def increasing_signal(state): pullData = open("my_file.txt", "r").read() dataArray = pullData.rspilt("/n") for eachline in dataArray: if (len(eachline) > 1): state.draw(float(eachline)) myModule.fib(1)
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
def call_c_extension(val): val = int(val) if val > 15: #taking too long so return error return 'Taking too long due to high value', 401 res = myModule.fib(val) #python string my_string = 'myModule.fib(' + str(val) + ')' my_string_py = 'fib(' + str(val) + ')' print('call') #call timeit t_c_func = timeit.timeit(my_string, setup='import myModule', number=1000) python_time_comp = timeit.timeit(my_string_py, setup='from fib_comp import fib', number=1000) return json.dumps({ 'result': str(res), 'c_time': str(t_c_func), 'py_time': str(python_time_comp) }).encode('utf-8'), 200
import myModule import time def fib(n): if n < 2: return n else: return fib(n - 1) + fib(n - 2) if __name__ == '__main__': s1 = time.time() print(myModule.fib(33)) c_time = time.time() - s1 print(f'C took = {c_time}') s2 = time.time() print(fib(33)) python_time = time.time() - s2 print(f'Python took = {python_time}') print(f'C was {python_time/c_time} times faster than Python')
import myModule import importlib print(mod_dir) myScript = "/Users/<Username>/Print-er-/PyCodeMod/myScript.py" def run(script, args): sys.argv = args exec(compile(open(script).read(), script, 'exec')) oldClass = myModule.myClass() newClass = myModule.myClass() fibArr = [0, 1] while(1): importlib.reload(myModule) prevClass = newClass newClass = myModule.myClass() newClass.update(prevClass) print("New myClass class:") newClass.sayHi() newClass.fib(4) print("Module function:") fibArr = myModule.fib(fibArr, 4) print("Executing Script:") run(myScript, newClass.fibNums) print("-------------------- --------------------") time.sleep(10)
def testFirst(): wanted_result = 0 test_result = myModule.fib(0) assert (wanted_result == test_result), "Test Failed"
import myModule myModule.helloworld() print([myModule.fib(i) for i in range(10)])
#!/usr/bin/env python3 import myModule print(myModule.helloworld()) help(myModule.helloworld) x = 3 print("myModule.fib({})== {}".format(x, myModule.fib((x))))
def hello_world(): print(myModule.fib(10)) print(myModule.version()) return "<strong>Hello world!</strong>"
import myModule as a print(a.fib(10))
import myModule import time import sys n = int(sys.argv[1]) x = int(sys.argv[2]) y = int(sys.argv[3]) print(myModule.fib(x)) start_time = time.time() myModule.TOH(n) time_taken = time.time() - start_time print("Time_Taken:", time_taken) start_time = time.time() print(myModule.fac(y)) time_taken = time.time() - start_time print("Time_Taken:", time_taken)
import myModule print(myModule.fib(10)) print(myModule.version())
def Main(): print(myModule.fib(10)) print(myModule.version())
import myModule print(myModule.fib(13)) print(myModule.version()) #python3 setup.py build #python3 setup.py install
import myModule # print(myModule) for _a in dir(myModule): print(_a) print(myModule.fib(2)) print(myModule.helloworld())
def testSmall(): wanted_result = 4181 test_result = myModule.fib(19) assert (wanted_result == test_result), "Test Failed"
def testMedium(): wanted_result = 317811 test_result = myModule.fib(28) assert (wanted_result == test_result), "Test Failed"
import myModule myModule.helloworld() print(myModule.fib(10)) print(myModule.error) print(myModule.plus(10, 15)) print(myModule.system("ls -lsa")) print(myModule.system("apt get install sadasdas")) print(myModule.system("ls -lsa")) myModule.set_callback(print, ("hi", "hello", 1)) myModule.call_callback()
def testLarge(): wanted_result = 102334155 test_result = myModule.fib(40) assert (wanted_result == test_result), "Test Failed"
import importlib print(mod_dir) myScript = "/Users/<Username>/Print-er-/PyCodeMod/myScript.py" def run(script, args): sys.argv = args exec(compile(open(script).read(), script, 'exec')) oldClass = myModule.myClass() newClass = myModule.myClass() fibArr = [0, 1] while (1): importlib.reload(myModule) prevClass = newClass newClass = myModule.myClass() newClass.update(prevClass) print("New myClass class:") newClass.sayHi() newClass.fib(4) print("Module function:") fibArr = myModule.fib(fibArr, 4) print("Executing Script:") run(myScript, newClass.fibNums) print("-------------------- --------------------") time.sleep(10)
def test_A(): assert myModule.fib(3) == 2