The equality operators have the semantic restrictions of relational operators on pointers:
The == (equal to) and the != (not equal to) operators have the same semantic restrictions, conversions, and result type as the relational operators except for their lower precedence and truth-value resu...
@JohannesSchaublitb std::find with three arguments is defined to use the == operator directly. However, pointers are equality-comparable, just not totally ordered.
Of course, you can explicitly pass std::less to an <algorithm> overload such as std::sort that would otherwise use builtin pointer < and get UB.
@JohannesSchaublitb Then you can just define a function: void Increment(T *& p, std::size_t count) { if (count == 0) return; p += 1; Increment(p, count - 1); }
but §8.3.4/9, the text I was thinking of, is only an informative note. I'd like to think that array membership is transitive so address arithmetic between rows is defined behavior…
@JohannesSchaublitb, I've always wondered why the standard algorithms use two separate overloads instead of one with a default argument. Now it turns out that this strategy can cause UB. Is there a rationale or a historical reason?
although when I brought up such asinine cases to Paolo Carlini at the the GCC stdlib, he seemed to think support for such isn't really important… so maybe it's not such a breaking change as to be a hindrance.
Often in programming discussion, we share code snippets with each other using sites like ideone.com or pastie.org.
The chat already has cool previewing features that show the contents of a link of any image on any site, a Wikipedia article, a StackExchange question, etc.
Can chat fetch and prev...
@LucDanton Unless the compiler is willing to ignore a mismatch with the type of an unused default-argument, such deduction wouldn't get you anywhere anyway.
@LucDanton Just copy the expression from the function parameter list to the template parameter list, put it inside decltype and make that the default template argument.
@JohannesSchaublitb That is most awesome. Is initializer_list<int>{} the best way to throw out a sequence of ostream&, though? Those all get good() called and then the initializer_list object gets constructed, right?
In N3059 I found the description of piecewise construction of pairs (and tuples).
But I can not see when I should use it. I found discussions about emplace and non-copyable entities, but when I tried it out, I could not create a case where I need piecewiese_construct or could see a performance b...
It is possible to write a constructor that accepts two tuples like std::pair does and perfectly build the two members in place even if the types are not movable. But it takes delegating constructors.
but i'm not sure if that's any better than manually constructing the init list. perhaps the best is little macro. #define forall(...) initializer_list<int>{ ((__VA_ARGS__), void(), 0)... } :)
LOL… can't you just create a #define for the comma-containing code, and pass that to the function-style macro? After all you apparently love the preprocessor…
i.e the pattern would be detected by looking for the expression directly preceeding the OP, which in that case is a primary-expression (parenthesizsed expression).
hm wait, that is ill. it would fail with t / 2 *... because 2 is not a valid pattern -.-
yeah I think I agree to the idea: Everything to the left (for left associative operators X) or to the right (for right associative operators X) is taken to be the pattern, until the first operator Y whose precedence is less than the operator X
class A {
public: enum class { HELLO, WORLD };
};
Having known that, inside a class, declaring a simple enum (rather than enum class) is a better idea, because it's already typed with the class identification. But still above statement is a valid C++0x signature. Now how to access an unnamed ...
I did a bunch of embedded C recently and was really surprised by the lack of anonymous unions. They would really come in handy for that language, but nope.
main.c:4:6: warning: declaration does not declare anything
main.c:1:8: warning: struct has no members
main.c: In function ‘main’:
main.c:11:6: error: ‘struct test’ has no member named ‘i’
This is the C99 pedantic error message as opposed to being rejected in C89 mode.
So C99 accepts it but it doesn't do anything
WELP so much for my education.
The weird thing is that I've always compiled in pedantic mode ever since discovering the option. So I've used anonymous structs/unions but not after I've discovered -pedantic and I've never heard/read anywhere that this was an extension.