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###context:CREATE TABLE loan (branch_id VARCHAR); CREATE TABLE bank (bname VARCHAR, branch_id VARCHAR)
###human: Find the total amount of loans offered by each bank branch.
###assistant: SELECT SUM(amount), T1.bname FROM bank AS T1 JOIN loan AS T2 ON T1.branch_id = T2.branch_id GROUP BY T1.bname |
###context:CREATE TABLE customer (cust_name VARCHAR, cust_id VARCHAR); CREATE TABLE loan (cust_id VARCHAR)
###human: Find the name of customers who have more than one loan.
###assistant: SELECT T1.cust_name FROM customer AS T1 JOIN loan AS T2 ON T1.cust_id = T2.cust_id GROUP BY T1.cust_name HAVING COUNT(*) > 1 |
###context:CREATE TABLE loan (cust_id VARCHAR, amount INTEGER); CREATE TABLE customer (cust_name VARCHAR, acc_type VARCHAR, cust_id VARCHAR)
###human: Find the name and account balance of the customers who have loans with a total amount of more than 5000.
###assistant: SELECT T1.cust_name, T1.acc_type FROM customer AS T1 JOIN loan AS T2 ON T1.cust_id = T2.cust_id GROUP BY T1.cust_name HAVING SUM(T2.amount) > 5000 |
###context:CREATE TABLE loan (branch_id VARCHAR, amount INTEGER); CREATE TABLE bank (bname VARCHAR, branch_id VARCHAR)
###human: Find the name of bank branch that provided the greatest total amount of loans.
###assistant: SELECT T1.bname FROM bank AS T1 JOIN loan AS T2 ON T1.branch_id = T2.branch_id GROUP BY T1.bname ORDER BY SUM(T2.amount) DESC LIMIT 1 |
###context:CREATE TABLE loan (branch_id VARCHAR, cust_id VARCHAR, amount INTEGER); CREATE TABLE bank (bname VARCHAR, branch_id VARCHAR); CREATE TABLE customer (cust_id VARCHAR, credit_score INTEGER)
###human: Find the name of bank branch that provided the greatest total amount of loans to customers with credit score is less than 100.
###assistant: SELECT T2.bname FROM loan AS T1 JOIN bank AS T2 ON T1.branch_id = T2.branch_id JOIN customer AS T3 ON T1.cust_id = T3.cust_id WHERE T3.credit_score < 100 GROUP BY T2.bname ORDER BY SUM(T1.amount) DESC LIMIT 1 |
###context:CREATE TABLE loan (branch_id VARCHAR); CREATE TABLE bank (bname VARCHAR, branch_id VARCHAR)
###human: Find the name of bank branches that provided some loans.
###assistant: SELECT DISTINCT T1.bname FROM bank AS T1 JOIN loan AS T2 ON T1.branch_id = T2.branch_id |
###context:CREATE TABLE customer (cust_name VARCHAR, credit_score VARCHAR, cust_id VARCHAR); CREATE TABLE loan (cust_id VARCHAR)
###human: Find the name and credit score of the customers who have some loans.
###assistant: SELECT DISTINCT T1.cust_name, T1.credit_score FROM customer AS T1 JOIN loan AS T2 ON T1.cust_id = T2.cust_id |
###context:CREATE TABLE customer (cust_name VARCHAR, cust_id VARCHAR); CREATE TABLE loan (cust_id VARCHAR)
###human: Find the the name of the customers who have a loan with amount more than 3000.
###assistant: SELECT T1.cust_name FROM customer AS T1 JOIN loan AS T2 ON T1.cust_id = T2.cust_id WHERE amount > 3000 |
###context:CREATE TABLE bank (bname VARCHAR, city VARCHAR, branch_id VARCHAR); CREATE TABLE loan (branch_id VARCHAR, loan_type VARCHAR)
###human: Find the city and name of bank branches that provide business loans.
###assistant: SELECT T1.bname, T1.city FROM bank AS T1 JOIN loan AS T2 ON T1.branch_id = T2.branch_id WHERE T2.loan_type = 'Business' |
###context:CREATE TABLE bank (bname VARCHAR, branch_id VARCHAR); CREATE TABLE customer (cust_id VARCHAR, credit_score INTEGER); CREATE TABLE loan (branch_id VARCHAR, cust_id VARCHAR)
###human: Find the names of bank branches that have provided a loan to any customer whose credit score is below 100.
###assistant: SELECT T2.bname FROM loan AS T1 JOIN bank AS T2 ON T1.branch_id = T2.branch_id JOIN customer AS T3 ON T1.cust_id = T3.cust_id WHERE T3.credit_score < 100 |
###context:CREATE TABLE bank (branch_id VARCHAR, state VARCHAR); CREATE TABLE loan (amount INTEGER, branch_id VARCHAR)
###human: Find the total amount of loans provided by bank branches in the state of New York.
###assistant: SELECT SUM(T2.amount) FROM bank AS T1 JOIN loan AS T2 ON T1.branch_id = T2.branch_id WHERE T1.state = 'New York' |
###context:CREATE TABLE loan (credit_score INTEGER, cust_id VARCHAR); CREATE TABLE customer (credit_score INTEGER, cust_id VARCHAR)
###human: Find the average credit score of the customers who have some loan.
