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I do not understand the output of the following program:

#include <iostream>

#define FOO std::cout << __LINE__ << ' ' \
                      << __LINE__ << '\n';
int main()

    std::cout << __LINE__ << ' ' \
              << __LINE__ << '\n';

The first output is 7 and 7, indicating that the expansion of FOO is a single logical line, but the second output is 9 and 10, indicating two distinct logical lines. Why is there a difference?

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4 Answers 4

up vote 5 down vote accepted


1:  #include <iostream>
3:  #define FOO std::cout << __LINE__ << ' ' \
4:                        << __LINE__ << '\n';
5:  int main()
6:  {
7:      FOO // the first two __LINE__s come from here, that's one line of code
9:      std::cout << __LINE__ << ' ' \ // 3rd __LINE__ comes from here
10:              << __LINE__ << '\n'; // 4th __LINE__ comes from here
11: }

__LINE__ expands to physical lines, not logical lines:

The line number of the current source line is one greater than the number of new-line characters read or introduced in translation phase 1 (2.2) while processing the source file to the current token.

While the lines ended by \ are concatenated in translation phase 2.

The other only logical implementation would be to print 3 and 4 for the invocation of FOO, but that seems not very useful.

You can also look at this the following way: __LINE__ is not any different from any other macro. It's just updated automatically by the compiler at the beginning of every line. So the code is kind of interpreted this way:

#include <iostream>

#define __LINE__ 3
#define FOO std::cout << __LINE__ << ' ' \
                      << __LINE__ << '\n';
int main()
#define __LINE__ 7

#define __LINE__ 9
    std::cout << __LINE__ << ' ' \ // Yeah, you're right
#define __LINE__ 10
             << __LINE__ << '\n';

This is not valid code, but it demonstrates how the things work. Apply the usual macro expansion rules and you'll get the output you've got.

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+1, very clear description –  Leo Davidson Nov 27 '10 at 11:27
And this is guaranteed by the standard? That would be great! I have some quite large macros containing multiple __LINE__ tokens, and I would really like to split them up with backslashes, yet they must yield the same line when expanded. –  fredoverflow Nov 27 '10 at 11:50
@FredOverflow Yes. –  ybungalobill Nov 27 '10 at 11:54
Also note that when a macro containing linebreaks is expanded, the expanded macro does not contain linebreaks. The linebreak is escaped in the macro definition, so the "actual macro" doesn't have it. It's sort of the opposite of putting \n in a string. So you can pretty much just think of __LINE__ as being replaced after other macro replacement. –  Steve Jessop Nov 27 '10 at 14:26

Because #define expansion contains hackery to make sure __LINE__ is the one where the macro is "invoked". Otherwise a lot of error messages would make no sense to the user.

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It's not hackery. It behaves like any other macro that you #define before the expansion of FOO and use inside FOO. The only special thing with __LINE__ is that it's automatically updated at the beginning of every line. –  ybungalobill Nov 27 '10 at 11:07

cause one you define in #define statement which always evaluated as one line. However, the second case is really two lines of code.

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Substitution of Foo requires evaluation of the predefined directive _ _LINE _ _ . This as I understand is because, there is no second preprocessing pass to evaluate _ _LINE _ _ .

Hence the _ _LINE _ _ is evaluated based on the line on which Foo is being expaned which is Line 7.

The usage of _ _LINE _ _ in the subsequent line in your code is really evaluated during the preprocessing phase based on the exact line number it appears in the source code in the translation unit.

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