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Diffstat (limited to 'frontends/aiger/aigerparse.cc')
| -rw-r--r-- | frontends/aiger/aigerparse.cc | 791 |
1 files changed, 791 insertions, 0 deletions
diff --git a/frontends/aiger/aigerparse.cc b/frontends/aiger/aigerparse.cc new file mode 100644 index 000000000..6fa77282e --- /dev/null +++ b/frontends/aiger/aigerparse.cc @@ -0,0 +1,791 @@ +/* + * yosys -- Yosys Open SYnthesis Suite + * + * Copyright (C) 2012 Clifford Wolf <clifford@clifford.at> + * Eddie Hung <eddie@fpgeh.com> + * + * 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. + * + */ + +// [[CITE]] The AIGER And-Inverter Graph (AIG) Format Version 20071012 +// Armin Biere. The AIGER And-Inverter Graph (AIG) Format Version 20071012. Technical Report 07/1, October 2011, FMV Reports Series, Institute for Formal Models and Verification, Johannes Kepler University, Altenbergerstr. 69, 4040 Linz, Austria. +// http://fmv.jku.at/papers/Biere-FMV-TR-07-1.pdf + +#ifdef _WIN32 +#include <stdlib.h> +#endif +#include "kernel/yosys.h" +#include "kernel/sigtools.h" +#include "kernel/consteval.h" +#include "aigerparse.h" + +YOSYS_NAMESPACE_BEGIN + +//#define log_debug log +#define log_debug(...) ; + +AigerReader::AigerReader(RTLIL::Design *design, std::istream &f, RTLIL::IdString module_name, RTLIL::IdString clk_name, std::string map_filename, bool wideports) + : design(design), f(f), clk_name(clk_name), map_filename(map_filename), wideports(wideports) +{ + module = new RTLIL::Module; + module->name = module_name; + if (design->module(module->name)) + log_error("Duplicate definition of module %s!\n", log_id(module->name)); +} + +void AigerReader::parse_aiger() +{ + std::string header; + f >> header; + if (header != "aag" && header != "aig") + log_error("Unsupported AIGER file!\n"); + + // Parse rest of header + if (!(f >> M >> I >> L >> O >> A)) + log_error("Invalid AIGER header\n"); + + // Optional values + B = C = J = F = 0; + for (auto &i : std::array<std::reference_wrapper<unsigned>,4>{B, C, J, F}) { + if (f.peek() != ' ') break; + if (!(f >> i)) + log_error("Invalid AIGER header\n"); + } + + std::string line; + std::getline(f, line); // Ignore up to start of next line, as standard + // says anything that follows could be used for + // optional sections + + log_debug("M=%u I=%u L=%u O=%u A=%u B=%u C=%u J=%u F=%u\n", M, I, L, O, A, B, C, J, F); + + line_count = 1; + + if (header == "aag") + parse_aiger_ascii(); + else if (header == "aig") + parse_aiger_binary(); + else + log_abort(); + + // Parse footer (symbol table, comments, etc.) + unsigned l1; + std::string s; + for (int c = f.peek(); c != EOF; c = f.peek(), ++line_count) { + if (c == 'i' || c == 'l' || c == 'o') { + f.ignore(1); + if (!(f >> l1 >> s)) + log_error("Line %u cannot be interpreted as a symbol entry!\n", line_count); + + if ((c == 'i' && l1 > inputs.size()) || (c == 'l' && l1 > latches.size()) || (c == 'o' && l1 > outputs.size())) + log_error("Line %u has invalid symbol position!\n", line_count); + + RTLIL::Wire* wire; + if (c == 'i') wire = inputs[l1]; + else if (c == 'l') wire = latches[l1]; + else if (c == 'o') wire = outputs[l1]; + else log_abort(); + + module->rename(wire, stringf("\\%s", s.c_str())); + } + else if (c == 'b' || c == 'j' || c == 'f') { + // TODO + } + else if (c == 'c') { + f.ignore(1); + if (f.peek() == '\n') + break; + // Else constraint (TODO) + } + else + log_error("Line %u: cannot interpret first character '%c'!