Merge pull request #3224 from YosysHQ/micko/refactor

Micko/refactor
This commit is contained in:
Claire Xen 2022-03-02 13:52:18 +01:00 committed by GitHub
commit 2ca69e1b88
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1 changed files with 254 additions and 213 deletions

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@ -65,6 +65,20 @@ static double stringToTime(std::string str)
return value * pow(10.0, g_units.at(endptr)); return value * pow(10.0, g_units.at(endptr));
} }
struct SimWorker;
struct OutputWriter
{
OutputWriter(SimWorker *w) { worker = w;};
virtual ~OutputWriter() {};
virtual void write_header() = 0;
virtual void write_step_header(int t) = 0;
virtual void enter_scope(IdString) {};
virtual void exit_scope() {};
virtual void register_signal(Wire *, int) {};
virtual void write_value(int, Const&) {};
SimWorker *worker;
};
struct SimShared struct SimShared
{ {
bool debug = false; bool debug = false;
@ -77,6 +91,7 @@ struct SimShared
double stop_time = -1; double stop_time = -1;
SimulationMode sim_mode = SimulationMode::sim; SimulationMode sim_mode = SimulationMode::sim;
bool cycles_set = false; bool cycles_set = false;
std::vector<std::unique_ptr<OutputWriter>> outputfiles;
}; };
void zinit(State &v) void zinit(State &v)
@ -140,8 +155,7 @@ struct SimInstance
std::vector<Mem> memories; std::vector<Mem> memories;
dict<Wire*, pair<int, Const>> vcd_database; dict<Wire*, pair<int, Const>> signal_database;
dict<Wire*, pair<fstHandle, Const>> fst_database;
dict<Wire*, fstHandle> fst_handles; dict<Wire*, fstHandle> fst_handles;
SimInstance(SimShared *shared, std::string scope, Module *module, Cell *instance = nullptr, SimInstance *parent = nullptr) : SimInstance(SimShared *shared, std::string scope, Module *module, Cell *instance = nullptr, SimInstance *parent = nullptr) :
@ -685,28 +699,29 @@ struct SimInstance
it.second->writeback(wbmods); it.second->writeback(wbmods);
} }
void write_vcd_header(std::ofstream &f, int &id) void write_output_header(OutputWriter *writer, int &id)
{ {
f << stringf("$scope module %s $end\n", log_id(name())); writer->enter_scope(name());
for (auto wire : module->wires()) for (auto wire : module->wires())
{ {
if (shared->hide_internal && wire->name[0] == '$') if (shared->hide_internal && wire->name[0] == '$')
continue; continue;
f << stringf("$var wire %d n%d %s%s $end\n", GetSize(wire), id, wire->name[0] == '$' ? "\\" : "", log_id(wire)); signal_database[wire] = make_pair(id, Const());
vcd_database[wire] = make_pair(id++, Const()); writer->register_signal(wire, id);
id++;
} }
for (auto child : children) for (auto child : children)
child.second->write_vcd_header(f, id); child.second->write_output_header(writer, id);
f << stringf("$upscope $end\n"); writer->exit_scope();
} }
void write_vcd_step(std::ofstream &f) void write_output_step_values()
{ {
for (auto &it : vcd_database) for (auto &it : signal_database)
{ {
Wire *wire = it.first; Wire *wire = it.first;
Const value = get_state(wire); Const value = get_state(wire);
@ -717,68 +732,12 @@ struct SimInstance
it.second.second = value; it.second.second = value;
f << "b"; for(auto& writer : shared->outputfiles)
