db_id
stringlengths 4
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| evidence
stringlengths 0
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stringlengths 352
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|---|---|---|---|---|
shakespeare | Among the chapters in "As You Like It", how many chapters have a paragraph number of no more than 50? | "As You Like It" refers to Title = 'As You Like It' ;paragraph number of no more than 50 refers to ParagraphNum < 50 | SELECT COUNT(T3.chapter_id) FROM works AS T1 INNER JOIN chapters AS T2 ON T1.id = T2.work_id INNER JOIN paragraphs AS T3 ON T2.id = T3.chapter_id WHERE T1.Title = 'As You Like It' AND T3.ParagraphNum < 50 | CREATE TABLE IF NOT EXISTS "chapters"
(
id INTEGER
primary key autoincrement,
Act INTEGER not null,
Scene INTEGER not null,
Description TEXT not null,
work_id INTEGER not null
references works
);
CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE IF NOT EXISTS "characters"
(
id INTEGER
primary key autoincrement,
CharName TEXT not null,
Abbrev TEXT not null,
Description TEXT not null
);
CREATE TABLE IF NOT EXISTS "paragraphs"
(
id INTEGER
primary key autoincrement,
ParagraphNum INTEGER not null,
PlainText TEXT not null,
character_id INTEGER not null
references characters,
chapter_id INTEGER default 0 not null
references chapters
);
CREATE TABLE IF NOT EXISTS "works"
(
id INTEGER
primary key autoincrement,
Title TEXT not null,
LongTitle TEXT not null,
Date INTEGER not null,
GenreType TEXT not null
);
|
professional_basketball | Where was the high school of the player who had the most rebounds in the NBA allstar history? | the most rebounds refers to max(rebounds) | SELECT T2.highSchool FROM player_allstar AS T1 INNER JOIN players AS T2 ON T1.playerID = T2.playerID ORDER BY T1.rebounds DESC LIMIT 1 | CREATE TABLE awards_players
(
playerID TEXT not null,
award TEXT not null,
year INTEGER not null,
lgID TEXT null,
note TEXT null,
pos TEXT null,
primary key (playerID, year, award),
foreign key (playerID) references players (playerID)
on update cascade on delete cascade
);
CREATE TABLE coaches
(
coachID TEXT not null,
year INTEGER not null,
tmID TEXT not null,
lgID TEXT null,
stint INTEGER not null,
won INTEGER null,
lost INTEGER null,
post_wins INTEGER null,
post_losses INTEGER null,
primary key (coachID, year, tmID, stint),
foreign key (tmID, year) references teams (tmID, year)
on update cascade on delete cascade
);
CREATE TABLE draft
(
id INTEGER default 0 not null
primary key,
draftYear INTEGER null,
draftRound INTEGER null,
draftSelection INTEGER null,
draftOverall INTEGER null,
tmID TEXT null,
firstName TEXT null,
lastName TEXT null,
suffixName TEXT null,
playerID TEXT null,
draftFrom TEXT null,
lgID TEXT null,
foreign key (tmID, draftYear) references teams (tmID, year)
on update cascade on delete cascade
);
CREATE TABLE player_allstar
(
playerID TEXT not null,
last_name TEXT null,
first_name TEXT null,
season_id INTEGER not null,
conference TEXT null,
league_id TEXT null,
games_played INTEGER null,
minutes INTEGER null,
points INTEGER null,
o_rebounds INTEGER null,
d_rebounds INTEGER null,
rebounds INTEGER null,
assists INTEGER null,
steals INTEGER null,
blocks INTEGER null,
turnovers INTEGER null,
personal_fouls INTEGER null,
fg_attempted INTEGER null,
fg_made INTEGER null,
ft_attempted INTEGER null,
ft_made INTEGER null,
three_attempted INTEGER null,
three_made INTEGER null,
primary key (playerID, season_id),
foreign key (playerID) references players (playerID)
on update cascade on delete cascade
);
CREATE TABLE players
(
playerID TEXT not null
primary key,
useFirst TEXT null,
firstName TEXT null,
middleName TEXT null,
lastName TEXT null,
nameGiven TEXT null,
fullGivenName TEXT null,
nameSuffix TEXT null,
nameNick TEXT null,
pos TEXT null,
firstseason INTEGER null,
lastseason INTEGER null,
height REAL null,
weight INTEGER null,
college TEXT null,
collegeOther TEXT null,
birthDate DATE null,
birthCity TEXT null,
birthState TEXT null,
birthCountry TEXT null,
highSchool TEXT null,
hsCity TEXT null,
hsState TEXT null,
hsCountry TEXT null,
deathDate DATE null,
race TEXT null
);
CREATE TABLE teams
(
year INTEGER not null,
lgID TEXT null,
tmID TEXT not null,
franchID TEXT null,
confID TEXT null,
divID TEXT null,
`rank` INTEGER null,
confRank INTEGER null,
playoff TEXT null,
name TEXT null,
o_fgm INTEGER null,
-- o_fga int null,
o_ftm INTEGER null,
-- o_fta int null,
-- o_3pm int null,
-- o_3pa int null,
-- o_oreb int null,
-- o_dreb int null,
-- o_reb int null,
-- o_asts int null,
-- o_pf int null,
-- o_stl int null,
-- o_to int null,
-- o_blk int null,
o_pts INTEGER null,
-- d_fgm int null,
-- d_fga int null,
-- d_ftm int null,
-- d_fta int null,
-- d_3pm int null,
-- d_3pa int null,
-- d_oreb int null,
-- d_dreb int null,
-- d_reb int null,
-- d_asts int null,
-- d_pf int null,
-- d_stl int null,
-- d_to int null,
-- d_blk int null,
d_pts INTEGER null,
-- o_tmRebound int null,
-- d_tmRebound int null,
homeWon INTEGER null,
homeLost INTEGER null,
awayWon INTEGER null,
awayLost INTEGER null,
-- neutWon int null,
-- neutLoss int null,
-- confWon int null,
-- confLoss int null,
-- divWon int null,
-- divLoss int null,
-- pace int null,
won INTEGER null,
lost INTEGER null,
games INTEGER null,
-- min int null,
arena TEXT null,
-- attendance int null,
-- bbtmID varchar(255) null,
primary key (year, tmID)
);
CREATE TABLE IF NOT EXISTS "awards_coaches"
(
id INTEGER
primary key autoincrement,
year INTEGER,
coachID TEXT,
award TEXT,
lgID TEXT,
note TEXT,
foreign key (coachID, year) references coaches (coachID, year)
on update cascade on delete cascade
);
CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE IF NOT EXISTS "players_teams"
(
id INTEGER
primary key autoincrement,
playerID TEXT not null
references players
on update cascade on delete cascade,
year INTEGER,
stint INTEGER,
tmID TEXT,
lgID TEXT,
GP INTEGER,
GS INTEGER,
minutes INTEGER,
points INTEGER,
oRebounds INTEGER,
dRebounds INTEGER,
rebounds INTEGER,
assists INTEGER,
steals INTEGER,
blocks INTEGER,
turnovers INTEGER,
PF INTEGER,
fgAttempted INTEGER,
fgMade INTEGER,
ftAttempted INTEGER,
ftMade INTEGER,
threeAttempted INTEGER,
threeMade INTEGER,
PostGP INTEGER,
PostGS INTEGER,
PostMinutes INTEGER,
PostPoints INTEGER,
PostoRebounds INTEGER,
PostdRebounds INTEGER,
PostRebounds INTEGER,
PostAssists INTEGER,
PostSteals INTEGER,
PostBlocks INTEGER,
PostTurnovers INTEGER,
PostPF INTEGER,
PostfgAttempted INTEGER,
PostfgMade INTEGER,
PostftAttempted INTEGER,
PostftMade INTEGER,
PostthreeAttempted INTEGER,
PostthreeMade INTEGER,
note TEXT,
foreign key (tmID, year) references teams (tmID, year)
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "series_post"
(
id INTEGER
primary key autoincrement,
year INTEGER,
round TEXT,
series TEXT,
tmIDWinner TEXT,
lgIDWinner TEXT,
tmIDLoser TEXT,
lgIDLoser TEXT,
W INTEGER,
L INTEGER,
foreign key (tmIDWinner, year) references teams (tmID, year)
on update cascade on delete cascade,
foreign key (tmIDLoser, year) references teams (tmID, year)
on update cascade on delete cascade
);
|
retails | What is the name of the customer number 93697 with the total order price of 191918.92? | customer name refers to c_name; number 93697 refers to o_custkey = 93697; total order price of 191918.92 refers to o_totalprice = 191918.92 | SELECT T2.c_name FROM orders AS T1 INNER JOIN customer AS T2 ON T1.o_custkey = T2.c_custkey WHERE T1.o_totalprice = 191918.92 AND T1.o_custkey = 93697 | CREATE TABLE `customer` (
`c_custkey` INTEGER NOT NULL,
`c_mktsegment` TEXT DEFAULT NULL,
`c_nationkey` INTEGER DEFAULT NULL,
`c_name` TEXT DEFAULT NULL,
`c_address` TEXT DEFAULT NULL,
`c_phone` TEXT DEFAULT NULL,
`c_acctbal` REAL DEFAULT NULL,
`c_comment` TEXT DEFAULT NULL,
PRIMARY KEY (`c_custkey`),
FOREIGN KEY (`c_nationkey`) REFERENCES `nation` (`n_nationkey`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE lineitem
(
l_shipdate DATE null,
l_orderkey INTEGER not null,
l_discount REAL not null,
l_extendedprice REAL not null,
l_suppkey INTEGER not null,
l_quantity INTEGER not null,
l_returnflag TEXT null,
l_partkey INTEGER not null,
l_linestatus TEXT null,
l_tax REAL not null,
l_commitdate DATE null,
l_receiptdate DATE null,
l_shipmode TEXT null,
l_linenumber INTEGER not null,
l_shipinstruct TEXT null,
l_comment TEXT null,
primary key (l_orderkey, l_linenumber),
foreign key (l_orderkey) references orders (o_orderkey)
on update cascade on delete cascade,
foreign key (l_partkey, l_suppkey) references partsupp (ps_partkey, ps_suppkey)
on update cascade on delete cascade
);
CREATE TABLE nation
(
n_nationkey INTEGER not null
primary key,
n_name TEXT null,
n_regionkey INTEGER null,
n_comment TEXT null,
foreign key (n_regionkey) references region (r_regionkey)
on update cascade on delete cascade
);
CREATE TABLE orders
(
o_orderdate DATE null,
o_orderkey INTEGER not null
primary key,
o_custkey INTEGER not null,
o_orderpriority TEXT null,
o_shippriority INTEGER null,
o_clerk TEXT null,
o_orderstatus TEXT null,
o_totalprice REAL null,
o_comment TEXT null,
foreign key (o_custkey) references customer (c_custkey)
on update cascade on delete cascade
);
CREATE TABLE part
(
p_partkey INTEGER not null
primary key,
p_type TEXT null,
p_size INTEGER null,
p_brand TEXT null,
p_name TEXT null,
p_container TEXT null,
p_mfgr TEXT null,
p_retailprice REAL null,
p_comment TEXT null
);
CREATE TABLE partsupp
(
ps_partkey INTEGER not null,
ps_suppkey INTEGER not null,
ps_supplycost REAL not null,
ps_availqty INTEGER null,
ps_comment TEXT null,
primary key (ps_partkey, ps_suppkey),
foreign key (ps_partkey) references part (p_partkey)
on update cascade on delete cascade,
foreign key (ps_suppkey) references supplier (s_suppkey)
on update cascade on delete cascade
);
CREATE TABLE region
(
r_regionkey INTEGER not null
primary key,
r_name TEXT null,
r_comment TEXT null
);
CREATE TABLE supplier
(
s_suppkey INTEGER not null
primary key,
s_nationkey INTEGER null,
s_comment TEXT null,
s_name TEXT null,
s_address TEXT null,
s_phone TEXT null,
s_acctbal REAL null,
foreign key (s_nationkey) references nation (n_nationkey)
);
|
mental_health_survey | What was the percentage for the answer of "Yes" was given to the question "Has your employer ever formally discussed mental health (for example, as part of a wellness campaign or other official communication)?"? | percentage = divide(count(QuestionID = 15& AnswerText = 'Yes'), count(QuestionID = 15))*100% | SELECT CAST(SUM(CASE WHEN T1.AnswerText LIKE 'Yes' THEN 1 ELSE 0 END) AS REAL) * 100 / COUNT(T1.UserID) FROM Answer AS T1 INNER JOIN Question AS T2 ON T1.QuestionID = T2.questionid WHERE T2.questiontext LIKE 'Has your employer ever formally discussed mental health (for example, as part of a wellness campaign or other official communication)?' | CREATE TABLE Question
(
questiontext TEXT,
questionid INTEGER
constraint Question_pk
primary key
);
CREATE TABLE Survey
(
SurveyID INTEGER
constraint Survey_pk
primary key,
Description TEXT
);
CREATE TABLE IF NOT EXISTS "Answer"
(
AnswerText TEXT,
SurveyID INTEGER
constraint Answer_Survey_SurveyID_fk
references Survey,
UserID INTEGER,
QuestionID INTEGER
constraint Answer_Question_questionid_fk
references Question,
constraint Answer_pk
primary key (UserID, QuestionID)
);
|
talkingdata | Identify by their id all the devices that are used by women who are in the age range of 29 to 31 years. | id refers to device_id; women refers to gender = 'F'; age range of 29 to 31 years refers to age between 29 and 31; | SELECT device_id FROM gender_age_train WHERE age BETWEEN 29 AND 31 AND gender = 'F' | CREATE TABLE `app_all`
(
`app_id` INTEGER NOT NULL,
PRIMARY KEY (`app_id`)
);
CREATE TABLE `app_events` (
`event_id` INTEGER NOT NULL,
`app_id` INTEGER NOT NULL,
`is_installed` INTEGER NOT NULL,
`is_active` INTEGER NOT NULL,
PRIMARY KEY (`event_id`,`app_id`),
FOREIGN KEY (`event_id`) REFERENCES `events` (`event_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `app_events_relevant` (
`event_id` INTEGER NOT NULL,
`app_id` INTEGER NOT NULL,
`is_installed` INTEGER DEFAULT NULL,
`is_active` INTEGER DEFAULT NULL,
PRIMARY KEY (`event_id`,`app_id`),
FOREIGN KEY (`event_id`) REFERENCES `events_relevant` (`event_id`) ON DELETE CASCADE ON UPDATE CASCADE,
FOREIGN KEY (`app_id`) REFERENCES `app_all` (`app_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `app_labels` (
