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3,700 | <question>: Which winery is the wine that has the highest score from? <context>: CREATE TABLE WINE (Winery VARCHAR, SCORE VARCHAR) | SELECT Winery FROM WINE ORDER BY SCORE LIMIT 1 |
3,701 | <question>: Find the names of all wines produced in 2008. <context>: CREATE TABLE WINE (Name VARCHAR, YEAR VARCHAR) | SELECT Name FROM WINE WHERE YEAR = "2008" |
3,702 | <question>: List the grapes and appelations of all wines. <context>: CREATE TABLE WINE (Grape VARCHAR, Appelation VARCHAR) | SELECT Grape, Appelation FROM WINE |
3,703 | <question>: List the names and scores of all wines. <context>: CREATE TABLE WINE (Name VARCHAR, Score VARCHAR) | SELECT Name, Score FROM WINE |
3,704 | <question>: List the area and county of all appelations. <context>: CREATE TABLE APPELLATIONS (Area VARCHAR, County VARCHAR) | SELECT Area, County FROM APPELLATIONS |
3,705 | <question>: What are the prices of wines produced before the year of 2010? <context>: CREATE TABLE WINE (Price VARCHAR, YEAR INTEGER) | SELECT Price FROM WINE WHERE YEAR < 2010 |
3,706 | <question>: List the names of all distinct wines that have scores higher than 90. <context>: CREATE TABLE WINE (Name VARCHAR, score INTEGER) | SELECT Name FROM WINE WHERE score > 90 |
3,707 | <question>: List the names of all distinct wines that are made of red color grape. <context>: CREATE TABLE GRAPES (Grape VARCHAR, Color VARCHAR); CREATE TABLE WINE (Name VARCHAR, Grape VARCHAR) | SELECT DISTINCT T2.Name FROM GRAPES AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape WHERE T1.Color = "Red" |
3,708 | <question>: Find the names of all distinct wines that have appellations in North Coast area. <context>: CREATE TABLE APPELLATIONs (Appelation VARCHAR, Area VARCHAR); CREATE TABLE WINE (Name VARCHAR, Appelation VARCHAR) | SELECT DISTINCT T2.Name FROM APPELLATIONs AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.Area = "North Coast" |
3,709 | <question>: How many wines are produced at Robert Biale winery? <context>: CREATE TABLE WINE (Winery VARCHAR) | SELECT COUNT(*) FROM WINE WHERE Winery = "Robert Biale" |
3,710 | <question>: How many appelations are in Napa Country? <context>: CREATE TABLE APPELLATIONS (County VARCHAR) | SELECT COUNT(*) FROM APPELLATIONS WHERE County = "Napa" |
3,711 | <question>: Give me the average prices of wines that are produced by appelations in Sonoma County. <context>: CREATE TABLE WINE (Price INTEGER, Appelation VARCHAR); CREATE TABLE APPELLATIONS (Appelation VARCHAR, County VARCHAR) | SELECT AVG(T2.Price) FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.County = "Sonoma" |
3,712 | <question>: What are the names and scores of wines that are made of white color grapes? <context>: CREATE TABLE GRAPES (Grape VARCHAR, Color VARCHAR); CREATE TABLE WINE (Name VARCHAR, Score VARCHAR, Grape VARCHAR) | SELECT T2.Name, T2.Score FROM GRAPES AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape WHERE T1.Color = "White" |
3,713 | <question>: Find the maximum price of wins from the appelations in Central Coast area and produced before the year of 2005. <context>: CREATE TABLE APPELLATIONS (Appelation VARCHAR, Area VARCHAR); CREATE TABLE WINE (Price INTEGER, Appelation VARCHAR, year VARCHAR) | 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 |
3,714 | <question>: Find the the grape whose white color grapes are used to produce wines with scores higher than 90. <context>: CREATE TABLE GRAPES (Grape VARCHAR, Color VARCHAR); CREATE TABLE WINE (Grape VARCHAR, score VARCHAR) | 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 |
3,715 | <question>: What are the wines that have prices higher than 50 and made of Red color grapes? <context>: CREATE TABLE WINE (Name VARCHAR, Grape VARCHAR, price VARCHAR); CREATE TABLE Grapes (Grape VARCHAR, Color VARCHAR) | SELECT T2.Name FROM Grapes AS T1 JOIN WINE AS T2 ON T1.Grape = T2.Grape WHERE T1.Color = "Red" AND T2.price > 50 |
3,716 | <question>: What are the wines that have prices lower than 50 and have appelations in Monterey county? <context>: CREATE TABLE APPELLATIONS (Appelation VARCHAR, County VARCHAR); CREATE TABLE WINE (Name VARCHAR, Appelation VARCHAR, price VARCHAR) | SELECT T2.Name FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation WHERE T1.County = "Monterey" AND T2.price < 50 |
