#include "kernel/yosys.h"
#include "kernel/sigtools.h"
#include "kernel/utils.h"
+#include "kernel/timinginfo.h"
USING_YOSYS_NAMESPACE
PRIVATE_NAMESPACE_BEGIN
struct XAigerWriter
{
+ Design *design;
Module *module;
SigMap sigmap;
+ dict<SigBit, State> init_map;
pool<SigBit> input_bits, output_bits;
dict<SigBit, SigBit> not_map, alias_map;
dict<SigBit, pair<SigBit, SigBit>> and_map;
vector<SigBit> ci_bits, co_bits;
- dict<SigBit, Cell*> ff_bits;
+ vector<Cell*> ff_list;
dict<SigBit, float> arrival_times;
vector<pair<int, int>> aig_gates;
return a;
}
- XAigerWriter(Module *module, bool holes_mode=false) : module(module), sigmap(module)
+ XAigerWriter(Module *module, bool dff_mode) : design(module->design), module(module), sigmap(module)
{
pool<SigBit> undriven_bits;
pool<SigBit> unused_bits;
if (wire->get_bool_attribute(ID::keep))
sigmap.add(wire);
- for (auto wire : module->wires())
+ for (auto wire : module->wires()) {
+ auto it = wire->attributes.find(ID::init);
for (int i = 0; i < GetSize(wire); i++)
{
SigBit wirebit(wire, i);
undriven_bits.insert(bit);
unused_bits.insert(bit);
- bool keep = wire->get_bool_attribute(ID::keep);
+ bool keep = wire->get_bool_attribute(ID::abc9_keep);
if (wire->port_input || keep)
input_bits.insert(bit);
+ keep = keep || wire->get_bool_attribute(ID::keep);
if (wire->port_output || keep) {
if (bit != wirebit)
alias_map[wirebit] = bit;
output_bits.insert(wirebit);
}
+
+ if (it != wire->attributes.end()) {
+ auto s = it->second[i];
+ if (s != State::Sx) {
+ auto r = init_map.insert(std::make_pair(bit, it->second[i]));
+ if (!r.second && r.first->second != it->second[i])
+ log_error("Bit '%s' has a conflicting (* init *) value.\n", log_signal(bit));
+ }
+ }
}
+ }
+
+ TimingInfo timing;
- dict<IdString,dict<IdString,std::vector<int>>> arrivals_cache;
for (auto cell : module->cells()) {
- RTLIL::Module* inst_module = module->design->module(cell->type);
if (!cell->has_keep_attr()) {
- if (cell->type == "$_NOT_")
+ if (cell->type == ID($_NOT_))
{
- SigBit A = sigmap(cell->getPort("\\A").as_bit());
- SigBit Y = sigmap(cell->getPort("\\Y").as_bit());
+ SigBit A = sigmap(cell->getPort(ID::A).as_bit());
+ SigBit Y = sigmap(cell->getPort(ID::Y).as_bit());
unused_bits.erase(A);
undriven_bits.erase(Y);
not_map[Y] = A;
continue;
}
- if (cell->type == "$_AND_")
+ if (cell->type == ID($_AND_))
{
- SigBit A = sigmap(cell->getPort("\\A").as_bit());
- SigBit B = sigmap(cell->getPort("\\B").as_bit());
- SigBit Y = sigmap(cell->getPort("\\Y").as_bit());
+ SigBit A = sigmap(cell->getPort(ID::A).as_bit());
+ SigBit B = sigmap(cell->getPort(ID::B).as_bit());
+ SigBit Y = sigmap(cell->getPort(ID::Y).as_bit());
unused_bits.erase(A);
unused_bits.erase(B);
undriven_bits.erase(Y);
continue;
}
- if (cell->type == "$__ABC9_FF_" &&
- // The presence of an abc9_mergeability attribute indicates
- // that we do want to pass this flop to ABC
- cell->attributes.count("\\abc9_mergeability"))
+ if (dff_mode && cell->type.in(ID($_DFF_N_), ID($_DFF_P_)) && !cell->get_bool_attribute(ID::abc9_keep))
{
- SigBit D = sigmap(cell->getPort("\\D").as_bit());
