One way to apply the design-by-contract philosophy is purely static.
Consider a contract for a function
requires IsValidRange(a, n);
assumes n == 0; ensures \result == 0;
assumes 0 < n;
ensures 0 <= \result < n;
ensures \forall integer i; 0 <= i < n ==> a[i] <= a[\result]; ensures \forall integer i; 0 <= i < \result ==> a[i] < a[\result];
size_type max_element(const value_type* a, size_type n);
If you are able to verify at compile-time that an implementation always guarantees that the post-conditions in the
ensures clauses are satisfied provided that the function is called with arguments that satisfy the pre-conditions in the
requires clauses, it is unnecessary to generate checks for the post-conditions.
Similarly, if you verify that all the callers, when their own pre-conditions are satisfied, call
max_element() only with arguments that satisfy its pre-conditions, then the checks are unnecessary at the entry of the function.
The above example is from ACSL by Example. This library provides many function contracts in ACSL. Implementations in C are provided for the contracts. The implementations have been statically formally verified to guarantee that the post-conditions hold for all calls with arguments that satisfy the pre-conditions. Therefore, no run-time check is necessary for the post-conditions. The compiler can treat the annotations as comments (which they are, using the
/*@ ... */ syntax).