//
// Copyright 2015 Ettus Research LLC
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
// This program is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
//
// You should have received a copy of the GNU General Public License
// along with this program. If not, see .
//
#include "expression.hpp"
#include "function_table.hpp"
#include
#include
#include
#include
using namespace uhd::rfnoc::nocscript;
std::map expression::type_repr = boost::assign::map_list_of
(TYPE_INT, "INT")
(TYPE_DOUBLE, "DOUBLE")
(TYPE_STRING, "STRING")
(TYPE_BOOL, "BOOL")
(TYPE_INT_VECTOR, "INT_VECTOR")
;
/********************************************************************
* Literal expressions (constants)
*******************************************************************/
expression_literal::expression_literal(
const std::string token_val,
expression::type_t type
) : _bool_val(false)
, _int_val(0)
, _double_val(0.0)
, _val(token_val)
, _type(type)
{
switch (_type) {
case expression::TYPE_STRING:
// Remove the leading and trailing quotes:
_val = _val.substr(1, _val.size()-2);
break;
case expression::TYPE_INT:
if (_val.substr(0, 2) == "0x") {
_int_val = uhd::cast::hexstr_cast(_val);
} else {
_int_val = boost::lexical_cast(_val);
}
break;
case expression::TYPE_DOUBLE:
_double_val = boost::lexical_cast(_val);
break;
case expression::TYPE_BOOL:
if (boost::to_upper_copy(_val) == "TRUE") {
_bool_val = true;
} else {
// lexical cast to bool is too picky
_bool_val = bool(boost::lexical_cast(_val));
}
break;
case expression::TYPE_INT_VECTOR:
{
std::string str_vec = _val.substr(1, _val.size()-2);
std::vector subtoken_list;
boost::split(subtoken_list, str_vec, boost::is_any_of(", "), boost::token_compress_on);
for(const std::string &t: subtoken_list) {
_int_vector_val.push_back(boost::lexical_cast(t));
}
break;
}
default:
UHD_THROW_INVALID_CODE_PATH();
}
}
expression_literal::expression_literal(bool b)
: _bool_val(b)
, _int_val(0)
, _double_val(0.0)
, _val("")
, _type(expression::TYPE_BOOL)
{
// nop
}
expression_literal::expression_literal(int i)
: _bool_val(false)
, _int_val(i)
, _double_val(0.0)
, _val("")
, _type(expression::TYPE_INT)
{
// nop
}
expression_literal::expression_literal(double d)
: _bool_val(false)
, _int_val(0)
, _double_val(d)
, _val("")
, _type(expression::TYPE_DOUBLE)
{
// nop
}
expression_literal::expression_literal(const std::string &s)
: _bool_val(false)
, _int_val(0)
, _double_val(0.0)
, _val(s)
, _type(expression::TYPE_STRING)
{
// nop
}
expression_literal::expression_literal(const std::vector v)
: _bool_val(false)
, _int_val(0)
, _double_val(0.0)
, _int_vector_val(v)
, _val("")
, _type(expression::TYPE_INT_VECTOR)
{
// nop
}
bool expression_literal::to_bool() const
{
switch (_type) {
case TYPE_INT:
return bool(boost::lexical_cast(_val));
case TYPE_STRING:
return not _val.empty();
case TYPE_DOUBLE:
return bool(boost::lexical_cast(_val));
case TYPE_BOOL:
return _bool_val;
case TYPE_INT_VECTOR:
return not _int_vector_val.empty();
default:
UHD_THROW_INVALID_CODE_PATH();
}
}
int expression_literal::get_int() const
{
if (_type != TYPE_INT) {
throw uhd::type_error("Cannot call get_int() on non-int value.");
}
return _int_val;
}
double expression_literal::get_double() const
{
if (_type != TYPE_DOUBLE) {
throw uhd::type_error("Cannot call get_double() on non-double value.");
}
return _double_val;
}
std::string expression_literal::get_string() const
{
if (_type != TYPE_STRING) {
throw uhd::type_error("Cannot call get_string() on non-string value.");
}
return _val;
}
bool expression_literal::get_bool() const
{
if (_type != TYPE_BOOL) {
throw uhd::type_error("Cannot call get_bool() on non-boolean value.");
}
return _bool_val;
}
std::vector expression_literal::get_int_vector() const
{
if (_type != TYPE_INT_VECTOR) {
throw uhd::type_error("Cannot call get_bool() on non-boolean value.");
}
return _int_vector_val;
}
std::string expression_literal::repr() const
{
switch (_type) {
case TYPE_INT:
return boost::lexical_cast(_int_val);
case TYPE_STRING:
return _val;
case TYPE_DOUBLE:
return boost::lexical_cast(_double_val);
case TYPE_BOOL:
return _bool_val ? "TRUE" : "FALSE";
case TYPE_INT_VECTOR:
{
std::stringstream sstr;
sstr << "[";
