cloudcodeai/sqlqa-test · Datasets at Hugging Face

question stringlengths 16 224	context stringlengths 30 355	answer stringlengths 31 570
Which winery is the wine that has the highest score from?	CREATE TABLE WINE (Winery VARCHAR, SCORE VARCHAR)	[SQL] SELECT Winery FROM WINE ORDER BY SCORE LIMIT 1 [/SQL]
Find the names of all wines produced in 2008.	CREATE TABLE WINE (Name VARCHAR, YEAR VARCHAR)	[SQL] SELECT Name FROM WINE WHERE YEAR = "2008" [/SQL]
List the grapes and appelations of all wines.	CREATE TABLE WINE (Grape VARCHAR, Appelation VARCHAR)	[SQL] SELECT Grape, Appelation FROM WINE [/SQL]
List the names and scores of all wines.	CREATE TABLE WINE (Name VARCHAR, Score VARCHAR)	[SQL] SELECT Name, Score FROM WINE [/SQL]
List the area and county of all appelations.	CREATE TABLE APPELLATIONS (Area VARCHAR, County VARCHAR)	[SQL] SELECT Area, County FROM APPELLATIONS [/SQL]
What are the prices of wines produced before the year of 2010?	CREATE TABLE WINE (Price VARCHAR, YEAR INTEGER)	[SQL] SELECT Price FROM WINE WHERE YEAR < 2010 [/SQL]
List the names of all distinct wines that have scores higher than 90.	CREATE TABLE WINE (Name VARCHAR, score INTEGER)	[SQL] SELECT Name FROM WINE WHERE score > 90 [/SQL]
List the names of all distinct wines that are made of red color grape.	CREATE TABLE GRAPES (Grape VARCHAR, Color VARCHAR); CREATE TABLE WINE (Name VARCHAR, Grape VARCHAR)	[SQL] SELECT DISTINCT T2.Name FROM GRAPES AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape WHERE T1.Color = "Red" [/SQL]
Find the names of all distinct wines that have appellations in North Coast area.	CREATE TABLE APPELLATIONs (Appelation VARCHAR, Area VARCHAR); CREATE TABLE WINE (Name VARCHAR, Appelation VARCHAR)	[SQL] SELECT DISTINCT T2.Name FROM APPELLATIONs AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.Area = "North Coast" [/SQL]
How many wines are produced at Robert Biale winery?	CREATE TABLE WINE (Winery VARCHAR)	[SQL] SELECT COUNT(*) FROM WINE WHERE Winery = "Robert Biale" [/SQL]
How many appelations are in Napa Country?	CREATE TABLE APPELLATIONS (County VARCHAR)	[SQL] SELECT COUNT(*) FROM APPELLATIONS WHERE County = "Napa" [/SQL]
Give me the average prices of wines that are produced by appelations in Sonoma County.	CREATE TABLE WINE (Price INTEGER, Appelation VARCHAR); CREATE TABLE APPELLATIONS (Appelation VARCHAR, County VARCHAR)	[SQL] SELECT AVG(T2.Price) FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.County = "Sonoma" [/SQL]
What are the names and scores of wines that are made of white color grapes?	CREATE TABLE GRAPES (Grape VARCHAR, Color VARCHAR); CREATE TABLE WINE (Name VARCHAR, Score VARCHAR, Grape VARCHAR)	[SQL] SELECT T2.Name, T2.Score FROM GRAPES AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape WHERE T1.Color = "White" [/SQL]
Find the maximum price of wins from the appelations in Central Coast area and produced before the year of 2005.	CREATE TABLE APPELLATIONS (Appelation VARCHAR, Area VARCHAR); CREATE TABLE WINE (Price INTEGER, Appelation VARCHAR, year VARCHAR)	[SQL] SELECT MAX(T2.Price) FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.Area = "Central Coast" AND T2.year < 2005 [/SQL]
Find the the grape whose white color grapes are used to produce wines with scores higher than 90.	CREATE TABLE GRAPES (Grape VARCHAR, Color VARCHAR); CREATE TABLE WINE (Grape VARCHAR, score VARCHAR)	[SQL] SELECT DISTINCT T1.Grape FROM GRAPES AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape WHERE T1.Color = "White" AND T2.score > 90 [/SQL]
What are the wines that have prices higher than 50 and made of Red color grapes?	CREATE TABLE WINE (Name VARCHAR, Grape VARCHAR, price VARCHAR); CREATE TABLE Grapes (Grape VARCHAR, Color VARCHAR)	[SQL] SELECT T2.Name FROM Grapes AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape WHERE T1.Color = "Red" AND T2.price > 50 [/SQL]
What are the wines that have prices lower than 50 and have appelations in Monterey county?	CREATE TABLE APPELLATIONS (Appelation VARCHAR, County VARCHAR); CREATE TABLE WINE (Name VARCHAR, Appelation VARCHAR, price VARCHAR)	[SQL] SELECT T2.Name FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.County = "Monterey" AND T2.price < 50 [/SQL]
What are the numbers of wines for different grapes?	CREATE TABLE WINE (Grape VARCHAR)	[SQL] SELECT COUNT(*), Grape FROM WINE GROUP BY Grape [/SQL]
What are the average prices of wines for different years?	CREATE TABLE WINE (YEAR VARCHAR, Price INTEGER)	[SQL] SELECT AVG(Price), YEAR FROM WINE GROUP BY YEAR [/SQL]
Find the distinct names of all wines that have prices higher than some wines from John Anthony winery.	CREATE TABLE wine (Name VARCHAR, Price INTEGER, Winery VARCHAR); CREATE TABLE WINE (Name VARCHAR, Price INTEGER, Winery VARCHAR)	[SQL] SELECT DISTINCT Name FROM WINE WHERE Price > (SELECT MIN(Price) FROM wine WHERE Winery = "John Anthony") [/SQL]
List the names of all distinct wines in alphabetical order.	CREATE TABLE WINE (Name VARCHAR)	[SQL] SELECT DISTINCT Name FROM WINE ORDER BY Name [/SQL]
List the names of all distinct wines ordered by price.	CREATE TABLE WINE (Name VARCHAR, price VARCHAR)	[SQL] SELECT DISTINCT Name FROM WINE ORDER BY price [/SQL]
What is the area of the appelation that produces the highest number of wines before the year of 2010?	CREATE TABLE WINE (Appelation VARCHAR, year VARCHAR); CREATE TABLE APPELLATIONS (Area VARCHAR, Appelation VARCHAR)	[SQL] SELECT T1.Area FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation GROUP BY T2.Appelation HAVING T2.year < 2010 ORDER BY COUNT(*) DESC LIMIT 1 [/SQL]
What is the color of the grape whose wine products has the highest average price?	CREATE TABLE GRAPES (Color VARCHAR, Grape VARCHAR); CREATE TABLE WINE (Grape VARCHAR)	[SQL] SELECT T1.Color FROM GRAPES AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape GROUP BY T2.Grape ORDER BY AVG(Price) DESC LIMIT 1 [/SQL]
Find the distinct names of wines produced before the year of 2000 or after the year of 2010.	CREATE TABLE WINE (Name VARCHAR, YEAR VARCHAR)	[SQL] SELECT DISTINCT Name FROM WINE WHERE YEAR < 2000 OR YEAR > 2010 [/SQL]
Find the distinct winery of wines having price between 50 and 100.	CREATE TABLE WINE (Winery VARCHAR, Price INTEGER)	[SQL] SELECT DISTINCT Winery FROM WINE WHERE Price BETWEEN 50 AND 100 [/SQL]
What are the average prices and cases of wines produced in the year of 2009 and made of Zinfandel grape?	CREATE TABLE WINE (Price INTEGER, Cases INTEGER, YEAR VARCHAR, Grape VARCHAR)	[SQL] SELECT AVG(Price), AVG(Cases) FROM WINE WHERE YEAR = 2009 AND Grape = "Zinfandel" [/SQL]
What are the maximum price and score of wines produced by St. Helena appelation?	CREATE TABLE WINE (Price INTEGER, Score INTEGER, Appelation VARCHAR)	[SQL] SELECT MAX(Price), MAX(Score) FROM WINE WHERE Appelation = "St. Helena" [/SQL]
