I've found a workaround, but I wouldn't really consider it a viable solution
The current "solution" is to use the WARP driver (software rasterization), which is even slower than Away3D's implementation of virtual 3D in Adobe Flash
Microsoft has some "magic" to fix it in their Copper game. Too bad they didn't release the code for that.
@ManofOneWay Yeah, I guess there could be more exciting work, but it's not too bad. I've considered switching to something where I spent more time writing code, but I've done this long enough that I suspect switching to something else would involve a pay cut, at least for a while.
@NicholeGrace Unless you're using WINE, there isn't really anything like a direct replacement. I suppose <posix.h> + <X11/xlib.h> would be about as close as it gets, but it's not very close at all.
@Moshe Keep in mind that F<sub>n</sub>=F<sub>n-1</sub>+F<sub>n-2</sub>. Square that algebraically and you'll get a three-term polynomial, one of which is F<sub>n-1</sub><sup>2</sup>. Add that term to the second F<sub>n-1</sub><sup>2</sup>.
user457812
Assuming you want to measure time in, say, microseconds or milliseconds.
@JerryCoffin I attempted an algebraic proof but after about 10s of contemplating my expansion I considered that since I found the pattern I'd rather stick to induction.
Of course I haven't even attempted the induction but still...
I want to ensure that, when another thread / process / whatever enters the critical section or uses the variables altered in the critical section, they will recognize the new values of the variables. In a weaker memory model, maybe a critical section isn't enough
Peer of the Realm is a term for a member of the (aristocratic) highest social order (not considering the ruling dynasty) in a kingdom, notably:
* a member of the peerage (noble and equivalent titles granted by the British crown; actually there are several peerage systems, such as the peerages of England, of Ireland, of Scotland, of the UK)
* the English rendering a member of a similar order in another realm, especially the French title pair as used in the French kingdom and the crusader state kingdom of Jerusalem
* nobility proper of the Polish-Lithuanian Commonwealth who enjoyed heredita...
when you have a critical section around that, another thread will not get into there, until the first thread has left the crit section, so you'd only need to worry about another process
@IntermediateHacker it was mostly doing things in Windows in the early 1990's. For example, accessing DPMI, generating forwarder stubs for event handling, controlling hardware. Some of it just for my own enjoyment at doing such things, and some of it because of courses I taught at a vocational school then.
Yes. Most of my assembly level programming has been with assembly modules assembled on their own. E.g., in college (early 1980s), a mixture of PL/M-86 and x86 assembly for controlling a single-board computer to interface an NC (Numerically Controlled machine) "directly" to computer, bypassing the punched-paper-roll...
War story from that project: when u have an 4 layer circuit board with very fine lines, it is not a good idea to use the tip of a screwdriver as a lever to get chips out of their sockets.
well i haven't used the c++11 stuff, but as i understand it the arguments pack is just a syntactical construct, with no runtime existence on its own. maybe i'm wrong?
oh yes it seems i'm wrong
one day i will sit down with this and teach myself things
@MrAnubis problem is the talk-over. better with the music on its own. Someone Else(TM) posted that song to me some months ago, so I guess I'm pretty out of it because these are the only two times I've heard it.
Hello. Do you have an pointers to threads in comp.lang.c++.moderated about if v.push_back(v[0]) is legal or UB? I remember something but cannot find it again...
@6502 check if groups.google.com advanced search is working now. it was down a month ago. but perhaps they fixed.
@6502 that said, it's ungood to do. i can't remember any special provision in the standard that would make it good. so don't do it, or introduce a temporary yourself.
@AlfPSteinbach: this is what i know too. But here on SO there is an answer that says that exception safety requirement implies it's a safe operation (I don't agree, btw).
If Args is { T, U, V } then typename some_template<Args>::type... expands to typename some_template<T>::type, typename some_template<U>::type, typename some_template<V>::type
@AlfPSteinbach: the exception safety requires that in case of an exception nothing happens (nothing includes that no iterator invalidation happens). If copy constructor can throw then before attempting a copy construction on the passed element the old data cannot have been already discarded.