3,717 | <question>: What are the numbers of wines for different grapes? <context>: CREATE TABLE WINE (Grape VARCHAR) | SELECT COUNT(*), Grape FROM WINE GROUP BY Grape |
3,718 | <question>: What are the average prices of wines for different years? <context>: CREATE TABLE WINE (YEAR VARCHAR, Price INTEGER) | SELECT AVG(Price), YEAR FROM WINE GROUP BY YEAR |
3,719 | <question>: Find the distinct names of all wines that have prices higher than some wines from John Anthony winery. <context>: CREATE TABLE wine (Name VARCHAR, Price INTEGER, Winery VARCHAR); CREATE TABLE WINE (Name VARCHAR, Price INTEGER, Winery VARCHAR) | SELECT DISTINCT Name FROM WINE WHERE Price > (SELECT MIN(Price) FROM wine WHERE Winery = "John Anthony") |
3,720 | <question>: List the names of all distinct wines in alphabetical order. <context>: CREATE TABLE WINE (Name VARCHAR) | SELECT DISTINCT Name FROM WINE ORDER BY Name |
3,721 | <question>: List the names of all distinct wines ordered by price. <context>: CREATE TABLE WINE (Name VARCHAR, price VARCHAR) | SELECT DISTINCT Name FROM WINE ORDER BY price |
3,722 | <question>: What is the area of the appelation that produces the highest number of wines before the year of 2010? <context>: CREATE TABLE WINE (Appelation VARCHAR, year VARCHAR); CREATE TABLE APPELLATIONS (Area VARCHAR, Appelation VARCHAR) | 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 |
3,723 | <question>: What is the color of the grape whose wine products has the highest average price? <context>: CREATE TABLE GRAPES (Color VARCHAR, Grape VARCHAR); CREATE TABLE WINE (Grape VARCHAR) | 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 |
3,724 | <question>: Find the distinct names of wines produced before the year of 2000 or after the year of 2010. <context>: CREATE TABLE WINE (Name VARCHAR, YEAR VARCHAR) | SELECT DISTINCT Name FROM WINE WHERE YEAR < 2000 OR YEAR > 2010 |
3,725 | <question>: Find the distinct winery of wines having price between 50 and 100. <context>: CREATE TABLE WINE (Winery VARCHAR, Price INTEGER) | SELECT DISTINCT Winery FROM WINE WHERE Price BETWEEN 50 AND 100 |
3,726 | <question>: What are the average prices and cases of wines produced in the year of 2009 and made of Zinfandel grape? <context>: CREATE TABLE WINE (Price INTEGER, Cases INTEGER, YEAR VARCHAR, Grape VARCHAR) | SELECT AVG(Price), AVG(Cases) FROM WINE WHERE YEAR = 2009 AND Grape = "Zinfandel" |
3,727 | <question>: What are the maximum price and score of wines produced by St. Helena appelation? <context>: CREATE TABLE WINE (Price INTEGER, Score INTEGER, Appelation VARCHAR) | SELECT MAX(Price), MAX(Score) FROM WINE WHERE Appelation = "St. Helena" |
3,728 | <question>: What are the maximum price and score of wines in each year? <context>: CREATE TABLE WINE (YEAR VARCHAR, Price INTEGER, Score INTEGER) | SELECT MAX(Price), MAX(Score), YEAR FROM WINE GROUP BY YEAR |
3,729 | <question>: What are the average price and score of wines grouped by appelation? <context>: CREATE TABLE WINE (Appelation VARCHAR, Price INTEGER, Score INTEGER) | SELECT AVG(Price), AVG(Score), Appelation FROM WINE GROUP BY Appelation |
3,730 | <question>: Find the wineries that have at least four wines. <context>: CREATE TABLE WINE (Winery VARCHAR) | SELECT Winery FROM WINE GROUP BY Winery HAVING COUNT(*) >= 4 |
3,731 | <question>: Find the country of all appelations who have at most three wines. <context>: CREATE TABLE APPELLATIONS (County VARCHAR, Appelation VARCHAR); CREATE TABLE WINE (Appelation VARCHAR) | SELECT T1.County FROM APPELLATIONS AS T1 JOIN WINE AS T2 ON T1.Appelation = T2.Appelation GROUP BY T2.Appelation HAVING COUNT(*) <= 3 |
3,732 | <question>: What are the names of wines whose production year are before the year of all wines by Brander winery? <context>: CREATE TABLE WINE (Name VARCHAR, YEAR INTEGER, Winery VARCHAR) | SELECT Name FROM WINE WHERE YEAR < (SELECT MIN(YEAR) FROM WINE WHERE Winery = "Brander") |
3,733 | <question>: What are the names of wines that are more expensive then all wines made in the year 2006? <context>: CREATE TABLE WINE (Name VARCHAR, Price INTEGER, YEAR VARCHAR) | SELECT Name FROM WINE WHERE Price > (SELECT MAX(Price) FROM WINE WHERE YEAR = 2006) |
