MATLAB uses the standard IEEE floating point form to store a double.
See that if we subtract off a tiny amount from 4, MATLAB still diplays 4 as the result.
>> format long g
>> 4 - eps(2)
In fact, MATLAB stores the number in a binary form. We can see the decimal version of that number as:
Clearly MATLAB should not display that entire mess of digits, but by rounding the result to 15 digits, we get 4 for the display.
Clearly, the value in calc(1,11) is such a number, represented internally as less than 4 by just a hair too little that it rounds to 4 on display, but it is NOT exactly 4.
NEVER trust the least significant displayed digit of a result in floating point arithmetic.
You seem to think that 3.999999999999999 in MATLAB should be less than 4. Logically, this makes sense. But what happens when you supply that number? AH yes, the granularity of a floating point double is larger than that. MATLAB cannot represent it as a number less than 4. It rounds that number UP to EXACTLY 4 internally.