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Hexamind
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spider-clean-text-to-sql

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bike_1
SELECT date FROM weather WHERE mean_sea_level_pressure_inches BETWEEN 30.3 AND 31
What are the dates that have an average sea level pressure between 30.3 and 31?
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
bike_1
SELECT date , max_temperature_f - min_temperature_f FROM weather ORDER BY max_temperature_f - min_temperature_f LIMIT 1
Find the day in which the difference between the max temperature and min temperature was the smallest. Also report the difference.
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
bike_1
SELECT date , max_temperature_f - min_temperature_f FROM weather ORDER BY max_temperature_f - min_temperature_f LIMIT 1
What are the days that had the smallest temperature range, and what was that range?
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
bike_1
SELECT DISTINCT T1.id , T1.name FROM station AS T1 JOIN status AS T2 ON T1.id = T2.station_id WHERE T2.bikes_available > 12
What are the id and name of the stations that have ever had more than 12 bikes available?
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
bike_1
SELECT DISTINCT T1.id , T1.name FROM station AS T1 JOIN status AS T2 ON T1.id = T2.station_id WHERE T2.bikes_available > 12
What are the different ids and names of the stations that have had more than 12 bikes available?
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
bike_1
SELECT zip_code FROM weather GROUP BY zip_code HAVING avg(mean_humidity) < 70 INTERSECT SELECT zip_code FROM trip GROUP BY zip_code HAVING count(*) >= 100
Give me the zip code where the average mean humidity is below 70 and at least 100 trips took place.
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
bike_1
SELECT zip_code FROM weather GROUP BY zip_code HAVING avg(mean_humidity) < 70 INTERSECT SELECT zip_code FROM trip GROUP BY zip_code HAVING count(*) >= 100
What are the zip codes that have an average mean humidity below 70 and had at least 100 trips come through there?
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
bike_1
SELECT name FROM station WHERE city = "Palo Alto" EXCEPT SELECT end_station_name FROM trip GROUP BY end_station_name HAVING count(*) > 100
What are the names of stations that are located in Palo Alto city but have never been the ending point of trips more than 100 times?
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
bike_1
SELECT name FROM station WHERE city = "Palo Alto" EXCEPT SELECT end_station_name FROM trip GROUP BY end_station_name HAVING count(*) > 100
What are the names of the stations that are located in Palo Alto but have never been the ending point of the trips
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
bike_1
SELECT count(*) FROM station AS T1 JOIN trip AS T2 JOIN station AS T3 JOIN trip AS T4 ON T1.id = T2.start_station_id AND T2.id = T4.id AND T3.id = T4.end_station_id WHERE T1.city = "Mountain View" AND T3.city = "Palo Alto"
How many trips started from Mountain View city and ended at Palo Alto city?
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
bike_1
SELECT count(*) FROM station AS T1 JOIN trip AS T2 JOIN station AS T3 JOIN trip AS T4 ON T1.id = T2.start_station_id AND T2.id = T4.id AND T3.id = T4.end_station_id WHERE T1.city = "Mountain View" AND T3.city = "Palo Alto"
How many trips stated from a station in Mountain View and ended at one in Palo Alto?
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
bike_1
SELECT avg(T1.lat) , avg(T1.long) FROM station AS T1 JOIN trip AS T2 ON T1.id = T2.start_station_id
What is the average latitude and longitude of the starting points of all trips?
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
bike_1
SELECT avg(T1.lat) , avg(T1.long) FROM station AS T1 JOIN trip AS T2 ON T1.id = T2.start_station_id
What is the average latitude and longitude of all starting stations for the trips?
