Does anyone happen to know if (theoretically) passing a POD struct by value to a function would be slower or faster than passing each of its member variables by value to the function as separate parameters (for instance, it would enable/prevent certain optimisations or something)
This site, Code Academy, is meant to teach Javascript, but some of the code they write is awful. Terrible terrible practises at points. And telling you to use things when others would be way more efficient
This is a silly thing about Dennis Ritchie vs Steve Jobs. It's just about time when Dennis Ritchie has shone. People tend to forget things. Including Steve Jobs, just wait.
Programming languages are too big to teach well. You can teach people "Hello, world!" but then you also have to teach what cout is and why << works like that, and then you're already into OOP.
@EthanSteinberg The best parts for your average developer, namely rvalue references, lambdas, and type inference are implemented by all major compilers (MSVC, GCC, Clang)
user406009
What bs are you talking about. Clang has no lambdas.
C++ is already a pretty damn complicated and SCARY language to begin with... Now they add "SCARY" iterators. That's one way to SCARE away any poor sobs who are trying to learn C++, lol.
> N2911 explains that the acronym SCARY “describes assignments and initializations that are Seemingly erroneous (Constrained by conflicting generic parameters), but Actually work with the Right implementation (unconstrained bY the conflict due to minimized dependencies).”
I think they should've named them SCARED iterators, though. They're too scared to depend on the "parent" class' template parameters
> Seemingly erroneous (Constrained by conflicting generic parameters), but Actually work with the Right implEmentation (unconstrained by the conflict due to minimized Dependencies).”
Oh, I'd managed to erase this from my mind for a while: Part of my company's java code works like a psudo-state machine. And they switch states by throwing exceptions.
@Maxpm I like how the commenter thinks that GoTo is a good thing, disregarding why it "was suddenly evil." Being that, all speculation on program flow and execution is shot when you hit a goto.
In computer programming, COMEFROM (or COME FROM) is an obscure control flow structure used in some programming languages, originally as a joke.
COMEFROM is roughly the opposite of GOTO in that it can take the execution state from any arbitrary point in code to a COMEFROM statement. The point in code where the state transfer happens is usually given as a parameter to COMEFROM. Whether the transfer happens before or after the instruction at the specified transfer point depends on the language used. Depending on the language used, multiple COMEFROMs referencing the same departure point may be...
@EtiennedeMartel No, I mean yeah you can use exceptions to do a GoTo. But all exceptions inside a try, will go to the same place..... it's more of an multi-from-single-to.
"On 1 April 2004, Richie Hindle published an implementation of both GOTO and COMEFROM for the Python programming language.[2] Despite being released on April Fools' Day and not being intended for serious use, the syntax is valid and the implementation fully works."
> The manual also contains a "tonsil", as explained in this footnote: "4) Since all other reference manuals have Appendices, it was decided that the INTERCAL manual should contain some other type of removable organ."
"A Sieve of Eratosthenes benchmark, computing all prime numbers less than 65536, was tested on a Sun SPARCStation-1. In C, it took less than half a second; the same program in INTERCAL took over seventeen hours.[6]"
My headset's microphone doesn't seem to work anymore. Now it just picks up lots of loud static instead. Which it insists on playing. Time for a new headset.
Consider the following simple map:
class MyCoolMap : public unordered_map<const char *, const char *>
{
public:
ProtoTypeMap()
{
insert(value_type("in1", "out1"));
insert(value_type("in2", "out2"));
...
insert(value_type("inN", "outN"));
}
};
Now, suppose I need to ...
I'm working on a fixed point precision class. By default should I print only digits that are 100% accurate, or should I print as many digits as possible?
In arithmetic, repeating decimal is a way of representing a rational number. Thus, a decimal representation of a number is called a repeating decimal (or recurring decimal) if at some point it becomes periodic, that is, if there is some finite sequence of digits that is repeated indefinitely. For example, the decimal representation of or 0.3 (spoken as "0.3 repeating", or "0.3 recurring") becomes periodic just after the decimal point, repeating the single-digit sequence "3" infinitely. A somewhat more complicated example is where the decimal representation becomes periodic at the second ...
Is this a correct implementation for a generic atomic swap function? I'm looking for a C++03-compatible solution on GCC.
template<typename T>
void atomic_swap(T & a, T & b) {
static_assert(sizeof(T) <= sizeof(void*), "Maximum size type exceeded.");
T * ptr = &a;
...
On the default floating-point notation, the precision field specifies the maximum number of meaningful digits to display in total counting both those before and those after the decimal point... In ...fixed[point] ... notations, the precision field specifies exactly how many digits to display after the decimal point, even if this includes trailing decimal zeros. The number of digits before the decimal point does not matter in this case.
The whole streams area of the library makes me thing "Forget that. Throw it out, and start over."
I have a class interface written in C++. I have a few classes that implement this interface also written in C++. These are called in the context of a larger C++ program, which essentially implements "main". I want to be able to write implementations of this interface in Python, and allow them ...
Besides any other possible errors, which I don't see at the moment, this construct is not allowed:
struct std::less<MY_orderID_t>
{ /**/ }
std::less is already a type, so you cannot redefine it as another type.
> Pro-Tip: Assume you are running on the Death Station 9000, a machine whose primary operating system allocates memory from the brains of kittens, and only puts it back if told to do so explicitly. Also, any instance of undefined behaviour will result in the destruction of the Earth. – Kaz Dragon ↵ 6 hours ago
Seriously, though: Every programmer (at least those who dare to look at C++ code) will have seen a directory structure laid out like this. So, I'd say that this fits right with rule #1, and is at worst a slight violation of #2.
I have a made a simple program that reproduces the problem:
#include <boost/archive/text_oarchive.hpp>
#include <boost/archive/text_iarchive.hpp>
#include <boost/serialization/serialization.hpp>
#include <boost/tuple/tuple.hpp>
#include <sstream>
#include <iostre...
hmm, I found an error in my fixedpoint class benchmarks, float was cheating. Now I'm showing that floating point division is ~21 times slower than multiplication instead of the same speed. That doesn't sound right either.
(my fixed point is the same for multiplication and division, 3x slower than float multiplication, 7x faster than float division)
I'm on OS X too and I have a GCC 4.6.2 build from MacPorts. However, this isn't the Apple release. Perhaps it loads the wrong headers or libraries, or something.