`app_id` INTEGER NOT NULL,
`label_id` INTEGER NOT NULL,
FOREIGN KEY (`label_id`) REFERENCES `label_categories` (`label_id`) ON DELETE CASCADE ON UPDATE CASCADE,
FOREIGN KEY (`app_id`) REFERENCES `app_all` (`app_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `events` (
`event_id` INTEGER NOT NULL,
`device_id` INTEGER DEFAULT NULL,
`timestamp` DATETIME DEFAULT NULL,
`longitude` REAL DEFAULT NULL,
`latitude` REAL DEFAULT NULL,
PRIMARY KEY (`event_id`)
);
CREATE TABLE `events_relevant` (
`event_id` INTEGER NOT NULL,
`device_id` INTEGER DEFAULT NULL,
`timestamp` DATETIME NOT NULL,
`longitude` REAL NOT NULL,
`latitude` REAL NOT NULL,
PRIMARY KEY (`event_id`),
FOREIGN KEY (`device_id`) REFERENCES `gender_age` (`device_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `gender_age` (
`device_id` INTEGER NOT NULL,
`gender` TEXT DEFAULT NULL,
`age` INTEGER DEFAULT NULL,
`group` TEXT DEFAULT NULL,
PRIMARY KEY (`device_id`),
FOREIGN KEY (`device_id`) REFERENCES `phone_brand_device_model2` (`device_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `gender_age_test` (
`device_id` INTEGER NOT NULL,
PRIMARY KEY (`device_id`)
);
CREATE TABLE `gender_age_train` (
`device_id` INTEGER NOT NULL,
`gender` TEXT DEFAULT NULL,
`age` INTEGER DEFAULT NULL,
`group` TEXT DEFAULT NULL,
PRIMARY KEY (`device_id`)
);
CREATE TABLE `label_categories` (
`label_id` INTEGER NOT NULL,
`category` TEXT DEFAULT NULL,
PRIMARY KEY (`label_id`)
);
CREATE TABLE `phone_brand_device_model2` (
`device_id` INTEGER NOT NULL,
`phone_brand` TEXT NOT NULL,
`device_model` TEXT NOT NULL,
PRIMARY KEY (`device_id`,`phone_brand`,`device_model`)
);
CREATE TABLE `sample_submission` (
`device_id` INTEGER NOT NULL,
`F23-` REAL DEFAULT NULL,
`F24-26` REAL DEFAULT NULL,
`F27-28` REAL DEFAULT NULL,
`F29-32` REAL DEFAULT NULL,
`F33-42` REAL DEFAULT NULL,
`F43+` REAL DEFAULT NULL,
`M22-` REAL DEFAULT NULL,
`M23-26` REAL DEFAULT NULL,
`M27-28` REAL DEFAULT NULL,
`M29-31` REAL DEFAULT NULL,
`M32-38` REAL DEFAULT NULL,
`M39+` REAL DEFAULT NULL,
PRIMARY KEY (`device_id`)
);
|
talkingdata | Give the number of "game-Fishing" apps. | game-Fishing refers to category = 'game-Fishing'; | SELECT COUNT(T2.app_id) FROM label_categories AS T1 INNER JOIN app_labels AS T2 ON T1.label_id = T2.label_id WHERE T1.category = 'game-Fishing' | CREATE TABLE `app_all`
(
`app_id` INTEGER NOT NULL,
PRIMARY KEY (`app_id`)
);
CREATE TABLE `app_events` (
`event_id` INTEGER NOT NULL,
`app_id` INTEGER NOT NULL,
`is_installed` INTEGER NOT NULL,
`is_active` INTEGER NOT NULL,
PRIMARY KEY (`event_id`,`app_id`),
FOREIGN KEY (`event_id`) REFERENCES `events` (`event_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `app_events_relevant` (
`event_id` INTEGER NOT NULL,
`app_id` INTEGER NOT NULL,
`is_installed` INTEGER DEFAULT NULL,
`is_active` INTEGER DEFAULT NULL,
PRIMARY KEY (`event_id`,`app_id`),
FOREIGN KEY (`event_id`) REFERENCES `events_relevant` (`event_id`) ON DELETE CASCADE ON UPDATE CASCADE,
FOREIGN KEY (`app_id`) REFERENCES `app_all` (`app_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `app_labels` (
`app_id` INTEGER NOT NULL,
`label_id` INTEGER NOT NULL,
FOREIGN KEY (`label_id`) REFERENCES `label_categories` (`label_id`) ON DELETE CASCADE ON UPDATE CASCADE,
FOREIGN KEY (`app_id`) REFERENCES `app_all` (`app_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `events` (
`event_id` INTEGER NOT NULL,
`device_id` INTEGER DEFAULT NULL,
`timestamp` DATETIME DEFAULT NULL,
`longitude` REAL DEFAULT NULL,
`latitude` REAL DEFAULT NULL,
PRIMARY KEY (`event_id`)
);
CREATE TABLE `events_relevant` (
`event_id` INTEGER NOT NULL,
`device_id` INTEGER DEFAULT NULL,
`timestamp` DATETIME NOT NULL,
`longitude` REAL NOT NULL,
`latitude` REAL NOT NULL,
PRIMARY KEY (`event_id`),
FOREIGN KEY (`device_id`) REFERENCES `gender_age` (`device_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `gender_age` (
`device_id` INTEGER NOT NULL,
`gender` TEXT DEFAULT NULL,
`age` INTEGER DEFAULT NULL,
`group` TEXT DEFAULT NULL,
PRIMARY KEY (`device_id`),
FOREIGN KEY (`device_id`) REFERENCES `phone_brand_device_model2` (`device_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `gender_age_test` (
`device_id` INTEGER NOT NULL,
PRIMARY KEY (`device_id`)
);
CREATE TABLE `gender_age_train` (
`device_id` INTEGER NOT NULL,
`gender` TEXT DEFAULT NULL,
`age` INTEGER DEFAULT NULL,
`group` TEXT DEFAULT NULL,
PRIMARY KEY (`device_id`)
);
CREATE TABLE `label_categories` (
`label_id` INTEGER NOT NULL,
`category` TEXT DEFAULT NULL,
PRIMARY KEY (`label_id`)
);
CREATE TABLE `phone_brand_device_model2` (
`device_id` INTEGER NOT NULL,
`phone_brand` TEXT NOT NULL,
`device_model` TEXT NOT NULL,
PRIMARY KEY (`device_id`,`phone_brand`,`device_model`)
);
CREATE TABLE `sample_submission` (
`device_id` INTEGER NOT NULL,
`F23-` REAL DEFAULT NULL,
`F24-26` REAL DEFAULT NULL,
`F27-28` REAL DEFAULT NULL,
`F29-32` REAL DEFAULT NULL,
`F33-42` REAL DEFAULT NULL,
`F43+` REAL DEFAULT NULL,
`M22-` REAL DEFAULT NULL,
`M23-26` REAL DEFAULT NULL,
`M27-28` REAL DEFAULT NULL,
`M29-31` REAL DEFAULT NULL,
`M32-38` REAL DEFAULT NULL,
`M39+` REAL DEFAULT NULL,
PRIMARY KEY (`device_id`)
);
|
legislator | Find the difference between the number of female senators and representatives born between 1930 to 1970. | difference = SUBTRACT(SUM(type = 'sen' WHERE gender_bio = 'F' AND strftime('%Y', birthday_bio) between '1930' and '1970'), SUM(type = 'rep' WHERE gender_bio = 'F' AND strftime('%Y', birthday_bio) between '1930' and '1970')); female refers to gender_bio = 'F'; senators refers to type = 'sen'; representatives refers to type = 'rep'; born between 1930 to 1970 strftime('%Y', birthday_bio) between '1930' and '1970'; | SELECT SUM(CASE WHEN T2.type = 'sen' THEN 1 ELSE 0 END) - SUM(CASE WHEN T2.type = 'rep' THEN 1 ELSE 0 END) FROM historical AS T1 INNER JOIN `historical-terms` AS T2 ON T1.bioguide_id = T2.bioguide WHERE T1.gender_bio = 'F' AND strftime('%Y', T1.birthday_bio) BETWEEN '1930' AND '1970' | CREATE TABLE current
(
ballotpedia_id TEXT,
bioguide_id TEXT,
birthday_bio DATE,
cspan_id REAL,
fec_id TEXT,
first_name TEXT,
gender_bio TEXT,
google_entity_id_id TEXT,
govtrack_id INTEGER,
house_history_id REAL,
icpsr_id REAL,
last_name TEXT,
lis_id TEXT,
maplight_id REAL,
middle_name TEXT,
nickname_name TEXT,
official_full_name TEXT,
opensecrets_id TEXT,
religion_bio TEXT,
suffix_name TEXT,
thomas_id INTEGER,
votesmart_id REAL,
wikidata_id TEXT,
wikipedia_id TEXT,
primary key (bioguide_id, cspan_id)
);
CREATE TABLE IF NOT EXISTS "current-terms"
(
address TEXT,
bioguide TEXT,
caucus TEXT,
chamber TEXT,
class REAL,
contact_form TEXT,
district REAL,
end TEXT,
fax TEXT,
last TEXT,
name TEXT,
office TEXT,
party TEXT,
party_affiliations TEXT,
phone TEXT,
relation TEXT,
rss_url TEXT,
start TEXT,
state TEXT,
state_rank TEXT,
title TEXT,
type TEXT,
url TEXT,
primary key (bioguide, end),
foreign key (bioguide) references current(bioguide_id)
);
CREATE TABLE historical
(
ballotpedia_id TEXT,
bioguide_id TEXT
primary key,
bioguide_previous_id TEXT,
birthday_bio TEXT,
cspan_id TEXT,
fec_id TEXT,
first_name TEXT,
gender_bio TEXT,
google_entity_id_id TEXT,
govtrack_id INTEGER,
house_history_alternate_id TEXT,
house_history_id REAL,
icpsr_id REAL,
last_name TEXT,
lis_id TEXT,
maplight_id TEXT,
middle_name TEXT,
nickname_name TEXT,
official_full_name TEXT,
opensecrets_id TEXT,
religion_bio TEXT,
suffix_name TEXT,
thomas_id TEXT,
votesmart_id TEXT,
wikidata_id TEXT,
wikipedia_id TEXT
);
CREATE TABLE IF NOT EXISTS "historical-terms"
(
address TEXT,
bioguide TEXT
primary key,
chamber TEXT,
class REAL,
contact_form TEXT,
district REAL,
end TEXT,
fax TEXT,
last TEXT,
middle TEXT,
name TEXT,
office TEXT,
party TEXT,
party_affiliations TEXT,
phone TEXT,
relation TEXT,
rss_url TEXT,
start TEXT,
state TEXT,
state_rank TEXT,
title TEXT,
type TEXT,
url TEXT,
foreign key (bioguide) references historical(bioguide_id)
);
CREATE TABLE IF NOT EXISTS "social-media"
(
bioguide TEXT
primary key,
facebook TEXT,
facebook_id REAL,
govtrack REAL,
instagram TEXT,
instagram_id REAL,
thomas INTEGER,
twitter TEXT,
twitter_id REAL,
youtube TEXT,
youtube_id TEXT,
foreign key (bioguide) references current(bioguide_id)
);
|
movie | What is the runtime of the movie starred by Jackie Chan with a rating greater than 7? | starred by Jackie Chan refers to Name = 'Jackie Chan'; rating greater than 7 refers to Rating > 7 | SELECT T1.Runtime FROM movie AS T1 INNER JOIN characters AS T2 ON T1.MovieID = T2.MovieID INNER JOIN actor AS T3 ON T3.ActorID = T2.ActorID WHERE T3.Name = 'Jackie Chan' AND T1.Rating > 7 | CREATE TABLE actor
(
ActorID INTEGER
constraint actor_pk
primary key,
Name TEXT,
"Date of Birth" DATE,
"Birth City" TEXT,
"Birth Country" TEXT,
"Height (Inches)" INTEGER,
Biography TEXT,
Gender TEXT,
Ethnicity TEXT,
NetWorth TEXT
);
CREATE TABLE movie
(
MovieID INTEGER
constraint movie_pk
primary key,
Title TEXT,
"MPAA Rating" TEXT,
Budget INTEGER,
Gross INTEGER,
"Release Date" TEXT,
Genre TEXT,
Runtime INTEGER,
Rating REAL,
"Rating Count" INTEGER,
Summary TEXT
);
CREATE TABLE characters
(
MovieID INTEGER,
ActorID INTEGER,
"Character Name" TEXT,
creditOrder INTEGER,
pay TEXT,
screentime TEXT,
primary key (MovieID, ActorID),
foreign key (ActorID) references actor(ActorID),
foreign key (MovieID) references movie(MovieID)
);
|
mondial_geo | How many Italian regions are bordered by the Mediterranean Sea? How deep is the Mediterranean Sea? | Reigion refers to province | SELECT COUNT(DISTINCT T2.province), T3.Depth FROM country AS T1 INNER JOIN located AS T2 ON T1.Code = T2.Country INNER JOIN sea AS T3 ON T3.Name = T2.Sea WHERE T1.Code = 'I' AND T3.Name = 'Mediterranean Sea' GROUP BY T3.Depth | CREATE TABLE IF NOT EXISTS "borders"
(
Country1 TEXT default '' not null
constraint borders_ibfk_1
references country,
Country2 TEXT default '' not null
constraint borders_ibfk_2
references country,
Length REAL,
primary key (Country1, Country2)
);
CREATE TABLE IF NOT EXISTS "city"
(
Name TEXT default '' not null,
Country TEXT default '' not null
constraint city_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
Population INTEGER,
Longitude REAL,
Latitude REAL,
primary key (Name, Province),
constraint city_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "continent"
(
Name TEXT default '' not null
primary key,
Area REAL
);
CREATE TABLE IF NOT EXISTS "country"
(
Name TEXT not null
constraint ix_county_Name
unique,
Code TEXT default '' not null
primary key,
Capital TEXT,
Province TEXT,
Area REAL,
Population INTEGER
);
CREATE TABLE IF NOT EXISTS "desert"
(
Name TEXT default '' not null
primary key,
Area REAL,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "economy"
(
Country TEXT default '' not null
primary key
constraint economy_ibfk_1
references country
on update cascade on delete cascade,
GDP REAL,
Agriculture REAL,
Service REAL,
Industry REAL,
Inflation REAL
);
CREATE TABLE IF NOT EXISTS "encompasses"
(
Country TEXT not null
constraint encompasses_ibfk_1
references country
on update cascade on delete cascade,
Continent TEXT not null
constraint encompasses_ibfk_2
references continent
on update cascade on delete cascade,
Percentage REAL,
primary key (Country, Continent)
);
CREATE TABLE IF NOT EXISTS "ethnicGroup"
(
Country TEXT default '' not null
constraint ethnicGroup_ibfk_1
references country
on update cascade on delete cascade,
Name TEXT default '' not null,
Percentage REAL,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "geo_desert"
(
Desert TEXT default '' not null
constraint geo_desert_ibfk_3
references desert
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_desert_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Desert),
constraint geo_desert_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_estuary"
(
River TEXT default '' not null
constraint geo_estuary_ibfk_3
references river
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_estuary_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, River),
constraint geo_estuary_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_island"
(
Island TEXT default '' not null
constraint geo_island_ibfk_3
references island
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_island_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Island),
constraint geo_island_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_lake"
(
