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/*
Copyright (C) 2016 Tristan Gingold <tgingold@free.fr>
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 <https://www.gnu.org/licenses/>.
*/
#include "kernel/yosys.h"
#include "kernel/sigtools.h"
#include "kernel/log.h"
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
USING_YOSYS_NAMESPACE
#ifdef YOSYS_ENABLE_GHDL
#include "ghdlsynth.h"
using namespace GhdlSynth;
static std::string to_str(Sname name)
{
std::string res;
bool is_sys = false;
for (Sname pfx = name; is_valid(pfx); pfx = get_sname_prefix(pfx)) {
switch (get_sname_kind(pfx)) {
case Sname_Artificial:
is_sys = true;
// fallthrough
case Sname_User:
res = '.' + string(get_cstr(get_sname_suffix(pfx))) + res;
break;
case Sname_Version:
res = '%' + stringf("%u", get_sname_version(pfx)) + res;
break;
}
}
res[0] = is_sys ? '$' : '\\';
return res;
}
static RTLIL::SigSpec get_src(std::vector<RTLIL::Wire *> &net_map, Net n)
{
log_assert(n.id != 0);
// Search if N is the output of a cell.
Wire *res = n.id < net_map.size() ? net_map.at(n.id) : nullptr;
if (res != nullptr)
return res;
Instance inst = get_net_parent(n);
switch(get_id(inst)) {
#define IN(N) get_src(net_map, get_input_net(inst, (N)))
case Id_Signal:
case Id_Isignal:
case Id_Port:
return IN(0);
case Id_Uextend:
{
RTLIL::SigSpec res = IN(0);
res.extend_u0(get_width(n), false);
return res;
}
case Id_Utrunc:
case Id_Strunc:
{
RTLIL::SigSpec res = IN(0);
return res.extract(0, get_width(n));
}
case Id_Const_UB32:
return SigSpec(get_param_uns32(inst, 0), get_width(n));
case Id_Const_UL32:
{
std::vector<RTLIL::State> bits(get_width(n));
unsigned int val01 = get_param_uns32(inst, 0);
unsigned int valzx = get_param_uns32(inst, 1);
for (unsigned int i = 0; i < get_width(n); i++) {
switch(((val01 >> i)&1)+((valzx >> i)&1)*2) {
case 0:
bits[i] = RTLIL::State::S0;
break;
case 1:
bits[i] = RTLIL::State::S1;
break;
case 2:
bits[i] = RTLIL::State::Sz;
break;
case 3:
bits[i] = RTLIL::State::Sx;
break;
}
}
return RTLIL::SigSpec(RTLIL::Const(bits));
}
case Id_Extract:
{
RTLIL::SigSpec res = IN(0);
return res.extract(get_param_uns32(inst, 0), get_width(n));
}
case Id_Insert:
{
int pos = get_param_uns32(inst, 0);
RTLIL::SigSpec in0 = IN(0);
int size0 = in0.size();
RTLIL::SigSpec in1 = IN(1);
int size1 = in1.size();
RTLIL::SigSpec res;
for (int i = 0; i < size0; i++) {
res.append((i >= pos && i < pos + size1) ?
in1[i - pos] : in0[i]);
}
return res;
}
case Id_Concat2:
case Id_Concat3:
case Id_Concat4:
{
RTLIL::SigSpec res;
unsigned nbr_in = get_nbr_inputs(get_module(inst));
// ConcatN means { I0; I1; .. IN}, but append() adds
// bits to the MSB side.
for (unsigned i = nbr_in; i > 0; i--)
res.append(IN(i - 1));
return res;
}
case Id_Concatn:
{
RTLIL::SigSpec res;
unsigned nbr_in = get_param_uns32(inst, 0);
// ConcatN means { I0; I1; .. IN}, but append() adds
// bits to the MSB side.
for (unsigned i = nbr_in; i > 0; i--)
res.append(IN(i - 1));
return res;
}
default:
log_cmd_error("wire not found for %s\n", to_str(get_module_name(get_module(inst))).c_str());
break;
}
return SigSpec();
}
static bool is_set(std::vector<RTLIL::Wire *> &net_map, Net n)
{
// If not in the map, then certainly not present.
