/* * yosys -- Yosys Open SYnthesis Suite * * Copyright (C) 2012 Clifford Wolf * * 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. * * 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 "passes/techmap/libparse.h" #include "kernel/register.h" #include "kernel/log.h" YOSYS_NAMESPACE_BEGIN struct token_t { char type; RTLIL::SigSpec sig; token_t (char t) : type(t) { } token_t (char t, RTLIL::SigSpec s) : type(t), sig(s) { } }; static RTLIL::SigSpec parse_func_identifier(RTLIL::Module *module, const char *&expr) { log_assert(*expr != 0); int id_len = 0; while (('a' <= expr[id_len] && expr[id_len] <= 'z') || ('A' <= expr[id_len] && expr[id_len] <= 'Z') || ('0' <= expr[id_len] && expr[id_len] <= '9') || expr[id_len] == '.' || expr[id_len] == '_') id_len++; if (id_len == 0) log_error("Expected identifier at `%s'.\n", expr); if (id_len == 1 && (*expr == '0' || *expr == '1')) return *(expr++) == '0' ? RTLIL::State::S0 : RTLIL::State::S1; std::string id = RTLIL::escape_id(std::string(expr, id_len)); if (!module->wires_.count(id)) log_error("Can't resolve wire name %s.\n", RTLIL::unescape_id(id).c_str()); expr += id_len; return module->wires_.at(id); } static RTLIL::SigSpec create_inv_cell(RTLIL::Module *module, RTLIL::SigSpec A) { RTLIL::Cell *cell = module->addCell(NEW_ID, "$_NOT_"); cell->setPort("\\A", A); cell->setPort("\\Y", module->addWire(NEW_ID)); return cell->getPort("\\Y"); } static RTLIL::SigSpec create_xor_cell(RTLIL::Module *module, RTLIL::SigSpec A, RTLIL::SigSpec B) { RTLIL::Cell *cell = module->addCell(NEW_ID, "$_XOR_"); cell->setPort("\\A", A); cell->setPort("\\B", B); cell->setPort("\\Y", module->addWire(NEW_ID)); return cell->getPort("\\Y"); } static RTLIL::SigSpec create_and_cell(RTLIL::Module *module, RTLIL::SigSpec A, RTLIL::SigSpec B) { RTLIL::Cell *cell = module->addCell(NEW_ID, "$_AND_"); cell->setPort("\\A", A); cell->setPort("\\B", B); cell->setPort("\\Y", module->addWire(NEW_ID)); return cell->getPort("\\Y"); } static RTLIL::SigSpec create_or_cell(RTLIL::Module *module, RTLIL::SigSpec A, RTLIL::SigSpec B) { RTLIL::Cell *cell = module->addCell(NEW_ID, "$_OR_"); cell->setPort("\\A", A); cell->setPort("\\B", B); cell->setPort("\\Y", module->addWire(NEW_ID)); return cell->getPort("\\Y"); } static bool parse_func_reduce(RTLIL::Module *module, std::vector &stack, token_t next_token) { int top = int(stack.size())-1; if (0 <= top-1 && stack[top].type == 0 && stack[top-1].type == '!') { token_t t = token_t(0, create_inv_cell(module, stack[top].sig)); stack.pop_back(); stack.pop_back(); stack.push_back(t); return true; } if (0 <= top-1 && stack[top].type == '\'' && stack[top-1].type == 0) { token_t t = token_t(0, create_inv_cell(module, stack[top-1].sig)); stack.pop_back(); stack.pop_back(); stack.push_back(t); return true; } if (0 <= top && stack[top].type == 0) { if (next_token.type == '\'') return false; stack[top].type = 1; return true; } if (0 <= top-2 && stack[top-2].type == 1 && stack[top-1].type == '^' && stack[top].type == 1) { token_t t = token_t(1, create_xor_cell(module, stack[top-2].sig, stack[top].sig)); stack.pop_back(); stack.pop_back(); stack.pop_back(); stack.push_back(t); return true; } if (0 <= top && stack[top].type == 1) { if (next_token.type == '^') return false; stack[top].type = 2; return true; } if (0 <= top-1 && stack[top-1].type == 2 && stack[top].type == 2) { token_t t = token_t(2, create_and_cell(module, stack[top-1].sig, stack[top].sig)); stack.pop_back(); stack.pop_back(); stack.push_back(t); return true; } if (0 <= top-2 && stack[top-2].type == 2 && (stack[top-1].type == '*' || stack[top-1].type == '&') && stack[top].type == 2) { token_t t = token_t(2, create_and_cell(module, stack[top-2].sig, stack[top].sig)); stack.pop_back(); stack.pop_back(); stack.pop_back(); stack.push_back(t); return true; } if (0 <= top && stack[top].type == 2) { if (next_token.type == '*' || next_token.type == '&' || next_token.type == 0 || next_token.type == '(') return false; stack[top].type = 3; return true; } if (0 <= top-2 && stack[top-2].type == 3 && (stack[top-1].type == '+' || stack[top-1].type == '|') && stack[top].type == 3) { token_t t = token_t(3, create_or_cell(module, stack[top-2].sig, stack[top].sig)); stack.pop_back(); stack.pop_back(); stack.pop_back(); stack.push_back(t); return true; } if (0 <= top-2 && stack[top-2].type == '(' && stack[top-1].type == 3 && stack[top].type == ')') { token_t t = token_t(0, stack[top-1].sig); stack.pop_back(); stack.pop_back(); stack.pop_back(); stack.push_back(t); return true; } return false; } static RTLIL::SigSpec parse_func_expr(RTLIL::Module *module, const char *expr) { const char *orig_expr = expr; std::vector stack; while (*expr) { if (*expr == ' ' || *expr == '\t' || *expr == '\r' || *expr == '\n' || *expr == '"') { expr++; continue; } token_t next_token(0); if (*expr == '(' || *expr == ')' || *expr == '\'' || *expr == '!' || *expr == '^' || *expr == '*' || *expr == '+' || *expr == '|') next_token = token_t(*(expr++)); else next_token = token_t(0, parse_func_identifier(module, expr)); while (parse_func_reduce(module, stack, next_token)) {} stack.push_back(next_token); } while (parse_func_reduce(module, stack, token_t('.'))) {} #if 0 for (size_t i = 0; i < stack.size(); i++) if (stack[i].type < 16) log("%3d: %d %s\n", int(i), stack[i].type, log_signal(stack[i].sig)); else log("%3d: %c\n", int(i), stack[i].type); #endif if (stack.size() != 1 || stack.back().type != 3) log_error("Parser error in function expr `%s'.\n", orig_expr); return stack.back().sig; } static void create_ff(RTLIL::Module *module, LibertyAst *node) { RTLIL::SigSpec iq_sig(module->addWire(RTLIL::escape_id(node->args.at(0)))); RTLIL::SigSpec iqn_sig(module->addWire(RTLIL::escape_id(node->args.at(1)))); RTLIL::SigSpec clk_sig, data_sig, clear_sig, preset_sig; bool clk_polarity = true, clear_polarity = true, preset_polarity = true; for (auto child : node->children) { if (child->id == "clocked_on") clk_sig = parse_func_expr(module, child->value.c_str()); if (child->id == "next_state") data_sig = parse_func_expr(module, child->value.c_str()); if (child->id == "clear") clear_sig = parse_func_expr(module, child->value.c_str()); if (child->id == "preset") preset_sig = parse_func_expr(module, child->value.c_str()); } if (clk_sig.size() == 0 || data_sig.size() == 0) log_error("FF cell %s has no next_state and/or clocked_on attribute.\n", log_id(module->name)); for (bool rerun_invert_rollback = true; rerun_invert_rollback;) { rerun_invert_rollback = false; for (auto &it : module->cells_) { if (it.second->type == "$_NOT_" && it.second->getPort("\\Y") == clk_sig) { clk_sig = it.second->getPort("\\A"); clk_polarity = !clk_polarity; rerun_invert_rollback = true; } if (it.second->type == "$_NOT_" && it.second->getPort("\\Y") == clear_sig) { clear_sig = it.second->getPort("\\A"); clear_polarity = !clear_polarity; rerun_invert_rollback = true; } if (it.second->type == "$_NOT_" && it.second->getPort("\\Y") == preset_sig) { preset_sig = it.second->getPort("\\A"); preset_polarity = !preset_polarity; rerun_invert_rollback = true; } } } RTLIL::Cell *cell = module->addCell(NEW_ID, "$_NOT_"); cell->setPort("\\A", iq_sig); cell->setPort("\\Y", iqn_sig); cell = module->addCell(NEW_ID, ""); cell->setPort("\\D", data_sig); cell->setPort("\\Q", iq_sig); cell->setPort("\\C", clk_sig); if (clear_sig.size() == 0 && preset_sig.size() == 0) { cell->type = stringf("$_DFF_%c_", clk_polarity ? 'P' : 'N'); } if (clear_sig.size() == 1 && preset_sig.size() == 0) { cell->type = stringf("$_DFF_%c%c0_", clk_polarity ? 'P' : 'N', clear_polarity ? 'P' : 'N'); cell->setPort("\\R", clear_sig); } if (clear_sig.size() == 0 && preset_sig.size() == 1) { cell->type = stringf("$_DFF_%c%c1_", clk_polarity ? 'P' : 'N', preset_polarity ? 'P' : 'N'); cell->setPort("\\R", preset_sig); } if (clear_sig.size() == 1 && preset_sig.size() == 1) { cell->type = stringf("$_DFFSR_%c%c%c_", clk_polarity ? 'P' : 'N', preset_polarity ? 'P' : 'N', clear_polarity ? 