Difference between revisions of "CSC111 Homework 12 2015b"
(Created page with "--~~~~ ---- <br /> <bluebox> Your assignment is due on the last day of class, 12/15/15, at 11:55 p.m. </bluebox> <br /> <center> <font size="+2">Page under construction!</...") |
(→Your Assignment) |
||
| Line 19: | Line 19: | ||
* Save the file in a folder where you will be developing your program. | * Save the file in a folder where you will be developing your program. | ||
* Unzip the zip file. You should get 37 text files. You should recognize one of them as a file we have played with before. | * Unzip the zip file. You should get 37 text files. You should recognize one of them as a file we have played with before. | ||
| − | * Store | + | * Store the (undocumented) Python program below in the same folder. It will access all the files and display some statistics about them (and it is a good seed for the program you have to write for this assignment): |
<br /> | <br /> | ||
<source lang="python"> | <source lang="python"> | ||
| + | # seedHw12.py | ||
| + | # D. Thiebaut | ||
| + | # reads several temperature files from the U.K. and displays | ||
| + | # some statistics about each one. | ||
temp = [ ('Aberporth', 'aberporthdata.txt'), | temp = [ ('Aberporth', 'aberporthdata.txt'), | ||
('Armagh', 'armaghdata.txt'), | ('Armagh', 'armaghdata.txt'), | ||
| Line 62: | Line 66: | ||
def getStats(): | def getStats(): | ||
| − | print( " | + | """ displays the name of each file, followed by the number of lines |
| + | in each one. | ||
| + | """ | ||
| + | print( " {0:20}: Number of lines".format( "UK City" ) ) | ||
count = 1 | count = 1 | ||
for pair in temp : | for pair in temp : | ||
| Line 68: | Line 75: | ||
fileName = pair[1] | fileName = pair[1] | ||
file = open( fileName, 'r' ) | file = open( fileName, 'r' ) | ||
| − | print( " | + | print( "{0:2}: {1:20}: {2:5} lines" . format( count, name, len( file.readlines() ) ) ) |
| − | |||
count += 1 | count += 1 | ||
file.close() | file.close() | ||
| Line 77: | Line 83: | ||
main() | main() | ||
| + | |||
</source> | </source> | ||
* Run the program. You should get an output of this form: | * Run the program. You should get an output of this form: | ||
| Line 121: | Line 128: | ||
</source> | </source> | ||
<br /><br /> | <br /><br /> | ||
| + | |||
=Question 1= | =Question 1= | ||
<br /> | <br /> | ||
Revision as of 19:45, 2 December 2015
--D. Thiebaut (talk) 17:56, 2 December 2015 (EST)
Your assignment is due on the last day of class, 12/15/15, at 11:55 p.m.
Page under construction!
Your Assignment
- Download this file: AllUKTemperatures.zip
- Save the file in a folder where you will be developing your program.
- Unzip the zip file. You should get 37 text files. You should recognize one of them as a file we have played with before.
- Store the (undocumented) Python program below in the same folder. It will access all the files and display some statistics about them (and it is a good seed for the program you have to write for this assignment):
# seedHw12.py
# D. Thiebaut
# reads several temperature files from the U.K. and displays
# some statistics about each one.
temp = [ ('Aberporth', 'aberporthdata.txt'),
('Armagh', 'armaghdata.txt'),
('Ballypatrick Forest', 'ballypatrickdata.txt'),
('Bradford', 'bradforddata.txt'),
('Braemar', 'braemardata.txt'),
('Camborne', 'cambornedata.txt'),
('Cambridge NIAB', 'cambridgedata.txt'),
('Cardiff Bute Park', 'cardiffdata.txt'),
('Chivenor', 'chivenordata.txt'),
('Cwmystwyth', 'cwmystwythdata.txt'),
('Dunstaffnage', 'dunstaffnagedata.txt'),
('Durham', 'durhamdata.txt'),
('Eastbourne', 'eastbournedata.txt'),
('Eskdalemuir', 'eskdalemuirdata.txt'),
('Heathrow', 'heathrowdata.txt'),
('Hurn', 'hurndata.txt'),
('Lerwick', 'lerwickdata.txt'),
('Leuchars', 'leucharsdata.txt'),
('Lowestoft', 'lowestoftdata.txt'),
('Manston', 'manstondata.txt'),
('Nairn', 'nairndata.txt'),
('Newton Rigg', 'newtonriggdata.txt'),
('Oxford', 'oxforddata.txt'),
('Paisley', 'paisleydata.txt'),
('Ringway', 'ringwaydata.txt'),
('Ross-on-Wye', 'rossonwyedata.txt'),
('Shawbury', 'shawburydata.txt'),
('Sheffield', 'sheffielddata.txt'),
('Southampton', 'southamptondata.txt'),
('Stornoway Airport', 'stornowaydata.txt'),
('Sutton Bonington', 'suttonboningtondata.txt'),
('Tiree', 'tireedata.txt'),
('Valley', 'valleydata.txt'),
('Waddington', 'waddingtondata.txt'),
('Whitby', 'whitbydata.txt'),
('Wick Airport', 'wickairportdata.txt'),
('Yeovilton', 'yeoviltondata.txt') ]
def getStats():
""" displays the name of each file, followed by the number of lines
in each one.