###assistant: SELECT AVG(credit_score) FROM customer WHERE cust_id IN (SELECT cust_id FROM loan) |
###context:CREATE TABLE loan (credit_score INTEGER, cust_id VARCHAR); CREATE TABLE customer (credit_score INTEGER, cust_id VARCHAR)
###human: Find the average credit score of the customers who do not have any loan.
###assistant: SELECT AVG(credit_score) FROM customer WHERE NOT cust_id IN (SELECT cust_id FROM loan) |
###context:CREATE TABLE ASSESSMENT_NOTES (Id VARCHAR)
###human: How many assessment notes are there in total?
###assistant: SELECT COUNT(*) FROM ASSESSMENT_NOTES |
###context:CREATE TABLE Assessment_Notes (date_of_notes VARCHAR)
###human: What are the dates of the assessment notes?
###assistant: SELECT date_of_notes FROM Assessment_Notes |
###context:CREATE TABLE ADDRESSES (zip_postcode VARCHAR)
###human: How many addresses have zip code 197?
###assistant: SELECT COUNT(*) FROM ADDRESSES WHERE zip_postcode = "197" |
###context:CREATE TABLE Behavior_Incident (incident_type_code VARCHAR)
###human: How many distinct incident type codes are there?
###assistant: SELECT COUNT(DISTINCT incident_type_code) FROM Behavior_Incident |
###context:CREATE TABLE Detention (detention_type_code VARCHAR)
###human: Return all distinct detention type codes.
###assistant: SELECT DISTINCT detention_type_code FROM Detention |
###context:CREATE TABLE Behavior_Incident (date_incident_start VARCHAR, date_incident_end VARCHAR, incident_type_code VARCHAR)
###human: What are the start and end dates for incidents with incident type code "NOISE"?
###assistant: SELECT date_incident_start, date_incident_end FROM Behavior_Incident WHERE incident_type_code = "NOISE" |
###context:CREATE TABLE Detention (detention_summary VARCHAR)
###human: Return all detention summaries.
###assistant: SELECT detention_summary FROM Detention |
###context:CREATE TABLE STUDENTS (cell_mobile_number VARCHAR, email_address VARCHAR)
###human: Return the cell phone number and email address for all students.
###assistant: SELECT cell_mobile_number, email_address FROM STUDENTS |
###context:CREATE TABLE Students (email_address VARCHAR, first_name VARCHAR, last_name VARCHAR)
###human: What is the email of the student with first name "Emma" and last name "Rohan"?
###assistant: SELECT email_address FROM Students WHERE first_name = "Emma" AND last_name = "Rohan" |
###context:CREATE TABLE Students_in_Detention (student_id VARCHAR)
###human: How many distinct students have been in detention?
###assistant: SELECT COUNT(DISTINCT student_id) FROM Students_in_Detention |
###context:CREATE TABLE TEACHERS (gender VARCHAR, last_name VARCHAR)
###human: What is the gender of the teacher with last name "Medhurst"?
###assistant: SELECT gender FROM TEACHERS WHERE last_name = "Medhurst" |
###context:CREATE TABLE Ref_Incident_Type (incident_type_description VARCHAR, incident_type_code VARCHAR)
###human: What is the incident type description for the incident type with code "VIOLENCE"?
###assistant: SELECT incident_type_description FROM Ref_Incident_Type WHERE incident_type_code = "VIOLENCE" |
###context:CREATE TABLE Student_Addresses (monthly_rental INTEGER)
###human: Find the maximum and minimum monthly rental for all student addresses.
###assistant: SELECT MAX(monthly_rental), MIN(monthly_rental) FROM Student_Addresses |
###context:CREATE TABLE Teachers (first_name VARCHAR, email_address VARCHAR)
###human: Find the first names of teachers whose email address contains the word "man".
###assistant: SELECT first_name FROM Teachers WHERE email_address LIKE '%man%' |
###context:CREATE TABLE Assessment_Notes (date_of_notes VARCHAR)
###human: List all information about the assessment notes sorted by date in ascending order.
###assistant: SELECT * FROM Assessment_Notes ORDER BY date_of_notes |
###context:CREATE TABLE Addresses (city VARCHAR)
###human: List all cities of addresses in alphabetical order.
###assistant: SELECT city FROM Addresses ORDER BY city |
###context:CREATE TABLE Teachers (first_name VARCHAR, last_name VARCHAR)
###human: Find the first names and last names of teachers in alphabetical order of last name.
###assistant: SELECT first_name, last_name FROM Teachers ORDER BY last_name |
###context:CREATE TABLE Student_Addresses (monthly_rental VARCHAR)
###human: Find all information about student addresses, and sort by monthly rental in descending order.
###assistant: SELECT * FROM Student_Addresses ORDER BY monthly_rental DESC |
###context:CREATE TABLE Students (first_name VARCHAR, student_id VARCHAR); CREATE TABLE Assessment_Notes (student_id VARCHAR)
###human: Find the id and first name of the student that has the most number of assessment notes?
