Tag Archives: C++11

Imitation of Java Generics

Generic programming is very common and has different names (and features) in various programming languages; C++ provides Turing-Complete Templates, Java offers Generics (along with Ada, Eiffel, C#, and Visual Basic .Net), and Parametric Polymorphism is present in ML, Scala, and Haskell.

While I am generally pretty happy with what C++ has to offer, adopting some of the features offered by other mechanisms can come in handy sometimes. To be more specific, in this post we will mimic Java’s support for defining a common super-type for generic elements (i.e. List).

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Futures: asynchronous invocation

In the concurrent world, a Future object refers to an object whose actual value is to be computed in the future. You can think of it as a handle to an asynchronous invocation of a computation that yields a value.

Many so called concurrent programming languages support this idea as a native construct offered by the core language itself. Unfortunately, C++ does not. Well, at least not in the current standard; C++0x (or shall I say C++1x ?) is going to support std::future as part of the massive new C++0x thread library, which is based on boost::thread. In this post we will implement a simple, yet very powerful, such future object.

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Tuples

One of the containers introduced within TR1 (which is already widely available – both in gcc and Visual Studio) is a Tuple type, which is adopted from The Boost Tuple Library. Tuple types are very convenient at times; For example, it is possible to return multiple values from a function through a tuple, or write more intuitive and expressive code by utilizing tuples.

In this post we will examine the functionality offered by the new Tuple container, and have a go at profiling its performance. Actually, the results of said profiling were a small (pleasant) surprise to me.

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Interesting boost::shared_ptr constructor

The future standard extension (some of it is described in the Technical Report on C++ Standard Library Extensions – TR1) is going to include many libraries already contained in boost. One such library is boost’s Smart Pointers.

In this post I would like to show an interesting use-case of the smart_ptr class, through what I consider to be a less commonly known constructor.

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