#!/usr/bin/env python3
import re
import sys
import pprint
import getopt
pp = pprint.PrettyPrinter(indent=4)
prefix = None
pmgfiles = list()
outfile = None
debug = False
genhdr = False
opts, args = getopt.getopt(sys.argv[1:], "p:o:dg")
for o, a in opts:
if o == "-p":
prefix = a
elif o == "-o":
outfile = a
elif o == "-d":
debug = True
elif o == "-g":
genhdr = True
if outfile is None:
outfile = "/dev/stdout"
for a in args:
assert a.endswith(".pmg")
if prefix is None and len(args) == 1:
prefix = a[0:-4]
prefix = prefix.split('/')[-1]
pmgfiles.append(a)
assert prefix is not None
current_pattern = None
current_subpattern = None
patterns = dict()
subpatterns = dict()
subpattern_args = dict()
state_types = dict()
udata_types = dict()
blocks = list()
ids = dict()
def rewrite_cpp(s):
t = list()
i = 0
while i < len(s):
if s[i] in ("'", '"') and i + 1 < len(s):
j = i + 1
while j + 1 < len(s) and s[j] != s[i]:
if s[j] == '\\' and j + 1 < len(s):
j += 1
j += 1
t.append(s[i:j+1])
i = j + 1
continue
if s[i] in ('$', '\\') and i + 1 < len(s):
j = i + 1
while True:
if j == len(s):
j -= 1
break
if ord('a') <= ord(s[j]) <= ord('z'):
j += 1
continue
if ord('A') <= ord(s[j]) <= ord('Z'):
j += 1
continue
if ord('0') <= ord(s[j]) <= ord('9'):
j += 1
continue
if s[j] == '_':
j += 1
continue
j -= 1
break
n = s[i:j+1]
i = j + 1
if n[0] == '$':
v = "id_d_" + n[1:]
else:
v = "id_b_" + n[1:]
if v not in ids:
ids[v] = n
else:
assert ids[v] == n
t.append(v)
continue
if s[i] == "\t":
t.append(" ")
else:
t.append(s[i])
i += 1
return "".join(t)
def process_pmgfile(f, filename):
linenr = 0
global current_pattern
global current_subpattern
while True:
linenr += 1
line = f.readline()
if line == "": break
line = line.strip()
cmd = line.split()
if len(cmd) == 0 or cmd[0].startswith("//"): continue
cmd = cmd[0]
if cmd == "pattern":
if current_pattern is not None:
block = dict()
block["type"] = "final"
block["pattern"] = (current_pattern, current_subpattern)
blocks.append(block)
line = line.split()
assert len(line) == 2
assert line[1] not in patterns
current_pattern = line[1]
current_subpattern = ""
patterns[current_pattern] = len(blocks)
subpatterns[(current_pattern, current_subpattern)] = len(blocks)
subpattern_args[(current_pattern, current_subpattern)] = list()
state_types[current_pattern] = dict()
udata_types[current_pattern] = dict()
continue
assert current_pattern is not None
if cmd == "fallthrough":
block = dict()
block["type"] = "fallthrough"
blocks.append(block)
line = line.split()
assert len(line) == 1
continue
if cmd == "subpattern":
if len(blocks) == 0 or blocks[-1]["type"] != "fallthrough":
block = dict()
block["type"] = "final"
block["pattern"] = (current_pattern, current_subpattern)
blocks.append(block)
elif len(blocks) and blocks[-1]["type"] == "fallthrough":
del blocks[-1]
line = line.split()
assert len(line) == 2
current_subpattern = line[1]
subpattern_args[(current_pattern, current_subpattern)] = list()
assert (current_pattern, current_subpattern) not in subpatterns
subpatterns[(current_pattern, current_subpattern)] = len(blocks)
continue
if cmd == "arg":
line = line.split()
assert len(line) > 1
subpattern_args[(current_pattern, current_subpattern)] += line[1:]
continue
if cmd == "state":
m = re.match(r"^state\s+<(.*?)>\s+(([A-Za-z_][A-Za-z_0-9]*\s+)*[A-Za-z_][A-Za-z_0-9]*)\s*$", line)
assert m
type_str = m.group(1)
states_str = m.group(2)
