#include <pthread.h>
#include <stdio.h>
#include <stdlib.h>
typedef void withdrawPtr(int);
typedef void depositPtr(int);
typedef void accountPtr(int);
typedef void deltaccountPtr();
int balance;
pthread_mutex_t mutex1;
i have actually converted an equivalent c++ code to c cod...
@DeadMG The challenge was to write a program that copies it "excactly" . Alf made it seem like it was something non-trivial on Windows. So I thought to be extra-careful and copy byte per byte avoiding implicit stuff.
@FredOverflow I am confused about the floats. I know if I cast an int into a char, it takes the first byte. But a float to an int, does it take the bytes before the decimal point?
@StackedCrooked we talked about how windows defaults cin to not be binary (maybe cout as well, but we didn't discuss that). As a result it will convert line endings and you can't match the input to the output.
I know references are syntactic sugar, so easier code to read and write :)
But what are the differences?
Summary from answers and links below:
A pointer can be re-assigned any number of times while a reference can not be reassigned after initialization.
A pointer can point to NULL while refe...
@LewsTherin Ah, now I get it. No, the byte representation of an int has absolutely nothing to do with the byte representation of a float. The cast will actually emit an assembly instruction that does the conversion.
@BPDeveloper Animal &animal; animal = dog; won't work, afaik. you need to set the reference as you define it. if you need to set it later, then Animal *animal; animal = &dog; will work.
:1746356 d:\dev\test> type foo.cpp
#include <iostream>
int main() {
while (std::cin.good()) {
int n = std::cin.get();
if (n == -1) break;
std::cout.put(std::ostream::char_type(n));
}
}
d:\dev\test> cl foo.cpp
foo.cpp
d:\dev\test> foo <%windir%\system32\notepad.exe >bah.exe
d:\dev\test> fc %windir\system32\notepad.exe bah.exe
FC: cannot open %WINDIR\SYSTEM32\NOTEPAD.EXE - No such file or folder
d:\dev\test> fc %windir%\system32\notepad.exe bah.exe
Comparing files C:\WINDOWS\SYSTEM32\notepad.exe and BAH.EXE
The following code works fine, but why is this correct code? Why is the "c_str()" pointer of the temporary returned by foo() valid? I thought, that this temporary is already destroyed when bar() is entered - but it doesn't seem to be like this. So, now I assume that the temporary returned by foo(...
@BPDeveloper No, not at all. In C++, you have the choice between temporary dogs, automatic dogs, static dogs, and dynamic dogs. Whereas in Java, you only have dynamic dogs.
I stumbled upon the Stack Overflow question Memory leak with std::string when using std::list?. One of the first posters says:
Stop using new so much. I can't see
any reason you used new anywhere you
did. You can create objects by value
in C++ and it's one of the huge
advantages to us...
@StackedCrooked it does it "wrong" because text mode has text conversion at bottom. i think main reason it isn't being fixed is that the restriction imposed by C and C++, in turn has influenced what one uses standard streams for. so no demand.
Teaching people to use new as little as possible is wrong. If you teach them the fundamentals right so that they will use new less as a side-effect. It's moronic to make it an goal in itself.
@LewsTherin if this is C, then struct typeOne typeA = *(struct typeOne*)&typeB; would work in most compilers. not sure if it technically causes UB, though
It wouldn't buy you anything if Dog() lived longer, because you would have no way to access it a second time later, anyway. (That's the justification for move semantics, by the way.)
@CatPlusPlus Well, not immediately, that would be pretty pointless. (On a side note, this aspect of C++ was actually once so vaguely defined that immediate destruction was permissible.)
@LewsTherin if it works, it's because C's type system is weak enough that you can easily get around it. it's effectively like "yeah, i know &typeB looks like a struct typeTwo *, but i know better than you, and i say it's a struct typeOne *. now dereference it and gimme a struct typeOne."
@BPDeveloper Please show us actual code. It is needlessly hard to discuss without code.
If you're uncertain about lifetime, insert a std::cout << "goodbye!\n"; into your Dog destructor and step through the program with a debugger. Then you'll know for certain when your dogs go to heaven.
@cHao @cHao C's type system doesn't care what you cast to what. You can cast any struct to any other struct. It trusts that you know what you are doing.
@StackedCrooked You should delete the struct if you acquired it with new, and you should delete the pointers inside the struct if you acquired them with new. But even better yet, don't use new/delete at all.
It looks like you want animal = new Dog(); but then don't forget to delete animal;
Also, Animal needs a virtual destructor, otherwise you will enter undefined behavior territory when you try to delete a Dog object through an Animal pointer.
@StackedCrooked if you have a destructor that deletes the pointers inside, or have deleted them yourself, and the struct was dynamically allocated, then yeah -- you should probably delete it
@BPDeveloper that might cause a segfault. Dog only lives to the end of the switch. Also, I don't think that code would compile like that as the switch will cause a jump past where Dog is created. (I don't know the technical term for it)
What does copying an object mean? What are the copy constructor and the copy assignment operator? When do I need to declare them myself? How can I prevent my objects from being copied?
@LewsTherin then you access...something else. (could be some other member of whatever you casted.) or, depending on other stuff, you might segfault. or you might set your machine on fire.
1. New allocates from the free store and performs the constructor. 2. New is bad. 3. Performing the constructor is not bad. 4. Therefore: the free store is bad.
@LewsTherin well if you had a header struct on your data, struct data_header { int type; }; And struct data_type_one { int type; int look_ma_more_stuff; }; You could cast a data_header to a data_type_one if you knew the type was correct
sockaddr *s are casted to sockaddr_in *s and back all the time. it works because there's a field in there that says what kind of structure it is (and thus, what it's safe to cast to)
@LewsTherin right. You can access data_header->type in a casted data_type_one struct with no problem. You could even name it something different as long as the first item was an int.
@FredOverflow it doesn't make sense sometimes, but you most certainly can do it. that "fast inverse square root" function in quake or doom or whatever, is proof that it's possible.
@LewsTherin here they have a cast from struct sockaddr_in and sockaddr_in6 to sockaddr. Both have a short in the first position. Sockaddr then has 14 bytes of "data". It's safe. Just go with it.
@LewsTherin Well you are passing the port and address to bind to. It uses the first field (the address family) along with the socket type probably, to determine what type of structure you passed in
@FredOverflow If you made that dog object with new as I did in the function, but I want it to be around for some time. Where do you delete it? in the deconstructor?
@LewsTherin you also pass the size of the address you are passing in. The bind function just takes a generic "sockaddr" pointer and inside it does fancy stuff to match it to the right type.
@BPDeveloper delete it when you are done with it. You have to keep track of it and delete it manually. You can't delete it in the destructor because the pointer is local to that function. The destructor won't even have access to it.
@codemaker can you please slow down a bit ha thanks ;) So the sockaddr_in holds a family field similar to sockaddr. It tells the socket which type of family it is. The sockaddr address (sa_data) fields holds the ip address?
I found it: 1. New is bad because if I use it then I allocate on the free store in *my own* code. 2. Placement new is not bad because it only performs the constructor. Constructors are good. 3. I'll use a std::vector to allocate memory and placement new to construct it. This way I'm safe. 4. Sarcasm.
@LewsTherin you can think of each one of those structs as being mapped out in memory just as they are defined (with padding in some cases). So struct {char a; char b; char c; char d; }; Is 32 bytes. So is struct {int i; }; You can exploit this fact and cast between them to achieve different goals.