What kind of jobs did programmers do before programming existed? Were there a lot of dissatisfied bureaucrats, farmhands and hawkers with a terrible itch to change career, but never sure quite what to change to?
> Electronic engineers, and before that mechanical engineers and before that blacksmiths. Which explains why most of us have a deep genetic urge to take a large hammer to a computer occasionally.
I hate specifications like that. I saw one the other day. cplus.about.com/od/programmingchallenges/a/…Take a text file of bits. This represents International Morse Code encoded into binary with a 1 representing a dot, a 0 representing the pause between dots and dashes, and a dash is 111. The space between two letters in a word is 000 and between two words is 0000000. Turns out it was '1' chars and '0' chars.
I had to write an "translator" but luckily that's easy
@Ell: you make a unique_ptr that owns a object. Then comes the assignment. The assignment takes the object from the first pointer, so that the temporary no longer contains a node. Then the temporary goes out of scope, and deletes nothing
std::move is just a nicely-disguised cast to an xvalue. Nothing gets actually moved by std::move. It just enables moving on something that would otherwise not be allowed to move from.
@Ell: know how a vector contains copies of all it's element? Making a copy of a vector is slow, because it has to copy the entire thing. But if you assign a temporary (rvalue) vector to a named (lvalue) vector, the named vector can simply take the internal array of the temporary, and the temporary will own nothing. It's way faster.
I was wondering if anyone could tell or explain some real life examples of xvalues, glvalues, and prvalues?. I have read a similar question :
What are rvalues, lvalues, xvalues, glvalues, and prvalues?
but I did not understand what everyone meant. Can anyone explain in what cases these values a...
In C++03, an expression is either an rvalue or an lvalue.
In C++0x, an expression can be an:
rvalue
lvalue
xvalue
glvalue
prvalue
Two categories have become five categories.
What are these new categories of expressions?
How do these new categories relate to the existing rvalue and lva...
@Ell RVO and move semantics are two distinct things. RVO already existed in C++98. move semantics is new in C++11 and kicks in if RVO cannot be applied.
@Ell Depends. When you return an automatic object, move semantics is implicit (unless RVO kicks in, in which case we don't need move semantics). But you can explicitly request it in other contexts with std::move.
It always boggles me why people downvote posts that clearly answer the OP's question correctly with thorough & complete answers simply because of a tiny little semantic error
@FredOverflow: Apperently the intention is it should be callable multiple times, and can fall back on new if needed, but it should in general be faster than new. However, stackoverflow.com/a/3264638/845092 says MSVC and GCC just use new.
@Seth: That the question I linked to in my subsequent post :D
@FredOverflow: I'm having trouble thinking of a good use-case for that, except where you need to multiply and divide floating point values by 10 a lot.
@rubenvb I bet that at least 90% of people posting a link to "What Every Computer Scientist Should Know About Floating-Point Arithmetic" have never actually read the text. If they had, they would realize that it is way too complicated to explain to a beginner what the problem is. I can explain that on one page.
Part of the reason is that those kind of tasks are complicated to implement in hardware. They take up too much silicon, and rarely are performance critical
@wilhelmtell: I guess there's nothing in the spec that says an object being moved from should be changed in any way. It's just left in an unspecified, destructable state
@Ell: The more you learn, the more you find that C++ can't do though. Efficient arbitary precision integer addition for instance. Because we can't access the carry flag.
In C++03, an expression is either an rvalue or an lvalue.
In C++0x, an expression can be an:
rvalue
lvalue
xvalue
glvalue
prvalue
Two categories have become five categories.
What are these new categories of expressions?
How do these new categories relate to the existing rvalue and lva...
@FredOverflow: At 13:24 I said std::ostream t = std::move(std::cout); At 13:28 you said std::ostream&& r = std::move(std::cout); does not move ... std::ostream o = std::move(std::cout); moves.
I just finished listening to the Software Engineering talk radio podcast interview with Scott Meyers regarding C++0x. Most of the new features made sense to me and I am actually excited about C++0x now, with the exception of one. I still don't get "Move Semantics"... What are they exactly?
@FredOverflow was experimenting. i thought there was an issue with moving streams, but no, you need to try hard to make damage (use std::move() explicitly)
I haven't read the rvalue sectrions in the standard yet myself. i need to do more blog readings before i go hardcore with the standard. but i find dave abrahams writes well. he wrote quite a bit about rvalues (cpp-next.com).
What kind of jobs did programmers do before programming existed? Were there a lot of dissatisfied bureaucrats, farmhands and hawkers with a terrible itch to change career, but never sure quite what to change to?
In C++03, an expression is either an rvalue or an lvalue.
In C++0x, an expression can be an:
rvalue
lvalue
xvalue
glvalue
prvalue
Two categories have become five categories.
What are these new categories of expressions?
How do these new categories relate to the existing rvalue and lva...
I just finished listening to the Software Engineering talk radio podcast interview with Scott Meyers regarding C++0x. Most of the new features made sense to me and I am actually excited about C++0x now, with the exception of one. I still don't get "Move Semantics"... What are they exactly?
