I need to pass a pointer momentarily through a scripting interface (Tcl). Can I safely convert the pointer value to string and back using stringstreams like this?
I want to file this here for later reference, because it's a handy quote to have at haned, and while I'll forget about it very quickly, I am sure @RMartinho will remember it when the time comes:
> If you are an American, you must allow all ideas to circulate freely in your community, not merely your own. — Kurt Vonnegut
As long as you cast it to the original type and the 'address' (pointer value) isn't altered outside the control of the compiled code, there is no issue @StackedCrooked interpret 'same type' strictly (including const-volatile qualifiers and alignment)
Hello all! I came here to find out if some of you would have the time to help with this question about std::bind. It exposes a strange behavior when using duplicate placeholders in the bind expression, and I would like to have your opinion on the matter.
(By the way, this is my first time on the chat, so feel free to give me a roasting if I'm not respecting some rules or customs!)
@bamboon Definitely. But adding it to the title would have changed the question. Who would've guessed denormals anyway? (it took me about 15 min. of tinkering before I started to suspect them...)
I have a program which does some very intensive graphics work, and requires a lot of memory (> 8GB), however my machine has only 8GB of RAM currently, which means the program throws a bad alloc when it runs out of memory.
Besides this program, I had some other things open that used a bit of my m...
if you have a page that's currently shared between two processes, but not actually shared memory then some systems keep a page of swap so that if it does change they don't fail randomly and very ungracefully later
@TonyTheLion Never count on swap... run out of ram with a single program has a tendency to stall the system to a standstill if it allocates on to the pagefile.
it's one of the reasons why I prefer not to test code on my main work machine... everytime I miscalculate how much memory it needs, or if I have a memory leak... BOOOM...
@MooingDuck That's not a problem when I'm programming since compiling will save it. But I often have multiple temporary notepad windows with code or script snippets that I use to test or move code around...
if you're compiling in Visual Studio, the "current directory" is [solution]/[project] (the folder with the .cpp files). If you're running a program, the "current directory" is [solution]/Debug/
@unNaturhal Why don't you just click on the link I even provided? Damn. Tries to restrain himself. The very first hit google spits at me is that damn header.
I'm trying to fscanf into a structure ` fscanf(album_file,"%d", album[j].num_tracks[j]);` but it is giving me this error `expected expression before 'album' `
I'm trying to fscanf into a structure fscanf(album_file,"%d", album[j].num_tracks[j]); but it is giving me this error expected expression before 'album'
@FrankComputer imagine you have a list of students. How would you say one is "it"? You need to get the address of whoever is "it" and store that in a pointer. You need to refer to a student, but which one changes.
@MooingDuck So someone comes in here, drops a few strange terms with a "why" stuck in front of it, referring to nothing we have discussed, and you know what he's talking about??
A declaration introduces an identifier and describes its type, be it a type, object, or function. A declaration is what the compiler needs to accept references to that identifier. These are declarations:
extern int bar;
extern int g(int, int);
double f(int, double); // extern can be omitted for...
@FrankComputer Sorry if I sounded aggressive, that wasn't my intent. Pointers allow a lot of things that aren't possible otherwise. Sure they're easy to screw up, but making them safe makes programs much slower.
@FrankComputer Remember that C was created as a portable assembler, in order to be able to do (almost) anything in it that can be done in assembler, but to be more easily portable than real assembler code. (C++ stuck to this close-to-the-metal attitude.) In assembler, you can certainly address individual memory cells. A pointer just models this (besides other stuff).
@FrankComputer When writing C++, I rarely ever write T*. Mostly I'm writing either T& or plain T. With all the great stuff the standard library brought us, most uses of pointers are neatly wrapped.
Pointers are easily embarrassed, and don't want to be used naked. Always wrap them.
@Pubby Show me a piece of C++ code that can be improved by using goto which could not be improved further by some other means. (Or don't bother. In the 15 years I have been watching this debate nobody has ever produced such code.)
@sbi there's some bits in the Linux kernel, where he uses them in conjunction with a switch block, that many claim is justified, for speed and readability.
@FrankComputer Please do not be offended when I will bow out of the discussion right here. (And you really do want to talk to C people. C++ folks will get mad over you for the code this will inevitably bring up.)
@Pubby But I do want! I just put those two loops into their own (inlined) function, and return from that. (Besides this replacing an unstructured goto with a structured one, it also has the advantage that now the two loops have a name, which might make obsolete a comment explaining what they do.)
@Pubby A goto is a jump-to-anywhere. It's directly modeling the machine's jump instruction. Over time, languages have developed structured alternatives to using jump-to-anywhere, like call, return, break, if, for... They fulfill the same task — in the way static_cast does the same as a C-style cast does.
@MooingDuck Same here. As I said, I have seen this debate go on and on for at least 15 years. Every piece of code I saw where goto was better than any of its alternatives was C code. In C++ code (mostly thanks to RAII), you don't need goto.
I’m all in favour of this. It’s fun, and crunching trolls this way would be extremely satisfying. :-)
