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//
// Copyright 2015 Ettus Research LLC
//
// SPDX-License-Identifier: GPL-3.0
//
#include "../lib/rfnoc/nocscript/function_table.hpp"
#include <boost/test/unit_test.hpp>
#include <boost/test/floating_point_comparison.hpp>
#include <boost/bind.hpp>
#include <boost/make_shared.hpp>
#include <boost/format.hpp>
#include <algorithm>
#include <iostream>
#include "nocscript_common.hpp"
// We need this global variable for one of the later tests
int and_counter = 0;
BOOST_AUTO_TEST_CASE(test_literals)
{
expression_literal literal_int("5", expression::TYPE_INT);
BOOST_CHECK_EQUAL(literal_int.infer_type(), expression::TYPE_INT);
BOOST_CHECK_EQUAL(literal_int.get_int(), 5);
BOOST_CHECK_EQUAL(literal_int.to_bool(), true);
BOOST_REQUIRE_THROW(literal_int.get_string(), uhd::type_error);
BOOST_REQUIRE_THROW(literal_int.get_bool(), uhd::type_error);
expression_literal literal_int0("0", expression::TYPE_INT);
BOOST_CHECK_EQUAL(literal_int0.infer_type(), expression::TYPE_INT);
BOOST_CHECK_EQUAL(literal_int0.to_bool(), false);
expression_literal literal_double("2.3", expression::TYPE_DOUBLE);
BOOST_CHECK_EQUAL(literal_double.infer_type(), expression::TYPE_DOUBLE);
BOOST_CHECK_CLOSE(literal_double.get_double(), 2.3, 0.01);
BOOST_CHECK_EQUAL(literal_double.to_bool(), true);
BOOST_REQUIRE_THROW(literal_double.get_string(), uhd::type_error);
BOOST_REQUIRE_THROW(literal_double.get_bool(), uhd::type_error);
expression_literal literal_bool(true);
BOOST_CHECK_EQUAL(literal_bool.infer_type(), expression::TYPE_BOOL);
BOOST_CHECK_EQUAL(literal_bool.get_bool(), true);
BOOST_CHECK_EQUAL(literal_bool.to_bool(), true);
BOOST_CHECK_EQUAL(literal_bool.eval().get_bool(), true);
BOOST_REQUIRE_THROW(literal_bool.get_string(), uhd::type_error);
BOOST_REQUIRE_THROW(literal_bool.get_int(), uhd::type_error);
expression_literal literal_bool_false(false);
BOOST_CHECK_EQUAL(literal_bool_false.infer_type(), expression::TYPE_BOOL);
BOOST_CHECK_EQUAL(literal_bool_false.get_bool(), false);
BOOST_CHECK_EQUAL(literal_bool_false.to_bool(), false);
BOOST_REQUIRE_EQUAL(literal_bool_false.eval().get_bool(), false);
BOOST_REQUIRE_THROW(literal_bool_false.get_string(), uhd::type_error);
BOOST_REQUIRE_THROW(literal_bool_false.get_int(), uhd::type_error);
expression_literal literal_string("'foo bar'", expression::TYPE_STRING);
BOOST_CHECK_EQUAL(literal_string.infer_type(), expression::TYPE_STRING);
BOOST_CHECK_EQUAL(literal_string.get_string(), "foo bar");
BOOST_REQUIRE_THROW(literal_string.get_bool(), uhd::type_error);
BOOST_REQUIRE_THROW(literal_string.get_int(), uhd::type_error);
expression_literal literal_int_vec("[1, 2, 3]", expression::TYPE_INT_VECTOR);
BOOST_CHECK_EQUAL(literal_int_vec.infer_type(), expression::TYPE_INT_VECTOR);
std::vector<int> test_data = boost::assign::list_of(1)(2)(3);
std::vector<int> result = literal_int_vec.get_int_vector();
BOOST_CHECK_EQUAL_COLLECTIONS(test_data.begin(), test_data.end(),
result.begin(), result.end());
BOOST_REQUIRE_THROW(literal_int_vec.get_bool(), uhd::type_error);
BOOST_REQUIRE_THROW(literal_int_vec.get_int(), uhd::type_error);
}
// Need those for the variable testing:
expression::type_t variable_get_type(const std::string &var_name)
{
if (var_name == "spp") {
std::cout << "Returning type for $spp..." << std::endl;
return expression::TYPE_INT;
}
if (var_name == "is_true") {
std::cout << "Returning type for $is_true..." << std::endl;