Lake TEXT default '' not null
constraint geo_lake_ibfk_3
references lake
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_lake_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Lake),
constraint geo_lake_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_mountain"
(
Mountain TEXT default '' not null
constraint geo_mountain_ibfk_3
references mountain
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_mountain_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Mountain),
constraint geo_mountain_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_river"
(
River TEXT default '' not null
constraint geo_river_ibfk_3
references river
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_river_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, River),
constraint geo_river_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_sea"
(
Sea TEXT default '' not null
constraint geo_sea_ibfk_3
references sea
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_sea_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Sea),
constraint geo_sea_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_source"
(
River TEXT default '' not null
constraint geo_source_ibfk_3
references river
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_source_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, River),
constraint geo_source_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "island"
(
Name TEXT default '' not null
primary key,
Islands TEXT,
Area REAL,
Height REAL,
Type TEXT,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "islandIn"
(
Island TEXT
constraint islandIn_ibfk_4
references island
on update cascade on delete cascade,
Sea TEXT
constraint islandIn_ibfk_3
references sea
on update cascade on delete cascade,
Lake TEXT
constraint islandIn_ibfk_1
references lake
on update cascade on delete cascade,
River TEXT
constraint islandIn_ibfk_2
references river
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "isMember"
(
Country TEXT default '' not null
constraint isMember_ibfk_1
references country
on update cascade on delete cascade,
Organization TEXT default '' not null
constraint isMember_ibfk_2
references organization
on update cascade on delete cascade,
Type TEXT default 'member',
primary key (Country, Organization)
);
CREATE TABLE IF NOT EXISTS "lake"
(
Name TEXT default '' not null
primary key,
Area REAL,
Depth REAL,
Altitude REAL,
Type TEXT,
River TEXT,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "language"
(
Country TEXT default '' not null
constraint language_ibfk_1
references country
on update cascade on delete cascade,
Name TEXT default '' not null,
Percentage REAL,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "located"
(
City TEXT,
Province TEXT,
Country TEXT
constraint located_ibfk_1
references country
on update cascade on delete cascade,
River TEXT
constraint located_ibfk_3
references river
on update cascade on delete cascade,
Lake TEXT
constraint located_ibfk_4
references lake
on update cascade on delete cascade,
Sea TEXT
constraint located_ibfk_5
references sea
on update cascade on delete cascade,
constraint located_ibfk_2
foreign key (City, Province) references city
on update cascade on delete cascade,
constraint located_ibfk_6
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "locatedOn"
(
City TEXT default '' not null,
Province TEXT default '' not null,
Country TEXT default '' not null
constraint locatedOn_ibfk_1
references country
on update cascade on delete cascade,
Island TEXT default '' not null
constraint locatedOn_ibfk_2
references island
on update cascade on delete cascade,
primary key (City, Province, Country, Island),
constraint locatedOn_ibfk_3
foreign key (City, Province) references city
on update cascade on delete cascade,
constraint locatedOn_ibfk_4
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "mergesWith"
(
Sea1 TEXT default '' not null
constraint mergesWith_ibfk_1
references sea
on update cascade on delete cascade,
Sea2 TEXT default '' not null
constraint mergesWith_ibfk_2
references sea
on update cascade on delete cascade,
primary key (Sea1, Sea2)
);
CREATE TABLE IF NOT EXISTS "mountain"
(
Name TEXT default '' not null
primary key,
Mountains TEXT,
Height REAL,
Type TEXT,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "mountainOnIsland"
(
Mountain TEXT default '' not null
constraint mountainOnIsland_ibfk_2
references mountain
on update cascade on delete cascade,
Island TEXT default '' not null
constraint mountainOnIsland_ibfk_1
references island
on update cascade on delete cascade,
primary key (Mountain, Island)
);
CREATE TABLE IF NOT EXISTS "organization"
(
Abbreviation TEXT not null
primary key,
Name TEXT not null
constraint ix_organization_OrgNameUnique
unique,
City TEXT,
Country TEXT
constraint organization_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT,
Established DATE,
constraint organization_ibfk_2
foreign key (City, Province) references city
on update cascade on delete cascade,
constraint organization_ibfk_3
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "politics"
(
Country TEXT default '' not null
primary key
constraint politics_ibfk_1
references country
on update cascade on delete cascade,
Independence DATE,
Dependent TEXT
constraint politics_ibfk_2
references country
on update cascade on delete cascade,
Government TEXT
);
CREATE TABLE IF NOT EXISTS "population"
(
Country TEXT default '' not null
primary key
constraint population_ibfk_1
references country
on update cascade on delete cascade,
Population_Growth REAL,
Infant_Mortality REAL
);
CREATE TABLE IF NOT EXISTS "province"
(
Name TEXT not null,
Country TEXT not null
constraint province_ibfk_1
references country
on update cascade on delete cascade,
Population INTEGER,
Area REAL,
Capital TEXT,
CapProv TEXT,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "religion"
(
Country TEXT default '' not null
constraint religion_ibfk_1
references country
on update cascade on delete cascade,
Name TEXT default '' not null,
Percentage REAL,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "river"
(
Name TEXT default '' not null
primary key,
River TEXT,
Lake TEXT
constraint river_ibfk_1
references lake
on update cascade on delete cascade,
Sea TEXT,
Length REAL,
SourceLongitude REAL,
SourceLatitude REAL,
Mountains TEXT,
SourceAltitude REAL,
EstuaryLongitude REAL,
EstuaryLatitude REAL
);
CREATE TABLE IF NOT EXISTS "sea"
(
Name TEXT default '' not null
primary key,
Depth REAL
);
CREATE TABLE IF NOT EXISTS "target"
(
Country TEXT not null
primary key
constraint target_Country_fkey
references country
on update cascade on delete cascade,
Target TEXT
);
|
books | Among Daisey Lamball's orders, how many were shipped via International shipping? | via international shipping refers to method_name = 'International' | SELECT COUNT(*) FROM customer AS T1 INNER JOIN cust_order AS T2 ON T1.customer_id = T2.customer_id INNER JOIN shipping_method AS T3 ON T3.method_id = T2.shipping_method_id WHERE T1.first_name = 'Daisey' AND T1.last_name = 'Lamball' AND T3.method_name = 'International' | CREATE TABLE address_status
(
status_id INTEGER
primary key,
address_status TEXT
);
CREATE TABLE author
(
author_id INTEGER
primary key,
author_name TEXT
);
CREATE TABLE book_language
(
language_id INTEGER
primary key,
language_code TEXT,
language_name TEXT
);
CREATE TABLE country
(
country_id INTEGER
primary key,
country_name TEXT
);
CREATE TABLE address
(
address_id INTEGER
primary key,
street_number TEXT,
street_name TEXT,
city TEXT,
country_id INTEGER,
foreign key (country_id) references country(country_id)
);
CREATE TABLE customer
(
customer_id INTEGER
primary key,
first_name TEXT,
last_name TEXT,
email TEXT
);
CREATE TABLE customer_address
(
customer_id INTEGER,
address_id INTEGER,
status_id INTEGER,
primary key (customer_id, address_id),
foreign key (address_id) references address(address_id),
foreign key (customer_id) references customer(customer_id)
);
CREATE TABLE order_status
(
status_id INTEGER
primary key,
status_value TEXT
);
CREATE TABLE publisher
(
publisher_id INTEGER
primary key,
publisher_name TEXT
);
CREATE TABLE book
(
book_id INTEGER
primary key,
title TEXT,
isbn13 TEXT,
language_id INTEGER,
num_pages INTEGER,
publication_date DATE,
publisher_id INTEGER,
foreign key (language_id) references book_language(language_id),
foreign key (publisher_id) references publisher(publisher_id)
);
CREATE TABLE book_author
(
book_id INTEGER,
author_id INTEGER,
primary key (book_id, author_id),
foreign key (author_id) references author(author_id),
foreign key (book_id) references book(book_id)
);
CREATE TABLE shipping_method
(
method_id INTEGER
primary key,
method_name TEXT,
cost REAL
);
CREATE TABLE IF NOT EXISTS "cust_order"
(
order_id INTEGER
primary key autoincrement,
order_date DATETIME,
customer_id INTEGER
references customer,
shipping_method_id INTEGER
references shipping_method,
dest_address_id INTEGER
references address
);
CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE IF NOT EXISTS "order_history"
(
history_id INTEGER
primary key autoincrement,
order_id INTEGER
references cust_order,
status_id INTEGER
references order_status,
status_date DATETIME
);
CREATE TABLE IF NOT EXISTS "order_line"
(
line_id INTEGER
primary key autoincrement,
order_id INTEGER
references cust_order,
book_id INTEGER
references book,
price REAL
);
|
simpson_episodes | Among the episodes with excellent rating which were aired in 2008, describe the title, episode's image, award name and person who were nominated. | excellent rating refers to 7 < = rating < = 10; aired in 2008 refers to SUBSTRACT(air_date, 0, 5) = '2008'; who were nominated refers to result = 'Nominee' | SELECT T2.title, T2.episode_image, T1.award, T1.person FROM Award AS T1 INNER JOIN Episode AS T2 ON T1.episode_id = T2.episode_id WHERE T2.rating BETWEEN 7 AND 10 AND SUBSTR(T2.air_date, 1, 4) = '2008' AND T1.result = 'Nominee'; | CREATE TABLE IF NOT EXISTS "Episode"
(
episode_id TEXT
constraint Episode_pk
primary key,
season INTEGER,
episode INTEGER,
number_in_series INTEGER,
title TEXT,
summary TEXT,
air_date TEXT,
episode_image TEXT,
rating REAL,
votes INTEGER
);
CREATE TABLE Person
(
name TEXT
constraint Person_pk
primary key,
birthdate TEXT,
birth_name TEXT,
birth_place TEXT,
birth_region TEXT,
birth_country TEXT,
height_meters REAL,
nickname TEXT
);
CREATE TABLE Award
(
award_id INTEGER
primary key,
organization TEXT,
year INTEGER,
award_category TEXT,
award TEXT,
person TEXT,
role TEXT,
episode_id TEXT,
season TEXT,
song TEXT,
result TEXT,
foreign key (person) references Person(name),
foreign key (episode_id) references Episode(episode_id)
);
CREATE TABLE Character_Award
(
award_id INTEGER,
character TEXT,
foreign key (award_id) references Award(award_id)
);
CREATE TABLE Credit
(
episode_id TEXT,
category TEXT,
person TEXT,
role TEXT,
credited TEXT,
foreign key (episode_id) references Episode(episode_id),
foreign key (person) references Person(name)
);
CREATE TABLE Keyword
(
episode_id TEXT,
keyword TEXT,
primary key (episode_id, keyword),
foreign key (episode_id) references Episode(episode_id)
);
CREATE TABLE Vote
(
episode_id TEXT,
stars INTEGER,
votes INTEGER,
percent REAL,
foreign key (episode_id) references Episode(episode_id)
);
|
movies_4 | What is Walt Disney Pictures' most popular movie? | Walt Disney Pictures refers to company_name = 'Walt Disney Pictures'; most popular movie refers to max(popularity) | SELECT T3.title FROM production_company AS T1 INNER JOIN movie_company AS T2 ON T1.company_id = T2.company_id INNER JOIN movie AS T3 ON T2.movie_id = T3.movie_id WHERE T1.company_name = 'Walt Disney Pictures' ORDER BY T3.popularity DESC LIMIT 1 | CREATE TABLE country
(
country_id INTEGER not null
primary key,
country_iso_code TEXT default NULL,
country_name TEXT default NULL
);
CREATE TABLE department
(
department_id INTEGER not null
primary key,
department_name TEXT default NULL
);
CREATE TABLE gender
(
gender_id INTEGER not null
primary key,
gender TEXT default NULL
);
CREATE TABLE genre
(
genre_id INTEGER not null
primary key,
genre_name TEXT default NULL
);
CREATE TABLE keyword
(
keyword_id INTEGER not null
primary key,
keyword_name TEXT default NULL
);
CREATE TABLE language
(
language_id INTEGER not null
primary key,
language_code TEXT default NULL,
language_name TEXT default NULL
);
CREATE TABLE language_role
(
