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Should I use printf in my C++ code?

If I just want to print a string on screen, I can do that using those two ways:


std::cout << "abc" << std::endl;

The case is, and in the examples shown above, is there an advantage of using printf over std::cout, or, vice versa?

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If you're writing C++ code then you should in general prefer C++ idioms and libraries. –  Paul R Jan 24 '11 at 12:15
It depends in which language are you writing your program either C or C++. This both methods are of different language so you can't compare it directly. –  Harry Joy Jan 24 '11 at 12:17
@Paul R. Thanks for your reply. So, isn't "printf()" then considered a C++ idiom? –  aali Jan 24 '11 at 12:17
@Harry Joy. Thanks for your reply. I'm using C++. –  aali Jan 24 '11 at 12:18
duplicate of stackoverflow.com/questions/2017489/… –  mingos Jan 24 '11 at 12:55
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marked as duplicate by mingos, marcog, MSalters, Ken Bloom, Graviton Jan 25 '11 at 3:18

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

7 Answers

While cout is the proper C++ way, I believe that some people and companies (including Google) continue to use printf in C++ code because it is much easier to do formatted output with printf than with cout.

Here's an interesting example that I found here.


printf( "%-20s %-20s %5s\n" , "Name" , "Surname" , "Id" );


cout << setw( -20 ) << "Name" << setw( 20 ) << "Surname"  << setw( 5 ) << "Id" << endl;
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+1, you have stated one advantage of printf so looks like a valid answer to me. –  CashCow Jan 24 '11 at 12:24
An example showing that a smaller line of code does not always mean more readable. The std::cout version explicitly states what it is doing every step of the way. printf has a cryptic formatting string. –  Zac Howland Jan 24 '11 at 12:34
That is true, but once you get used to it, it could be argued that printf is the easier to use of the two. Personally, I've always found stream formatting to be very clunky. –  dandan78 Jan 24 '11 at 12:37
-1: Proper cout usage is: cout << person << '\n'. Common misconception. –  phresnel Feb 9 '12 at 13:10
How so? endl = end line!? –  paulm Jan 22 '13 at 8:59
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printf and its associated friends are C functions. They work in C++, but do not have the type safety of C++ std::ostreams. Problems can arise in programs that use printf functions to format output based on user input (or even input from a file). For example:

int main()
    char[] a = {'1', '2', '3', '4'}; // a string that isn't 0-terminated
    int i = 50;
    printf("%s", a); // will continue printing characters until a 0 is found in memory
    printf("%s", i); // will attempt to print a string, but this is actually an integer

C++ has much stronger type safety (and a std::string class) to help prevent problems like these.

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@Zac Howland. Thanks for your reply. Why isn't that string you declare above 0-terminated? Aren't the strings always 0-terminated? And, what do you mean by "type safety"? Thanks. –  aali Jan 24 '11 at 12:25
I don't think this is very relevant when printing a string literal. –  marcog Jan 24 '11 at 12:26
@ aali He defines a character array, those just happen to be able to be interpreted as strings in C, it will not automatically add a zero-byte to the end of an array. –  Ward Muylaert Jan 24 '11 at 12:28
@aali: I defined the character array that way to show how the problem is created. That array could just as easily come from a data file that had been corrupted and would cause your program to crash (in fact, this type of bug use to be exploited to get a root-terminal on Nix systems many moons ago). The examples are just a couple of the pitfalls of using printf and family. –  Zac Howland Jan 24 '11 at 12:31
@Zac, I think that what @CashCow is trying to say is that in that particular case it is exactly the same in both cases. If you limit yourself to std::string and not const char*, then you will not have problems with cout, but you will not have problems with printf either: printf( "%s\n", st.c_str() );. I do agree with your answer, but the type safety issues are diluting with time... gcc will verify the type correctness by parsing the format string at the place of call, providing a compiler warning. Not required by the standard, and yet it's there. –  David Rodríguez - dribeas Jan 24 '11 at 13:03
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The printf has been borrowed from C and has some limitations. The most common mentioned limitation of printf is type safety, as it relies on the programmer to correctly match the format string with the arguments. The second limitation that comes again from the varargs environment is that you cannot extend the behavior with user defined types. The printf knows how to print a set of types, and that's all that you will get out of it. Still, it for the few things that it can be used for, it is faster and simpler to format strings with printf than with c++ streams.

