#include #include #include #include namespace match = migraphx::match; MIGRAPHX_PRED_MATCHER(throws, migraphx::instruction_ref) { MIGRAPHX_THROW("Matcher throws"); } template migraphx::match::matcher_result find_match(migraphx::program& p, M&& m) { migraphx::match::matcher_result result; for(auto ins : migraphx::iterator_for(p)) { result = migraphx::match::match_instruction(p, ins, m); if(result.result != p.end()) return result; } return result; } void match1() { migraphx::program p; auto l = p.add_literal(1); auto m = match::standard_shape(); auto r = find_match(p, m); EXPECT(bool{r.result == l}); } TEST_CASE(match_name1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum"); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_name2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("min"); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_name3) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_arg1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::arg(0)(match::name("@literal")), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_arg2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::arg(0)(match::name("sum")), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_arg3) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::arg(1)(match::name("@literal")), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_arg4) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); auto pass = p.add_instruction(pass_op{}, sum); auto m = match::name("pass")(match::arg(0)(match::name("sum")), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == pass}); } TEST_CASE(match_arg5) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("pass")(match::arg(1)(match::name("sum")), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_arg6) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::arg(0)(match::name("@literal"))); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_arg7) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::arg(0)(match::name("@literal")), match::arg(1)(match::name("@literal"))); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_arg8) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::all_of(match::arg(0)(match::name("@literal")), match::arg(1)(match::name("@literal"))), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_nargs1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::nargs(2)); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_nargs2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::nargs(2), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_nargs3) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::all_of(match::nargs(2))); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_args1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::args(match::name("@literal"), match::name("@literal")), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_args2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::args(match::name("@literal"), match::name("sum")), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_args3) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::args(match::name("@literal")), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_args4) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::name("sum")(match::args(match::name("sum"), match::name("@literal")), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == sum2}); } TEST_CASE(match_args5) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::args(match::name("sum"), match::name("@literal")), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_args6) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); auto pass = p.add_instruction(pass_op{}, sum); auto m = match::name("pass")(match::args(match::name("sum")), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == pass}); } TEST_CASE(match_args7) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); auto pass = p.add_instruction(pass_op{}, sum); auto m = match::name("pass")(match::args(match::name("sum")(match::args( match::name("@literal"), match::name("@literal")))), match::standard_shape()); auto r = find_match(p, m); EXPECT(bool{r.result == pass}); } TEST_CASE(match_either_args1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::name("sum")(match::either_arg(0, 1)(match::name("sum"), match::name("@literal"))); auto r = find_match(p, m); EXPECT(bool{r.result == sum2}); } TEST_CASE(match_either_args2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::name("sum")(match::either_arg(0, 1)(match::name("@literal"), match::name("sum"))); auto r = find_match(p, m); EXPECT(bool{r.result == sum2}); } TEST_CASE(match_either_args3) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::name("sum")(match::either_arg(0, 1)(match::name("pass"), match::name("@literal"))); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_either_args_any1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::name("sum")(match::either_arg(0, 1)(match::any().bind("x"), match::any().bind("y"))); auto r = find_match(p, m); EXPECT(bool{r.result == sum1}); EXPECT(bool{r.instructions.at("x") != r.instructions.at("y")}); } TEST_CASE(match_either_args_any2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::name("sum")( match::either_arg(0, 