if (n.id >= net_map.size())
return false;
Wire *res = net_map[n.id];
return (res != nullptr);
}
static void set_src(std::vector<RTLIL::Wire *> &net_map, Net n, Wire *wire)
{
if (n.id >= net_map.size())
net_map.resize(n.id + 1, nullptr);
log_assert(net_map[n.id] == nullptr);
net_map[n.id] = wire;
}
static void import_module(RTLIL::Design *design, GhdlSynth::Module m)
{
std::string module_name = to_str(get_module_name(m));
if (design->has(module_name)) {
log_cmd_error("Re-definition of module `%s'.\n", module_name.c_str());
return;
}
RTLIL::Module *module = new RTLIL::Module;
module->name = module_name;
design->add(module);
log("Importing module %s.\n", RTLIL::id2cstr(module->name));
// TODO: support submodules
if (is_valid(get_first_sub_module(m))) {
log_cmd_error("Unsupported: submodules in `%s'.\n", module_name.c_str());
return;
}
Instance self_inst = get_self_instance (m);
if (!is_valid(self_inst)) { // blackbox
module->set_bool_attribute("\\blackbox");
Port_Idx nbr_inputs = get_nbr_inputs(m);
for (Port_Idx idx = 0; idx < nbr_inputs; idx++) {
RTLIL::Wire *wire = module->addWire(
to_str(get_input_name(m, idx)),
get_input_width(m, idx));
wire->port_input = true;
}
Port_Idx nbr_outputs = get_nbr_outputs(m);
for (Port_Idx idx = 0; idx < nbr_outputs; idx++) {
RTLIL::Wire *wire = module->addWire(
to_str(get_output_name(m, idx)),
get_output_width(m, idx));
wire->port_output = true;
}
module->fixup_ports();
return;
}
// Create input ports.
// They correspond to ouputs of the self instance.
std::vector<RTLIL::Wire *> net_map;
Port_Idx nbr_inputs = get_nbr_inputs(m);
for (Port_Idx idx = 0; idx < nbr_inputs; idx++) {
Net port = get_output(self_inst, idx);
RTLIL::Wire *wire = module->addWire(to_str(get_input_name(m, idx)));
wire->port_id = idx + 1;
wire->port_input = true;
wire->width = get_width(port);
set_src(net_map, port, wire);
}
// Create output ports
Port_Idx nbr_outputs = get_nbr_outputs(m);
for (Port_Idx idx = 0; idx < nbr_outputs; idx++) {
Net output_out = get_input_net(self_inst, idx);
// Create wire
RTLIL::Wire *wire = module->addWire(to_str(get_output_name(m, idx)));
wire->port_id = nbr_inputs + idx + 1;
wire->port_output = true;
wire->width = get_width(output_out);
set_src(net_map, output_out, wire);
if (0) {
// If the driver for this output drives only this output,
// reuse this wire.
Instance output_inst = get_net_parent(output_out);
log_assert(get_id(get_module(output_inst)) == Id_Output);
Net output_drv = get_input_net(output_inst, 0);
if (has_one_connection (output_drv))
set_src(net_map, output_drv, wire);
}
}
// Create wires for outputs of (real) cells.
for (Instance inst = get_first_instance(m);
is_valid(inst);
inst = get_next_instance(inst)) {
GhdlSynth::Module im = get_module(inst);
Module_Id id = get_id(im);
switch (id) {
case Id_And:
case Id_Or:
case Id_Xor:
case Id_Nand:
case Id_Nor:
case Id_Xnor:
case Id_Add:
case Id_Sub:
case Id_Mux2:
case Id_Mux4:
case Id_Dff:
case Id_Adff:
case Id_Idff:
case Id_Eq:
case Id_Ne:
case Id_Ult:
case Id_Ule:
case Id_Ugt:
case Id_Uge:
case Id_Slt:
case Id_Sle:
case Id_Sgt:
case Id_Sge:
case Id_Not:
case Id_Red_Or:
case Id_Red_And:
case Id_Assert: // No output
case Id_Assume: // No output
case Id_User_None:
for (Port_Idx idx = 0; idx < get_nbr_outputs(im); idx++) {
Net o = get_output(inst, idx);
// The wire may have been created for an output
if (!is_set(net_map, o)) {
RTLIL::Wire *wire =
module->addWire(NEW_ID, get_width(o));
set_src(net_map, o, wire);
}
}
break;
case Id_Signal:
case Id_Isignal:
case Id_Output:
case Id_Port:
case Id_Const_UB32:
case Id_Const_UL32:
case Id_Uextend:
case Id_Utrunc:
case Id_Strunc:
case Id_Extract:
case Id_Insert:
case Id_Concat2:
case Id_Concat3:
case Id_Concat4:
case Id_Concatn:
// Skip: these won't create cells.