role_id INTEGER not null
primary key,
language_role TEXT default NULL
);
CREATE TABLE movie
(
movie_id INTEGER not null
primary key,
title TEXT default NULL,
budget INTEGER default NULL,
homepage TEXT default NULL,
overview TEXT default NULL,
popularity REAL default NULL,
release_date DATE default NULL,
revenue INTEGER default NULL,
runtime INTEGER default NULL,
movie_status TEXT default NULL,
tagline TEXT default NULL,
vote_average REAL default NULL,
vote_count INTEGER default NULL
);
CREATE TABLE movie_genres
(
movie_id INTEGER default NULL,
genre_id INTEGER default NULL,
foreign key (genre_id) references genre(genre_id),
foreign key (movie_id) references movie(movie_id)
);
CREATE TABLE movie_languages
(
movie_id INTEGER default NULL,
language_id INTEGER default NULL,
language_role_id INTEGER default NULL,
foreign key (language_id) references language(language_id),
foreign key (movie_id) references movie(movie_id),
foreign key (language_role_id) references language_role(role_id)
);
CREATE TABLE person
(
person_id INTEGER not null
primary key,
person_name TEXT default NULL
);
CREATE TABLE movie_crew
(
movie_id INTEGER default NULL,
person_id INTEGER default NULL,
department_id INTEGER default NULL,
job TEXT default NULL,
foreign key (department_id) references department(department_id),
foreign key (movie_id) references movie(movie_id),
foreign key (person_id) references person(person_id)
);
CREATE TABLE production_company
(
company_id INTEGER not null
primary key,
company_name TEXT default NULL
);
CREATE TABLE production_country
(
movie_id INTEGER default NULL,
country_id INTEGER default NULL,
foreign key (country_id) references country(country_id),
foreign key (movie_id) references movie(movie_id)
);
CREATE TABLE movie_cast
(
movie_id INTEGER default NULL,
person_id INTEGER default NULL,
character_name TEXT default NULL,
gender_id INTEGER default NULL,
cast_order INTEGER default NULL,
foreign key (gender_id) references gender(gender_id),
foreign key (movie_id) references movie(movie_id),
foreign key (person_id) references person(person_id)
);
CREATE TABLE IF NOT EXISTS "movie_keywords"
(
movie_id INTEGER default NULL
references movie,
keyword_id INTEGER default NULL
references keyword
);
CREATE TABLE IF NOT EXISTS "movie_company"
(
movie_id INTEGER default NULL
references movie,
company_id INTEGER default NULL
references production_company
);
|
cs_semester | Of the students with high salaries, how many took the computer vision course? | high salaries refers to salary = 'High'; | SELECT COUNT(T1.student_id) FROM RA AS T1 INNER JOIN registration AS T2 ON T2.student_id = T1.student_id INNER JOIN course AS T3 ON T2.course_id = T3.course_id WHERE T1.salary = 'high' AND T3.name = 'Computer Vision' | CREATE TABLE IF NOT EXISTS "course"
(
course_id INTEGER
constraint course_pk
primary key,
name TEXT,
credit INTEGER,
diff INTEGER
);
CREATE TABLE prof
(
prof_id INTEGER
constraint prof_pk
primary key,
gender TEXT,
first_name TEXT,
last_name TEXT,
email TEXT,
popularity INTEGER,
teachingability INTEGER,
graduate_from TEXT
);
CREATE TABLE RA
(
student_id INTEGER,
capability INTEGER,
prof_id INTEGER,
salary TEXT,
primary key (student_id, prof_id),
foreign key (prof_id) references prof(prof_id),
foreign key (student_id) references student(student_id)
);
CREATE TABLE registration
(
course_id INTEGER,
student_id INTEGER,
grade TEXT,
sat INTEGER,
primary key (course_id, student_id),
foreign key (course_id) references course(course_id),
foreign key (student_id) references student(student_id)
);
CREATE TABLE student
(
student_id INTEGER
primary key,
f_name TEXT,
l_name TEXT,
phone_number TEXT,
email TEXT,
intelligence INTEGER,
gpa REAL,
type TEXT
);
|
food_inspection_2 | Among the list of employees, what is the total number of supervisors? | supervisor refers to title = 'Supervisor' | SELECT COUNT(employee_id) FROM employee WHERE title = 'Supervisor' | CREATE TABLE employee
(
employee_id INTEGER
primary key,
first_name TEXT,
last_name TEXT,
address TEXT,
city TEXT,
state TEXT,
zip INTEGER,
phone TEXT,
title TEXT,
salary INTEGER,
supervisor INTEGER,
foreign key (supervisor) references employee(employee_id)
);
CREATE TABLE establishment
(
license_no INTEGER
primary key,
dba_name TEXT,
aka_name TEXT,
facility_type TEXT,
risk_level INTEGER,
address TEXT,
city TEXT,
state TEXT,
zip INTEGER,
latitude REAL,
longitude REAL,
ward INTEGER
);
CREATE TABLE inspection
(
inspection_id INTEGER
primary key,
inspection_date DATE,
inspection_type TEXT,
results TEXT,
employee_id INTEGER,
license_no INTEGER,
followup_to INTEGER,
foreign key (employee_id) references employee(employee_id),
foreign key (license_no) references establishment(license_no),
foreign key (followup_to) references inspection(inspection_id)
);
CREATE TABLE inspection_point
(
point_id INTEGER
primary key,
Description TEXT,
category TEXT,
code TEXT,
fine INTEGER,
point_level TEXT
);
CREATE TABLE violation
(
inspection_id INTEGER,
point_id INTEGER,
fine INTEGER,
inspector_comment TEXT,
primary key (inspection_id, point_id),
foreign key (inspection_id) references inspection(inspection_id),
foreign key (point_id) references inspection_point(point_id)
);
|
works_cycles | Please list the names of the products that get over 10 reviews and a salable. | salable product refers to FinishedGoodsFlag = 1; over 10 reviews refers to count(comments)>10 | SELECT T2.NAME FROM ProductReview AS T1 INNER JOIN Product AS T2 ON T1.ProductID = T2.ProductID WHERE T2.FinishedGoodsFlag = 1 GROUP BY T2.NAME ORDER BY COUNT(T1.comments) > 10 | CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE CountryRegion
(
CountryRegionCode TEXT not null
primary key,
Name TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null
);
CREATE TABLE Culture
(
CultureID TEXT not null
primary key,
Name TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null
);
CREATE TABLE Currency
(
CurrencyCode TEXT not null
primary key,
Name TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null
);
CREATE TABLE CountryRegionCurrency
(
CountryRegionCode TEXT not null,
CurrencyCode TEXT not null,
ModifiedDate DATETIME default current_timestamp not null,
primary key (CountryRegionCode, CurrencyCode),
foreign key (CountryRegionCode) references CountryRegion(CountryRegionCode),
foreign key (CurrencyCode) references Currency(CurrencyCode)
);
CREATE TABLE Person
(
BusinessEntityID INTEGER not null
primary key,
PersonType TEXT not null,
NameStyle INTEGER default 0 not null,
Title TEXT,
FirstName TEXT not null,
MiddleName TEXT,
LastName TEXT not null,
Suffix TEXT,
EmailPromotion INTEGER default 0 not null,
AdditionalContactInfo TEXT,
Demographics TEXT,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null,
foreign key (BusinessEntityID) references BusinessEntity(BusinessEntityID)
);
CREATE TABLE BusinessEntityContact
(
BusinessEntityID INTEGER not null,
PersonID INTEGER not null,
ContactTypeID INTEGER not null,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null,
primary key (BusinessEntityID, PersonID, ContactTypeID),
foreign key (BusinessEntityID) references BusinessEntity(BusinessEntityID),
foreign key (ContactTypeID) references ContactType(ContactTypeID),
foreign key (PersonID) references Person(BusinessEntityID)
);
CREATE TABLE EmailAddress
(
BusinessEntityID INTEGER not null,
EmailAddressID INTEGER,
EmailAddress TEXT,
rowguid TEXT not null,
ModifiedDate DATETIME default current_timestamp not null,
primary key (EmailAddressID, BusinessEntityID),
foreign key (BusinessEntityID) references Person(BusinessEntityID)
);
CREATE TABLE Employee
(
BusinessEntityID INTEGER not null
primary key,
NationalIDNumber TEXT not null
unique,
LoginID TEXT not null
unique,
OrganizationNode TEXT,
OrganizationLevel INTEGER,
JobTitle TEXT not null,
BirthDate DATE not null,
MaritalStatus TEXT not null,
Gender TEXT not null,
HireDate DATE not null,
SalariedFlag INTEGER default 1 not null,
VacationHours INTEGER default 0 not null,
SickLeaveHours INTEGER default 0 not null,
CurrentFlag INTEGER default 1 not null,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null,
foreign key (BusinessEntityID) references Person(BusinessEntityID)
);
CREATE TABLE Password
(
BusinessEntityID INTEGER not null
primary key,
PasswordHash TEXT not null,
PasswordSalt TEXT not null,
rowguid TEXT not null,
ModifiedDate DATETIME default current_timestamp not null,
foreign key (BusinessEntityID) references Person(BusinessEntityID)
);
CREATE TABLE PersonCreditCard
(
BusinessEntityID INTEGER not null,
CreditCardID INTEGER not null,
ModifiedDate DATETIME default current_timestamp not null,
primary key (BusinessEntityID, CreditCardID),
foreign key (CreditCardID) references CreditCard(CreditCardID),
foreign key (BusinessEntityID) references Person(BusinessEntityID)
);
CREATE TABLE ProductCategory
(
ProductCategoryID INTEGER
primary key autoincrement,
Name TEXT not null
unique,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE ProductDescription
(
ProductDescriptionID INTEGER
primary key autoincrement,
Description TEXT not null,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE ProductModel
(
ProductModelID INTEGER
primary key autoincrement,
Name TEXT not null
unique,
CatalogDescription TEXT,
Instructions TEXT,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE ProductModelProductDescriptionCulture
(
ProductModelID INTEGER not null,
ProductDescriptionID INTEGER not null,
CultureID TEXT not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
primary key (ProductModelID, ProductDescriptionID, CultureID),
foreign key (ProductModelID) references ProductModel(ProductModelID),
foreign key (ProductDescriptionID) references ProductDescription(ProductDescriptionID),
foreign key (CultureID) references Culture(CultureID)
);
CREATE TABLE ProductPhoto
(
ProductPhotoID INTEGER
primary key autoincrement,
ThumbNailPhoto BLOB,
ThumbnailPhotoFileName TEXT,
LargePhoto BLOB,
LargePhotoFileName TEXT,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE ProductSubcategory
(
ProductSubcategoryID INTEGER
primary key autoincrement,
ProductCategoryID INTEGER not null,
Name TEXT not null
unique,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
foreign key (ProductCategoryID) references ProductCategory(ProductCategoryID)
);
CREATE TABLE SalesReason
(
SalesReasonID INTEGER
primary key autoincrement,
Name TEXT not null,
ReasonType TEXT not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE SalesTerritory
(
TerritoryID INTEGER
primary key autoincrement,
Name TEXT not null
unique,
CountryRegionCode TEXT not null,
"Group" TEXT not null,
SalesYTD REAL default 0.0000 not null,
SalesLastYear REAL default 0.0000 not null,
CostYTD REAL default 0.0000 not null,
CostLastYear REAL default 0.0000 not null,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
foreign key (CountryRegionCode) references CountryRegion(CountryRegionCode)
);
CREATE TABLE SalesPerson
(
BusinessEntityID INTEGER not null
primary key,
TerritoryID INTEGER,
SalesQuota REAL,
Bonus REAL default 0.0000 not null,
CommissionPct REAL default 0.0000 not null,
SalesYTD REAL default 0.0000 not null,
SalesLastYear REAL default 0.0000 not null,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
foreign key (BusinessEntityID) references Employee(BusinessEntityID),
foreign key (TerritoryID) references SalesTerritory(TerritoryID)
);
CREATE TABLE SalesPersonQuotaHistory
(
BusinessEntityID INTEGER not null,
QuotaDate DATETIME not null,
SalesQuota REAL not null,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
primary key (BusinessEntityID, QuotaDate),
foreign key (BusinessEntityID) references SalesPerson(BusinessEntityID)
);
CREATE TABLE SalesTerritoryHistory
(
BusinessEntityID INTEGER not null,
TerritoryID INTEGER not null,
StartDate DATETIME not null,
EndDate DATETIME,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
primary key (BusinessEntityID, StartDate, TerritoryID),
foreign key (BusinessEntityID) references SalesPerson(BusinessEntityID),
foreign key (TerritoryID) references SalesTerritory(TerritoryID)
);
CREATE TABLE ScrapReason
(
ScrapReasonID INTEGER
primary key autoincrement,
Name TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE Shift
(
ShiftID INTEGER
primary key autoincrement,
Name TEXT not null
unique,
StartTime TEXT not null,
EndTime TEXT not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
unique (StartTime, EndTime)
