litex/migen/sim.py

245 lines
8.0 KiB
Python
Raw Normal View History

2015-09-10 23:33:45 -04:00
import operator
from migen.fhdl.structure import *
from migen.fhdl.structure import (_Operator, _Slice, _ArrayProxy,
_Assign, _Fragment)
from migen.fhdl.bitcontainer import flen
2015-09-17 05:24:20 -04:00
from migen.fhdl.tools import list_targets
2015-09-10 23:33:45 -04:00
__all__ = ["Simulator"]
2015-09-10 23:33:45 -04:00
class ClockState:
def __init__(self, period, times_before_tick):
self.period = period
self.times_before_tick = times_before_tick
class TimeManager:
def __init__(self, description):
self.clocks = dict()
for k, v in description.items():
if not isinstance(v, tuple):
v = v, 0
self.clocks[k] = ClockState(v[0], v[0] - v[1])
def tick(self):
r = set()
dt = min(cs.times_before_tick for cs in self.clocks.values())
for k, cs in self.clocks.items():
if cs.times_before_tick == dt:
r.add(k)
cs.times_before_tick -= dt
if not cs.times_before_tick:
cs.times_before_tick += cs.period
return r
str2op = {
"~": operator.invert,
"+": operator.add,
"-": operator.sub,
"*": operator.mul,
">>>": operator.rshift,
"<<<": operator.lshift,
"&": operator.and_,
"^": operator.xor,
"|": operator.or_,
"<": operator.lt,
"<=": operator.le,
"==": operator.eq,
"!=": operator.ne,
">": operator.gt,
">=": operator.ge,
}
class Evaluator:
def __init__(self):
self.signal_values = dict()
self.modifications = dict()
def commit(self):
r = set()
for k, v in self.modifications.items():
if k not in self.signal_values or self.signal_values[k] != v:
self.signal_values[k] = v
r.add(k)
self.modifications.clear()
return r
def eval(self, node, postcommit=False):
if isinstance(node, Constant):
return node.value
2015-09-10 23:33:45 -04:00
elif isinstance(node, Signal):
if postcommit:
try:
return self.modifications[node]
except KeyError:
pass
2015-09-10 23:33:45 -04:00
try:
return self.signal_values[node]
except KeyError:
2015-09-17 03:20:27 -04:00
return node.reset.value
2015-09-10 23:33:45 -04:00
elif isinstance(node, _Operator):
operands = [self.eval(o, postcommit) for o in node.operands]
2015-09-10 23:33:45 -04:00
if node.op == "-":
if len(operands) == 1:
return -operands[0]
else:
return operands[0] - operands[1]
elif node.op == "m":
return operands[1] if operands[0] else operands[2]
2015-09-10 23:33:45 -04:00
else:
return str2op[node.op](*operands)
elif isinstance(node, _Slice):
v = self.eval(node.value, postcommit)
idx = range(node.start, node.stop)
return sum(((v >> i) & 1) << j for j, i in enumerate(idx))
elif isinstance(node, Cat):
shift = 0
r = 0
for element in node.l:
nbits = flen(element)
# make value always positive
r |= (self.eval(element, postcommit) & (2**nbits-1)) << shift
shift += nbits
return r
elif isinstance(node, _ArrayProxy):
return self.eval(node.choices[self.eval(node.key, postcommit)],
postcommit)
2015-09-10 23:33:45 -04:00
else:
# TODO: ClockSignal, ResetSignal, Memory
2015-09-10 23:33:45 -04:00
raise NotImplementedError
def assign(self, node, value):
if isinstance(node, Signal):
assert not node.variable
value = value & (2**node.nbits - 1)
if node.signed and (value & 2**(node.nbits - 1)):
value -= 2**node.nbits
self.modifications[node] = value
elif isinstance(node, Cat):
for element in node.l:
nbits = flen(element)
self.assign(element, value & (2**nbits-1))
value >>= nbits
elif isinstance(node, Slice):
full_value = self.eval(node, True)