PRAGMA foreign_keys=OFF; BEGIN TRANSACTION; CREATE TABLE station ( id INTEGER PRIMARY KEY, name TEXT, lat NUMERIC, long NUMERIC, dock_count INTEGER, city TEXT, installation_date TEXT); CREATE TABLE status ( station_id INTEGER, bikes_available INTEGER, docks_available INTEGER, time TEXT, FOREIGN KEY (station_id) REFERENCES station(id) ); CREATE TABLE trip ( id INTEGER PRIMARY KEY, duration INTEGER, start_date TEXT, start_station_name TEXT, -- this should be removed start_station_id INTEGER, end_date TEXT, end_station_name TEXT, -- this should be removed end_station_id INTEGER, bike_id INTEGER, subscription_type TEXT, zip_code INTEGER); CREATE TABLE weather ( date TEXT, max_temperature_f INTEGER, mean_temperature_f INTEGER, min_temperature_f INTEGER, max_dew_point_f INTEGER, mean_dew_point_f INTEGER, min_dew_point_f INTEGER, max_humidity INTEGER, mean_humidity INTEGER, min_humidity INTEGER, max_sea_level_pressure_inches NUMERIC, mean_sea_level_pressure_inches NUMERIC, min_sea_level_pressure_inches NUMERIC, max_visibility_miles INTEGER, mean_visibility_miles INTEGER, min_visibility_miles INTEGER, max_wind_Speed_mph INTEGER, mean_wind_speed_mph INTEGER, max_gust_speed_mph INTEGER, precipitation_inches INTEGER, cloud_cover INTEGER, events TEXT, wind_dir_degrees INTEGER, zip_code INTEGER); COMMIT;
book_2
SELECT count(*) FROM book
How many books are there?
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Writer FROM book ORDER BY Writer ASC
List the writers of the books in ascending alphabetical order.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Title FROM book ORDER BY Issues ASC
List the titles of the books in ascending order of issues.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Title FROM book WHERE Writer != "Elaine Lee"
What are the titles of the books whose writer is not "Elaine Lee"?
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Title , Issues FROM book
What are the title and issues of the books?
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Publication_Date FROM publication ORDER BY Price DESC
What are the dates of publications in descending order of price?
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT DISTINCT Publisher FROM publication WHERE Price > 5000000
What are the distinct publishers of publications with price higher than 5000000?
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Publisher FROM publication ORDER BY Price DESC LIMIT 1
List the publisher of the publication with the highest price.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Publication_Date FROM publication ORDER BY Price ASC LIMIT 3
List the publication dates of publications with 3 lowest prices.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT T1.Title , T2.Publication_Date FROM book AS T1 JOIN publication AS T2 ON T1.Book_ID = T2.Book_ID
Show the title and publication dates of books.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT T1.Writer FROM book AS T1 JOIN publication AS T2 ON T1.Book_ID = T2.Book_ID WHERE T2.Price > 4000000
Show writers who have published a book with price more than 4000000.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT T1.Title FROM book AS T1 JOIN publication AS T2 ON T1.Book_ID = T2.Book_ID ORDER BY T2.Price DESC
Show the titles of books in descending order of publication price.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Publisher FROM publication GROUP BY Publisher HAVING COUNT(*) > 1
Show publishers that have more than one publication.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Publisher , COUNT(*) FROM publication GROUP BY Publisher
Show different publishers together with the number of publications they have.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Publication_Date FROM publication GROUP BY Publication_Date ORDER BY COUNT(*) DESC LIMIT 1
Please show the most common publication date.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Writer FROM book GROUP BY Writer HAVING COUNT(*) > 1
List the writers who have written more than one book.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Title FROM book WHERE Book_ID NOT IN (SELECT Book_ID FROM publication)
List the titles of books that are not published.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Publisher FROM publication WHERE Price > 10000000 INTERSECT SELECT Publisher FROM publication WHERE Price < 5000000
Show the publishers that have publications with price higher than 10000000 and publications with price lower than 5000000.
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT COUNT (DISTINCT Publication_Date) FROM publication
What is the number of distinct publication dates?
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT COUNT (DISTINCT Publication_Date) FROM publication
How many distinct publication dates are there in our record?