What are the maximum price and score of wines in each year?	CREATE TABLE WINE (YEAR VARCHAR, Price INTEGER, Score INTEGER)	[SQL] SELECT MAX(Price), MAX(Score), YEAR FROM WINE GROUP BY YEAR [/SQL]
What are the average price and score of wines grouped by appelation?	CREATE TABLE WINE (Appelation VARCHAR, Price INTEGER, Score INTEGER)	[SQL] SELECT AVG(Price), AVG(Score), Appelation FROM WINE GROUP BY Appelation [/SQL]
Find the wineries that have at least four wines.	CREATE TABLE WINE (Winery VARCHAR)	[SQL] SELECT Winery FROM WINE GROUP BY Winery HAVING COUNT(*) >= 4 [/SQL]
Find the country of all appelations who have at most three wines.	CREATE TABLE APPELLATIONS (County VARCHAR, Appelation VARCHAR); CREATE TABLE WINE (Appelation VARCHAR)	[SQL] SELECT T1.County FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation GROUP BY T2.Appelation HAVING COUNT(*) <= 3 [/SQL]
What are the names of wines whose production year are before the year of all wines by Brander winery?	CREATE TABLE WINE (Name VARCHAR, YEAR INTEGER, Winery VARCHAR)	[SQL] SELECT Name FROM WINE WHERE YEAR < (SELECT MIN(YEAR) FROM WINE WHERE Winery = "Brander") [/SQL]
What are the names of wines that are more expensive then all wines made in the year 2006?	CREATE TABLE WINE (Name VARCHAR, Price INTEGER, YEAR VARCHAR)	[SQL] SELECT Name FROM WINE WHERE Price > (SELECT MAX(Price) FROM WINE WHERE YEAR = 2006) [/SQL]
Find the top 3 wineries with the greatest number of wines made of white color grapes.	CREATE TABLE GRAPES (GRAPE VARCHAR, Color VARCHAR); CREATE TABLE WINE (Winery VARCHAR, GRAPE VARCHAR)	[SQL] SELECT T2.Winery FROM GRAPES AS T1 JOIN WINE AS T2 ON T1.GRAPE = T2.GRAPE WHERE T1.Color = "White" GROUP BY T2.Winery ORDER BY COUNT(*) DESC LIMIT 3 [/SQL]
List the grape, winery and year of the wines whose price is bigger than 100 ordered by year.	CREATE TABLE WINE (Grape VARCHAR, Winery VARCHAR, YEAR VARCHAR, Price INTEGER)	[SQL] SELECT Grape, Winery, YEAR FROM WINE WHERE Price > 100 ORDER BY YEAR [/SQL]
List the grape, appelation and name of wines whose score is higher than 93 ordered by Name.	CREATE TABLE WINE (Grape VARCHAR, Appelation VARCHAR, Name VARCHAR, Score INTEGER)	[SQL] SELECT Grape, Appelation, Name FROM WINE WHERE Score > 93 ORDER BY Name [/SQL]
Find the appelations that produce wines after the year of 2008 but not in Central Coast area.	CREATE TABLE WINE (Appelation VARCHAR, YEAR INTEGER, Area VARCHAR); CREATE TABLE APPELLATIONS (Appelation VARCHAR, YEAR INTEGER, Area VARCHAR)	[SQL] SELECT Appelation FROM WINE WHERE YEAR > 2008 EXCEPT SELECT Appelation FROM APPELLATIONS WHERE Area = "Central Coast" [/SQL]
Find the average price of wines that are not produced from Sonoma county.	CREATE TABLE wine (price INTEGER, Appelation VARCHAR); CREATE TABLE APPELLATIONS (Appelation VARCHAR, County VARCHAR); CREATE TABLE WINE (Appelation VARCHAR)	[SQL] SELECT AVG(price) FROM wine WHERE NOT Appelation IN (SELECT T1.Appelation FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.County = 'Sonoma') [/SQL]
Find the county where produces the most number of wines with score higher than 90.	CREATE TABLE WINE (Appelation VARCHAR, Score INTEGER); CREATE TABLE APPELLATIONS (County VARCHAR, Appelation VARCHAR)	[SQL] SELECT T1.County FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T2.Score > 90 GROUP BY T1.County ORDER BY COUNT(*) DESC LIMIT 1 [/SQL]
How many train stations are there?	CREATE TABLE station (Id VARCHAR)	[SQL] SELECT COUNT(*) FROM station [/SQL]
Show the name, location, and number of platforms for all stations.	CREATE TABLE station (name VARCHAR, LOCATION VARCHAR, number_of_platforms VARCHAR)	[SQL] SELECT name, LOCATION, number_of_platforms FROM station [/SQL]
What are all locations of train stations?	CREATE TABLE station (LOCATION VARCHAR)	[SQL] SELECT DISTINCT LOCATION FROM station [/SQL]
Show the names and total passengers for all train stations not in London.	CREATE TABLE station (name VARCHAR, total_passengers VARCHAR, LOCATION VARCHAR)	[SQL] SELECT name, total_passengers FROM station WHERE LOCATION <> 'London' [/SQL]
Show the names and main services for train stations that have the top three total number of passengers.	CREATE TABLE station (name VARCHAR, main_services VARCHAR, total_passengers VARCHAR)	[SQL] SELECT name, main_services FROM station ORDER BY total_passengers DESC LIMIT 3 [/SQL]
What is the average and maximum number of total passengers for train stations in London or Glasgow?	CREATE TABLE station (total_passengers INTEGER, LOCATION VARCHAR)	[SQL] SELECT AVG(total_passengers), MAX(total_passengers) FROM station WHERE LOCATION = 'London' OR LOCATION = 'Glasgow' [/SQL]
Show all locations and the total number of platforms and passengers for all train stations in each location.	CREATE TABLE station (LOCATION VARCHAR, number_of_platforms INTEGER, total_passengers INTEGER)	[SQL] SELECT LOCATION, SUM(number_of_platforms), SUM(total_passengers) FROM station GROUP BY LOCATION [/SQL]
Show all locations that have train stations with at least 15 platforms and train stations with more than 25 total passengers.	CREATE TABLE station (LOCATION VARCHAR, number_of_platforms VARCHAR, total_passengers VARCHAR)	[SQL] SELECT DISTINCT LOCATION FROM station WHERE number_of_platforms >= 15 AND total_passengers > 25 [/SQL]
Show all locations which don't have a train station with at least 15 platforms.	CREATE TABLE station (LOCATION VARCHAR, number_of_platforms VARCHAR)	[SQL] SELECT LOCATION FROM station EXCEPT SELECT LOCATION FROM station WHERE number_of_platforms >= 15 [/SQL]
Show the location with most number of train stations.	CREATE TABLE station (LOCATION VARCHAR)	[SQL] SELECT LOCATION FROM station GROUP BY LOCATION ORDER BY COUNT(*) DESC LIMIT 1 [/SQL]
Show the name, time, and service for all trains.	CREATE TABLE train (name VARCHAR, TIME VARCHAR, service VARCHAR)	[SQL] SELECT name, TIME, service FROM train [/SQL]
Show the number of trains	CREATE TABLE train (Id VARCHAR)	[SQL] SELECT COUNT(*) FROM train [/SQL]
Show the name and service for all trains in order by time.	CREATE TABLE train (name VARCHAR, service VARCHAR, TIME VARCHAR)	[SQL] SELECT name, service FROM train ORDER BY TIME [/SQL]
Show the station name and number of trains in each station.	CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR)	[SQL] SELECT T2.name, COUNT(*) FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id GROUP BY T1.station_id [/SQL]
show the train name and station name for each train.	CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train (name VARCHAR, train_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR, train_id VARCHAR)	[SQL] SELECT T2.name, T3.name FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id JOIN train AS T3 ON T3.train_id = T1.train_id [/SQL]