- SigBit Q = sigmap(cell->getPort("\\Q").as_bit());
+ SigBit D = sigmap(cell->getPort(ID::D).as_bit());
+ SigBit Q = sigmap(cell->getPort(ID::Q).as_bit());
unused_bits.erase(D);
undriven_bits.erase(Q);
alias_map[Q] = D;
- auto r YS_ATTRIBUTE(unused) = ff_bits.insert(std::make_pair(D, cell));
- log_assert(r.second);
- if (input_bits.erase(Q))
- log_assert(Q.wire->attributes.count(ID::keep));
+ ff_list.emplace_back(cell);
continue;
}
- if (cell->type.in("$specify2", "$specify3", "$specrule"))
+ if (cell->type.in(ID($specify2), ID($specify3), ID($specrule)))
continue;
+ }
- if (inst_module) {
- bool abc9_flop = false;
- auto it = cell->attributes.find("\\abc9_box_seq");
- if (it != cell->attributes.end()) {
- int abc9_box_seq = it->second.as_int();
- if (GetSize(box_list) <= abc9_box_seq)
- box_list.resize(abc9_box_seq+1);
- box_list[abc9_box_seq] = cell;
- // Only flop boxes may have arrival times
- // (all others are combinatorial)
- abc9_flop = inst_module->get_bool_attribute("\\abc9_flop");
- if (!abc9_flop)
- continue;
- }
-
- auto &cell_arrivals = arrivals_cache[cell->type];
- for (const auto &conn : cell->connections()) {
- auto port_wire = inst_module->wire(conn.first);
- if (!port_wire->port_output)
- continue;
+ RTLIL::Module* inst_module = design->module(cell->type);
+ if (inst_module && inst_module->get_blackbox_attribute()) {
+ bool abc9_flop = false;
+
+ auto it = cell->attributes.find(ID::abc9_box_seq);
+ if (it != cell->attributes.end()) {
+ log_assert(!cell->has_keep_attr());
+ log_assert(cell->parameters.empty());
+ int abc9_box_seq = it->second.as_int();
+ if (GetSize(box_list) <= abc9_box_seq)
+ box_list.resize(abc9_box_seq+1);
+ box_list[abc9_box_seq] = cell;
+ // Only flop boxes may have arrival times
+ // (all others are combinatorial)
+ log_assert(cell->parameters.empty());
+ abc9_flop = inst_module->get_bool_attribute(ID::abc9_flop);
+ if (!abc9_flop)
+ continue;
+ }
- auto r = cell_arrivals.insert(conn.first);
- auto &arrivals = r.first->second;
- if (r.second) {
- auto it = port_wire->attributes.find("\\abc9_arrival");
- if (it == port_wire->attributes.end())
- continue;
- if (it->second.flags == 0)
- arrivals.emplace_back(it->second.as_int());
- else
- for (const auto &tok : split_tokens(it->second.decode_string()))
- arrivals.push_back(atoi(tok.c_str()));
- }
+ if (!timing.count(inst_module->name))
+ timing.setup_module(inst_module);
+ auto &t = timing.at(inst_module->name).arrival;
+ for (const auto &conn : cell->connections()) {
+ auto port_wire = inst_module->wire(conn.first);
+ if (!port_wire->port_output)
+ continue;
- if (arrivals.empty())
+ for (int i = 0; i < GetSize(conn.second); i++) {
+ auto d = t.at(TimingInfo::NameBit(conn.first,i), 0);
+ if (d == 0)
continue;
- if (GetSize(arrivals) > 1 && GetSize(arrivals) != GetSize(port_wire))
- log_error("%s.%s is %d bits wide but abc9_arrival = %s has %d value(s)!\n", log_id(cell->type), log_id(conn.first),
- GetSize(port_wire), log_signal(it->second), GetSize(arrivals));
-
- auto jt = arrivals.begin();
#ifndef NDEBUG
if (ys_debug(1)) {
