yosys/passes/fsm/fsm_opt.cc

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/*
* yosys -- Yosys Open SYnthesis Suite
*
* Copyright (C) 2012 Clifford Wolf <clifford@clifford.at>
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*
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* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice appear in all copies.
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*
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* THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES
* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
*
*/
#include "kernel/log.h"
#include "kernel/register.h"
#include "kernel/sigtools.h"
#include "kernel/consteval.h"
#include "kernel/celltypes.h"
#include "fsmdata.h"
#include <string.h>
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USING_YOSYS_NAMESPACE
PRIVATE_NAMESPACE_BEGIN
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struct FsmOpt
{
FsmData fsm_data;
RTLIL::Cell *cell;
RTLIL::Module *module;
void opt_unreachable_states()
{
while (1)
{
std::set<int> unreachable_states;
std::vector<FsmData::transition_t> new_transition_table;
std::vector<RTLIL::Const> new_state_table;
std::map<int, int> old_to_new_state;
for (int i = 0; i < GetSize(fsm_data.state_table); i++)
if (i != fsm_data.reset_state)
unreachable_states.insert(i);
for (auto &trans : fsm_data.transition_table)
unreachable_states.erase(trans.state_out);
if (unreachable_states.empty())
break;
for (int i = 0; i < GetSize(fsm_data.state_table); i++) {
if (unreachable_states.count(i)) {
log(" Removing unreachable state %s.\n", log_signal(fsm_data.state_table[i]));
continue;
}
old_to_new_state[i] = GetSize(new_state_table);
new_state_table.push_back(fsm_data.state_table[i]);
}
for (auto trans : fsm_data.transition_table) {
if (unreachable_states.count(trans.state_in))
continue;
trans.state_in = old_to_new_state.at(trans.state_in);
trans.state_out = old_to_new_state.at(trans.state_out);
new_transition_table.push_back(trans);
}
new_transition_table.swap(fsm_data.transition_table);
new_state_table.swap(fsm_data.state_table);
if (fsm_data.reset_state != -1)
fsm_data.reset_state = old_to_new_state.at(fsm_data.reset_state);
}
}
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bool signal_is_unused(RTLIL::SigSpec sig)
{
RTLIL::SigBit bit = sig.as_bit();
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if (bit.wire == NULL || bit.wire->attributes.count(ID::unused_bits) == 0)
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return false;
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char *str = strdup(bit.wire->attributes[ID::unused_bits].decode_string().c_str());
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for (char *tok = strtok(str, " "); tok != NULL; tok = strtok(NULL, " ")) {
if (tok[0] && bit.offset == atoi(tok)) {
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free(str);
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return true;
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}
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}
free(str);
return false;
}
void opt_const_and_unused_inputs()
{
RTLIL::SigSpec ctrl_in = cell->getPort(ID::CTRL_IN);
std::vector<bool> ctrl_in_used(ctrl_in.size());
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std::vector<FsmData::transition_t> new_transition_table;
for (auto &tr : fsm_data.transition_table) {
for (int i = 0; i < ctrl_in.size(); i++) {
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RTLIL::SigSpec ctrl_bit = ctrl_in.extract(i, 1);
if (ctrl_bit.is_fully_const()) {
if (tr.ctrl_in.bits[i] <= RTLIL::State::S1 && RTLIL::SigSpec(tr.ctrl_in.bits[i]) != ctrl_bit)
goto delete_this_transition;
continue;
}
if (tr.ctrl_in.bits[i] <= RTLIL::State::S1)
ctrl_in_used[i] = true;
}
new_transition_table.push_back(tr);
delete_this_transition:;
}
for (int i = int(ctrl_in_used.size())-1; i >= 0; i--) {
if (!ctrl_in_used[i]) {
log(" Removing unused input signal %s.\n", log_signal(cell->getPort(ID::CTRL_IN).extract(i, 1)));
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for (auto &tr : new_transition_table) {
RTLIL::SigSpec tmp(tr.ctrl_in);
tmp.remove(i, 1);
tr.ctrl_in = tmp.as_const();
}
RTLIL::SigSpec new_ctrl_in = cell->getPort(ID::CTRL_IN);
new_ctrl_in.remove(i, 1);
cell->setPort(ID::CTRL_IN, new_ctrl_in);
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fsm_data.num_inputs--;
}
}
fsm_data.transition_table.swap(new_transition_table);
new_transition_table.clear();
}
void opt_unused_outputs()
{
for (int i = 0; i < fsm_data.num_outputs; i++) {
RTLIL::SigSpec sig = cell->getPort(ID::CTRL_OUT).extract(i, 1);
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if (signal_is_unused(sig)) {
log(" Removing unused output signal %s.\n", log_signal(sig));
RTLIL::SigSpec new_ctrl_out = cell->getPort(ID::CTRL_OUT);
new_ctrl_out.remove(i, 1);
cell->setPort(ID::CTRL_OUT, new_ctrl_out);
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for (auto &tr : fsm_data.transition_table) {
RTLIL::SigSpec tmp(tr.ctrl_out);
tmp.remove(i, 1);
tr.ctrl_out = tmp.as_const();
}
fsm_data.num_outputs--;
i--;
}
}
}
void opt_alias_inputs()
{
RTLIL::SigSpec &ctrl_in = cell->connections_[ID::CTRL_IN];
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for (int i = 0; i < ctrl_in.size(); i++)
for (int j = i+1; j < ctrl_in.size(); j++)
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if (ctrl_in.extract(i, 1) == ctrl_in.extract(j, 1))
