I was always unsure, what does the restrict keyword mean in C++?
Does it mean the two or more pointer given to the function does not overlap? What else does it mean?
In his paper, Memory Optimization, Christer Ericson says that while
In C++ compilers that support it it should probably behave the same as in C.
See this SO post for details: Realistic usage of the C99 ‘restrict’ keyword?
Take half an hour to skim through Ericson's paper, it's interesting and worth the time.
I also found that IBM's AIX C/C++ compiler supports the
g++ also seems to support this as the following program compiles cleanly on g++:
I also found a nice article on the use of
I ran across an article which specifically discusses the use of restrict in C++ programs:
Also, Microsoft Visual C++ also supports the
As others said, if means nothing as of C++14, so let's consider the
This restricts how the function can be called, but allows for more compile optimizations.
If the caller does not follow the
The C99 N1256 draft 6.7.3/7 "Type qualifiers" says:
and 22.214.171.124 "Formal definition of restrict" gives the gory details.
A possible optimization
The Wikipedia example is very illuminating.
It clearly shows how as it allows to save one assembly instruction.
Does GCC really do it?
For the uninitiated, the calling convention is:
GCC output was even clearer than the wiki article: 4 instructions vs 3 instructions.
Consider for example:
Which is potentially much more efficient as it may be assembly optimized on a decent libc implementation (like glibc) Is it better to use std::memcpy() or std::copy() in terms to performance?, possibly with SIMD instructions.
Without, restrict, this optimization could not be done, e.g. consider:
Does GCC really do it?
GCC 5.2.1.Linux x86-64 Ubuntu 15.10:
I haven't had the patience to benchmark them, but I believe that the restrict version will be faster.
Strict aliasing rule
Does it work for references?
According to the GCC docs it does: https://gcc.gnu.org/onlinedocs/gcc-5.1.0/gcc/Restricted-Pointers.html with syntax:
There is even a version for
There's no such keyword in C++. List of C++ keywords can be found in section 2.11/1 of C++ language standard.
Since header files from some C libraries use the keyword, the C++ language will have to do something about it.. at the minimum, ignoring the keyword, so we don't have to #define the keyword to a blank macro to suppress the keyword.