@Abyx The standard library implementation consists of dragons. Fortunately, they're all hidden behind a portable interface, so we don't have to cope with them.
Abyx, this is what I though - now my next question would be: given a pointer to a function, how could I know how large is it? is there a way to figure out how much memory does that function's code occupy?
DeadMG, even if I had total control over the source code? and declared something right after that function and used that address as the "end"?
I have a highly concurrent source code that has some data-race conditions in it. It has unit tests written that pass, but I can spot a couple of places where it could have a potential data race.
so what I'm trying to do, is to get a pointer to the test function, get it's assebly instructions and execute them in a specific order that would reliably fail in case of a data race
a sort of a debugger, that would try to find any interleaving writes to a global variable (any location that lies outside of function's memroy region) and reorder the instructions accordingly
I think I need first to try to experiment with this concept. The first thing I will try is given a pointer to a function (and any other information about a function I might need), try to disassemble it, write it's disassembly to a file, then assemble it back and execute it.
ok - I will try today to write such a debugger for .NET, as it's a bit easier to decode msil code than x86 asm. Then after proving that the concept is valid I will try with native code.
@JohnMerlino No, definitely not. To the contrary — when you learn C first, you will have to unlearn a lot of the stuff in order to learn to write good C++.
You pick C when
you need portable assembler (which is what C is, really) for whatever reason,
your platform doesn't provide C++ (a C compiler is much easier to implement),
you need to interact with other languages that can only interact with C (usually the lowest common denominator on any pl...
Design pattern overuse is the programming version of the common aesthetic-imitation/role-playing failure mode. http://news.ycombinator.com/item?id=2793998
> I sometimes wonder what would have happened to the software industry if the entries in GoF had been written in a different order. Would we see a plague of Visitors and Observers?
why not
pure string foo(immutable int bar)
{
newbit = to!string(bar);
return "Number: " ~ newbit;
}
I actually don't even know what language this is, but that would be the basis of doing it I think.
@EtiennedeMartel I noticed a tendency that I tend to play a game at most 200h. Of course that's not for all games, but so far the multiplayer games that I've been playing (ever since Steam displays total time played) most hover near that value.
This question is from my digital logic class but I don't understand it. Please help me understand what it is asking me.
Lets say A1 and A2 are octal shorthand.
Perform the following 1's complement fixed-point integer arithmetic operations and note whether magnitude overflow has occurred in e...
I used to use VLC about >10 years ago, but it was still pretty bad back then, so I switched away from it and never tried it again. I suppose it's much better now.
On another note, I think one of the popular alternative to VLC is Media Player Classic Home Theater or something, which shouldn't be confused with the original Media Player Classic (which has been orphaned).
Other than that, the Windows Media Player has its users I think.
There's simply no other portable allocation primitives than malloc, new and friends (operator new etc). If none of those satisfies your requirements, whatever they are, switch to something specific to your platform. Or explain yourself better (perhaps a memory arena + custom allocator would fit your problem, but what do I know).
You pick C when
you need portable assembler (which is what C is, really) for whatever reason,
your platform doesn't provide C++ (a C compiler is much easier to implement),
you need to interact with other languages that can only interact with C (usually the lowest common denominator on any pl...
why not
pure string foo(immutable int bar)
{
newbit = to!string(bar);
return "Number: " ~ newbit;
}
I actually don't even know what language this is, but that would be the basis of doing it I think.
This question is from my digital logic class but I don't understand it. Please help me understand what it is asking me.
Lets say A1 and A2 are octal shorthand.
Perform the following 1's complement fixed-point integer arithmetic operations and note whether magnitude overflow has occurred in e...
