from fractions import Fraction from math import ceil from migen.fhdl.structure import * from migen.fhdl import verilog, autofragment from migen.bus import csr import migScope import spi2Csr # #Test Term # #term = migScope.Term(32,True) #v = verilog.convert(term.get_fragment()) #print(v) # #Test RangeDetector # #rangeDetector = migScope.RangeDetector (32,True) #v = verilog.convert(rangeDetector.get_fragment()) #print(v) # #Test EdgeDetector # #edgeDetector = migScope.EdgeDetector (32,True,"RFB") #v = verilog.convert(edgeDetector.get_fragment()) #print(v) # #Test Timer # #timer = migScope.Timer(32) #v = verilog.convert(timer.get_fragment()) #print(v) # #Test Sum # #sum = migScope.Sum(4,pipe=True) #v = verilog.convert(sum.get_fragment()) #print(v) # #Test MigIo # #migIo = migScope.MigIo(32,"IO") #v = verilog.convert(migIo.get_fragment()) #print(v) # #Test Storage # #storage = migScope.Storage(32,1024) #v = verilog.convert(storage.get_fragment()) #print(v) # #Test Sequencer # #sequencer = migScope.Sequencer(1024) #v = verilog.convert(sequencer.get_fragment()) #print(v) # #Test Recorder # #recorder = migScope.Recorder(0,32,1024) #v = verilog.convert(recorder.get_fragment()) #print(v) # #Test Trigger # #term0 = migScope.Term(32) #term1 = migScope.RangeDetector(32) #term2 = migScope.EdgeDetector(32) #term3 = migScope.Term(32) #trigger0 = migScope.Trigger(0,32,64,[term0, term1, term2, term3]) #recorder0 = migScope.Recorder(0,32,1024) #v = verilog.convert(trigger0.get_fragment()+recorder0.get_fragment()) #print(v) # #Test spi2Csr # spi2csr0 = spi2Csr.Spi2Csr(16,8) v = verilog.convert(spi2csr0.get_fragment()) print(v)