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What does

assert( scanf("%d", &t) == 1 ); 

and

assert( 1 <= t && t <= 10 ); 

return?

My target is to contain t from 1 to 10.

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1  
It's technically a macro, not a function. –  chris Oct 14 '12 at 21:49
    
the first check if the user input is 1 and the other one check if the range is between 1 and 10 included –  MimiEAM Oct 14 '12 at 21:51
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@MimiEAM, The return value of scanf is the number of items successfully inputted. –  chris Oct 14 '12 at 21:53
    
In addition to other comments, be aware that assert is only compiled in debug mode. If you compile in release mode, this line of code will disappear. –  Steztric Oct 14 '12 at 22:02
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5 Answers

Do not use assert with user input. Assert is designed to catch logic errors (by calling abort if the assertion fails) by crashing your program and user input should never crash your program.

But to answer your question, if NDEBUG is defined, then assert does nothing. This might be the reason why your program is not crashing as expected.

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Actually it's designed to catch logic errors by terminating your program at the point of failure, instead of your program crashing potentially far later after having overwritten all the bytes in your music folder –  Lightness Races in Orbit Oct 14 '12 at 22:11
    
i.e. I wouldn't call what assert does "crashing" –  Lightness Races in Orbit Oct 14 '12 at 22:11
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@LightnessRacesinOrbit - To me, "crashing" is when a program terminates with a signal that makes the program drop core. That is exactly what assert does. What's the difference between a SIGABRT from assert and a SIGABRT from malloc or free on going into panic mode? You use assert to detect programmer errors, not user errors. To a programmer, a core dump is a great error message. To a user, a core dump is a really lousy error message. –  David Hammen Oct 14 '12 at 23:13
    
@DavidHammen: Windows programmers are familiar with an "Abort, Retry, Ignore" choice which doesn't necessarily crash the program. –  MSalters Oct 15 '12 at 8:15
1  
@DavidHammen: Your interpretation is certainly technically valid. I'm just saying that in practice I think it's beneficial to make a distinction between an [unexpected] crash, which would be caused by some memory violation or somesuch, and a termination scenario that's built into the program code itself, such as an assertion failure. As for the difference? In the former case, the OS aborts the process; in the latter, the program is halting itself. –  Lightness Races in Orbit Oct 15 '12 at 15:10
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You may assume that assert is declared as the following:

/*!
 * Immediately crash the program if assumption is proven invalid.
 */
void assert (bool assumption);

If you "know" that a variable t will never be outside the range [1, 10] because you wrote the code and there's no way your code could produce any other value, then it is appropriate to assert that statement.

Assert the Obvious Things

Consider the following use of assertions:

int t = 9;
assert (9 == t);   // A very valid assertion, if a little pedantic.

The above code should seem like stating the obvious. The asserted expression is (obviously) true, but much more importantly any other result would be insane. Learning that t != 9 would wipe away all your assumptions about how C++ works, how the computer performs math and stores values, whether we exist or whether consciousness is just an illusion formed from so many aggravated electrons…

But that's the value of assertions.

Even so computers are for all practical purposes 100% deterministic, "insane" things do happen. It's not rare, either. In fact, we write assertions into our code explicitly to detect these situations and give us a chance to figure out what happened. Consider here a few real-world causes of insane behavior.

Causes of "Insane" behavior

Your assertions should guard against such errors as…

  1. Incorrect Thread Synchronization.

    int t;
    
    // Thread 1
    t = 9;
    assert(t == 9);
    
    // Thread 2
    t = 3;
    assert(t == 3);
    
  2. Poor memory management.

    class X {
        void sayHello () {
            assert(this != NULL);   // An object that does not exist cannot say hello.
            std::cout << "Hello?" << std::endl;
        }
    };
    
    // Without the assertion, this code would actually run!
    X* x = NULL;
    x->sayHello();
    
  3. Stack (or heap) corruption.

    (See Stack corruption in C++ for reasonable examples.)

Behavior that is inconvenient, but not insane:

Although it may drastically alter your program's execution path, these things are inappropriate for assertions. Throw an exception, print an error, close the program nicely, and clean up your program's resources responsibly. Do not assert against these "failures"!

  1. The user inputs something ridiculous.

    int t;
    scanf("%d", &t);
    assert ( 0 <= t <= 10 );       // What, are you friends with this user?
                                   // You're going to let him crash your program?
    
  2. Some I/O device fails.

    int s = socket();
    // blah blah connect blah blah
    
    char buffer[64];
    int bytes_received = recv(s, buffer, 64, NULL);
    assert (bytes_received > 0);   // Do you know how hard it is to send a packet
                                   // from Estonia to the US?!
    

This list is incomplete, but it ought to give you a broader guide for how (and how not) to apply assertions.

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assert( expression );​

What assert does is evaluate expression, and if what it evaluates compares to 0/false, the program is terminated.

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Assert returns nothing, if the parameter is false, the program is terminated. Assert is intended for situations that should not ever be able to happen... but you check just in case you mis-assumed or such.

http://www.cplusplus.com/reference/clibrary/cassert/assert/

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The proper solution to your problem is to encapsulate the scanf() function in a function which knows what it's doing:

int AskNumberOfWidgetFrobs() {
  int count = 0;
  for(;;) // Until we get a valid number
    scanf("%d", &count);
     if (count > 0 && count <= 10) {
       return count;
    } else {
       printf("%d is not a valid number of WidgetFrobs\n", count);
    }
  }
}
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