1)(match::any().bind("x"), match::name("@literal").bind("y"))); auto r = find_match(p, m); EXPECT(bool{r.result == sum1}); EXPECT(bool{r.instructions.at("x") != r.instructions.at("y")}); } TEST_CASE(match_either_args_any3) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::name("sum")( match::either_arg(0, 1)(match::name("@literal").bind("x"), match::any().bind("y"))); auto r = find_match(p, m); EXPECT(bool{r.result == sum1}); EXPECT(bool{r.instructions.at("x") != r.instructions.at("y")}); } TEST_CASE(match_either_args_any4) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::name("sum")( match::either_arg(0, 1)(match::name("sum").bind("x"), match::any().bind("y"))); auto r = find_match(p, m); EXPECT(bool{r.result == sum2}); EXPECT(bool{r.instructions.at("x") != r.instructions.at("y")}); } TEST_CASE(match_either_args_any5) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::name("sum")( match::either_arg(0, 1)(match::any().bind("x"), match::name("sum").bind("y"))); auto r = find_match(p, m); EXPECT(bool{r.result == sum2}); EXPECT(bool{r.instructions.at("x") != r.instructions.at("y")}); } TEST_CASE(match_all_of1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::all_of(match::arg(0)(match::name("@literal")), match::arg(1)(match::name("@literal")))); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_all_of2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")( match::all_of(match::arg(0)(match::name("sum")), match::arg(1)(match::name("@literal")))); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_all_of3) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::all_of(match::all_of( match::arg(0)(match::name("@literal")), match::arg(1)(match::name("@literal"))))); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_lazy_any_of) { migraphx::program p; auto one = p.add_literal(1); p.add_instruction(pass_op{}, one); auto m = match::any_of(match::any(), throws()); auto r = find_match(p, m); EXPECT(bool{r.result == one}); } TEST_CASE(match_lazy_all_of) { migraphx::program p; auto one = p.add_literal(1); p.add_instruction(pass_op{}, one); auto m = match::all_of(match::none(), throws()); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_lazy_none_of) { migraphx::program p; auto one = p.add_literal(1); p.add_instruction(pass_op{}, one); auto m = match::none_of(match::any(), throws()); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_any_of1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")( match::any_of(match::arg(0)(match::name("sum")), match::arg(1)(match::name("@literal")))); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_any_of2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")( match::any_of(match::arg(0)(match::name("sum")), match::arg(1)(match::name("sum")))); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_any_of_lazy1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")( match::any_of(match::args(match::any(), match::any()).bind("x"), match::args(match::name("sum"), match::name("sum")).bind("y"))); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); EXPECT(migraphx::contains(r.instructions, "x")); EXPECT(bool{r.instructions["x"] == sum}); EXPECT(not migraphx::contains(r.instructions, "y")); } TEST_CASE(match_any_of_lazy2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")( match::any_of(match::args(match::name("@literal"), match::name("@literal")).bind("x"), match::args(match::any(), match::any()).bind("y"))); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); EXPECT(migraphx::contains(r.instructions, "x")); EXPECT(bool{r.instructions["x"] == sum}); EXPECT(not migraphx::contains(r.instructions, "y")); } TEST_CASE(match_any_of_lazy3) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")( match::any_of(match::args(match::any(), match::any()).bind("x"), match::args(match::name("@literal"), match::name("@literal")).bind("y"))); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); EXPECT(migraphx::contains(r.instructions, "x")); EXPECT(bool{r.instructions["x"] == sum}); EXPECT(not migraphx::contains(r.instructions, "y")); } TEST_CASE(match_any_of_lazy4) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::any_of( match::args(match::name("@literal").bind("x1"), match::name("@literal").bind("y1")), match::args(match::any().bind("x2"), match::any().bind("y2")))); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); EXPECT(migraphx::contains(r.instructions, "x1")); EXPECT(migraphx::contains(r.instructions, "y1")); EXPECT(bool{r.instructions["x1"] == one}); EXPECT(bool{r.instructions["y1"] == two}); EXPECT(not migraphx::contains(r.instructions, "x2")); EXPECT(not migraphx::contains(r.instructions, "y2")); } TEST_CASE(match_any_of_lazy5) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::any_of( match::args(match::any().bind("x1"), match::any().bind("y1")), match::args(match::name("@literal").bind("x2"), match::name("@literal").bind("y2")))); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); EXPECT(migraphx::contains(r.instructions, "x1")); EXPECT(migraphx::contains(r.instructions, "y1")); EXPECT(bool{r.instructions["x1"] == one}); EXPECT(bool{r.instructions["y1"] == two}); EXPECT(not migraphx::contains(r.instructions, "x2")); EXPECT(not