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I have read (here, for example) that the register keyword is deprecated in C++ 11. As such, is there an equivalent to this storage-class specifier in the newer versions of the standard, or is it taken care by the compiler?

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    @H2CO3: inline is still necessary for many compilers, which can only optimise a single translation unit at a time. – Mike Seymour Dec 16 '13 at 18:26
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    @H2CO3: inline allows definitions in multiple TUs, so that the function is available for inlining wherever it's called. Without it, there can only be a definition in a single TU, and some compilers won't be able to inline calls to it from other TUs. – Mike Seymour Dec 16 '13 at 18:29
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    @H2CO3: inline is not unnecessary. It's just misunderstood. – John Dibling Dec 16 '13 at 18:32
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    @Hariprasad See also Herb Sutter's article Keywords that aren't – Cubbi Dec 16 '13 at 19:23
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We can find the rationale for deprecating register in defect report 809: Deprecation of the register keyword which says (emphasis mine):

The register keyword serves very little function, offering no more than a hint that a note says is typically ignored. It should be deprecated in this version of the standard, freeing the reserved name up for use in a future standard, much like auto has been re-used this time around for being similarly useless.

The removal of register for C++17 was approved in the Lenexa meeting but it is still reserved for future use.

The register keyword was deprecated in the 2011 C++ standard, as its effect was already implicit in the language. It remains reserved for future use by the standard, and is time to remove its vestigial specification.

Because of the as-if rule the compiler only has to emulate the observable behavior of the program and therefore the optimizer can via the as-if rule choose to keep a variable in a register if it won't effect observable behavior and presumably will in most cases make better choices since it usually has more information.

For reference also see role of "register" C keyword? from the gcc mailing list, one of the replies in the thread says:

I don't think the "register" keyword ever affected register allocation in gcc. For that you have to go back to compilers of the 1970s.

The register keyword does still have a use, though, in a gcc extension: gcc uses it in combination with asm to implement register variables.

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It was never a guarantee that the compiler would listen to you if you used the keyword (and in some cases, it was a guarantee it would ignore you, like if you took the address).

This hinting ability is now deprecated, and there is no replacement (that is standard. inline asm is not standard, but could be used).

  • "would ignore you, like if you took the address" Wow! My C book said the compiler must error in that case. – Joshua Sep 8 '16 at 3:17
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    @Joshua "In C, the address of a register variable cannot be taken, but in C++, a variable declared register is semantically indistinguishable from a variable declared without any storage class specifiers" (from the notes section here: en.cppreference.com/w/cpp/language/storage_duration ). So, your C book is correct for for C, but not for C++. – Tolli Oct 12 '16 at 16:00
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The assumption is the compiler can assign variables to registers better than the programmer, so register has been deprecated and there is no other equivalent keyword in the new standard.

  • Hmmm. Even though a compiler can't profile code execution, and hand-optimize. – CodeLurker Oct 19 '18 at 4:13
  • @CodeLurker Then what's this "profile-guided optimization" (PGO) that I keep hearing about? – Damian Yerrick yesterday
  • Oh right. Still, I'm not willing to grant that assumption. – CodeLurker 23 hours ago
0

Just a note that using JetBrains ReShaper in Visual Studio 2015, I was told register keyword is deprecated in C++11 and removed in C++17 and suggested me to replace it with auto keyword for this piece of code:

float constant = 1.0f / 478.01;
int centerX = (pointcloud.width >> 1);
int centerY = (pointcloud.height >> 1);
auto depth_idx = 0;
for (auto v = -centerY; v < centerY; ++v)
{
    for (auto u = -centerX; u < centerX; ++u, ++depth_idx)
    {
        pcl::PointXYZ& pt = pointcloud.points[depth_idx];
        pt.z = depth_data[depth_idx] * 0.001f;
        pt.x = static_cast<float> (u) * pt.z * constant;
        pt.y = static_cast<float> (v) * pt.z * constant;
    }
}

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