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In Stroustrup's C++ Programming Language book (3rd edition), in the Numerics chapter he shows the following code snippet:

void f(valarray<double>& d)
    slice_array<double>& v_even = d[slice(0,d.size()/2,2)];
    slice_array<double>& v_odd = d[slice(1,d.size()/2,2)];

    v_odd *= v_even;
    v_even = 0;

The problem is, v_even and v_odd are non-const references to temporaries, which isn't allowed. And attempting to compile this emits an error:

error: non-const lvalue reference to type 'slice_array<double>' cannot bind to a temporary of type 'slice_array<double>'
    slice_array<double>& v_even = d[slice(0,d.size()/2,2)];
                         ^        ~~~~~~~~~~~~~~~~~~~~~~~~

I checked through all of the errata available online and there's nothing that touches upon this fundamental problem. Am I missing something? Did the language change in this regard since the book was printed (unlikely, since the book itself mentions the rule against non-const references to temporaries)? What's going on here?

If I modify the function to use values instead of references, e.g. slice_array<double> v_even = ..., then this actually compiles. However, it turns out my local C++ headers make the copy constructor public, whereas Stroustrup and various online references (, claim the copy constructor is private. I assume that means this solution is non-portable. This is reinforced by the fact that Stroustrup explicitly lists a code sample with non-reference variables and says this produces an error.

The C++98 spec (PDF) declares slice_array<T> as having a private copy constructor. By 2005 (according to this spec), and presumably as part of C++03, this changed to a public copy constructor.

share|improve this question
"Did the language change in this regard since the book was printed" The reference binding rule is very old; valarray is more recent. It looks like an error (by BS). – curiousguy Aug 14 '12 at 6:26
@curiousguy: The book has gone through 20 printings. I looked through all of the errata; 2 printings made changes to this function, but amusingly, the second change actually reverted the first. And neither change was related to the issue at hand. – Kevin Ballard Aug 14 '12 at 6:27
"The book has gone through 20 printings." and it begins to converge? – curiousguy Aug 14 '12 at 6:32
It also surprised me to learn Stroustrup isn't perfect, I know. – Mehrdad Aug 14 '12 at 6:37
@Anonymous: how incredibly offensive, presumptuous and ignorant. – Tony D Aug 14 '12 at 7:01
up vote 9 down vote accepted

There seem to be a couple of different issues with the original code sample, and also the declarations given in the book for a number of operators.

The 'best' solution I believe is to do as follows

void f(valarray<double>& d)
    const slice_array<double>& v_even = d[slice(0,d.size()/2,2)];
    const slice_array<double>& v_odd = d[slice(1,d.size()/2,2)];

    v_odd *= v_even;
    v_even = 0;

All operators on slice_array<T> are defined as const as they are not modifying the slice itself, but the contents. These are defined incorrectly in the book as non-const.

share|improve this answer

This seems to be published in errata(although the link is dead now).

However google is great, it shows a snap for a search like this "slice_array& v_even"

Stroustrup: Errata for 3rd printing of The C++ Programming Language
[Cached][Share] Shared on Google+.
View the post.
You +1'd this publicly.

void f(valarray<double>& d)
    slice_array<double>& v_even = d[slice(0,d.size()/2, 2)];
    slice_array<double>& v_odd  = d[slice(1,d.size()/2,2)];

    v_odd *= 2; // double ...

EDIT:- Thanks for edit in question Kevin ,it is not an error anymore I can see in N3092 clearly mentioned (§ 26.6.1,Pg 944)

4. Implementations introducing such replacement types shall provide additional functions and operators as follows:
— for every function taking a const valarray&, identical functions taking the replacement types shall be added;
— for every function taking two const valarray& arguments, identical functions taking every combination of const valarray& and replacement types shall be added.

5. In particular, an implementation shall allow a valarray to be constructed from such replacement types and shall allow assignments and computed assignments of such types to valarray, slice_array, gslice_array, mask_array and indirect_array objects.

Further my compiler is not giving any issue(presently VS 2010) with the code,compiles perfectly.

share|improve this answer
That referenced page is actually live here, and it says to change f() to... and prints an exact duplicate of the function. – Kevin Ballard Aug 14 '12 at 6:32
I think that thing was updated one, which google cached,may be some (Ctrl+C,Ctrl+V)error while shifting document ;) – perilbrain Aug 14 '12 at 6:34
Note that msvc is known to falsely being able to have non-const references to temporaries. – PlasmaHH Aug 14 '12 at 10:32
@PlasmaHH not falsely, it's an extension to the language. – RedX Aug 26 '13 at 6:23
@RedX: You can call every deviation from standard c++ an extension if you want, that doesnt change anything in the fact that its noncompliant. – PlasmaHH Aug 26 '13 at 7:55

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