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
book_2
SELECT Price FROM publication WHERE Publisher = "Person" OR Publisher = "Wiley"
Show the prices of publications whose publisher is either "Person" or "Wiley"
PRAGMA foreign_keys = ON; CREATE TABLE "publication" ( "Publication_ID" int, "Book_ID" int, "Publisher" text, "Publication_Date" text, "Price" real, PRIMARY KEY ("Publication_ID"), FOREIGN KEY ("Book_ID") REFERENCES "book"("Book_ID") ); CREATE TABLE "book" ( "Book_ID" int, "Title" text, "Issues" real, "Writer" text, PRIMARY KEY ("Book_ID") );
musical
SELECT count(*) FROM actor
How many actors are there?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT count(*) FROM actor
Count the number of actors.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Name FROM actor ORDER BY Name ASC
List the name of actors in ascending alphabetical order.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Name FROM actor ORDER BY Name ASC
What are the names of actors, ordered alphabetically?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Character , Duration FROM actor
What are the characters and duration of actors?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Character , Duration FROM actor
Return the characters and durations for each actor.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Name FROM actor WHERE Age != 20
List the name of actors whose age is not 20.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Name FROM actor WHERE Age != 20
What are the names of actors who are not 20 years old?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Character FROM actor ORDER BY age DESC
What are the characters of actors in descending order of age?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Character FROM actor ORDER BY age DESC
Return the characters for actors, ordered by age descending.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Duration FROM actor ORDER BY Age DESC LIMIT 1
What is the duration of the oldest actor?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Duration FROM actor ORDER BY Age DESC LIMIT 1
Return the duration of the actor with the greatest age.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Name FROM musical WHERE Nominee = "Bob Fosse"
What are the names of musicals with nominee "Bob Fosse"?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Name FROM musical WHERE Nominee = "Bob Fosse"
Return the names of musicals who have the nominee Bob Fosse.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT DISTINCT Nominee FROM musical WHERE Award != "Tony Award"
What are the distinct nominees of the musicals with the award that is not "Tony Award"?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT DISTINCT Nominee FROM musical WHERE Award != "Tony Award"
Return the different nominees of musicals that have an award that is not the Tony Award.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT T1.Name , T2.Name FROM actor AS T1 JOIN musical AS T2 ON T1.Musical_ID = T2.Musical_ID
Show names of actors and names of musicals they are in.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT T1.Name , T2.Name FROM actor AS T1 JOIN musical AS T2 ON T1.Musical_ID = T2.Musical_ID
What are the names of actors and the musicals that they are in?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT T1.Name FROM actor AS T1 JOIN musical AS T2 ON T1.Musical_ID = T2.Musical_ID WHERE T2.Name = "The Phantom of the Opera"
Show names of actors that have appeared in musical with name "The Phantom of the Opera".
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT T1.Name FROM actor AS T1 JOIN musical AS T2 ON T1.Musical_ID = T2.Musical_ID WHERE T2.Name = "The Phantom of the Opera"
What are the names of actors who have been in the musical titled The Phantom of the Opera?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT T1.Name FROM actor AS T1 JOIN musical AS T2 ON T1.Musical_ID = T2.Musical_ID ORDER BY T2.Year DESC
Show names of actors in descending order of the year their musical is awarded.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT T1.Name FROM actor AS T1 JOIN musical AS T2 ON T1.Musical_ID = T2.Musical_ID ORDER BY T2.Year DESC
What are the names of actors ordered descending by the year in which their musical was awarded?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT T2.Name , COUNT(*) FROM actor AS T1 JOIN musical AS T2 ON T1.Musical_ID = T2.Musical_ID GROUP BY T1.Musical_ID
Show names of musicals and the number of actors who have appeared in the musicals.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT T2.Name , COUNT(*) FROM actor AS T1 JOIN musical AS T2 ON T1.Musical_ID = T2.Musical_ID GROUP BY T1.Musical_ID
How many actors have appeared in each musical?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT T2.Name FROM actor AS T1 JOIN musical AS T2 ON T1.Musical_ID = T2.Musical_ID GROUP BY T1.Musical_ID HAVING COUNT(*) >= 3
Show names of musicals which have at least three actors.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT T2.Name FROM actor AS T1 JOIN musical AS T2 ON T1.Musical_ID = T2.Musical_ID GROUP BY T1.Musical_ID HAVING COUNT(*) >= 3
What are the names of musicals who have at 3 or more actors?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Nominee , COUNT(*) FROM musical GROUP BY Nominee
Show different nominees and the number of musicals they have been nominated.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Nominee , COUNT(*) FROM musical GROUP BY Nominee
How many musicals has each nominee been nominated for?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Nominee FROM musical GROUP BY Nominee ORDER BY COUNT(*) DESC LIMIT 1
Please show the nominee who has been nominated the greatest number of times.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Nominee FROM musical GROUP BY Nominee ORDER BY COUNT(*) DESC LIMIT 1
Who is the nominee who has been nominated for the most musicals?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT RESULT FROM musical GROUP BY RESULT ORDER BY COUNT(*) DESC LIMIT 1
List the most common result of the musicals.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT RESULT FROM musical GROUP BY RESULT ORDER BY COUNT(*) DESC LIMIT 1
Return the most frequent result across all musicals.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Nominee FROM musical GROUP BY Nominee HAVING COUNT(*) > 2
List the nominees that have been nominated more than two musicals.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Nominee FROM musical GROUP BY Nominee HAVING COUNT(*) > 2
Who are the nominees who have been nominated more than two times?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Name FROM musical WHERE Musical_ID NOT IN (SELECT Musical_ID FROM actor)
List the name of musicals that do not have actors.