# clear bits assigned to by the slice
full_value &= ~((2**node.stop-1) - (2**node.start-1))
# set them to the new value
value &= 2**(node.stop - node.start)-1
full_value |= value << node.start
self.assign(node, full_value)
elif isinstance(node, _ArrayProxy):
self.assign(node.choices[self.eval(node.key)], value)
else:
# TODO: ClockSignal, ResetSignal, Memory
raise NotImplementedError
2015-09-11 00:44:14 -04:00
2015-09-10 23:33:45 -04:00
def execute(self, statements):
for s in statements:
if isinstance(s, _Assign):
self.assign(s.l, self.eval(s.r))
2015-09-10 23:33:45 -04:00
elif isinstance(s, If):
2015-09-11 00:44:14 -04:00
if self.eval(s.cond):
2015-09-10 23:33:45 -04:00
self.execute(s.t)
else:
self.execute(s.f)
2015-09-17 05:25:06 -04:00
elif isinstance(s, Case):
test = self.eval(s.test)
for k, v in s.cases.items():
if isinstance(k, Constant) and k.value == test:
self.execute(v)
return
if "default" in s.cases:
self.execute(s.cases["default"])
2015-09-10 23:33:45 -04:00
else:
raise NotImplementedError
# TODO: instances via Iverilog/VPI
# TODO: VCD output
class Simulator:
def __init__(self, fragment_or_module, generators, clocks={"sys": 100}):
if isinstance(fragment_or_module, _Fragment):
self.fragment = fragment_or_module
else:
self.fragment = fragment_or_module.get_fragment()
if not isinstance(generators, dict):
generators = {"sys": generators}
self.generators = dict()
for k, v in generators.items():
if isinstance(v, list):
self.generators[k] = v
else:
self.generators[k] = [v]
# TODO: insert_resets on sync
# comb signals return to their reset value if nothing assigns them
2015-09-17 05:24:20 -04:00
self.fragment.comb[0:0] = [s.eq(s.reset)
for s in list_targets(self.fragment.comb)]
2015-09-10 23:33:45 -04:00
self.time = TimeManager(clocks)
self.evaluator = Evaluator()
2015-09-12 04:27:59 -04:00
def _commit_and_comb_propagate(self):
2015-09-17 05:24:20 -04:00
# TODO: optimize
2015-09-12 04:27:59 -04:00
modified = self.evaluator.commit()
2015-09-10 23:33:45 -04:00
while modified:
2015-09-17 05:24:20 -04:00
self.evaluator.execute(self.fragment.comb)
2015-09-10 23:33:45 -04:00
modified = self.evaluator.commit()
2015-09-12 04:01:53 -04:00
def _eval_nested_lists(self, x):
if isinstance(x, list):
return [self._eval_nested_lists(e) for e in x]
elif isinstance(x, Signal):
return self.evaluator.eval(x)
else:
raise ValueError
2015-09-11 00:44:14 -04:00
def _process_generators(self, cd):
exhausted = []
for generator in self.generators[cd]:
reply = None
while True:
try:
request = generator.send(reply)
if request is None:
break # next cycle
elif isinstance(request, tuple):
self.evaluator.assign(*request)
else:
2015-09-12 04:01:53 -04:00
reply = self._eval_nested_lists(request)
except StopIteration:
exhausted.append(generator)
break
for generator in exhausted:
self.generators[cd].remove(generator)
2015-09-11 00:44:14 -04:00
2015-09-10 23:33:45 -04:00
def _continue_simulation(self):
# TODO: passive generators
return any(self.generators.values())
def run(self):
self.evaluator.execute(self.fragment.comb)
2015-09-12 04:27:59 -04:00
self._commit_and_comb_propagate()
2015-09-10 23:33:45 -04:00
while True:
cds = self.time.tick()
for cd in cds:
if cd in self.fragment.sync:
self.evaluator.execute(self.fragment.sync[cd])
if cd in self.generators:
self._process_generators(cd)
2015-09-12 04:27:59 -04:00
self._commit_and_comb_propagate()
2015-09-11 00:44:14 -04:00
2015-09-10 23:33:45 -04:00
if not self._continue_simulation():
break