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Question is in the title really; I'm sure there is something logical, but for now I'm stumped!

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I think it's because they resemble arrows suggesting the flow of some substance. –  Pointy Jan 31 '11 at 17:55
Just guessing, but I imagine it's because you're "shifting" data in from or out to a file. –  Mark Ransom Jan 31 '11 at 17:55
For completeness' sake: these are called insertion operators in this context: cplusplus.com/reference/iostream/ostream/operator%3C%3C –  ChristopheD Jan 31 '11 at 17:57
@Pointy: how about functions like read() and write()? I think user-defined operators should have similar semantics as the built-in operators, e.g., + could be used to add complex numbers or geometrical vectors. But ostream::operator<< does nothing related to bit shifting. Some of the early C++ design decisions are now considered problematic, e.g., auto-generation of copy constructors if a destructor is present, so there doesn't necessarily have to be something logical about the choice of operator<<. –  Philipp Jan 31 '11 at 18:03
@Crowstar: may I reverse the question ? Why are insertion and extraction operators used for bit-wise shifting ? Personally I use streams more often than bitwise manipulation ;) –  Matthieu M. Jan 31 '11 at 20:04

12 Answers 12

According to §8.3.1 of The Design and Evolution of C++:

The idea of providing an output operator rather than a named output function was suggested by Doug McIlroy by analogy with the I/O redirection operators in the UNIX shell (>, >>, |, etc.)


Several operators were considered for input and output opeations: "The assignment operator was a candidate for both input and output, but it binds the wrong way. That is cout=a=b would be interpreted as cout=(a=b), and most people seemed to prefer the input operator to be different from the output operator. The operators < and > were tried, but the meanings "less than" and "greater than" were so firmly implanted in people's minds that the new I/O statements were for all practical purposes unreadable (this does not appear to be the case for << and >>). Apart from that, '<' is just above ',' on most keyboards, and people were writing expressions like this:

cout < x , y, z;

It is not easy to give good error messages for this."

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Maybe because it looks similar to the Unix append operation, as you are essentially appending to an input/output stream?



echo "foo" >> bar


sendmail -f test@domain.com << myemail.txt

(Stole input example from Zac Howland)

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This doesn't explain cin –  Federico Culloca Jan 31 '11 at 17:59
@Federico: actually, it does. You use << on the UNIX command line to do insertions: sendmail -f test@domain.com << myemail.txt. –  Zac Howland Jan 31 '11 at 18:07
sorry, I meant cout –  Federico Culloca Jan 31 '11 at 18:11
@Zac thanks for the example; I added it to the answer to make it more complete –  Abe Voelker Jan 31 '11 at 18:11

Because they had more or less a reasonable precedence and looked good. In C++ you cannot create new operators or change their precedence or grouping rules, you can only overload existing ones and changing what they actually do.

The choice of << and >> has some unfortunate side effect because it's somehow pushing the idea that the output will be done respecting the order. While this is true for the actual output thanks to a clever chaining trick it's however false for the computations involved and this is very often surprising.

To be more specific writing

std::cout << foo() << bar() << std::eol;

does NOT imply that foo will be called before bar.

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But who cares? If you're using functions with side effects in an output statement, you're creating unreadable and unmaintainable code anyway. (Otherwise, of course, the argument holds for many other cases as well. And there is a good argument for imposing the order---making errors reproduceable, when you make a mistake and do get a side effect.) –  James Kanze Dec 11 '12 at 17:20
@JamesKanze: I've simply found that many C++ programmers do think that in the example code foo() is guaranteed to be called before bar()... and they write code like s << header() << body() << footer(); where body() computes some totals used in footer(). This kind of error is less frequent for function parameters instead. –  6502 Dec 11 '12 at 18:04
I wouldn't hire a programmer who wrote code like this, even if the order was guaranteed. Hidden dependencies like that are a real maintenance nightmare. –  James Kanze Dec 11 '12 at 19:30
@JamesKanze: That comment sounds comic (please remember that you're talking about a library with horrors like setw and setfill in it). –  6502 Dec 11 '12 at 23:00

From "The C++ Programming language". Stroustrup's(language authors) words:

Overloading the operator << to mean ‘‘put to’’ gives a better notation and lets the programmer output a sequence of objects in a single statement.

