I have read from a codeforces blog that if we add
#include <bits/stdc++.h> in a
C++ program then there is no need to include any other header files. How does
#include <bits/stdc++.h> work and is it ok to use it instead of including individual header files?
It is basically a header file that also includes every standard library and STL include file. The only purpose I can see for it would be for testing and education.
Se e.g. GCC 4.8.0 /bits/stdc++.h source.
Using it would include a lot of unnecessary stuff and increases compilation time.
Edit: As Neil says, it's an implementation for precompiled headers. If you set it up for precompilation correctly it could, in fact, speed up compilation time depending on your project. (https://gcc.gnu.org/onlinedocs/gcc/Precompiled-Headers.html)
I would, however, suggest that you take time to learn about each of the sl/stl headers and include them separately instead, and not use "super headers" except for precompilation purposes.
#include <bits/stdc++.h> is an implementation file for a precompiled header.
From, software engineering perspective, it is a good idea to minimize the include. If you use <bits/stdc++.h> it actually includes a lot of files, which your program may not need, thus increase both compile-time and program size unnecessarily. [edit: as pointed out by @Swordfish in the comments that the output program size remains unaffected. But still, it's good practice to include only the libraries you actually need, unless it's some competitive competition ]
But in contests, using this file is a good idea, when you want to reduce the time wasted in doing chores; especially when your rank is time-sensitive.
It works in most online judges, programming contest environments, including ACM-ICPC (Sub-Regionals, Regionals, and World Finals) and many online judges.
The disadvantages of it are that it:
- increases the compilation time.
- uses an internal non-standard header file of the GNU C++ library, and so will not compile in MSVC, XCode, and many other compilers
That header file is not part of the C++ standard, is therefore non-portable, and should be avoided.
Moreover, even if there were some catch-all header in the standard, you would want to avoid it in lieu of specific headers, since the compiler has to actually read in and parse every included header (including recursively included headers) every single time that translation unit is compiled.
Unfortunately that approach is not portable C++ (so far).
All standard names are in namespace
std and moreover you cannot know which names are NOT defined by including and header (in other words it's perfectly legal for an implementation to declare the name
std::string directly or indirectly when using
Despite this however you are required by the language to know and tell the compiler which standard header includes which part of the standard library. This is a source of portability bugs because if you forget for example
#include <map> but use
std::map it's possible that the program compiles anyway silently and without warnings on a specific version of a specific compiler, and you may get errors only later when porting to another compiler or version.
In my opinion there are no valid technical excuses that explain why this is necessary for the general user: the compiler binary could have all standard namespace built in and this could actually increase the performance even more than precompiled headers (e.g. using perfect hashing for lookups, removing standard headers parsing or loading/demarshalling and so on).
The use of standard headers simplifies the life of who builds compilers or standard libraries and that's all. It's not something to help users.
However this is the way the language is defined and you need to know which header defines which names so plan for some extra neurons to be burnt in pointless configurations to remember that (or try to find and IDE that automatically adds the standard headers you use and removes the ones you don't... a reasonable alternative).