@AlfPSteinbach: however if the compiler knows that copy construction cannot throw (e.g. because the vector elements are ints or doubles) then the deallocation of old data could have been aready done when copying the integer.
> Remarks: Causes reallocation if the new size is greater than the old capacity. If no reallocation happens, all the iterators and references before the insertion point remain valid. If an exception is thrown other than by the copy constructor, move constructor, assignment operator, or move assignment operator of T or by any InputIterator operation there are no effects. If an exception is thrown by the move constructor of a non-CopyInsertable T, the effects are unspecified.
@6502 the only connection between buffer reallocation and exceptions, is if the reallocation fails. other than that they are orthogonal issues. David Rodriguez' answer to that question is just totally wrong.
Unless otherwise specified (see 23.2.4.1, 23.2.5.1, 23.3.3.4, and 23.3.6.5) all container types defined in this Clause meet the following additional requirements:
— if an exception is thrown by an insert() or emplace() function while inserting a single element, that function has no effects.
— if an exception is thrown by a push_back() or push_front() function, that function has no effects.
What I quoted earlier is in 23.3.6.5 (and even if it weren't explicitly mentioned here I still think it would count as 'unless otherwise specified').
@AlfPSteinbach: his point is that to guarantee that "no effects" point in case of an exception from the copy constructor then the old data must still be available when the copy occurs (e.g. there could be an iterator pointing to it and it must remain valid). This forces implementers to (in case of reallocation) 1) allocate, 2) add the element, 3) deallocate old data
@6502 no. by that logic the implementation must ensure the "no effects" with a messed up stack and any other kind of UB. you're already in UB-land. don't listen to word masturbation. it's just that, nothing more (in this particular case, ignoring context).
@AlfPSteinbach: I see your point... if you pass a reference that doesn't live long enough then you already failed to fulfill the contract, whatever happens happens...
@IntermediateHacker: that's "LDA $C030" IIRC, and on Apple ][ that instruction would make a "click" sound on the speaker (the sound hardware on Apple ][ was just a flipflop toggled when accessing $C030).
@DavidRodríguezdribeas: I don't agree the standard mandates v.push_back(v[0]) as legal... do you have any pointer to comp.lang.c++.moderated about this discussion? I remember something but I can't find it right now (it was years ago).
I have almost never looked things in comp.lang.c++, now I do agree with Johannes rationale that the standard does not mandate this, but the way that a compliant implementation can make that undefined behavior is if they detect that copy constructor of the contained type will never throw and write specific code to that effect
now, that is highly unlikely, since the general solution will work for all types of contained objects, and that in turn means that adding code (cost of development, and maintenance) to obtain no benefit is absurd.
@DavidRodríguezdribeas: std::vectors are often much more complex than you think. For example they use tricks to merge implementations for all binary POD types of the same size (to reduce bloating, making std::vector<int>::push_back being the same exact function std::vector<unsigned>::push_back, for example).
As of the Undefined Behavior that Alf points out, I think he is wrong: it is UB to obtain a reference to an invalid object, which is not the case, when the reference is obtained, the object is valid. It is also UB to dereference a reference to a destroyed object, but none of them is this case
@6502 I have actually read the implementation in GCC and VS a couple of times, and there are really interesting things, like the ordering of the copies from the old block to the new one...
