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The codes are like this, it outputs 1:

int main(int argc, char *argv[])
    vector <const char*> vec = {"nima","123"};
    vector <const char*> vec2 = {"nima","123"};
    auto result = equal(vec.cbegin(), vec.cend(), vec2.cbegin());
    cout << result << endl;
    return 0;

I knew that I can test whether two c-style string is equal only by using strcmp (because char* is not an object as I understood). But here equal is a function from <algorithm>. Does it overload the == operator so that it can test the equality of two char*?

@Damon says that they're equal as the merges the same string literal into same address, as I understood. However, when I tried char* with different addresses, it still gives me the same result:

int main(int argc, char *argv[])
char* k = "123";
char* b = "123";
vector <const char*> vec = {"nima"};
vector <const char*> vec2 = {"nima"};
cout << &k << endl;
cout << &b << endl;

auto result = equal(vec.cbegin(), vec.cend(), vec2.cbegin());
cout << result << endl;
return 0;

The result is:

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This demo might make what is going on clearer. –  juanchopanza Feb 16 '13 at 14:09
Concerning your edit, try dynalically allocating the char strings and you should get different addresses for each, hence different results. –  juanchopanza Feb 16 '13 at 14:11
@juanchopanza I see, they are the same when I change it to cout << (int*)k << (int*) b << endl; Thanks! –  hanfeisun Feb 16 '13 at 14:18

1 Answer 1

up vote 11 down vote accepted

What probably happens here is that the compiler/linker merges the four string literals of which two are identical into two literals. Therefore, both "nima" and both "123" have the same address.

You store the addresses in a vector and compare them (operator== on an address). Since the addresses are the same, the comparison is equal.

Note that this is accidential. It only "works" because of two reasons:

  1. The strings are literals (that is, not some strings read from e.g. stdin).
  2. A compiler is allowed, but not required to merge identical literals (whether or not this happens is implementation-defined).

This can lead to two situations in which you get a funny surprise (not so funny if you must find out why it suddenly doesn't work when it "worked" all the time), either when you use a different compiler or even the same compiler with different optimization settings, or when you assign non-literal strings.

share|improve this answer
"Implementation-defined" might be better than "accidental". The relevant standard quote is §2.14.5/12: "Whether all string literals are distinct (that is, are stored in nonoverlapping objects) is implementation-defined." –  Joseph Mansfield Feb 16 '13 at 14:04
True, though I also wanted to point out that it won't work when you e.g. add two identical strings that you read from stdin. The fact that it "works" in the example (because of an implementation-defined behaviour) can insofar be considered accidential, too. I'll try to reword it less ambiguously. –  Damon Feb 16 '13 at 14:10
I modified the example to make two "123" have different addresss. However, it doesn't change the result.. –  hanfeisun Feb 16 '13 at 14:11
@Firegun you are confusing the address of k and b (different) with the addtess of the string they point to (the same). –  juanchopanza Feb 16 '13 at 14:13
@sftrabbit: you mean std::cout << (void const*)k << "\n";, otherwise the content of the c-string is printed. –  Matthieu M. Feb 16 '13 at 14:19

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