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Name FROM musical WHERE Musical_ID NOT IN (SELECT Musical_ID FROM actor)
What are the names of musicals who have no actors?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Nominee FROM musical WHERE Award = "Tony Award" INTERSECT SELECT Nominee FROM musical WHERE Award = "Drama Desk Award"
Show the nominees that have nominated musicals for both "Tony Award" and "Drama Desk Award".
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Nominee FROM musical WHERE Award = "Tony Award" INTERSECT SELECT Nominee FROM musical WHERE Award = "Drama Desk Award"
Who are the nominees who have been nominated for both a Tony Award and a Drama Desk Award?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Nominee FROM musical WHERE Award = "Tony Award" OR Award = "Cleavant Derricks"
Show the musical nominee with award "Bob Fosse" or "Cleavant Derricks".
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
musical
SELECT Nominee FROM musical WHERE Award = "Tony Award" OR Award = "Cleavant Derricks"
Who are the nominees who were nominated for either of the Bob Fosse or Cleavant Derricks awards?
PRAGMA foreign_keys = ON; CREATE TABLE "musical" ( "Musical_ID" int, "Name" text, "Year" int, "Award" text, "Category" text, "Nominee" text, "Result" text, PRIMARY KEY ("Musical_ID") ); CREATE TABLE "actor" ( "Actor_ID" int, "Name" text, "Musical_ID" int, "Character" text, "Duration" text, "age" int, PRIMARY KEY ("Actor_ID"), FOREIGN KEY ("Musical_ID") REFERENCES "actor"("Actor_ID") );
product_catalog
SELECT distinct(catalog_entry_name) FROM catalog_contents
Find the names of all the catalog entries.
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT distinct(catalog_entry_name) FROM catalog_contents
What are all the catalog entry names?
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT attribute_data_type FROM Attribute_Definitions GROUP BY attribute_data_type HAVING count(*) > 3
Find the list of attribute data types possessed by more than 3 attribute definitions.
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT attribute_data_type FROM Attribute_Definitions GROUP BY attribute_data_type HAVING count(*) > 3
What are the attribute data types with more than 3 attribute definitions?
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT attribute_data_type FROM Attribute_Definitions WHERE attribute_name = "Green"
What is the attribute data type of the attribute with name "Green"?
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT attribute_data_type FROM Attribute_Definitions WHERE attribute_name = "Green"
Find the attribute data type for the attribute named "Green".
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT catalog_level_name , catalog_level_number FROM Catalog_Structure WHERE catalog_level_number BETWEEN 5 AND 10
Find the name and level of catalog structure with level between 5 and 10.
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT catalog_level_name , catalog_level_number FROM Catalog_Structure WHERE catalog_level_number BETWEEN 5 AND 10
What are the name and level of catalog structure with level number between 5 and 10
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT distinct(catalog_publisher) FROM catalogs WHERE catalog_publisher LIKE "%Murray%"
Find all the catalog publishers whose name contains "Murray"
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT distinct(catalog_publisher) FROM catalogs WHERE catalog_publisher LIKE "%Murray%"
Which catalog publishers have substring "Murray" in their names?
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT catalog_publisher FROM catalogs GROUP BY catalog_publisher ORDER BY count(*) DESC LIMIT 1
Which catalog publisher has published the most catalogs?
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT catalog_publisher FROM catalogs GROUP BY catalog_publisher ORDER BY count(*) DESC LIMIT 1
Find the catalog publisher that has the most catalogs.
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT t1.catalog_name , t1.date_of_publication FROM catalogs AS t1 JOIN catalog_structure AS t2 ON t1.catalog_id = t2.catalog_id WHERE catalog_level_number > 5
Find the names and publication dates of all catalogs that have catalog level number greater than 5.
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT t1.catalog_name , t1.date_of_publication FROM catalogs AS t1 JOIN catalog_structure AS t2 ON t1.catalog_id = t2.catalog_id WHERE catalog_level_number > 5
What are the name and publication date of the catalogs with catalog level number above 5?
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT t1.catalog_entry_name FROM Catalog_Contents AS t1 JOIN Catalog_Contents_Additional_Attributes AS t2 ON t1.catalog_entry_id = t2.catalog_entry_id WHERE t2.attribute_value = (SELECT attribute_value FROM Catalog_Contents_Additional_Attributes GROUP BY attribute_value ORDER BY count(*) DESC LIMIT 1)
What are the entry names of catalog with the attribute possessed by most entries.