migraphx::contains(r.instructions, "y2")); } TEST_CASE(match_none_of1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")( match::none_of(match::arg(0)(match::name("sum")), match::arg(1)(match::name("sum")))); auto r = find_match(p, m); EXPECT(bool{r.result == sum}); } TEST_CASE(match_none_of2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); auto m = match::name("sum")(match::none_of(match::arg(0)(match::name("@literal")), match::arg(1)(match::name("@literal")))); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_output1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto minus = p.add_instruction(minus_op{}, two, one); auto sum = p.add_instruction(sum_op{}, minus, two); p.add_instruction(pass_op{}, sum); auto m = match::name("minus")(match::output(match::name("sum"))); auto r = find_match(p, m); EXPECT(bool{r.result == minus}); } TEST_CASE(match_output2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto minus = p.add_instruction(minus_op{}, two, one); auto sum = p.add_instruction(sum_op{}, minus, two); p.add_instruction(pass_op{}, sum); auto m = match::name("@literal")(match::output(match::name("sum"))); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_skip_output1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto minus = p.add_instruction(minus_op{}, two, one); auto sum = p.add_instruction(sum_op{}, minus, two); p.add_instruction(pass_op{}, sum); auto m = match::name("minus")(match::skip_output(match::name("pass"))(match::name("sum"))); auto r = find_match(p, m); EXPECT(bool{r.result == minus}); } TEST_CASE(match_skip_output2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto minus = p.add_instruction(minus_op{}, two, one); auto minus_pass = p.add_instruction(pass_op{}, minus); auto sum = p.add_instruction(sum_op{}, minus_pass, two); p.add_instruction(pass_op{}, sum); auto m = match::name("minus")(match::skip_output(match::name("pass"))(match::name("sum"))); auto r = find_match(p, m); EXPECT(bool{r.result == minus}); } TEST_CASE(match_skip_output3) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto minus = p.add_instruction(minus_op{}, two, one); auto minus_pass1 = p.add_instruction(pass_op{}, minus); auto minus_pass2 = p.add_instruction(pass_op{}, minus_pass1); auto minus_pass3 = p.add_instruction(pass_op{}, minus_pass2); auto sum = p.add_instruction(sum_op{}, minus_pass3, two); p.add_instruction(pass_op{}, sum); auto m = match::name("minus")(match::skip_output(match::name("pass"))(match::name("sum"))); auto r = find_match(p, m); EXPECT(bool{r.result == minus}); } TEST_CASE(match_skip_output4) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto pass = p.add_instruction(pass_op{}, one); auto sum = p.add_instruction(sum_op{}, pass, two); p.add_instruction(pass_op{}, sum); auto m = match::name("@literal")(match::skip_output(match::name("pass"))(match::name("sum"))); auto r = find_match(p, m); EXPECT(bool{r.result == two}); } TEST_CASE(match_skip_output5) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto pass = p.add_instruction(pass_op{}, one); auto sum1 = p.add_instruction(sum_op{}, pass, two); auto sum2 = p.add_instruction(sum_op{}, sum1, one); auto sum3 = p.add_instruction(sum_op{}, sum2, two); p.add_instruction(pass_op{}, sum3); auto m = match::name("@literal")(match::skip_output(match::name("pass"))(match::name("sum"))); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_skip_output6) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto minus = p.add_instruction(minus_op{}, two, one); auto sum1 = p.add_instruction(sum_op{}, minus, two); auto sum2 = p.add_instruction(sum_op{}, sum1, one); auto sum3 = p.add_instruction(sum_op{}, sum2, two); p.add_instruction(pass_op{}, sum3); auto m = match::name("minus")(match::skip_output(match::name("pass"))(match::name("sum"))); auto r = find_match(p, m); EXPECT(bool{r.result == minus}); } TEST_CASE(match_skip_output7) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto minus1 = p.add_instruction(minus_op{}, two, one); auto minus2 = p.add_instruction(minus_op{}, two, minus1); auto sum = p.add_instruction(sum_op{}, one, minus2); p.add_instruction(pass_op{}, sum); auto m = match::name("minus")(match::skip_output(match::name("pass"))(match::name("minus"))); auto r = find_match(p, m); EXPECT(bool{r.result == minus1}); } TEST_CASE(match_bind1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); auto pass = p.add_instruction(pass_op{}, sum); auto m = match::name("pass")( match::args(match::name("sum")(match::args(match::name("@literal").bind("one"), match::name("@literal").bind("two"))) .bind("sum")), match::standard_shape()) .bind("pass"); auto r = find_match(p, m); EXPECT(bool{r.instructions.at("one") == one}); EXPECT(bool{r.instructions.at("two") == two}); EXPECT(bool{r.instructions.at("sum") == sum}); EXPECT(bool{r.instructions.at("pass") == pass}); EXPECT(bool{r.result == pass}); } TEST_CASE(match_has_value1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::has_value(1); auto r = find_match(p, m); EXPECT(bool{r.result == one}); } TEST_CASE(match_has_value2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::has_value(2); auto r = find_match(p, m); EXPECT(bool{r.result == two}); } TEST_CASE(match_has_value3) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::name("sum")(match::args(match::has_value(1), match::has_value(2))); auto r = find_match(p, m); EXPECT(bool{r.result == sum1}); } TEST_CASE(match_has_value4) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::has_value(3); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_has_value5) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::name("sum")(match::args(match::has_value(1), match::has_value(3))); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_has_value6) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, two); p.add_instruction(pass_op{}, sum2); auto m = match::name("sum")(match::args(match::has_value(2), match::has_value(1))); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_tree1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto three = p.add_literal(3); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, three); p.add_instruction(pass_op{}, sum2); auto m = match::tree("sum", match::has_value(1), match::has_value(2), match::has_value(3)); auto r = find_match(p, m); EXPECT(bool{r.result == sum2}); } TEST_CASE(match_tree2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto three = p.add_literal(3); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, three); p.add_instruction(pass_op{}, sum2); auto m = match::tree("sum", match::has_value(2), match::has_value(1), match::has_value(3)); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_tree3) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto three = p.add_literal(3); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, three, sum1); p.add_instruction(pass_op{}, sum2); auto m = match::tree("sum", match::has_value(3), match::has_value(1), match::has_value(2)); auto r = find_match(p, m); EXPECT(bool{r.result == sum2}); } TEST_CASE(match_tree4) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto three = p.add_literal(3); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, three); p.add_instruction(pass_op{}, sum2); auto m = match::tree( "sum", match::has_value(1), match::has_value(2), match::has_value(3), match::has_value(4)); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_tree5) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto three = p.add_literal(3); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, three); p.add_instruction(pass_op{}, sum2); auto m = match::tree("sum", match::has_value(2), match::has_value(3)); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_tree6) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto three = p.add_literal(3); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, three); p.add_instruction(pass_op{}, sum2); auto m = match::tree("sum", match::has_value(1), match::has_value(3)); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } TEST_CASE(match_unordered_tree1) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto three = p.add_literal(3); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, three); p.add_instruction(pass_op{}, sum2); auto m = match::unordered_tree("sum", match::has_value(3), match::has_value(2), match::has_value(1)); auto r = find_match(p, m); EXPECT(bool{r.result == sum2}); } TEST_CASE(match_unordered_tree2) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto three = p.add_literal(3); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, three, sum1); p.add_instruction(pass_op{}, sum2); auto m = match::unordered_tree("sum", match::has_value(3), match::has_value(2), match::has_value(1)); auto r = find_match(p, m); EXPECT(bool{r.result == sum2}); } TEST_CASE(match_unordered_tree3) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto three = p.add_literal(3); auto sum1 = p.add_instruction(sum_op{}, two, one); auto sum2 = p.add_instruction(sum_op{}, sum1, three); p.add_instruction(pass_op{}, sum2); auto m = match::unordered_tree("sum", match::has_value(3), match::has_value(2), match::has_value(1)); auto r = find_match(p, m); EXPECT(bool{r.result == sum2}); } TEST_CASE(match_unordered_tree4) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto three = p.add_literal(3); auto sum1 = p.add_instruction(sum_op{}, one, two); auto sum2 = p.add_instruction(sum_op{}, sum1, three); p.add_instruction(pass_op{}, sum2); auto m = match::unordered_tree("sum", match::has_value(4), match::has_value(2), match::has_value(1)); auto r = find_match(p, m); EXPECT(bool{r.result == p.end()}); } struct match_find_sum { migraphx::instruction_ref ins; auto matcher() const { return match::name("sum"); } void apply(migraphx::program&, const match::matcher_result& r) const { EXPECT(bool{r.result == ins}); } }; struct match_find_literal { migraphx::instruction_ref ins; auto matcher() const { return match::name("@literal"); } void apply(migraphx::program&, const match::matcher_result& r) const { EXPECT(bool{r.result != ins}); EXPECT(r.result->name() == "@literal"); } }; TEST_CASE(match_finder) { migraphx::program p; auto one = p.add_literal(1); auto two = p.add_literal(2); auto sum = p.add_instruction(sum_op{}, one, two); p.add_instruction(pass_op{}, sum); match::find_matches(p, match_find_sum{sum}, match_find_literal{sum}); } int main(int argc, const char* argv[]) { test::run(argc, argv); }