//
// 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 "block_iface.hpp"
#include "function_table.hpp"
#include
#include
#include
#include
#include
#define UHD_NOCSCRIPT_LOG() UHD_LOGV(never)
using namespace uhd::rfnoc;
using namespace uhd::rfnoc::nocscript;
block_iface::block_iface(block_ctrl_base *block_ptr)
: _block_ptr(block_ptr)
{
function_table::sptr ft = function_table::make();
// Add the SR_WRITE() function
expression_function::argtype_list_type sr_write_args = boost::assign::list_of
(expression::TYPE_STRING)
(expression::TYPE_INT)
;
ft->register_function(
"SR_WRITE",
boost::bind(&block_iface::_nocscript__sr_write, this, _1),
expression::TYPE_BOOL,
sr_write_args
);
// Add read access to arguments ($foo)
expression_function::argtype_list_type arg_set_args_wo_port = boost::assign::list_of
(expression::TYPE_STRING)
(expression::TYPE_INT)
;
expression_function::argtype_list_type arg_set_args_w_port = boost::assign::list_of
(expression::TYPE_STRING)
(expression::TYPE_INT)
(expression::TYPE_INT)
;
#define REGISTER_ARG_SETTER(noctype, setter_func) \
arg_set_args_wo_port[1] = expression::noctype; \
arg_set_args_w_port[1] = expression::noctype; \
ft->register_function( \
"SET_ARG", \
boost::bind(&block_iface::setter_func, this, _1), \
expression::TYPE_BOOL, \
arg_set_args_wo_port \
); \
ft->register_function( \
"SET_ARG", \
boost::bind(&block_iface::setter_func, this, _1), \
expression::TYPE_BOOL, \
arg_set_args_w_port \
);
REGISTER_ARG_SETTER(TYPE_INT, _nocscript__arg_set_int);
REGISTER_ARG_SETTER(TYPE_STRING, _nocscript__arg_set_string);
REGISTER_ARG_SETTER(TYPE_DOUBLE, _nocscript__arg_set_double);
REGISTER_ARG_SETTER(TYPE_INT_VECTOR, _nocscript__arg_set_intvec);
// Add read/write access to local variables
expression_function::argtype_list_type set_var_args = boost::assign::list_of
(expression::TYPE_STRING)
(expression::TYPE_INT)
;
const expression_function::argtype_list_type get_var_args = boost::assign::list_of
(expression::TYPE_STRING)
;
#define REGISTER_VAR_ACCESS(noctype, typestr) \
set_var_args[1] = expression::noctype; \
ft->register_function( \
"SET_VAR", \
boost::bind(&block_iface::_nocscript__var_set, this, _1), \
expression::TYPE_BOOL, \
set_var_args \
); \
ft->register_function( \
"GET_"#typestr, \
boost::bind(&block_iface::_nocscript__var_get, this, _1), \
expression::noctype, \
get_var_args \
);
REGISTER_VAR_ACCESS(TYPE_INT, INT);
REGISTER_VAR_ACCESS(TYPE_STRING, STRING);
REGISTER_VAR_ACCESS(TYPE_DOUBLE, DOUBLE);
REGISTER_VAR_ACCESS(TYPE_INT_VECTOR, INT_VECTOR);
// Create the parser
_parser = parser::make(
ft,
boost::bind(&block_iface::_nocscript__arg_get_type, this, _1),
boost::bind(&block_iface::_nocscript__arg_get_val, this, _1)
);
}
void block_iface::run_and_check(const std::string &code, const std::string &error_message)
{
boost::mutex::scoped_lock local_interpreter_lock(_lil_mutex);
UHD_NOCSCRIPT_LOG() << "[NocScript] Executing and asserting code: " << code << std::endl;
expression::sptr e = _parser->create_expr_tree(code);
expression_literal result = e->eval();
if (not result.to_bool()) {
if (error_message.empty()) {
throw uhd::runtime_error(str(
boost::format("[NocScript] Code returned false: %s")
% code
));
} else {
throw uhd::runtime_error(str(
boost::format("[NocScript] Error: %s")
% error_message
));
}
}
_vars.clear(); // We go out of scope, and so do NocScript variables
}
expression_literal block_iface::_nocscript__sr_write(expression_container::expr_list_type args)
{
const std::string reg_name = args[0]->eval().get_string();
const uint32_t reg_val = uint32_t(args[1]->eval().get_int());
bool result = true;
try {
UHD_NOCSCRIPT_LOG() << "[NocScript] Executing SR_WRITE() " << std::endl;
