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I wonder in the code below that why the result of i and j is different.To my intuition,b also pointed to the address of a char with value 4.why do the result of i and j is different

char c='4';
const char *b;
int i,j;

cout<<i<<" "<<j<<endl;
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3 Answers 3

up vote 2 down vote accepted

b = string(1,c).c_str();

This creates a temporary string that goes out of scope after the expression. The problem is that the pointer returned by c_str() is only valid as long as the string it was called on lives and no non-const functions has been called on it.

If you go down this route of doing things, you need to make sure the original string is valid when you call atoi.

std::string s(1,c);
b = s.c_str();
j = atoi(b);
s.clear(); // b is no longer valid now!


j = atoi(string(1,c).c_str());
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As long as the string it was called on lives and no non-const function has been called on it. –  James Kanze Jul 12 '13 at 11:42
@JamesKanze Thanks, I shamelessly edited that in. –  jrok Jul 12 '13 at 11:43
Does it mean in statement b=string(1,c).c_str(), the string is only a temporary object so the pinter c_str is not valid. –  witrus Jul 12 '13 at 11:51
Yes, it's valid until the full expression it was created in finishes. –  jrok Jul 12 '13 at 11:54

b points to a temporary object which is destroyed after this statement. It actually has undefined behavior.

A short way to convert char to int is:

int i = c- '0';
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on some architectures (os, compiler, stl implementation) the code produces "4 4" as expected. Try it here.

The problem is that the code relies on undefined behaviour, since it uses a pointer returned by an object which has been destroyed.

When you write

b = string(1,c).c_str();

you are creating a temporary object and asking it for a pointer to an array of characters. You assign this pointer to b and then the temporary object (which owns the memory b now points to) is destroyed. Assuming the library is "sane", such memory is going to be freed during the string destruction. Hence accessing the memory via the pointer b is undefined behaviour.

Of course you should not rely on undefined behaviour, even if it "works" on some occasions.

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