Show all train names and times in stations in London in descending order by train time.	CREATE TABLE train_station (station_id VARCHAR, train_id VARCHAR); CREATE TABLE station (station_id VARCHAR, location VARCHAR); CREATE TABLE train (name VARCHAR, time VARCHAR, train_id VARCHAR)	[SQL] SELECT T3.name, T3.time FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id JOIN train AS T3 ON T3.train_id = T1.train_id WHERE T2.location = 'London' ORDER BY T3.time DESC [/SQL]
Show the station name with greatest number of trains.	CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR)	[SQL] SELECT T2.name FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id GROUP BY T1.station_id ORDER BY COUNT(*) DESC LIMIT 1 [/SQL]
Show the station name with at least two trains.	CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR)	[SQL] SELECT T2.name FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id GROUP BY T1.station_id HAVING COUNT(*) >= 2 [/SQL]
Show all locations with only 1 station.	CREATE TABLE station (LOCATION VARCHAR)	[SQL] SELECT LOCATION FROM station GROUP BY LOCATION HAVING COUNT(*) = 1 [/SQL]
Show station names without any trains.	CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train_station (name VARCHAR, station_id VARCHAR)	[SQL] SELECT name FROM station WHERE NOT station_id IN (SELECT station_id FROM train_station) [/SQL]
What are the names of the stations which serve both "Ananthapuri Express" and "Guruvayur Express" trains?	CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train (train_id VARCHAR, Name VARCHAR); CREATE TABLE train_station (station_id VARCHAR, train_id VARCHAR)	[SQL] SELECT T2.name FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id JOIN train AS T3 ON T3.train_id = T1.train_id WHERE T3.Name = "Ananthapuri Express" INTERSECT SELECT T2.name FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id JOIN train AS T3 ON T3.train_id = T1.train_id WHERE T3.Name = "Guruvayur Express" [/SQL]
Find the names of the trains that do not pass any station located in London.	CREATE TABLE station (station_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR); CREATE TABLE train_station (train_id VARCHAR, station_id VARCHAR); CREATE TABLE train (name VARCHAR, train_id VARCHAR)	[SQL] SELECT T2.name FROM train_station AS T1 JOIN train AS T2 ON T1.train_id = T2.train_id WHERE NOT T1.station_id IN (SELECT T4.station_id FROM train_station AS T3 JOIN station AS T4 ON T3.station_id = T4.station_id WHERE t4.location = "London") [/SQL]
List the names and locations of all stations ordered by their yearly entry exit and interchange amounts.	CREATE TABLE station (name VARCHAR, LOCATION VARCHAR, Annual_entry_exit VARCHAR, Annual_interchanges VARCHAR)	[SQL] SELECT name, LOCATION FROM station ORDER BY Annual_entry_exit, Annual_interchanges [/SQL]
List all vehicle id	CREATE TABLE Vehicles (vehicle_id VARCHAR)	[SQL] SELECT vehicle_id FROM Vehicles [/SQL]
How many vehicle in total?	CREATE TABLE Vehicles (Id VARCHAR)	[SQL] SELECT COUNT(*) FROM Vehicles [/SQL]
Show the detail of vehicle with id 1.	CREATE TABLE Vehicles (vehicle_details VARCHAR, vehicle_id VARCHAR)	[SQL] SELECT vehicle_details FROM Vehicles WHERE vehicle_id = 1 [/SQL]
List the first name middle name and last name of all staff.	CREATE TABLE Staff (first_name VARCHAR, middle_name VARCHAR, last_name VARCHAR)	[SQL] SELECT first_name, middle_name, last_name FROM Staff [/SQL]
What is the birthday of the staff member with first name as Janessa and last name as Sawayn?	CREATE TABLE Staff (date_of_birth VARCHAR, first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT date_of_birth FROM Staff WHERE first_name = "Janessa" AND last_name = "Sawayn" [/SQL]
When did the staff member with first name as Janessa and last name as Sawayn join the company?	CREATE TABLE Staff (date_joined_staff VARCHAR, first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT date_joined_staff FROM Staff WHERE first_name = "Janessa" AND last_name = "Sawayn" [/SQL]
When did the staff member with first name as Janessa and last name as Sawayn leave the company?	CREATE TABLE Staff (date_left_staff VARCHAR, first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT date_left_staff FROM Staff WHERE first_name = "Janessa" AND last_name = "Sawayn" [/SQL]
How many staff have the first name Ludie?	CREATE TABLE Staff (first_name VARCHAR)	[SQL] SELECT COUNT(*) FROM Staff WHERE first_name = "Ludie" [/SQL]
What is the nickname of staff with first name as Janessa and last name as Sawayn?	CREATE TABLE Staff (nickname VARCHAR, first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT nickname FROM Staff WHERE first_name = "Janessa" AND last_name = "Sawayn" [/SQL]
How many staff in total?	CREATE TABLE Staff (Id VARCHAR)	[SQL] SELECT COUNT(*) FROM Staff [/SQL]
Which city does staff with first name as Janessa and last name as Sawayn live?	CREATE TABLE Staff (staff_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR); CREATE TABLE Addresses (city VARCHAR, address_id VARCHAR)	[SQL] SELECT T1.city FROM Addresses AS T1 JOIN Staff AS T2 ON T1.address_id = T2.staff_address_id WHERE T2.first_name = "Janessa" AND T2.last_name = "Sawayn" [/SQL]
Which country and state does staff with first name as Janessa and last name as Sawayn lived?	CREATE TABLE Addresses (country VARCHAR, state_province_county VARCHAR, address_id VARCHAR); CREATE TABLE Staff (staff_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT T1.country, T1.state_province_county FROM Addresses AS T1 JOIN Staff AS T2 ON T1.address_id = T2.staff_address_id WHERE T2.first_name = "Janessa" AND T2.last_name = "Sawayn" [/SQL]
How long is the total lesson time took by customer with first name as Rylan and last name as Goodwin?	CREATE TABLE Lessons (lesson_time INTEGER, customer_id VARCHAR); CREATE TABLE Customers (customer_id VARCHAR, first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT SUM(T1.lesson_time) FROM Lessons AS T1 JOIN Customers AS T2 ON T1.customer_id = T2.customer_id WHERE T2.first_name = "Rylan" AND T2.last_name = "Goodwin" [/SQL]
What is the zip code of staff with first name as Janessa and last name as Sawayn lived?	CREATE TABLE Addresses (zip_postcode VARCHAR, address_id VARCHAR); CREATE TABLE Staff (staff_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT T1.zip_postcode FROM Addresses AS T1 JOIN Staff AS T2 ON T1.address_id = T2.staff_address_id WHERE T2.first_name = "Janessa" AND T2.last_name = "Sawayn" [/SQL]
How many staff live in state Georgia?	CREATE TABLE Addresses (state_province_county VARCHAR)	[SQL] SELECT COUNT(*) FROM Addresses WHERE state_province_county = "Georgia" [/SQL]
Find out the first name and last name of staff lived in city Damianfort.	CREATE TABLE Staff (first_name VARCHAR, last_name VARCHAR, staff_address_id VARCHAR); CREATE TABLE Addresses (address_id VARCHAR, city VARCHAR)	[SQL] SELECT T2.first_name, T2.last_name FROM Addresses AS T1 JOIN Staff AS T2 ON T1.address_id = T2.staff_address_id WHERE T1.city = "Damianfort" [/SQL]
