Difference between revisions of "C++11 in Hall D Online"
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− | NULL is replaced by the type-safe nullptr. The former is just a macro that gets replaced by 0 and its use is bug-prone, the latter actually has a type. | + | NULL is replaced by the type-safe nullptr. The former is just a macro that gets replaced by 0 and its use is bug-prone, the latter actually has a special type. |
Revision as of 16:07, 11 July 2013
Below I list a number of new C++11 features that should be interesting for use in the Hall D Online.
The most important ones concern programming safety, i.e. they plug safety loopholes in C++ that have been there since the beginning. The second type concern programming convenience, i.e. they make the code easier to write and understand.
Although we do not have any hard-and-fast programming rules for the online, I strongly feel the safety features should be used in all new code. I recommend use of the convenience features, but this is a personal decision. Even if you don't use them you should be familiar with them since they will appear in online code written by others.
Note that I take it for granted the old C++98 features will be used regularly (e.g. the STL).
My discussion below is brief. For a comprehensive discussion of C++11 see the Wikipedia article on C++11. See also the article on Ten C++11 Features Every C++ Developer Should Use.
Safety
Override
You can explicitly mark a method to override a base class method. If no base class method with the same signature exists a compiler error is generated. This can save you much grief, trust me.
nullptr
NULL is replaced by the type-safe nullptr. The former is just a macro that gets replaced by 0 and its use is bug-prone, the latter actually has a special type.
Static Assert and Type Traits
You can make compile time assertions about the code, e.g. that some constant expression is positive. A compiler warning is generated if its not true. Using this along with type traits in templates allows you to make compile time assertion about variable types when templates are instantiated. E.g. you can assert that a type is numeric and generate an error at compile time when someone instantiates your template using string or other non-numerical types.
Smart Pointers
Studies show that memory leaks and pointer errors comprise the majority of errors in C++ code. The former are particularly important for code that runs 24x7, such as in online systems. The use of smart pointers should mostly eliminate these errors. Smart pointers are objects that wrap bare pointers and make sure the underlying object is deleted when it is no longer needed. There are extensive discussions concerning the use of smart pointers on the web. Most important are unique_ptr<> and shared_ptr<>.
Move Semantics
Many errors and inefficiencies occur due to copy construction, often when it is not even needed. The new move sematics allows for transfer of objects between modules without copying, and with simpler syntax.
Convenience
auto
Range-For
Initializer Lists
Constructor Chaining
Thread Library
Lambdas
Tuples
New Algorithms
Regular Expression Facility