###assistant: SELECT T1.student_id, T2.first_name FROM Assessment_Notes AS T1 JOIN Students AS T2 ON T1.student_id = T2.student_id GROUP BY T1.student_id ORDER BY COUNT(*) DESC LIMIT 1 |
###context:CREATE TABLE Assessment_Notes (teacher_id VARCHAR); CREATE TABLE Teachers (first_name VARCHAR, teacher_id VARCHAR)
###human: Find the ids and first names of the 3 teachers that have the most number of assessment notes?
###assistant: SELECT T1.teacher_id, T2.first_name FROM Assessment_Notes AS T1 JOIN Teachers AS T2 ON T1.teacher_id = T2.teacher_id GROUP BY T1.teacher_id ORDER BY COUNT(*) DESC LIMIT 3 |
###context:CREATE TABLE Students (last_name VARCHAR, student_id VARCHAR); CREATE TABLE Behavior_Incident (student_id VARCHAR)
###human: Find the id and last name of the student that has the most behavior incidents?
###assistant: SELECT T1.student_id, T2.last_name FROM Behavior_Incident AS T1 JOIN Students AS T2 ON T1.student_id = T2.student_id GROUP BY T1.student_id ORDER BY COUNT(*) DESC LIMIT 1 |
###context:CREATE TABLE Detention (teacher_id VARCHAR, detention_type_code VARCHAR); CREATE TABLE Teachers (last_name VARCHAR, teacher_id VARCHAR)
###human: Find the id and last name of the teacher that has the most detentions with detention type code "AFTER"?
###assistant: SELECT T1.teacher_id, T2.last_name FROM Detention AS T1 JOIN Teachers AS T2 ON T1.teacher_id = T2.teacher_id WHERE T1.detention_type_code = "AFTER" GROUP BY T1.teacher_id ORDER BY COUNT(*) DESC LIMIT 1 |
###context:CREATE TABLE Students (first_name VARCHAR, student_id VARCHAR); CREATE TABLE Student_Addresses (student_id VARCHAR)
###human: What are the id and first name of the student whose addresses have the highest average monthly rental?
###assistant: SELECT T1.student_id, T2.first_name FROM Student_Addresses AS T1 JOIN Students AS T2 ON T1.student_id = T2.student_id GROUP BY T1.student_id ORDER BY AVG(monthly_rental) DESC LIMIT 1 |
###context:CREATE TABLE Student_Addresses (address_id VARCHAR); CREATE TABLE Addresses (city VARCHAR, address_id VARCHAR)
###human: Find the id and city of the student address with the highest average monthly rental.
###assistant: SELECT T2.address_id, T1.city FROM Addresses AS T1 JOIN Student_Addresses AS T2 ON T1.address_id = T2.address_id GROUP BY T2.address_id ORDER BY AVG(monthly_rental) DESC LIMIT 1 |
###context:CREATE TABLE Ref_Incident_Type (incident_type_description VARCHAR, incident_type_code VARCHAR); CREATE TABLE Behavior_Incident (incident_type_code VARCHAR)
###human: What are the code and description of the most frequent behavior incident type?
###assistant: SELECT T1.incident_type_code, T2.incident_type_description FROM Behavior_Incident AS T1 JOIN Ref_Incident_Type AS T2 ON T1.incident_type_code = T2.incident_type_code GROUP BY T1.incident_type_code ORDER BY COUNT(*) DESC LIMIT 1 |
###context:CREATE TABLE Ref_Detention_Type (detention_type_description VARCHAR, detention_type_code VARCHAR); CREATE TABLE Detention (detention_type_code VARCHAR)
###human: What are the code and description of the least frequent detention type ?
###assistant: SELECT T1.detention_type_code, T2.detention_type_description FROM Detention AS T1 JOIN Ref_Detention_Type AS T2 ON T1.detention_type_code = T2.detention_type_code GROUP BY T1.detention_type_code ORDER BY COUNT(*) LIMIT 1 |
###context:CREATE TABLE Students (student_id VARCHAR, first_name VARCHAR); CREATE TABLE Assessment_Notes (date_of_notes VARCHAR, student_id VARCHAR)
###human: Find the dates of assessment notes for students with first name "Fanny".
###assistant: SELECT T1.date_of_notes FROM Assessment_Notes AS T1 JOIN Students AS T2 ON T1.student_id = T2.student_id WHERE T2.first_name = "Fanny" |
###context:CREATE TABLE Assessment_Notes (text_of_notes VARCHAR, teacher_id VARCHAR); CREATE TABLE Teachers (teacher_id VARCHAR, last_name VARCHAR)
###human: Find the texts of assessment notes for teachers with last name "Schuster".
###assistant: SELECT T1.text_of_notes FROM Assessment_Notes AS T1 JOIN Teachers AS T2 ON T1.teacher_id = T2.teacher_id WHERE T2.last_name = "Schuster" |
###context:CREATE TABLE Behavior_Incident (date_incident_start VARCHAR, student_id VARCHAR); CREATE TABLE Students (student_id VARCHAR, last_name VARCHAR)
###human: Find the start and end dates of behavior incidents of students with last name "Fahey".