break;
case Id_Edge:
// The cell is ignored.
break;
default:
log_cmd_error("Unsupported(1): instance %s of %s.\n",
to_str(get_instance_name(inst)).c_str(),
to_str(get_module_name(get_module(inst))).c_str());
return;
}
}
// Create cells and connect.
for (Instance inst = get_first_instance(m);
is_valid(inst);
inst = get_next_instance(inst)) {
Module_Id id = get_id(inst);
Sname iname = get_instance_name(inst);
switch (id) {
#define IN(N) get_src(net_map, get_input_net(inst, (N)))
#define OUT(N) get_src(net_map, get_output(inst, (N)))
case Id_And:
module->addAnd(to_str(iname), IN(0), IN(1), OUT(0));
break;
case Id_Or:
module->addOr(to_str(iname), IN(0), IN(1), OUT(0));
break;
case Id_Xor:
module->addXor(to_str(iname), IN(0), IN(1), OUT(0));
break;
case Id_Nand:
{
SigSpec r = OUT(0);
RTLIL::Wire *w = module->addWire(NEW_ID, r.size());
module->addAnd(NEW_ID, IN(0), IN(1), w);
module->addNot(to_str(iname), w, r);
}
break;
case Id_Nor:
{
SigSpec r = OUT(0);
RTLIL::Wire *w = module->addWire(NEW_ID, r.size());
module->addOr(NEW_ID, IN(0), IN(1), w);
module->addNot(to_str(iname), w, r);
}
break;
case Id_Xnor:
module->addXnor(to_str(iname), IN(0), IN(1), OUT(0));
break;
case Id_Add:
module->addAdd(to_str(iname), IN(0), IN(1), OUT(0));
break;
case Id_Sub:
module->addSub(to_str(iname), IN(0), IN(1), OUT(0));
break;
case Id_Not:
module->addNot(to_str(iname), IN(0), OUT(0));
break;
case Id_Eq:
module->addEq(to_str(iname), IN(0), IN(1), OUT(0));
break;
case Id_Ne:
module->addNe(to_str(iname), IN(0), IN(1), OUT(0));
break;
case Id_Ult:
module->addLt(to_str(iname), IN(0), IN(1), OUT(0));
break;
case Id_Ule:
module->addLe(to_str(iname), IN(0), IN(1), OUT(0));
break;
case Id_Ugt:
module->addGt(to_str(iname), IN(0), IN(1), OUT(0));
break;
case Id_Uge:
module->addGe(to_str(iname), IN(0), IN(1), OUT(0));
break;
case Id_Slt:
module->addLt(to_str(iname), IN(0), IN(1), OUT(0), true);
break;
case Id_Sle:
module->addLe(to_str(iname), IN(0), IN(1), OUT(0), true);
break;
case Id_Sgt:
module->addGt(to_str(iname), IN(0), IN(1), OUT(0), true);
break;
case Id_Sge:
module->addGe(to_str(iname), IN(0), IN(1), OUT(0), true);
break;
case Id_Red_Or:
module->addReduceOr(to_str(iname), IN(0), OUT(0));
break;
case Id_Red_And:
module->addReduceAnd(to_str(iname), IN(0), OUT(0));
break;
case Id_Mux2:
module->addMux(to_str(iname), IN(1), IN(2), IN(0), OUT(0));
break;
case Id_Dff:
case Id_Idff:
module->addDff(to_str(iname), IN(0), IN(1), OUT(0));
// For idff, the initial value is set on the output
// wire.