- static std::set<std::pair<IdString,IdString>> seen;
- if (seen.emplace(cell->type, conn.first).second) log("%s.%s abc9_arrival = %d\n", log_id(cell->type), log_id(conn.first), *jt);
+ static std::set<std::tuple<IdString,IdString,int>> seen;
+ if (seen.emplace(inst_module->name, conn.first, i).second) log("%s.%s[%d] abc9_arrival = %d\n",
+ log_id(cell->type), log_id(conn.first), i, d);
}
#endif
- for (auto bit : sigmap(conn.second)) {
- arrival_times[bit] = *jt;
- if (arrivals.size() > 1)
- jt++;
- }
+ arrival_times[conn.second[i]] = d;
}
-
- if (abc9_flop)
- continue;
}
+
+ if (abc9_flop)
+ continue;
}
bool cell_known = inst_module || cell->known();
for (auto cell : box_list) {
log_assert(cell);
- RTLIL::Module* box_module = module->design->module(cell->type);
+ RTLIL::Module* box_module = design->module(cell->type);
log_assert(box_module);
- log_assert(box_module->attributes.count("\\abc9_box_id") || box_module->get_bool_attribute("\\abc9_flop"));
+ log_assert(box_module->has_attribute(ID::abc9_box_id));
auto r = box_ports.insert(cell->type);
if (r.second) {
for (const auto &port_name : box_module->ports) {
auto w = box_module->wire(port_name);
log_assert(w);
- if (w->get_bool_attribute("\\abc9_carry")) {
+ if (w->get_bool_attribute(ID::abc9_carry)) {
if (w->port_input) {
if (carry_in != IdString())
log_error("Module '%s' contains more than one 'abc9_carry' input port.\n", log_id(box_module));
alias_map[O] = b;
ci_bits.emplace_back(b);
undriven_bits.erase(O);
- // If PI and CI, then must be a (* keep *) wire
- if (input_bits.erase(O)) {
- log_assert(output_bits.count(O));
- log_assert(O.wire->get_bool_attribute(ID::keep));
- }
- }
- }
-
- // Connect <cell>.abc9_ff.Q (inserted by abc9_map.v) as the last input to the flop box
- if (box_module->get_bool_attribute("\\abc9_flop")) {
- SigSpec rhs = module->wire(stringf("%s.abc9_ff.Q", cell->name.c_str()));
- if (rhs.empty())
- log_error("'%s.abc9_ff.Q' is not a wire present in module '%s'.\n", log_id(cell), log_id(module));
-
- for (auto b : rhs) {
- SigBit I = sigmap(b);
- if (b == RTLIL::Sx)
- b = State::S0;
- else if (I != b) {
- if (I == RTLIL::Sx)
- alias_map[b] = State::S0;
- else
- alias_map[b] = I;
}
- co_bits.emplace_back(b);
- unused_bits.erase(I);
- }
}
}
undriven_bits.erase(bit);
}
- if (holes_mode) {
- struct sort_by_port_id {
- bool operator()(const RTLIL::SigBit& a, const RTLIL::SigBit& b) const {
- return a.wire->port_id < b.wire->port_id ||
- (a.wire->port_id == b.wire->port_id && a.offset < b.offset);
- }
- };
- input_bits.sort(sort_by_port_id());
- output_bits.sort(sort_by_port_id());
- }
+ struct sort_by_port_id {
+ bool operator()(const RTLIL::SigBit& a, const RTLIL::SigBit& b) const {
+ return a.wire->port_id < b.wire->port_id ||
+ (a.wire->port_id == b.wire->port_id && a.offset < b.offset);
+ }
+ };
+ input_bits.sort(sort_by_port_id());
+ output_bits.sort(sort_by_port_id());
aig_map[State::S0] = 0;
aig_map[State::S1] = 1;
aig_map[bit] = 2*aig_m;
}
- for (const auto &i : ff_bits) {
- const Cell *cell = i.second;
- const SigBit &q = sigmap(cell->getPort("\\Q"));