for (size_t i = 0; i < _int_vector_val.size(); i++) {
if (i > 0) {
sstr << ", ";
}
sstr << _int_vector_val[i];
}
sstr << "]";
return sstr.str();
}
default:
UHD_THROW_INVALID_CODE_PATH();
}
}
bool expression_literal::operator==(const expression_literal &rhs) const
{
if (rhs.infer_type() != _type) {
return false;
}
switch (_type) {
case TYPE_INT:
return get_int() == rhs.get_int();
case TYPE_STRING:
return get_string() == rhs.get_string();
case TYPE_DOUBLE:
return get_double() == rhs.get_double();
case TYPE_BOOL:
return get_bool() == rhs.get_bool();
default:
UHD_THROW_INVALID_CODE_PATH();
}
}
/********************************************************************
* Containers
*******************************************************************/
expression_container::sptr expression_container::make()
{
return sptr(new expression_container);
}
expression::type_t expression_container::infer_type() const
{
if (_combiner == COMBINE_OR or _combiner == COMBINE_AND) {
return TYPE_BOOL;
}
if (_sub_exprs.empty()) {
return TYPE_BOOL;
}
return _sub_exprs.back()->infer_type();
}
void expression_container::add(expression::sptr new_expr)
{
_sub_exprs.push_back(new_expr);
}
bool expression_container::empty() const
{
return _sub_exprs.empty();
}
void expression_container::set_combiner_safe(const combiner_type c)
{
if (_combiner == COMBINE_NOTSET) {
_combiner = c;
return;
}
throw uhd::syntax_error("Attempting to override combiner type");
}
expression_literal expression_container::eval()
{
if (_sub_exprs.empty()) {
return expression_literal(true);
}
expression_literal ret_val;
for(const expression::sptr &sub_expr: _sub_exprs) {
ret_val = sub_expr->eval();
if (_combiner == COMBINE_AND and ret_val.to_bool() == false) {
return ret_val;
}
if (_combiner == COMBINE_OR and ret_val.to_bool() == true) {
return ret_val;
}
// For ALL, we return the last one, so just overwrite it
}
return ret_val;
}
/********************************************************************
* Functions
*******************************************************************/
std::string expression_function::to_string(const std::string &name, const argtype_list_type &types)
{
std::string s = name;
int arg_count = 0;
for(const expression::type_t type: types) {
if (arg_count == 0) {
s += "(";
} else {
s += ", ";
}
s += type_repr[type];
arg_count++;
}
s += ")";
return s;
}
expression_function::expression_function(
const std::string &name,
const function_table::sptr func_table
) : _name(name)
, _func_table(func_table)
{
_combiner = COMBINE_ALL;
if (not _func_table->function_exists(_name)) {
throw uhd::syntax_error(str(
boost::format("Unknown function: %s")
% _name
));
}
}
void expression_function::add(expression::sptr new_expr)
{
expression_container::add(new_expr);
_arg_types.push_back(new_expr->infer_type());
}
expression::type_t expression_function::infer_type() const
{
return _func_table->get_type(_name, _arg_types);
}
expression_literal expression_function::eval()
{
return _func_table->eval(_name, _arg_types, _sub_exprs);
}
std::string expression_function::repr() const
{
return to_string(_name, _arg_types);
}
expression_function::sptr expression_function::make(
const std::string &name,
const function_table::sptr func_table
) {
return sptr(new expression_function(name, func_table));
}
/********************************************************************
* Variables
*******************************************************************/
expression_variable::expression_variable(
const std::string &token_val,
type_getter_type type_getter,
value_getter_type value_getter
) : _type_getter(type_getter)
, _value_getter(value_getter)
{
// We can assume this is true because otherwise, it's not a valid token:
UHD_ASSERT_THROW(not token_val.empty() and token_val[0] == '$');
_varname = token_val.substr(1);
}
expression::type_t expression_variable::infer_type() const
{
return _type_getter(_varname);
}
expression_literal expression_variable::eval()
{
return _value_getter(_varname);
}
expression_variable::sptr expression_variable::make(
const std::string &token_val,
type_getter_type type_getter,
value_getter_type value_getter
) {
return sptr(new expression_variable(token_val, type_getter, value_getter));
}