From: whitequark Date: Tue, 18 Dec 2018 05:19:12 +0000 (+0000) Subject: back.pysim: use arrays instead of dicts for signal values. X-Git-Url: https://git.libre-soc.org/?a=commitdiff_plain;h=c5e0f820f4d8603e6bb769abf4e3315526024da7;p=nmigen.git back.pysim: use arrays instead of dicts for signal values. This makes the Glasgow testsuite about 40% faster. --- diff --git a/nmigen/back/pysim.py b/nmigen/back/pysim.py index 3f9f4b1..1c14ba6 100644 --- a/nmigen/back/pysim.py +++ b/nmigen/back/pysim.py @@ -20,24 +20,30 @@ class _State: __slots__ = ("curr", "curr_dirty", "next", "next_dirty") def __init__(self): - self.curr = SignalDict() - self.next = SignalDict() + self.curr = [] + self.next = [] self.curr_dirty = SignalSet() self.next_dirty = SignalSet() - def set(self, signal, value): - assert isinstance(value, int) - if self.next[signal] != value: + def add(self, signal, value): + slot = len(self.curr) + self.curr.append(value) + self.next.append(value) + self.curr_dirty.add(signal) + return slot + + def set(self, signal, slot, value): + if self.next[slot] != value: self.next_dirty.add(signal) - self.next[signal] = value + self.next[slot] = value - def commit(self, signal): - old_value = self.curr[signal] - new_value = self.next[signal] + def commit(self, signal, slot): + old_value = self.curr[slot] + new_value = self.next[slot] if old_value != new_value: self.next_dirty.remove(signal) self.curr_dirty.add(signal) - self.curr[signal] = new_value + self.curr[slot] = new_value return old_value, new_value @@ -45,9 +51,10 @@ normalize = Const.normalize class _RHSValueCompiler(AbstractValueTransformer): - def __init__(self, sensitivity=None, mode="rhs"): - self.sensitivity = sensitivity - self.signal_mode = mode + def __init__(self, signal_slots, sensitivity=None, mode="rhs"): + self.signal_slots = signal_slots + self.sensitivity = sensitivity + self.signal_mode = mode def on_Const(self, value): return lambda state: value.value @@ -55,10 +62,11 @@ class _RHSValueCompiler(AbstractValueTransformer): def on_Signal(self, value): if self.sensitivity is not None: self.sensitivity.add(value) + value_slot = self.signal_slots[value] if self.signal_mode == "rhs": - return lambda state: state.curr[value] + return lambda state: state.curr[value_slot] elif self.signal_mode == "lhs": - return lambda state: state.next[value] + return lambda state: state.next[value_slot] else: raise ValueError # :nocov: @@ -166,7 +174,8 @@ class _RHSValueCompiler(AbstractValueTransformer): class _LHSValueCompiler(AbstractValueTransformer): - def __init__(self, rhs_compiler): + def __init__(self, signal_slots, rhs_compiler): + self.signal_slots = signal_slots self.rhs_compiler = rhs_compiler def on_Const(self, value): @@ -174,8 +183,9 @@ class _LHSValueCompiler(AbstractValueTransformer): def on_Signal(self, value): shape = value.shape() + value_slot = self.signal_slots[value] def eval(state, rhs): - state.set(value, normalize(rhs, shape)) + state.set(value, value_slot, normalize(rhs, shape)) return eval def on_ClockSignal(self, value): @@ -235,11 +245,11 @@ class _LHSValueCompiler(AbstractValueTransformer): class _StatementCompiler(AbstractStatementTransformer): - def __init__(self): + def __init__(self, signal_slots): self.sensitivity = SignalSet() - self.rrhs_compiler = _RHSValueCompiler(self.sensitivity, mode="rhs") - self.lrhs_compiler = _RHSValueCompiler(self.sensitivity, mode="lhs") - self.lhs_compiler = _LHSValueCompiler(self.lrhs_compiler) + self.rrhs_compiler = _RHSValueCompiler(signal_slots, self.sensitivity, mode="rhs") + self.lrhs_compiler = _RHSValueCompiler(signal_slots, self.sensitivity, mode="lhs") + self.lhs_compiler = _LHSValueCompiler(signal_slots, self.lrhs_compiler) def on_Assign(self, stmt): shape = stmt.lhs.shape() @@ -287,10 +297,11 @@ class Simulator: self._domain_triggers = SignalDict() # Signal -> str/domain self._domain_signals = dict() # str/domain -> {Signal} - self._signals = SignalSet() # {Signal} - self._comb_signals = SignalSet() # {Signal} - self._sync_signals = SignalSet() # {Signal} - self._user_signals = SignalSet() # {Signal} + self._signals = SignalSet() # {Signal} + self._comb_signals = SignalSet() # {Signal} + self._sync_signals = SignalSet() # {Signal} + self._user_signals = SignalSet() # {Signal} + self._signal_slots = SignalDict() # Signal -> int/slot self._started = False self._timestamp = 0. @@ -393,12 +404,14 @@ class Simulator: for fragment, fragment_scope in hierarchy.items(): for signal in fragment.iter_signals(): - self._signals.add(signal) + if signal not in self._signals: + self._signals.add(signal) - self._state.curr[signal] = self._state.next[signal] = \ - normalize(signal.reset, signal.shape()) - self._state.curr_dirty.add(signal) + signal_slot = self._state.add(signal, normalize(signal.reset, signal.shape())) + self._signal_slots[signal] = signal_slot + for fragment, fragment_scope in hierarchy.items(): + for signal in fragment.iter_signals(): if not self._vcd_writer: continue @@ -451,7 +464,7 @@ class Simulator: statements.append(signal.eq(signal)) statements += fragment.statements - compiler = _StatementCompiler() + compiler = _StatementCompiler(self._signal_slots) funclet = compiler(statements) def add_funclet(signal, funclet): @@ -491,7 +504,7 @@ class Simulator: # Take the computed value (at the start of this delta cycle) of a signal (that could have # come from an IR process that ran earlier, or modified by a simulator process) and update # the value for this delta cycle. - old, new = self._state.commit(signal) + old, new = self._state.commit(signal, self._signal_slots[signal]) # If the signal is a clock that triggers synchronous logic, record that fact. if (old, new) == (0, 1) and signal in self._domain_triggers: @@ -573,7 +586,7 @@ class Simulator: self._passive.add(process) elif isinstance(cmd, Value): - compiler = _RHSValueCompiler() + compiler = _RHSValueCompiler(self._signal_slots) funclet = compiler(cmd) cmd = process.send(funclet(self._state)) continue @@ -591,7 +604,7 @@ class Simulator: "simulation" .format(self._name_process(process), signal)) - compiler = _StatementCompiler() + compiler = _StatementCompiler(self._signal_slots) funclet = compiler(cmd) funclet(self._state)