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I have a code like this but I keep receiving this error :
A value of type "const char*" cannot be used to initialize an entity of type "char *".
What is going on?
I have read up on the following threads but have not been able to seen any result to my answer as all of them are either from char to char* or char* to char:
Value type const char cannot be used to initialize an entity of type char*
Value of type char* cannot be used to initialize an entity of type "char"

#include <iostream>;
using namespace std;

int main() {
    int x = 0; //variable x created
    int cars (14);//cars is created as a variable with value 14
    int debt{ -1000 };//debt created with value 1000
    float cash = 2.32;
    double credit = 32.32;
    char a = 'a';//for char you must use a single quote and not double
    char* sandwich = "ham";
    return 0;
}

EDIT: I am using visual studio community 2017

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    const char* sandwich = "ham"; – user9212993 Feb 13 '18 at 4:41
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    which part of the error message you don't understand? it means the initialization (i.e. the right side of your expression) has type const char* whereas you declared a char*. Just modify the declared type as it said – phuclv Feb 13 '18 at 4:50
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    This is a beginner question, but it’s not a bad question. The fact that int is to const int as char* is to char* const, not const char*, is not obvious. – Davislor Feb 13 '18 at 5:01
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    Just so the OP knows, you should avoid "fixing" it this way. char *sandwich = (char *)"ham"; This works only due to backwards compatibility with C and you are throwing away type safety for no reason. – Justin Randall Feb 13 '18 at 5:05
7

That is correct. Let’s say you had the following code:

const char hello[] = "hello, world!";
char* jello = hello; // Not allowed, because:
jello[0] = 'J'; // Undefined behavior!

Whoops! A const char* is a non-const pointer to const char. If you assign its value to a non-const char*, you’ve lost its const property.

A const pointer to non-const char would be a char* const, and you can initialize a char* from that all day if you want.

You can, if you really want, achieve this with const_cast<char*>(p), and I occasionally have, but it’s usually a sign of a serious design flaw. If you actually get the compiler to emit instructions to write to the memory aliased by a string constant, you get undefined behavior. One of the many things that might go wrong is that some implementations will store the constant in read-only memory and crash. Or the same bytes of memory might be re-used for more than one purpose, because after all, we warned you never to change it.

By the way, the rules in C are different. This is solely for backward-compatibility with early versions of C that did not have the const keyword, and you should never write new code that uses a non-const alias to a string constant.

4

You need to make your string literal type const because in C++ it is a constant array of char, unlike C where it is just an array of char. You cannot change a string literal, so making it const is preferred in C++ for extra safety. It is the same reason you have to use an explicit cast when going from const char* to char*. It's still technically "allowed" in C++ since it is allowed in C, which is why it's just a warning. It's still bad practice to do so. To fix the warning, make it const.

const char* sandwich = "ham";

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