###assistant: SELECT T1.date_incident_start, date_incident_end FROM Behavior_Incident AS T1 JOIN Students AS T2 ON T1.student_id = T2.student_id WHERE T2.last_name = "Fahey" |
###context:CREATE TABLE Detention (datetime_detention_start VARCHAR, teacher_id VARCHAR); CREATE TABLE Teachers (teacher_id VARCHAR, last_name VARCHAR)
###human: Find the start and end dates of detentions of teachers with last name "Schultz".
###assistant: SELECT T1.datetime_detention_start, datetime_detention_end FROM Detention AS T1 JOIN Teachers AS T2 ON T1.teacher_id = T2.teacher_id WHERE T2.last_name = "Schultz" |
###context:CREATE TABLE Student_Addresses (address_id VARCHAR); CREATE TABLE Addresses (zip_postcode VARCHAR, address_id VARCHAR)
###human: What are the id and zip code of the address with the highest monthly rental?
###assistant: SELECT T2.address_id, T1.zip_postcode FROM Addresses AS T1 JOIN Student_Addresses AS T2 ON T1.address_id = T2.address_id ORDER BY monthly_rental DESC LIMIT 1 |
###context:CREATE TABLE Students (cell_mobile_number VARCHAR, student_id VARCHAR); CREATE TABLE Student_Addresses (student_id VARCHAR, monthly_rental VARCHAR)
###human: What is the cell phone number of the student whose address has the lowest monthly rental?
###assistant: SELECT T2.cell_mobile_number FROM Student_Addresses AS T1 JOIN Students AS T2 ON T1.student_id = T2.student_id ORDER BY T1.monthly_rental LIMIT 1 |
###context:CREATE TABLE Addresses (address_id VARCHAR, state_province_county VARCHAR); CREATE TABLE Student_Addresses (monthly_rental VARCHAR, address_id VARCHAR)
###human: What are the monthly rentals of student addresses in Texas state?
###assistant: SELECT T2.monthly_rental FROM Addresses AS T1 JOIN Student_Addresses AS T2 ON T1.address_id = T2.address_id WHERE T1.state_province_county = "Texas" |
###context:CREATE TABLE Addresses (address_id VARCHAR, state_province_county VARCHAR); CREATE TABLE Students (first_name VARCHAR, last_name VARCHAR, address_id VARCHAR)
###human: What are the first names and last names of students with address in Wisconsin state?
###assistant: SELECT T2.first_name, T2.last_name FROM Addresses AS T1 JOIN Students AS T2 ON T1.address_id = T2.address_id WHERE T1.state_province_county = "Wisconsin" |
###context:CREATE TABLE Addresses (line_1 VARCHAR, address_id VARCHAR); CREATE TABLE Student_Addresses (monthly_rental INTEGER, address_id VARCHAR)
###human: What are the line 1 and average monthly rentals of all student addresses?
###assistant: SELECT T1.line_1, AVG(T2.monthly_rental) FROM Addresses AS T1 JOIN Student_Addresses AS T2 ON T1.address_id = T2.address_id GROUP BY T2.address_id |
###context:CREATE TABLE Teachers (address_id VARCHAR, first_name VARCHAR); CREATE TABLE Addresses (zip_postcode VARCHAR, address_id VARCHAR)
###human: What is the zip code of the address where the teacher with first name "Lyla" lives?
###assistant: SELECT T1.zip_postcode FROM Addresses AS T1 JOIN Teachers AS T2 ON T1.address_id = T2.address_id WHERE T2.first_name = "Lyla" |
###context:CREATE TABLE Addresses (address_id VARCHAR, zip_postcode VARCHAR); CREATE TABLE Teachers (email_address VARCHAR, address_id VARCHAR)
###human: What are the email addresses of teachers whose address has zip code "918"?
###assistant: SELECT T2.email_address FROM Addresses AS T1 JOIN Teachers AS T2 ON T1.address_id = T2.address_id WHERE T1.zip_postcode = "918" |
###context:CREATE TABLE STUDENTS (student_id VARCHAR); CREATE TABLE Behavior_Incident (student_id VARCHAR)
###human: How many students are not involved in any behavior incident?
###assistant: SELECT COUNT(*) FROM STUDENTS WHERE NOT student_id IN (SELECT student_id FROM Behavior_Incident) |
###context:CREATE TABLE Teachers (last_name VARCHAR); CREATE TABLE Teachers (last_name VARCHAR, teacher_id VARCHAR); CREATE TABLE Detention (teacher_id VARCHAR)
###human: Find the last names of teachers who are not involved in any detention.
###assistant: SELECT last_name FROM Teachers EXCEPT SELECT T1.last_name FROM Teachers AS T1 JOIN Detention AS T2 ON T1.teacher_id = T2.teacher_id |
###context:CREATE TABLE Teachers (address_id VARCHAR); CREATE TABLE Students (address_id VARCHAR); CREATE TABLE Addresses (line_1 VARCHAR, address_id VARCHAR)
###human: What are the line 1 of addresses shared by some students and some teachers?
###assistant: SELECT T1.line_1 FROM Addresses AS T1 JOIN Students AS T2 ON T1.address_id = T2.address_id INTERSECT SELECT T1.line_1 FROM Addresses AS T1 JOIN Teachers AS T2 ON T1.address_id = T2.address_id |
###context:CREATE TABLE Assets (asset_id VARCHAR, asset_details VARCHAR); CREATE TABLE Asset_Parts (asset_id VARCHAR); CREATE TABLE Fault_Log (asset_id VARCHAR)
###human: Which assets have 2 parts and have less than 2 fault logs? List the asset id and detail.