if (id == Id_Idff) {
net_map[get_output(inst, 0).id]->attributes["\\init"] = IN(2).as_const();
}
break;
case Id_Adff:
module->addAdff(to_str(iname), IN(0), IN(2), IN(1), OUT(0), IN(3).as_const());
break;
case Id_Mux4:
{
SigSpec Sel0 = IN(0).extract(0, 1);
SigSpec Sel1 = IN(0).extract(1, 1);
SigSpec in1 = IN(1);
RTLIL::Wire *w0 = module->addWire(NEW_ID, in1.size());
RTLIL::Wire *w1 = module->addWire(NEW_ID, in1.size());
module->addMux(NEW_ID, in1, IN (2), Sel0, w0);
module->addMux(NEW_ID, IN (3), IN (4), Sel0, w1);
module->addMux(NEW_ID, w0, w1, Sel1, OUT (0));
}
break;
case Id_User_None:
{
RTLIL::Cell *cell = module->addCell(
to_str(iname),
to_str(get_module_name(get_module(inst))));
GhdlSynth::Module submod = get_module(inst);
Port_Idx nbr_inputs = get_nbr_inputs(submod);
for (Port_Idx idx = 0; idx < nbr_inputs; idx++) {
cell->setPort(to_str(get_input_name(submod, idx)), IN(idx));
}
Port_Idx nbr_outputs = get_nbr_outputs(submod);
for (Port_Idx idx = 0; idx < nbr_outputs; idx++) {
cell->setPort(to_str(get_output_name(submod, idx)), OUT(idx));
}
break;
}
case Id_Signal:
case Id_Isignal:
{
Net sig = get_input_net(inst, 0);
if (is_set(net_map, sig)) {
Wire *w = net_map.at(sig.id);
if (w)
module->rename(w, to_str(iname));
}
}
break;
case Id_Output:
case Id_Port:
module->connect(OUT (0), IN (0));
break;
case Id_Assert:
module->addAssert(to_str(iname), IN(0), State::S1);
break;
case Id_Assume:
module->addAssume(to_str(iname), IN(0), State::S1);
break;
case Id_Const_UB32:
case Id_Const_UL32:
case Id_Uextend:
case Id_Utrunc:
case Id_Strunc:
case Id_Extract:
case Id_Insert:
case Id_Concat2:
case Id_Concat3:
case Id_Concat4:
case Id_Concatn:
case Id_Edge:
break;
#undef IN
#undef OUT
default:
log_cmd_error("Unsupported(2): instance %s of %s.\n",
to_str(get_instance_name(inst)).c_str(),
to_str(get_module_name(get_module(inst))).c_str());
return;
}
}
// Connect output drivers to output
for (Port_Idx idx = 0; idx < nbr_outputs; idx++) {
Net output_out = get_input_net(self_inst, idx);
Instance output_inst = get_net_parent(output_out);
log_assert(get_id(get_module(output_inst)) == Id_Output);
Net output_drv = get_input_net(output_inst, 0);
if (!has_one_connection (output_drv))
module->connect(get_src(net_map, output_out), get_src(net_map, output_drv));
}
module->fixup_ports();
}
static void import_netlist(RTLIL::Design *design, GhdlSynth::Module top)
{
for (GhdlSynth::Module m = get_first_sub_module (top);
is_valid(m);
m = get_next_sub_module (m)) {
if (get_id (m) < Id_User_None)
continue;
import_module(design, m);
}
}
#endif /* YOSYS_ENABLE_GHDL */
YOSYS_NAMESPACE_BEGIN
struct GhdlPass : public Pass {
GhdlPass() : Pass("ghdl", "load VHDL designs using GHDL") { }
virtual void help()
{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
#if 0
log("\n");
log(" ghdl -a [OPTIONS] <vhdl-file>..\n");
log("\n");
log("Analyze the specified VHDL files.\n");
log("\n");
#endif
log("\n");
log(" ghdl [FILES... -e] UNIT\n");
log("\n");
log("Elaborate the design and import to Yosys\n");
log("\n");
}
#ifdef YOSYS_ENABLE_GHDL
virtual void execute(std::vector<std::string> args, RTLIL::Design *design)
{
static bool initialized;
log_header(design, "Executing GHDL.\n");
// Initialize the library.
if (!initialized) {
initialized = 1;
libghdl_init ();
ghdlsynth__init_for_ghdl_synth();
}
if (args.size() == 2 && args[1] == "--disp-config") {
ghdlcomp__disp_config();
}
else {
int cmd_argc = args.size() - 1;
const char **cmd_argv = new const char *[cmd_argc];
for (int i = 0; i < cmd_argc; i++)
cmd_argv[i] = args[i + 1].c_str();
GhdlSynth::Module top;
top = ghdl_synth(cmd_argc, cmd_argv);
if (!is_valid(top)) {
log_cmd_error("vhdl import failed.\n");
}
import_netlist(design, top);
}
}
#else /* YOSYS_ENABLE_GHDL */
virtual void execute(std::vector<std::string>, RTLIL::Design *) {
log_cmd_error("This version of Yosys is built without GHDL support.\n");
}
#endif
} GhdlPass;
YOSYS_NAMESPACE_END
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