for s in re.split(r"\s+", states_str):
assert s not in state_types[current_pattern]
state_types[current_pattern][s] = type_str
continue
if cmd == "udata":
m = re.match(r"^udata\s+<(.*?)>\s+(([A-Za-z_][A-Za-z_0-9]*\s+)*[A-Za-z_][A-Za-z_0-9]*)\s*$", line)
assert m
type_str = m.group(1)
udatas_str = m.group(2)
for s in re.split(r"\s+", udatas_str):
assert s not in udata_types[current_pattern]
udata_types[current_pattern][s] = type_str
continue
if cmd == "match":
block = dict()
block["type"] = "match"
block["src"] = "%s:%d" % (filename, linenr)
block["pattern"] = (current_pattern, current_subpattern)
block["genargs"] = None
block["gencode"] = None
line = line.split()
assert len(line) == 2
assert (line[1] not in state_types[current_pattern]) or (state_types[current_pattern][line[1]] == "Cell*")
block["cell"] = line[1]
state_types[current_pattern][line[1]] = "Cell*";
block["if"] = list()
block["setup"] = list()
block["index"] = list()
block["filter"] = list()
block["sets"] = list()
block["optional"] = False
block["semioptional"] = False
while True:
linenr += 1
l = f.readline()
assert l != ""
a = l.split()
if len(a) == 0 or a[0].startswith("//"): continue
if a[0] == "endmatch": break
if a[0] == "if":
b = l.lstrip()[2:]
block["if"].append(rewrite_cpp(b.strip()))
continue
if a[0] == "select":
b = l.lstrip()[6:]
block["setup"].append(("select", rewrite_cpp(b.strip())))
continue
if a[0] == "slice":
m = re.match(r"^\s*slice\s+(\S+)\s+(.*?)\s*$", l)
block["setup"].append(("slice", m.group(1), rewrite_cpp(m.group(2))))
continue
if a[0] == "choice":
m = re.match(r"^\s*choice\s+<(.*?)>\s+(\S+)\s+(.*?)\s*$", l)
block["setup"].append(("choice", m.group(1), m.group(2), rewrite_cpp(m.group(3))))
continue
if a[0] == "define":
m = re.match(r"^\s*define\s+<(.*?)>\s+(\S+)\s+(.*?)\s*$", l)
block["setup"].append(("define", m.group(1), m.group(2), rewrite_cpp(m.group(3))))
continue
if a[0] == "index":
m = re.match(r"^\s*index\s+<(.*?)>\s+(.*?)\s*===\s*(.*?)\s*$", l)
assert m
block["index"].append((m.group(1), rewrite_cpp(m.group(2)), rewrite_cpp(m.group(3))))
continue
if a[0] == "filter":
b = l.lstrip()[6:]
block["filter"].append(rewrite_cpp(b.strip()))
continue
if a[0] == "set":
m = re.match(r"^\s*set\s+(\S+)\s+(.*?)\s*$", l)
block["sets"].append((m.group(1), rewrite_cpp(m.group(2))))
continue
if a[0] == "optional":
block["optional"] = True
continue
if a[0] == "semioptional":
block["semioptional"] = True
continue
if a[0] == "generate":
block["genargs"] = list([int(s) for s in a[1:]])
if len(block["genargs"]) == 0: block["genargs"].append(100)
if len(block["genargs"]) == 1: block["genargs"].append(0)
assert len(block["genargs"]) == 2
block["gencode"] = list()
while True:
linenr += 1
l = f.readline()
assert l != ""
a = l.split()
if len(a) == 1 and a[0] == "endmatch": break
block["gencode"].append(rewrite_cpp(l.rstrip()))
break
raise RuntimeError("'%s' statement not recognised on line %d" % (a[0], linenr))
if block["optional"]:
assert not block["semioptional"]
blocks.append(block)
continue
if cmd == "code":
block = dict()
block["type"] = "code"
block["src"] = "%s:%d" % (filename, linenr)
block["pattern"] = (current_pattern, current_subpattern)
block["code"] = list()
block["fcode"] = list()
block["states"] = set()
for s in line.split()[1:]:
if s not in state_types[current_pattern]:
raise RuntimeError("'%s' not in state_types" % s)
