I would like my C++ code to stop running if a certain condition is met, but I'm not sure how to do that. So just at any point if an if
statement is true terminate the code like this:
if (x==1) { kill code; }
Be careful when using the Remove Duplicates tool in Excel. Remove duplicates DOES NOT work if number formats are different. It is very literal in that even if the format is different it will assume it is not a duplicate. So the numbers 10 and 10.00 will be seen as unique and not deleted.
You can make use of a for-loop that we will traverse the list of items to remove duplicates. The method unique() from Numpy module can help us remove duplicate from the list given. The Pandas module has a unique() method that will give us the unique elements from the list given.
Remove duplicate lines with uniq The uniq command ensures that sequential identical lines are reduced to one.
There are several ways, but first you need to understand why object cleanup is important, and hence the reason std::exit
is marginalized among C++ programmers.
C++ makes use of a idiom called RAII, which in simple terms means objects should perform initialization in the constructor and cleanup in the destructor. For instance the std::ofstream
class [may] open the file during the constructor, then the user performs output operations on it, and finally at the end of its life cycle, usually determined by its scope, the destructor is called that essentially closes the file and flushes any written content into the disk.
What happens if you don't get to the destructor to flush and close the file? Who knows! But possibly it won't write all the data it was supposed to write into the file.
For instance consider this code
#include <fstream> #include <exception> #include <memory> void inner_mad() { throw std::exception(); } void mad() { auto ptr = std::make_unique<int>(); inner_mad(); } int main() { std::ofstream os("file.txt"); os << "Content!!!"; int possibility = /* either 1, 2, 3 or 4 */; if(possibility == 1) return 0; else if(possibility == 2) throw std::exception(); else if(possibility == 3) mad(); else if(possibility == 4) exit(0); }
What happens in each possibility is:
os
thus calling its destructor and doing proper cleanup by closing and flushing the file to disk.inner_mad
, the unwinder will go though the stack of mad
and main
to perform proper cleanup, all the objects are going to be destructed properly, including ptr
and os
.exit
is a C function and it's not aware nor compatible with the C++ idioms. It does not perform cleanup on your objects, including os
in the very same scope. So your file won't be closed properly and for this reason the content might never get written into it!return 0
and thus having the same effect as possibility 1, i.e. proper cleanup.But don't be so certain about what I just told you (mainly possibilities 2 and 3); continue reading and we'll find out how to perform a proper exception based cleanup.
You should do this whenever possible; always prefer to return from your program by returning a proper exit status from main.
The caller of your program, and possibly the operating system, might want to know whether what your program was supposed to do was done successfully or not. For this same reason you should return either zero or EXIT_SUCCESS
to signal that the program successfully terminated and EXIT_FAILURE
to signal the program terminated unsuccessfully, any other form of return value is implementation-defined (§18.5/8).
However you may be very deep in the call stack, and returning all of it may be painful...
Throwing a exception will perform proper object cleanup using stack unwinding, by calling the destructor of every object in any previous scope.
But here's the catch! It's implementation-defined whether stack unwinding is performed when a thrown exception is not handled (by the catch(...) clause) or even if you have a noexcept
function in the middle of the call stack. This is stated in §15.5.1 [except.terminate]:
In some situations exception handling must be abandoned for less subtle error handling techniques. [Note: These situations are:
[...]
— when the exception handling mechanism cannot find a handler for a thrown exception (15.3), or when the search for a handler (15.3) encounters the outermost block of a function with a
noexcept
-specification that does not allow the exception (15.4), or [...][...]
In such cases, std::terminate() is called (18.8.3). In the situation where no matching handler is found, it is implementation-defined whether or not the stack is unwound before std::terminate() is called [...]
So we have to catch it!
Since uncaught exceptions may not perform stack unwinding (and consequently won't perform proper cleanup), we should catch the exception in main and then return a exit status (EXIT_SUCCESS
or EXIT_FAILURE
).
So a possibly good setup would be:
int main() { /* ... */ try { // Insert code that will return by throwing a exception. } catch(const std::exception&) // Consider using a custom exception type for intentional { // throws. A good idea might be a `return_exception`. return EXIT_FAILURE; } /* ... */ }
This does not perform any sort of stack unwinding, and no alive object on the stack will call its respective destructor to perform cleanup.
This is enforced in §3.6.1/4 [basic.start.init]:
Terminating the program without leaving the current block (e.g., by calling the function std::exit(int) (18.5)) does not destroy any objects with automatic storage duration (12.4). If std::exit is called to end a program during the destruction of an object with static or thread storage duration, the program has undefined behavior.
Think about it now, why would you do such a thing? How many objects have you painfully damaged?
There are other ways to terminate a program (other than crashing), but they aren't recommended. Just for the sake of clarification they are going to be presented here. Notice how normal program termination does not mean stack unwinding but an okay state for the operating system.
std::_Exit
causes a normal program termination, and that's it.std::quick_exit
causes a normal program termination and calls std::at_quick_exit
handlers, no other cleanup is performed.std::exit
causes a normal program termination and then calls std::atexit
handlers. Other sorts of cleanups are performed such as calling static objects destructors.std::abort
causes an abnormal program termination, no cleanup is performed. This should be called if the program terminated in a really, really unexpected way. It'll do nothing but signal the OS about the abnormal termination. Some systems perform a core dump in this case.std::terminate
calls the std::terminate_handler
which calls std::abort
by default.As Martin York mentioned, exit doesn't perform necessary clean-up like return does.
It's always better to use return in the place of exit. In case if you are not in main, wherever you would like to exit the program, return to main first.
Consider the below example. With the following program, a file will be created with the content mentioned. But if return is commented & uncommented exit(0), the compiler doesn't assure you that the file will have the required text.
int main() { ofstream os("out.txt"); os << "Hello, Can you see me!\n"; return(0); //exit(0); }
Not just this, Having multiple exit points in a program will make debugging harder. Use exit only when it can be justified.
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