yosys/backends/smt2/ywio.py

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#
# yosys -- Yosys Open SYnthesis Suite
#
# Copyright (C) 2022 Jannis Harder <jix@yosyshq.com> <me@jix.one>
#
# 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.
#
import json, re
from functools import total_ordering
class PrettyJson:
def __init__(self, f):
self.f = f
self.indent = 0
self.state = ["value"]
def line(self):
indent = len(self.state) - bool(self.state and self.state[-1] == "value")
print("\n", end=" " * (2 * indent), file=self.f)
def raw(self, str):
print(end=str, file=self.f)
def begin_object(self):
self.begin_value()
self.raw("{")
self.state.append("object_first")
def begin_array(self):
self.begin_value()
self.raw("[")
self.state.append("array_first")
def end_object(self):
state = self.state.pop()
if state == "object":
self.line()
else:
assert state == "object_first"
self.raw("}")
self.end_value()
def end_array(self):
state = self.state.pop()
if state == "array":
self.line()
else:
assert state == "array_first"
self.raw("]")
self.end_value()
def name(self, name):
if self.state[-1] == "object_first":
self.state[-1] = "object"
else:
self.raw(",")
self.line()
json.dump(str(name), self.f)
self.raw(": ")
self.state.append("value")
def begin_value(self):
if self.state[-1] == "array_first":
self.line()
self.state[-1] = "array"
elif self.state[-1] == "array":
self.raw(",")
self.line()
else:
assert self.state.pop() == "value"
def end_value(self):
if not self.state:
print(file=self.f, flush=True)
def value(self, value):
self.begin_value()
json.dump(value, self.f)
self.end_value()
def entry(self, name, value):
self.name(name)
self.value(value)
def object(self, entries=None):
if isinstance(entries, dict):
entries = dict.items()
self.begin_object()
for name, value in entries:
self.entry(name, value)
self.end_object()
def array(self, values=None):
self.begin_array()
for value in values:
self.value(value)
self.end_array()
addr_re = re.compile(r'\\\[[0-9]+\]$')
public_name_re = re.compile(r"\\([a-zA-Z_][a-zA-Z0-9_]*(\[[0-9]+\])?|\[[0-9]+\])$")
def pretty_name(id):
if public_name_re.match(id):
return id.lstrip("\\")
else:
return id
def pretty_path(path):
out = ""
for name in path:
name = pretty_name(name)
if name.startswith("["):
out += name
continue
if out:
out += "."
if name.startswith("\\") or name.startswith("$"):
out += name + " "
else:
out += name
return out
@total_ordering
class WitnessSig:
def __init__(self, path, offset, width=1, init_only=False):
path = tuple(path)
self.path, self.width, self.offset, self.init_only = path, width, offset, init_only
self.memory_path = None
self.memory_addr = None
sort_path = path
sort_id = -1
if path and addr_re.match(path[-1]):
self.memory_path = sort_path = path[:-1]
self.memory_addr = sort_id = int(path[-1][2:-1])
self.sort_key = (init_only, sort_path, sort_id, offset, width)
def bits(self):
return ((self.path, i) for i in range(self.offset, self.offset + self.width))
def rev_bits(self):
return ((self.path, i) for i in reversed(range(self.offset, self.offset + self.width)))
def pretty(self):
if self.width > 1:
last_offset = self.offset + self.width - 1
return f"{pretty_path(self.path)}[{last_offset}:{self.offset}]"
else:
return f"{pretty_path(self.path)}[{self.offset}]"
def __eq__(self):
return self.sort_key
def __hash__(self):
return hash(self.sort_key)
def __lt__(self, other):
return self.sort_key < other.sort_key
def coalesce_signals(signals, bits=None):
if bits is None:
bits = {}
for sig in signals:
for bit in sig.bits():
if sig.init_only:
bits.setdefault(bit, False)
else:
bits[bit] = True
active = None
out = []
for bit, not_init in sorted(bits.items()):
if active:
if active[0] == bit[0] and active[2] == bit[1] and active[3] == not_init:
active[2] += 1
else:
out.append(WitnessSig(active[0], active[1], active[2] - active[1], not active[3]))
active = None
if active is None:
active = [bit[0], bit[1], bit[1] + 1, not_init]
if active:
out.append(WitnessSig(active[0], active[1], active[2] - active[1], not active[3]))
return sorted(out)
class WitnessSigMap:
def __init__(self, signals=[]):
self.signals = []
self.id_to_bit = []
self.bit_to_id = {}
self.bit_to_sig = {}
for sig in signals:
self.add_signal(sig)
def add_signal(self, sig):
self.signals.append(sig)
for bit in sig.bits():
self.add_bit(bit)
self.bit_to_sig[bit] = sig
def add_bit(self, bit, id=None):
if id is None:
id = len(self.id_to_bit)
self.id_to_bit.append(bit)
else:
if len(self.id_to_bit) <= id:
self.id_to_bit += [None] * (id - len(self.id_to_bit) + 1)
self.id_to_bit[id] = bit
self.bit_to_id[bit] = id
class WitnessValues:
def __init__(self):
self.values = {}
def __setitem__(self, key, value):
if isinstance(key, tuple) and len(key) == 2:
if value != "?":
assert isinstance(value, str)
assert len(value) == 1
self.values[key] = value
else:
assert isinstance(key, WitnessSig)
assert key.width == len(value)
if isinstance(value, str):
value = reversed(value)
for bit, bit_value in zip(key.bits(), value):
if bit_value != "?":
self.values[bit] = bit_value
def __getitem__(self, key):
if isinstance(key, tuple) and len(key) == 2:
return self.values.get(key, "?")
