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insurance_fnol
SELECT DISTINCT t3.policy_type_code FROM customers AS t1 JOIN customers_policies AS t2 ON t1.customer_id = t2.customer_id JOIN available_policies AS t3 ON t2.policy_id = t3.policy_id WHERE t1.customer_name = "Dayana Robel"
What are all the policy types of the customer named "Dayana Robel"?
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT DISTINCT t3.policy_type_code FROM customers AS t1 JOIN customers_policies AS t2 ON t1.customer_id = t2.customer_id JOIN available_policies AS t3 ON t2.policy_id = t3.policy_id WHERE t1.customer_name = "Dayana Robel"
Tell me the types of the policy used by the customer named "Dayana Robel".
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT DISTINCT t3.policy_type_code FROM customers AS t1 JOIN customers_policies AS t2 ON t1.customer_id = t2.customer_id JOIN available_policies AS t3 ON t2.policy_id = t3.policy_id WHERE t1.customer_name = (SELECT t1.customer_name FROM customers AS t1 JOIN customers_policies AS t2 ON t1.customer_id = t2.customer_id GROUP BY t1.customer_name ORDER BY count(*) DESC LIMIT 1)
What are all the policy types of the customer that has the most policies listed?
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT DISTINCT t3.policy_type_code FROM customers AS t1 JOIN customers_policies AS t2 ON t1.customer_id = t2.customer_id JOIN available_policies AS t3 ON t2.policy_id = t3.policy_id WHERE t1.customer_name = (SELECT t1.customer_name FROM customers AS t1 JOIN customers_policies AS t2 ON t1.customer_id = t2.customer_id GROUP BY t1.customer_name ORDER BY count(*) DESC LIMIT 1)
List all the policy types used by the customer enrolled in the most policies.
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT service_name FROM services ORDER BY service_name
List all the services in the alphabetical order.
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT service_name FROM services ORDER BY service_name
Give me a list of all the service names sorted alphabetically.
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT count(*) FROM services
How many services are there?
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT count(*) FROM services
Count the total number of available services.
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT customer_name FROM customers EXCEPT SELECT t1.customer_name FROM customers AS t1 JOIN first_notification_of_loss AS t2 ON t1.customer_id = t2.customer_id
Find the names of users who do not have a first notification of loss record.
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT customer_name FROM customers EXCEPT SELECT t1.customer_name FROM customers AS t1 JOIN first_notification_of_loss AS t2 ON t1.customer_id = t2.customer_id
Which customers do not have a first notification of loss record? Give me the customer names.
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT t1.customer_name FROM customers AS t1 JOIN first_notification_of_loss AS t2 ON t1.customer_id = t2.customer_id JOIN services AS t3 ON t2.service_id = t3.service_id WHERE t3.service_name = "Close a policy" OR t3.service_name = "Upgrade a policy"
Find the names of customers who have used either the service "Close a policy" or the service "Upgrade a policy".
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT t1.customer_name FROM customers AS t1 JOIN first_notification_of_loss AS t2 ON t1.customer_id = t2.customer_id JOIN services AS t3 ON t2.service_id = t3.service_id WHERE t3.service_name = "Close a policy" OR t3.service_name = "Upgrade a policy"
Which customers have used the service named "Close a policy" or "Upgrade a policy"? Give me the customer names.
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT t1.customer_name FROM customers AS t1 JOIN first_notification_of_loss AS t2 ON t1.customer_id = t2.customer_id JOIN services AS t3 ON t2.service_id = t3.service_id WHERE t3.service_name = "Close a policy" INTERSECT SELECT t1.customer_name FROM customers AS t1 JOIN first_notification_of_loss AS t2 ON t1.customer_id = t2.customer_id JOIN services AS t3 ON t2.service_id = t3.service_id WHERE t3.service_name = "New policy application"
Find the names of customers who have used both the service "Close a policy" and the service "New policy application".