block["states"].add(s)
codetype = "code"
while True:
linenr += 1
l = f.readline()
assert l != ""
a = l.split()
if len(a) == 0: continue
if a[0] == "endcode": break
if a[0] == "finally":
codetype = "fcode"
continue
block[codetype].append(rewrite_cpp(l.rstrip()))
blocks.append(block)
continue
raise RuntimeError("'%s' command not recognised" % cmd)
for fn in pmgfiles:
with open(fn, "r") as f:
process_pmgfile(f, fn)
if current_pattern is not None:
block = dict()
block["type"] = "final"
block["pattern"] = (current_pattern, current_subpattern)
blocks.append(block)
current_pattern = None
current_subpattern = None
if debug:
pp.pprint(blocks)
with open(outfile, "w") as f:
for fn in pmgfiles:
print("// Generated by pmgen.py from {}".format(fn), file=f)
print("", file=f)
if genhdr:
print("#include \"kernel/yosys.h\"", file=f)
print("#include \"kernel/sigtools.h\"", file=f)
print("", file=f)
print("YOSYS_NAMESPACE_BEGIN", file=f)
print("", file=f)
print("struct {}_pm {{".format(prefix), file=f)
print(" Module *module;", file=f)
print(" SigMap sigmap;", file=f)
print(" std::function<void()> on_accept;", file=f)
print(" bool setup_done;", file=f)
print(" bool generate_mode;", file=f)
print(" int accept_cnt;", file=f)
print("", file=f)
print(" uint32_t rngseed;", file=f)
print(" int rng(unsigned int n) {", file=f)
print(" rngseed ^= rngseed << 13;", file=f)
print(" rngseed ^= rngseed >> 17;", file=f)
print(" rngseed ^= rngseed << 5;", file=f)
print(" return rngseed % n;", file=f)
print(" }", file=f)
print("", file=f)
for index in range(len(blocks)):
block = blocks[index]
if block["type"] == "match":
index_types = list()
for entry in block["index"]:
index_types.append(entry[0])
value_types = ["Cell*"]
for entry in block["setup"]:
if entry[0] == "slice":
value_types.append("int")
if entry[0] == "choice":
value_types.append(entry[1])
if entry[0] == "define":
value_types.append(entry[1])
print(" typedef std::tuple<{}> index_{}_key_type;".format(", ".join(index_types), index), file=f)
print(" typedef std::tuple<{}> index_{}_value_type;".format(", ".join(value_types), index), file=f)
print(" dict<index_{}_key_type, vector<index_{}_value_type>> index_{};".format(index, index, index), file=f)
print(" dict<SigBit, pool<Cell*>> sigusers;", file=f)
print(" pool<Cell*> blacklist_cells;", file=f)
print(" pool<Cell*> autoremove_cells;", file=f)
print(" dict<Cell*,int> rollback_cache;", file=f)
print(" int rollback;", file=f)
print("", file=f)
for current_pattern in sorted(patterns.keys()):
print(" struct state_{}_t {{".format(current_pattern), file=f)
for s, t in sorted(state_types[current_pattern].items()):
print(" {} {};".format(t, s), file=f)
print(" }} st_{};".format(current_pattern), file=f)
print("", file=f)
print(" struct udata_{}_t {{".format(current_pattern), file=f)
for s, t in sorted(udata_types[current_pattern].items()):
print(" {} {};".format(t, s), file=f)
print(" }} ud_{};".format(current_pattern), file=f)
print("", file=f)
current_pattern = None
for v, n in sorted(ids.items()):
if n[0] == "\\":
print(" IdString {}{{\"\\{}\"}};".format(v, n), file=f)
else:
print(" IdString {}{{\"{}\"}};".format(v, n), file=f)
print("", file=f)
print(" void add_siguser(const SigSpec &sig, Cell *cell) {", file=f)
print(" for (auto bit : sigmap(sig)) {", file=f)
print(" if (bit.wire == nullptr) continue;", file=f)
print(" sigusers[bit].insert(cell);", file=f)
