mirror of https://github.com/YosysHQ/yosys.git
320 lines
11 KiB
C++
320 lines
11 KiB
C++
/*
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* yosys -- Yosys Open SYnthesis Suite
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*
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* Copyright (C) 2012 Claire Xenia Wolf <claire@yosyshq.com>
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*
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* Permission to use, copy, modify, and/or distribute this software for any
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* purpose with or without fee is hereby granted, provided that the above
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* 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
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* WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF
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* MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR
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* ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
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* WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN
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* ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF
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* OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE.
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*
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*/
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#include "kernel/register.h"
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#include "kernel/sigtools.h"
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#include "kernel/consteval.h"
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#include "kernel/log.h"
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#include <sstream>
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#include <stdlib.h>
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#include <stdio.h>
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USING_YOSYS_NAMESPACE
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PRIVATE_NAMESPACE_BEGIN
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RTLIL::SigSpec find_any_lvalue(const RTLIL::Process *proc)
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{
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RTLIL::SigSpec lvalue;
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for (auto sync : proc->syncs)
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for (auto &action : sync->actions)
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if (action.first.size() > 0) {
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lvalue = action.first;
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lvalue.sort_and_unify();
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break;
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}
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for (auto sync : proc->syncs) {
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RTLIL::SigSpec this_lvalue;
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for (auto &action : sync->actions)
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this_lvalue.append(action.first);
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this_lvalue.sort_and_unify();
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RTLIL::SigSpec common_sig = this_lvalue.extract(lvalue);
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if (common_sig.size() > 0)
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lvalue = common_sig;
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}
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return lvalue;
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}
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void gen_dffsr_complex(RTLIL::Module *mod, RTLIL::SigSpec sig_d, RTLIL::SigSpec sig_q, RTLIL::SigSpec clk, bool clk_polarity,
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std::vector<std::pair<RTLIL::SigSpec, RTLIL::SyncRule*>> &async_rules, RTLIL::Process *proc)
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{
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// A signal should be set/cleared if there is a load trigger that is enabled
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// such that the load value is 1/0 and it is the highest priority trigger
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RTLIL::SigSpec sig_sr_set = RTLIL::SigSpec(0, sig_d.size());
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RTLIL::SigSpec sig_sr_clr = RTLIL::SigSpec(0, sig_d.size());
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// Reverse iterate through the rules as the first ones are the highest priority
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// so need to be at the top of the mux trees
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for (auto it = async_rules.crbegin(); it != async_rules.crend(); it++)
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{
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const auto& [sync_value, rule] = *it;
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const auto pos_trig = rule->type == RTLIL::SyncType::ST1 ? rule->signal : mod->Not(NEW_ID, rule->signal);
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// If pos_trig is true, we have priority at this point in the tree so
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// set a bit if sync_value has a set bit. Otherwise, defer to the rest
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// of the priority tree
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sig_sr_set = mod->Mux(NEW_ID, sig_sr_set, sync_value, pos_trig);
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// Same deal with clear bit
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const auto sync_value_inv = mod->Not(NEW_ID, sync_value);
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sig_sr_clr = mod->Mux(NEW_ID, sig_sr_clr, sync_value_inv, pos_trig);
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}
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std::stringstream sstr;
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sstr << "$procdff$" << (autoidx++);
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RTLIL::Cell *cell = mod->addDffsr(sstr.str(), clk, sig_sr_set, sig_sr_clr, sig_d, sig_q, clk_polarity);
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cell->attributes = proc->attributes;
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log(" created %s cell `%s' with %s edge clock and multiple level-sensitive resets.\n",
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cell->type.c_str(), cell->name.c_str(), clk_polarity ? "positive" : "negative");
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}
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void gen_aldff(RTLIL::Module *mod, RTLIL::SigSpec sig_in, RTLIL::SigSpec sig_set, RTLIL::SigSpec sig_out,
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bool clk_polarity, bool set_polarity, RTLIL::SigSpec clk, RTLIL::SigSpec set, RTLIL::Process *proc)
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{
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std::stringstream sstr;
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sstr << "$procdff$" << (autoidx++);
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RTLIL::Cell *cell = mod->addCell(sstr.str(), ID($aldff));
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cell->attributes = proc->attributes;
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cell->parameters[ID::WIDTH] = RTLIL::Const(sig_in.size());
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cell->parameters[ID::ALOAD_POLARITY] = RTLIL::Const(set_polarity, 1);
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cell->parameters[ID::CLK_POLARITY] = RTLIL::Const(clk_polarity, 1);
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cell->setPort(ID::D, sig_in);
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cell->setPort(ID::Q, sig_out);
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cell->setPort(ID::AD, sig_set);
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cell->setPort(ID::CLK, clk);
