I think people think cubes are good because people can't see what you are upto. Which is nice, but what's really nice is when people don't care what you are upto, they just trust you to know how to get shit done whilst also keep your marbles with a bit of slacking here and there.
> I'm looking to implement something similar to the deferred IEnumerable concept in C++, but without template implementations. (My question is very similar to this other question, except for the deal-breaking templates.)
int b;
void someMethod(int a)
{
b = a + a;
}
int main()
{
someMethod(5);
return 0;
}
gets optimized with g++4.8 to b = 10 (movl $10, b(%rip))
lol
@Puppy yeah I guess I need to check for each platform I use
anyway, it doesn't matter that much, I wanted to write a function that had a body only when a certain flag was defined, and if that flag wasn't defined I wanted to essentially remove all superfluous calls to the function
Hey, is there a way to store STL containers in the same variable? Like x could be either a vector or a set? The reason I ask is because I have two identical transform statements, which do the exact same thing except they operate on different containers. It'd be nice if I could just if/else the right container into a pointer, and then use that in a single transform.
It'd be nice if I could use auto, but the problem is that auto has to know what it is at declaration, where I would need to do something like auto var; if(x) var = n; else var = m;
I said norm, not exclusive ಠ_ಠ obviously we still have to support shitty mac shitty pants with his 30 year old hunk of junk, but why are we not building 64bit as standard?
> Knuth’s famous quote about premature optimization was never meant to be a stick to beat people over the head with. It’s a witty remark he tossed off in the middle of a keen observation about leverage, which itself is embedded in a nuanced, evenhanded passage about, of all things, using gotos for fast and readable code.
> Not only goto statements are being questioned; we also hear complaints about floating-point calculations, global variables, semaphores, pointer variables, and even assignment statements. Soon we might be restricted to only a dozen or so programs that are suffi- ciently simple to be allowable; then we will be almost certain that these programs cannot lead us into any trouble, but of course we won't be able to solve many problems.
@KonradRudolph Since pointers are iterators, I think that implicitly, the same rules apply. I'm pretty sure that it's illegal to de-reference a one-past-the-end pointer.
@Puppy I’m pretty sure too, but this wording is clearly not enough to be binding. Pointers are not iterators (unless somebody can find a statement to that effect), random-access iterators are just modelled after pointers
@KonradRudolph I'm not sure if the Standardese says it explicitly, but a bunch of the interfaces in the stdlib are explicitly designed that way for the explicit purpose of accepting pointers as RA iterators. But I'd try looking in the basic object stuff- it's probably in that (&obj) + 1 wording.
I have a non-binding footnote: ‘267) This definition applies to pointers, since pointers are iterators. The effect of dereferencing an iterator that has been invalidated is undefined.’
@KonradRudolph I would as well. Those kind of things (memory, lifetimes etc.) are normally worded to explicitly say painstakingly under what circumstances so-and-so is allowed, meaning anything else isn’t. Prohibiting is rare.
> [...] If the result points one past the last element of the array object, it shall not be used as the operand of a unary * operator that is evaluated.
@LightnessRacesinOrbit Pretty sure that last time, I said it was plain illegal, then someone owned me with Standard quotes explicitly stating the opposite for something like unsigned char. Might have been char or signed char.
@Rapptz lol yes. the idiot didn't understand that * is a dereference, because the standard doesn't use the word to the degree he'd like, and he thinks it should therefore have more to do with references
Consider:
int* ptr = (int*)0xDEADBEEF;
cout << (void*)&*ptr;
How illegal is the *, given that it's used in conjunction with an immediate & and given that there are no overloaded op&/op* in play?
(This has particular ramifications for addressing a past-the-end array element &myArray[n], an e...
I have seen it asserted several times now that the following code is not allowed by the C++ Standard:
int array[5];
int *array_begin = &array[0];
int *array_end = &array[5];
Is &array[5] legal C++ code in this context?
I would like an answer with a reference to the Standard if possible.
It w...
Opinion varies wildly, as you can see, but I believe most SO experts nowadays treat it as UB, to be safe if nothing else because the standard as of C++11 is still ambiguous in this.
@LightnessRacesinOrbit Well I definitely now that it fails on some compilers (well, at least on one) so it’s really not up for discussion in C++. But in C the situation could be very different
In C++-land, I’m fairly sure that ‘The unary * operator performs indirection: the expression to which it is applied shall be a pointer to an object type, or a pointer to a function type and the result is an lvalue referring to the object or function to which the expression points.’ is enough to rule out C-style tricks. As I recall, a past-the-end pointer simply doesn’t refer to an object. Most of the time.
@LightnessRacesinOrbit Actually, that accepted answer there is utter bullshit, I can’t believe jalf ever wrote this.
> &array[5] dereferences array+5 (which as far as I can see is legal, and results in "an unrelated object of the array’s element type", as the above said)
If the whole of a program is int main() { int a[5]; &a[5]; } it is very obviously invalid, as there are exactly five int (sub)objects and a + 5 cannot possibly refer to one of them. Ergo, invalid dereference.