);
CREATE TABLE ShipMethod
(
ShipMethodID INTEGER
primary key autoincrement,
Name TEXT not null
unique,
ShipBase REAL default 0.0000 not null,
ShipRate REAL default 0.0000 not null,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE SpecialOffer
(
SpecialOfferID INTEGER
primary key autoincrement,
Description TEXT not null,
DiscountPct REAL default 0.0000 not null,
Type TEXT not null,
Category TEXT not null,
StartDate DATETIME not null,
EndDate DATETIME not null,
MinQty INTEGER default 0 not null,
MaxQty INTEGER,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE BusinessEntityAddress
(
BusinessEntityID INTEGER not null,
AddressID INTEGER not null,
AddressTypeID INTEGER not null,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null,
primary key (BusinessEntityID, AddressID, AddressTypeID),
foreign key (AddressID) references Address(AddressID),
foreign key (AddressTypeID) references AddressType(AddressTypeID),
foreign key (BusinessEntityID) references BusinessEntity(BusinessEntityID)
);
CREATE TABLE SalesTaxRate
(
SalesTaxRateID INTEGER
primary key autoincrement,
StateProvinceID INTEGER not null,
TaxType INTEGER not null,
TaxRate REAL default 0.0000 not null,
Name TEXT not null,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
unique (StateProvinceID, TaxType),
foreign key (StateProvinceID) references StateProvince(StateProvinceID)
);
CREATE TABLE Store
(
BusinessEntityID INTEGER not null
primary key,
Name TEXT not null,
SalesPersonID INTEGER,
Demographics TEXT,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
foreign key (BusinessEntityID) references BusinessEntity(BusinessEntityID),
foreign key (SalesPersonID) references SalesPerson(BusinessEntityID)
);
CREATE TABLE SalesOrderHeaderSalesReason
(
SalesOrderID INTEGER not null,
SalesReasonID INTEGER not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
primary key (SalesOrderID, SalesReasonID),
foreign key (SalesOrderID) references SalesOrderHeader(SalesOrderID),
foreign key (SalesReasonID) references SalesReason(SalesReasonID)
);
CREATE TABLE TransactionHistoryArchive
(
TransactionID INTEGER not null
primary key,
ProductID INTEGER not null,
ReferenceOrderID INTEGER not null,
ReferenceOrderLineID INTEGER default 0 not null,
TransactionDate DATETIME default CURRENT_TIMESTAMP not null,
TransactionType TEXT not null,
Quantity INTEGER not null,
ActualCost REAL not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE UnitMeasure
(
UnitMeasureCode TEXT not null
primary key,
Name TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE ProductCostHistory
(
ProductID INTEGER not null,
StartDate DATE not null,
EndDate DATE,
StandardCost REAL not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
primary key (ProductID, StartDate),
foreign key (ProductID) references Product(ProductID)
);
CREATE TABLE ProductDocument
(
ProductID INTEGER not null,
DocumentNode TEXT not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
primary key (ProductID, DocumentNode),
foreign key (ProductID) references Product(ProductID),
foreign key (DocumentNode) references Document(DocumentNode)
);
CREATE TABLE ProductInventory
(
ProductID INTEGER not null,
LocationID INTEGER not null,
Shelf TEXT not null,
Bin INTEGER not null,
Quantity INTEGER default 0 not null,
rowguid TEXT not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
primary key (ProductID, LocationID),
foreign key (ProductID) references Product(ProductID),
foreign key (LocationID) references Location(LocationID)
);
CREATE TABLE ProductProductPhoto
(
ProductID INTEGER not null,
ProductPhotoID INTEGER not null,
"Primary" INTEGER default 0 not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
primary key (ProductID, ProductPhotoID),
foreign key (ProductID) references Product(ProductID),
foreign key (ProductPhotoID) references ProductPhoto(ProductPhotoID)
);
CREATE TABLE ProductReview
(
ProductReviewID INTEGER
primary key autoincrement,
ProductID INTEGER not null,
ReviewerName TEXT not null,
ReviewDate DATETIME default CURRENT_TIMESTAMP not null,
EmailAddress TEXT not null,
Rating INTEGER not null,
Comments TEXT,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
foreign key (ProductID) references Product(ProductID)
);
CREATE TABLE ShoppingCartItem
(
ShoppingCartItemID INTEGER
primary key autoincrement,
ShoppingCartID TEXT not null,
Quantity INTEGER default 1 not null,
ProductID INTEGER not null,
DateCreated DATETIME default CURRENT_TIMESTAMP not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
foreign key (ProductID) references Product(ProductID)
);
CREATE TABLE SpecialOfferProduct
(
SpecialOfferID INTEGER not null,
ProductID INTEGER not null,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
primary key (SpecialOfferID, ProductID),
foreign key (SpecialOfferID) references SpecialOffer(SpecialOfferID),
foreign key (ProductID) references Product(ProductID)
);
CREATE TABLE SalesOrderDetail
(
SalesOrderID INTEGER not null,
SalesOrderDetailID INTEGER
primary key autoincrement,
CarrierTrackingNumber TEXT,
OrderQty INTEGER not null,
ProductID INTEGER not null,
SpecialOfferID INTEGER not null,
UnitPrice REAL not null,
UnitPriceDiscount REAL default 0.0000 not null,
LineTotal REAL not null,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
foreign key (SalesOrderID) references SalesOrderHeader(SalesOrderID),
foreign key (SpecialOfferID, ProductID) references SpecialOfferProduct(SpecialOfferID, ProductID)
);
CREATE TABLE TransactionHistory
(
TransactionID INTEGER
primary key autoincrement,
ProductID INTEGER not null,
ReferenceOrderID INTEGER not null,
ReferenceOrderLineID INTEGER default 0 not null,
TransactionDate DATETIME default CURRENT_TIMESTAMP not null,
TransactionType TEXT not null,
Quantity INTEGER not null,
ActualCost REAL not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
foreign key (ProductID) references Product(ProductID)
);
CREATE TABLE Vendor
(
BusinessEntityID INTEGER not null
primary key,
AccountNumber TEXT not null
unique,
Name TEXT not null,
CreditRating INTEGER not null,
PreferredVendorStatus INTEGER default 1 not null,
ActiveFlag INTEGER default 1 not null,
PurchasingWebServiceURL TEXT,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
foreign key (BusinessEntityID) references BusinessEntity(BusinessEntityID)
);
CREATE TABLE ProductVendor
(
ProductID INTEGER not null,
BusinessEntityID INTEGER not null,
AverageLeadTime INTEGER not null,
StandardPrice REAL not null,
LastReceiptCost REAL,
LastReceiptDate DATETIME,
MinOrderQty INTEGER not null,
MaxOrderQty INTEGER not null,
OnOrderQty INTEGER,
UnitMeasureCode TEXT not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
primary key (ProductID, BusinessEntityID),
foreign key (ProductID) references Product(ProductID),
foreign key (BusinessEntityID) references Vendor(BusinessEntityID),
foreign key (UnitMeasureCode) references UnitMeasure(UnitMeasureCode)
);
CREATE TABLE PurchaseOrderHeader
(
PurchaseOrderID INTEGER
primary key autoincrement,
RevisionNumber INTEGER default 0 not null,
Status INTEGER default 1 not null,
EmployeeID INTEGER not null,
VendorID INTEGER not null,
ShipMethodID INTEGER not null,
OrderDate DATETIME default CURRENT_TIMESTAMP not null,
ShipDate DATETIME,
SubTotal REAL default 0.0000 not null,
TaxAmt REAL default 0.0000 not null,
Freight REAL default 0.0000 not null,
TotalDue REAL not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
foreign key (EmployeeID) references Employee(BusinessEntityID),
foreign key (VendorID) references Vendor(BusinessEntityID),
foreign key (ShipMethodID) references ShipMethod(ShipMethodID)
);
CREATE TABLE PurchaseOrderDetail
(
PurchaseOrderID INTEGER not null,
PurchaseOrderDetailID INTEGER
primary key autoincrement,
DueDate DATETIME not null,
OrderQty INTEGER not null,
ProductID INTEGER not null,
UnitPrice REAL not null,
LineTotal REAL not null,
ReceivedQty REAL not null,
RejectedQty REAL not null,
StockedQty REAL not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
foreign key (PurchaseOrderID) references PurchaseOrderHeader(PurchaseOrderID),
foreign key (ProductID) references Product(ProductID)
);
CREATE TABLE WorkOrder
(
WorkOrderID INTEGER
primary key autoincrement,
ProductID INTEGER not null,
OrderQty INTEGER not null,
StockedQty INTEGER not null,
ScrappedQty INTEGER not null,
StartDate DATETIME not null,
EndDate DATETIME,
DueDate DATETIME not null,
ScrapReasonID INTEGER,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
foreign key (ProductID) references Product(ProductID),
foreign key (ScrapReasonID) references ScrapReason(ScrapReasonID)
);
CREATE TABLE WorkOrderRouting
(
WorkOrderID INTEGER not null,
ProductID INTEGER not null,
OperationSequence INTEGER not null,
LocationID INTEGER not null,
ScheduledStartDate DATETIME not null,
ScheduledEndDate DATETIME not null,
ActualStartDate DATETIME,
ActualEndDate DATETIME,
ActualResourceHrs REAL,
PlannedCost REAL not null,
ActualCost REAL,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
primary key (WorkOrderID, ProductID, OperationSequence),
foreign key (WorkOrderID) references WorkOrder(WorkOrderID),
foreign key (LocationID) references Location(LocationID)
);
CREATE TABLE Customer
(
CustomerID INTEGER
primary key,
PersonID INTEGER,
StoreID INTEGER,
TerritoryID INTEGER,
AccountNumber TEXT not null
unique,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null,
foreign key (PersonID) references Person(BusinessEntityID),
foreign key (TerritoryID) references SalesTerritory(TerritoryID),
foreign key (StoreID) references Store(BusinessEntityID)
);
CREATE TABLE ProductListPriceHistory
(
ProductID INTEGER not null,
StartDate DATE not null,
EndDate DATE,
ListPrice REAL not null,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
primary key (ProductID, StartDate),
foreign key (ProductID) references Product(ProductID)
);
CREATE TABLE IF NOT EXISTS "Address"
(
AddressID INTEGER
primary key autoincrement,
AddressLine1 TEXT not null,
AddressLine2 TEXT,
City TEXT not null,
StateProvinceID INTEGER not null
references StateProvince,
PostalCode TEXT not null,
SpatialLocation TEXT,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null,
unique (AddressLine1, AddressLine2, City, StateProvinceID, PostalCode)
);
CREATE TABLE IF NOT EXISTS "AddressType"
(
AddressTypeID INTEGER
primary key autoincrement,
Name TEXT not null
unique,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null
);
CREATE TABLE IF NOT EXISTS "BillOfMaterials"
(
BillOfMaterialsID INTEGER
primary key autoincrement,
ProductAssemblyID INTEGER
references Product,
ComponentID INTEGER not null
references Product,
StartDate DATETIME default current_timestamp not null,
EndDate DATETIME,
UnitMeasureCode TEXT not null
references UnitMeasure,
BOMLevel INTEGER not null,
PerAssemblyQty REAL default 1.00 not null,
ModifiedDate DATETIME default current_timestamp not null,
unique (ProductAssemblyID, ComponentID, StartDate)
);
CREATE TABLE IF NOT EXISTS "BusinessEntity"
(
BusinessEntityID INTEGER
primary key autoincrement,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null
);
CREATE TABLE IF NOT EXISTS "ContactType"
(
ContactTypeID INTEGER
primary key autoincrement,
Name TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null
);
CREATE TABLE IF NOT EXISTS "CurrencyRate"
(
CurrencyRateID INTEGER
primary key autoincrement,
CurrencyRateDate DATETIME not null,
FromCurrencyCode TEXT not null
references Currency,
ToCurrencyCode TEXT not null
references Currency,
AverageRate REAL not null,
EndOfDayRate REAL not null,
ModifiedDate DATETIME default current_timestamp not null,
unique (CurrencyRateDate, FromCurrencyCode, ToCurrencyCode)
);
CREATE TABLE IF NOT EXISTS "Department"
(
DepartmentID INTEGER
primary key autoincrement,
Name TEXT not null
unique,
GroupName TEXT not null,
ModifiedDate DATETIME default current_timestamp not null
);
CREATE TABLE IF NOT EXISTS "EmployeeDepartmentHistory"
(
BusinessEntityID INTEGER not null
references Employee,
DepartmentID INTEGER not null
references Department,
ShiftID INTEGER not null
references Shift,
StartDate DATE not null,
EndDate DATE,
ModifiedDate DATETIME default current_timestamp not null,
primary key (BusinessEntityID, StartDate, DepartmentID, ShiftID)
);
CREATE TABLE IF NOT EXISTS "EmployeePayHistory"
(
BusinessEntityID INTEGER not null
references Employee,
RateChangeDate DATETIME not null,
Rate REAL not null,