print(" }", file=f)
print(" }", file=f)
print("", file=f)
print(" void blacklist(Cell *cell) {", file=f)
print(" if (cell != nullptr && blacklist_cells.insert(cell).second) {", file=f)
print(" auto ptr = rollback_cache.find(cell);", file=f)
print(" if (ptr == rollback_cache.end()) return;", file=f)
print(" int rb = ptr->second;", file=f)
print(" if (rollback == 0 || rollback > rb)", file=f)
print(" rollback = rb;", file=f)
print(" }", file=f)
print(" }", file=f)
print("", file=f)
print(" void autoremove(Cell *cell) {", file=f)
print(" if (cell != nullptr) {", file=f)
print(" autoremove_cells.insert(cell);", file=f)
print(" blacklist(cell);", file=f)
print(" }", file=f)
print(" }", file=f)
print("", file=f)
current_pattern = None
print(" SigSpec port(Cell *cell, IdString portname) {", file=f)
print(" try {", file=f)
print(" return sigmap(cell->getPort(portname));", file=f)
print(" } catch(std::out_of_range&) { log_error(\"Accessing non existing port %s\\n\",portname.c_str()); }", file=f)
print(" }", file=f)
print("", file=f)
print(" SigSpec port(Cell *cell, IdString portname, const SigSpec& defval) {", file=f)
print(" return sigmap(cell->connections_.at(portname, defval));", file=f)
print(" }", file=f)
print("", file=f)
print(" Const param(Cell *cell, IdString paramname) {", file=f)
print(" try {", file=f)
print(" return cell->getParam(paramname);", file=f)
print(" } catch(std::out_of_range&) { log_error(\"Accessing non existing parameter %s\\n\",paramname.c_str()); }", file=f)
print(" }", file=f)
print("", file=f)
print(" Const param(Cell *cell, IdString paramname, const Const& defval) {", file=f)
print(" return cell->parameters.at(paramname, defval);", file=f)
print(" }", file=f)
print("", file=f)
print(" int nusers(const SigSpec &sig) {", file=f)
print(" pool<Cell*> users;", file=f)
print(" for (auto bit : sigmap(sig))", file=f)
print(" for (auto user : sigusers[bit])", file=f)
print(" users.insert(user);", file=f)
print(" return GetSize(users);", file=f)
print(" }", file=f)
print("", file=f)
print(" {}_pm(Module *module, const vector<Cell*> &cells) :".format(prefix), file=f)
print(" module(module), sigmap(module), setup_done(false), generate_mode(false), rngseed(12345678) {", file=f)
print(" setup(cells);", file=f)
print(" }", file=f)
print("", file=f)
print(" {}_pm(Module *module) :".format(prefix), file=f)
print(" module(module), sigmap(module), setup_done(false), generate_mode(false), rngseed(12345678) {", file=f)
print(" }", file=f)
print("", file=f)
print(" void setup(const vector<Cell*> &cells) {", file=f)
for current_pattern in sorted(patterns.keys()):
for s, t in sorted(udata_types[current_pattern].items()):
if t.endswith("*"):
print(" ud_{}.{} = nullptr;".format(current_pattern,s), file=f)
else:
print(" ud_{}.{} = {}();".format(current_pattern, s, t), file=f)
current_pattern = None
print(" log_assert(!setup_done);", file=f)
print(" setup_done = true;", file=f)
print(" for (auto port : module->ports)", file=f)
print(" add_siguser(module->wire(port), nullptr);", file=f)
print(" for (auto cell : module->cells())", file=f)
print(" for (auto &conn : cell->connections())", file=f)
print(" add_siguser(conn.second, cell);", file=f)
print(" for (auto cell : cells) {", file=f)
for index in range(len(blocks)):
block = blocks[index]
if block["type"] == "match":
print(" do {", file=f)