3,734 | <question>: Find the top 3 wineries with the greatest number of wines made of white color grapes. <context>: CREATE TABLE GRAPES (GRAPE VARCHAR, Color VARCHAR); CREATE TABLE WINE (Winery VARCHAR, GRAPE VARCHAR) | 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 |
3,735 | <question>: List the grape, winery and year of the wines whose price is bigger than 100 ordered by year. <context>: CREATE TABLE WINE (Grape VARCHAR, Winery VARCHAR, YEAR VARCHAR, Price INTEGER) | SELECT Grape, Winery, YEAR FROM WINE WHERE Price > 100 ORDER BY YEAR |
3,736 | <question>: List the grape, appelation and name of wines whose score is higher than 93 ordered by Name. <context>: CREATE TABLE WINE (Grape VARCHAR, Appelation VARCHAR, Name VARCHAR, Score INTEGER) | SELECT Grape, Appelation, Name FROM WINE WHERE Score > 93 ORDER BY Name |
3,737 | <question>: Find the appelations that produce wines after the year of 2008 but not in Central Coast area. <context>: CREATE TABLE WINE (Appelation VARCHAR, YEAR INTEGER, Area VARCHAR); CREATE TABLE APPELLATIONS (Appelation VARCHAR, YEAR INTEGER, Area VARCHAR) | SELECT Appelation FROM WINE WHERE YEAR > 2008 EXCEPT SELECT Appelation FROM APPELLATIONS WHERE Area = "Central Coast" |
3,738 | <question>: Find the average price of wines that are not produced from Sonoma county. <context>: CREATE TABLE wine (price INTEGER, Appelation VARCHAR); CREATE TABLE APPELLATIONS (Appelation VARCHAR, County VARCHAR); CREATE TABLE WINE (Appelation VARCHAR) | 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') |
3,739 | <question>: Find the county where produces the most number of wines with score higher than 90. <context>: CREATE TABLE WINE (Appelation VARCHAR, Score INTEGER); CREATE TABLE APPELLATIONS (County VARCHAR, Appelation VARCHAR) | 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 |
3,740 | <question>: How many train stations are there? <context>: CREATE TABLE station (Id VARCHAR) | SELECT COUNT(*) FROM station |
3,741 | <question>: Show the name, location, and number of platforms for all stations. <context>: CREATE TABLE station (name VARCHAR, LOCATION VARCHAR, number_of_platforms VARCHAR) | SELECT name, LOCATION, number_of_platforms FROM station |
3,742 | <question>: What are all locations of train stations? <context>: CREATE TABLE station (LOCATION VARCHAR) | SELECT DISTINCT LOCATION FROM station |
3,743 | <question>: Show the names and total passengers for all train stations not in London. <context>: CREATE TABLE station (name VARCHAR, total_passengers VARCHAR, LOCATION VARCHAR) | SELECT name, total_passengers FROM station WHERE LOCATION <> 'London' |
3,744 | <question>: Show the names and main services for train stations that have the top three total number of passengers. <context>: CREATE TABLE station (name VARCHAR, main_services VARCHAR, total_passengers VARCHAR) | SELECT name, main_services FROM station ORDER BY total_passengers DESC LIMIT 3 |
3,745 | <question>: What is the average and maximum number of total passengers for train stations in London or Glasgow? <context>: CREATE TABLE station (total_passengers INTEGER, LOCATION VARCHAR) | SELECT AVG(total_passengers), MAX(total_passengers) FROM station WHERE LOCATION = 'London' OR LOCATION = 'Glasgow' |
3,746 | <question>: Show all locations and the total number of platforms and passengers for all train stations in each location. <context>: CREATE TABLE station (LOCATION VARCHAR, number_of_platforms INTEGER, total_passengers INTEGER) | SELECT LOCATION, SUM(number_of_platforms), SUM(total_passengers) FROM station GROUP BY LOCATION |
3,747 | <question>: Show all locations that have train stations with at least 15 platforms and train stations with more than 25 total passengers. <context>: CREATE TABLE station (LOCATION VARCHAR, number_of_platforms VARCHAR, total_passengers VARCHAR) | SELECT DISTINCT LOCATION FROM station WHERE number_of_platforms >= 15 AND total_passengers > 25 |
3,748 | <question>: Show all locations which don't have a train station with at least 15 platforms. <context>: CREATE TABLE station (LOCATION VARCHAR, number_of_platforms VARCHAR) | SELECT LOCATION FROM station EXCEPT SELECT LOCATION FROM station WHERE number_of_platforms >= 15 |
3,749 | <question>: Show the location with most number of train stations. <context>: CREATE TABLE station (LOCATION VARCHAR) | SELECT LOCATION FROM station GROUP BY LOCATION ORDER BY COUNT(*) DESC LIMIT 1 |