###assistant: SELECT T1.asset_id, T1.asset_details FROM Assets AS T1 JOIN Asset_Parts AS T2 ON T1.asset_id = T2.asset_id GROUP BY T1.asset_id HAVING COUNT(*) = 2 INTERSECT SELECT T1.asset_id, T1.asset_details FROM Assets AS T1 JOIN Fault_Log AS T2 ON T1.asset_id = T2.asset_id GROUP BY T1.asset_id HAVING COUNT(*) < 2 |
###context:CREATE TABLE Assets (maintenance_contract_id VARCHAR); CREATE TABLE Maintenance_Contracts (maintenance_contract_id VARCHAR)
###human: How many assets does each maintenance contract contain? List the number and the contract id.
###assistant: SELECT COUNT(*), T1.maintenance_contract_id FROM Maintenance_Contracts AS T1 JOIN Assets AS T2 ON T1.maintenance_contract_id = T2.maintenance_contract_id GROUP BY T1.maintenance_contract_id |
###context:CREATE TABLE Assets (supplier_company_id VARCHAR); CREATE TABLE Third_Party_Companies (company_id VARCHAR)
###human: How many assets does each third party company supply? List the count and the company id.
###assistant: SELECT COUNT(*), T1.company_id FROM Third_Party_Companies AS T1 JOIN Assets AS T2 ON T1.company_id = T2.supplier_company_id GROUP BY T1.company_id |
###context:CREATE TABLE Maintenance_Contracts (maintenance_contract_company_id VARCHAR); CREATE TABLE Maintenance_Engineers (company_id VARCHAR); CREATE TABLE Third_Party_Companies (company_id VARCHAR, company_name VARCHAR)
###human: Which third party companies have at least 2 maintenance engineers or have at least 2 maintenance contracts? List the company id and name.
###assistant: SELECT T1.company_id, T1.company_name FROM Third_Party_Companies AS T1 JOIN Maintenance_Engineers AS T2 ON T1.company_id = T2.company_id GROUP BY T1.company_id HAVING COUNT(*) >= 2 UNION SELECT T3.company_id, T3.company_name FROM Third_Party_Companies AS T3 JOIN Maintenance_Contracts AS T4 ON T3.company_id = T4.maintenance_contract_company_id GROUP BY T3.company_id HAVING COUNT(*) >= 2 |
###context:CREATE TABLE Engineer_Visits (contact_staff_id VARCHAR); CREATE TABLE Staff (staff_name VARCHAR, staff_id VARCHAR); CREATE TABLE Fault_Log (recorded_by_staff_id VARCHAR)
###human: What is the name and id of the staff who recorded the fault log but has not contacted any visiting engineers?
###assistant: SELECT T1.staff_name, T1.staff_id FROM Staff AS T1 JOIN Fault_Log AS T2 ON T1.staff_id = T2.recorded_by_staff_id EXCEPT SELECT T3.staff_name, T3.staff_id FROM Staff AS T3 JOIN Engineer_Visits AS T4 ON T3.staff_id = T4.contact_staff_id |
###context:CREATE TABLE Maintenance_Engineers (engineer_id VARCHAR, first_name VARCHAR, last_name VARCHAR); CREATE TABLE Engineer_Visits (Id VARCHAR)
###human: Which engineer has visited the most times? Show the engineer id, first name and last name.
###assistant: SELECT T1.engineer_id, T1.first_name, T1.last_name FROM Maintenance_Engineers AS T1 JOIN Engineer_Visits AS T2 GROUP BY T1.engineer_id ORDER BY COUNT(*) DESC LIMIT 1 |
###context:CREATE TABLE Parts (part_name VARCHAR, part_id VARCHAR); CREATE TABLE Part_Faults (part_id VARCHAR)
###human: Which parts have more than 2 faults? Show the part name and id.
###assistant: SELECT T1.part_name, T1.part_id FROM Parts AS T1 JOIN Part_Faults AS T2 ON T1.part_id = T2.part_id GROUP BY T1.part_id HAVING COUNT(*) > 2 |
###context:CREATE TABLE Maintenance_Engineers (first_name VARCHAR, last_name VARCHAR, other_details VARCHAR, engineer_id VARCHAR); CREATE TABLE Engineer_Skills (engineer_id VARCHAR, skill_id VARCHAR); CREATE TABLE Skills (skill_description VARCHAR, skill_id VARCHAR)
###human: List all every engineer's first name, last name, details and coresponding skill description.
###assistant: SELECT T1.first_name, T1.last_name, T1.other_details, T3.skill_description FROM Maintenance_Engineers AS T1 JOIN Engineer_Skills AS T2 ON T1.engineer_id = T2.engineer_id JOIN Skills AS T3 ON T2.skill_id = T3.skill_id |
###context:CREATE TABLE Skills_Required_To_Fix (part_fault_id VARCHAR, skill_id VARCHAR); CREATE TABLE Part_Faults (fault_short_name VARCHAR, part_fault_id VARCHAR); CREATE TABLE Skills (skill_description VARCHAR, skill_id VARCHAR)
###human: For all the faults of different parts, what are all the decriptions of the skills required to fix them? List the name of the faults and the skill description.
