Question

This is a C++ disaster, check out this code sample:

#include <iostream>

void func(const int* shouldnotChange)
{
    int* canChange = (int*) shouldnotChange;
    *canChange += 2;
    return;
}


int main() {
    int i = 5;
    func(&i);
    std::cout << i;
    return 0;
}

The output was 7!

So, how can we make sure of the behavior of C++ functions, if it was able to change a supposed-to-be-constant parameter!?

EDIT: I am not asking who can I make sure that my code is working as expected, rather I am wondering how to believe that someone else's function (for instance some function in some dll library) isn't going to change a parameter or posses some behavior...

Answer 1

Based on your edit, your question is "how can I trust 3rd party code not to be stupid?"

The short answer is "you can't." If you don't have access to the source, or don't have time to inspect it, you can only trust the author to have written sane code. In your example, the author of the function declaration specifically claims that the code will not change the contents of the pointer by using the const keyword. You can either trust that claim, or not. There are ways of testing this, as suggested by others, but if you need to test large amounts of code, it will be very labour intensive. Perhaps moreso than reading the code.

If you are working on a team and you have a team member writing stuff like this, then you can talk to them about it and explain why it is bad.

Answer 2

The simplest way to enforce this would be to just not pass a pointer:

void func(int shouldnotChange);

Now a copy will be made of the argument. The function can change the value all it likes, but the original value will not be modified.

If you can't change the function's interface then you could make a copy of the value before calling the function:

int i = 5;
int copy = i
func(&copy);

Answer 3

The general rule in C++ is that the language is designed to protect you from Murphy, not Machiavelli. In other words, its meant to keep a maintainance programmer from accidentally changing a variable marked as const, not to keep someone from deliberatly changing it, which can be done in many ways.

Answer 4

The only thing I can suggest is to allocate the variable shouldNotChange from a memory page that is marked as read-only. This will force the OS/CPU to raise an error if the application attempts to write to that memory. I don't really recommend this as a general method of validating functions just as an idea you may find useful.

Answer 5

A C-style cast means all bets are off. It's sort of like telling the compiler "Trust me, I know this looks bad, but I need to do this, so don't tell me I'm wrong." Also, what you've done is actually undefined. Casting off const-ness and then modifying the value means the compiler/runtime can do anything, including e.g. crash your program.

Answer 6

Don't use C style casts in C++.
We have 4 cast operators in C++ (listed here in order of danger)

• static_cast<>         Safe (When used to 'convert numeric data types').
• dynamic_cast<>    Safe (but throws exceptions/returns NULL)
• const_cast<>         Dangerous (when removing const).
• static_cast<>         Very Dangerous (When used to cast pointer types. Not a very good idea!!!!!)
• reinterpret_cast<> Very Dangerous. Use this only if you understand the consequences.

You can always tell the compiler that you know better than it does and the compiler will accept you at face value (the reason being that you don't want the compiler getting in the way when you actually do know better).

Power over the compiler is a two edged sword. If you know what you are doing it is a powerful tool the will help, but if you get things wrong it will blow up in your face.

Unfortunately, the compiler has reasons for most things so if you over-ride its default behavior then you better know what you are doing. Cast is one the things. A lot of the time it is fine. But if you start casting away const(ness) then you better know what you are doing.

Answer 7

(int*) is the casting syntax from C. C++ supports it fully, but it is not recommended.

In C++ the equivalent cast should've been written like this:

int* canChange = static_cast<int*>(shouldnotChange);

And indeed, if you wrote that, the compiler would NOT have allowed such a cast.

What you're doing is writing C code and expecting the C++ compiler to catch your mistake, which is sort of unfair if you think about it.

Answer 8

By writing sane code. If you write code you can't trust, then obviously your code won't be trustworthy. Similar stupid tricks are possible in pretty much any language. In C#, you can modify the code at runtime through reflection. You can inspect and change private class members. How do you protect against that? You don't, you just have to write code that behaves as you expect.

Apart from that, write a unittest testing that the function does not change its parameter.