MyClass a1 {a}; // clearer and less error-prone than the other three
MyClass a2 = {a};
MyClass a3 = a;
MyClass a4(a);
Why?
I couldn't find an answer on SO, so let me answer my own question.
I hope some people find it helpful!
If you use auto a = x * 5someliteral where * returns an expression template, that template has a reference to a temporary object that will be destroyed at the end of the expression.
The only problem I really have with that style is the move / copy, even if I trust the compiler to eliminate it. It still bugs me in the back of my head.
If zip(a, b, c) returns a zip_range<A, B, C> which has a member zipped_ranges which is a tuple of the, well, zipped ranges, what happens for round_robin(a, b, c)?
roundRobin(r1, r2, r3) yields r1.front, then r2.front, then r3.front, after which it pops off one element from each and continues again from r1. For example, if two ranges are involved, it alternately yields elements off the two ranges. roundRobin stops after it has consumed all ranges (skipping over the ones that finish early).
From D.
I've seen the term in use in general in CS. Comes up often when it comes to scheduling, queuing and so on.
If you're interested in how writing a range works I recommend not starting with round robin. Mostly because I haven't implemented it (ffs I'm just starting).
If you're interested in how writing a range works I recommend not starting with round robin. Mostly because I haven't implemented it (ffs I'm just starting).
As you can see from the code snippet below, I have declared one char variable and one int variable. When the code gets compiled, it must identify the data types of variables str and i.
Why do I need to tell again during scanning my variable that it's a string or integer variable by specifying %s...
Consider the following C++ code:
void* a = &a;
Why doesn't the compiler complain for using an undeclared identifier?
Also, what does the compiler consider the variable a to be? Is it a pointer to a void object or is it a pointer to a void* pointer?
@MarkGarcia Looks defined to me. Before initialization, the content of a isn't defined, but its address clearly is, so using the address to initialize the content is fine.
@MarkGarcia Too late for that. C++11 uses phrasing like "sequenced before", "sequenced after", "unsequenced" or "indeterminately sequenced with respect to" to describe sequencing (and note that "unsequenced" is different from "indeterminately sequenced").