litex/migen/sim/generic.py

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import warnings
from migen.fhdl.std import *
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from migen.fhdl.structure import _Fragment
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from migen.fhdl import verilog
from migen.sim.ipc import *
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from migen.sim import icarus
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class TopLevel:
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def __init__(self, vcd_name=None, vcd_level=1,
top_name="top", dut_type="dut", dut_name="dut",
cd_name="sys", clk_period=10):
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self.vcd_name = vcd_name
self.vcd_level = vcd_level
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self.top_name = top_name
self.dut_type = dut_type
self.dut_name = dut_name
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self._cd_name = cd_name
self._clk_period = clk_period
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cd = ClockDomain(self._cd_name)
self.clock_domains = [cd]
self.ios = {cd.clk, cd.rst}
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def get(self, sockaddr):
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template1 = """`timescale 1ns / 1ps
module {top_name}();
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reg {clk_name};
reg {rst_name};
initial begin
{rst_name} <= 1'b1;
@(posedge {clk_name});
{rst_name} <= 1'b0;
end
always begin
{clk_name} <= 1'b0;
#{hclk_period};
{clk_name} <= 1'b1;
#{hclk_period};
end
{dut_type} {dut_name}(
.{rst_name}({rst_name}),
.{clk_name}({clk_name})
);
initial $migensim_connect("{sockaddr}");
always @(posedge {clk_name}) $migensim_tick;
"""
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template2 = """
initial begin
$dumpfile("{vcd_name}");
$dumpvars({vcd_level}, {dut_name});
end
"""
r = template1.format(top_name=self.top_name,
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dut_type=self.dut_type,
dut_name=self.dut_name,
clk_name=self._cd_name + "_clk",
rst_name=self._cd_name + "_rst",
hclk_period=str(self._clk_period/2),
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sockaddr=sockaddr)
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if self.vcd_name is not None:
r += template2.format(vcd_name=self.vcd_name,
vcd_level=str(self.vcd_level),
dut_name=self.dut_name)
r += "\nendmodule"
return r
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class Simulator:
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def __init__(self, fragment, top_level=None, sim_runner=None, sockaddr="simsocket", **vopts):
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if not isinstance(fragment, _Fragment):
fragment = fragment.get_fragment()
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if top_level is None:
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top_level = TopLevel()
if sim_runner is None:
sim_runner = icarus.Runner()
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self.top_level = top_level
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self.ipc = Initiator(sockaddr)
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self.sim_runner = sim_runner
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c_top = self.top_level.get(sockaddr)
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fragment = fragment + _Fragment(clock_domains=top_level.clock_domains)
verilog_convert = verilog.convert(fragment,
ios=self.top_level.ios,
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name=self.top_level.dut_type,
return_ns=True,
**vopts)
c_dut, self.namespace = str(verilog_convert), verilog_convert.ns
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self.cycle_counter = -1
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self.sim_runner = sim_runner
self.sim_runner.start(c_top, c_dut)
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self.ipc.accept()
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reply = self.ipc.recv()
assert(isinstance(reply, MessageTick))
self.sim_functions = fragment.sim
self.active_sim_functions = set(f for f in fragment.sim if not hasattr(f, "passive") or not f.passive)
self.unreferenced = {}
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def run(self, ncycles=None):
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counter = 0
if self.active_sim_functions:
if ncycles is None:
def continue_simulation():
return bool(self.active_sim_functions)
else:
def continue_simulation():
return self.active_sim_functions and counter < ncycles
else:
if ncycles is None:
raise ValueError("No active simulation function present - must specify ncycles to end simulation")
def continue_simulation():
return counter < ncycles
while continue_simulation():
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self.cycle_counter += 1
counter += 1
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self.ipc.send(MessageGo())
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reply = self.ipc.recv()
assert(isinstance(reply, MessageTick))
del_list = []
for s in self.sim_functions:
try:
s(self)
except StopSimulation:
del_list.append(s)
for s in del_list:
self.sim_functions.remove(s)
try:
self.active_sim_functions.remove(s)
except KeyError:
pass
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def get_unreferenced(self, item, index):
try:
return self.unreferenced[(item, index)]
except KeyError:
if isinstance(item, Memory):
try:
init = item.init[index]
except (TypeError, IndexError):
init = 0
else:
init = item.reset
self.unreferenced[(item, index)] = init
return init
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def rd(self, item, index=0):
try:
name = self.top_level.top_name + "." \
+ self.top_level.dut_name + "." \
+ self.namespace.get_name(item)
self.ipc.send(MessageRead(name, Int32(index)))
reply = self.ipc.recv()
assert(isinstance(reply, MessageReadReply))
value = reply.value
except KeyError:
value = self.get_unreferenced(item, index)
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if isinstance(item, Memory):
signed = False
nbits = item.width
else:
signed = item.signed
nbits = flen(item)
value = value & (2**nbits - 1)
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if signed and (value & 2**(nbits - 1)):
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value -= 2**nbits
return value
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def wr(self, item, value, index=0):
if isinstance(item, Memory):
nbits = item.width
else:
nbits = flen(item)
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if value < 0:
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value += 2**nbits
assert(value >= 0 and value < 2**nbits)
try:
name = self.top_level.top_name + "." \
+ self.top_level.dut_name + "." \
+ self.namespace.get_name(item)
self.ipc.send(MessageWrite(name, Int32(index), value))
except KeyError:
self.unreferenced[(item, index)] = value
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def __del__(self):
if hasattr(self, "ipc"):
warnings.warn("call Simulator.close() to clean up "
"or use it as a contextmanager", DeprecationWarning)
self.close()
def close(self):
self.ipc.close()
self.sim_runner.close()
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del self.ipc
del self.sim_runner
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def __enter__(self):
return self
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def __exit__(self, type, value, traceback):
self.close()
def run_simulation(fragment, ncycles=None, vcd_name=None, **kwargs):
with Simulator(fragment, TopLevel(vcd_name), icarus.Runner(**kwargs)) as s:
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s.run(ncycles)