###assistant: SELECT T1.fault_short_name, T3.skill_description FROM Part_Faults AS T1 JOIN Skills_Required_To_Fix AS T2 ON T1.part_fault_id = T2.part_fault_id JOIN Skills AS T3 ON T2.skill_id = T3.skill_id |
###context:CREATE TABLE Parts (part_name VARCHAR, part_id VARCHAR); CREATE TABLE Asset_Parts (part_id VARCHAR)
###human: How many assets can each parts be used in? List the part name and the number.
###assistant: SELECT T1.part_name, COUNT(*) FROM Parts AS T1 JOIN Asset_Parts AS T2 ON T1.part_id = T2.part_id GROUP BY T1.part_name |
###context:CREATE TABLE Fault_Log (fault_description VARCHAR, fault_log_entry_id VARCHAR); CREATE TABLE Fault_Log_Parts (fault_status VARCHAR, fault_log_entry_id VARCHAR)
###human: What are all the fault descriptions and the fault status of all the faults recoreded in the logs?
###assistant: SELECT T1.fault_description, T2.fault_status FROM Fault_Log AS T1 JOIN Fault_Log_Parts AS T2 ON T1.fault_log_entry_id = T2.fault_log_entry_id |
###context:CREATE TABLE Fault_Log (fault_log_entry_id VARCHAR); CREATE TABLE Engineer_Visits (fault_log_entry_id VARCHAR)
###human: How many engineer visits are required at most for a single fault log? List the number and the log entry id.
###assistant: SELECT COUNT(*), T1.fault_log_entry_id FROM Fault_Log AS T1 JOIN Engineer_Visits AS T2 ON T1.fault_log_entry_id = T2.fault_log_entry_id GROUP BY T1.fault_log_entry_id ORDER BY COUNT(*) DESC LIMIT 1 |
###context:CREATE TABLE Maintenance_Engineers (last_name VARCHAR)
###human: What are all the distinct last names of all the engineers?
###assistant: SELECT DISTINCT last_name FROM Maintenance_Engineers |
###context:CREATE TABLE Fault_Log_Parts (fault_status VARCHAR)
###human: How many fault status codes are recorded in the fault log parts table?
###assistant: SELECT DISTINCT fault_status FROM Fault_Log_Parts |
###context:CREATE TABLE Engineer_Visits (first_name VARCHAR, last_name VARCHAR, engineer_id VARCHAR); CREATE TABLE Maintenance_Engineers (first_name VARCHAR, last_name VARCHAR, engineer_id VARCHAR)
###human: Which engineers have never visited to maintain the assets? List the engineer first name and last name.
###assistant: SELECT first_name, last_name FROM Maintenance_Engineers WHERE NOT engineer_id IN (SELECT engineer_id FROM Engineer_Visits) |
###context:CREATE TABLE Assets (asset_id VARCHAR, asset_details VARCHAR, asset_make VARCHAR, asset_model VARCHAR)
###human: List the asset id, details, make and model for every asset.
###assistant: SELECT asset_id, asset_details, asset_make, asset_model FROM Assets |
###context:CREATE TABLE Assets (asset_acquired_date VARCHAR)
###human: When was the first asset acquired?
###assistant: SELECT asset_acquired_date FROM Assets ORDER BY asset_acquired_date LIMIT 1 |
###context:CREATE TABLE Part_Faults (part_id VARCHAR, part_fault_id VARCHAR); CREATE TABLE Skills_Required_To_Fix (part_fault_id VARCHAR); CREATE TABLE Parts (part_id VARCHAR, part_name VARCHAR)
###human: Which part fault requires the most number of skills to fix? List part id and name.
###assistant: SELECT T1.part_id, T1.part_name FROM Parts AS T1 JOIN Part_Faults AS T2 ON T1.part_id = T2.part_id JOIN Skills_Required_To_Fix AS T3 ON T2.part_fault_id = T3.part_fault_id GROUP BY T1.part_id ORDER BY COUNT(*) DESC LIMIT 1 |
###context:CREATE TABLE Parts (part_name VARCHAR, part_id VARCHAR); CREATE TABLE Part_Faults (part_id VARCHAR)
###human: Which kind of part has the least number of faults? List the part name.
###assistant: SELECT T1.part_name FROM Parts AS T1 JOIN Part_Faults AS T2 ON T1.part_id = T2.part_id GROUP BY T1.part_name ORDER BY COUNT(*) LIMIT 1 |
###context:CREATE TABLE Engineer_Visits (engineer_id VARCHAR); CREATE TABLE Maintenance_Engineers (engineer_id VARCHAR, first_name VARCHAR, last_name VARCHAR)
###human: Among those engineers who have visited, which engineer makes the least number of visits? List the engineer id, first name and last name.