print(" Cell *{} = cell;".format(block["cell"]), file=f)
print(" index_{}_value_type value;".format(index), file=f)
print(" std::get<0>(value) = cell;", file=f)
loopcnt = 0
valueidx = 1
for item in block["setup"]:
if item[0] == "select":
print(" if (!({})) continue;".format(item[1]), file=f)
if item[0] == "slice":
print(" int &{} = std::get<{}>(value);".format(item[1], valueidx), file=f)
print(" for ({} = 0; {} < {}; {}++) {{".format(item[1], item[1], item[2], item[1]), file=f)
valueidx += 1
loopcnt += 1
if item[0] == "choice":
print(" vector<{}> _pmg_choices_{} = {};".format(item[1], item[2], item[3]), file=f)
print(" for (const {} &{} : _pmg_choices_{}) {{".format(item[1], item[2], item[2]), file=f)
print(" std::get<{}>(value) = {};".format(valueidx, item[2]), file=f)
valueidx += 1
loopcnt += 1
if item[0] == "define":
print(" {} &{} = std::get<{}>(value);".format(item[1], item[2], valueidx), file=f)
print(" {} = {};".format(item[2], item[3]), file=f)
valueidx += 1
print(" index_{}_key_type key;".format(index), file=f)
for field, entry in enumerate(block["index"]):
print(" std::get<{}>(key) = {};".format(field, entry[1]), file=f)
print(" index_{}[key].push_back(value);".format(index), file=f)
for i in range(loopcnt):
print(" }", file=f)
print(" } while (0);", file=f)
print(" }", file=f)
print(" }", file=f)
print("", file=f)
print(" ~{}_pm() {{".format(prefix), file=f)
print(" for (auto cell : autoremove_cells)", file=f)
print(" module->remove(cell);", file=f)
print(" }", file=f)
print("", file=f)
for current_pattern in sorted(patterns.keys()):
print(" int run_{}(std::function<void()> on_accept_f) {{".format(current_pattern), file=f)
print(" log_assert(setup_done);", file=f)
print(" accept_cnt = 0;", file=f)
print(" on_accept = on_accept_f;", file=f)
print(" rollback = 0;", file=f)
for s, t in sorted(state_types[current_pattern].items()):
if t.endswith("*"):
print(" st_{}.{} = nullptr;".format(current_pattern, s), file=f)
else:
print(" st_{}.{} = {}();".format(current_pattern, s, t), file=f)
print(" block_{}(1);".format(patterns[current_pattern]), file=f)
print(" log_assert(rollback_cache.empty());", file=f)
print(" return accept_cnt;", file=f)
print(" }", file=f)
print("", file=f)
print(" int run_{}(std::function<void({}_pm&)> on_accept_f) {{".format(current_pattern, prefix), file=f)
print(" return run_{}([&](){{on_accept_f(*this);}});".format(current_pattern), file=f)
print(" }", file=f)
print("", file=f)
print(" int run_{}() {{".format(current_pattern), file=f)
print(" return run_{}([](){{}});".format(current_pattern, current_pattern), file=f)
print(" }", file=f)
print("", file=f)
if len(subpatterns):
for p, s in sorted(subpatterns.keys()):
print(" void block_subpattern_{}_{}(int recursion) {{ block_{}(recursion); }}".format(p, s, subpatterns[(p, s)]), file=f)
print("", file=f)
current_pattern = None
current_subpattern = None
for index in range(len(blocks)):
block = blocks[index]
if block["type"] in ("match", "code"):
print(" // {}".format(block["src"]), file=f)
print(" void block_{}(int recursion YS_MAYBE_UNUSED) {{".format(index), file=f)
current_pattern, current_subpattern = block["pattern"]
if block["type"] == "final":
print(" }", file=f)
if index+1 != len(blocks):
print("", file=f)
continue
const_st = set()
nonconst_st = set()
restore_st = set()
for s in subpattern_args[(current_pattern, current_subpattern)]:
const_st.add(s)
for i in range(subpatterns[(current_pattern, current_subpattern)], index):
if blocks[i]["type"] == "code":
for s in blocks[i]["states"]:
const_st.add(s)
elif blocks[i]["type"] == "match":
const_st.add(blocks[i]["cell"])
for item in blocks[i]["sets"]:
const_st.add(item[0])
else:
assert False
if block["type"] == "code":
for s in block["states"]:
if s in const_st:
const_st.remove(s)
restore_st.add(s)
nonconst_st.add(s)
elif block["type"] == "match":
s = block["cell"]
assert s not in const_st
nonconst_st.add(s)
for item in block["sets"]:
if item[0] in const_st:
const_st.remove(item[0])
nonconst_st.add(item[0])
else:
assert False
for s in sorted(const_st):
t = state_types[current_pattern][s]
if t.endswith("*"):
print(" {} const &{} YS_MAYBE_UNUSED = st_{}.{};".format(t, s, current_pattern, s), file=f)
else:
print(" const {} &{} YS_MAYBE_UNUSED = st_{}.{};".format(t, s, current_pattern, s), file=f)
for s in sorted(nonconst_st):
t = state_types[current_pattern][s]
print(" {} &{} YS_MAYBE_UNUSED = st_{}.{};".format(t, s, current_pattern, s), file=f)
for u in sorted(udata_types[current_pattern].keys()):
t = udata_types[current_pattern][u]
print(" {} &{} YS_MAYBE_UNUSED = ud_{}.{};".format(t, u, current_pattern, u), file=f)
if len(restore_st):
print("", file=f)
for s in sorted(restore_st):
t = state_types[current_pattern][s]
print(" {} _pmg_backup_{} = {};".format(t, s, s), file=f)
if block["type"] == "code":
print("", file=f)
print("#define reject do { goto rollback_label; } while(0)", file=f)
print("#define accept do { accept_cnt++; on_accept(); if (rollback) goto rollback_label; } while(0)", file=f)
print("#define finish do { rollback = -1; goto rollback_label; } while(0)", file=f)
print("#define branch do {{ block_{}(recursion+1); if (rollback) goto rollback_label; }} while(0)".format(index+1), file=f)
print("#define subpattern(pattern_name) do {{ block_subpattern_{}_ ## pattern_name (recursion+1); if (rollback) goto rollback_label; }} while(0)".format(current_pattern), file=f)
for line in block["code"]:
print(" " + line, file=f)
print("", file=f)
print(" block_{}(recursion+1);".format(index+1), file=f)
print("#undef reject", file=f)
print("#undef accept", file=f)
print("#undef finish", file=f)
print("#undef branch", file=f)
print("#undef subpattern", file=f)
print("", file=f)
print("rollback_label:", file=f)
print(" YS_MAYBE_UNUSED;", file=f)
if len(block["fcode"]):
print("#define accept do { accept_cnt++; on_accept(); } while(0)", file=f)
print("#define finish do { rollback = -1; goto finish_label; } while(0)", file=f)
for line in block["fcode"]:
print(" " + line, file=f)
print("finish_label:", file=f)
print(" YS_MAYBE_UNUSED;", file=f)
print("#undef accept", file=f)
print("#undef finish", file=f)
if len(restore_st) or len(nonconst_st):
print("", file=f)
for s in sorted(restore_st):
t = state_types[current_pattern][s]
print(" {} = _pmg_backup_{};".format(s, s), file=f)
for s in sorted(nonconst_st):
if s not in restore_st:
t = state_types[current_pattern][s]
if t.endswith("*"):
print(" {} = nullptr;".format(s), file=f)
else:
print(" {} = {}();".format(s, t), file=f)
elif block["type"] == "match":
assert len(restore_st) == 0
print(" Cell* _pmg_backup_{} = {};".format(block["cell"], block["cell"]), file=f)
if len(block["if"]):
for expr in block["if"]:
print("", file=f)
print(" if (!({})) {{".format(expr), file=f)