PayFrequency INTEGER not null,
ModifiedDate DATETIME default current_timestamp not null,
primary key (BusinessEntityID, RateChangeDate)
);
CREATE TABLE IF NOT EXISTS "JobCandidate"
(
JobCandidateID INTEGER
primary key autoincrement,
BusinessEntityID INTEGER
references Employee,
Resume TEXT,
ModifiedDate DATETIME default current_timestamp not null
);
CREATE TABLE IF NOT EXISTS "Location"
(
LocationID INTEGER
primary key autoincrement,
Name TEXT not null
unique,
CostRate REAL default 0.0000 not null,
Availability REAL default 0.00 not null,
ModifiedDate DATETIME default current_timestamp not null
);
CREATE TABLE IF NOT EXISTS "PhoneNumberType"
(
PhoneNumberTypeID INTEGER
primary key autoincrement,
Name TEXT not null,
ModifiedDate DATETIME default current_timestamp not null
);
CREATE TABLE IF NOT EXISTS "Product"
(
ProductID INTEGER
primary key autoincrement,
Name TEXT not null
unique,
ProductNumber TEXT not null
unique,
MakeFlag INTEGER default 1 not null,
FinishedGoodsFlag INTEGER default 1 not null,
Color TEXT,
SafetyStockLevel INTEGER not null,
ReorderPoint INTEGER not null,
StandardCost REAL not null,
ListPrice REAL not null,
Size TEXT,
SizeUnitMeasureCode TEXT
references UnitMeasure,
WeightUnitMeasureCode TEXT
references UnitMeasure,
Weight REAL,
DaysToManufacture INTEGER not null,
ProductLine TEXT,
Class TEXT,
Style TEXT,
ProductSubcategoryID INTEGER
references ProductSubcategory,
ProductModelID INTEGER
references ProductModel,
SellStartDate DATETIME not null,
SellEndDate DATETIME,
DiscontinuedDate DATETIME,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null
);
CREATE TABLE IF NOT EXISTS "Document"
(
DocumentNode TEXT not null
primary key,
DocumentLevel INTEGER,
Title TEXT not null,
Owner INTEGER not null
references Employee,
FolderFlag INTEGER default 0 not null,
FileName TEXT not null,
FileExtension TEXT not null,
Revision TEXT not null,
ChangeNumber INTEGER default 0 not null,
Status INTEGER not null,
DocumentSummary TEXT,
Document BLOB,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default current_timestamp not null,
unique (DocumentLevel, DocumentNode)
);
CREATE TABLE IF NOT EXISTS "StateProvince"
(
StateProvinceID INTEGER
primary key autoincrement,
StateProvinceCode TEXT not null,
CountryRegionCode TEXT not null
references CountryRegion,
IsOnlyStateProvinceFlag INTEGER default 1 not null,
Name TEXT not null
unique,
TerritoryID INTEGER not null
references SalesTerritory,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null,
unique (StateProvinceCode, CountryRegionCode)
);
CREATE TABLE IF NOT EXISTS "CreditCard"
(
CreditCardID INTEGER
primary key autoincrement,
CardType TEXT not null,
CardNumber TEXT not null
unique,
ExpMonth INTEGER not null,
ExpYear INTEGER not null,
ModifiedDate DATETIME default current_timestamp not null
);
CREATE TABLE IF NOT EXISTS "SalesOrderHeader"
(
SalesOrderID INTEGER
primary key autoincrement,
RevisionNumber INTEGER default 0 not null,
OrderDate DATETIME default CURRENT_TIMESTAMP not null,
DueDate DATETIME not null,
ShipDate DATETIME,
Status INTEGER default 1 not null,
OnlineOrderFlag INTEGER default 1 not null,
SalesOrderNumber TEXT not null
unique,
PurchaseOrderNumber TEXT,
AccountNumber TEXT,
CustomerID INTEGER not null
references Customer,
SalesPersonID INTEGER
references SalesPerson,
TerritoryID INTEGER
references SalesTerritory,
BillToAddressID INTEGER not null
references Address,
ShipToAddressID INTEGER not null
references Address,
ShipMethodID INTEGER not null
references Address,
CreditCardID INTEGER
references CreditCard,
CreditCardApprovalCode TEXT,
CurrencyRateID INTEGER
references CurrencyRate,
SubTotal REAL default 0.0000 not null,
TaxAmt REAL default 0.0000 not null,
Freight REAL default 0.0000 not null,
TotalDue REAL not null,
Comment TEXT,
rowguid TEXT not null
unique,
ModifiedDate DATETIME default CURRENT_TIMESTAMP not null
);
|
food_inspection_2 | What is the full name of the employee that inspected establishments with license 1334073? | full name refers to first_name, last_name; with license 1334073 refers to license_no = 1334073 | SELECT DISTINCT T1.first_name, T1.last_name FROM employee AS T1 INNER JOIN inspection AS T2 ON T1.employee_id = T2.employee_id WHERE T2.license_no = 1334073 | CREATE TABLE employee
(
employee_id INTEGER
primary key,
first_name TEXT,
last_name TEXT,
address TEXT,
city TEXT,
state TEXT,
zip INTEGER,
phone TEXT,
title TEXT,
salary INTEGER,
supervisor INTEGER,
foreign key (supervisor) references employee(employee_id)
);
CREATE TABLE establishment
(
license_no INTEGER
primary key,
dba_name TEXT,
aka_name TEXT,
facility_type TEXT,
risk_level INTEGER,
address TEXT,
city TEXT,
state TEXT,
zip INTEGER,
latitude REAL,
longitude REAL,
ward INTEGER
);
CREATE TABLE inspection
(
inspection_id INTEGER
primary key,
inspection_date DATE,
inspection_type TEXT,
results TEXT,
employee_id INTEGER,
license_no INTEGER,
followup_to INTEGER,
foreign key (employee_id) references employee(employee_id),
foreign key (license_no) references establishment(license_no),
foreign key (followup_to) references inspection(inspection_id)
);
CREATE TABLE inspection_point
(
point_id INTEGER
primary key,
Description TEXT,
category TEXT,
code TEXT,
fine INTEGER,
point_level TEXT
);
CREATE TABLE violation
(
inspection_id INTEGER,
point_id INTEGER,
fine INTEGER,
inspector_comment TEXT,
primary key (inspection_id, point_id),
foreign key (inspection_id) references inspection(inspection_id),
foreign key (point_id) references inspection_point(point_id)
);
|
retails | Please list any two parts that come with the wrap bag container and have a supply cost of under 10. | part name refers to p_name; wrap bag container refers to p_container = 'WRAP BAG'; supply cost of under 10 refers to ps_supplycost < 10 | SELECT T1.p_name FROM part AS T1 INNER JOIN partsupp AS T2 ON T1.p_partkey = T2.ps_partkey WHERE T2.ps_supplycost < 10 AND T1.p_container = 'WRAP BAG' LIMIT 2 | CREATE TABLE `customer` (
`c_custkey` INTEGER NOT NULL,
`c_mktsegment` TEXT DEFAULT NULL,
`c_nationkey` INTEGER DEFAULT NULL,
`c_name` TEXT DEFAULT NULL,
`c_address` TEXT DEFAULT NULL,
`c_phone` TEXT DEFAULT NULL,
`c_acctbal` REAL DEFAULT NULL,
`c_comment` TEXT DEFAULT NULL,
PRIMARY KEY (`c_custkey`),
FOREIGN KEY (`c_nationkey`) REFERENCES `nation` (`n_nationkey`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE lineitem
(
l_shipdate DATE null,
l_orderkey INTEGER not null,
l_discount REAL not null,
l_extendedprice REAL not null,
l_suppkey INTEGER not null,
l_quantity INTEGER not null,
l_returnflag TEXT null,
l_partkey INTEGER not null,
l_linestatus TEXT null,
l_tax REAL not null,
l_commitdate DATE null,
l_receiptdate DATE null,
l_shipmode TEXT null,
l_linenumber INTEGER not null,
l_shipinstruct TEXT null,
l_comment TEXT null,
primary key (l_orderkey, l_linenumber),
foreign key (l_orderkey) references orders (o_orderkey)
on update cascade on delete cascade,
foreign key (l_partkey, l_suppkey) references partsupp (ps_partkey, ps_suppkey)
on update cascade on delete cascade
);
CREATE TABLE nation
(
n_nationkey INTEGER not null
primary key,
n_name TEXT null,
n_regionkey INTEGER null,
n_comment TEXT null,
foreign key (n_regionkey) references region (r_regionkey)
on update cascade on delete cascade
);
CREATE TABLE orders
(
o_orderdate DATE null,
o_orderkey INTEGER not null
primary key,
o_custkey INTEGER not null,
o_orderpriority TEXT null,
o_shippriority INTEGER null,
o_clerk TEXT null,
o_orderstatus TEXT null,
o_totalprice REAL null,
o_comment TEXT null,
foreign key (o_custkey) references customer (c_custkey)
on update cascade on delete cascade
);
CREATE TABLE part
(
p_partkey INTEGER not null
primary key,
p_type TEXT null,
p_size INTEGER null,
p_brand TEXT null,
p_name TEXT null,
p_container TEXT null,
p_mfgr TEXT null,
p_retailprice REAL null,
p_comment TEXT null
);
CREATE TABLE partsupp
(
ps_partkey INTEGER not null,
ps_suppkey INTEGER not null,
ps_supplycost REAL not null,
ps_availqty INTEGER null,
ps_comment TEXT null,
primary key (ps_partkey, ps_suppkey),
foreign key (ps_partkey) references part (p_partkey)
on update cascade on delete cascade,
foreign key (ps_suppkey) references supplier (s_suppkey)
on update cascade on delete cascade
);
CREATE TABLE region
(
r_regionkey INTEGER not null
primary key,
r_name TEXT null,
r_comment TEXT null
);
CREATE TABLE supplier
(
s_suppkey INTEGER not null
primary key,
s_nationkey INTEGER null,
s_comment TEXT null,
s_name TEXT null,
s_address TEXT null,
s_phone TEXT null,
s_acctbal REAL null,
foreign key (s_nationkey) references nation (n_nationkey)
);
|
computer_student | Among the courses that are basic or medium undergraduate courses, how many of them are taught by a faculty member? | courses that are basic or medium undergraduate courses refers to courseLevel = 'Level_300'; faculty member refers to hasPosition ! = 0 | SELECT COUNT(*) FROM course AS T1 INNER JOIN taughtBy AS T2 ON T1.course_id = T2.course_id INNER JOIN person AS T3 ON T2.p_id = T3.p_id WHERE T3.professor = 1 AND T1.courseLevel = 'Level_300' | CREATE TABLE course
(
course_id INTEGER
constraint course_pk
primary key,
courseLevel TEXT
);
CREATE TABLE person
(
p_id INTEGER
constraint person_pk
primary key,
professor INTEGER,
student INTEGER,
hasPosition TEXT,
inPhase TEXT,
yearsInProgram TEXT
);
CREATE TABLE IF NOT EXISTS "advisedBy"
(
p_id INTEGER,
p_id_dummy INTEGER,
constraint advisedBy_pk
primary key (p_id, p_id_dummy),
constraint advisedBy_person_p_id_p_id_fk
foreign key (p_id, p_id_dummy) references person (p_id, p_id)
);
CREATE TABLE taughtBy
(
course_id INTEGER,
p_id INTEGER,
primary key (course_id, p_id),
foreign key (p_id) references person(p_id),
foreign key (course_id) references course(course_id)
);
|
books | How many orders were returned in the year 2020? | returned refers to status_value = 'Returned'; in the year 2020 refers to status_date LIKE '%2020%' | SELECT COUNT(*) FROM order_status AS T1 INNER JOIN order_history AS T2 ON T1.status_id = T2.status_id WHERE T1.status_value = 'Returned' AND STRFTIME('%Y', T2.status_date) = '2020' | CREATE TABLE address_status
(
status_id INTEGER
primary key,
address_status TEXT
);
CREATE TABLE author
(
author_id INTEGER
primary key,
author_name TEXT
);
CREATE TABLE book_language
(
language_id INTEGER
primary key,
language_code TEXT,
language_name TEXT
);
CREATE TABLE country
(
country_id INTEGER
primary key,
country_name TEXT
);
CREATE TABLE address
(
address_id INTEGER
primary key,
street_number TEXT,
street_name TEXT,
city TEXT,
country_id INTEGER,
foreign key (country_id) references country(country_id)
);
CREATE TABLE customer
(
customer_id INTEGER
primary key,
first_name TEXT,
last_name TEXT,
email TEXT
);
CREATE TABLE customer_address
(
customer_id INTEGER,
address_id INTEGER,
status_id INTEGER,
primary key (customer_id, address_id),
foreign key (address_id) references address(address_id),
foreign key (customer_id) references customer(customer_id)
);
CREATE TABLE order_status
(
status_id INTEGER
primary key,
status_value TEXT
);
CREATE TABLE publisher
(
publisher_id INTEGER
primary key,
publisher_name TEXT
);
CREATE TABLE book
(
book_id INTEGER
primary key,
title TEXT,
isbn13 TEXT,
language_id INTEGER,
num_pages INTEGER,
publication_date DATE,
publisher_id INTEGER,
foreign key (language_id) references book_language(language_id),
foreign key (publisher_id) references publisher(publisher_id)
);
CREATE TABLE book_author
(
book_id INTEGER,
author_id INTEGER,
primary key (book_id, author_id),
foreign key (author_id) references author(author_id),
foreign key (book_id) references book(book_id)
);
CREATE TABLE shipping_method
(
method_id INTEGER
primary key,
method_name TEXT,
cost REAL
);
CREATE TABLE IF NOT EXISTS "cust_order"
(
order_id INTEGER
primary key autoincrement,
order_date DATETIME,
customer_id INTEGER
references customer,
shipping_method_id INTEGER
references shipping_method,
dest_address_id INTEGER
references address
);
CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE IF NOT EXISTS "order_history"
(
history_id INTEGER
primary key autoincrement,
order_id INTEGER
references cust_order,
status_id INTEGER
references order_status,
status_date DATETIME
);
CREATE TABLE IF NOT EXISTS "order_line"
(
line_id INTEGER
primary key autoincrement,
order_id INTEGER
references cust_order,
book_id INTEGER
references book,
price REAL
);
|