\n", line_count, c); + std::getline(f, line); // Ignore up to start of next line + } + + dict<RTLIL::IdString, int> wideports_cache; + + if (!map_filename.empty()) { + std::ifstream mf(map_filename); + std::string type, symbol; + int variable, index; + while (mf >> type >> variable >> index >> symbol) { + RTLIL::IdString escaped_symbol = RTLIL::escape_id(symbol); + if (type == "input") { + log_assert(static_cast<unsigned>(variable) < inputs.size()); + RTLIL::Wire* wire = inputs[variable]; + log_assert(wire); + log_assert(wire->port_input); + + if (index == 0) + module->rename(wire, RTLIL::escape_id(symbol)); + else if (index > 0) { + module->rename(wire, RTLIL::escape_id(stringf("%s[%d]", symbol.c_str(), index))); + if (wideports) + wideports_cache[escaped_symbol] = std::max(wideports_cache[escaped_symbol], index); + } + } + else if (type == "output") { + log_assert(static_cast<unsigned>(variable) < outputs.size()); + RTLIL::Wire* wire = outputs[variable]; + log_assert(wire); + // Ignore direct output -> input connections + if (!wire->port_output) + continue; + log_assert(wire->port_output); + + if (index == 0) + module->rename(wire, RTLIL::escape_id(symbol)); + else if (index > 0) { + module->rename(wire, RTLIL::escape_id(stringf("%s[%d]", symbol.c_str(), index))); + if (wideports) + wideports_cache[escaped_symbol] = std::max(wideports_cache[escaped_symbol], index); + } + } + else + log_error("Symbol type '%s' not recognised.\n", type.c_str()); + } + } + + for (auto &wp : wideports_cache) { + auto name = wp.first; + int width = wp.second + 1; + + RTLIL::Wire *wire = module->wire(name); + if (wire) { + RTLIL::Cell* driver = module->cell(stringf("%s$lut", wire->name.c_str())); + + module->rename(wire, RTLIL::escape_id(stringf("%s[%d]", name.c_str(), 0))); + + if (driver) + module->rename(driver, stringf("%s$lut", wire->name.c_str())); + } + + // Do not make ports with a mix of input/output into + // wide ports + bool port_input = false, port_output = false; + for (int i = 0; i < width; i++) { + RTLIL::IdString other_name = name.str() + stringf("[%d]", i); + RTLIL::Wire *other_wire = module->wire(other_name); + if (other_wire) { + port_input = port_input || other_wire->port_input; + port_output = port_output || other_wire->port_output; + } + } + if ((port_input && port_output) || (!port_input && !port_output)) + continue; + + wire = module->addWire(name, width); + wire->port_input = port_input; + wire->port_output = port_output; + + for (int i = 0; i < width; i++) { + RTLIL::IdString other_name = name.str() + stringf("[%d]", i); + RTLIL::Wire *other_wire = module->wire(other_name); + if (other_wire) { + other_wire->port_input = false; + other_wire->port_output = false; + if (wire->port_input) + module->connect(other_wire, SigSpec(wire, i)); + else + module->connect(SigSpec(wire, i), other_wire); + } + } + } + + module->fixup_ports(); + design->add(module); + + Pass::call(design, "clean"); +} + +static uint32_t parse_xaiger_literal(std::istream &f) +{ + uint32_t l; + f.read(reinterpret_cast<char*>(&l), sizeof(l)); + if (f.gcount() != sizeof(l)) + log_error("Offset %ld: unable to read literal!