"""
print( " {0:20}: Number of lines".format( "UK City" ) )
count = 1
for pair in temp :
name = pair[0]
fileName = pair[1]
file = open( fileName, 'r' )
print( "{0:2}: {1:20}: {2:5} lines" . format( count, name, len( file.readlines() ) ) )
count += 1
file.close()
def main():
getStats()
main()
- Run the program. You should get an output of this form:
UK City: Number of lines
1: Aberporth: 876 lines
2: Armagh: 1932 lines
3: Ballypatrick Forest: 630 lines
4: Bradford: 1272 lines
5: Braemar: 660 lines
6: Camborne: 424 lines
7: Cambridge NIAB: 660 lines
8: Cardiff Bute Park: 436 lines
9: Chivenor: 696 lines
10: Cwmystwyth: 626 lines
11: Dunstaffnage: 511 lines
12: Durham: 1608 lines
13: Eastbourne: 660 lines
14: Eskdalemuir: 1236 lines
15: Heathrow: 792 lines
16: Hurn: 684 lines
17: Lerwick: 997 lines
18: Leuchars: 684 lines
19: Lowestoft: 1188 lines
20: Manston: 870 lines
21: Nairn: 996 lines
22: Newton Rigg: 660 lines
23: Oxford: 1932 lines
24: Paisley: 660 lines
25: Ringway: 714 lines
26: Ross-on-Wye: 997 lines
27: Shawbury: 816 lines
28: Sheffield: 1572 lines
29: Southampton: 1751 lines
30: Stornoway Airport: 1686 lines
31: Sutton Bonington: 660 lines
32: Tiree: 1032 lines
33: Valley: 997 lines
34: Waddington: 804 lines
35: Whitby: 628 lines
36: Wick Airport: 1200 lines
37: Yeovilton: 592 lines
Question 1
Write a program called hw12.py that will read these files (you can modify these original files for debugging, but your submitted program will be tested with copies of my originals) and output the city in the UK that got the most amount of rain in a given month. Your program will ask the user for the year first, and then for the month. Here is an example
please enter year: 2010 please enter month: 12
Your program should output
- A title clearly indicating Question 1 in it.
- the city
- the year
- the month (expressed as January, February, ... December)
- the amount of rain recorded
Question 2
Make your program also output the city that experienced the biggest difference in tmax-tmin temperature since 2000, included.
Your program should output
- A title clearly indicating Question 2 in it.
- the city
- the year
- the month (expressed as January, February, ... December)
- the largest difference observed
Question 3
Make your program output all the city names sorted by year when a temperature recording was first made for them.
For example, the first temperature recording for Armagh was in 1865. The first temperature recording for Sheffield was in 1883. Therefore Armagh should be listed before Sheffield in your output.
Your program should output a title clearly indicating Question 3 in it, followed by the list of cities in two columns, the first column containing the years, the second the city names. The city names are all aligned, one above each other:
Question 3 ========== Year City ... 1865 Armagh ... 1883 Sheffield ...
Grading
- Documentation, style, and readability: 20 points
- Organization into functions, passing of parameters: 20 points
- Correct output: 20+20+20 points
Submission
Submit your program to this URL: http://cs.smith.edu/~thiebaut/111b/submit13.php