3,750 | <question>: Show the name, time, and service for all trains. <context>: CREATE TABLE train (name VARCHAR, TIME VARCHAR, service VARCHAR) | SELECT name, TIME, service FROM train |
3,751 | <question>: Show the number of trains <context>: CREATE TABLE train (Id VARCHAR) | SELECT COUNT(*) FROM train |
3,752 | <question>: Show the name and service for all trains in order by time. <context>: CREATE TABLE train (name VARCHAR, service VARCHAR, TIME VARCHAR) | SELECT name, service FROM train ORDER BY TIME |
3,753 | <question>: Show the station name and number of trains in each station. <context>: CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR) | 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 |
3,754 | <question>: show the train name and station name for each train. <context>: 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) | 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 |
3,755 | <question>: Show all train names and times in stations in London in descending order by train time. <context>: 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) | 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 |
3,756 | <question>: Show the station name with greatest number of trains. <context>: CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR) | 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 |
3,757 | <question>: Show the station name with at least two trains. <context>: CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train_station (station_id VARCHAR) | 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 |
3,758 | <question>: Show all locations with only 1 station. <context>: CREATE TABLE station (LOCATION VARCHAR) | SELECT LOCATION FROM station GROUP BY LOCATION HAVING COUNT(*) = 1 |
3,759 | <question>: Show station names without any trains. <context>: CREATE TABLE station (name VARCHAR, station_id VARCHAR); CREATE TABLE train_station (name VARCHAR, station_id VARCHAR) | SELECT name FROM station WHERE NOT station_id IN (SELECT station_id FROM train_station) |
3,760 | <question>: What are the names of the stations which serve both "Ananthapuri Express" and "Guruvayur Express" trains? <context>: 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) | 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" |
3,761 | <question>: Find the names of the trains that do not pass any station located in London. <context>: 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) | 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") |
3,762 | <question>: List the names and locations of all stations ordered by their yearly entry exit and interchange amounts. <context>: CREATE TABLE station (name VARCHAR, LOCATION VARCHAR, Annual_entry_exit VARCHAR, Annual_interchanges VARCHAR) | SELECT name, LOCATION FROM station ORDER BY Annual_entry_exit, Annual_interchanges |
3,763 | <question>: List all vehicle id <context>: CREATE TABLE Vehicles (vehicle_id VARCHAR) | SELECT vehicle_id FROM Vehicles |
3,764 | <question>: How many vehicle in total? <context>: CREATE TABLE Vehicles (Id VARCHAR) | SELECT COUNT(*) FROM Vehicles |
3,765 | <question>: Show the detail of vehicle with id 1. <context>: CREATE TABLE Vehicles (vehicle_details VARCHAR, vehicle_id VARCHAR) | SELECT vehicle_details FROM Vehicles WHERE vehicle_id = 1 |
3,766 | <question>: List the first name middle name and last name of all staff. <context>: CREATE TABLE Staff (first_name VARCHAR, middle_name VARCHAR, last_name VARCHAR) | SELECT first_name, middle_name, last_name FROM Staff |
3,767 | <question>: What is the birthday of the staff member with first name as Janessa and last name as Sawayn? <context>: CREATE TABLE Staff (date_of_birth VARCHAR, first_name VARCHAR, last_name VARCHAR) | SELECT date_of_birth FROM Staff WHERE first_name = "Janessa" AND last_name = "Sawayn" |
3,768 | <question>: When did the staff member with first name as Janessa and last name as Sawayn join the company? <context>: CREATE TABLE Staff (date_joined_staff VARCHAR, first_name VARCHAR, last_name VARCHAR) | SELECT date_joined_staff FROM Staff WHERE first_name = "Janessa" AND last_name = "Sawayn" |
3,769 | <question>: When did the staff member with first name as Janessa and last name as Sawayn leave the company? <context>: CREATE TABLE Staff (date_left_staff VARCHAR, first_name VARCHAR, last_name VARCHAR) | SELECT date_left_staff FROM Staff WHERE first_name = "Janessa" AND last_name = "Sawayn" |
