point is, I hate having to repeat myself. If I say this class has a foo function, then I want it to be usable in any situation where a foo is expected. I don't want to have to write a separate interface saying first "oh, this is what something that has a foo looks like, and then say "oh, and this class, which has a foo also implements the interface which says it has a foo
there's nothing different about "you can only throw what the base class specifies you can throw" compared to "you can only return what the base class specifies you can return"
@RMartinhoFernandes Ok, so it's all a joke. Sorry, I get very frustrated when I hear, "X is so lame... (ignore than X used to be badass, I've never heard that ever in my life)"
if you're very desperate, you could ask the compiler to deduce the throws spec, which would effectively be the union of the throws specs of all the implementations
I understand that Y obsoletes X often enough in the industry. But when people assume everyone agrees and gives no reasons, it's really frustrating to understand what's actually good. I wish people would rather say, "X is obsolete. It was good back then, but this is better." instead of "You use X, my gah, are you mad. X is horrorific, and only lame people use X."
@DeadMG Yes, I can. In library code: void do_stuff(foo& f); // uses f in there and in some application struct throwing_foo : foo { /* implement virtuals and throw blah_error */ }; void blah() { throwing_foo t; try { do_stuff(t); } catch(blah_error&) { /* handle it or something */ } }. When is the throws spec of do_stuff determined? When I compiled it, or when I compiled the code that uses it?
@jalf My struggle to convert locks with stm in my project is making me realize that the Law of Demeter is important. (I used to think it overdid encapsulation.)
Basically, any interface you design with checked exceptions needs throws SomeGenericException and the implementers needs tons of crap to use something as basic as files.
How can the theoretical peak performance of 4 floating point operations (double precision) per cycle be achieved on a modern x86-64 Intel cpu?
As far as I understand does it take 3 cycles for an sse add and 5 cycles for a mul to complete on most of the modern Intel cpu's (see e.g. Agner Fog's ht...
> Ideally, you want both 3DNow and SSE optimized versions of certain algorithms in your program (in addition to a non-optimized version, for testing or portability). But you certainly don't want to litter your code with conditional statements to choose the right version to use at runtime. Compiling a separate version of your program for each processor variant is obviously the optimal solution performance-wise, but it's a tad inelegant (and it's easy to get the different versions confused).
> Using the Strategy design pattern, we can create a single monolithic application which runs the appropriate code on all supported platforms, without the additional costs in performance or code readability of abundant conditional statements.
LOL, a text about SSE and inline assembly also mentioning Design Patterns? :)
If so, I can just do like I do in Java (and lots of people do, including notable library and framework designers): make all my exceptions non-checked and just write my code without the compiler screwing with me.
Even though the compiler will move your instructions around and rename your variables, I find that scheduling it manually in C code will tremendously help the compiler in getting that "optimal" solution.
@StackedCrooked Take a look at the "4 flops per cycle" question I linked. You'll notice that both my code and the OP's code plays with "scheduling" in C.
@DeadMG It hurts when writing some looping function that takes a lambda. The function needs to take a lambda with a throws spec that accepts anything. Otherwise you can't pass it lambdas that throw (and don't tell me it's wrong to throw from inside a loop!).
@Mysticial I can understand about the overclocked one. But the idea that certain software could overheat my CPU would be worrying. I'd expect that this is controlled at bios level or something.
LOL, if I start my program with debugging, I get 305 fps. If I start without debugging, I only get 280 fps :) Must be some weird cache/alignment issue I guess.
@DeadMG Ok. I still have a nagging feeling it will be either not as useful as you want, or too painful, but I'll reserve judgment until you get to that part.
@StackedCrooked That benchmark I wrote puts a VERY unrealistic load on the processor. It was written *with the intention* of using as much power and producing as much heat as possible.
Most PC vendors don't design their hardware to handle such a load since very few *legitimate* applications will sustain such a load long enough to fry a system.
@StackedCrooked oh, interesting, you're still working on that? But yeah, I guess it'd need some pretty well encapsulated (and simple, probably) code to be able to just replace one type of abstraction with another
@RMartinhoFernandes I admit that I am guilty of it in the opposite direction. I sometimes need to program in Java or JavaScript and I just figure it out as I go along.
@FredOverflow However, I'm not confident about my understanding of the this pointer inside lambda's. I always play on the safe side and use named variables.
@KerrekSB I'm only saying that I can't condemn people for trying to use C++ without learning it properly first when I'm doing the same thing in another programming language.
@StackedCrooked yeah, I think it's pretty natural. Looking on the bright side, with SO we have a very useful channel for communicating to them what they need to read/learn
JavaScript truth table:
'' == '0' // false
0 == '' // true
0 == '0' // true
false == 'false' // false
false == '0' // true
false == undefined // false
false == null // false
null ...