Which city lives most of staffs? List the city name and number of staffs.	CREATE TABLE Staff (staff_address_id VARCHAR); CREATE TABLE Addresses (city VARCHAR, address_id VARCHAR)	[SQL] SELECT T1.city, COUNT() FROM Addresses AS T1 JOIN Staff AS T2 ON T1.address_id = T2.staff_address_id GROUP BY T1.city ORDER BY COUNT() DESC LIMIT 1 [/SQL]
List the states which have between 2 to 4 staffs living there.	CREATE TABLE Addresses (state_province_county VARCHAR, address_id VARCHAR); CREATE TABLE Staff (staff_address_id VARCHAR)	[SQL] SELECT T1.state_province_county FROM Addresses AS T1 JOIN Staff AS T2 ON T1.address_id = T2.staff_address_id GROUP BY T1.state_province_county HAVING COUNT(*) BETWEEN 2 AND 4 [/SQL]
List the first name and last name of all customers.	CREATE TABLE Customers (first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT first_name, last_name FROM Customers [/SQL]
List email address and birthday of customer whose first name as Carole.	CREATE TABLE Customers (email_address VARCHAR, date_of_birth VARCHAR, first_name VARCHAR)	[SQL] SELECT email_address, date_of_birth FROM Customers WHERE first_name = "Carole" [/SQL]
List phone number and email address of customer with more than 2000 outstanding balance.	CREATE TABLE Customers (phone_number VARCHAR, email_address VARCHAR, amount_outstanding INTEGER)	[SQL] SELECT phone_number, email_address FROM Customers WHERE amount_outstanding > 2000 [/SQL]
What is the status code, mobile phone number and email address of customer with last name as Kohler or first name as Marina?	CREATE TABLE Customers (customer_status_code VARCHAR, cell_mobile_phone_number VARCHAR, email_address VARCHAR, first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT customer_status_code, cell_mobile_phone_number, email_address FROM Customers WHERE first_name = "Marina" OR last_name = "Kohler" [/SQL]
When are the birthdays of customer who are classified as 'Good Customer' status?	CREATE TABLE Customers (date_of_birth VARCHAR, customer_status_code VARCHAR)	[SQL] SELECT date_of_birth FROM Customers WHERE customer_status_code = 'Good Customer' [/SQL]
When did customer with first name as Carole and last name as Bernhard became a customer?	CREATE TABLE Customers (date_became_customer VARCHAR, first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT date_became_customer FROM Customers WHERE first_name = "Carole" AND last_name = "Bernhard" [/SQL]
List all customer status codes and the number of customers having each status code.	CREATE TABLE Customers (customer_status_code VARCHAR)	[SQL] SELECT customer_status_code, COUNT(*) FROM Customers GROUP BY customer_status_code [/SQL]
Which customer status code has least number of customers?	CREATE TABLE Customers (customer_status_code VARCHAR)	[SQL] SELECT customer_status_code FROM Customers GROUP BY customer_status_code ORDER BY COUNT(*) LIMIT 1 [/SQL]
How many lessons taken by customer with first name as Rylan and last name as Goodwin were completed?	CREATE TABLE Lessons (customer_id VARCHAR, lesson_status_code VARCHAR); CREATE TABLE Customers (customer_id VARCHAR, first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT COUNT(*) FROM Lessons AS T1 JOIN Customers AS T2 ON T1.customer_id = T2.customer_id WHERE T2.first_name = "Rylan" AND T2.last_name = "Goodwin" AND T1.lesson_status_code = "Completed" [/SQL]
What is maximum, minimum and average amount of outstanding of customer?	CREATE TABLE Customers (amount_outstanding INTEGER)	[SQL] SELECT MAX(amount_outstanding), MIN(amount_outstanding), AVG(amount_outstanding) FROM Customers [/SQL]
List the first name and last name of customers have the amount of outstanding between 1000 and 3000.	CREATE TABLE Customers (first_name VARCHAR, last_name VARCHAR, amount_outstanding INTEGER)	[SQL] SELECT first_name, last_name FROM Customers WHERE amount_outstanding BETWEEN 1000 AND 3000 [/SQL]
List first name and last name of customers lived in city Lockmanfurt.	CREATE TABLE Customers (first_name VARCHAR, last_name VARCHAR, customer_address_id VARCHAR); CREATE TABLE Addresses (address_id VARCHAR, city VARCHAR)	[SQL] SELECT T1.first_name, T1.last_name FROM Customers AS T1 JOIN Addresses AS T2 ON T1.customer_address_id = T2.address_id WHERE T2.city = "Lockmanfurt" [/SQL]
Which country does customer with first name as Carole and last name as Bernhard lived in?	CREATE TABLE Addresses (country VARCHAR, address_id VARCHAR); CREATE TABLE Customers (customer_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT T2.country FROM Customers AS T1 JOIN Addresses AS T2 ON T1.customer_address_id = T2.address_id WHERE T1.first_name = "Carole" AND T1.last_name = "Bernhard" [/SQL]
What is zip code of customer with first name as Carole and last name as Bernhard?	CREATE TABLE Addresses (zip_postcode VARCHAR, address_id VARCHAR); CREATE TABLE Customers (customer_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR)	[SQL] SELECT T2.zip_postcode FROM Customers AS T1 JOIN Addresses AS T2 ON T1.customer_address_id = T2.address_id WHERE T1.first_name = "Carole" AND T1.last_name = "Bernhard" [/SQL]
Which city does has most number of customers?	CREATE TABLE Customers (customer_address_id VARCHAR); CREATE TABLE Addresses (city VARCHAR, address_id VARCHAR)	[SQL] SELECT T2.city FROM Customers AS T1 JOIN Addresses AS T2 ON T1.customer_address_id = T2.address_id GROUP BY T2.city ORDER BY COUNT(*) DESC LIMIT 1 [/SQL]
How much in total does customer with first name as Carole and last name as Bernhard paid?	CREATE TABLE Customers (customer_id VARCHAR, first_name VARCHAR, last_name VARCHAR); CREATE TABLE Customer_Payments (amount_payment INTEGER, customer_id VARCHAR)	[SQL] SELECT SUM(T1.amount_payment) FROM Customer_Payments AS T1 JOIN Customers AS T2 ON T1.customer_id = T2.customer_id WHERE T2.first_name = "Carole" AND T2.last_name = "Bernhard" [/SQL]
List the number of customers that did not have any payment history.	CREATE TABLE Customers (customer_id VARCHAR); CREATE TABLE Customer_Payments (customer_id VARCHAR)	[SQL] SELECT COUNT(*) FROM Customers WHERE NOT customer_id IN (SELECT customer_id FROM Customer_Payments) [/SQL]
List first name and last name of customers that have more than 2 payments.	CREATE TABLE Customers (first_name VARCHAR, last_name VARCHAR, customer_id VARCHAR); CREATE TABLE Customer_Payments (customer_id VARCHAR)	[SQL] SELECT T2.first_name, T2.last_name FROM Customer_Payments AS T1 JOIN Customers AS T2 ON T1.customer_id = T2.customer_id GROUP BY T1.customer_id HAVING COUNT(*) > 2 [/SQL]
List all payment methods and number of payments using each payment methods.	CREATE TABLE Customer_Payments (payment_method_code VARCHAR)	[SQL] SELECT payment_method_code, COUNT(*) FROM Customer_Payments GROUP BY payment_method_code [/SQL]