While most modern compilers, are able to address the type safety limitation and at least provide warnings (the compiler can parse the format string and check the arguments provided in the call), the second limitation cannot be overcome. Even in the first case, there are things that the compiler cannot really help with, as checking for null termination --but then again, the same problem goes with std::cout if you use it to print the same array.

On the other end, streams (including std::cout) can be extended to handle user defined types by means of overloaded std::ostream& operator<<( std::ostream&, type const & ) for any given user defined type type. They are type safe by themselves --if you pass in a type that has no overloaded operator<< the compiler will complain. They are, on the other hand, more cumbersome to produce formatted output.

So what should you use? In general I prefer using streams, as overloading operator<< for my own types is simple and they can be used uniformly with all types.

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Those two examples do different things. The latter will add a newline character and flush output (result of std::endl). std::cout is also slower. Other than that, printf and std::cout achieve the same thing and you can choose whichever you prefer. As a matter of preference, I'd use std::cout in C++ code. It's more readable and safer.

See this article if you need to format output using std::cout.

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Thanks for your reply. Why is "std::cout" as you mention is slower? What is meant by "slower" here? In terms of what for example? Thanks. –  aali Jan 24 '11 at 12:22
@aali It's slower for the reasons other answers go in detail explaining: it does more stuff. It's very dependant on your compiler, but I've seen older versions of GCC be more than 10x slower in all cases. –  marcog Jan 24 '11 at 12:28
With g++4.x, in the testcases I committed, ostreams are as fast as printfs, if you sync_with_stdio(false). –  phresnel Feb 9 '12 at 13:12
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I struggle with this very question myself. printf is in general easier to use for formatted printing, but the iostreams facility in C++ has the big advantage that you can create custom formatters for objects. I end up using both of them in my code as necessary.

The problem with using both and intermixing them is that the output buffers used by printf and cout are not the same, so unless you run unbuffered or explicitly flush output you can end up with corrupted output.

My main objection to C++ is that there is no fast output formatting facility similar to printf, so there is no way to easily control output for integer, hex, and floating point formatting.

Java had this same problem; the language ended up getting printf.

Wikipedia has a good discussion of this issue at http://en.wikipedia.org/wiki/Printf#C.2B.2B_alternatives_to_sprintf_for_numeric_conversion.

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Actually for your particular example, you should have asked which is preferable, puts or cout. printf prints formatted text but you are just outputting plain text to the console.

For general use, streams (iostream, of which cout is a part) are more extensible (you can print your own types with them), and are more generic in that you can generate functions to print to any type of stream, not just the console (or redirected output). You can create generic stream behaviour with printf too using fprintf which take a FILE* as a FILE* is often not a real file, but this is more tricky.

Streams are "typesafe" in that you overload with the type you are printing. printf is not typesafe with its use of ellipses so you could get undefined results if you put the wrong parameter types in that do not match the format string, but the compiler will not complain. You may even get a seg-fault / undefined behaviour (but you could with cout if used incorrectly) if you miss a parameter or pass in a bad one (eg a number for %s and it treats it as a pointer anyway).

printf does have some advantages though: you can template a format string then reuse that format string for different data, even if that data is not in a struct, and using formatting manipulations for one variable does not "stick" that format for further use because you specify the format for each variable. printf is also known to be threadsafe whereas cout actually is not.

boost has combined the advantages of each with their boost::format library.

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+1 for mentioning boost::format –  GrahamS Jan 24 '11 at 12:26
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In general, you should prefer cout because it's much type-safer and more generic. printf isn't type-safe, nor is it generic at all. The only reason you might favour printf is speed- from memory, printf is many times faster than cout.

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Thanks for your reply. I saw that "printf()" enables formatting, does "cout" provide that too? –  aali Jan 24 '11 at 12:19
What do you mean when you say: "printf isn't type-safe, nor is it generic at all. The only reason you might favour printf is speed- from memory, printf is many times faster than cout."? Can you clarif on that a bit. Thanks. –  aali Jan 24 '11 at 12:20
@aali: cout also provides output formatting. –  Harry Joy Jan 24 '11 at 12:22
Do you have a reference for printf being many times faster? –  Charles Bailey Jan 24 '11 at 12:24
@aali: Your compiler will accept blatant errors with printf, like printf("%s", int());. In addition, many custom types are overloaded to work with iostreams, but you can never printf a custom type. cout provides formatting too. @Charles: Not personally. I know that iostream has a reputation for being very slow, and that when I tested it, it was extremely slow compared to printf. –  DeadMG Jan 24 '11 at 12:31
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