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I have a problem which I do not understand. I add characters to a standard string. Whe I take them out the value printed is not what I expected.

int main (int argc, char *argv[])
    string x;
    unsigned char y = 0x89, z = 0x76;
    x += y;
    x += z;
    cout << hex << (int) x[0] << " " <<(int) x[1]<< endl;

The output: ffffff89 76

What I expected: 89 76

Any ideas as what is happening here? And how do I fix it?

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So what would you expect? – Howard Sep 23 '11 at 6:21
where is z defined ? OK i see it now in the edit. – danishgoel Sep 23 '11 at 6:22
Never ever use implicit casts! – KillianDS Sep 23 '11 at 6:29
static_cast would make no difference – Gerhard Sep 23 '11 at 6:33
@KillianDS: There's no such thing as an "implicit cast". Casting is always explicit. There's implicit conversion, but that's not the case here. You're probably talking about C-style cast. – reko_t Sep 23 '11 at 6:39
up vote 1 down vote accepted

You have to account for the fact that char may be signed. If you promote it to int directly, the signed value will be preserved. Rather, you first have to convert it to the unsigned type of the same width (i.e. unsigned char) to get the desired value, and then promote that value to an integer type to get the correct formatted printing.

Putting it all together, you want something like this:

std::cout << (int)(unsigned char)(x[0]);

Or, using the C++-style cast:

std::cout << static_cast<int>(static_cast<unsigned char>(x[0]))
share|improve this answer

The string operator [] is yielding a char, i.e. a signed value. When you cast this to an int for output it will be a signed value also.

The input value cast to a char is negative and therefore the int also will be. Thus you see the output you described.

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Remember that whether char is signed or unsigned is implementation defined. – K-ballo Sep 23 '11 at 6:30
+1: But if the default char type is signed or not is implementation dependent – 6502 Sep 23 '11 at 6:32
this is what i thought too. And i just tested it and that's the case 0x79 is coming out correctly but then onwards its the ffffffxx. – danishgoel Sep 23 '11 at 6:32
@danishgoel This is because any unsigned char with highest bit not set (i.e. <0x80) will be cast to a positive value, everything above to a negative value. – Howard Sep 23 '11 at 6:34

Most likely char is signed on your platform, therefore 0x89 and 0x76 become negative when it's represented by char.

You've to make sure that the string has unsigned char as value_type, so this should work:

typedef basic_string<unsigned char> ustring; //string of unsigned char!

ustring ux;
ux += y;
ux += z;
cout << hex << (int) ux[0] << " " <<(int) ux[1]<< endl;

It prints what you think should print:

89 76

Online demo : http://www.ideone.com/HLvcv

share|improve this answer
0x76 shouldn't (and doesn't) become negative. – James Kanze Sep 23 '11 at 7:24
Also (although not relevant to your point), basic_string<unsigned char> is undefined behavior. A lot of implementations (VC++ and g++, at least) do define it, but not necessarily in the same way. – James Kanze Sep 23 '11 at 7:25
@JamesKanze: Why basic_string<unsigned char> is undefined behavior? – Nawaz Sep 23 '11 at 7:31
Because the standard doesn't define any behavior for it. basic_string<unsigned char> is in fact basic_string<unsigned char, char_traits<unsigned char> >. And the standard only defines (and requires) specializations for char and wchar_t (in C++03---add char16_t and char32_t for C++11). An implementation can provide the definition for a generic version of char_traits, or a specialization for unsigned char, or neither; in the first two cases, it can define it however it likes. If you want strings of unsigned char, you must define a traits class yourself. – James Kanze Sep 23 '11 at 8:08
@JamesKanze: . If you want strings of unsigned char, you must define a traits class yourself. Only if the implementation doesn't define it, right? If the implementation doesn't define it, then would it not give compilation error since it would try to instantiate char_traits<unsigned char> which is not define. – Nawaz Sep 23 '11 at 8:43

The number 0x89 is 137 in decimal system. It exceeds the cap of 127 and is now a negative number and therefore you see those ffffffthere. You could just simply insert (unsigned char) after the (int) cast. You would get the required result.


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