@Mysticial Specifically number crunching is where there should be less of a difference. What features of C++ (or maybe C) might speed number crunching that are not available in C#?
Note that it is a language that has both reference and value semantics, and that for value types (including all primitive types and user defined structs) the generic containers behave kind of like C++ containers. That is, unlike Java, there is no boxing/unboxing on vector-equivalent containers
@Pubby They might make it harder to do it right. Consider Java, if you decide to use a generic container as your data structure, numbers will be boxed into objects, and iterating over the Vector means iterating over a vector of pointers to Double, so there is actually two jumps to get to the value, and locality of references is lost which in turn hits performance really hard --the cache loader cannot pre cache the next operands effectively
@DavidRodríguezdribeas I didn't know Java had boxed vectors, but yeah, very good point. I was more thinking about single computations though, like arithmetic and such.
And there is also what Pubby mentioned above, I don't think that (assuming that you implement your own c++ style vector on top of plain arrays) the hit would switch to SIMD instructions on the fly.
@Ell In general, when you need to pass an Object around and you have a primitive type, languages create object wrappers.
As of containers, Java generics are a poor man's implementation of generics, it introduces type safety at compile time, but don't change the fact that the actual underlying container manages Object (it just checks at compile time that the values inserted are of the right type, and injects casts when reading the elements back)
java.util.Vector<String> is actually a java.util.Vector with extra checks and casts on the interface, but there is a single binary implementation of Vector for all types
("hit" a few lines above is a typo, it should be JIT --damn autocorrect!)
In this code sample from http://www.gotw.ca/gotw/005.htm, I was shocked to learn that in class Derived, f(int) and f(double) are not visible!
class Base {
public:
virtual void f( int ) {
cout << "Base::f(int)" << endl;
}
virtual void f( double ) {
cout &l...
Isn't the whole point of autocorrect to deal with the fact that touchscreen keyboards are crap compared to actual proper keyboards when it comes to input?
@Ell That's a design decision on which I was not involved :) Backwards compatibility at the VM level is probably one of the causes, changing the object model is probably another. The design decision is that with or without generics you cannot have Vectors of primitive types.
@rubenvb I hate it. I prefer my mistakes than it's mistakes. Try to write the << operator here:
std::stream& operator<<( std::stream& o, T const & )
@Pubby: In Java before generics Object was the only way to have collection classes like linked lists and dynamics arrays without having to duplicating code for each type.
aka this is using those constructors of shared_ptr that allow to construct a 'view' into shared pointee or something with associated lifetime. Want an example?
copied it from wikipedia but then i decided to make the seed into a struct, i noticed it ran slower as a struct, so i tested how to make it faster... i tried all combinations and noticed static mystery on the run
also i noticed that without static keyword it runs also slightly slower, not much... which i understand even less
i mean i removed static keyword when the variables were outside of function
Xorshift random number generators form a class of pseudorandom number generators that was discovered by George Marsaglia. They generate the next number in their sequence by repeatedly taking the exclusive or of a number with a bit shifted version of itself. This makes them extremely fast on modern computer architectures. They are a subclass of Linear feedback shift registers, but their simple implementation typically makes them faster and use less space.
Example Implementation
A C version of one xorshift algorithm is:
uint32_t xor128(void) {
static uint32_t x = 123456789;
static ui...
I’m trying to write a grammar for a language which allows the following expressions:
Function calls of the form f args (note: no parentheses!)
Addition (and more complex expressions but that’s not the point here) of the form a + b
For example:
f 42 => f(42)
42 + b => (42 + b)...
@CatPlusPlus Eh, my vaporware is using Scheme which seems like a perfect fit for it, much more appropriate that Haskell. I'm almost certain that DF follows Greenspun's tenth rule.
Although I'd prefer state[x][y] over some elegant yet overly complicated Haskell gobbledygook anyday.
@KonradRudolph I don't know anything about PEG or what you're doing, but I parsed an almost identical grammar using parsec and found it extremely simple to do so.
Never heard of Wiki? Ikiwiki, docuwiki, moinmoin, etc. all do this but better. At least docuwiki does export to static html files so you can have your cake and host it on S3 too
404 Not Found
Code: NoSuchKey
Message: The specified key does not exist.
Key: Specification/Language/Statements/..\Grammar.html
RequestId: B852DE2095AF5E67
HostId: 6oFoK57DxuypMTkVLsZG2p//a6w+btOZUBR2DK+clmdGmBrim8NiMCMYNEVWF/OA
Obviously, your windowsy paths are completely out of line in a HTTP setting
@vastutsav to be honest, a simple loop would be ok too. I don't really see what problem you have, so perhaps post what you got and the point where you are stuck on
@DeadMG these are regular bookmark links (to anchors or something). Teach me how to link to a 'line'? I don't think that is possible, unless the target element has an id