%---------------------------------------------------------------------------% % vim: ft=mercury ts=4 sw=4 et wm=0 tw=0 %---------------------------------------------------------------------------% % Test arithmetic operations for signed 16-bit integers. :- module arith_int16. :- interface. :- import_module io. :- pred main(io::di, io::uo) is cc_multi. %---------------------------------------------------------------------------% %---------------------------------------------------------------------------% :- implementation. :- import_module int16. :- import_module exception. :- import_module list. :- import_module string. %---------------------------------------------------------------------------% main(!IO) :- run_unop_test(int16.(+), "+", !IO), io.nl(!IO), run_unop_test(int16.(-), "-", !IO), io.nl(!IO), run_unop_test(int16.abs, "abs", !IO), io.nl(!IO), run_unop_test(int16.nabs, "nabs", !IO), io.nl(!IO), run_binop_test((func(X, Y) = X + Y), "+", !IO), io.nl(!IO), run_binop_test((func(X, Y) = X - Y), "-", !IO), io.nl(!IO), run_binop_test((func(X, Y) = X * Y), "*", !IO), io.nl(!IO), run_binop_test((func(X, Y) = X / Y), "/", !IO), io.nl(!IO), run_binop_test((func(X, Y) = X rem Y), "rem", !IO). %---------------------------------------------------------------------------% :- pred run_unop_test((func(int16) = int16)::in, string::in, io::di, io::uo) is cc_multi. run_unop_test(UnOpFunc, Desc, !IO) :- io.format("*** Test unary operation '%s' ***\n\n", [s(Desc)], !IO), As = numbers, list.foldl(run_unop_test_2(UnOpFunc, Desc), As, !IO). :- pred run_unop_test_2((func(int16) = int16)::in, string::in, int16::in, io::di, io::uo) is cc_multi. run_unop_test_2(UnOpFunc, Desc, A, !IO) :- ( try [] Result0 = UnOpFunc(A) then ResultStr = int16_to_string(Result0) catch_any _ -> ResultStr = "<>" ), io.format("%s %s = %s\n", [s(Desc), s(int16_to_string(A)), s(ResultStr)], !IO). %---------------------------------------------------------------------------% :- pred run_binop_test((func(int16, int16) = int16)::in, string::in, io::di, io::uo) is cc_multi. run_binop_test(BinOpFunc, Desc, !IO) :- io.format("*** Test binary operation '%s' ***\n\n", [s(Desc)], !IO), As = numbers, Bs = numbers, list.foldl(run_binop_test_2(BinOpFunc, Desc, Bs), As, !IO). :- pred run_binop_test_2((func(int16, int16) = int16)::in, string::in, list(int16)::in, int16::in, io::di, io::uo) is cc_multi. run_binop_test_2(BinOpFunc, Desc, Bs, A, !IO) :- list.foldl(run_binop_test_3(BinOpFunc, Desc, A), Bs, !IO). :- pred run_binop_test_3((func(int16, int16) = int16)::in, string::in, int16::in, int16::in, io::di, io::uo) is cc_multi. run_binop_test_3(BinOpFunc, Desc, A, B, !IO) :- ( try [] Result0 = BinOpFunc(A, B) then ResultStr = int16_to_string(Result0) catch_any _ -> ResultStr = "<>" ), io.format("%s %s %s = %s\n", [s(int16_to_string(A)), s(Desc), s(int16_to_string(B)), s(ResultStr)], !IO). :- func numbers = list(int16). numbers = [ -32_768_i16, -128_i16, 0_i16, 1_i16, 2_i16, 8_i16, 10_i16, 16_i16, 127_i16, 255_i16, 32_767_i16 ]. %---------------------------------------------------------------------------% :- end_module arith_int16. %---------------------------------------------------------------------------%