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I prefer to work with std::string but I like to figure out what is going wrong here.

I am unable to understand out why std::find isn't working properly for type T** even though pointer arithmetic works on them correctly. Like -

std::cout << *(argv+1) << "\t" <<*(argv+2) << std::endl;

But it works fine, for the types T*[N].

#include <iostream>
#include <algorithm>

int main( int argc, const char ** argv )
    std::cout << *(argv+1) << "\t" <<*(argv+2) << std::endl;

    const char ** cmdPtr = std::find(argv+1, argv+argc, "Hello") ;

    const char * testAr[] = { "Hello", "World" };
    const char ** testPtr = std::find(testAr, testAr+2, "Hello");

    if( cmdPtr == argv+argc )
        std::cout << "String not found" << std::endl;

    if( testPtr != testAr+2 )
        std::cout << "String found: " << *testPtr << std::endl;

    return 0;

Arguments passed: Hello World


Hello World
String not found
String found: Hello


share|improve this question

Comparing types of char const* amounts to pointing to the addresses. The address of "Hello" is guaranteed to be different unless you compare it to another address of the string literal "Hello" (in which case the pointers may compare equal). Your compare() function compares the characters being pointed to.

share|improve this answer
Could you now check the second case. – Mahesh Feb 9 '12 at 2:57
There isn't any guarantee that string literals get the same address. They may or they may not. Some compilers are quite thorough to share string literals in on translation units, others are not. – Dietmar Kühl Feb 9 '12 at 5:24

In the first case, you're comparing the pointer values themselves and not what they're pointing to. And the constant "Hello" doesn't have the same address as the first element of argv.

Try using:

const char ** cmdPtr = std::find(argv+1, argv+argc, std::string("Hello")) ;

std::string knows to compare contents and not addresses.

For the array version, the compiler can fold all literals into a single one, so every time "Hello" is seen throughout the code it's really the same pointer. Thus, comparing for equality in

const char * testAr[] = { "Hello", "World" };
const char ** testPtr = std::find(testAr, testAr+2, "Hello");

yields the correct result

share|improve this answer
But why is it working for the character array of pointer types. – Mahesh Feb 9 '12 at 2:58
Because the compiler probably folds all identical literals into a single one. So all the "Hello" literals you have in your code are really the same pointer – Pablo Feb 9 '12 at 3:23

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