1-DAV-202 Data Management 2024/25
HWsql
See also the lecture and Python tutorial.
Contents
Introduction
- Task A: introduction to Python
- Tasks B1, B2: introduction to SQL
- Task C: Python+SQL
- Task D: SQL and optionally also Python
If you are a beginner in Python (not DAV and BIN students!), do tasks A,B1,B2,C. Otherwise do tasks B1,B2,C,D.
Preparation and submitting
Before you start working, copy files to your home folder:
mkdir sql
cd sql
cp -iv /tasks/sql/* .
The folder contains the following files:
- *.py: scripts from the Python tutorial, included for convenience
- series.csv, episodes.csv: data files introduced in the lecture
- create_db.sql: SQL commands to create the database needed in tasks B1, B2, C, D
- protocol.txt: fill in and submit the protocol.
Submit by copying requested files to /submit/sql/username/ as follows (use the version for beginners or non-beginners):
# for beginners in Python:
cp -ipv protocol.txt taskA.py taskA.txt taskB1.sql taskB1.txt taskB2.sql taskB2.txt taskC.py series.db series2.db /submit/sql/username/
# for non-beginners in Python:
cp -ipv protocol.txt taskB1.sql taskB1.txt taskB2.sql taskB2.txt taskC.py series.db series2.db taskD.py taskD.sql taskD.txt /submit/sql/username/
# one of taskD.py and taskD.sql will be missing
# this is ok
Task A (Python)
Write a script taskA.py which reads both csv files and outputs for each TV channel the total number of episodes in their series combined. Run your script as follows:
python3 taskA.py > taskA.txt
One of the lines of your output should be:
The number of episodes for channel "HBO" is 76
Submit file taskA.py with your script and the output file taskA.txt:
Hints:
- A good place to start is prog4.py with reading both csv files and prog2.py with a dictionary of counters.
- It might be useful to build a dictionary linking the series id to the channel name for that series.
Task B1 (SQL)
To prepare the database for tasks B1, B2, C and D, run the command:
sqlite3 series.db < create_db.sql
To verify that your database was created correctly, you can run the following commands:
sqlite3 series.db ".tables"
# output should be episodes series
sqlite3 series.db "select count() from episodes; select count() from series;"
# output should be 348 and 10
The task here is to extend the last query in the lecture, which counts the number of episodes and average rating per each season of each series:
SELECT seriesId, season, COUNT() AS episode_count, AVG(rating) AS rating
FROM episodes GROUP BY seriesId, season;
Use join with the series table to replace the numeric series id with the series title and add the channel name. Write your SQL query to file taskB1.sql. The first two lines of the file should be
.mode column
.headers on
Run your query as follows:
sqlite3 series.db < taskB1.sql > taskB1.txt
For example, both seasons of True Detective by HBO have 8 episodes and average ratings 9.3 and 8.25
True Detective HBO 1 8 9.3 True Detective HBO 2 8 8.25
Submit taskB1.sql and taskB1.txt
Task B2 (SQL)
For each channel, compute the total count and average rating of all their episodes. Write your SQL query to file taskB2.sql. As before, the first two lines of the file should be
.mode column
.headers on
Run your query as follows:
sqlite3 series.db < taskB2.sql > taskB2.txt
For example, all 76 episodes for the two HBO series have average rating as follows:
HBO 76 8.98947368421053
Submit taskB2.sql and taskB2.txt
Task C (Python+SQL)
If you have not done so already, create the SQLite3 database, as explained at the beginning of task B1.
In this task you should write a script taskC.py that will combine
- processing command-line arguments, and
- reading and writing SQLite3 database from Python.
Your script should run the last query from the lecture (shown below) and store its results in a separate table called seasons in the same database file.
/* print the number of episodes
and average rating per season and series,
using only seasons with at least 6 episodes */
SELECT seriesId, season, COUNT() AS episode_count,
AVG(rating) AS avg_rating
FROM episodes
GROUP BY seriesId, season
HAVING episode_count >= 6;
Command-line arguments of your script:
- one required argument giving name of the file with the database (e.g. series.db)
- an optional argument min_count (switch -m) with default value 6 which gives the minimum episode count in a season to be printed. Use this value instead of constant 6 in the query above.
An example with similar arguments is in argument_example.py (see Python tutorial.
- At the start of your script, execute SQL command DROP TABLE IF EXISTS seasons, which will erase attempts from previous runs of your script. Afterwards execute SQL CREATE TABLE command for creating seasons table with appropriate column names and types to store the result of the query.
- Use placeholder "?" in the SELECT query to insert min_count value (as in read_db.py from the lecture).
- Read each row of the SELECT query in Python and store it by running INSERT command from Python. (SQL can store the results from a query directly in a table, but in this task you should use Python instead.)
- The cursor from the SELECT query is needed while you iterate over the results. Therefore create two cursors: one for reading the database and one for writing.
- The SQLite3 library in Python has some implicit transactions, so you may end up with some locking errors. We recommend the following order of commands: (1) create connection and two cursors, (2) run DROP TABLE and CREATE TABLE commands, commit changes, (3) run SELECT command on one of the cursors, (4) as you iterate through results of SELECT, run INSERT on the second cursor, (4) commit changes. You could also commit after each INSERT.
To test your script, run the following sequence of commands
# delete database if it exists
rm series.db
# create series.db as in task B1
sqlite3 series.db < create_db.sql
# create a copy of the database
cp series.db series2.db
# run your script on series.db with default min_count=6
python3 taskC.py series.db
# the following line prints the number of records in your table
# it should be 29
sqlite3 series.db "SELECT count(*) FROM seasons"
# run your script on series2.db with min_count=10
python3 taskC.py --min_count=10 series2.db
# here the number of lines should be 22
sqlite3 series2.db "SELECT count(*) FROM seasons"
To further check your table, print all rows of your table:
sqlite3 series.db "SELECT * FROM seasons"
One of the lines printed should be "5|1|8|9.3" which is for season 1 of series 5 (True Detective) with 8 episodes.
Submit your script taskC.py and the modified databases series.db and series2.db.
Task D (SQL, optionally Python)
For each pair of consecutive seasons within each series, compute how much has the average rating increased or decreased.
- For example in the Sherlock series, season 1 had rating 8.825 and season 2 rating 9.26666666666667, and thus the difference in ratings is 0.44166666666667
- Print a table containing series name, season number x, average rating in season x and average rating in season x+1
- The table should be ordered by the difference between the last two columns, i.e. from seasons with the highest increase to seasons with the highest drop.
- One option is to run a query in SQL in which you join the seasons table from task C with itself and select rows that belong to the same series and successive seasons.
- You can also read the rows of the seasons table in Python, combine information from rows for successive seasons of the same series and create the final report by sorting.
- Submit your code as taskD.py or taskD.sql and the resulting table as taskD.txt
The output should start like this (the formatting may differ):
series season x rating for x rating for x+1 ---------- ---------- ------------ ---------------- Sherlock 1 8.825 9.26666666666667 Breaking B 4 9.0 9.375
When using SQL without Python, include the following two lines in taskD.sql
.mode column
.headers on
and run your query as sqlite3 series.db < taskD.sql > taskD.txt