'P' : 'N'); cell->setPort("\\S", preset_sig); cell->setPort("\\R", clear_sig); } log_assert(!cell->type.empty()); } static void create_latch(RTLIL::Module *module, LibertyAst *node) { RTLIL::SigSpec iq_sig(module->addWire(RTLIL::escape_id(node->args.at(0)))); RTLIL::SigSpec iqn_sig(module->addWire(RTLIL::escape_id(node->args.at(1)))); RTLIL::SigSpec enable_sig, data_sig, clear_sig, preset_sig; bool enable_polarity = true, clear_polarity = true, preset_polarity = true; for (auto child : node->children) { if (child->id == "enable") enable_sig = parse_func_expr(module, child->value.c_str()); if (child->id == "data_in") data_sig = parse_func_expr(module, child->value.c_str()); if (child->id == "clear") clear_sig = parse_func_expr(module, child->value.c_str()); if (child->id == "preset") preset_sig = parse_func_expr(module, child->value.c_str()); } if (enable_sig.size() == 0 || data_sig.size() == 0) log_error("Latch cell %s has no data_in and/or enable attribute.\n", log_id(module->name)); for (bool rerun_invert_rollback = true; rerun_invert_rollback;) { rerun_invert_rollback = false; for (auto &it : module->cells_) { if (it.second->type == "$_NOT_" && it.second->getPort("\\Y") == enable_sig) { enable_sig = it.second->getPort("\\A"); enable_polarity = !enable_polarity; rerun_invert_rollback = true; } if (it.second->type == "$_NOT_" && it.second->getPort("\\Y") == clear_sig) { clear_sig = it.second->getPort("\\A"); clear_polarity = !clear_polarity; rerun_invert_rollback = true; } if (it.second->type == "$_NOT_" && it.second->getPort("\\Y") == preset_sig) { preset_sig = it.second->getPort("\\A"); preset_polarity = !preset_polarity; rerun_invert_rollback = true; } } } RTLIL::Cell *cell = module->addCell(NEW_ID, "$_NOT_"); cell->setPort("\\A", iq_sig); cell->setPort("\\Y", iqn_sig); if (clear_sig.size() == 1) { RTLIL::SigSpec clear_negative = clear_sig; RTLIL::SigSpec clear_enable = clear_sig; if (clear_polarity == true || clear_polarity != enable_polarity) { RTLIL::Cell *inv = module->addCell(NEW_ID, "$_NOT_"); inv->setPort("\\A", clear_sig); inv->setPort("\\Y", module->addWire(NEW_ID)); if (clear_polarity == true) clear_negative = inv->getPort("\\Y"); if (clear_polarity != enable_polarity) clear_enable = inv->getPort("\\Y"); } RTLIL::Cell *data_gate = module->addCell(NEW_ID, "$_AND_"); data_gate->setPort("\\A", data_sig); data_gate->setPort("\\B", clear_negative); data_gate->setPort("\\Y", data_sig = module->addWire(NEW_ID)); RTLIL::Cell *enable_gate = module->addCell(NEW_ID, enable_polarity ? "$_OR_" : "$_AND_"); enable_gate->setPort("\\A", enable_sig); enable_gate->setPort("\\B", clear_enable); enable_gate->setPort("\\Y", data_sig = module->addWire(NEW_ID)); } if (preset_sig.size() == 1) { RTLIL::SigSpec preset_positive = preset_sig; RTLIL::SigSpec preset_enable = preset_sig; if (preset_polarity == false || preset_polarity != enable_polarity) { RTLIL::Cell *inv = module->addCell(NEW_ID, "$_NOT_"); inv->setPort("\\A", preset_sig); inv->setPort("\\Y", module->addWire(NEW_ID)); if (preset_polarity == false) preset_positive = inv->getPort("\\Y"); if (preset_polarity != enable_polarity) preset_enable = inv->getPort("\\Y"); } RTLIL::Cell *data_gate = module->addCell(NEW_ID, "$_OR_"); data_gate->setPort("\\A", data_sig); data_gate->setPort("\\B", preset_positive); data_gate->setPort("\\Y", data_sig = module->addWire(NEW_ID)); RTLIL::Cell *enable_gate = module->addCell(NEW_ID, enable_polarity ? "$_OR_" : "$_AND_"); enable_gate->setPort("\\A", enable_sig); enable_gate->setPort("\\B", preset_enable); enable_gate->setPort("\\Y", data_sig = module->addWire(NEW_ID)); } cell = module->addCell(NEW_ID, stringf("$_DLATCH_%c_", enable_polarity ? 'P' : 'N')); cell->setPort("\\D", data_sig); cell->setPort("\\Q", iq_sig); cell->setPort("\\E", enable_sig); } struct LibertyFrontend : public Frontend { LibertyFrontend() : Frontend("liberty", "read cells from liberty file") { } virtual void help() { // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| log("\n"); log(" read_liberty [filename]\n"); log("\n"); log("Read cells from liberty file as modules into current design.