\n", static_cast<int64_t>(f.tellg())); + // TODO: Don't assume we're on little endian +#ifdef _WIN32 + return _byteswap_ulong(l); +#else + return __builtin_bswap32(l); +#endif +} + +static RTLIL::Wire* createWireIfNotExists(RTLIL::Module *module, unsigned literal) +{ + const unsigned variable = literal >> 1; + const bool invert = literal & 1; + RTLIL::IdString wire_name(stringf("\\__%d%s__", variable, invert ? "b" : "")); // FIXME: is "b" the right suffix? + RTLIL::Wire *wire = module->wire(wire_name); + if (wire) return wire; + log_debug("Creating %s\n", wire_name.c_str()); + wire = module->addWire(wire_name); + wire->port_input = wire->port_output = false; + if (!invert) return wire; + RTLIL::IdString wire_inv_name(stringf("\\__%d__", variable)); + RTLIL::Wire *wire_inv = module->wire(wire_inv_name); + if (wire_inv) { + if (module->cell(wire_inv_name)) return wire; + } + else { + log_debug("Creating %s\n", wire_inv_name.c_str()); + wire_inv = module->addWire(wire_inv_name); + wire_inv->port_input = wire_inv->port_output = false; + } + + log_debug("Creating %s = ~%s\n", wire_name.c_str(), wire_inv_name.c_str()); + module->addNotGate(stringf("\\__%d__$not", variable), wire_inv, wire); // FIXME: is "$not" the right suffix? + + return wire; +} + +void AigerReader::parse_xaiger() +{ + std::string header; + f >> header; + if (header != "aag" && header != "aig") + log_error("Unsupported AIGER file!\n"); + + // Parse rest of header + if (!(f >> M >> I >> L >> O >> A)) + log_error("Invalid AIGER header\n"); + + // Optional values + B = C = J = F = 0; + + std::string line; + std::getline(f, line); // Ignore up to start of next line, as standard + // says anything that follows could be used for + // optional sections + + log_debug("M=%u I=%u L=%u O=%u A=%u\n", M, I, L, O, A); + + line_count = 1; + + if (header == "aag") + parse_aiger_ascii(); + else if (header == "aig") + parse_aiger_binary(); + else + log_abort(); + + // Parse footer (symbol table, comments, etc.) + unsigned l1; + std::string s; + bool comment_seen = false; + for (int c = f.peek(); c != EOF; c = f.peek()) { + if (comment_seen || c == 'c') { + if (!comment_seen) { + f.ignore(1); + c = f.peek(); + comment_seen = true; + } + if (c == '\n') + break; + f.ignore(1); + // XAIGER extensions + if (c == 'm') { + uint32_t dataSize = parse_xaiger_literal(f); + uint32_t lutNum = parse_xaiger_literal(f); + uint32_t lutSize = parse_xaiger_literal(f); + log_debug("m: dataSize=%u lutNum=%u lutSize=%u\n", dataSize, lutNum, lutSize); + ConstEval ce(module); + for (unsigned i = 0; i < lutNum; ++i) { + uint32_t rootNodeID = parse_xaiger_literal(f); + uint32_t cutLeavesM = parse_xaiger_literal(f); + log_debug("rootNodeID=%d cutLeavesM=%d\n", rootNodeID, cutLeavesM); + RTLIL::Wire *output_sig = module->wire(stringf("\\__%d__", rootNodeID)); + uint32_t nodeID; + RTLIL::SigSpec input_sig; + for (unsigned j = 0; j < cutLeavesM; ++j) { + nodeID = parse_xaiger_literal(f); + log_debug("\t%u\n", nodeID); + RTLIL::Wire *wire = module->wire(stringf("\\__%d__", nodeID)); + log_assert(wire); + input_sig.append(wire); + } + RTLIL::Const lut_mask(RTLIL::State::Sx, 1 << input_sig.size()); + for (int j = 0; j < (1 << cutLeavesM); ++j) { + ce.push(); + ce.set(input_sig, RTLIL::Const{j, static_cast<int>(cutLeavesM)}); + RTLIL::SigSpec o(output_sig); + ce.eval(o); + lut_mask[j] = o.as_const()[0]; + ce.pop(); + } + RTLIL::Cell *output_cell = module->cell(stringf("\\__%d__$and", rootNodeID)); + log_assert(output_cell); + module->remove(output_cell); + module->addLut(stringf("\\__%d__$lut", rootNodeID), input_sig, output_sig, std::move(lut_mask)); + } + } + else if (c == 'n') { + parse_xaiger_literal(f); + f >> s; + log_debug("n: '%s'\n", s.c_str()); + } + } + else if (c == 'i' || c == 'l' || c == 'o') { + f.ignore(1); + if (!