- Write a function which gives out average run time per call, such that it's definition is:
def time_it(fn, *args, repetitons= 1, **kwargs): your code comes here.
We should be able to call it like this:
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time_it(print, 1, 2, 3, sep='-', end= ' ***\n'. repetitons=5)
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time_it(squared_power_list, 2, start=0, end=5, repetitons=5) #2 is the number you are calculating power of, [1, 2, 4, 8, 16, 32]
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time_it(polygon_area, 15, sides = 3, repetitons=10) # 15 is the side length. This polygon supports area calculations of upto a hexagon
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time_it(temp_converter, 100, temp_given_in = 'f', repetitons=100) # 100 is the base temperature given to be converted
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time_it(speed_converter, 100, dist='km', time='min', repetitons=200) #dist can be km/m/ft/yrd, time can be ms/s/m/hr/day, speed given by user is in kmph
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It implements these functions (with exactly the same names)
temp_convertor,polygon_area,squared_power_list,speed_convertor,
time_it,print
- Write a test file, that tests all of the functions mentioned above + the other basic ones
- Test file must contain at least 25 tests
- temp_convertor
- 'temp_convertor'
- Test File : PyTest file
- Code: Method Implemantation
- colab File:
Serial No | Test Case | Result |
---|---|---|
1 | README File Exists | Pass |
2 | RREADME Words Counts | Pass |
3 | README proper description | Pass |
4 | RREADME Formatting | Pass |
5 | Proper identation and PEP8 guidelines | Pass |
6 | Function name not defined with capital letters | Pass |
7 | test_temp_convertor_to_cn | Pass |
8 | test_polygon_area | Pass |
9 | test_squared_power_list | Pass |
10 | test_speed_convertor | Pass |
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