+ for (auto cell : ff_list) {
+ const SigBit &q = sigmap(cell->getPort(ID::Q));
aig_m++, aig_i++;
log_assert(!aig_map.count(q));
aig_map[q] = 2*aig_m;
for (const auto &bit : output_bits) {
ordered_outputs[bit] = aig_o++;
int aig;
- // Unlike bit2aig() which checks aig_map first, for
- // inout/keep bits, since aig_map will point to
+ // Unlike bit2aig() which checks aig_map first for
+ // inout/scc bits, since aig_map will point to
// the PI, first attempt to find the NOT/AND driver
// before resorting to an aig_map lookup (which
// could be another PO)
aig_outputs.push_back(aig);
}
- for (auto &i : ff_bits) {
- const SigBit &d = i.first;
+ for (auto cell : ff_list) {
+ const SigBit &d = sigmap(cell->getPort(ID::D));
aig_o++;
aig_outputs.push_back(aig_map.at(d));
}
std::stringstream h_buffer;
auto write_h_buffer = std::bind(write_buffer, std::ref(h_buffer), std::placeholders::_1);
write_h_buffer(1);
- log_debug("ciNum = %d\n", GetSize(input_bits) + GetSize(ff_bits) + GetSize(ci_bits));
- write_h_buffer(input_bits.size() + ff_bits.size() + ci_bits.size());
- log_debug("coNum = %d\n", GetSize(output_bits) + GetSize(ff_bits) + GetSize(co_bits));
- write_h_buffer(output_bits.size() + GetSize(ff_bits) + GetSize(co_bits));
- log_debug("piNum = %d\n", GetSize(input_bits) + GetSize(ff_bits));
- write_h_buffer(input_bits.size() + ff_bits.size());
- log_debug("poNum = %d\n", GetSize(output_bits) + GetSize(ff_bits));
- write_h_buffer(output_bits.size() + ff_bits.size());
+ log_debug("ciNum = %d\n", GetSize(input_bits) + GetSize(ff_list) + GetSize(ci_bits));
+ write_h_buffer(GetSize(input_bits) + GetSize(ff_list) + GetSize(ci_bits));
+ log_debug("coNum = %d\n", GetSize(output_bits) + GetSize(ff_list) + GetSize(co_bits));
+ write_h_buffer(GetSize(output_bits) + GetSize(ff_list) + GetSize(co_bits));
+ log_debug("piNum = %d\n", GetSize(input_bits) + GetSize(ff_list));
+ write_h_buffer(GetSize(input_bits) + GetSize(ff_list));
+ log_debug("poNum = %d\n", GetSize(output_bits) + GetSize(ff_list));
+ write_h_buffer(GetSize(output_bits) + GetSize(ff_list));
log_debug("boxNum = %d\n", GetSize(box_list));
- write_h_buffer(box_list.size());
+ write_h_buffer(GetSize(box_list));
auto write_buffer_float = [](std::stringstream &buffer, float f32) {
buffer.write(reinterpret_cast<const char*>(&f32), sizeof(f32));
//for (auto bit : output_bits)
// write_o_buffer(0);
- if (!box_list.empty() || !ff_bits.empty()) {
+ if (!box_list.empty() || !ff_list.empty()) {
dict<IdString, std::tuple<int,int,int>> cell_cache;
int box_count = 0;
for (auto cell : box_list) {
log_assert(cell);
+ log_assert(cell->parameters.empty());
- RTLIL::Module* box_module = module->design->module(cell->type);
- log_assert(box_module);
-
- IdString derived_type = box_module->derive(box_module->design, cell->parameters);
- box_module = box_module->design->module(derived_type);
- log_assert(box_module);
-
- auto r = cell_cache.insert(derived_type);
+ auto r = cell_cache.insert(cell->type);
auto &v = r.first->second;
if (r.second) {
+ RTLIL::Module* box_module = design->module(cell->type);