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cell->setPort(ID::ALOAD, set);
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log(" created %s cell `%s' with %s edge clock and %s level non-const reset.\n", cell->type.c_str(), cell->name.c_str(),
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clk_polarity ? "positive" : "negative", set_polarity ? "positive" : "negative");
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}
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void gen_dff(RTLIL::Module *mod, RTLIL::SigSpec sig_in, RTLIL::Const val_rst, RTLIL::SigSpec sig_out,
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bool clk_polarity, bool arst_polarity, RTLIL::SigSpec clk, RTLIL::SigSpec *arst, RTLIL::Process *proc)
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{
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std::stringstream sstr;
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sstr << "$procdff$" << (autoidx++);
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RTLIL::Cell *cell = mod->addCell(sstr.str(), clk.empty() ? ID($ff) : arst ? ID($adff) : ID($dff));
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cell->attributes = proc->attributes;
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cell->parameters[ID::WIDTH] = RTLIL::Const(sig_in.size());
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if (arst) {
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cell->parameters[ID::ARST_POLARITY] = RTLIL::Const(arst_polarity, 1);
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cell->parameters[ID::ARST_VALUE] = val_rst;
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}
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if (!clk.empty()) {
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cell->parameters[ID::CLK_POLARITY] = RTLIL::Const(clk_polarity, 1);
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}
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cell->setPort(ID::D, sig_in);
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cell->setPort(ID::Q, sig_out);
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if (arst)
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cell->setPort(ID::ARST, *arst);
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if (!clk.empty())
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cell->setPort(ID::CLK, clk);
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if (!clk.empty())
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log(" created %s cell `%s' with %s edge clock", cell->type.c_str(), cell->name.c_str(), clk_polarity ? "positive" : "negative");
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else
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log(" created %s cell `%s' with global clock", cell->type.c_str(), cell->name.c_str());
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if (arst)
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log(" and %s level reset", arst_polarity ? "positive" : "negative");
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log(".\n");
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}
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void proc_dff(RTLIL::Module *mod, RTLIL::Process *proc, ConstEval &ce)
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{
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while (1)
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{
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RTLIL::SigSpec sig = find_any_lvalue(proc);
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if (sig.size() == 0)
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break;
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log("Creating register for signal `%s.%s' using process `%s.%s'.\n",
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mod->name.c_str(), log_signal(sig), mod->name.c_str(), proc->name.c_str());
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RTLIL::SigSpec insig = RTLIL::SigSpec(RTLIL::State::Sz, sig.size());
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RTLIL::SyncRule *sync_edge = NULL;
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RTLIL::SyncRule *sync_always = NULL;
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bool global_clock = false;
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// A priority ordered set of rules, pairing the value to be assigned for
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// that rule to the rule
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std::vector<std::pair<RTLIL::SigSpec, RTLIL::SyncRule*>> async_rules;
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// Needed when the async rules are collapsed into one as async_rules
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// works with pointers to SyncRule
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RTLIL::SyncRule single_async_rule;
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for (auto sync : proc->syncs)
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for (auto &action : sync->actions)
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{
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if (action.first.extract(sig).size() == 0)
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continue;
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if (sync->type == RTLIL::SyncType::ST0 || sync->type == RTLIL::SyncType::ST1) {
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RTLIL::SigSpec rstval = RTLIL::SigSpec(RTLIL::State::Sz, sig.size());
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sig.replace(action.first, action.second, &rstval);
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async_rules.emplace_back(rstval, sync);
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}
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else if (sync->type == RTLIL::SyncType::STp || sync->type == RTLIL::SyncType::STn) {
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if (sync_edge != NULL && sync_edge != sync)
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log_error("Multiple edge sensitive events found for this signal!\n");
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sig.replace(action.first, action.second, &insig);
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sync_edge = sync;
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}
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else if (sync->type == RTLIL::SyncType::STa) {
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if (sync_always != NULL && sync_always != sync)
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log_error("Multiple always events found for this signal!\n");
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sig.replace(action.first, action.second, &insig);
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sync_always = sync;
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}
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else if (sync->type == RTLIL::SyncType::STg) {
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sig.replace(action.first, action.second, &insig);
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global_clock = true;
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}
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else {
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log_error("Event with any-edge sensitivity found for this signal!\n");
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}
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action.first.remove2(sig, &action.second);
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}
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// If all async rules assign the same value, priority ordering between
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// them doesn't matter so they can be collapsed together into one rule
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// with the disjunction of triggers
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if (!async_rules.empty() &&
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std::all_of(async_rules.begin(), async_rules.end(), [&](auto& p) {
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return p.first == async_rules.front().first;
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}))