for (int i = GetSize(value)-1; i >= 0; i--) { writer->write_value(id, value);
switch (value[i]) {
case State::S0: f << "0"; break;
case State::S1: f << "1"; break;
case State::Sx: f << "x"; break;
default: f << "z";
}
}
f << stringf(" n%d\n", id);
} }
for (auto child : children) for (auto child : children)
child.second->write_vcd_step(f); child.second->write_output_step_values();
}
void write_fst_header(struct fstContext *f)
{
fstWriterSetScope(f, FST_ST_VCD_MODULE, stringf("%s",log_id(name())).c_str(), nullptr);
for (auto wire : module->wires())
{
if (shared->hide_internal && wire->name[0] == '$')
continue;
fstHandle id = fstWriterCreateVar(f, FST_VT_VCD_WIRE, FST_VD_IMPLICIT, GetSize(wire),
stringf("%s%s", wire->name[0] == '$' ? "\\" : "", log_id(wire)).c_str(), 0);
fst_database[wire] = make_pair(id, Const());
}
for (auto child : children)
child.second->write_fst_header(f);
fstWriterSetUpscope(f);
}
void write_fst_step(struct fstContext *f)
{
for (auto &it : fst_database)
{
Wire *wire = it.first;
Const value = get_state(wire);
fstHandle id = it.second.first;
if (it.second.second == value)
continue;
it.second.second = value;
std::stringstream ss;
for (int i = GetSize(value)-1; i >= 0; i--) {
switch (value[i]) {
case State::S0: ss << "0"; break;
case State::S1: ss << "1"; break;
case State::Sx: ss << "x"; break;
default: ss << "z";
}
}
fstWriterEmitValueChange(f, id, ss.str().c_str());
}
for (auto child : children)
child.second->write_fst_step(f);
} }
void setInitState() void setInitState()
@ -857,11 +816,7 @@ struct SimInstance
struct SimWorker : SimShared struct SimWorker : SimShared
{ {
SimInstance *top = nullptr; SimInstance *top = nullptr;
std::ofstream vcdfile, aiwfile;
struct fstContext *fstfile = nullptr;
pool<IdString> clock, clockn, reset, resetn; pool<IdString> clock, clockn, reset, resetn;
dict<int, std::pair<SigBit, bool>> aiw_latches;
dict<int, SigBit> aiw_inputs, aiw_inits;
std::string timescale; std::string timescale;
std::string sim_filename; std::string sim_filename;
std::string map_filename; std::string map_filename;
@ -869,150 +824,24 @@ struct SimWorker : SimShared
~SimWorker() ~SimWorker()
{ {
outputfiles.clear();
delete top; delete top;
} }
void write_vcd_header()
{
vcdfile << stringf("$version %s $end\n", yosys_version_str);
std::time_t t = std::time(nullptr);
char mbstr[255];
if (std::strftime(mbstr, sizeof(mbstr), "%c", std::localtime(&t))) {
vcdfile << stringf("$date ") << mbstr << stringf(" $end\n");
}
if (!timescale.empty())
vcdfile << stringf("$timescale %s $end\n", timescale.c_str());
int id = 1;
top->write_vcd_header(vcdfile, id);
vcdfile << stringf("$enddefinitions $end\n");
}
void write_vcd_step(int t)
{
vcdfile << stringf("#%d\n", t);
top->write_vcd_step(vcdfile);
}
void write_fst_header()
{
std::time_t t = std::time(nullptr);
fstWriterSetDate(fstfile, asctime(std::localtime(&t)));
fstWriterSetVersion(fstfile, yosys_version_str);
if (!timescale.empty())
fstWriterSetTimescaleFromString(fstfile, timescale.c_str());
fstWriterSetPackType(fstfile, FST_WR_PT_FASTLZ);
fstWriterSetRepackOnClose(fstfile, 1);
top->write_fst_header(fstfile);
}
void write_fst_step(int t)
{
fstWriterEmitTimeChange(fstfile, t);