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT t1.customer_name FROM customers AS t1 JOIN first_notification_of_loss AS t2 ON t1.customer_id = t2.customer_id JOIN services AS t3 ON t2.service_id = t3.service_id WHERE t3.service_name = "Close a policy" INTERSECT SELECT t1.customer_name FROM customers AS t1 JOIN first_notification_of_loss AS t2 ON t1.customer_id = t2.customer_id JOIN services AS t3 ON t2.service_id = t3.service_id WHERE t3.service_name = "New policy application"
Which customers have used both the service named "Close a policy" and the service named "Upgrade a policy"? Give me the customer names.
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT customer_id FROM customers WHERE customer_name LIKE "%Diana%"
Find the IDs of customers whose name contains "Diana".
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT customer_id FROM customers WHERE customer_name LIKE "%Diana%"
What are the IDs of customers who have "Diana" in part of their names?
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT max(settlement_amount) , min(settlement_amount) FROM settlements
What are the maximum and minimum settlement amount on record?
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT max(settlement_amount) , min(settlement_amount) FROM settlements
Find the maximum and minimum settlement amount.
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT customer_id , customer_name FROM customers ORDER BY customer_id ASC
List all the customers in increasing order of IDs.
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT customer_id , customer_name FROM customers ORDER BY customer_id ASC
What is the ordered list of customer ids?
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT t2.date_opened , t2.date_closed FROM customers AS t1 JOIN customers_policies AS t2 ON t1.customer_id = t2.customer_id WHERE t1.customer_name LIKE "%Diana%"
Retrieve the open and close dates of all the policies associated with the customer whose name contains "Diana"
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
insurance_fnol
SELECT t2.date_opened , t2.date_closed FROM customers AS t1 JOIN customers_policies AS t2 ON t1.customer_id = t2.customer_id WHERE t1.customer_name LIKE "%Diana%"
What are the open and close dates of all the policies used by the customer who have "Diana" in part of their names?
CREATE TABLE Customers ( Customer_ID INTEGER NOT NULL, Customer_name VARCHAR(40), PRIMARY KEY (Customer_ID) ); CREATE TABLE Services ( Service_ID INTEGER NOT NULL, Service_name VARCHAR(40), PRIMARY KEY (Service_ID) ); CREATE TABLE Available_Policies ( Policy_ID INTEGER NOT NULL, policy_type_code CHAR(15), Customer_Phone VARCHAR(255), PRIMARY KEY (Policy_ID), UNIQUE (Policy_ID) ); CREATE TABLE Customers_Policies ( Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Date_Opened DATE, Date_Closed DATE, PRIMARY KEY (Customer_ID, Policy_ID), FOREIGN KEY (Customer_ID) REFERENCES Customers (Customer_ID), FOREIGN KEY (Policy_ID) REFERENCES Available_Policies (Policy_ID) ); CREATE TABLE First_Notification_of_Loss ( FNOL_ID INTEGER NOT NULL, Customer_ID INTEGER NOT NULL, Policy_ID INTEGER NOT NULL, Service_ID INTEGER NOT NULL, PRIMARY KEY (FNOL_ID), UNIQUE (FNOL_ID), FOREIGN KEY (Service_ID) REFERENCES Services (Service_ID), FOREIGN KEY (Customer_ID, Policy_ID) REFERENCES Customers_Policies (Customer_ID,Policy_ID) ); CREATE TABLE Claims ( Claim_ID INTEGER NOT NULL, FNOL_ID INTEGER NOT NULL, Effective_Date DATE, PRIMARY KEY (Claim_ID), UNIQUE (Claim_ID), FOREIGN KEY (FNOL_ID) REFERENCES First_Notification_of_Loss (FNOL_ID) ); CREATE TABLE Settlements ( Settlement_ID INTEGER NOT NULL, Claim_ID INTEGER, Effective_Date DATE, Settlement_Amount REAL, PRIMARY KEY (Settlement_ID), UNIQUE (Settlement_ID), FOREIGN KEY (Claim_ID) REFERENCES Claims (Claim_ID) ); INSERT INTO `Customers` (`Customer_ID`, `Customer_name`) VALUES (194, 'America Jaskolski'); INSERT INTO `Services` (`Service_ID`, `Service_name`) VALUES (1, 'New policy application'); INSERT INTO `Available_Policies` (`Policy_ID`, `policy_type_code`, `Customer_Phone`) VALUES (246, 'Life Insurance', '+16(2)5838999222'); INSERT INTO `Customers_Policies` (`Customer_ID`, `Policy_ID`, `Date_Opened`, `Date_Closed`) VALUES (214, 257, '2016-11-19', '2018-03-04'); INSERT INTO `First_Notification_of_Loss` (`FNOL_ID`, `Customer_ID`, `Policy_ID`, `Service_ID`) VALUES (532, 214, 257, 6); INSERT INTO `Claims` (`Claim_ID`, `FNOL_ID`, `Effective_Date`) VALUES (134, 1722, '1973-08-18'); INSERT INTO `Settlements` (`Settlement_ID`, `Claim_ID`, `Effective_Date`, `Settlement_Amount`) VALUES (161, 717, '2009-11-20', '6451.65');
medicine_enzyme_interaction
SELECT count(*) FROM enzyme
How many kinds of enzymes are there?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT count(*) FROM enzyme
What is the total count of enzymes?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT name FROM enzyme ORDER BY name DESC
List the name of enzymes in descending lexicographical order.
