@Mysticial Does this only apply when hashing pointers (or generally numbers that are likely divisible by a power of two). Or is this is principle that aplies to all hashing?
@StackedCrooked For computers, I'm tempted to think that any n that is odd will work pretty well, since I'm not aware of any computer patterns that would have a periods of anything other than a power-of-two.
@Mysticial really, any number that does not divide evenly into the maximum value, assuming they are evenly distributed. For computers, primes work very well
@MooingDuck Correct. Though from the performance side, you have to play games. Once thing to notice is that the "better" the modulus for hashing, the slower it tends to be for the actual division modulus step itself.
@MooingDuck And if you look at the Intel documention for both their integer and floating-point division functions, it says that the latency is lower when the divisor is short or round.
The same "multiply by reciprocal" trick can be used for a lot of small divisors. For larger divisors, it doesn't work because of round-off. In those cases, the compiler may try to factorize the divisor and do each one individually...
And I just got my first downvote in 40 days... great...
huh, MSVC9's std::hash_compare does..... Qrem = hash_value of the parameter, modulo LONG_MAX, divided by 127773. Then returns 16807*Qrem.rem- 2836*Qrem.quot. Then it clamps between 0 and LONG_MAX. Huh.
Overalignment is when the data is aligned to more than its default alignment. For example, a 4-byte int usually has a default alignment of 4 bytes. (meaning the address will be divisible by 4)
The default alignment of a datatype is quite-often (but not always) the size of the datatype.
Overalig...
In this case both my answer and the accepted answer got downvoted... so...
Would it be possible to write a program that can make an image, lets say a circle the size of a dime, move across your computer screen back and forth at the speed of light having a monitor that is lets say 20 inches wide; if not, then would it be possible to make the image move across the screen ...
In fact, in my original example, I want the solution to be the all the naturals in [0, 2^32[. I don't want a single solution. That would prove the formula doesn't work for all of them. I want to prove it works for all, so I want to get 0 = 0.
I'm not playing "find the x". I'm "solving an equation", and that means "finding all its solutions".
unsigned i = 0;
do
{
unsigned a = i / 3;
unsigned b = ((i + 1) * 1431655765ULL) >> 32;
if (a != b)
{
std::cout << "oh noes! " << i << ", " << a << ", " << b << "\n";
return;
}
} while (++i);
std::cout << "yay!\n";
I tried to do some math in a blog post of mine and came to one with a floor function. I wasn't sure how to deal with it so I just ignored it, and then added the ceiling function in my final equation as that seemed to give me the result I wanted. I'm wondering what is the correct way of handling t...
@RMartinhoFernandes As for the proof for the 1431655766 for division by 3. IIRC, the idea is to use ((x + e1) * 1431655766) / 2^32 = x / 3 + e2 and show that e2 us always less than 1. (I might have the epsilons in the wrong place...)
@TonyTheLion I don't know either. I've basically told you what I know. That it's a Cooley-Turky (radix 2) and fixed-point. I upvoted your question btw. (and retagged it)
unsigned i = 0;
do
{
unsigned a = i / 3;
unsigned b = (i * 0xaaaaaaabULL) >> 33;
if (a != b)
{
std::cout << "oh noes! " << i << ", " << a << ", " << b << "\n";
return;
}
} while (++i);
std::cout << "yay!\n";
It works! And the program even contains a bull. Can you spot it? :)
In c++, we love to do something in the destructor.
But in what kind of situation, destructor will not be called?
for examples in the following case:
exit() call in the thread,
unhandled exceptions and exit,
TerminiteProcess() (in windows),
warm/cold reboot computer,
sudden out of power of comp...
In c++, we love to do something in the destructor.
But in what kind of situation, destructor will not be called?
for examples in the following case:
exit() call in the thread,
unhandled exceptions and exit,
TerminiteProcess() (in windows),
warm/cold reboot computer,
sudden out of power of comp...
@CatPlusPlus Seems he's relying on constructors to release remote resources. Hmm.... maybe you should have the remote resource owner ping your process and release if your process doesn't respond.
@MooingDuck I'm psychic. But seriously, this would be a problem. If it's local resources, then it doesn't matter if the process is terminating. However, if it's locking up remote resources, then you could leave the remote resource hanging if you're relying on the destructor.
@Xaade yeah. I have something like that in my code, where a temporary file's destructor cleans it's resources, plus those leaked from previous runs. Then I can stop debugging whenever and it still gets cleaned eventually.
@Xaade Yeah, I've been wondering all week what's the proper way to handle that client side. I don't think there's a good answer. I think the server must detect closed connections and release those resources itself. It could be done, but it wouldn't be "good programming"
@MooingDuck if you wanted to handle client side, you could have a service run in the background, but then if the computer up and offs itself, you need the server to release. Having server release it's resource upon the determination that the client is non-responsive is in fact the correct way.
@RMartinhoFernandes Yeah, that was nice. It saved the clueless answerer from about a dozen downvotes, if you ask me. People were entertained by the comment thread and just missed the non-answer below the fold :)
@MooingDuck My mentality is that if you get a fileNotFound when trying to close a file to release the file resource that was held by an object that just met an error and wants to die, the object is already dead. No need to cry over a job already done.
@Xaade in my case, I had an vector of temporary-file objects that should delete their files when the object is destructed. One failed due to a virus scanner, causing the vector to leak all of them. Plus the vector's internals
@CatPlusPlus Why did you keep mentioning Boost.Exception? It's destructor doesn't seem to throw, and I can't figure out what else you could have been implying
@RMartinhoFernandes Why would that leak? It should either handle the exception, or rethrow. Even if it didn't execution would continue after the scope of that object.
Oh, I see what you mean. I was thinking that b's destructor would be "effectively" at the end of the block. so c would destruct. b would destruct and stop the unwind, and execution would continue at that place of the scope, which is between b's destructor and as. So the next step is as destructor would execute. This held togeather because I imagined the destructors as existing at that place in the code. But you are right that it doesn't quite work like that.