Python draw примеры использования

Пример #1

    def __init__(self, block_name):
        CBD.__init__(self, block_name, input_ports=[], output_ports=["OUT1"])
        #blocks
        self.addBlock(NegatorBlock("Negator"))
        self.addBlock(DerivatorBlock("Derivator1"))
        self.addBlock(DerivatorBlock("Derivator2"))
        draw(DerivatorBlock("derivative"), "output/Derivator.dot")

        self.addBlock(ConstantBlock("V0", 1))
        self.addBlock(ConstantBlock("Zero", 0))
        self.addBlock(ConstantBlock("DeltaT", 0.001))

        # Connections
        self.addConnection("Negator", "Derivator1")
        self.addConnection("V0", "Derivator1", input_port_name="IC")
        self.addConnection("DeltaT",
                           "Derivator1",
                           output_port_name="OUT1",
                           input_port_name="delta_t")

        self.addConnection("Derivator1", "Derivator2")
        self.addConnection("Zero", "Derivator2", input_port_name="IC")
        self.addConnection("DeltaT",
                           "Derivator2",
                           output_port_name="OUT1",
                           input_port_name="delta_t")

        self.addConnection("Derivator2", "Negator", output_port_name="OUT1")

        self.addConnection("Derivator2", "OUT1", output_port_name="OUT1")

Пример #2

    def __init__(self, block_name):
        CBD.__init__(self, block_name, input_ports=[], output_ports=["OUT1"])
        #blocks
        self.addBlock(NegatorBlock("Negator"))
        self.addBlock(IntegratorBlock("Integrator1"))
        self.addBlock(IntegratorBlock("Integrator2"))
        draw(IntegratorBlock("integral"), "output/Integrator.dot")

        self.addBlock(ConstantBlock("X0", 0))
        self.addBlock(ConstantBlock("V0", 1))
        self.addBlock(ConstantBlock("DeltaT", 0.001))

        #connections
        self.addConnection("Negator", "Integrator1")
        self.addConnection("V0", "Integrator1", input_port_name="IC")
        self.addConnection("DeltaT",
                           "Integrator1",
                           output_port_name="OUT1",
                           input_port_name="delta_t")

        self.addConnection("Integrator1", "Integrator2")
        self.addConnection("X0", "Integrator2", input_port_name="IC")
        self.addConnection("DeltaT",
                           "Integrator2",
                           output_port_name="OUT1",
                           input_port_name="delta_t")

        self.addConnection("Integrator2", "Negator", output_port_name="OUT1")

        self.addConnection("Integrator2", "OUT1", output_port_name="OUT1")

Пример #3

    def __init__(self, block_name):
        CBD.__init__(self, block_name, input_ports=[], output_ports=["OutMultipleFive"])
        #Blocks
        counterBlock = Counter(block_name="counter")
        draw(counterBlock, "Counter.dot") 
        self.addBlock(counterBlock)

        timesFiveBlock = TimesFive(block_name="timesFive") 
        draw(timesFiveBlock, "TimesFive.dot")
        self.addBlock(timesFiveBlock)
        
        self.addConnection("counter", "timesFive", input_port_name="InNumber", output_port_name="OutCount")
        self.addConnection("timesFive", "OutMultipleFive", output_port_name="OutTimesFive")

Пример #4

                     block_name,
                     input_ports=[],
                     output_ports=["OutEven"])

        self.addBlock(Counter(block_name="counter"))
        self.addBlock(Double(block_name="double"))

        self.addConnection("counter",
                           "double",
                           input_port_name="InNumber",
                           output_port_name="OutCount")
        self.addConnection("double", "OutEven", output_port_name="OutDouble")


cbd = EvenNumberGen("number_gen")
draw(cbd, "number_gen.dot")
draw(cbd.getBlockByName("counter"), "counter.dot")
cbd.run(10)

times = []
output = []

for timeValuePair in cbd.getSignal("OutEven"):
    times.append(timeValuePair.time)
    output.append(timeValuePair.value)

#Plot
# output_file("./number_gen.html", title="Even Numbers")
p = figure(title="Even Numbers", x_axis_label='time', y_axis_label='N')
p.circle(x=times, y=output, legend="Even numbers")
show(p)

Пример #5

        self.addBlock(ConstantBlock(block_name="two", value=2.0))
        self.addBlock(ConstantBlock(block_name="three", value=3.0))
        self.addBlock(ProductBlock(block_name="product"))
        self.addBlock(AdderBlock(block_name="adder"))
        self.addBlock(NegatorBlock(block_name="negator"))

        self.addConnection("two", "product")
        self.addConnection("three", "negator")
        self.addConnection("negator", "adder")
        self.addConnection("product", "adder")
        self.addConnection("adder", "product")  # LOOP


LatexWriter.latexWrite = True
latexWriter.writeBeginDocument("equations.tex")
latexWriter.writeTitle("Assignment 2 - Task 3 - CBD")
latexWriter.writeNewSection("Equations")
latexWriter.writeBeginArray()

linearLoopCBD1 = LinearLoopCBD1("linearLoopCBD1")
linearLoopCBD1.run(1)
draw(linearLoopCBD1, "linearLoopCBD1.dot")

# Uncomment this if you want to execute this CBD.
# linearLoopCBD2 = LinearLoopCBD2("linearLoopCBD2")
# linearLoopCBD2.run(1)
# draw(linearLoopCBD2, "linearLoopCBD2.dot")

latexWriter.writeEndArray()
latexWriter.writeEndDocument()

Пример #6

Файл: CBDSimulation1.py Проект: desmetr/MoSIS

        self.addConnection("Product", "Integrator")
        self.addConnection("AdderDeltaT",
                           "Integrator",
                           output_port_name="OUT1",
                           input_port_name="delta_t")
        self.addConnection("Zero",
                           "Integrator",
                           output_port_name="OUT1",
                           input_port_name="IC")

        #output
        self.addConnection("Integrator", "OUT1", output_port_name="OUT1")


cbd = CBDSimulation("CBDSimulation1")
draw(cbd, "CBDSimulation1.dot")
cbd.run(5)

times = []
output = []

for timeValuePair in cbd.getSignal():
    times.append(timeValuePair.time)
    output.append(timeValuePair.value)

print output, times

#Plot
p = figure(title="CBD Simulation 1", x_axis_label='time', y_axis_label='N')
p.circle(x=times, y=output)
show(p)