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT t1.catalog_entry_name FROM Catalog_Contents AS t1 JOIN Catalog_Contents_Additional_Attributes AS t2 ON t1.catalog_entry_id = t2.catalog_entry_id WHERE t2.attribute_value = (SELECT attribute_value FROM Catalog_Contents_Additional_Attributes GROUP BY attribute_value ORDER BY count(*) DESC LIMIT 1)
Find the entry names of the catalog with the attribute that have the most entries.
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT catalog_entry_name FROM catalog_contents ORDER BY price_in_dollars DESC LIMIT 1
What is the entry name of the most expensive catalog (in USD)?
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT catalog_entry_name FROM catalog_contents ORDER BY price_in_dollars DESC LIMIT 1
Find the entry name of the catalog with the highest price (in USD).
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT t2.catalog_level_name FROM catalog_contents AS t1 JOIN catalog_structure AS t2 ON t1.catalog_level_number = t2.catalog_level_number ORDER BY t1.price_in_dollars LIMIT 1
What is the level name of the cheapest catalog (in USD)?
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT t2.catalog_level_name FROM catalog_contents AS t1 JOIN catalog_structure AS t2 ON t1.catalog_level_number = t2.catalog_level_number ORDER BY t1.price_in_dollars LIMIT 1
Find the level name of the catalog with the lowest price (in USD).
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT avg(price_in_euros) , min(price_in_euros) FROM catalog_contents
What are the average and minimum price (in Euro) of all products?
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT avg(price_in_euros) , min(price_in_euros) FROM catalog_contents
Give me the average and minimum price (in Euro) of the products.
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT catalog_entry_name FROM catalog_contents ORDER BY height DESC LIMIT 1
What is the product with the highest height? Give me the catalog entry name.
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT catalog_entry_name FROM catalog_contents ORDER BY height DESC LIMIT 1
Which catalog content has the highest height? Give me the catalog entry name.
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT catalog_entry_name FROM catalog_contents ORDER BY capacity ASC LIMIT 1
Find the name of the product that has the smallest capacity.
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );
product_catalog
SELECT catalog_entry_name FROM catalog_contents ORDER BY capacity ASC LIMIT 1
Which catalog content has the smallest capacity? Return the catalog entry name.
PRAGMA foreign_keys = ON; CREATE TABLE `Attribute_Definitions` ( `attribute_id` INTEGER PRIMARY KEY, `attribute_name` VARCHAR(30), `attribute_data_type` VARCHAR(10) ); CREATE TABLE `Catalogs` ( `catalog_id` INTEGER PRIMARY KEY, `catalog_name` VARCHAR(50), `catalog_publisher` VARCHAR(80), `date_of_publication` DATETIME, `date_of_latest_revision` DATETIME ); CREATE TABLE `Catalog_Structure` ( `catalog_level_number` INTEGER PRIMARY KEY, `catalog_id` INTEGER NOT NULL, `catalog_level_name` VARCHAR(50), FOREIGN KEY (`catalog_id` ) REFERENCES `Catalogs`(`catalog_id` ) ); CREATE TABLE `Catalog_Contents` ( `catalog_entry_id` INTEGER PRIMARY KEY, `catalog_level_number` INTEGER NOT NULL, `parent_entry_id` INTEGER, `previous_entry_id` INTEGER, `next_entry_id` INTEGER, `catalog_entry_name` VARCHAR(80), `product_stock_number` VARCHAR(50), `price_in_dollars` DOUBLE NULL, `price_in_euros` DOUBLE NULL, `price_in_pounds` DOUBLE NULL, `capacity` VARCHAR(20), `length` VARCHAR(20), `height` VARCHAR(20), `width` VARCHAR(20), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) ); CREATE TABLE `Catalog_Contents_Additional_Attributes` ( `catalog_entry_id` INTEGER NOT NULL, `catalog_level_number` INTEGER NOT NULL, `attribute_id` INTEGER NOT NULL, `attribute_value` VARCHAR(255) NOT NULL, FOREIGN KEY (`catalog_entry_id` ) REFERENCES `Catalog_Contents`(`catalog_entry_id` ), FOREIGN KEY (`catalog_level_number` ) REFERENCES `Catalog_Structure`(`catalog_level_number` ) );