Which winery is the wine that has the highest score from?

CREATE TABLE WINE (Winery VARCHAR, SCORE VARCHAR)

[SQL] SELECT Winery FROM WINE ORDER BY SCORE LIMIT 1 [/SQL]

Find the names of all wines produced in 2008.

CREATE TABLE WINE (Name VARCHAR, YEAR VARCHAR)

[SQL] SELECT Name FROM WINE WHERE YEAR = "2008" [/SQL]

List the grapes and appelations of all wines.

CREATE TABLE WINE (Grape VARCHAR, Appelation VARCHAR)

[SQL] SELECT Grape, Appelation FROM WINE [/SQL]

List the names and scores of all wines.

CREATE TABLE WINE (Name VARCHAR, Score VARCHAR)

[SQL] SELECT Name, Score FROM WINE [/SQL]

List the area and county of all appelations.

CREATE TABLE APPELLATIONS (Area VARCHAR, County VARCHAR)

[SQL] SELECT Area, County FROM APPELLATIONS [/SQL]

What are the prices of wines produced before the year of 2010?

CREATE TABLE WINE (Price VARCHAR, YEAR INTEGER)

[SQL] SELECT Price FROM WINE WHERE YEAR < 2010 [/SQL]

List the names of all distinct wines that have scores higher than 90.

CREATE TABLE WINE (Name VARCHAR, score INTEGER)

[SQL] SELECT Name FROM WINE WHERE score > 90 [/SQL]

List the names of all distinct wines that are made of red color grape.

CREATE TABLE GRAPES (Grape VARCHAR, Color VARCHAR); CREATE TABLE WINE (Name VARCHAR, Grape VARCHAR)

[SQL] SELECT DISTINCT T2.Name FROM GRAPES AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape WHERE T1.Color = "Red" [/SQL]

Find the names of all distinct wines that have appellations in North Coast area.

CREATE TABLE APPELLATIONs (Appelation VARCHAR, Area VARCHAR); CREATE TABLE WINE (Name VARCHAR, Appelation VARCHAR)

[SQL] SELECT DISTINCT T2.Name FROM APPELLATIONs AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.Area = "North Coast" [/SQL]

How many wines are produced at Robert Biale winery?

CREATE TABLE WINE (Winery VARCHAR)

[SQL] SELECT COUNT(*) FROM WINE WHERE Winery = "Robert Biale" [/SQL]

How many appelations are in Napa Country?

CREATE TABLE APPELLATIONS (County VARCHAR)

[SQL] SELECT COUNT(*) FROM APPELLATIONS WHERE County = "Napa" [/SQL]

Give me the average prices of wines that are produced by appelations in Sonoma County.

CREATE TABLE WINE (Price INTEGER, Appelation VARCHAR); CREATE TABLE APPELLATIONS (Appelation VARCHAR, County VARCHAR)

[SQL] SELECT AVG(T2.Price) FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.County = "Sonoma" [/SQL]

What are the names and scores of wines that are made of white color grapes?

CREATE TABLE GRAPES (Grape VARCHAR, Color VARCHAR); CREATE TABLE WINE (Name VARCHAR, Score VARCHAR, Grape VARCHAR)

[SQL] SELECT T2.Name, T2.Score FROM GRAPES AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape WHERE T1.Color = "White" [/SQL]

Find the maximum price of wins from the appelations in Central Coast area and produced before the year of 2005.

CREATE TABLE APPELLATIONS (Appelation VARCHAR, Area VARCHAR); CREATE TABLE WINE (Price INTEGER, Appelation VARCHAR, year VARCHAR)

[SQL] SELECT MAX(T2.Price) FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.Area = "Central Coast" AND T2.year < 2005 [/SQL]

Find the the grape whose white color grapes are used to produce wines with scores higher than 90.

CREATE TABLE GRAPES (Grape VARCHAR, Color VARCHAR); CREATE TABLE WINE (Grape VARCHAR, score VARCHAR)

[SQL] SELECT DISTINCT T1.Grape FROM GRAPES AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape WHERE T1.Color = "White" AND T2.score > 90 [/SQL]

What are the wines that have prices higher than 50 and made of Red color grapes?

CREATE TABLE WINE (Name VARCHAR, Grape VARCHAR, price VARCHAR); CREATE TABLE Grapes (Grape VARCHAR, Color VARCHAR)

[SQL] SELECT T2.Name FROM Grapes AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape WHERE T1.Color = "Red" AND T2.price > 50 [/SQL]

What are the wines that have prices lower than 50 and have appelations in Monterey county?

CREATE TABLE APPELLATIONS (Appelation VARCHAR, County VARCHAR); CREATE TABLE WINE (Name VARCHAR, Appelation VARCHAR, price VARCHAR)

[SQL] SELECT T2.Name FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.County = "Monterey" AND T2.price < 50 [/SQL]

What are the numbers of wines for different grapes?

CREATE TABLE WINE (Grape VARCHAR)

[SQL] SELECT COUNT(*), Grape FROM WINE GROUP BY Grape [/SQL]

What are the average prices of wines for different years?

CREATE TABLE WINE (YEAR VARCHAR, Price INTEGER)

[SQL] SELECT AVG(Price), YEAR FROM WINE GROUP BY YEAR [/SQL]

Find the distinct names of all wines that have prices higher than some wines from John Anthony winery.

CREATE TABLE wine (Name VARCHAR, Price INTEGER, Winery VARCHAR); CREATE TABLE WINE (Name VARCHAR, Price INTEGER, Winery VARCHAR)

[SQL] SELECT DISTINCT Name FROM WINE WHERE Price > (SELECT MIN(Price) FROM wine WHERE Winery = "John Anthony") [/SQL]

List the names of all distinct wines in alphabetical order.

CREATE TABLE WINE (Name VARCHAR)

[SQL] SELECT DISTINCT Name FROM WINE ORDER BY Name [/SQL]

List the names of all distinct wines ordered by price.

CREATE TABLE WINE (Name VARCHAR, price VARCHAR)

[SQL] SELECT DISTINCT Name FROM WINE ORDER BY price [/SQL]

What is the area of the appelation that produces the highest number of wines before the year of 2010?

CREATE TABLE WINE (Appelation VARCHAR, year VARCHAR); CREATE TABLE APPELLATIONS (Area VARCHAR, Appelation VARCHAR)

[SQL] SELECT T1.Area FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation GROUP BY T2.Appelation HAVING T2.year < 2010 ORDER BY COUNT(*) DESC LIMIT 1 [/SQL]

What is the color of the grape whose wine products has the highest average price?

CREATE TABLE GRAPES (Color VARCHAR, Grape VARCHAR); CREATE TABLE WINE (Grape VARCHAR)

[SQL] SELECT T1.Color FROM GRAPES AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape GROUP BY T2.Grape ORDER BY AVG(Price) DESC LIMIT 1 [/SQL]

Find the distinct names of wines produced before the year of 2000 or after the year of 2010.

CREATE TABLE WINE (Name VARCHAR, YEAR VARCHAR)

[SQL] SELECT DISTINCT Name FROM WINE WHERE YEAR < 2000 OR YEAR > 2010 [/SQL]

Find the distinct winery of wines having price between 50 and 100.

CREATE TABLE WINE (Winery VARCHAR, Price INTEGER)

[SQL] SELECT DISTINCT Winery FROM WINE WHERE Price BETWEEN 50 AND 100 [/SQL]

What are the average prices and cases of wines produced in the year of 2009 and made of Zinfandel grape?