###assistant: SELECT T1.engineer_id, T1.first_name, T1.last_name FROM Maintenance_Engineers AS T1 JOIN Engineer_Visits AS T2 ON T1.engineer_id = T2.engineer_id GROUP BY T1.engineer_id ORDER BY COUNT(*) LIMIT 1 |
###context:CREATE TABLE Engineer_Visits (contact_staff_id VARCHAR, engineer_id VARCHAR); CREATE TABLE Staff (staff_name VARCHAR, staff_id VARCHAR); CREATE TABLE Maintenance_Engineers (first_name VARCHAR, last_name VARCHAR, engineer_id VARCHAR)
###human: Which staff have contacted which engineers? List the staff name and the engineer first name and last name.
###assistant: SELECT T1.staff_name, T3.first_name, T3.last_name FROM Staff AS T1 JOIN Engineer_Visits AS T2 ON T1.staff_id = T2.contact_staff_id JOIN Maintenance_Engineers AS T3 ON T2.engineer_id = T3.engineer_id |
###context:CREATE TABLE Fault_Log (fault_log_entry_id VARCHAR, fault_description VARCHAR, fault_log_entry_datetime VARCHAR); CREATE TABLE Fault_Log_Parts (fault_log_entry_id VARCHAR)
###human: Which fault log included the most number of faulty parts? List the fault log id, description and record time.
###assistant: SELECT T1.fault_log_entry_id, T1.fault_description, T1.fault_log_entry_datetime FROM Fault_Log AS T1 JOIN Fault_Log_Parts AS T2 ON T1.fault_log_entry_id = T2.fault_log_entry_id GROUP BY T1.fault_log_entry_id ORDER BY COUNT(*) DESC LIMIT 1 |
###context:CREATE TABLE Skills (skill_id VARCHAR, skill_description VARCHAR); CREATE TABLE Skills_Required_To_Fix (skill_id VARCHAR)
###human: Which skill is used in fixing the most number of faults? List the skill id and description.
###assistant: SELECT T1.skill_id, T1.skill_description FROM Skills AS T1 JOIN Skills_Required_To_Fix AS T2 ON T1.skill_id = T2.skill_id GROUP BY T1.skill_id ORDER BY COUNT(*) DESC LIMIT 1 |
###context:CREATE TABLE Assets (asset_model VARCHAR)
###human: What are all the distinct asset models?
###assistant: SELECT DISTINCT asset_model FROM Assets |
###context:CREATE TABLE Assets (asset_make VARCHAR, asset_model VARCHAR, asset_details VARCHAR, asset_disposed_date VARCHAR)
###human: List the all the assets make, model, details by the disposed date ascendingly.
###assistant: SELECT asset_make, asset_model, asset_details FROM Assets ORDER BY asset_disposed_date |
###context:CREATE TABLE Parts (part_id VARCHAR, chargeable_amount VARCHAR)
###human: Which part has the least chargeable amount? List the part id and amount.
###assistant: SELECT part_id, chargeable_amount FROM Parts ORDER BY chargeable_amount LIMIT 1 |
###context:CREATE TABLE Third_Party_Companies (company_name VARCHAR, company_id VARCHAR); CREATE TABLE Maintenance_Contracts (maintenance_contract_company_id VARCHAR, contract_start_date VARCHAR)
###human: Which company started the earliest the maintenance contract? Show the company name.
###assistant: SELECT T1.company_name FROM Third_Party_Companies AS T1 JOIN Maintenance_Contracts AS T2 ON T1.company_id = T2.maintenance_contract_company_id ORDER BY T2.contract_start_date LIMIT 1 |
###context:CREATE TABLE Maintenance_Contracts (maintenance_contract_company_id VARCHAR, contract_end_date VARCHAR); CREATE TABLE Third_Party_Companies (company_name VARCHAR, company_id VARCHAR, company_type_code VARCHAR); CREATE TABLE Ref_Company_Types (company_type_code VARCHAR)
###human: What is the description of the type of the company who concluded its contracts most recently?
###assistant: SELECT T1.company_name FROM Third_Party_Companies AS T1 JOIN Maintenance_Contracts AS T2 ON T1.company_id = T2.maintenance_contract_company_id JOIN Ref_Company_Types AS T3 ON T1.company_type_code = T3.company_type_code ORDER BY T2.contract_end_date DESC LIMIT 1 |
###context:CREATE TABLE staff (gender VARCHAR)
###human: Which gender makes up the majority of the staff?
###assistant: SELECT gender FROM staff GROUP BY gender ORDER BY COUNT(*) DESC LIMIT 1 |
###context:CREATE TABLE Engineer_Visits (contact_staff_id VARCHAR); CREATE TABLE Staff (staff_name VARCHAR, staff_id VARCHAR)
###human: How many engineers did each staff contact? List both the contact staff name and number of engineers contacted.
###assistant: SELECT T1.staff_name, COUNT(*) FROM Staff AS T1 JOIN Engineer_Visits AS T2 ON T1.staff_id = T2.contact_staff_id GROUP BY T1.staff_name |
###context:CREATE TABLE Fault_Log (asset_model VARCHAR, asset_id VARCHAR); CREATE TABLE Assets (asset_model VARCHAR, asset_id VARCHAR)
###human: Which assets did not incur any fault log? List the asset model.