(f >> l1 >> s)) + log_error("Line %u cannot be interpreted as a symbol entry!\n", line_count); + + if ((c == 'i' && l1 > inputs.size()) || (c == 'l' && l1 > latches.size()) || (c == 'o' && l1 > outputs.size())) + log_error("Line %u has invalid symbol position!\n", line_count); + + RTLIL::Wire* wire; + if (c == 'i') wire = inputs[l1]; + else if (c == 'l') wire = latches[l1]; + else if (c == 'o') wire = outputs[l1]; + else log_abort(); + + module->rename(wire, stringf("\\%s", s.c_str())); + + RTLIL::Cell* driver = module->cell(stringf("%s$lut", wire->name.c_str())); + module->rename(driver, stringf("%s$lut", wire->name.c_str())); + + std::getline(f, line); // Ignore up to start of next line + ++line_count; + } + else + log_error("Line %u: cannot interpret first character '%c'!\n", line_count, c); + } + + dict<RTLIL::IdString, int> wideports_cache; + + if (!map_filename.empty()) { + std::ifstream mf(map_filename); + std::string type, symbol; + int variable, index; + while (mf >> type >> variable >> index >> symbol) { + RTLIL::IdString escaped_symbol = RTLIL::escape_id(symbol); + if (type == "input") { + log_assert(static_cast<unsigned>(variable) < inputs.size()); + RTLIL::Wire* wire = inputs[variable]; + log_assert(wire); + log_assert(wire->port_input); + + if (index == 0) + module->rename(wire, RTLIL::escape_id(symbol)); + else if (index > 0) { + module->rename(wire, RTLIL::escape_id(stringf("%s[%d]", symbol.c_str(), index))); + if (wideports) + wideports_cache[escaped_symbol] = std::max(wideports_cache[escaped_symbol], index); + } + } + else if (type == "output") { + log_assert(static_cast<unsigned>(variable) < outputs.size()); + RTLIL::Wire* wire = outputs[variable]; + log_assert(wire); + log_assert(wire->port_output); + + RTLIL::Cell* driver = module->cell(stringf("%s$lut", wire->name.c_str())); + + if (index == 0) + module->rename(wire, RTLIL::escape_id(symbol)); + else if (index > 0) { + module->rename(wire, RTLIL::escape_id(stringf("%s[%d]", symbol.c_str(), index))); + if (wideports) + wideports_cache[escaped_symbol] = std::max(wideports_cache[escaped_symbol], index); + } + + if (driver) + module->rename(driver, stringf("%s$lut", wire->name.c_str())); + } + else + log_error("Symbol type '%s' not recognised.\n", type.c_str()); + } + } + + for (auto &wp : wideports_cache) { + auto name = wp.first; + int width = wp.second + 1; + + RTLIL::Wire *wire = module->wire(name); + if (wire) { + RTLIL::Cell* driver = module->cell(stringf("%s$lut", wire->name.c_str())); + + module->rename(wire, RTLIL::escape_id(stringf("%s[%d]", name.c_str(), 0))); + + if (driver) + module->rename(driver, stringf("%s$lut", wire->name.c_str())); + } + + // Do not make ports with a mix of input/output into + // wide ports + bool port_input = false, port_output = false; + for (int i = 0; i < width; i++) { + RTLIL::IdString other_name = name.str() + stringf("[%d]", i); + RTLIL::Wire *other_wire = module->wire(other_name); + if (other_wire) { + port_input = port_input || other_wire->port_input; + port_output = port_output || other_wire->port_output; + } + } + if ((port_input && port_output) || (!port_input && !port_output)) + continue; + + wire = module->addWire(name, width); + wire->port_input = port_input; + wire->port_output = port_output; + + for (int i = 0; i < width; i++) { + RTLIL::IdString other_name = name.str() + stringf("[%d]", i); + RTLIL::Wire *other_wire = module->wire(other_name); + if (other_wire) { + other_wire->port_input = false; + other_wire->port_output = false; + if (wire->port_input) + module->connect(other_wire, SigSpec(wire, i)); + else + module->connect(SigSpec(wire, i), other_wire); + } + } + } + + module->fixup_ports(); + design->add(module); + + Pass::call(design, "clean"); +} + +void AigerReader::parse_aiger_ascii() +{ + std::string line; + std::stringstream ss; + + unsigned l1, l2, l3; + + // Parse inputs + for (unsigned i = 0; i < I; ++i, ++line_count) { + if (!(f >> l1)) + log_error("Line %u cannot be interpreted as an input!\n", line_count); + log_debug("%d is an input\n", l1); + log_assert(!(l1 & 1)); // TODO: Inputs can't be inverted? + RTLIL::Wire *wire = createWireIfNotExists(module, l1); + wire->port_input = true; + inputs.push_back(wire); + } + + // Parse latches + RTLIL::Wire *clk_wire = nullptr; + if (L > 0) { + clk_wire = module->wire(clk_name); + log_assert(!clk_wire); + log_debug("Creating %s\n", clk_name.c_str()); + clk_wire = module->addWire(clk_name); + clk_wire->port_input = true; + clk_wire->port_output = false; + } + for (unsigned i = 0; i < L; ++i, ++line_count) { + if (!(f >> l1 >> l2)) + log_error("Line %u cannot be interpreted as a latch!\n", line_count); + log_debug("%d %d is a latch\n", l1, l2); + log_assert(!(l1 & 1)); // TODO: Latch outputs can't be inverted? + RTLIL::Wire *q_wire = createWireIfNotExists(module, l1); + RTLIL::Wire *d_wire = createWireIfNotExists(module, l2); + + module->addDffGate(NEW_ID, clk_wire, d_wire, q_wire); + + // Reset logic is optional in AIGER 1.9 + if (f.peek() == ' ') { + if (!(f >> l3)) + log_error("Line %u cannot be interpreted as a latch!\n", line_count); + + if (l3 == 0 || l3 == 1) + q_wire->attributes["\\init"] = RTLIL::Const(l3); + else if (l3 == l1) { + //q_wire->attributes["\\init"] = RTLIL::Const(RTLIL::State::Sx); + } + else + log_error("Line %u has invalid reset literal for latch!\n", line_count); + } + else { + // AIGER latches are assumed to be initialized to zero + q_wire->attributes["\\init"] = RTLIL::Const(0); + } + latches.push_back(q_wire); + } + + // Parse outputs + for (unsigned i = 0; i < O; ++i, ++line_count) { + if (!(f >> l1)) + log_error("Line %u cannot be interpreted as an output!\n", line_count); + + RTLIL::Wire *wire; + if (l1 == 0 || l1 == 1) { + wire = module->addWire(NEW_ID); + if (l1 == 0) + module->connect(wire, RTLIL::State::S0); + else if (l1 == 1) + module->connect(wire, RTLIL::State::S1); + else + log_abort(); + } + else { + log_debug("%d is an output\n", l1); + const unsigned variable = l1 >> 1; + const bool invert = l1 & 1; + RTLIL::IdString wire_name(stringf("\\__%d%s__", variable, invert ? "b" : "")); // FIXME: is "b" the right suffix? + wire = module->wire(wire_name); + if (!wire) + wire = createWireIfNotExists(module, l1); + else { + if ((wire->port_input || wire->port_output)) { + RTLIL::Wire *new_wire = module->addWire(NEW_ID); + module->connect(new_wire, wire); + wire = new_wire; + } + } + } + wire->port_output = true; + outputs.push_back(wire); + } + std::getline(f, line); // Ignore up to start of next line + + // TODO: Parse bad state properties + for (unsigned i = 0; i < B; ++i, ++line_count) + std::getline(f, line); // Ignore up to start of next line + + // TODO: Parse invariant constraints + for (unsigned i = 0; i < C; ++i, ++line_count) + std::getline(f, line); // Ignore up to start of next line + + // TODO: Parse justice properties + for (unsigned i = 0; i < J; ++i, ++line_count) + std::getline(f, line); // Ignore up to start of next line + + // TODO: Parse fairness constraints + for (unsigned i = 0; i < F; ++i, ++line_count) + std::getline(f, line); // Ignore up to start of next line + + // Parse AND + for (unsigned i = 0; i < A; ++i) { + if (!