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT name FROM enzyme ORDER BY name DESC
What are the names of enzymes in descending order?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT name , LOCATION FROM enzyme
List the names and the locations that the enzymes can make an effect.
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT name , LOCATION FROM enzyme
What are the names and locations of all enzymes listed?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT max(OMIM) FROM enzyme
What is the maximum Online Mendelian Inheritance in Man (OMIM) value of the enzymes?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT max(OMIM) FROM enzyme
What is the maximum OMIM value in the database?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT product , chromosome , porphyria FROM enzyme WHERE LOCATION = 'Cytosol'
What is the product, chromosome and porphyria related to the enzymes which take effect at the location 'Cytosol'?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT product , chromosome , porphyria FROM enzyme WHERE LOCATION = 'Cytosol'
What is the product, chromosome, and porphyria of the enzymes located at 'Cytosol'?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT name FROM enzyme WHERE product != 'Heme'
What are the names of enzymes who does not produce 'Heme'?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT name FROM enzyme WHERE product != 'Heme'
What are the names of enzymes whose product is not 'Heme'?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT name , trade_name FROM medicine WHERE FDA_approved = 'Yes'
What are the names and trade names of the medicines which has 'Yes' value in the FDA record?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT name , trade_name FROM medicine WHERE FDA_approved = 'Yes'
What are the names and trade names of the medcines that are FDA approved?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.name FROM enzyme AS T1 JOIN medicine_enzyme_interaction AS T2 ON T1.id = T2.enzyme_id JOIN medicine AS T3 ON T2.medicine_id = T3.id WHERE T3.name = 'Amisulpride' AND T2.interaction_type = 'inhibitor'
What are the names of enzymes in the medicine named 'Amisulpride' that can serve as an 'inhibitor'?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.name FROM enzyme AS T1 JOIN medicine_enzyme_interaction AS T2 ON T1.id = T2.enzyme_id JOIN medicine AS T3 ON T2.medicine_id = T3.id WHERE T3.name = 'Amisulpride' AND T2.interaction_type = 'inhibitor'
What are the names of the enzymes used in the medicine Amisulpride that acts as inhibitors?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.id , T1.Name FROM medicine AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.medicine_id = T1.id GROUP BY T1.id HAVING count(*) >= 2
What are the ids and names of the medicine that can interact with two or more enzymes?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.id , T1.Name FROM medicine AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.medicine_id = T1.id GROUP BY T1.id HAVING count(*) >= 2
For every medicine id, what are the names of the medicines that can interact with more than one enzyme?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.id , T1.Name , T1.FDA_approved FROM medicine AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.medicine_id = T1.id GROUP BY T1.id ORDER BY count(*) DESC
What are the ids, names and FDA approval status of medicines in descending order of the number of enzymes that it can interact with.
