In today’s final article covering the C++ language, we’ll explore a new C++20 feature: coroutines. These are analogous to both C# iterator functions (i.e. those with yield) and C# async functions. There are a lot of interesting aspects of coroutines, so let’s dive in explore!
C++ For C# Developers: Part 36 – Coroutines
C++ For C# Developers: Part 35 – Modules, The New Build Model
We’ve already seen C++’s traditional build model based on #include. Today we’ll look at the all-new build model introduced in C++20. This is built on “modules” and is much more analogous to the C# build model. Read on to learn how to use it by itself and in combination with #include!
C++ For C# Developers: Part 34 – Fold Expressions and Elaborated Type Specifiers
Today we’ll cover a couple of more minor features that don’t have C# equivalents: fold expressions and elaborated type specifiers. Though they are small, they can be quite useful!
C++ For C# Developers: Part 33 – Alignment, Assembly, and Language Linkage
Today we’ll explore some of the lower-level concepts in C++. These are tools that get brought out of the toolchest when performance really matters and interoperability is paramount. Read on to learn about C++’s escape hatches and take fine-grained control over memory!
C++ For C# Developers: Part 32 – Thread-Local Storage and Volatile
There is language-level support in C# for per-thread storage of variables. The same goes for the volatile keyword. C++ also supports per-thread variables, but with per-thread initialization and de-initialization. It has a volatile keyword too, but it’s meaning is quite different from C#. Read on to learn how to properly use these features in each language.
C++ For C# Developers: Part 31 – Destructuring and Attributes
Both languages have both destructuring (var (x, y) = vec;) and attributes ([MyAttribute]). C++ differs from C# in several ways, so today we’ll take a look at those differences and learn how to make use of these language features.
C++ For C# Developers: Part 30 – Type Aliases
C# has support for type aliases in the form of using ScoreMap = System.Collections.Generic.Dictionary<string, int>; directives. This allows us to use ScoreMap instead of the verbose System.Collections.Generic.Dictionary<string, int> or even Dictionary<string, int>. C++ also has type aliases, but they go way beyond what C# supports. Today we’ll dig into everything C++ offers us to make our code more concise and readable.
C++ For C# Developers: Part 29 – Template Constraints
C# where constraints enable our generics to do a lot more. C++ also has constraints and they enable us to write more expressive and efficient code. Today we’ll see how to add some constraints to our templates to achieve these goals.
C++ For C# Developers: Part 28 – Variadic Templates
All of the templates we’ve written so far had a fixed number of parameters, but C++ lets us take a variable number of parameters too. This is like params in C# functions, but for parameters to C++ templates. Today we’ll dig into this feature, which has no C# equivalent, and learn how to write and use templates with any number of parameters.
C++ For C# Developers: Part 27 – Template Deduction and Specialization
Template deduction in C++ is like generic type parameter deduction in C#: it allows us to omit template arguments. Template specialization has no C# equivalent, but enables special-casing of templates based on certain arguments. Today we’ll look at how these features can make our code a lot less noisy and also a lot more efficient.