else:
assert isinstance(key, WitnessSig)
return "".join([self.values.get(bit, "?") for bit in key.rev_bits()])
def pack_present(self, sigmap):
missing = []
max_id = max((sigmap.bit_to_id.get(bit, -1) for bit in self.values), default=-1)
vector = ["?"] * (max_id + 1)
for bit, bit_value in self.values.items():
id = sigmap.bit_to_id.get(bit, - 1)
if id < 0:
missing.append(bit)
else:
vector[max_id - sigmap.bit_to_id[bit]] = bit_value
return "".join(vector), missing
def pack(self, sigmap):
packed, missing = self.pack_present(sigmap)
if missing:
raise RuntimeError(f"Cannot pack bits {missing!r}")
return packed
def unpack(self, sigmap, bits):
for i, bit_value in enumerate(reversed(bits)):
if bit_value != "?":
self.values[sigmap.id_to_bit[i]] = bit_value
def present_signals(self, sigmap):
signals = set(sigmap.bit_to_sig.get(bit) for bit in self.values)
missing_signals = None in signals
if missing_signals:
signals.discard(None)
return sorted(signals), missing_signals
class WriteWitness:
def __init__(self, f, generator):
self.out = PrettyJson(f)
self.t = 0
self.header_written = False
self.clocks = []
self.signals = []
self.out.begin_object()
self.out.entry("format", "Yosys Witness Trace")
self.out.entry("generator", generator)
def add_clock(self, path, offset, edge):
assert not self.header_written
self.clocks.append({
"path": path,
"edge": edge,
"offset": offset,
})
def add_sig(self, path, offset, width=1, init_only=False):
assert not self.header_written
sig = WitnessSig(path, offset, width, init_only)
self.signals.append(sig)
return sig
def write_header(self):
assert not self.header_written
self.header_written = True
self.out.name("clocks")
self.out.array(self.clocks)
self.signals = coalesce_signals(self.signals)
self.sigmap = WitnessSigMap(self.signals)
self.out.name("signals")
self.out.array({
"path": sig.path,
"width": sig.width,
"offset": sig.offset,
"init_only": sig.init_only,
} for sig in self.signals)
self.out.name("steps")
self.out.begin_array()
def step(self, values):
if not self.header_written:
self.write_header()
self.out.value({"bits": values.pack(self.sigmap)})
self.t += 1
def end_trace(self):
if not self.header_written:
self.write_header()
self.out.end_array()
self.out.end_object()
class ReadWitness:
def __init__(self, f):
data = json.load(f)
if not isinstance(data, dict):
data = {}
data_format = data.get("format", "Unknown Format")
if data_format != "Yosys Witness Trace":
raise ValueError(f"unsupported format {data_format!r}")
self.clocks = data["clocks"]
for clock in self.clocks:
clock["path"] = tuple(clock["path"])
self.signals = [
WitnessSig(sig["path"], sig["offset"], sig["width"], sig["init_only"])
for sig in data["signals"]
]
self.sigmap = WitnessSigMap(self.signals)
self.bits = [step["bits"] for step in data["steps"]]
def step(self, t):
values = WitnessValues()
values.unpack(self.sigmap, self.bits[t])
return values
def steps(self):
for i in range(len(self.bits)):
yield i, self.step(i)
def __len__(self):
return len(self.bits)