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.id , T1.Name , T1.FDA_approved FROM medicine AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.medicine_id = T1.id GROUP BY T1.id ORDER BY count(*) DESC
What are the ids, names, and FDA approval status for medicines ordered by descending number of possible enzyme interactions?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.id , T1.name FROM enzyme AS T1 JOIN medicine_enzyme_interaction AS T2 ON T1.id = T2.enzyme_id WHERE T2.interaction_type = 'activitor' GROUP BY T1.id ORDER BY count(*) DESC LIMIT 1
What is the id and name of the enzyme with most number of medicines that can interact as 'activator'?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.id , T1.name FROM enzyme AS T1 JOIN medicine_enzyme_interaction AS T2 ON T1.id = T2.enzyme_id WHERE T2.interaction_type = 'activitor' GROUP BY T1.id ORDER BY count(*) DESC LIMIT 1
What is the id and name of the enzyme that can interact with the most medicines as an activator?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.interaction_type FROM medicine_enzyme_interaction AS T1 JOIN medicine AS T2 ON T1.medicine_id = T2.id JOIN enzyme AS T3 ON T1.enzyme_id = T3.id WHERE T3.name = 'ALA synthase' AND T2.name = 'Aripiprazole'
What is the interaction type of the enzyme named 'ALA synthase' and the medicine named 'Aripiprazole'?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.interaction_type FROM medicine_enzyme_interaction AS T1 JOIN medicine AS T2 ON T1.medicine_id = T2.id JOIN enzyme AS T3 ON T1.enzyme_id = T3.id WHERE T3.name = 'ALA synthase' AND T2.name = 'Aripiprazole'
What is the type of interaction for the enzyme named 'ALA synthase' and the medicine named 'Aripiprazole'?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT interaction_type , count(*) FROM medicine_enzyme_interaction GROUP BY interaction_type ORDER BY count(*) DESC LIMIT 1
What is the most common interaction type between enzymes and medicine? And how many are there?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT interaction_type , count(*) FROM medicine_enzyme_interaction GROUP BY interaction_type ORDER BY count(*) DESC LIMIT 1
What are the most common types of interactions between enzymes and medicine, and how many types are there?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT count(*) FROM medicine WHERE FDA_approved = 'No'
How many medicines have the FDA approval status 'No' ?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT count(*) FROM medicine WHERE FDA_approved = 'No'
How many medicines were not approved by the FDA?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT count(*) FROM enzyme WHERE id NOT IN ( SELECT enzyme_id FROM medicine_enzyme_interaction );
How many enzymes do not have any interactions?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT count(*) FROM enzyme WHERE id NOT IN ( SELECT enzyme_id FROM medicine_enzyme_interaction );
What is the count of enzymes without any interactions?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.id , T1.trade_name FROM medicine AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.medicine_id = T1.id GROUP BY T1.id HAVING COUNT(*) >= 3
What is the id and trade name of the medicines can interact with at least 3 enzymes?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.id , T1.trade_name FROM medicine AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.medicine_id = T1.id GROUP BY T1.id HAVING COUNT(*) >= 3
What are the ids and trade names of the medicine that can interact with at least 3 enzymes?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT DISTINCT T1.name , T1.location , T1.product FROM enzyme AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.enzyme_id = T1.id WHERE T2.interaction_type = 'inhibitor'
What are the distinct name, location and products of the enzymes which has any 'inhibitor' interaction?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT DISTINCT T1.name , T1.location , T1.product FROM enzyme AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.enzyme_id = T1.id WHERE T2.interaction_type = 'inhibitor'
What are the different names, locations, and products of the enzymes that are capable inhibitor interactions?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.name , T1.trade_name FROM medicine AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.medicine_id = T1.id WHERE interaction_type = 'inhibitor' INTERSECT SELECT T1.name , T1.trade_name FROM medicine AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.medicine_id = T1.id WHERE interaction_type = 'activitor'
List the medicine name and trade name which can both interact as 'inhibitor' and 'activitor' with enzymes.
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT T1.name , T1.trade_name FROM medicine AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.medicine_id = T1.id WHERE interaction_type = 'inhibitor' INTERSECT SELECT T1.name , T1.trade_name FROM medicine AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.medicine_id = T1.id WHERE interaction_type = 'activitor'
What are the medicine and trade names that can interact as an inhibitor and activitor with enzymes?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT name , trade_name FROM medicine EXCEPT SELECT T1.name , T1.trade_name FROM medicine AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.medicine_id = T1.id JOIN enzyme AS T3 ON T3.id = T2.enzyme_id WHERE T3.product = 'Protoporphyrinogen IX'
Show the medicine names and trade names that cannot interact with the enzyme with product 'Heme'.