print(" {} = nullptr;".format(block["cell"]), file=f)
print(" block_{}(recursion+1);".format(index+1), file=f)
print(" {} = _pmg_backup_{};".format(block["cell"], block["cell"]), file=f)
print(" return;", file=f)
print(" }", file=f)
print("", file=f)
print(" index_{}_key_type key;".format(index), file=f)
for field, entry in enumerate(block["index"]):
print(" std::get<{}>(key) = {};".format(field, entry[2]), file=f)
print(" auto cells_ptr = index_{}.find(key);".format(index), file=f)
if block["semioptional"] or block["genargs"] is not None:
print(" bool found_any_match = false;", file=f)
print("", file=f)
print(" if (cells_ptr != index_{}.end()) {{".format(index), file=f)
print(" const vector<index_{}_value_type> &cells = cells_ptr->second;".format(index), file=f)
print(" for (int _pmg_idx = 0; _pmg_idx < GetSize(cells); _pmg_idx++) {", file=f)
print(" {} = std::get<0>(cells[_pmg_idx]);".format(block["cell"]), file=f)
valueidx = 1
for item in block["setup"]:
if item[0] == "slice":
print(" const int &{} YS_MAYBE_UNUSED = std::get<{}>(cells[_pmg_idx]);".format(item[1], valueidx), file=f)
valueidx += 1
if item[0] == "choice":
print(" const {} &{} YS_MAYBE_UNUSED = std::get<{}>(cells[_pmg_idx]);".format(item[1], item[2], valueidx), file=f)
valueidx += 1
if item[0] == "define":
print(" const {} &{} YS_MAYBE_UNUSED = std::get<{}>(cells[_pmg_idx]);".format(item[1], item[2], valueidx), file=f)
valueidx += 1
print(" if (blacklist_cells.count({})) continue;".format(block["cell"]), file=f)
for expr in block["filter"]:
print(" if (!({})) continue;".format(expr), file=f)
if block["semioptional"] or block["genargs"] is not None:
print(" found_any_match = true;", file=f)
for item in block["sets"]:
print(" auto _pmg_backup_{} = {};".format(item[0], item[0]), file=f)
print(" {} = {};".format(item[0], item[1]), file=f)
print(" auto rollback_ptr = rollback_cache.insert(make_pair(std::get<0>(cells[_pmg_idx]), recursion));", file=f)
print(" block_{}(recursion+1);".format(index+1), file=f)
for item in block["sets"]:
print(" {} = _pmg_backup_{};".format(item[0], item[0]), file=f)
print(" if (rollback_ptr.second)", file=f)
print(" rollback_cache.erase(rollback_ptr.first);", file=f)
print(" if (rollback) {", file=f)
print(" if (rollback != recursion) {{".format(index+1), file=f)
print(" {} = _pmg_backup_{};".format(block["cell"], block["cell"]), file=f)
print(" return;", file=f)
print(" }", file=f)
print(" rollback = 0;", file=f)
print(" }", file=f)
print(" }", file=f)
print(" }", file=f)
print("", file=f)
print(" {} = nullptr;".format(block["cell"]), file=f)
if block["optional"]:
print(" block_{}(recursion+1);".format(index+1), file=f)
if block["semioptional"]:
print(" if (!found_any_match) block_{}(recursion+1);".format(index+1), file=f)
print(" {} = _pmg_backup_{};".format(block["cell"], block["cell"]), file=f)
if block["genargs"] is not None:
print("#define finish do { rollback = -1; return; } while(0)", file=f)
print(" if (generate_mode && rng(100) < (found_any_match ? {} : {})) {{".format(block["genargs"][1], block["genargs"][0]), file=f)
for line in block["gencode"]:
print(" " + line, file=f)
print(" }", file=f)
print("#undef finish", file=f)
else:
assert False
current_pattern = None
print(" }", file=f)
print("", file=f)
print("};", file=f)
if genhdr:
print("", file=f)
print("YOSYS_NAMESPACE_END", file=f)