return expression::TYPE_BOOL;
}
throw uhd::syntax_error("Cannot infer type (unknown variable)");
}
expression_literal variable_get_value(const std::string &var_name)
{
if (var_name == "spp") {
std::cout << "Returning value for $spp..." << std::endl;
return expression_literal(5);
}
if (var_name == "is_true") {
std::cout << "Returning value for $is_true..." << std::endl;
return expression_literal(true);
}
throw uhd::syntax_error("Cannot read value (unknown variable)");
}
BOOST_AUTO_TEST_CASE(test_variables)
{
BOOST_REQUIRE_THROW(
expression_variable v_fail(
"foo", // Invalid token
boost::bind(&variable_get_type, _1), boost::bind(&variable_get_value, _1)
),
uhd::assertion_error
);
expression_variable v(
"$spp", // The token
boost::bind(&variable_get_type, _1), // type-getter
boost::bind(&variable_get_value, _1) // value-getter
);
BOOST_CHECK_EQUAL(v.infer_type(), expression::TYPE_INT);
BOOST_CHECK_EQUAL(v.eval().get_int(), 5);
}
BOOST_AUTO_TEST_CASE(test_container)
{
// Create some sub-expressions:
expression_literal::sptr l_true = E(true);
expression_literal::sptr l_false = E(false);
expression_literal::sptr l_int = E(5);
BOOST_REQUIRE_EQUAL(l_false->get_bool(), false);
BOOST_REQUIRE_EQUAL(l_false->to_bool(), false);
expression_variable::sptr l_boolvar = boost::make_shared<expression_variable>(
"$is_true",
boost::bind(&variable_get_type, _1),
boost::bind(&variable_get_value, _1)
);
// This will throw anytime it's evaluated:
expression_variable::sptr l_failvar = boost::make_shared<expression_variable>(
"$does_not_exist",
boost::bind(&variable_get_type, _1),
boost::bind(&variable_get_value, _1)
);
expression_container c;
std::cout << "One true, OR: " << std::endl;
c.add(l_true);
c.set_combiner_safe(expression_container::COMBINE_OR);
expression_literal ret_val_1 = c.eval();
BOOST_CHECK_EQUAL(ret_val_1.infer_type(), expression::TYPE_BOOL);
BOOST_CHECK_EQUAL(ret_val_1.eval().get_bool(), true);
std::cout << std::endl << std::endl << "Two true, one false, OR: " << std::endl;
c.add(l_true);
c.add(l_false);
expression_literal ret_val_2 = c.eval();
BOOST_CHECK_EQUAL(ret_val_2.infer_type(), expression::TYPE_BOOL);
BOOST_CHECK_EQUAL(ret_val_2.eval().get_bool(), true);
expression_container c2;
c2.add(l_false);
c2.add(l_false);
c2.set_combiner(expression_container::COMBINE_AND);
std::cout << std::endl << std::endl << "Two false, AND: " << std::endl;
expression_literal ret_val_3 = c2.eval();
BOOST_CHECK_EQUAL(ret_val_3.infer_type(), expression::TYPE_BOOL);
BOOST_REQUIRE_EQUAL(ret_val_3.eval().get_bool(), false);
c2.add(l_failvar);
// Will not fail, because l_failvar never gets eval'd:
expression_literal ret_val_4 = c2.eval();
BOOST_CHECK_EQUAL(ret_val_4.infer_type(), expression::TYPE_BOOL);
BOOST_CHECK_EQUAL(ret_val_4.eval().get_bool(), false);
// Same here:
c.add(l_failvar);
expression_literal ret_val_5 = c.eval();
BOOST_CHECK_EQUAL(ret_val_5.infer_type(), expression::TYPE_BOOL);
BOOST_CHECK_EQUAL(ret_val_5.eval().get_bool(), true);
// Now it'll throw:
c.set_combiner(expression_container::COMBINE_ALL);
BOOST_REQUIRE_THROW(c.eval(), uhd::syntax_error);
std::cout << "Checking type inference on ',' sequences: " << std::endl;
// Check types match
BOOST_CHECK_EQUAL(c2.infer_type(), expression::TYPE_BOOL);
expression_container c3;
c3.set_combiner(expression_container::COMBINE_ALL);
c3.add(l_false);
c3.add(l_int);
BOOST_CHECK_EQUAL(c3.infer_type(), expression::TYPE_INT);
}