+ log_assert(box_module);
+
int box_inputs = 0, box_outputs = 0;
for (auto port_name : box_module->ports) {
RTLIL::Wire *w = box_module->wire(port_name);
box_outputs += GetSize(w);
}
- // For flops only, create an extra 1-bit input that drives a new wire
- // called "<cell>.abc9_ff.Q" that is used below
- if (box_module->get_bool_attribute("\\abc9_flop"))
- box_inputs++;
-
std::get<0>(v) = box_inputs;
std::get<1>(v) = box_outputs;
- std::get<2>(v) = box_module->attributes.at("\\abc9_box_id").as_int();
+ std::get<2>(v) = box_module->attributes.at(ID::abc9_box_id).as_int();
}
write_h_buffer(std::get<0>(v));
std::stringstream r_buffer;
auto write_r_buffer = std::bind(write_buffer, std::ref(r_buffer), std::placeholders::_1);
- log_debug("flopNum = %d\n", GetSize(ff_bits));
- write_r_buffer(ff_bits.size());
+ log_debug("flopNum = %d\n", GetSize(ff_list));
+ write_r_buffer(ff_list.size());
std::stringstream s_buffer;
auto write_s_buffer = std::bind(write_buffer, std::ref(s_buffer), std::placeholders::_1);
- write_s_buffer(ff_bits.size());
+ write_s_buffer(ff_list.size());
- for (const auto &i : ff_bits) {
- const SigBit &d = i.first;
- const Cell *cell = i.second;
+ dict<SigSpec, int> clk_to_mergeability;
+ for (const auto cell : ff_list) {
+ const SigBit &d = sigmap(cell->getPort(ID::D));
+ const SigBit &q = sigmap(cell->getPort(ID::Q));
- int mergeability = cell->attributes.at(ID(abc9_mergeability)).as_int();
+ SigSpec clk_and_pol{sigmap(cell->getPort(ID::C)), cell->type[6] == 'P' ? State::S1 : State::S0};
+ auto r = clk_to_mergeability.insert(std::make_pair(clk_and_pol, clk_to_mergeability.size()+1));
+ int mergeability = r.first->second;
log_assert(mergeability > 0);
write_r_buffer(mergeability);
- Const init = cell->attributes.at(ID(abc9_init), State::Sx);
- log_assert(GetSize(init) == 1);
+ State init = init_map.at(q, State::Sx);
+ log_debug("Cell '%s' (type %s) has (* init *) value '%s'.\n", log_id(cell), log_id(cell->type), log_signal(init));
if (init == State::S1)
write_s_buffer(1);
else if (init == State::S0)
write_s_buffer(0);
else {
log_assert(init == State::Sx);
- write_s_buffer(0);
+ write_s_buffer(2);
}
+ // Use arrival time from output of flop box
write_i_buffer(arrival_times.at(d, 0));
//write_o_buffer(0);
}
f.write(reinterpret_cast<const char*>(&buffer_size_be), sizeof(buffer_size_be));
f.write(buffer_str.data(), buffer_str.size());
- RTLIL::Module *holes_module = module->design->module(stringf("%s$holes", module->name.c_str()));
+ RTLIL::Design *holes_design;
+ auto it = saved_designs.find("$abc9_holes");
+ if (it != saved_designs.end())
+ holes_design = it->second;
+ else
+ holes_design = nullptr;
+ RTLIL::Module *holes_module = holes_design ? holes_design->module(module->name) : nullptr;
if (holes_module) {
std::stringstream a_buffer;
- XAigerWriter writer(holes_module, true /* holes_mode */);
+ XAigerWriter writer(holes_module, false /* dff_mode */);
writer.write_aiger(a_buffer, false /*ascii_mode*/);
f << "a";
f << stringf("Generated by %s\n", yosys_version_str);