CREATE TABLE WINE (Price INTEGER, Cases INTEGER, YEAR VARCHAR, Grape VARCHAR)

[SQL] SELECT AVG(Price), AVG(Cases) FROM WINE WHERE YEAR = 2009 AND Grape = "Zinfandel" [/SQL]

What are the maximum price and score of wines produced by St. Helena appelation?

CREATE TABLE WINE (Price INTEGER, Score INTEGER, Appelation VARCHAR)

[SQL] SELECT MAX(Price), MAX(Score) FROM WINE WHERE Appelation = "St. Helena" [/SQL]

What are the maximum price and score of wines in each year?

CREATE TABLE WINE (YEAR VARCHAR, Price INTEGER, Score INTEGER)

[SQL] SELECT MAX(Price), MAX(Score), YEAR FROM WINE GROUP BY YEAR [/SQL]

What are the average price and score of wines grouped by appelation?

CREATE TABLE WINE (Appelation VARCHAR, Price INTEGER, Score INTEGER)

[SQL] SELECT AVG(Price), AVG(Score), Appelation FROM WINE GROUP BY Appelation [/SQL]

Find the wineries that have at least four wines.

CREATE TABLE WINE (Winery VARCHAR)

[SQL] SELECT Winery FROM WINE GROUP BY Winery HAVING COUNT(*) >= 4 [/SQL]

Find the country of all appelations who have at most three wines.

CREATE TABLE APPELLATIONS (County VARCHAR, Appelation VARCHAR); CREATE TABLE WINE (Appelation VARCHAR)

[SQL] SELECT T1.County FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation GROUP BY T2.Appelation HAVING COUNT(*) <= 3 [/SQL]

What are the names of wines whose production year are before the year of all wines by Brander winery?

CREATE TABLE WINE (Name VARCHAR, YEAR INTEGER, Winery VARCHAR)

[SQL] SELECT Name FROM WINE WHERE YEAR < (SELECT MIN(YEAR) FROM WINE WHERE Winery = "Brander") [/SQL]

What are the names of wines that are more expensive then all wines made in the year 2006?

CREATE TABLE WINE (Name VARCHAR, Price INTEGER, YEAR VARCHAR)

[SQL] SELECT Name FROM WINE WHERE Price > (SELECT MAX(Price) FROM WINE WHERE YEAR = 2006) [/SQL]

Find the top 3 wineries with the greatest number of wines made of white color grapes.

CREATE TABLE GRAPES (GRAPE VARCHAR, Color VARCHAR); CREATE TABLE WINE (Winery VARCHAR, GRAPE VARCHAR)

[SQL] SELECT T2.Winery FROM GRAPES AS T1 JOIN WINE AS T2 ON T1.GRAPE = T2.GRAPE WHERE T1.Color = "White" GROUP BY T2.Winery ORDER BY COUNT(*) DESC LIMIT 3 [/SQL]

List the grape, winery and year of the wines whose price is bigger than 100 ordered by year.

CREATE TABLE WINE (Grape VARCHAR, Winery VARCHAR, YEAR VARCHAR, Price INTEGER)

[SQL] SELECT Grape, Winery, YEAR FROM WINE WHERE Price > 100 ORDER BY YEAR [/SQL]

List the grape, appelation and name of wines whose score is higher than 93 ordered by Name.

CREATE TABLE WINE (Grape VARCHAR, Appelation VARCHAR, Name VARCHAR, Score INTEGER)

[SQL] SELECT Grape, Appelation, Name FROM WINE WHERE Score > 93 ORDER BY Name [/SQL]

Find the appelations that produce wines after the year of 2008 but not in Central Coast area.

CREATE TABLE WINE (Appelation VARCHAR, YEAR INTEGER, Area VARCHAR); CREATE TABLE APPELLATIONS (Appelation VARCHAR, YEAR INTEGER, Area VARCHAR)

[SQL] SELECT Appelation FROM WINE WHERE YEAR > 2008 EXCEPT SELECT Appelation FROM APPELLATIONS WHERE Area = "Central Coast" [/SQL]

Find the average price of wines that are not produced from Sonoma county.

CREATE TABLE wine (price INTEGER, Appelation VARCHAR); CREATE TABLE APPELLATIONS (Appelation VARCHAR, County VARCHAR); CREATE TABLE WINE (Appelation VARCHAR)

[SQL] SELECT AVG(price) FROM wine WHERE NOT Appelation IN (SELECT T1.Appelation FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.County = 'Sonoma') [/SQL]

Find the county where produces the most number of wines with score higher than 90.

CREATE TABLE WINE (Appelation VARCHAR, Score INTEGER); CREATE TABLE APPELLATIONS (County VARCHAR, Appelation VARCHAR)

[SQL] SELECT T1.County FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T2.Score > 90 GROUP BY T1.County ORDER BY COUNT(*) DESC LIMIT 1 [/SQL]

How many train stations are there?

CREATE TABLE station (Id VARCHAR)

[SQL] SELECT COUNT(*) FROM station [/SQL]

Show the name, location, and number of platforms for all stations.

CREATE TABLE station (name VARCHAR, LOCATION VARCHAR, number_of_platforms VARCHAR)

[SQL] SELECT name, LOCATION, number_of_platforms FROM station [/SQL]

What are all locations of train stations?

CREATE TABLE station (LOCATION VARCHAR)

[SQL] SELECT DISTINCT LOCATION FROM station [/SQL]

Show the names and total passengers for all train stations not in London.

CREATE TABLE station (name VARCHAR, total_passengers VARCHAR, LOCATION VARCHAR)

[SQL] SELECT name, total_passengers FROM station WHERE LOCATION <> 'London' [/SQL]

Show the names and main services for train stations that have the top three total number of passengers.

CREATE TABLE station (name VARCHAR, main_services VARCHAR, total_passengers VARCHAR)

[SQL] SELECT name, main_services FROM station ORDER BY total_passengers DESC LIMIT 3 [/SQL]

What is the average and maximum number of total passengers for train stations in London or Glasgow?

CREATE TABLE station (total_passengers INTEGER, LOCATION VARCHAR)

[SQL] SELECT AVG(total_passengers), MAX(total_passengers) FROM station WHERE LOCATION = 'London' OR LOCATION = 'Glasgow' [/SQL]

Show all locations and the total number of platforms and passengers for all train stations in each location.

CREATE TABLE station (LOCATION VARCHAR, number_of_platforms INTEGER, total_passengers INTEGER)

[SQL] SELECT LOCATION, SUM(number_of_platforms), SUM(total_passengers) FROM station GROUP BY LOCATION [/SQL]

Show all locations that have train stations with at least 15 platforms and train stations with more than 25 total passengers.

CREATE TABLE station (LOCATION VARCHAR, number_of_platforms VARCHAR, total_passengers VARCHAR)

[SQL] SELECT DISTINCT LOCATION FROM station WHERE number_of_platforms >= 15 AND total_passengers > 25 [/SQL]

Show all locations which don't have a train station with at least 15 platforms.

CREATE TABLE station (LOCATION VARCHAR, number_of_platforms VARCHAR)

[SQL] SELECT LOCATION FROM station EXCEPT SELECT LOCATION FROM station WHERE number_of_platforms >= 15 [/SQL]

Show the location with most number of train stations.

CREATE TABLE station (LOCATION VARCHAR)

[SQL] SELECT LOCATION FROM station GROUP BY LOCATION ORDER BY COUNT(*) DESC LIMIT 1 [/SQL]

Show the name, time, and service for all trains.

CREATE TABLE train (name VARCHAR, TIME VARCHAR, service VARCHAR)

[SQL] SELECT name, TIME, service FROM train [/SQL]

Show the number of trains

CREATE TABLE train (Id VARCHAR)

[SQL] SELECT COUNT(*) FROM train [/SQL]

Show the name and service for all trains in order by time.

