@RMartinhoFernandes As I understand it.. the server has a socket bound to a well known port. And whenever it accepts a connection request, it creates a temporary socket leaving the well known port to accept more request. What I don't understand is why accept requires the socket with the well known port.
Agh, ok I will never understand this. A socket doesn't store the dest ip/source ip directly right...it uses another data structure. And a socket doesn't store the data written to it directly, but uses a separate buffer for it.
@RMartinhoFernandes Ok.. Why didn't it have everything in one socket structure? At least it'd make it easier to know which is which.. i'm thinking too much OOP here
@RMartinhoFernandes Oh.. I think I see. It's like a file. We store the data into a temporary array/buffer and pass the file pointer and the array into the function..which copies the data into the file.. I guess the socket works the same
have you ever considered that the fact you don't give a fuck about what they do, makes you less in control over it? If you were to actually socialize more and care more about what they do, you could exert more control and probably have more influence over their drinking, and the noise they make as a result.
just so you know, before I had any friends, I had to interest myself in other things then merely my computer. I found some things that others had interest in, and found what I could be interested in, and I made friends that way.
Hey if you have a "language" which can only take 123, or 1, or 2, or 3, or 12, or it can be 123123...(1, 2, 3, 12) etc. How would yo udefine the regular exppression? (1 union 2 union 3)* ???
I'm supposed to read three groades for a student - er, five students - from a file and do some stuff with it, but - I'm supposed to use a separate function to read the grades from a file.
So, I'ce got an ifstream and a three calls to it in the function, which is the way the instructor wanted it done, but it always restarts from the beginning. Globals are not allowed in this assignment.
@LucDanton - I've tried that, but not sure how to do that. I got a weird error trying to make an if stream an argument type.
//Reads in three grades and "returns" them as reference parameters
void readNextGrades(float &grade1, float &grade2, float &grade3){
ifstream fin;
if(!fin.is_open()){
fin.open("grades.txt");
}
if (fin.fail()) {
cout << "The method readNextGrades() failed to open file input stream. Returning.\n";
return;
}
fin >> grade1;
fin >> grade2;
fin >> grade3;
fin.close();
}
What is the fastest way (if there is any other) to convert a std::vector from one datatype to another (with the idea to save space)? For example:
std::vector<unsigned short> ----> std::vector<bool>
we obviously assume that the first vector only contains 0s and 1s. Copying eleme...
@AlfPSteinbach What do you mean? Not having to write the loop? The operation of uppercasing is defined as converting is character to uppercase, I don't see how that could be avoided
I have a question that has been puzzling me for a couple of hours.
Initially I thought that the type would have to be complete at the point of instantiation, but all compilers I have tried accept the type to still be incomplete at that point, as long as it is defined anywhere in the translation ...
@DavidRodríguezdribeas From my limited understanding of templates and bearing in mind how std::unique_ptr works, types must be complete at the site of instantiation.
@LucDanton That is not really so... from the (now) current standard, §20.9.11.2/2 Specializations of shared_ptr shall be [...] The template parameter T of shared_ptr may be an incomplete type.
And going up a little bit §20.9.10/5 Each object of a type U instantiated form the unique_ptr [...] The template parameter T of unique_ptr may be an incomplete type.
@MartyTPS Yes, that is my feeling of what is going on, but I still believe that it should be complete at the point of instantiation, which is consistent with Must be complete at sites that uses the destructor
@AlfPSteinbach That's completely related to Luc's last comment, the claim was that types used in templates must be complete, and I provided 2 counter examples to that claim
@LucDanton Funny enough, that is where all started, I will add a new question when I get to the office relating to that diagnostic :)
as a practical matter, for the sizeof expression the compiler can just backpatch, and maybe such practical considerations have influenced the wording (that we seek)
I kind of believe what @MartyTPS said before, the compiler fully processes the TU, and then performs the instantiation, rather than doing it at the point of instantiation
That is, if the instantiations all happen after processing all non-templated code, then by the time it gets to process the template the type is complete.
@AlfPSteinbach Not really, in a function call (not standard, but all compilers do) it is usually the caller the one that reserves the space for the return type, and that is a non-templated piece of code, so it needs the result of sizeof
If that call is moved into a template, then it does compile: template <typename T> T foo() { return T(); } template <typename T> int size() { T x = foo(); return sizeof x; } class test; int main() { size<test>(); } class test {};
@AlfPSteinbach main can print the value that is obtained at runtime after calling the function when only printing the size, but needs the size to reserve space in the case of a function returning a T
Yes, it does, but if the compiler is pushing the generation of the specialization to after processing the whole TU, then the type is complete at the time. Note that if the definition of the test type is not present at all you get the expected error, which is why I believe this is what the compiler does
@MartyTPS: I agree with your answer in that this is what is going on, but the question is rather on why is it allowed or forbidden. If there are no other answers I will consider accepting it as the best partial answer
I certainly hope that the behaviour is not mandated. Templates are already hard enough to explain without taking into consideration why int make() { return sizeof(test); } and template<int I> int make() { return sizeof(test); } don't work, but why template<typename T> int make() { return sizeof(T); } would for make<test>.
@DavidRodríguezdribeas it may be that it can be argued that "phases of translation" (2.2 in C++11, in particular 2.2/8) supports your conclusion. but i think more wording, about dependencies, has to be considered also
First-chance exception at 0x013942b2 intest.exe: 0xC0000094: Integer division by zero. A buffer overrun has occurred in test.exe which has corrupted the program's internal state. Press Break to debug the program or Continue to terminate the program.
And what should I understand from that? #if defined (_CRTBLD) && !defined (_SYSCRT) DebuggerWasPresent = IsDebuggerPresent(); _CRT_DEBUGGER_HOOK(_CRT_DEBUGGER_GSFAILURE); #endif /* defined (_CRTBLD) && !defined (_SYSCRT) */
Well, that thing is still horrendous. For some time my instinctive reaction had always been to just "Abort" and try again with serious debugging from the start.
@RMartinhoFernandes Yeah that's fine, I understand that. And we supply the ip address and host to the structure. But does the structure not need the ip address/port of the client? Or how'd the server know how to reply back
@RMartinhoFernandes No I am using Berkeley Sockets...or I don't know what POSIX mean.. yep that's the function.. But how does it know where the endpoint is?
Oh, so the accept fills in the address and port number of the client connection. My question is though at what point does the data have the client address? Because we never fill it in
Em, I am the client and I send a request saying hey server can I please connect with you. The server listening to connections puts my request on a queue. Eventually accept processes my request, in that request does it contain my address?
I think the ports are part of the TCP headers, not IP headers, but that's irrelevant. What matters is that the information is included in the packets as part of the protocol.
@RMartinhoFernandes I understand that then. Yeah I believe I do. Em, one of many question however, the server program requires INADDR_ANY. I assume because the server listens to all packets with different ip address it is hosted on. How does 127.0.0.1 work?