Example #1
0
def runccode(filename):
    osc = Osc(window_sec=10, intensity=1)
    arr = []
    #a_file = open("my_file.txt", "r")
    a_file = open(filename, "r")
    for line in a_file:
        stripped_line = line.rstrip()
        k = float(stripped_line)
        arr.append(int(k))
    print(arr[2])

    @osc.signal
    def increasing_signal(state):
        while True:
            global count
            if (count == len(arr) - 1):
                print("entered quit")
                exit()
            state.draw(arr[count])
            myModule.fib(1)
            count = count + 1

    osc.start()
Example #2
0
		print("caught an open click")
		final_list.clear()
		final_list.append(2)
	c=tkinter.Button(top,text="Close graph",command=cbp)
	c.pack()
	o=tkinter.Button(top,text="open graph",command=obp)
	o.pack()
	top.mainloop()

def sud():
	import random
    from time import sleep
    from oscilloscope import Osc
    
    # adjust window_sec and intensity to improve visibility
    osc = Osc(fps=1)
    @osc.signal
    def increasing_signal(state):
        delta = 1
        while True:
            state.draw(random.randint(-delta, delta))
            delta += 5
            sleep(0.01)
	flag=0
	while(True):
		if(len(final_list)>0):
			if(final_list[-1]==1):
				osc.stop()
				flag=0
				final_list.clear()
			if(flag==0 and len(final_list)>0):
Example #3
0
"""https://i.imgur.com/Dlve8rJ.png"""

import random
from time import sleep

from oscilloscope import Osc

# turn on normalization
osc = Osc(normalize=True)


@osc.signal
def increasing_signal(state):
    delta = 1

    while True:
        state.draw(random.randint(-delta, delta))
        delta += 5
        sleep(0.01)


osc.start()
Example #4
0
"""https://i.imgur.com/BMeYoXG.png"""

import random
from time import sleep

from oscilloscope import Osc

osc = Osc()


@osc.signal
def simple_random_signal(state):
    while True:
        state.draw(random.random())
        sleep(0.1)


osc.start()
Example #5
0
"""https://i.imgur.com/PPC7z4m.png"""

import random
from time import sleep

from oscilloscope import Osc

osc = Osc(nrows=2, ncols=3)


@osc.signal
def signal1(state):
    while True:
        state.draw(random.random())
        sleep(0.1)


@osc.signal
def signal2(state):
    while True:
        state.draw(random.random(), row=1, col=2)
        sleep(0.1)


osc.start()
@osc.signal
def increasing_signal(state):
	print(pullData[0])
	dataArray = pullData.rspilt("/n")
	for eachline in dataArray:
		if(len(eachline)>1):
			state.draw(float(eachline))
			myModule.fib(1)

osc.start()
'''
import myModule
from oscilloscope import Osc

count = 0
osc = Osc(window_sec=10, intensity=1)
arr = []
a_file = open("my_file.txt", "r")
#a_file = open("yaxis.txt", "r")
for line in a_file:
    stripped_line = line.rstrip()
    k = float(stripped_line)
    arr.append(int(k))
print(arr[2])


@osc.signal
def increasing_signal(state):
    while True:
        global count
        if (count == len(arr) - 1):