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{
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const auto rstval = async_rules.front().first;
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// The trigger is the disjunction of existing triggers
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// (with appropriate negation)
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RTLIL::SigSpec triggers;
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for (const auto &[_, it] : async_rules)
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triggers.append(it->type == RTLIL::SyncType::ST1 ? it->signal : mod->Not(NEW_ID, it->signal));
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// Put this into the dummy sync rule so it can be treated the same
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// as ones coming from the module
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single_async_rule.type = RTLIL::SyncType::ST1;
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single_async_rule.signal = mod->ReduceOr(NEW_ID, triggers);
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single_async_rule.actions.push_back(RTLIL::SigSig(sig, rstval));
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// Replace existing rules with this new rule
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async_rules.clear();
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async_rules.emplace_back(rstval, &single_async_rule);
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}
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SigSpec sig_q = sig;
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ce.assign_map.apply(insig);
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ce.assign_map.apply(sig);
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// If the reset value assigns the reg to itself, add this as part of
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// the input signal and delete the rule
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if (async_rules.size() == 1 && async_rules.front().first == sig) {
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const auto& [_, rule] = async_rules.front();
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if (rule->type == RTLIL::SyncType::ST1)
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insig = mod->Mux(NEW_ID, insig, sig, rule->signal);
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else
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insig = mod->Mux(NEW_ID, sig, insig, rule->signal);
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async_rules.clear();
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}
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if (sync_always) {
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if (sync_edge || !async_rules.empty())
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log_error("Mixed always event with edge and/or level sensitive events!\n");
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log(" created direct connection (no actual register cell created).\n");
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mod->connect(RTLIL::SigSig(sig, insig));
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continue;
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}
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if (!sync_edge && !global_clock)
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log_error("Missing edge-sensitive event for this signal!\n");
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// More than one reset value so we derive a dffsr formulation
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if (async_rules.size() > 1)
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{
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log_warning("Complex async reset for dff `%s'.\n", log_signal(sig));
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gen_dffsr_complex(mod, insig, sig, sync_edge->signal, sync_edge->type == RTLIL::SyncType::STp, async_rules, proc);
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continue;
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}
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// If there is a reset condition in the async rules, use it
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SigSpec rstval = async_rules.empty() ? RTLIL::SigSpec(RTLIL::State::Sz, sig.size()) : async_rules.front().first;
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RTLIL::SyncRule* sync_level = async_rules.empty() ? nullptr : async_rules.front().second;
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ce.assign_map.apply(rstval);
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if (!rstval.is_fully_const() && !ce.eval(rstval))
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{
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log_warning("Async reset value `%s' is not constant!\n", log_signal(rstval));
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gen_aldff(mod, insig, rstval, sig_q,
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sync_edge->type == RTLIL::SyncType::STp,
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sync_level && sync_level->type == RTLIL::SyncType::ST1,
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sync_edge->signal, sync_level->signal, proc);
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continue;
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}
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gen_dff(mod, insig, rstval.as_const(), sig_q,
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sync_edge && sync_edge->type == RTLIL::SyncType::STp,
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sync_level && sync_level->type == RTLIL::SyncType::ST1,
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sync_edge ? sync_edge->signal : SigSpec(),
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sync_level ? &sync_level->signal : NULL, proc);
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}
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}
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struct ProcDffPass : public Pass {
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ProcDffPass() : Pass("proc_dff", "extract flip-flops from processes") { }
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void help() override
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{
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// |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|
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log("\n");
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log(" proc_dff [selection]\n");
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log("\n");
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log("This pass identifies flip-flops in the processes and converts them to\n");
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log("d-type flip-flop cells.\n");
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log("\n");
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}
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void execute(std::vector<std::string> args, RTLIL::Design *design) override
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{
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log_header(design, "Executing PROC_DFF pass (convert process syncs to FFs).\n");
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extra_args(args, 1, design);
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for (auto mod : design->modules())
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if (design->selected(mod)) {
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ConstEval ce(mod);
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for (auto &proc_it : mod->processes)
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if (design->selected(mod, proc_it.second))
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proc_dff(mod, proc_it.second, ce);
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}
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}
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} ProcDffPass;
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PRIVATE_NAMESPACE_END
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