{
log(" Optimize handling of signal %s that is connected to inputs %d and %d.\n", log_signal(ctrl_in.extract(i, 1)), i, j);
std::vector<FsmData::transition_t> new_transition_table;
for (auto tr : fsm_data.transition_table)
{
RTLIL::State &si = tr.ctrl_in.bits[i];
RTLIL::State &sj = tr.ctrl_in.bits[j];
if (si > RTLIL::State::S1)
si = sj;
else if (sj > RTLIL::State::S1)
sj = si;
if (si == sj) {
RTLIL::SigSpec tmp(tr.ctrl_in);
tmp.remove(j, 1);
tr.ctrl_in = tmp.as_const();
new_transition_table.push_back(tr);
}
}
ctrl_in.remove(j--, 1);
fsm_data.num_inputs--;
fsm_data.transition_table.swap(new_transition_table);
new_transition_table.clear();
}
}
void opt_feedback_inputs()
{
RTLIL::SigSpec &ctrl_in = cell->connections_[ID::CTRL_IN];
RTLIL::SigSpec &ctrl_out = cell->connections_[ID::CTRL_OUT];
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for (int j = 0; j < ctrl_out.size(); j++)
for (int i = 0; i < ctrl_in.size(); i++)
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if (ctrl_in.extract(i, 1) == ctrl_out.extract(j, 1))
{
log(" Optimize handling of signal %s that is connected to input %d and output %d.\n", log_signal(ctrl_in.extract(i, 1)), i, j);
std::vector<FsmData::transition_t> new_transition_table;
for (auto tr : fsm_data.transition_table)
{
RTLIL::State &si = tr.ctrl_in.bits[i];
RTLIL::State &sj = tr.ctrl_out.bits[j];
if (si > RTLIL::State::S1 || si == sj) {
RTLIL::SigSpec tmp(tr.ctrl_in);
tmp.remove(i, 1);
tr.ctrl_in = tmp.as_const();
new_transition_table.push_back(tr);
}
}
ctrl_in.remove(i--, 1);
fsm_data.num_inputs--;
fsm_data.transition_table.swap(new_transition_table);
new_transition_table.clear();
}
}
void opt_find_dont_care_worker(std::set<RTLIL::Const> &set, int bit, FsmData::transition_t &tr, bool &did_something)
{
std::set<RTLIL::Const> new_set;
for (auto &pattern : set)
{
if (pattern.bits[bit] > RTLIL::State::S1) {
new_set.insert(pattern);
continue;
}
RTLIL::Const other_pattern = pattern;
if (pattern.bits[bit] == RTLIL::State::S1)
other_pattern.bits[bit] = RTLIL::State::S0;
else
other_pattern.bits[bit] = RTLIL::State::S1;
if (set.count(other_pattern) > 0) {
log(" Merging pattern %s and %s from group (%d %d %s).\n", log_signal(pattern), log_signal(other_pattern),
tr.state_in, tr.state_out, log_signal(tr.ctrl_out));
other_pattern.bits[bit] = RTLIL::State::Sa;
new_set.insert(other_pattern);
did_something = true;
continue;
}
new_set.insert(pattern);
}
set.swap(new_set);
}
void opt_find_dont_care()
{
typedef std::pair<std::pair<int, int>, RTLIL::Const> group_t;
std::map<group_t, std::set<RTLIL::Const>> transitions_by_group;
for (auto &tr : fsm_data.transition_table) {
group_t group(std::pair<int, int>(tr.state_in, tr.state_out), tr.ctrl_out);
transitions_by_group[group].insert(tr.ctrl_in);
}
fsm_data.transition_table.clear();
for (auto &it : transitions_by_group)
{
FsmData::transition_t tr;
tr.state_in = it.first.first.first;
tr.state_out = it.first.first.second;
tr.ctrl_out = it.first.second;
bool did_something = true;
while (did_something) {
did_something = false;
for (int i = 0; i < fsm_data.num_inputs; i++)
opt_find_dont_care_worker(it.second, i, tr, did_something);
}
for (auto &ci : it.second) {
tr.ctrl_in = ci;
fsm_data.transition_table.push_back(tr);
}
}
}
FsmOpt(RTLIL::Cell *cell, RTLIL::Module *module)
{
log("Optimizing FSM `%s' from module `%s'.\n", cell->name.c_str(), module->name.c_str());
fsm_data.copy_from_cell(cell);
this->cell = cell;
this->module = module;
opt_unreachable_states();
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opt_unused_outputs();
opt_alias_inputs();
opt_feedback_inputs();
opt_find_dont_care();
opt_const_and_unused_inputs();
fsm_data.copy_to_cell(cell);
}
};
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PRIVATE_NAMESPACE_END
void YOSYS_NAMESPACE_PREFIX FsmData::optimize_fsm(RTLIL::Cell *cell, RTLIL::Module *module)
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{
FsmOpt fsmopt(cell, module);
}
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PRIVATE_NAMESPACE_BEGIN
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struct FsmOptPass : public Pass {
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FsmOptPass() : Pass("fsm_opt", "optimize finite state machines") { }
void help() YS_OVERRIDE
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{
// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
log("\n");
log(" fsm_opt [selection]\n");
log("\n");
log("This pass optimizes FSM cells. It detects which output signals are actually\n");
log("not used and removes them from the FSM. This pass is usually used in\n");
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log("combination with the 'opt_clean' pass (see also 'help fsm').\n");
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log("\n");
}
void execute(std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE
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{
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log_header(design, "Executing FSM_OPT pass (simple optimizations of FSMs).\n");
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extra_args(args, 1, design);
for (auto mod : design->selected_modules())
for (auto cell : mod->selected_cells())
if (cell->type == ID($fsm))
FsmData::optimize_fsm(cell, mod);
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}
} FsmOptPass;
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PRIVATE_NAMESPACE_END