from itertools import count import networkx as nx import matplotlib.pyplot as plt from migen.flow.network import * from migen.actorlib import structuring from migen.actorlib.sim import * from migen.sim.generic import Simulator from migen.sim.icarus import Runner from migen.flow import perftools pack_factor = 5 def source_gen(): for i in count(0): yield Token("source", {"value": i}) def sink_gen(): while True: t = Token("sink") yield t print(t.value["value"]) def main(): base_layout = [("value", 32)] packed_layout = structuring.pack_layout(base_layout, pack_factor) rawbits_layout = [("value", 32*pack_factor)] source = ActorNode(SimActor(source_gen(), ("source", Source, base_layout))) sink = ActorNode(SimActor(sink_gen(), ("sink", Sink, base_layout))) # A tortuous way of passing integer tokens. packer = ActorNode(structuring.Pack(base_layout, pack_factor)) to_raw = ActorNode(structuring.Cast(packed_layout, rawbits_layout)) from_raw = ActorNode(structuring.Cast(rawbits_layout, packed_layout)) unpacker = ActorNode(structuring.Unpack(pack_factor, base_layout)) g = DataFlowGraph() g.add_connection(source, packer) g.add_connection(packer, to_raw) g.add_connection(to_raw, from_raw) g.add_connection(from_raw, unpacker) g.add_connection(unpacker, sink) comp = CompositeActor(g) reporter = perftools.DFGReporter(g) fragment = comp.get_fragment() + reporter.get_fragment() sim = Simulator(fragment, Runner()) sim.run(1000) g_layout = nx.spectral_layout(g) nx.draw(g, g_layout) nx.draw_networkx_edge_labels(g, g_layout, reporter.get_edge_labels()) plt.show() main()