top->write_fst_step(fstfile);
}
void write_aiw_header()
{
std::ifstream mf(map_filename);
std::string type, symbol;
int variable, index;
while (mf >> type >> variable >> index >> symbol) {
RTLIL::IdString escaped_s = RTLIL::escape_id(symbol);
Wire *w = top->module->wire(escaped_s);
if (!w)
log_error("Wire %s not present in module %s\n",log_signal(w),log_id(top->module));
if (index < w->start_offset || index > w->start_offset + w->width)
log_error("Index %d for wire %s is out of range\n", index, log_signal(w));
if (type == "input") {
aiw_inputs[variable] = SigBit(w,index);
} else if (type == "init") {
aiw_inits[variable] = SigBit(w,index);
} else if (type == "latch") {
aiw_latches[variable] = {SigBit(w,index), false};
} else if (type == "invlatch") {
aiw_latches[variable] = {SigBit(w,index), true};
}
}
for (int i = 0;; i++)
{
if (aiw_latches.count(i)) {
auto v = top->get_state(aiw_latches.at(i).first);
if (v == State::S1)
aiwfile << (aiw_latches.at(i).second ? '0' : '1');
else
aiwfile << (aiw_latches.at(i).second ? '1' : '0');
continue;
}
aiwfile << '\n';
break;
}
}
void write_aiw_step()
{
for (int i = 0;; i++)
{
if (aiw_inputs.count(i)) {
auto v = top->get_state(aiw_inputs.at(i));
if (v == State::S1)
aiwfile << '1';
else
aiwfile << '0';
continue;
}
if (aiw_inits.count(i)) {
auto v = top->get_state(aiw_inits.at(i));
if (v == State::S1)
aiwfile << '1';
else
aiwfile << '0';
continue;
}
aiwfile << '\n';
break;
}
}
void write_aiw_end()
{
aiwfile << '.' << '\n';
}
void write_output_header() void write_output_header()
{ {
if (vcdfile.is_open()) for(auto& writer : outputfiles)
write_vcd_header(); writer->write_header();
if (fstfile)
write_fst_header();
if (aiwfile.is_open())
write_aiw_header();
} }
void write_output_step(int t) void write_output_step(int t)
{ {
if (vcdfile.is_open()) for(auto& writer : outputfiles)
write_vcd_step(t); writer->write_step_header(t);
if (fstfile)
write_fst_step(t); top->write_output_step_values();
if (aiwfile.is_open())
write_aiw_step();
} }
void write_output_end()
{
if (fstfile)
fstWriterClose(fstfile);
if (aiwfile.is_open())
write_aiw_end();
}
void update() void update()
{ {
@ -1101,8 +930,6 @@ struct SimWorker : SimShared
write_output_step(10*numcycles + 2); write_output_step(10*numcycles + 2);
write_output_end();
if (writeback) { if (writeback) {
pool<Module*> wbmods; pool<Module*> wbmods;
top->writeback(wbmods); top->writeback(wbmods);
@ -1230,7 +1057,6 @@ struct SimWorker : SimShared
} catch(fst_end_of_data_exception) { } catch(fst_end_of_data_exception) {
// end of data detected // end of data detected
} }
write_output_end();
if (writeback) { if (writeback) {
pool<Module*> wbmods; pool<Module*> wbmods;
@ -1327,10 +1153,225 @@ struct SimWorker : SimShared
} }
} }
write_output_step(10*cycle); write_output_step(10*cycle);
write_output_end();
} }
}; };
struct VCDWriter : public OutputWriter
{
VCDWriter(SimWorker *worker, std::string filename) : OutputWriter(worker) {
vcdfile.open(filename.c_str());
}
void write_header() override
{
if (!vcdfile.is_open()) return;
vcdfile << stringf("$version %s $end\n", yosys_version_str);
std::time_t t = std::time(nullptr);
char mbstr[255];