But why <<? It is not possible to invent a new lexical token . The assignment operator was a candidate for both input and output, but most people seemed to prefer to use different operators for input and output. Furthermore, = binds the wrong way; that is, cout=a=b means cout=(a=b) rather than (cout=a)=b . I tried the operators < and >, but the mean ‘‘less than’’ and ‘‘greater than’’ were so firmly implanted in people’s minds that the new I/O statements were for all practical purposes unreadable.

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>> and << are just operators and you can implement your own >> and << for your classes.

I suppose "somebody" selected them because: a) they are similar to shell file operations and b) to reuse existing operators because there are no need to create new ones

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They are not bitwise operators, They are called insertion and extraction operators in this context.


These are used only for visual interpretation. If you study developing own stream and operator overloading, then you can see that you can even use + for input and - for output :)

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This answer is unsatisfying but correct: they aren't bitwise operators.

The meaning of the operator is determined by the data-type that appears on its left. In the case of cin and cout (and other stream types) << and >> operators move values to and from streams. In the case that the left operand is an integer, the operation is the bitwise operation that you already know from C.

The meaning of the operator is not fixed, although its precedence is.

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Mostly because of their associativity. The insertion and extraction operators associate from left to right, so

std::cout << "Hello" << ' ' << 4 << 2;

evaluates as you'd expect: first with "Hello", then with ' ' and finally with 4 and 2. Granted, the addition operator, operator+ also associates from left to right. But that operator and others with left-to-right associativity already have a different meaning.

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Bjarne chose them for practical precedence, associativity and mnemonic value.

The precedence isn't perfect, e.g. the boolean and bit-level operators are troublesome.

But it's fairly OK.

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So you remember that if you think cin as a keyboard and cout as a monitor, what you type goes into the variable


Or the contents of your variable goes towards the screen

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cout << "Output sentence"; // prints Output sentence on screen
cout << 120;               // prints number 120 on screen
cout << x;                 // prints the content of x on screen 

The << operator inserts the data that follows it into the stream preceding it. In the examples above it inserted the constant string Output sentence, the numerical constant 120 and variable x into the standard output stream cout.

The standard input device is usually the keyboard. Handling the standard input in C++ is done by applying the overloaded operator of extraction (>>) on the cin stream. The operator must be followed by the variable that will store the data that is going to be extracted from the stream. For example:

int age;
cin >> age;
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The question is Why, not How it works –  Elalfer Jan 31 '11 at 18:02
thanks too; yours was good. –  Crowstar Jan 31 '11 at 18:03

I assume that you are aware that C++ allows for operator overloading. In general, you overload operators only if the semantics are completely transferable (e.g. overloading the addition for a vector class to add two vectors together). I think your question refers to why one would use bitshift operators, overload them for the iostream, and give them a completely different meaning than their original purpose. The reason it can be done is because bitshift operations are so far removed from what iostreams do that no one could be confused into thinking that << or >> is doing a bitshift on an iostream. And the reason why they are convenient to use also is that their ordering is to evaluate the operand on the left first, then the one on the right, and do the operation. This fits to what you would want to happen when you are using the operators to append or extract stuff from an iostream.

But, to the original question, why? I don't really know, it just seems to me like the << and >> are pretty easily understood as taking information from one entity and putting it in the other. Why does the reason need to be more complicated than that? It looks sensible to use those because their meaning is obvious.. what better could you ask of an operator?

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-1: The order of evaluation of left and right side of << and >> is not guaranteed. This is indeed sometimes source of bugs when people writes things like s << foo() << bar() and expects foo being called before bar. What is guaranteed is that the result of foo will be sent to the stream before the result of bar but the computation order is NOT guaranteed. Only ,, || and && binary operators give such a guarantee... and that guarantee anyway is only present if you don't overload them. –  6502 Feb 1 '11 at 10:49

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