c++11 basics

One of the main problems with C++ is having a huge number of constructions whose behavior is undefined, or is just unexpected for a programmer. Let's see which techniques in modern C++ help writing not only simple and clear code, but make it safer and more reliable.

How to avoid bugs using modern C++

by Pavel Belikov

From the article:

Of course, there are some flaws in the range-based for: it doesn't allow flexible management of the loop, and if there is more complex work with indexes required, then for won't be of much help to us. But such situations should be examined separately. We have quite a simple situation: we have to move along the items in the reverse order. However, at this stage, there are already difficulties. There are no additional classes in the standard library for range-based for. Let's see how it could be implemented.

Type annotation in C++—Stoyan Nikolov

By Adrien Hamelin | Sep 12, 2016 01:44 PM | News, Articles & Books | Tags: intermediate efficiency

How do you do it?

Type annotation in C++

by Stoyan Nikolov

From the article:

In systems like game engines and our HTML renderer Hummingbird, developers have to work with objects transformed in different coordinate systems. Using one generic type can lead to confusion on what object is required in a particular situation. Errors are often subtle and hard to track. I tried to mitigate this by using stringent static typing in our software. New types are created by annotating them with metadata...

Auto Type Deduction in Range-Based For Loops—Petr Zemek

By Adrien Hamelin | Sep 9, 2016 12:17 PM | News, Articles & Books | Tags: intermediate c++11

Which one to use?

Auto Type Deduction in Range-Based For Loops

by Petr Zemek

From the article:

Have you ever wondered which of the following variants you should use in range-based for loops and when? auto, const auto, auto&, const auto&, auto&&, const auto&&, or decltype(auto)? This post tries to present rules of thumb that you can use in day-to-day coding. As you will see, only four of these variants are generally useful.

Great Expectations—Glennan Carnie

By Adrien Hamelin | Sep 9, 2016 12:06 PM | News, Articles & Books | Tags: c++11 basics

Let's review the basics!

Great Expectations

by Glennan Carnie

From the article:

Previously, we’ve looked at the basic concepts of function parameter passing, and we’ve looked at the mechanics of how parameters are passed at the Application Binary Interface (ABI) level.

Far too often we focus on the mechanisms and efficiency of parameter passing, with the goal: if it’s efficient then it’s good; that’s all there is to it.  In this article I want to move past simple mechanics and start to explore function parameter design intent – that is, what can I expect (to change) about the objects I use as function arguments; and what can I expect to be able to do with an object as a function implementer.

To that end, we’ll take a look at parameter passing from the perspective of the mutability (ability to be modified) of the parameters from both a caller’s and a function’s (callee’s) point of view...