// We'll define two functions here: ADD and XOR. The former shall
// be defined for INT and DOUBLE
class functable_mockup_impl : public function_table
{
public:
functable_mockup_impl(void) {};
bool function_exists(const std::string &name) const {
return name == "ADD" or name == "XOR" or name == "AND";
}
bool function_exists(
const std::string &name,
const expression_function::argtype_list_type &arg_types
) const {
if (name == "ADD") {
if (arg_types.size() == 2
and arg_types[0] == expression::TYPE_DOUBLE
and arg_types[1] == expression::TYPE_DOUBLE
) {
return true;
}
if (arg_types.size() == 2
and arg_types[0] == expression::TYPE_INT
and arg_types[1] == expression::TYPE_INT
) {
return true;
}
return false;
}
if (name == "XOR" or name == "AND") {
if (arg_types.size() == 2
and arg_types[0] == expression::TYPE_BOOL
and arg_types[1] == expression::TYPE_BOOL
) {
return true;
}
return false;
}
return false;
}
expression::type_t get_type(
const std::string &name,
const expression_function::argtype_list_type &arg_types
) const {
if (not function_exists(name, arg_types)) {
throw uhd::syntax_error(str(
boost::format("[EXPR_TEXT] get_type(): Unknown function: %s, %d arguments")
% name % arg_types.size()
));
}
if (name == "XOR" or name == "AND") {
return expression::TYPE_BOOL;
}
if (name == "ADD") {
return arg_types[0];
}
UHD_THROW_INVALID_CODE_PATH();
}
expression_literal eval(
const std::string &name,
const expression_function::argtype_list_type &arg_types,
expression_container::expr_list_type &args
) {
if (name == "XOR") {
if (arg_types.size() != 2
or args.size() != 2
or arg_types[0] != expression::TYPE_BOOL
or arg_types[1] != expression::TYPE_BOOL
or args[0]->infer_type() != expression::TYPE_BOOL
or args[1]->infer_type() != expression::TYPE_BOOL
) {
throw uhd::syntax_error("eval(): XOR type mismatch");
}
return expression_literal(bool(
args[0]->eval().get_bool() xor args[1]->eval().get_bool()
));
}
if (name == "AND") {
if (arg_types.size() != 2
or args.size() != 2
or arg_types[0] != expression::TYPE_BOOL
or arg_types[1] != expression::TYPE_BOOL
or args[0]->infer_type() != expression::TYPE_BOOL
or args[1]->infer_type() != expression::TYPE_BOOL
) {
throw uhd::syntax_error("eval(): AND type mismatch");
}
std::cout << "Calling AND" << std::endl;
and_counter++;
return expression_literal(bool(
args[0]->eval().get_bool() and args[1]->eval().get_bool()
));
}
if (name == "ADD") {
if (args.size() != 2) {
throw uhd::syntax_error("eval(): ADD type mismatch");
}
if ((args[0]->infer_type() == expression::TYPE_INT) and
(args[1]->infer_type() == expression::TYPE_INT)) {
return expression_literal(int(
args[0]->eval().get_int() + args[1]->eval().get_int()
));
}
else if ((args[0]->infer_type() == expression::TYPE_DOUBLE) and
(args[1]->infer_type() == expression::TYPE_DOUBLE)) {
return expression_literal(double(
args[0]->eval().get_double() + args[1]->eval().get_double()
));
}
throw uhd::syntax_error("eval(): ADD type mismatch");
}
throw uhd::syntax_error("eval(): unknown function");
}
// We don't actually need this
void register_function(
const std::string &,
const function_table::function_ptr &,
const expression::type_t,
const expression_function::argtype_list_type &
) {};
};
// The annoying part: Testing the test fixtures
BOOST_AUTO_TEST_CASE(test_functable_mockup)
{
functable_mockup_impl functable;
BOOST_CHECK(functable.function_exists("ADD"));
BOOST_CHECK(functable.function_exists("XOR"));