if (std::strftime(mbstr, sizeof(mbstr), "%c", std::localtime(&t))) {
vcdfile << stringf("$date ") << mbstr << stringf(" $end\n");
}
if (!worker->timescale.empty())
vcdfile << stringf("$timescale %s $end\n", worker->timescale.c_str());
int id = 1;
worker->top->write_output_header(this, id);
vcdfile << stringf("$enddefinitions $end\n");
}
void write_step_header(int t) override
{
if (!vcdfile.is_open()) return;
vcdfile << stringf("#%d\n", t);
}
void enter_scope(IdString name) override
{
vcdfile << stringf("$scope module %s $end\n", log_id(name));
}
void exit_scope() override
{
vcdfile << stringf("$upscope $end\n");
}
void register_signal(Wire *wire, int id) override
{
vcdfile << stringf("$var wire %d n%d %s%s $end\n", GetSize(wire), id, wire->name[0] == '$' ? "\\" : "", log_id(wire));
}
void write_value(int id, Const& value) override
{
if (!vcdfile.is_open()) return;
vcdfile << "b";
for (int i = GetSize(value)-1; i >= 0; i--) {
switch (value[i]) {
case State::S0: vcdfile << "0"; break;
case State::S1: vcdfile << "1"; break;
case State::Sx: vcdfile << "x"; break;
default: vcdfile << "z";
}
}
vcdfile << stringf(" n%d\n", id);
}
std::ofstream vcdfile;
};
struct FSTWriter : public OutputWriter
{
FSTWriter(SimWorker *worker, std::string filename) : OutputWriter(worker) {
fstfile = (struct fstContext *)fstWriterCreate(filename.c_str(),1);
}
virtual ~FSTWriter()
{
fstWriterClose(fstfile);
}
void write_header() override
{
if (!fstfile) return;
std::time_t t = std::time(nullptr);
fstWriterSetDate(fstfile, asctime(std::localtime(&t)));
fstWriterSetVersion(fstfile, yosys_version_str);
if (!worker->timescale.empty())
fstWriterSetTimescaleFromString(fstfile, worker->timescale.c_str());
fstWriterSetPackType(fstfile, FST_WR_PT_FASTLZ);
fstWriterSetRepackOnClose(fstfile, 1);
int id = 1;
worker->top->write_output_header(this, id);
}
void write_step_header(int t) override
{
if (!fstfile) return;
fstWriterEmitTimeChange(fstfile, t);
}
void enter_scope(IdString name) override
{
fstWriterSetScope(fstfile, FST_ST_VCD_MODULE, stringf("%s",log_id(name)).c_str(), nullptr);
}
void exit_scope() override
{
fstWriterSetUpscope(fstfile);
}
void register_signal(Wire *wire, int id) override
{
fstHandle fst_id = fstWriterCreateVar(fstfile, FST_VT_VCD_WIRE, FST_VD_IMPLICIT, GetSize(wire),
stringf("%s%s", wire->name[0] == '$' ? "\\" : "", log_id(wire)).c_str(), 0);
mapping.emplace(id, fst_id);
}
void write_value(int id, Const& value) override
{
if (!fstfile) return;
std::stringstream ss;
for (int i = GetSize(value)-1; i >= 0; i--) {
switch (value[i]) {
case State::S0: ss << "0"; break;
case State::S1: ss << "1"; break;
case State::Sx: ss << "x"; break;
default: ss << "z";
}
}
fstWriterEmitValueChange(fstfile, mapping[id], ss.str().c_str());
}
struct fstContext *fstfile = nullptr;
std::map<int,fstHandle> mapping;
};
struct AIWWriter : public OutputWriter
{
AIWWriter(SimWorker *worker, std::string filename) : OutputWriter(worker) {
aiwfile.open(filename.c_str());
}
virtual ~AIWWriter()
{
aiwfile << '.' << '\n';
}
void write_header() override
{
if (!aiwfile.is_open()) return;
std::ifstream mf(worker->map_filename);
std::string type, symbol;
int variable, index;
while (mf >> type >> variable >> index >> symbol) {