3,770 | <question>: How many staff have the first name Ludie? <context>: CREATE TABLE Staff (first_name VARCHAR) | SELECT COUNT(*) FROM Staff WHERE first_name = "Ludie" |
3,771 | <question>: What is the nickname of staff with first name as Janessa and last name as Sawayn? <context>: CREATE TABLE Staff (nickname VARCHAR, first_name VARCHAR, last_name VARCHAR) | SELECT nickname FROM Staff WHERE first_name = "Janessa" AND last_name = "Sawayn" |
3,772 | <question>: How many staff in total? <context>: CREATE TABLE Staff (Id VARCHAR) | SELECT COUNT(*) FROM Staff |
3,773 | <question>: Which city does staff with first name as Janessa and last name as Sawayn live? <context>: CREATE TABLE Staff (staff_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR); CREATE TABLE Addresses (city VARCHAR, address_id VARCHAR) | 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" |
3,774 | <question>: Which country and state does staff with first name as Janessa and last name as Sawayn lived? <context>: 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) | 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" |
3,775 | <question>: How long is the total lesson time took by customer with first name as Rylan and last name as Goodwin? <context>: CREATE TABLE Lessons (lesson_time INTEGER, customer_id VARCHAR); CREATE TABLE Customers (customer_id VARCHAR, first_name VARCHAR, last_name VARCHAR) | 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" |
3,776 | <question>: What is the zip code of staff with first name as Janessa and last name as Sawayn lived? <context>: CREATE TABLE Addresses (zip_postcode VARCHAR, address_id VARCHAR); CREATE TABLE Staff (staff_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR) | 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" |
3,777 | <question>: How many staff live in state Georgia? <context>: CREATE TABLE Addresses (state_province_county VARCHAR) | SELECT COUNT(*) FROM Addresses WHERE state_province_county = "Georgia" |
3,778 | <question>: Find out the first name and last name of staff lived in city Damianfort. <context>: CREATE TABLE Staff (first_name VARCHAR, last_name VARCHAR, staff_address_id VARCHAR); CREATE TABLE Addresses (address_id VARCHAR, city VARCHAR) | 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" |
3,779 | <question>: Which city lives most of staffs? List the city name and number of staffs. <context>: CREATE TABLE Staff (staff_address_id VARCHAR); CREATE TABLE Addresses (city VARCHAR, address_id VARCHAR) | 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 |
3,780 | <question>: List the states which have between 2 to 4 staffs living there. <context>: CREATE TABLE Addresses (state_province_county VARCHAR, address_id VARCHAR); CREATE TABLE Staff (staff_address_id VARCHAR) | 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 |
3,781 | <question>: List the first name and last name of all customers. <context>: CREATE TABLE Customers (first_name VARCHAR, last_name VARCHAR) | SELECT first_name, last_name FROM Customers |
3,782 | <question>: List email address and birthday of customer whose first name as Carole. <context>: CREATE TABLE Customers (email_address VARCHAR, date_of_birth VARCHAR, first_name VARCHAR) | SELECT email_address, date_of_birth FROM Customers WHERE first_name = "Carole" |
3,783 | <question>: List phone number and email address of customer with more than 2000 outstanding balance. <context>: CREATE TABLE Customers (phone_number VARCHAR, email_address VARCHAR, amount_outstanding INTEGER) | SELECT phone_number, email_address FROM Customers WHERE amount_outstanding > 2000 |
3,784 | <question>: What is the status code, mobile phone number and email address of customer with last name as Kohler or first name as Marina? <context>: CREATE TABLE Customers (customer_status_code VARCHAR, cell_mobile_phone_number VARCHAR, email_address VARCHAR, first_name VARCHAR, last_name VARCHAR) | SELECT customer_status_code, cell_mobile_phone_number, email_address FROM Customers WHERE first_name = "Marina" OR last_name = "Kohler" |
3,785 | <question>: When are the birthdays of customer who are classified as 'Good Customer' status? <context>: CREATE TABLE Customers (date_of_birth VARCHAR, customer_status_code VARCHAR) | SELECT date_of_birth FROM Customers WHERE customer_status_code = 'Good Customer' |