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT name , trade_name FROM medicine EXCEPT SELECT T1.name , T1.trade_name FROM medicine AS T1 JOIN medicine_enzyme_interaction AS T2 ON T2.medicine_id = T1.id JOIN enzyme AS T3 ON T3.id = T2.enzyme_id WHERE T3.product = 'Protoporphyrinogen IX'
What are the medicine and trade names that cannot interact with the enzyme with the product 'Heme'?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT count(DISTINCT FDA_approved) FROM medicine
How many distinct FDA approval statuses are there for the medicines?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT count(DISTINCT FDA_approved) FROM medicine
How many different FDA approval statuses exist for medicines?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT name FROM enzyme WHERE name LIKE "%ALA%"
Which enzyme names have the substring "ALA"?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT name FROM enzyme WHERE name LIKE "%ALA%"
What are the names of enzymes that include the string 'ALA'?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT trade_name , count(*) FROM medicine GROUP BY trade_name
find the number of medicines offered by each trade.
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
medicine_enzyme_interaction
SELECT trade_name , count(*) FROM medicine GROUP BY trade_name
How many medicines are offered by each trade name?
CREATE TABLE "medicine" ( "id" int, "name" text, "Trade_Name" text, "FDA_approved" text, primary key ("id") ); CREATE TABLE "enzyme" ( "id" int, "name" text, "Location" text, "Product" text, "Chromosome" text, "OMIM" int, "Porphyria" text, primary key ("id") ); CREATE TABLE "medicine_enzyme_interaction" ( "enzyme_id" int, "medicine_id" int, "interaction_type" text, primary key ("enzyme_id", "medicine_id"), foreign key ("enzyme_id") references `enzyme`("id"), foreign key ("medicine_id") references `medicine`("id") ); INSERT INTO "medicine" VALUES (1,"Amisulpride","Solian","No"); INSERT INTO "enzyme" VALUES (1,"ALA synthase","Mitochondrion","Ξ΄-Aminolevulinic acid","3p21.1","125290","none"); INSERT INTO "medicine_enzyme_interaction" VALUES(1,1, "inhibitor");
university_basketball
SELECT school , nickname FROM university ORDER BY founded
List all schools and their nicknames in the order of founded year.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT school , nickname FROM university ORDER BY founded
What are the different schools and their nicknames, ordered by their founding years?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT school , LOCATION FROM university WHERE affiliation = 'Public'
List all public schools and their locations.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT school , LOCATION FROM university WHERE affiliation = 'Public'
What are the public schools and what are their locations?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT founded FROM university ORDER BY enrollment DESC LIMIT 1
When was the school with the largest enrollment founded?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT founded FROM university ORDER BY enrollment DESC LIMIT 1
Return the founded year for the school with the largest enrollment.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT founded FROM university WHERE affiliation != 'Public' ORDER BY founded DESC LIMIT 1
Find the founded year of the newest non public school.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT founded FROM university WHERE affiliation != 'Public' ORDER BY founded DESC LIMIT 1
What is the founded year of the non public school that was founded most recently?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT count(DISTINCT school_id) FROM basketball_match
How many schools are in the basketball match?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT count(DISTINCT school_id) FROM basketball_match
Count the number of schools that have had basketball matches.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT acc_percent FROM basketball_match ORDER BY acc_percent DESC LIMIT 1
What is the highest acc percent score in the competition?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT acc_percent FROM basketball_match ORDER BY acc_percent DESC LIMIT 1
Return the highest acc percent across all basketball matches.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT t1.Primary_conference FROM university AS t1 JOIN basketball_match AS t2 ON t1.school_id = t2.school_id ORDER BY t2.acc_percent LIMIT 1
What is the primary conference of the school that has the lowest acc percent score in the competition?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT t1.Primary_conference FROM university AS t1 JOIN basketball_match AS t2 ON t1.school_id = t2.school_id ORDER BY t2.acc_percent LIMIT 1
Return the primary conference of the school with the lowest acc percentage score.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT t2.team_name , t2.ACC_Regular_Season FROM university AS t1 JOIN basketball_match AS t2 ON t1.school_id = t2.school_id ORDER BY t1.founded LIMIT 1
