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gem5 / amd / gem5 / 16fa8d7cc8c92f5ab879e4cf9c6c0bbb3567860f / . / src / systemc / tests / systemc / 1666-2011-compliance / sc_writer_policy / sc_writer_policy.cpp
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with this work for additional information regarding copyright ownership.
Accellera licenses this file to you under the Apache License, Version 2.0
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http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
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// sc_writer_policy.cpp -- test for
//
// Original Author: John Aynsley, Doulos, Inc.
//
// MODIFICATION LOG - modifiers, enter your name, affiliation, date and
//
// $Log: sc_writer_policy.cpp,v $
// Revision 1.2 2011/05/08 19:18:46 acg
// Andy Goodrich: remove extraneous + prefixes from git diff.
//
// sc_writer_policy template argument of class sc_signal
#define SC_INCLUDE_DYNAMIC_PROCESSES
#include <systemc>
using namespace sc_core;
using namespace sc_dt;
using std::cout;
using std::endl;
using std::string;
struct M: sc_module
{
sc_inout<bool> port;
sc_time delay;
sc_signal<int> one_sig;
sc_signal<int, SC_MANY_WRITERS> many_sig;
bool first_run;
int g0, g1, g2, g3;
M(sc_module_name _name, sc_time _delay)
: port("port")
, delay(_delay)
, first_run(true)
{
sc_assert( one_sig.get_writer_policy() == SC_ONE_WRITER );
sc_assert( many_sig.get_writer_policy() == SC_MANY_WRITERS );
SC_THREAD(T);
SC_METHOD(method_process_1);
SC_METHOD(method_process_2);
one_sig.write(-1);
many_sig.write(-1);
g0 = g1 = g2 = g3 = 0;
}
void end_of_elaboration()
{
sc_assert( port->get_writer_policy() == SC_MANY_WRITERS );
one_sig.write(1);
many_sig.write(1);
g0 = 1;
}
void start_of_simulation()
{
one_sig.write(2);
many_sig.write(2);
g1 = 1;
}
void T()
{
wait(delay);
port.write(true);
g2 = 1;
}
void method_process_1()
{
one_sig.write(3);
many_sig.write(3);
}
void method_process_2()
{
if (first_run)
{
first_run = false;
next_trigger(SC_ZERO_TIME);
}
else
{
try {
one_sig = 4;
}
catch (const std::exception& e) {
g3 = 1;
}
many_sig.write(4);
}
}
SC_HAS_PROCESS(M);
};
struct Top: sc_module
{
M *m1;
M *m2;
sc_signal<bool,SC_MANY_WRITERS> many_sig_1;
sc_signal<int,SC_MANY_WRITERS> many_sig_2;
sc_signal<int,SC_ONE_WRITER> one_sig_1;
sc_signal<int> one_sig_2;
sc_buffer<sc_logic, SC_MANY_WRITERS> buffy;
sc_signal_resolved resolved;
sc_signal_rv<2> rv;
Top(sc_module_name _name)
: many_sig_1("many_sig_1")
, many_sig_2("many_sig_2")
, one_sig_1("one_sig_1")
, buffy("buffy")
, resolved("resolved")
, rv("rv")
{
m1 = new M("m1", sc_time(1, SC_PS));
m2 = new M("m2", sc_time(2, SC_PS));
m1->port.bind(many_sig_1);
m2->port.bind(many_sig_1);
SC_THREAD(T1);
SC_THREAD(T2);
sc_spawn(sc_bind(&Top::T3, this));
sc_assert( many_sig_1.get_writer_policy() == SC_MANY_WRITERS );
sc_assert( many_sig_2.get_writer_policy() == SC_MANY_WRITERS );
sc_assert( one_sig_1 .get_writer_policy() == SC_ONE_WRITER );
sc_assert( one_sig_2 .get_writer_policy() == SC_ONE_WRITER );
sc_assert( buffy .get_writer_policy() == SC_MANY_WRITERS );
sc_assert( resolved .get_writer_policy() == SC_MANY_WRITERS );
sc_assert( rv .get_writer_policy() == SC_MANY_WRITERS );
one_sig_1 = 0;
buffy = SC_LOGIC_X;
resolved = SC_LOGIC_Z;
rv = sc_lv<2>("ZZ");
// Writes outside of a process should not count as manyple writers
many_sig_1.write(true);
many_sig_2.write(0);
one_sig_1.write(0);
one_sig_2.write(0);
buffy.write(SC_LOGIC_0);
f0 = f1 = f2 = f3 = f4 = f5 = 0;
}
int f0, f1, f2, f3, f4, f5;
void T1()
{
resolved = SC_LOGIC_0;
rv = sc_lv<2>("01");
// Attempt to write SC_ONE_WRITER signal from >1 process should fail
try {
one_sig_1 = 1;
}
catch (const std::exception& e) {
f3 = 1;
}
try {
one_sig_2 = 1;
}
catch (const std::exception& e) {
f4 = 1;
}
wait(1, SC_PS);
// Attempt to write SC_MANY_WRITER signal from >1 process IN SAME DELTA should fail
try {
many_sig_2.write(3);
}
catch (const std::exception& e) {
f5 = 1;
}
wait(3, SC_PS);
many_sig_2.write(6);
buffy = SC_LOGIC_0;
wait(many_sig_2.default_event());
f0 = 1;
}
void T2()
{
resolved = SC_LOGIC_1;
rv = sc_lv<2>("10");
try {
one_sig_1 = 2;
}
catch (const std::exception& e) {
f3 = 1;
}
try {
one_sig_2 = 2;
}
catch (const std::exception& e) {
f4 = 1;
}
wait(1, SC_PS);
try {
many_sig_2.write(4);
}
catch (const std::exception& e) {
f5 = 1;
}
wait(4, SC_PS);
many_sig_2.write(7);
buffy = SC_LOGIC_1;
wait(many_sig_2.default_event());
f1 = 1;
}
void T3()
{
resolved = SC_LOGIC_Z;
rv = sc_lv<2>("ZZ");
try {
one_sig_1 = 3;
}
catch (const std::exception& e) {
f3 = 1;
}
try {
one_sig_2 = 3;
}
catch (const std::exception& e) {
f4 = 1;
}
wait(1, SC_PS);
try {
many_sig_2.write(5);
}
catch (const std::exception& e) {
f5 = 1;
}
wait(5, SC_PS);
many_sig_2.write(8);
buffy = SC_LOGIC_0;
wait(many_sig_2.default_event());
f2 = 1;
sc_assert( resolved.read() == SC_LOGIC_X );
sc_assert( rv.read() == sc_lv<2>("XX") );
sc_assert( many_sig_2.read() == 8 );
sc_assert( buffy.read() == SC_LOGIC_0 );
}
SC_HAS_PROCESS(Top);
};
int sc_main(int argc, char* argv[])
{
Top top("top");
sc_start();
sc_assert( top.f0 );
sc_assert( top.f1 );
sc_assert( top.f2 );
sc_assert( top.f3 );
sc_assert( top.f4 );
sc_assert( top.f5 );
sc_assert( top.m1->g0 );
sc_assert( top.m2->g0 );
sc_assert( top.m1->g1 );
sc_assert( top.m2->g1 );
sc_assert( top.m1->g2 );
sc_assert( top.m2->g2 );
sc_assert( top.m1->g3 );
sc_assert( top.m2->g3 );
cout << endl << "Success" << endl;
return 0;
}