%---------------------------------------------------------------------------% % vim: ts=4 sw=4 et ft=mercury %---------------------------------------------------------------------------% % This module tests the loop invariant hoisting optimization. % It does so using foreign_procs which abort if called twice: % if loop invariant hoisting works, these procedures will only % be called once, but if loop invariant hoisting doesn't work, % these procedures will abort. % This test checks that we do the basics of loop invariant hoisting. :- module loop_inv_test_2. :- interface. :- import_module io. :- pred main(io::di, io::uo) is det. :- implementation. :- import_module int. :- import_module string. main(!IO) :- io.print("enter three integers, one on each line\n", !IO), io.flush_output(!IO), io.read_line_as_string(Res1, !IO), io.read_line_as_string(Res2, !IO), io.read_line_as_string(Res3, !IO), ( if Res1 = ok(L1), Res2 = ok(L2), Res3 = ok(L3) then N1 = string.det_to_int(string.chomp(L1)), N2 = string.det_to_int(string.chomp(L2)), N3 = string.det_to_int(string.chomp(L3)), loop1(N1, N2, N3, R1), loop2(N1, N2, N3, R2), io.print("R1 = ", !IO), io.print_line(R1, !IO), io.print("R2 = ", !IO), io.print_line(R2, !IO) else io.print_line("input error", !IO) ). % Test that we can do ordinary loop hoisting: % p/1 will abort if called twice. % :- pred loop1(int::in, int::in, int::in, int::out) is det. loop1(N, Inv, Acc0, Acc) :- ( if N =< 0 then Acc = Acc0 else p(Inv, X), Acc1 = Acc0 + X, loop1(N - 1, Inv, Acc1, Acc) ). % Test that we can do ordinary loop hoisting, in the case % where the invariant predicate is an inlined foreign_proc % q/1 will abort if called twice. % :- pred loop2(int::in, int::in, int::in, int::out) is det. loop2(N, Inv, Acc0, Acc) :- ( if N =< 0 then Acc = Acc0 else q(Inv, X), Acc1 = Acc0 + X, loop2(N - 1, Inv, Acc1, Acc) ). :- pragma no_inline(p/2). :- pragma inline(q/2). :- pred p(int::in, int::out) is det. :- pragma foreign_proc("C", p(Inv::in, X::out), [will_not_call_mercury, promise_pure], " /* Test that p/1 only gets called once. */ static int num_calls = 0; if (num_calls++) { MR_fatal_error(""p/1 called more than once""); abort(); } X = Inv + 42; "). :- pragma foreign_code("C#", "static int p_num_calls = 0;"). :- pragma foreign_proc("C#", p(Inv::in, X::out), [will_not_call_mercury, promise_pure], " /* Test that p/1 only gets called once. */ if (p_num_calls++ > 0) { mercury.runtime.Errors.fatal_error(""p/1 called more than once""); } X = Inv + 42; "). :- pragma foreign_code("Java", "static int p_num_calls = 0;"). :- pragma foreign_proc("Java", p(Inv::in, X::out), [will_not_call_mercury, promise_pure], " /* Test that p/1 only gets called once. */ if (p_num_calls++ > 0) { throw new Error(""p/1 called more than once""); } X = Inv + 42; "). :- pred q(int::in, int::out) is det. :- pragma foreign_proc("C", q(Inv::in, X::out), [will_not_call_mercury, promise_pure], " /* Test that q/1 only gets called once. */ static int num_calls = 0; if (num_calls++) { MR_fatal_error(""q/1 called more than once""); } X = Inv + 53; "). :- pragma foreign_code("C#", "static int q_num_calls = 0;"). :- pragma foreign_proc("C#", q(Inv::in, X::out), [will_not_call_mercury, promise_pure], " /* Test that q/1 only gets called once. */ if (q_num_calls++ > 0) { mercury.runtime.Errors.fatal_error(""q/1 called more than once""); } X = Inv + 53; "). :- pragma foreign_code("Java", "static int q_num_calls = 0;"). :- pragma foreign_proc("Java", q(Inv::in, X::out), [will_not_call_mercury, promise_pure], " /* Test that q/1 only gets called once. */ if (q_num_calls++ > 0) { throw new Error(""q/1 called more than once""); } X = Inv + 53; "). %---------------------------------------------------------------------------%