I know that they are complex, and I am familiar with that complexity
@DavidRodríguezdribeas: it's UB to pass a function a reference if during the execution of the function the referenced object terminates its life and the function uses it afterward.
there are SFINAE tricks so that copies can be transformed to memmove, and to move (even in C++03, with swap) the contents from the old buffer to the new one... but all of them relate to some optimization
@LucDanton: for e.g. int or unsigned type they know that copy construction cannot throw, so that implementation can just first reallocate and then do a push_back
it is UB to obtain the reference if the object is not alive, and it is UB to dereference after the object is no longer alive, but that does not mean that it is UB to have a reference
@6502 Right, I agree, but going from that (which I admit) to completely wrong on a false assumption is an extra step
FWIW I do get a segfault when pushing back from vector[0] when there is no capacity and the copy throws, whereas if there is still capacity the exception propagates out. Using a snapshot of GCC 4.7.
@DavidRodríguezdribeas: Can I write that implementation myself that handles the case of std::vector<int> that way? Would it be a compliant implementation standing what the C++ standard mandates? Would it make v.push_back(v[0]) make a daemon flying off your nose? Then there's no discussion. v.push_back(v[0]) is not safe for C++ (may be safe for specific implementations.... but that's totally unrelated).
@DavidRodríguezdribeas: if you provide a reference to a function where the referenced object is destroyed before it's used by the function then you have UB. The function in general cannot do anything about it... for example the referenced object may be destroyed as a side effect of ::operator new. It's a CALLER responsibility to ensure that whatever is passed by reference will live long enough... that's why I don't see any problem with v.push_back(v[0]) crashing
$ ./test
/usr/lib/gcc-snapshot/lib/gcc/x86_64-linux-gnu/4.7.0/../../../../include/c++/4.7.0/debug/safe_iterator.h:316:
error: attempt to advance a past-the-end iterator 1 steps, which falls
outside its valid range.
Objects involved in the operation:
iterator @ 0x0x7fffc72d18a0 {
type = N11__gnu_debug14_Safe_iteratorIN9__gnu_cxx17__normal_iteratorIP1TNSt9__cxx19986vectorIS3_SaIS3_EEEEENSt7__debug6vectorIS3_S7_EEEE (mutable iterator);
state = past-the-end;
references sequence with type `NSt7__debug6vectorI1TSaIS1_EEE' @ 0x0x7fffc72d18a0
With C++0x I'd say that std::push_back could be accepting a value (thanks to move construction it could maintain almost the same efficiency as now - only one copy construction done and even no copy construction for a temporary object). Am I wrong?
It's a reasonable default if you need to make a copy inside the body. This is what Dave Abrahams is advocating:
Guideline: Don’t copy your function arguments. Instead, pass them by value and let the compiler do the copying.
In code this means don't do this:
void foo(T const& t)
{
a...
@DavidRodrÃguezdribeas Also checked iterators are not complaining.
@6502: The important bit is where the referenced object is destroyed before it's used. The UB is on use of the reference, where the dead object is accessed. In this case the argument was that it would not be used.
That is, void f( type & obj ) { obj.~type(); /*something else that does not use obj*/; new (&obj) type; } is not UB
even if the object dies (and revives) in the function
as long as the reference is not used while the object is dead
@6502 For a copyable type with no move constructors passing by value means doing one more (possibly expensive) copy, all other scenarios 'win' assuming an inexpensive move constructor. Details will of course depend on QoI.
@DavidRodríguezdribeas: The point is that the standard doesn't say when copying, allocation and deallocation must be done. So an implementation can choose. If the copy constructor can throw then the choice is limited but if the copy constructor cannot throw then the implementation can use a simple "if (no more room) reallocate(); new (*end()++) T(x);"
@DavidRodríguezdribeas: i think that accepting a T would still allow the compiler to produce fast code (moving that value into place instead of doing another copy construction)
@DavidRodrÃguezdribeas we were talking (and you answered an SO question about) copying from a dangling reference in the event of vector buffer deallocation. That is UB. Your answer is wrong.
@DavidRodríguezdribeas: i was thinking in general... push_back accepting a reference is a design error, done for efficiency. Now with move constructor that hack would not be needed. This is not what we have ... it was just a theoretic consideration
@AlfPSteinbach Your statement that passing a reference to an alive object that dies before the function completes is also wrong, that's my point. I have agreed that the implementation could have an specialization for objects that cannot throw that will destroy (and release the memory) before the object is copied.
