A SystemC productivity library for virtual platform development utilizing SCV and TLM2.0 https://www.minres.com/#opensource
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* Copyright 2018 MINRES Technologies GmbH
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
* http://www.apache.org/licenses/LICENSE-2.0
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* See the License for the specific language governing permissions and
* limitations under the License.
#ifndef _TLM_TLM_SIGNAL_H_
#define _TLM_TLM_SIGNAL_H_
#include "tlm_signal_gp.h"
#include "tlm_signal_sockets.h"
#include <scc/peq.h>
namespace tlm {
template <typename SIG = bool, typename TYPES = tlm_signal_baseprotocol_types<SIG>, int N = 32>
struct tlm_signal : public sc_core::sc_module,
public tlm_signal_fw_transport_if<SIG, TYPES>,
public tlm_signal_bw_transport_if<SIG, TYPES>,
sc_core::sc_signal_in_if<SIG> {
using tlm_signal_type = SIG;
using protocol_types = TYPES;
using payload_type = typename TYPES::tlm_payload_type;
using phase_type = typename TYPES::tlm_phase_type;
SC_HAS_PROCESS(tlm_signal); // NOLINT
tlm_signal_opt_target_socket<tlm_signal_type, protocol_types, N> in;
tlm_signal_opt_initiator_socket<tlm_signal_type, protocol_types, N> out;
tlm_signal(sc_core::sc_module_name nm)
: sc_core::sc_module(nm)
, in(sc_core::sc_gen_unique_name("in"))
, out(sc_core::sc_gen_unique_name("out")) {
in.bind(*(tlm_signal_fw_transport_if<tlm_signal_type, protocol_types>*)this);
out.bind(*(tlm_signal_bw_transport_if<tlm_signal_type, protocol_types>*)this);
sensitive << que.event();
void trace(sc_core::sc_trace_file* tf) const override;
const char* kind() const override { return "tlm_signal"; }
tlm_sync_enum nb_transport_fw(payload_type&, phase_type&, sc_core::sc_time&) override;
tlm_sync_enum nb_transport_bw(payload_type&, phase_type&, sc_core::sc_time&) override;
// get the value changed event
const sc_core::sc_event& value_changed_event() const override { return value.value_changed_event(); }
// read the current value
const SIG& read() const override { return value.read(); }
// get a reference to the current value (for tracing)
const SIG& get_data_ref() const override { return value.get_data_ref(); }
// was there a value changed event?
bool event() const override { return false; }
const sc_core::sc_event& default_event() const override { return value.default_event(); }
const sc_core::sc_event& posedge_event() const override { return value.posedge_event(); }
const sc_core::sc_event& negedge_event() const override { return value.negedge_event(); }
bool posedge() const override { return value.posedge(); }
bool negedge() const override { return value.posedge(); };
void que_cb();
scc::peq<tlm_signal_type> que;
sc_core::sc_signal<tlm_signal_type> value;
template <typename SIG, typename TYPES, int N> void tlm_signal<SIG, TYPES, N>::trace(sc_core::sc_trace_file* tf) const {
sc_trace(tf, value, name());
template <typename SIG, typename TYPES, int N>
tlm_sync_enum tlm::tlm_signal<SIG, TYPES, N>::nb_transport_fw(payload_type& gp, phase_type& phase,
sc_core::sc_time& delay) {
que.notify(gp.get_value(), delay);
auto& p = out.get_base_port();
for(size_t i = 0; i < p.size(); ++i) {
p.get_interface(i)->nb_transport_fw(gp, phase, delay);
template <typename SIG, typename TYPES, int N>
tlm_sync_enum tlm::tlm_signal<SIG, TYPES, N>::nb_transport_bw(payload_type& gp, phase_type& phase,
sc_core::sc_time& delay) {
auto& p = in.get_base_port();
for(size_t i = 0; i < p.size(); ++i) {
p.get_interface(i)->nb_transport_bw(gp, phase, delay);
template <typename SIG, typename TYPES, int N> void tlm::tlm_signal<SIG, TYPES, N>::que_cb() {
while(auto oi = que.get_next())
} // namespace tlm
#endif /* _TLM_TLM_SIGNAL_H_ */