RTLIL::IdString escaped_s = RTLIL::escape_id(symbol);
Wire *w = worker->top->module->wire(escaped_s);
if (!w)
log_error("Wire %s not present in module %s\n",log_signal(w),log_id(worker->top->module));
if (index < w->start_offset || index > w->start_offset + w->width)
log_error("Index %d for wire %s is out of range\n", index, log_signal(w));
if (type == "input") {
aiw_inputs[variable] = SigBit(w,index);
} else if (type == "init") {
aiw_inits[variable] = SigBit(w,index);
} else if (type == "latch") {
aiw_latches[variable] = {SigBit(w,index), false};
} else if (type == "invlatch") {
aiw_latches[variable] = {SigBit(w,index), true};
}
}
for (int i = 0;; i++)
{
if (aiw_latches.count(i)) {
auto v = worker->top->get_state(aiw_latches.at(i).first);
if (v == State::S1)
aiwfile << (aiw_latches.at(i).second ? '0' : '1');
else
aiwfile << (aiw_latches.at(i).second ? '1' : '0');
continue;
}
aiwfile << '\n';
break;
}
}
void write_step_header(int) override
{
if (!aiwfile.is_open()) return;
for (int i = 0;; i++)
{
if (aiw_inputs.count(i)) {
auto v = worker->top->get_state(aiw_inputs.at(i));
if (v == State::S1)
aiwfile << '1';
else
aiwfile << '0';
continue;
}
if (aiw_inits.count(i)) {
auto v = worker->top->get_state(aiw_inits.at(i));
if (v == State::S1)
aiwfile << '1';
else
aiwfile << '0';
continue;
}
aiwfile << '\n';
break;
}
}
std::ofstream aiwfile;
dict<int, std::pair<SigBit, bool>> aiw_latches;
dict<int, SigBit> aiw_inputs, aiw_inits;
};
struct SimPass : public Pass { struct SimPass : public Pass {
SimPass() : Pass("sim", "simulate the circuit") { } SimPass() : Pass("sim", "simulate the circuit") { }
void help() override void help() override
@ -1428,19 +1469,19 @@ struct SimPass : public Pass {
if (args[argidx] == "-vcd" && argidx+1 < args.size()) { if (args[argidx] == "-vcd" && argidx+1 < args.size()) {
std::string vcd_filename = args[++argidx]; std::string vcd_filename = args[++argidx];
rewrite_filename(vcd_filename); rewrite_filename(vcd_filename);
worker.vcdfile.open(vcd_filename.c_str()); worker.outputfiles.emplace_back(std::unique_ptr<VCDWriter>(new VCDWriter(&worker, vcd_filename.c_str())));
continue; continue;
} }
if (args[argidx] == "-fst" && argidx+1 < args.size()) { if (args[argidx] == "-fst" && argidx+1 < args.size()) {
std::string fst_filename = args[++argidx]; std::string fst_filename = args[++argidx];
rewrite_filename(fst_filename); rewrite_filename(fst_filename);
worker.fstfile = (struct fstContext *)fstWriterCreate(fst_filename.c_str(),1); worker.outputfiles.emplace_back(std::unique_ptr<FSTWriter>(new FSTWriter(&worker, fst_filename.c_str())));
continue; continue;
} }
if (args[argidx] == "-aiw" && argidx+1 < args.size()) { if (args[argidx] == "-aiw" && argidx+1 < args.size()) {
std::string aiw_filename = args[++argidx]; std::string aiw_filename = args[++argidx];
rewrite_filename(aiw_filename); rewrite_filename(aiw_filename);
worker.aiwfile.open(aiw_filename.c_str()); worker.outputfiles.emplace_back(std::unique_ptr<AIWWriter>(new AIWWriter(&worker, aiw_filename.c_str())));
continue; continue;
} }
if (args[argidx] == "-n" && argidx+1 < args.size()) { if (args[argidx] == "-n" && argidx+1 < args.size()) {