###assistant: SELECT asset_model FROM Assets WHERE NOT asset_id IN (SELECT asset_id FROM Fault_Log) |
###context:CREATE TABLE station (local_authority VARCHAR, services VARCHAR)
###human: list the local authorities and services provided by all stations.
###assistant: SELECT local_authority, services FROM station |
###context:CREATE TABLE train (train_number VARCHAR, name VARCHAR, TIME VARCHAR)
###human: show all train numbers and names ordered by their time from early to late.
###assistant: SELECT train_number, name FROM train ORDER BY TIME |
###context:CREATE TABLE train (TIME VARCHAR, train_number VARCHAR, destination VARCHAR)
###human: Give me the times and numbers of all trains that go to Chennai, ordered by time.
###assistant: SELECT TIME, train_number FROM train WHERE destination = 'Chennai' ORDER BY TIME |
###context:CREATE TABLE train (name VARCHAR)
###human: How many trains have 'Express' in their names?
###assistant: SELECT COUNT(*) FROM train WHERE name LIKE "%Express%" |
###context:CREATE TABLE train (train_number VARCHAR, TIME VARCHAR, origin VARCHAR, destination VARCHAR)
###human: Find the number and time of the train that goes from Chennai to Guruvayur.
###assistant: SELECT train_number, TIME FROM train WHERE origin = 'Chennai' AND destination = 'Guruvayur' |
###context:CREATE TABLE train (origin VARCHAR)
###human: Find the number of trains starting from each origin.
###assistant: SELECT origin, COUNT(*) FROM train GROUP BY origin |
###context:CREATE TABLE route (train_id VARCHAR); CREATE TABLE train (name VARCHAR, id VARCHAR)
###human: Find the name of the train whose route runs through greatest number of stations.
###assistant: SELECT t1.name FROM train AS t1 JOIN route AS t2 ON t1.id = t2.train_id GROUP BY t2.train_id ORDER BY COUNT(*) DESC LIMIT 1 |
###context:CREATE TABLE route (station_id VARCHAR); CREATE TABLE station (network_name VARCHAR, services VARCHAR, id VARCHAR)
###human: Find the number of trains for each station, as well as the station network name and services.
###assistant: SELECT COUNT(*), t1.network_name, t1.services FROM station AS t1 JOIN route AS t2 ON t1.id = t2.station_id GROUP BY t2.station_id |
###context:CREATE TABLE weekly_weather (day_of_week VARCHAR, high_temperature INTEGER)
###human: What is the average high temperature for each day of week?
###assistant: SELECT AVG(high_temperature), day_of_week FROM weekly_weather GROUP BY day_of_week |
###context:CREATE TABLE weekly_weather (low_temperature INTEGER, precipitation INTEGER, station_id VARCHAR); CREATE TABLE station (id VARCHAR, network_name VARCHAR)
###human: Give me the maximum low temperature and average precipitation at the Amersham station.
###assistant: SELECT MAX(t1.low_temperature), AVG(t1.precipitation) FROM weekly_weather AS t1 JOIN station AS t2 ON t1.station_id = t2.id WHERE t2.network_name = "Amersham" |
###context:CREATE TABLE station (id VARCHAR, local_authority VARCHAR); CREATE TABLE route (station_id VARCHAR, train_id VARCHAR); CREATE TABLE train (name VARCHAR, time VARCHAR, id VARCHAR)
###human: Find names and times of trains that run through stations for the local authority Chiltern.
###assistant: SELECT t3.name, t3.time FROM station AS t1 JOIN route AS t2 ON t1.id = t2.station_id JOIN train AS t3 ON t2.train_id = t3.id WHERE t1.local_authority = "Chiltern" |
###context:CREATE TABLE station (services VARCHAR)
###human: How many different services are provided by all stations?
###assistant: SELECT COUNT(DISTINCT services) FROM station |
###context:CREATE TABLE weekly_weather (station_id VARCHAR); CREATE TABLE station (id VARCHAR, local_authority VARCHAR)
###human: Find the id and local authority of the station with has the highest average high temperature.
###assistant: SELECT t2.id, t2.local_authority FROM weekly_weather AS t1 JOIN station AS t2 ON t1.station_id = t2.id GROUP BY t1.station_id ORDER BY AVG(high_temperature) DESC LIMIT 1 |
###context:CREATE TABLE weekly_weather (station_id VARCHAR, precipitation INTEGER); CREATE TABLE station (id VARCHAR, local_authority VARCHAR)
###human: Find the id and local authority of the station whose maximum precipitation is higher than 50.
###assistant: SELECT t2.id, t2.local_authority FROM weekly_weather AS t1 JOIN station AS t2 ON t1.station_id = t2.id GROUP BY t1.station_id HAVING MAX(t1.precipitation) > 50 |
###context:CREATE TABLE weekly_weather (low_temperature INTEGER, wind_speed_mph INTEGER)
###human: show the lowest low temperature and highest wind speed in miles per hour.
###assistant: SELECT MIN(low_temperature), MAX(wind_speed_mph) FROM weekly_weather |
###context:CREATE TABLE train (origin VARCHAR)
###human: Find the origins from which more than 1 train starts.
###assistant: SELECT origin FROM train GROUP BY origin HAVING COUNT(*) > 1 |
Subsets and Splits