_block_ptr->sr_write(reg_name, reg_val);
} catch (const uhd::exception &e) {
UHD_MSG(error) << boost::format("[NocScript] Error while executing SR_WRITE(%s, 0x%X):\n%s")
% reg_name % reg_val % e.what()
<< std::endl;
result = false;
}
return expression_literal(result);
}
expression::type_t block_iface::_nocscript__arg_get_type(const std::string &varname)
{
const std::string var_type = _block_ptr->get_arg_type(varname);
if (var_type == "int") {
return expression::TYPE_INT;
} else if (var_type == "string") {
return expression::TYPE_STRING;
} else if (var_type == "double") {
return expression::TYPE_DOUBLE;
} else if (var_type == "int_vector") {
UHD_THROW_INVALID_CODE_PATH(); // TODO
} else {
UHD_THROW_INVALID_CODE_PATH();
}
}
expression_literal block_iface::_nocscript__arg_get_val(const std::string &varname)
{
const std::string var_type = _block_ptr->get_arg_type(varname);
if (var_type == "int") {
return expression_literal(_block_ptr->get_arg(varname));
} else if (var_type == "string") {
return expression_literal(_block_ptr->get_arg(varname));
} else if (var_type == "double") {
return expression_literal(_block_ptr->get_arg(varname));
} else if (var_type == "int_vector") {
UHD_THROW_INVALID_CODE_PATH(); // TODO
} else {
UHD_THROW_INVALID_CODE_PATH();
}
}
expression_literal block_iface::_nocscript__arg_set_int(const expression_container::expr_list_type &args)
{
const std::string var_name = args[0]->eval().get_string();
const int val = args[1]->eval().get_int();
size_t port = 0;
if (args.size() == 3) {
port = size_t(args[2]->eval().get_int());
}
UHD_NOCSCRIPT_LOG() << "[NocScript] Setting $" << var_name << std::endl;
_block_ptr->set_arg(var_name, val, port);
return expression_literal(true);
}
expression_literal block_iface::_nocscript__arg_set_string(const expression_container::expr_list_type &args)
{
const std::string var_name = args[0]->eval().get_string();
const std::string val = args[1]->eval().get_string();
size_t port = 0;
if (args.size() == 3) {
port = size_t(args[2]->eval().get_int());
}
UHD_NOCSCRIPT_LOG() << "[NocScript] Setting $" << var_name << std::endl;
_block_ptr->set_arg(var_name, val, port);
return expression_literal(true);
}
expression_literal block_iface::_nocscript__arg_set_double(const expression_container::expr_list_type &args)
{
const std::string var_name = args[0]->eval().get_string();
const double val = args[1]->eval().get_double();
size_t port = 0;
if (args.size() == 3) {
port = size_t(args[2]->eval().get_int());
}
UHD_NOCSCRIPT_LOG() << "[NocScript] Setting $" << var_name << std::endl;
_block_ptr->set_arg(var_name, val, port);
return expression_literal(true);
}
expression_literal block_iface::_nocscript__arg_set_intvec(const expression_container::expr_list_type &)
{
UHD_THROW_INVALID_CODE_PATH();
}
block_iface::sptr block_iface::make(uhd::rfnoc::block_ctrl_base* block_ptr)
{
return sptr(new block_iface(block_ptr));
}
expression_literal block_iface::_nocscript__var_get(const expression_container::expr_list_type &args)
{
expression_literal expr = _vars[args[0]->eval().get_string()];
//std::cout << "[NocScript] Getting var " << args[0]->eval().get_string() << " == " << expr << std::endl;
//std::cout << "[NocScript] Type " << expr.infer_type() << std::endl;
//return _vars[args[0]->eval().get_string()];
return expr;
}
expression_literal block_iface::_nocscript__var_set(const expression_container::expr_list_type &args)
{
_vars[args[0]->eval().get_string()] = args[1]->eval();
//std::cout << "[NocScript] Set var " << args[0]->eval().get_string() << " to " << _vars[args[0]->eval().get_string()] << std::endl;
//std::cout << "[NocScript] Type " << _vars[args[0]->eval().get_string()].infer_type() << std::endl;
return expression_literal(true);
}