CREATE TABLE train (name VARCHAR, service VARCHAR, TIME VARCHAR)

[SQL] SELECT name, service FROM train ORDER BY TIME [/SQL]

Show the station name and number of trains in each station.

CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR)

[SQL] SELECT T2.name, COUNT(*) FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id GROUP BY T1.station_id [/SQL]

show the train name and station name for each train.

CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train (name VARCHAR, train_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR, train_id VARCHAR)

[SQL] SELECT T2.name, T3.name FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id JOIN train AS T3 ON T3.train_id = T1.train_id [/SQL]

Show all train names and times in stations in London in descending order by train time.

CREATE TABLE train_station (station_id VARCHAR, train_id VARCHAR); CREATE TABLE station (station_id VARCHAR, location VARCHAR); CREATE TABLE train (name VARCHAR, time VARCHAR, train_id VARCHAR)

[SQL] SELECT T3.name, T3.time FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id JOIN train AS T3 ON T3.train_id = T1.train_id WHERE T2.location = 'London' ORDER BY T3.time DESC [/SQL]

Show the station name with greatest number of trains.

CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR)

[SQL] SELECT T2.name FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id GROUP BY T1.station_id ORDER BY COUNT(*) DESC LIMIT 1 [/SQL]

Show the station name with at least two trains.

CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR)

[SQL] SELECT T2.name FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id GROUP BY T1.station_id HAVING COUNT(*) >= 2 [/SQL]

Show all locations with only 1 station.

CREATE TABLE station (LOCATION VARCHAR)

[SQL] SELECT LOCATION FROM station GROUP BY LOCATION HAVING COUNT(*) = 1 [/SQL]

Show station names without any trains.

CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train_station (name VARCHAR, station_id VARCHAR)

[SQL] SELECT name FROM station WHERE NOT station_id IN (SELECT station_id FROM train_station) [/SQL]

What are the names of the stations which serve both "Ananthapuri Express" and "Guruvayur Express" trains?

CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train (train_id VARCHAR, Name VARCHAR); CREATE TABLE train_station (station_id VARCHAR, train_id VARCHAR)

[SQL] SELECT T2.name FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id JOIN train AS T3 ON T3.train_id = T1.train_id WHERE T3.Name = "Ananthapuri Express" INTERSECT SELECT T2.name FROM train_station AS T1 JOIN station AS T2 ON T1.station_id = T2.station_id JOIN train AS T3 ON T3.train_id = T1.train_id WHERE T3.Name = "Guruvayur Express" [/SQL]

Find the names of the trains that do not pass any station located in London.

CREATE TABLE station (station_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR); CREATE TABLE train_station (train_id VARCHAR, station_id VARCHAR); CREATE TABLE train (name VARCHAR, train_id VARCHAR)

[SQL] SELECT T2.name FROM train_station AS T1 JOIN train AS T2 ON T1.train_id = T2.train_id WHERE NOT T1.station_id IN (SELECT T4.station_id FROM train_station AS T3 JOIN station AS T4 ON T3.station_id = T4.station_id WHERE t4.location = "London") [/SQL]

List the names and locations of all stations ordered by their yearly entry exit and interchange amounts.

CREATE TABLE station (name VARCHAR, LOCATION VARCHAR, Annual_entry_exit VARCHAR, Annual_interchanges VARCHAR)

[SQL] SELECT name, LOCATION FROM station ORDER BY Annual_entry_exit, Annual_interchanges [/SQL]

List all vehicle id

CREATE TABLE Vehicles (vehicle_id VARCHAR)

[SQL] SELECT vehicle_id FROM Vehicles [/SQL]

How many vehicle in total?

CREATE TABLE Vehicles (Id VARCHAR)

[SQL] SELECT COUNT(*) FROM Vehicles [/SQL]

Show the detail of vehicle with id 1.

CREATE TABLE Vehicles (vehicle_details VARCHAR, vehicle_id VARCHAR)

[SQL] SELECT vehicle_details FROM Vehicles WHERE vehicle_id = 1 [/SQL]

List the first name middle name and last name of all staff.

CREATE TABLE Staff (first_name VARCHAR, middle_name VARCHAR, last_name VARCHAR)

[SQL] SELECT first_name, middle_name, last_name FROM Staff [/SQL]

What is the birthday of the staff member with first name as Janessa and last name as Sawayn?

CREATE TABLE Staff (date_of_birth VARCHAR, first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT date_of_birth FROM Staff WHERE first_name = "Janessa" AND last_name = "Sawayn" [/SQL]

When did the staff member with first name as Janessa and last name as Sawayn join the company?

CREATE TABLE Staff (date_joined_staff VARCHAR, first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT date_joined_staff FROM Staff WHERE first_name = "Janessa" AND last_name = "Sawayn" [/SQL]

When did the staff member with first name as Janessa and last name as Sawayn leave the company?

CREATE TABLE Staff (date_left_staff VARCHAR, first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT date_left_staff FROM Staff WHERE first_name = "Janessa" AND last_name = "Sawayn" [/SQL]

How many staff have the first name Ludie?

CREATE TABLE Staff (first_name VARCHAR)

[SQL] SELECT COUNT(*) FROM Staff WHERE first_name = "Ludie" [/SQL]

What is the nickname of staff with first name as Janessa and last name as Sawayn?

CREATE TABLE Staff (nickname VARCHAR, first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT nickname FROM Staff WHERE first_name = "Janessa" AND last_name = "Sawayn" [/SQL]

How many staff in total?

CREATE TABLE Staff (Id VARCHAR)

[SQL] SELECT COUNT(*) FROM Staff [/SQL]

Which city does staff with first name as Janessa and last name as Sawayn live?

CREATE TABLE Staff (staff_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR); CREATE TABLE Addresses (city VARCHAR, address_id VARCHAR)

[SQL] SELECT T1.city FROM Addresses AS T1 JOIN Staff AS T2 ON T1.address_id = T2.staff_address_id WHERE T2.first_name = "Janessa" AND T2.last_name = "Sawayn" [/SQL]

Which country and state does staff with first name as Janessa and last name as Sawayn lived?

CREATE TABLE Addresses (country VARCHAR, state_province_county VARCHAR, address_id VARCHAR); CREATE TABLE Staff (staff_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT T1.country, T1.state_province_county FROM Addresses AS T1 JOIN Staff AS T2 ON T1.address_id = T2.staff_address_id WHERE T2.first_name = "Janessa" AND T2.last_name = "Sawayn" [/SQL]

How long is the total lesson time took by customer with first name as Rylan and last name as Goodwin?

CREATE TABLE Lessons (lesson_time INTEGER, customer_id VARCHAR); CREATE TABLE Customers (customer_id VARCHAR, first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT SUM(T1.lesson_time) FROM Lessons AS T1 JOIN Customers AS T2 ON T1.customer_id = T2.customer_id WHERE T2.first_name = "Rylan" AND T2.last_name = "Goodwin" [/SQL]

What is the zip code of staff with first name as Janessa and last name as Sawayn lived?

CREATE TABLE Addresses (zip_postcode VARCHAR, address_id VARCHAR); CREATE TABLE Staff (staff_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT T1.zip_postcode FROM Addresses AS T1 JOIN Staff AS T2 ON T1.address_id = T2.staff_address_id WHERE T2.first_name = "Janessa" AND T2.last_name = "Sawayn" [/SQL]

How many staff live in state Georgia?

CREATE TABLE Addresses (state_province_county VARCHAR)

[SQL] SELECT COUNT(*) FROM Addresses WHERE state_province_county = "Georgia" [/SQL]

Find out the first name and last name of staff lived in city Damianfort.