@David: in particular, wording about "no effect" is irrelevant when there is UB. that cause of the UB does not matter, and is indeed not mention. UB at all isn't mentioned, just as it isn't mentioned anywhere else that "this wording is void in the context of UB". simply put, the interpetation you chose of a general formulation pertaining to strong exception guarantee, is very full of very specific unrelated meaning; i.e. it's hogwash.
@DavidRodrÃguezdribeas it can be, depending on the dynamic situation. just as dereferencing a pointer can be UB, depending on the dynamic situation. so that's the first thing, think about dynamics here.
To fulfill the "no effect" requirement on the event of an exception, the copy from the argument to the destination must be performed before destruction of the original objects
or else if that particular copy failed, the container would have changed, and that would be a violation of the "no effect" rule
consider: vector<type> v( 10 ); // assume that size() == capacity() or add a loop to ensure it v.push_back( type( throw_in_this_case ) );
If the implementation was allowed to copy the elements to the new location, destroy the original objects, release the original block, and then copy the argument, and that copy threw, then the operation would cause an exception and the container would have changed, breaking the "no except" requirement
The interesting bit is that "no effect" forces an ordering of the operations, and that ordering means that unless the type has a throw() copy constructor, that copy must be performed before the original block is modified, which means that v[0] is still alive at that point in time
Right, but the standard already mentions that the language assumes that copy-construction serves as whole and only purpose the creation of a new object equivalent to the argument
on the passing of the reference to the function and undefined behavior, UB is like walking a mine-field,you might get away with no mines exploding, but that does not mean that it is safe. Passing a reference to an object that will die is like crossing the minefield by walking a tightrope: as long as you don't step away from not using the reference after the object dies, you are guaranteed not to trigger any mine
"If an exception is thrown **other than** by the copy constructor, move constructor, assignment operator, or move assignment operator of T or by any InputIterator operation there are no effects. If an exception is thrown by the move constructor of a non-CopyInsertable T, the effects are unspecified."
@AlfPSteinbach Yes, there was some discussions over whether move constructors should always be noexcept --which they should always, it is just that the language does not mandate it
The problem there is that if the Nth move constructor throws, you cannot reverse to the original state (other by unmoving which would require moving that might itself throw), so as you cannot guarantee that you can revert to the original case, the standard just says that you are out of luck
Also, just before that it mentions that if no reallocation happens there are no changes... which can be understood as, if the new allocation throws then there is no reallocation and thus no changes, right?
@LucDanton the idea is that if the implementation is moving and one of the move operations fail, you cannot safely go back to the original state, as all the already moved object have already been modified and with a throwing move constructor/assignment you cannot guarantee that you can revert by re-moving to the original locations
but David, an apology, I turned out to be right, I think, but that was like by happenchance. i failed to see the full of your argument before using strong words. sorry.
@DavidRodrÃguezdribeas The idea is that an implementation would move if noexcept (getting performance + strong guarantee), or just a copy (maintaining strong guarantee). And std::move_if_noexcept is available out of the box to do just that.
A non-copyable type with a throwable move constructor would still be moved (which I just checked to make sure).
But quite frankly from the wording it doesn't seem to be required to be used so it's just a tangent (and in fact I'm peeking under the covers of the libstdc++ to get insights).
@LucDanton Even if it was in use, (and according to your description) if the contained type is not copyable, and has a noexcept(false) specification you would end up in the exact same case
@LucDanton Also in VS, with a comment referring to iteration when copying/moving from the last to the first element saying that it is better that way --no reason explained though, and I don't have VS to reread here
@TonyTheLion automatic version. Stick the pencil loosely in a pencil sharpener. Instead of sharpening, the loose friction will spin the pencil instead, auto-spinning your cassette.