3,786 | <question>: When did customer with first name as Carole and last name as Bernhard became a customer? <context>: CREATE TABLE Customers (date_became_customer VARCHAR, first_name VARCHAR, last_name VARCHAR) | SELECT date_became_customer FROM Customers WHERE first_name = "Carole" AND last_name = "Bernhard" |
3,787 | <question>: List all customer status codes and the number of customers having each status code. <context>: CREATE TABLE Customers (customer_status_code VARCHAR) | SELECT customer_status_code, COUNT(*) FROM Customers GROUP BY customer_status_code |
3,788 | <question>: Which customer status code has least number of customers? <context>: CREATE TABLE Customers (customer_status_code VARCHAR) | SELECT customer_status_code FROM Customers GROUP BY customer_status_code ORDER BY COUNT(*) LIMIT 1 |
3,789 | <question>: How many lessons taken by customer with first name as Rylan and last name as Goodwin were completed? <context>: CREATE TABLE Lessons (customer_id VARCHAR, lesson_status_code VARCHAR); CREATE TABLE Customers (customer_id VARCHAR, first_name VARCHAR, last_name VARCHAR) | 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" |
3,790 | <question>: What is maximum, minimum and average amount of outstanding of customer? <context>: CREATE TABLE Customers (amount_outstanding INTEGER) | SELECT MAX(amount_outstanding), MIN(amount_outstanding), AVG(amount_outstanding) FROM Customers |
3,791 | <question>: List the first name and last name of customers have the amount of outstanding between 1000 and 3000. <context>: CREATE TABLE Customers (first_name VARCHAR, last_name VARCHAR, amount_outstanding INTEGER) | SELECT first_name, last_name FROM Customers WHERE amount_outstanding BETWEEN 1000 AND 3000 |
3,792 | <question>: List first name and last name of customers lived in city Lockmanfurt. <context>: CREATE TABLE Customers (first_name VARCHAR, last_name VARCHAR, customer_address_id VARCHAR); CREATE TABLE Addresses (address_id VARCHAR, city VARCHAR) | 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" |
3,793 | <question>: Which country does customer with first name as Carole and last name as Bernhard lived in? <context>: CREATE TABLE Addresses (country VARCHAR, address_id VARCHAR); CREATE TABLE Customers (customer_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR) | 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" |
3,794 | <question>: What is zip code of customer with first name as Carole and last name as Bernhard? <context>: CREATE TABLE Addresses (zip_postcode VARCHAR, address_id VARCHAR); CREATE TABLE Customers (customer_address_id VARCHAR, first_name VARCHAR, last_name VARCHAR) | 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" |
3,795 | <question>: Which city does has most number of customers? <context>: CREATE TABLE Customers (customer_address_id VARCHAR); CREATE TABLE Addresses (city VARCHAR, address_id VARCHAR) | 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 |
3,796 | <question>: How much in total does customer with first name as Carole and last name as Bernhard paid? <context>: CREATE TABLE Customers (customer_id VARCHAR, first_name VARCHAR, last_name VARCHAR); CREATE TABLE Customer_Payments (amount_payment INTEGER, customer_id VARCHAR) | 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" |
3,797 | <question>: List the number of customers that did not have any payment history. <context>: CREATE TABLE Customers (customer_id VARCHAR); CREATE TABLE Customer_Payments (customer_id VARCHAR) | SELECT COUNT(*) FROM Customers WHERE NOT customer_id IN (SELECT customer_id FROM Customer_Payments) |
3,798 | <question>: List first name and last name of customers that have more than 2 payments. <context>: CREATE TABLE Customers (first_name VARCHAR, last_name VARCHAR, customer_id VARCHAR); CREATE TABLE Customer_Payments (customer_id VARCHAR) | 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 |
3,799 | <question>: List all payment methods and number of payments using each payment methods. <context>: CREATE TABLE Customer_Payments (payment_method_code VARCHAR) | SELECT payment_method_code, COUNT(*) FROM Customer_Payments GROUP BY payment_method_code |
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