beer_factory | How many breweries are located in North America? | North America refers to country = 'United States'; North America is the name of continent where country = 'United States' is located; | SELECT COUNT(BrandID) FROM rootbeerbrand WHERE Country = 'United States' | CREATE TABLE customers
(
CustomerID INTEGER
primary key,
First TEXT,
Last TEXT,
StreetAddress TEXT,
City TEXT,
State TEXT,
ZipCode INTEGER,
Email TEXT,
PhoneNumber TEXT,
FirstPurchaseDate DATE,
SubscribedToEmailList TEXT,
Gender TEXT
);
CREATE TABLE geolocation
(
LocationID INTEGER
primary key,
Latitude REAL,
Longitude REAL,
foreign key (LocationID) references location(LocationID)
);
CREATE TABLE location
(
LocationID INTEGER
primary key,
LocationName TEXT,
StreetAddress TEXT,
City TEXT,
State TEXT,
ZipCode INTEGER,
foreign key (LocationID) references geolocation(LocationID)
);
CREATE TABLE rootbeerbrand
(
BrandID INTEGER
primary key,
BrandName TEXT,
FirstBrewedYear INTEGER,
BreweryName TEXT,
City TEXT,
State TEXT,
Country TEXT,
Description TEXT,
CaneSugar TEXT,
CornSyrup TEXT,
Honey TEXT,
ArtificialSweetener TEXT,
Caffeinated TEXT,
Alcoholic TEXT,
AvailableInCans TEXT,
AvailableInBottles TEXT,
AvailableInKegs TEXT,
Website TEXT,
FacebookPage TEXT,
Twitter TEXT,
WholesaleCost REAL,
CurrentRetailPrice REAL
);
CREATE TABLE rootbeer
(
RootBeerID INTEGER
primary key,
BrandID INTEGER,
ContainerType TEXT,
LocationID INTEGER,
PurchaseDate DATE,
foreign key (LocationID) references geolocation(LocationID),
foreign key (LocationID) references location(LocationID),
foreign key (BrandID) references rootbeerbrand(BrandID)
);
CREATE TABLE rootbeerreview
(
CustomerID INTEGER,
BrandID INTEGER,
StarRating INTEGER,
ReviewDate DATE,
Review TEXT,
primary key (CustomerID, BrandID),
foreign key (CustomerID) references customers(CustomerID),
foreign key (BrandID) references rootbeerbrand(BrandID)
);
CREATE TABLE IF NOT EXISTS "transaction"
(
TransactionID INTEGER
primary key,
CreditCardNumber INTEGER,
CustomerID INTEGER,
TransactionDate DATE,
CreditCardType TEXT,
LocationID INTEGER,
RootBeerID INTEGER,
PurchasePrice REAL,
foreign key (CustomerID) references customers(CustomerID),
foreign key (LocationID) references location(LocationID),
foreign key (RootBeerID) references rootbeer(RootBeerID)
);
|
legislator | How many legislators hold the title "Majority Leader"? | SELECT COUNT(bioguide) FROM `current-terms` WHERE title = 'Majority Leader' | CREATE TABLE current
(
ballotpedia_id TEXT,
bioguide_id TEXT,
birthday_bio DATE,
cspan_id REAL,
fec_id TEXT,
first_name TEXT,
gender_bio TEXT,
google_entity_id_id TEXT,
govtrack_id INTEGER,
house_history_id REAL,
icpsr_id REAL,
last_name TEXT,
lis_id TEXT,
maplight_id REAL,
middle_name TEXT,
nickname_name TEXT,
official_full_name TEXT,
opensecrets_id TEXT,
religion_bio TEXT,
suffix_name TEXT,
thomas_id INTEGER,
votesmart_id REAL,
wikidata_id TEXT,
wikipedia_id TEXT,
primary key (bioguide_id, cspan_id)
);
CREATE TABLE IF NOT EXISTS "current-terms"
(
address TEXT,
bioguide TEXT,
caucus TEXT,
chamber TEXT,
class REAL,
contact_form TEXT,
district REAL,
end TEXT,
fax TEXT,
last TEXT,
name TEXT,
office TEXT,
party TEXT,
party_affiliations TEXT,
phone TEXT,
relation TEXT,
rss_url TEXT,
start TEXT,
state TEXT,
state_rank TEXT,
title TEXT,
type TEXT,
url TEXT,
primary key (bioguide, end),
foreign key (bioguide) references current(bioguide_id)
);
CREATE TABLE historical
(
ballotpedia_id TEXT,
bioguide_id TEXT
primary key,
bioguide_previous_id TEXT,
birthday_bio TEXT,
cspan_id TEXT,
fec_id TEXT,
first_name TEXT,
gender_bio TEXT,
google_entity_id_id TEXT,
govtrack_id INTEGER,
house_history_alternate_id TEXT,
house_history_id REAL,
icpsr_id REAL,
last_name TEXT,
lis_id TEXT,
maplight_id TEXT,
middle_name TEXT,
nickname_name TEXT,
official_full_name TEXT,
opensecrets_id TEXT,
religion_bio TEXT,
suffix_name TEXT,
thomas_id TEXT,
votesmart_id TEXT,
wikidata_id TEXT,
wikipedia_id TEXT
);
CREATE TABLE IF NOT EXISTS "historical-terms"
(
address TEXT,
bioguide TEXT
primary key,
chamber TEXT,
class REAL,
contact_form TEXT,
district REAL,
end TEXT,
fax TEXT,
last TEXT,
middle TEXT,
name TEXT,
office TEXT,
party TEXT,
party_affiliations TEXT,
phone TEXT,
relation TEXT,
rss_url TEXT,
start TEXT,
state TEXT,
state_rank TEXT,
title TEXT,
type TEXT,
url TEXT,
foreign key (bioguide) references historical(bioguide_id)
);
CREATE TABLE IF NOT EXISTS "social-media"
(
bioguide TEXT
primary key,
facebook TEXT,
facebook_id REAL,
govtrack REAL,
instagram TEXT,
instagram_id REAL,
thomas INTEGER,
twitter TEXT,
twitter_id REAL,
youtube TEXT,
youtube_id TEXT,
foreign key (bioguide) references current(bioguide_id)
);
|
|
shipping | List all the name of the customers that received a shipment in February 2017. | shipment in February 2017 refers to ship_date LIKE '2017-02-%'; name of customer refers to cust_name | SELECT T1.cust_name FROM customer AS T1 INNER JOIN shipment AS T2 ON T1.cust_id = T2.cust_id WHERE T2.ship_date LIKE '2017-02%' | CREATE TABLE city
(
city_id INTEGER
primary key,
city_name TEXT,
state TEXT,
population INTEGER,
area REAL
);
CREATE TABLE customer
(
cust_id INTEGER
primary key,
cust_name TEXT,
annual_revenue INTEGER,
cust_type TEXT,
address TEXT,
city TEXT,
state TEXT,
zip REAL,
phone TEXT
);
CREATE TABLE driver
(
driver_id INTEGER
primary key,
first_name TEXT,
last_name TEXT,
address TEXT,
city TEXT,
state TEXT,
zip_code INTEGER,
phone TEXT
);
CREATE TABLE truck
(
truck_id INTEGER
primary key,
make TEXT,
model_year INTEGER
);
CREATE TABLE shipment
(
ship_id INTEGER
primary key,
cust_id INTEGER,
weight REAL,
truck_id INTEGER,
driver_id INTEGER,
city_id INTEGER,
ship_date TEXT,
foreign key (cust_id) references customer(cust_id),
foreign key (city_id) references city(city_id),
foreign key (driver_id) references driver(driver_id),
foreign key (truck_id) references truck(truck_id)
);
|
retails | How many items did Customer#000021159 order? Calculate those items total charges. | items Customer#000021159 order refer to l_linenumber where c_name = 'Customer#000021159'; SUM(MULTIPLY(MULTIPLY(l_extendedprice, SUBTRACT(1, l_discount)), SUM(1, l_tax))) where c_name = 'Customer#000021159'; | SELECT COUNT(T2.o_orderkey), SUM(T3.l_extendedprice * (1 - T3.l_discount) * (1 + T3.l_tax)) FROM customer AS T1 INNER JOIN orders AS T2 ON T1.c_custkey = T2.o_custkey INNER JOIN lineitem AS T3 ON T2.o_orderkey = T3.l_orderkey WHERE T1.c_name = 'Customer#000021159' GROUP BY T3.l_linenumber | CREATE TABLE `customer` (
`c_custkey` INTEGER NOT NULL,
`c_mktsegment` TEXT DEFAULT NULL,
`c_nationkey` INTEGER DEFAULT NULL,
`c_name` TEXT DEFAULT NULL,
`c_address` TEXT DEFAULT NULL,
`c_phone` TEXT DEFAULT NULL,
`c_acctbal` REAL DEFAULT NULL,
`c_comment` TEXT DEFAULT NULL,
PRIMARY KEY (`c_custkey`),
FOREIGN KEY (`c_nationkey`) REFERENCES `nation` (`n_nationkey`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE lineitem
(
l_shipdate DATE null,
l_orderkey INTEGER not null,
l_discount REAL not null,
l_extendedprice REAL not null,
l_suppkey INTEGER not null,
l_quantity INTEGER not null,
l_returnflag TEXT null,
l_partkey INTEGER not null,
l_linestatus TEXT null,
l_tax REAL not null,
l_commitdate DATE null,
l_receiptdate DATE null,
l_shipmode TEXT null,
l_linenumber INTEGER not null,
l_shipinstruct TEXT null,
l_comment TEXT null,
primary key (l_orderkey, l_linenumber),
foreign key (l_orderkey) references orders (o_orderkey)
on update cascade on delete cascade,
foreign key (l_partkey, l_suppkey) references partsupp (ps_partkey, ps_suppkey)
on update cascade on delete cascade
);
CREATE TABLE nation
(
n_nationkey INTEGER not null
primary key,
n_name TEXT null,
n_regionkey INTEGER null,
n_comment TEXT null,
foreign key (n_regionkey) references region (r_regionkey)
on update cascade on delete cascade
);
CREATE TABLE orders
(
o_orderdate DATE null,
o_orderkey INTEGER not null
primary key,
o_custkey INTEGER not null,
o_orderpriority TEXT null,
o_shippriority INTEGER null,
o_clerk TEXT null,
o_orderstatus TEXT null,
o_totalprice REAL null,
o_comment TEXT null,
foreign key (o_custkey) references customer (c_custkey)
on update cascade on delete cascade
);
CREATE TABLE part
(
p_partkey INTEGER not null
primary key,
p_type TEXT null,
p_size INTEGER null,
p_brand TEXT null,
p_name TEXT null,
p_container TEXT null,
p_mfgr TEXT null,
p_retailprice REAL null,
p_comment TEXT null
);
CREATE TABLE partsupp
(
ps_partkey INTEGER not null,
ps_suppkey INTEGER not null,
ps_supplycost REAL not null,
ps_availqty INTEGER null,
ps_comment TEXT null,
primary key (ps_partkey, ps_suppkey),
foreign key (ps_partkey) references part (p_partkey)
on update cascade on delete cascade,
foreign key (ps_suppkey) references supplier (s_suppkey)
on update cascade on delete cascade
);
CREATE TABLE region
(
r_regionkey INTEGER not null
primary key,
r_name TEXT null,
r_comment TEXT null
);
CREATE TABLE supplier
(
s_suppkey INTEGER not null
primary key,
s_nationkey INTEGER null,
s_comment TEXT null,
s_name TEXT null,
s_address TEXT null,
s_phone TEXT null,
s_acctbal REAL null,
foreign key (s_nationkey) references nation (n_nationkey)
);
|
public_review_platform | What is the average number of stars for businesses in the Obstetricians & Gynecologists category? | Obstetricians & Gynecologists category refers to category_name = 'Obstetricians & Gynecologists'; calculation = AVG(stars) | SELECT CAST(SUM(T1.stars) AS REAL) / COUNT(T1.business_id) FROM Business AS T1 INNER JOIN Business_Categories AS T2 ON T1.business_id = T2.business_id INNER JOIN Categories AS T3 ON T2.category_id = T3.category_id WHERE T3.category_name = 'Obstetricians & Gynecologists' | CREATE TABLE Attributes
(
attribute_id INTEGER
constraint Attributes_pk
primary key,
attribute_name TEXT
);
CREATE TABLE Categories
(
category_id INTEGER
constraint Categories_pk
primary key,
category_name TEXT
);
CREATE TABLE Compliments
(
compliment_id INTEGER
constraint Compliments_pk
primary key,
compliment_type TEXT
);
CREATE TABLE Days
(
day_id INTEGER
constraint Days_pk
primary key,
day_of_week TEXT
);
CREATE TABLE Years
(
year_id INTEGER
constraint Years_pk
primary key,
actual_year INTEGER
);
CREATE TABLE IF NOT EXISTS "Business_Attributes"
(
attribute_id INTEGER
constraint Business_Attributes_Attributes_attribute_id_fk
references Attributes,
business_id INTEGER
constraint Business_Attributes_Business_business_id_fk
references Business,
attribute_value TEXT,
constraint Business_Attributes_pk
primary key (attribute_id, business_id)
);
CREATE TABLE IF NOT EXISTS "Business_Categories"
(
business_id INTEGER
constraint Business_Categories_Business_business_id_fk
references Business,
category_id INTEGER
constraint Business_Categories_Categories_category_id_fk
references Categories,
constraint Business_Categories_pk
primary key (business_id, category_id)
);
CREATE TABLE IF NOT EXISTS "Business_Hours"
(
business_id INTEGER
constraint Business_Hours_Business_business_id_fk
references Business,
day_id INTEGER
constraint Business_Hours_Days_day_id_fk
references Days,
opening_time TEXT,
closing_time TEXT,
constraint Business_Hours_pk
primary key (business_id, day_id)
);
CREATE TABLE IF NOT EXISTS "Checkins"
(
business_id INTEGER
constraint Checkins_Business_business_id_fk
references Business,
day_id INTEGER
constraint Checkins_Days_day_id_fk
references Days,
label_time_0 TEXT,
label_time_1 TEXT,
label_time_2 TEXT,
label_time_3 TEXT,
label_time_4 TEXT,
label_time_5 TEXT,
label_time_6 TEXT,
label_time_7 TEXT,
label_time_8 TEXT,
label_time_9 TEXT,
label_time_10 TEXT,
label_time_11 TEXT,
label_time_12 TEXT,
label_time_13 TEXT,
label_time_14 TEXT,
label_time_15 TEXT,
label_time_16 TEXT,
label_time_17 TEXT,
label_time_18 TEXT,
label_time_19 TEXT,
label_time_20 TEXT,
label_time_21 TEXT,
label_time_22 TEXT,
label_time_23 TEXT,
constraint Checkins_pk
primary key (business_id, day_id)
);
CREATE TABLE IF NOT EXISTS "Elite"
(
user_id INTEGER
constraint Elite_Users_user_id_fk
references Users,
year_id INTEGER
constraint Elite_Years_year_id_fk
references Years,
constraint Elite_pk
primary key (user_id, year_id)
);
CREATE TABLE IF NOT EXISTS "Reviews"
(
business_id INTEGER
constraint Reviews_Business_business_id_fk
references Business,
user_id INTEGER
constraint Reviews_Users_user_id_fk
references Users,
review_stars INTEGER,
review_votes_funny TEXT,
review_votes_useful TEXT,
review_votes_cool TEXT,
