extern void __VERIFIER_error() __attribute__ ((__noreturn__)); /* Example from "Static Analysis of the Accuracy in Control Systems: Principles and Experiments" by Goubault Putot, Baufreton, Gassino, published in FMICS 07. The code implements a square root computation. It uses a Householder method with cubic convergence to compute 1 / sqrt(Input), and then takes the inverse. Square root of some constants. */ extern double __VERIFIER_nondet_double(); extern void __VERIFIER_assume(int expression); void __VERIFIER_assert(int cond) { if (!(cond)) { ERROR: __VERIFIER_error(); } return; } double _EPS = 1e-6; double SqrtR(double Input) { double xn, xnp1, residu, lsup, linf; int i, cond; if (Input <= 1.0) xn = 1.0; else xn = 1.0/Input; xnp1 = xn; residu = 2.0*_EPS*(xn+xnp1); lsup = _EPS * (xn+xnp1); linf = -lsup; cond = ((residu > lsup) || (residu < linf)); i = 0; while (cond) { xnp1 = xn * (15. + Input*xn*xn*(-10. + 3.*Input*xn*xn)) / 8.; residu = 2.0*(xnp1-xn); xn = xnp1; lsup = _EPS * (xn+xnp1); linf = -lsup; cond = ((residu > lsup) || (residu < linf)); i++; } return 1.0 / xnp1; } int main() { double d, r; for (d = 1.; d <= 20.; d++) { r = SqrtR(d); __VERIFIER_assert(r >= 1.0 && r <= 5.0); } return 0; }