CREATE TABLE Staff (first_name VARCHAR, last_name VARCHAR, staff_address_id VARCHAR); CREATE TABLE Addresses (address_id VARCHAR, city VARCHAR)

[SQL] SELECT T2.first_name, T2.last_name FROM Addresses AS T1 JOIN Staff AS T2 ON T1.address_id = T2.staff_address_id WHERE T1.city = "Damianfort" [/SQL]

Which city lives most of staffs? List the city name and number of staffs.

CREATE TABLE Staff (staff_address_id VARCHAR); CREATE TABLE Addresses (city VARCHAR, address_id VARCHAR)

[SQL] SELECT T1.city, COUNT(*) FROM Addresses AS T1 JOIN Staff AS T2 ON T1.address_id = T2.staff_address_id GROUP BY T1.city ORDER BY COUNT(*) DESC LIMIT 1 [/SQL]

List the states which have between 2 to 4 staffs living there.

CREATE TABLE Addresses (state_province_county VARCHAR, address_id VARCHAR); CREATE TABLE Staff (staff_address_id VARCHAR)

[SQL] SELECT T1.state_province_county FROM Addresses AS T1 JOIN Staff AS T2 ON T1.address_id = T2.staff_address_id GROUP BY T1.state_province_county HAVING COUNT(*) BETWEEN 2 AND 4 [/SQL]

List the first name and last name of all customers.

CREATE TABLE Customers (first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT first_name, last_name FROM Customers [/SQL]

List email address and birthday of customer whose first name as Carole.

CREATE TABLE Customers (email_address VARCHAR, date_of_birth VARCHAR, first_name VARCHAR)

[SQL] SELECT email_address, date_of_birth FROM Customers WHERE first_name = "Carole" [/SQL]

List phone number and email address of customer with more than 2000 outstanding balance.

CREATE TABLE Customers (phone_number VARCHAR, email_address VARCHAR, amount_outstanding INTEGER)

[SQL] SELECT phone_number, email_address FROM Customers WHERE amount_outstanding > 2000 [/SQL]

What is the status code, mobile phone number and email address of customer with last name as Kohler or first name as Marina?

CREATE TABLE Customers (customer_status_code VARCHAR, cell_mobile_phone_number VARCHAR, email_address VARCHAR, first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT customer_status_code, cell_mobile_phone_number, email_address FROM Customers WHERE first_name = "Marina" OR last_name = "Kohler" [/SQL]

When are the birthdays of customer who are classified as 'Good Customer' status?

CREATE TABLE Customers (date_of_birth VARCHAR, customer_status_code VARCHAR)

[SQL] SELECT date_of_birth FROM Customers WHERE customer_status_code = 'Good Customer' [/SQL]

When did customer with first name as Carole and last name as Bernhard became a customer?

CREATE TABLE Customers (date_became_customer VARCHAR, first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT date_became_customer FROM Customers WHERE first_name = "Carole" AND last_name = "Bernhard" [/SQL]

List all customer status codes and the number of customers having each status code.

CREATE TABLE Customers (customer_status_code VARCHAR)

[SQL] SELECT customer_status_code, COUNT(*) FROM Customers GROUP BY customer_status_code [/SQL]

Which customer status code has least number of customers?

CREATE TABLE Customers (customer_status_code VARCHAR)

[SQL] SELECT customer_status_code FROM Customers GROUP BY customer_status_code ORDER BY COUNT(*) LIMIT 1 [/SQL]

How many lessons taken by customer with first name as Rylan and last name as Goodwin were completed?

CREATE TABLE Lessons (customer_id VARCHAR, lesson_status_code VARCHAR); CREATE TABLE Customers (customer_id VARCHAR, first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT COUNT(*) FROM Lessons AS T1 JOIN Customers AS T2 ON T1.customer_id = T2.customer_id WHERE T2.first_name = "Rylan" AND T2.last_name = "Goodwin" AND T1.lesson_status_code = "Completed" [/SQL]

What is maximum, minimum and average amount of outstanding of customer?

CREATE TABLE Customers (amount_outstanding INTEGER)

[SQL] SELECT MAX(amount_outstanding), MIN(amount_outstanding), AVG(amount_outstanding) FROM Customers [/SQL]

List the first name and last name of customers have the amount of outstanding between 1000 and 3000.

CREATE TABLE Customers (first_name VARCHAR, last_name VARCHAR, amount_outstanding INTEGER)

[SQL] SELECT first_name, last_name FROM Customers WHERE amount_outstanding BETWEEN 1000 AND 3000 [/SQL]

List first name and last name of customers lived in city Lockmanfurt.

CREATE TABLE Customers (first_name VARCHAR, last_name VARCHAR, customer_address_id VARCHAR); CREATE TABLE Addresses (address_id VARCHAR, city VARCHAR)

[SQL] SELECT T1.first_name, T1.last_name FROM Customers AS T1 JOIN Addresses AS T2 ON T1.customer_address_id = T2.address_id WHERE T2.city = "Lockmanfurt" [/SQL]

Which country does customer with first name as Carole and last name as Bernhard lived in?

CREATE TABLE Addresses (country VARCHAR, address_id VARCHAR); CREATE TABLE Customers (customer_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT T2.country FROM Customers AS T1 JOIN Addresses AS T2 ON T1.customer_address_id = T2.address_id WHERE T1.first_name = "Carole" AND T1.last_name = "Bernhard" [/SQL]

What is zip code of customer with first name as Carole and last name as Bernhard?

CREATE TABLE Addresses (zip_postcode VARCHAR, address_id VARCHAR); CREATE TABLE Customers (customer_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR)

[SQL] SELECT T2.zip_postcode FROM Customers AS T1 JOIN Addresses AS T2 ON T1.customer_address_id = T2.address_id WHERE T1.first_name = "Carole" AND T1.last_name = "Bernhard" [/SQL]

Which city does has most number of customers?

CREATE TABLE Customers (customer_address_id VARCHAR); CREATE TABLE Addresses (city VARCHAR, address_id VARCHAR)

[SQL] SELECT T2.city FROM Customers AS T1 JOIN Addresses AS T2 ON T1.customer_address_id = T2.address_id GROUP BY T2.city ORDER BY COUNT(*) DESC LIMIT 1 [/SQL]

How much in total does customer with first name as Carole and last name as Bernhard paid?

CREATE TABLE Customers (customer_id VARCHAR, first_name VARCHAR, last_name VARCHAR); CREATE TABLE Customer_Payments (amount_payment INTEGER, customer_id VARCHAR)

[SQL] SELECT SUM(T1.amount_payment) FROM Customer_Payments AS T1 JOIN Customers AS T2 ON T1.customer_id = T2.customer_id WHERE T2.first_name = "Carole" AND T2.last_name = "Bernhard" [/SQL]

List the number of customers that did not have any payment history.

CREATE TABLE Customers (customer_id VARCHAR); CREATE TABLE Customer_Payments (customer_id VARCHAR)

[SQL] SELECT COUNT(*) FROM Customers WHERE NOT customer_id IN (SELECT customer_id FROM Customer_Payments) [/SQL]

List first name and last name of customers that have more than 2 payments.

CREATE TABLE Customers (first_name VARCHAR, last_name VARCHAR, customer_id VARCHAR); CREATE TABLE Customer_Payments (customer_id VARCHAR)

[SQL] SELECT T2.first_name, T2.last_name FROM Customer_Payments AS T1 JOIN Customers AS T2 ON T1.customer_id = T2.customer_id GROUP BY T1.customer_id HAVING COUNT(*) > 2 [/SQL]

List all payment methods and number of payments using each payment methods.

CREATE TABLE Customer_Payments (payment_method_code VARCHAR)

[SQL] SELECT payment_method_code, COUNT(*) FROM Customer_Payments GROUP BY payment_method_code [/SQL]