BOOST_CHECK(not functable.function_exists("FOOBAR"));
BOOST_CHECK(functable.function_exists("ADD", two_int_args));
BOOST_CHECK(functable.function_exists("ADD", two_double_args));
BOOST_CHECK(functable.function_exists("XOR", two_bool_args));
BOOST_CHECK(not functable.function_exists("ADD", two_bool_args));
BOOST_CHECK(not functable.function_exists("ADD", no_args));
BOOST_CHECK(not functable.function_exists("XOR", no_args));
BOOST_CHECK_EQUAL(functable.get_type("ADD", two_int_args), expression::TYPE_INT);
BOOST_CHECK_EQUAL(functable.get_type("ADD", two_double_args), expression::TYPE_DOUBLE);
BOOST_CHECK_EQUAL(functable.get_type("XOR", two_bool_args), expression::TYPE_BOOL);
expression_container::expr_list_type add_args_int =
boost::assign::list_of(E(2))(E(3))
;
expression_container::expr_list_type add_args_dbl =
boost::assign::list_of
(E(2.25))
(E(5.0))
;
expression_container::expr_list_type xor_args_bool =
boost::assign::list_of
(E(true))
(E(false))
;
BOOST_CHECK_EQUAL(functable.eval("ADD", two_int_args, add_args_int), expression_literal(5));
BOOST_CHECK_EQUAL(functable.eval("ADD", two_double_args, add_args_dbl), expression_literal(7.25));
BOOST_CHECK_EQUAL(functable.eval("XOR", two_bool_args, xor_args_bool), expression_literal(true));
}
BOOST_AUTO_TEST_CASE(test_function_expression)
{
function_table::sptr ft = boost::make_shared<functable_mockup_impl>();
// Very simple function: ADD(2, 3)
expression_function func1("ADD", ft);
func1.add(E(2));
func1.add(E(3));
BOOST_CHECK_EQUAL(func1.eval(), expression_literal(5));
// More elaborate: ADD(ADD(2, 3), ADD(ADD(4, 5), 6)) ?= 20
// f4 f1 f3 f2
expression_function f1("ADD", ft);
f1.add(E(2));
f1.add(E(3));
expression_function f2("ADD", ft);
f2.add(E(4));
f2.add(E(5));
expression_function f3("ADD", ft);
f3.add(boost::make_shared<expression_function>(f2));
f3.add(E(6));
expression_function f4("ADD", ft);
f4.add(boost::make_shared<expression_function>(f1));
f4.add(boost::make_shared<expression_function>(f3));
BOOST_CHECK_EQUAL(f4.eval().get_int(), 20);
}
BOOST_AUTO_TEST_CASE(test_function_expression_laziness)
{
function_table::sptr ft = boost::make_shared<functable_mockup_impl>();
// We run AND(AND(false, false), AND(false, false)).
// f1 f2 f3
// That makes three ANDs
// in total. However, we will only see AND being evaluated twice, because
// the outcome is clear after running the first AND in the argument list.
expression_function::sptr f2 = boost::make_shared<expression_function>("AND", ft);
f2->add(E(false));
f2->add(E(false));
BOOST_CHECK(not f2->eval().get_bool());
expression_function::sptr f3 = boost::make_shared<expression_function>("AND", ft);
f3->add(E(false));
f3->add(E(false));
BOOST_CHECK(not f3->eval().get_bool());
and_counter = 0;
expression_function::sptr f1 = boost::make_shared<expression_function>("AND", ft);
f1->add(f2);
f1->add(f3);
BOOST_CHECK(not f1->eval().get_bool());
BOOST_CHECK_EQUAL(and_counter, 2);
}
BOOST_AUTO_TEST_CASE(test_sptrs)
{
expression_container::sptr c = expression_container::make();
BOOST_CHECK_EQUAL(c->infer_type(), expression::TYPE_BOOL);
BOOST_CHECK(c->eval().get_bool());
expression_variable::sptr v = expression_variable::make(
"$spp",
boost::bind(&variable_get_type, _1), // type-getter
boost::bind(&variable_get_value, _1) // value-getter
);
c->add(v);
BOOST_REQUIRE_EQUAL(c->infer_type(), expression::TYPE_INT);
BOOST_CHECK_EQUAL(c->eval().get_int(), 5);
}
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