(f >> l1 >> l2 >> l3)) + log_error("Line %u cannot be interpreted as an AND!\n", line_count); + + log_debug("%d %d %d is an AND\n", l1, l2, l3); + log_assert(!(l1 & 1)); + RTLIL::Wire *o_wire = createWireIfNotExists(module, l1); + RTLIL::Wire *i1_wire = createWireIfNotExists(module, l2); + RTLIL::Wire *i2_wire = createWireIfNotExists(module, l3); + module->addAndGate(o_wire->name.str() + "$and", i1_wire, i2_wire, o_wire); + } + std::getline(f, line); +} + +static unsigned parse_next_delta_literal(std::istream &f, unsigned ref) +{ + unsigned x = 0, i = 0; + unsigned char ch; + while ((ch = f.get()) & 0x80) + x |= (ch & 0x7f) << (7 * i++); + return ref - (x | (ch << (7 * i))); +} + +void AigerReader::parse_aiger_binary() +{ + unsigned l1, l2, l3; + std::string line; + + // Parse inputs + for (unsigned i = 1; i <= I; ++i) { + log_debug("%d is an input\n", i); + RTLIL::Wire *wire = createWireIfNotExists(module, i << 1); + wire->port_input = true; + log_assert(!wire->port_output); + inputs.push_back(wire); + } + + // Parse latches + RTLIL::Wire *clk_wire = nullptr; + if (L > 0) { + clk_wire = module->wire(clk_name); + log_assert(!clk_wire); + log_debug("Creating %s\n", clk_name.c_str()); + clk_wire = module->addWire(clk_name); + clk_wire->port_input = true; + clk_wire->port_output = false; + } + l1 = (I+1) * 2; + for (unsigned i = 0; i < L; ++i, ++line_count, l1 += 2) { + if (!(f >> l2)) + log_error("Line %u cannot be interpreted as a latch!\n", line_count); + log_debug("%d %d is a latch\n", l1, l2); + RTLIL::Wire *q_wire = createWireIfNotExists(module, l1); + RTLIL::Wire *d_wire = createWireIfNotExists(module, l2); + + module->addDff(NEW_ID, clk_wire, d_wire, q_wire); + + // Reset logic is optional in AIGER 1.9 + if (f.peek() == ' ') { + if (!(f >> l3)) + log_error("Line %u cannot be interpreted as a latch!\n", line_count); + + if (l3 == 0 || l3 == 1) + q_wire->attributes["\\init"] = RTLIL::Const(l3); + else if (l3 == l1) { + //q_wire->attributes["\\init"] = RTLIL::Const(RTLIL::State::Sx); + } + else + log_error("Line %u has invalid reset literal for latch!\n", line_count); + } + else { + // AIGER latches are assumed to be initialized to zero + q_wire->attributes["\\init"] = RTLIL::Const(0); + } + latches.push_back(q_wire); + } + + // Parse outputs + for (unsigned i = 0; i < O; ++i, ++line_count) { + if (!(f >> l1)) + log_error("Line %u cannot be interpreted as an output!\n", line_count); + + RTLIL::Wire *wire; + if (l1 == 0 || l1 == 1) { + wire = module->addWire(NEW_ID); + if (l1 == 0) + module->connect(wire, RTLIL::State::S0); + else if (l1 == 1) + module->connect(wire, RTLIL::State::S1); + else + log_abort(); + } + else { + log_debug("%d is an output\n", l1); + const unsigned variable = l1 >> 1; + const bool invert = l1 & 1; + RTLIL::IdString wire_name(stringf("\\__%d%s__", variable, invert ? "b" : "")); // FIXME: is "_inv" the right suffix? + wire = module->wire(wire_name); + if (!wire) + wire = createWireIfNotExists(module, l1); + else { + if ((wire->port_input || wire->port_output)) { + RTLIL::Wire *new_wire = module->addWire(NEW_ID); + module->connect(new_wire, wire); + wire = new_wire; + } + } + } + wire->port_output = true; + outputs.push_back(wire); + } + std::getline(f, line); // Ignore up to start of next line + + // TODO: Parse bad state properties + for (unsigned i = 0; i < B; ++i, ++line_count) + std::getline(f, line); // Ignore up to start of next line + + // TODO: Parse invariant constraints + for (unsigned i = 0; i < C; ++i, ++line_count) + std::getline(f, line); // Ignore up to start of next line + + // TODO: Parse justice properties + for (unsigned i = 0; i < J; ++i, ++line_count) + std::getline(f, line); // Ignore up to start of next line + + // TODO: Parse fairness constraints + for (unsigned i = 0; i < F; ++i, ++line_count) + std::getline(f, line); // Ignore up to start of next line + + // Parse AND + l1 = (I+L+1) << 1; + for (unsigned i = 0; i < A; ++i, ++line_count, l1 += 2) { + l2 = parse_next_delta_literal(f, l1); + l3 = parse_next_delta_literal(f, l2); + + log_debug("%d %d %d is an AND\n", l1, l2, l3); + log_assert(!(l1 & 1)); + RTLIL::Wire *o_wire = createWireIfNotExists(module, l1); + RTLIL::Wire *i1_wire = createWireIfNotExists(module, l2); + RTLIL::Wire *i2_wire = createWireIfNotExists(module, l3); + module->addAndGate(o_wire->name.str() + "$and", i1_wire, i2_wire, o_wire); + } +} + +struct AigerFrontend : public Frontend { + AigerFrontend() : Frontend("aiger", "read AIGER file") { } + void help() YS_OVERRIDE + { + // |---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---|---v---| + log("\n"); + log(" read_aiger [options] [filename]\n"); + log("\n"); + log("Load module from an AIGER file into the current design.\n"); + log("\n"); + log(" -module_name <module_name>\n"); + log(" Name of module to be created (default: <filename>)\n"); + log("\n"); + log(" -clk_name <wire_name>\n"); + log(" AIGER latches to be transformed into posedge DFFs clocked by wire of"); + log(" this name (default: clk)\n"); + log("\n"); + log(" -map <filename>\n"); + log(" read file with port and latch symbols\n"); + log("\n"); + log(" -wideports\n"); + log(" Merge ports that match the pattern 'name[int]' into a single\n"); + log(" multi-bit port 'name'.\n"); + log("\n"); + } + void execute(std::istream *&f, std::string filename, std::vector<std::string> args, RTLIL::Design *design) YS_OVERRIDE + { + log_header(design, "Executing AIGER frontend.\n"); + + RTLIL::IdString clk_name = "\\clk"; + RTLIL::IdString module_name; + std::string map_filename; + bool wideports = false; + + size_t argidx; + for (argidx = 1; argidx < args.size(); argidx++) { + std::string arg = args[argidx]; + if (arg == "-module_name" && argidx+1 < args.size()) { + module_name = RTLIL::escape_id(args[++argidx]); + continue; + } + if (arg == "-clk_name" && argidx+1 < args.size()) { + clk_name = RTLIL::escape_id(args[++argidx]); + continue; + } + if (map_filename.empty() && arg == "-map" && argidx+1 < args.size()) { + map_filename = args[++argidx]; + continue; + } + if (arg == "-wideports") { + wideports = true; + continue; + } + break; + } + extra_args(f, filename, args, argidx); + + if (module_name.empty()) { +#ifdef _WIN32 + char fname[_MAX_FNAME]; + _splitpath(filename.c_str(), NULL /* drive */, NULL /* dir */, fname, NULL /* ext */) + module_name = fname; +#else + module_name = RTLIL::escape_id(basename(filename.c_str())); +#endif + } + + AigerReader reader(design, *f, module_name, clk_name, map_filename, wideports); + reader.parse_aiger(); + } +} AigerFrontend; + +YOSYS_NAMESPACE_END |