\n"); log("\n"); log(" -lib\n"); log(" only create empty blackbox modules\n"); log("\n"); log(" -ignore_redef\n"); log(" ignore re-definitions of modules. (the default behavior is to\n"); log(" create an error message.)\n"); log("\n"); log(" -ignore_miss_func\n"); log(" ignore cells with missing function specification of outputs\n"); log("\n"); log(" -ignore_miss_dir\n"); log(" ignore cells with a missing or invalid direction\n"); log(" specification on a pin\n"); log("\n"); log(" -setattr \n"); log(" set the specified attribute (to the value 1) on all loaded modules\n"); log("\n"); } virtual void execute(std::istream *&f, std::string filename, std::vector args, RTLIL::Design *design) { bool flag_lib = false; bool flag_ignore_redef = false; bool flag_ignore_miss_func = false; bool flag_ignore_miss_dir = false; std::vector attributes; log_header(design, "Executing Liberty frontend.\n"); size_t argidx; for (argidx = 1; argidx < args.size(); argidx++) { std::string arg = args[argidx]; if (arg == "-lib") { flag_lib = true; continue; } if (arg == "-ignore_redef") { flag_ignore_redef = true; continue; } if (arg == "-ignore_miss_func") { flag_ignore_miss_func = true; continue; } if (arg == "-ignore_miss_dir") { flag_ignore_miss_dir = true; continue; } if (arg == "-setattr" && argidx+1 < args.size()) { attributes.push_back(RTLIL::escape_id(args[++argidx])); continue; } break; } extra_args(f, filename, args, argidx); LibertyParser parser(*f); int cell_count = 0; for (auto cell : parser.ast->children) { if (cell->id != "cell" || cell->args.size() != 1) continue; std::string cell_name = RTLIL::escape_id(cell->args.at(0)); if (design->has(cell_name)) { if (flag_ignore_redef) continue; log_error("Duplicate definition of cell/module %s.\n", RTLIL::unescape_id(cell_name).c_str()); } // log("Processing cell type %s.\n", RTLIL::unescape_id(cell_name).c_str()); RTLIL::Module *module = new RTLIL::Module; module->name = cell_name; if (flag_lib) module->set_bool_attribute("\\blackbox"); for (auto &attr : attributes) module->attributes[attr] = 1; for (auto node : cell->children) if (node->id == "pin" && node->args.size() == 1) { LibertyAst *dir = node->find("direction"); if (!dir || (dir->value != "input" && dir->value != "output" && dir->value != "inout" && dir->value != "internal")) { if (!flag_ignore_miss_dir) { log_error("Missing or invalid direction for pin %s of cell %s.\n", node->args.at(0).c_str(), log_id(module->name)); } else { log("Ignoring cell %s with missing or invalid direction for pin %s.\n", log_id(module->name), node->args.at(0).c_str()); delete module; goto skip_cell; } } if (!flag_lib || dir->value != "internal") module->addWire(RTLIL::escape_id(node->args.at(0))); } for (auto node : cell->children) { if (!flag_lib) { if (node->id == "ff" && node->args.size() == 2) create_ff(module, node); if (node->id == "latch" && node->args.size() == 2) create_latch(module, node); } if (node->id == "pin" && node->args.size() == 1) { LibertyAst *dir = node->find("direction"); if (flag_lib && dir->value == "internal") continue; RTLIL::Wire *wire = module->wires_.at(RTLIL::escape_id(node->args.at(0))); if (dir && dir->value == "inout") { wire->port_input = true; wire->port_output = true; } if (dir && dir->value == "input") { wire->port_input = true; continue; } if (dir && dir->value == "output") wire->port_output = true; if (flag_lib) continue; LibertyAst *func = node->find("function"); if (func == NULL) { if (!flag_ignore_miss_func) { log_error("Missing function on output %s of cell %s.\n", log_id(wire->name), log_id(module->name)); } else { log("Ignoring cell %s with missing function on output %s.\n", log_id(module->name), log_id(wire->name)); delete module; goto skip_cell; } } RTLIL::SigSpec out_sig = parse_func_expr(module, func->value.c_str()); module->connect(RTLIL::SigSig(wire, out_sig)); } } module->fixup_ports(); design->add(module); cell_count++; skip_cell:; } log("Imported %d cell types from liberty file.\n", cell_count); } } LibertyFrontend; YOSYS_NAMESPACE_END