- module->design->scratchpad_set_int("write_xaiger.num_ands", and_map.size());
- module->design->scratchpad_set_int("write_xaiger.num_wires", aig_map.size());
- module->design->scratchpad_set_int("write_xaiger.num_inputs", input_bits.size());
- module->design->scratchpad_set_int("write_xaiger.num_outputs", output_bits.size());
+ design->scratchpad_set_int("write_xaiger.num_ands", and_map.size());
+ design->scratchpad_set_int("write_xaiger.num_wires", aig_map.size());
+ design->scratchpad_set_int("write_xaiger.num_inputs", input_bits.size());
+ design->scratchpad_set_int("write_xaiger.num_outputs", output_bits.size());
}
void write_map(std::ostream &f)
for (auto wire : module->wires())
{
- SigSpec sig = sigmap(wire);
-
for (int i = 0; i < GetSize(wire); i++)
{
RTLIL::SigBit b(wire, i);
if (input_bits.count(b)) {
int a = aig_map.at(b);
log_assert((a & 1) == 0);
- input_lines[a] += stringf("input %d %d %s\n", (a >> 1)-1, i, log_id(wire));
+ input_lines[a] += stringf("input %d %d %s\n", (a >> 1)-1, wire->start_offset+i, log_id(wire));
}
if (output_bits.count(b)) {
int o = ordered_outputs.at(b);
- int init = 2;
- output_lines[o] += stringf("output %d %d %s %d\n", o - GetSize(co_bits), i, log_id(wire), init);
- continue;
+ output_lines[o] += stringf("output %d %d %s\n", o - GetSize(co_bits), wire->start_offset+i, log_id(wire));
}
}
}
log(" write_xaiger [options] [filename]\n");
log("\n");
log("Write the top module (according to the (* top *) attribute or if only one module\n");
- log("is currently selected) to an XAIGER file. Any non $_NOT_, $_AND_, $_ABC9_FF_, or");
- log("non (* abc9_box_id *) cells will be converted into psuedo-inputs and\n");
- log("pseudo-outputs. Whitebox contents will be taken from the '<module-name>$holes'\n");
- log("module, if it exists.\n");
+ log("is currently selected) to an XAIGER file. Any non $_NOT_, $_AND_, (optionally\n");
+ log("$_DFF_N_, $_DFF_P_), or non (* abc9_box *) cells will be converted into psuedo-\n");
+ log("inputs and pseudo-outputs. Whitebox contents will be taken from the equivalent\n");
+ log("module in the '$abc9_holes' design, if it exists.\n");
log("\n");
log(" -ascii\n");
log(" write ASCII version of AIGER format\n");
log(" -map <filename>\n");
log(" write an extra file with port and box symbols\n");
log("\n");
+ log(" -dff\n");
+ log(" write $_DFF_[NP]_ cells\n");
+ log("\n");
}
void execute(std::ostream *&f, std::string filename, std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE
{
- bool ascii_mode = false;
+ bool ascii_mode = false, dff_mode = false;
std::string map_filename;
log_header(design, "Executing XAIGER backend.\n");
map_filename = args[++argidx];
continue;
}
+ if (args[argidx] == "-dff") {
+ dff_mode = true;
+ continue;
+ }
break;
}
extra_args(f, filename, args, argidx, !ascii_mode);
if (!top_module->memories.empty())
log_error("Found unmapped memories in module %s: unmapped memories are not supported in XAIGER backend!\n", log_id(top_module));
- XAigerWriter writer(top_module);
+ XAigerWriter writer(top_module, dff_mode);
writer.write_aiger(*f, ascii_mode);
if (!map_filename.empty()) {