What is the team name and acc regular season score of the school that was founded for the longest time?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT t2.team_name , t2.ACC_Regular_Season FROM university AS t1 JOIN basketball_match AS t2 ON t1.school_id = t2.school_id ORDER BY t1.founded LIMIT 1
Return the name of the team and the acc during the regular season for the school that was founded the earliest.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT t2.All_Games , t1.location FROM university AS t1 JOIN basketball_match AS t2 ON t1.school_id = t2.school_id WHERE team_name = 'Clemson'
Find the location and all games score of the school that has Clemson as its team name.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT t2.All_Games , t1.location FROM university AS t1 JOIN basketball_match AS t2 ON t1.school_id = t2.school_id WHERE team_name = 'Clemson'
What are the all games score and location of the school called Clemson?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT avg(enrollment) FROM university WHERE founded < 1850
What are the average enrollment size of the universities that are founded before 1850?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT avg(enrollment) FROM university WHERE founded < 1850
Return the average enrollment of universities founded before 1850.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT enrollment , primary_conference FROM university ORDER BY founded LIMIT 1
Show the enrollment and primary_conference of the oldest college.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT enrollment , primary_conference FROM university ORDER BY founded LIMIT 1
What are the enrollment and primary conference for the university which was founded the earliest?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT sum(enrollment) , min(enrollment) FROM university
What is the total and minimum enrollment of all schools?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT sum(enrollment) , min(enrollment) FROM university
Return the total and minimum enrollments across all schools.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT sum(enrollment) , affiliation FROM university GROUP BY affiliation
Find the total student enrollment for different affiliation type schools.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT sum(enrollment) , affiliation FROM university GROUP BY affiliation
What are the total enrollments of universities of each affiliation type?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT count(*) FROM university WHERE school_id NOT IN (SELECT school_id FROM basketball_match)
How many schools do not participate in the basketball match?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT count(*) FROM university WHERE school_id NOT IN (SELECT school_id FROM basketball_match)
Count the number of universities that do not participate in the baketball match.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT school FROM university WHERE founded > 1850 OR affiliation = 'Public'
Find the schools that were either founded after 1850 or public.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT school FROM university WHERE founded > 1850 OR affiliation = 'Public'
What are the schools that were either founded before 1850 or are public?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT count(DISTINCT affiliation) FROM university
Find how many different affiliation types there are.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT count(DISTINCT affiliation) FROM university
Count the number of different affiliation types.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT count(*) FROM university WHERE LOCATION LIKE "%NY%"
Find how many school locations have the word 'NY'.
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");
university_basketball
SELECT count(*) FROM university WHERE LOCATION LIKE "%NY%"
How many universities have a location that contains NY?
CREATE TABLE "basketball_match" ( "Team_ID" int, "School_ID" int, "Team_Name" text, "ACC_Regular_Season" text, "ACC_Percent" text, "ACC_Home" text, "ACC_Road" text, "All_Games" text, "All_Games_Percent" int, "All_Home" text, "All_Road" text, "All_Neutral" text, PRIMARY KEY ("Team_ID"), FOREIGN KEY (`School_ID`) REFERENCES `university`(`School_ID`) ); CREATE TABLE "university" ( "School_ID" int, "School" text, "Location" text, "Founded" real, "Affiliation" text, "Enrollment" real, "Nickname" text, "Primary_conference" text, PRIMARY KEY ("School_ID") ); INSERT INTO "basketball_match" VALUES ("1","1","North Carolina","14–2",".875","6–2","8–0","35–2",".946","14–2","13–0","9–1"); INSERT INTO "university" VALUES ("1","University of Delaware","Newark, DE","1743","Public","19067","Fightin' Blue Hens","Colonial Athletic Association ( D-I )");