review_length TEXT,
constraint Reviews_pk
primary key (business_id, user_id)
);
CREATE TABLE IF NOT EXISTS "Tips"
(
business_id INTEGER
constraint Tips_Business_business_id_fk
references Business,
user_id INTEGER
constraint Tips_Users_user_id_fk
references Users,
likes INTEGER,
tip_length TEXT,
constraint Tips_pk
primary key (business_id, user_id)
);
CREATE TABLE IF NOT EXISTS "Users_Compliments"
(
compliment_id INTEGER
constraint Users_Compliments_Compliments_compliment_id_fk
references Compliments,
user_id INTEGER
constraint Users_Compliments_Users_user_id_fk
references Users,
number_of_compliments TEXT,
constraint Users_Compliments_pk
primary key (compliment_id, user_id)
);
CREATE TABLE IF NOT EXISTS "Business"
(
business_id INTEGER
constraint Business_pk
primary key,
active TEXT,
city TEXT,
state TEXT,
stars REAL,
review_count TEXT
);
CREATE TABLE IF NOT EXISTS "Users"
(
user_id INTEGER
constraint Users_pk
primary key,
user_yelping_since_year INTEGER,
user_average_stars TEXT,
user_votes_funny TEXT,
user_votes_useful TEXT,
user_votes_cool TEXT,
user_review_count TEXT,
user_fans TEXT
);
|
mondial_geo | Among the countries with a population of over 10000000, how many of them have a GDP of over 500000? | SELECT COUNT(T1.Name) FROM country AS T1 INNER JOIN economy AS T2 ON T1.Code = T2.Country WHERE T2.GDP > 500000 AND T1.Population > 10000000 | CREATE TABLE IF NOT EXISTS "borders"
(
Country1 TEXT default '' not null
constraint borders_ibfk_1
references country,
Country2 TEXT default '' not null
constraint borders_ibfk_2
references country,
Length REAL,
primary key (Country1, Country2)
);
CREATE TABLE IF NOT EXISTS "city"
(
Name TEXT default '' not null,
Country TEXT default '' not null
constraint city_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
Population INTEGER,
Longitude REAL,
Latitude REAL,
primary key (Name, Province),
constraint city_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "continent"
(
Name TEXT default '' not null
primary key,
Area REAL
);
CREATE TABLE IF NOT EXISTS "country"
(
Name TEXT not null
constraint ix_county_Name
unique,
Code TEXT default '' not null
primary key,
Capital TEXT,
Province TEXT,
Area REAL,
Population INTEGER
);
CREATE TABLE IF NOT EXISTS "desert"
(
Name TEXT default '' not null
primary key,
Area REAL,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "economy"
(
Country TEXT default '' not null
primary key
constraint economy_ibfk_1
references country
on update cascade on delete cascade,
GDP REAL,
Agriculture REAL,
Service REAL,
Industry REAL,
Inflation REAL
);
CREATE TABLE IF NOT EXISTS "encompasses"
(
Country TEXT not null
constraint encompasses_ibfk_1
references country
on update cascade on delete cascade,
Continent TEXT not null
constraint encompasses_ibfk_2
references continent
on update cascade on delete cascade,
Percentage REAL,
primary key (Country, Continent)
);
CREATE TABLE IF NOT EXISTS "ethnicGroup"
(
Country TEXT default '' not null
constraint ethnicGroup_ibfk_1
references country
on update cascade on delete cascade,
Name TEXT default '' not null,
Percentage REAL,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "geo_desert"
(
Desert TEXT default '' not null
constraint geo_desert_ibfk_3
references desert
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_desert_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Desert),
constraint geo_desert_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_estuary"
(
River TEXT default '' not null
constraint geo_estuary_ibfk_3
references river
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_estuary_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, River),
constraint geo_estuary_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_island"
(
Island TEXT default '' not null
constraint geo_island_ibfk_3
references island
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_island_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Island),
constraint geo_island_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_lake"
(
Lake TEXT default '' not null
constraint geo_lake_ibfk_3
references lake
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_lake_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Lake),
constraint geo_lake_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_mountain"
(
Mountain TEXT default '' not null
constraint geo_mountain_ibfk_3
references mountain
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_mountain_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Mountain),
constraint geo_mountain_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_river"
(
River TEXT default '' not null
constraint geo_river_ibfk_3
references river
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_river_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, River),
constraint geo_river_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_sea"
(
Sea TEXT default '' not null
constraint geo_sea_ibfk_3
references sea
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_sea_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Sea),
constraint geo_sea_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_source"
(
River TEXT default '' not null
constraint geo_source_ibfk_3
references river
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_source_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, River),
constraint geo_source_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "island"
(
Name TEXT default '' not null
primary key,
Islands TEXT,
Area REAL,
Height REAL,
Type TEXT,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "islandIn"
(
Island TEXT
constraint islandIn_ibfk_4
references island
on update cascade on delete cascade,
Sea TEXT
constraint islandIn_ibfk_3
references sea
on update cascade on delete cascade,
Lake TEXT
constraint islandIn_ibfk_1
references lake
on update cascade on delete cascade,
River TEXT
constraint islandIn_ibfk_2
references river
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "isMember"
(
Country TEXT default '' not null
constraint isMember_ibfk_1
references country
on update cascade on delete cascade,
Organization TEXT default '' not null
constraint isMember_ibfk_2
references organization
on update cascade on delete cascade,
Type TEXT default 'member',
primary key (Country, Organization)
);
CREATE TABLE IF NOT EXISTS "lake"
(
Name TEXT default '' not null
primary key,
Area REAL,
Depth REAL,
Altitude REAL,
Type TEXT,
River TEXT,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "language"
(
Country TEXT default '' not null
constraint language_ibfk_1
references country
on update cascade on delete cascade,
Name TEXT default '' not null,
Percentage REAL,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "located"
(
City TEXT,
Province TEXT,
Country TEXT
constraint located_ibfk_1
references country
on update cascade on delete cascade,
River TEXT
constraint located_ibfk_3
references river
on update cascade on delete cascade,
Lake TEXT
constraint located_ibfk_4
references lake
on update cascade on delete cascade,
Sea TEXT
constraint located_ibfk_5
references sea
on update cascade on delete cascade,
constraint located_ibfk_2
foreign key (City, Province) references city
on update cascade on delete cascade,
constraint located_ibfk_6
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "locatedOn"
(
City TEXT default '' not null,
Province TEXT default '' not null,
Country TEXT default '' not null
constraint locatedOn_ibfk_1
references country
on update cascade on delete cascade,
Island TEXT default '' not null
constraint locatedOn_ibfk_2
references island
on update cascade on delete cascade,
primary key (City, Province, Country, Island),
constraint locatedOn_ibfk_3
foreign key (City, Province) references city
on update cascade on delete cascade,
constraint locatedOn_ibfk_4
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "mergesWith"
(
Sea1 TEXT default '' not null
constraint mergesWith_ibfk_1
references sea
on update cascade on delete cascade,
Sea2 TEXT default '' not null
constraint mergesWith_ibfk_2
references sea
on update cascade on delete cascade,
primary key (Sea1, Sea2)
);
CREATE TABLE IF NOT EXISTS "mountain"
(
Name TEXT default '' not null
primary key,
Mountains TEXT,
Height REAL,
Type TEXT,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "mountainOnIsland"
(
Mountain TEXT default '' not null
constraint mountainOnIsland_ibfk_2
references mountain
on update cascade on delete cascade,
Island TEXT default '' not null
constraint mountainOnIsland_ibfk_1
references island
on update cascade on delete cascade,
primary key (Mountain, Island)
);
CREATE TABLE IF NOT EXISTS "organization"
(
Abbreviation TEXT not null
primary key,
Name TEXT not null
constraint ix_organization_OrgNameUnique
unique,
City TEXT,
Country TEXT
constraint organization_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT,
Established DATE,
constraint organization_ibfk_2
foreign key (City, Province) references city
on update cascade on delete cascade,
constraint organization_ibfk_3
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "politics"
(
Country TEXT default '' not null
primary key
constraint politics_ibfk_1
references country
on update cascade on delete cascade,
Independence DATE,
Dependent TEXT
constraint politics_ibfk_2
references country
on update cascade on delete cascade,
Government TEXT
);
CREATE TABLE IF NOT EXISTS "population"
(
Country TEXT default '' not null
primary key
constraint population_ibfk_1
references country
on update cascade on delete cascade,
Population_Growth REAL,
Infant_Mortality REAL
);
CREATE TABLE IF NOT EXISTS "province"
(
Name TEXT not null,
Country TEXT not null
constraint province_ibfk_1
references country
on update cascade on delete cascade,
Population INTEGER,
Area REAL,
Capital TEXT,
CapProv TEXT,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "religion"
(
Country TEXT default '' not null
constraint religion_ibfk_1
references country
on update cascade on delete cascade,
Name TEXT default '' not null,
Percentage REAL,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "river"
(
Name TEXT default '' not null
primary key,
River TEXT,
Lake TEXT
constraint river_ibfk_1
references lake
on update cascade on delete cascade,
Sea TEXT,
Length REAL,
SourceLongitude REAL,
SourceLatitude REAL,
Mountains TEXT,
SourceAltitude REAL,
EstuaryLongitude REAL,
EstuaryLatitude REAL
);
CREATE TABLE IF NOT EXISTS "sea"
(
Name TEXT default '' not null
primary key,
Depth REAL
);
CREATE TABLE IF NOT EXISTS "target"
(
Country TEXT not null
primary key
constraint target_Country_fkey
references country
on update cascade on delete cascade,
Target TEXT
);
|
|
address | What is the number of households in the "FL-10" district? | SELECT SUM(CASE WHEN T2.district = 'FL-10' THEN 1 ELSE 0 END) FROM zip_data AS T1 INNER JOIN zip_congress AS T2 ON T1.zip_code = T2.zip_code | CREATE TABLE CBSA
(
CBSA INTEGER
primary key,
CBSA_name TEXT,
CBSA_type TEXT
);
CREATE TABLE state
(
abbreviation TEXT
primary key,
name TEXT
);
CREATE TABLE congress
(
cognress_rep_id TEXT
primary key,
first_name TEXT,
last_name TEXT,
CID TEXT,
party TEXT,
state TEXT,
abbreviation TEXT,
House TEXT,
District INTEGER,
land_area REAL,
foreign key (abbreviation) references state(abbreviation)
);
CREATE TABLE zip_data
(
zip_code INTEGER
primary key,
city TEXT,
state TEXT,
multi_county TEXT,
type TEXT,
organization TEXT,
time_zone TEXT,
daylight_savings TEXT,
latitude REAL,
longitude REAL,
elevation INTEGER,
state_fips INTEGER,
county_fips INTEGER,
region TEXT,
division TEXT,
population_2020 INTEGER,
population_2010 INTEGER,
households INTEGER,
avg_house_value INTEGER,
avg_income_per_household INTEGER,
persons_per_household REAL,
white_population INTEGER,
black_population INTEGER,
hispanic_population INTEGER,
asian_population INTEGER,
american_indian_population INTEGER,
hawaiian_population INTEGER,
other_population INTEGER,
male_population INTEGER,
female_population INTEGER,
median_age REAL,
male_median_age REAL,
female_median_age REAL,
residential_mailboxes INTEGER,
business_mailboxes INTEGER,
total_delivery_receptacles INTEGER,
businesses INTEGER,
"1st_quarter_payroll" INTEGER,
annual_payroll INTEGER,
employees INTEGER,
water_area REAL,
land_area REAL,
single_family_delivery_units INTEGER,
multi_family_delivery_units INTEGER,
total_beneficiaries INTEGER,
retired_workers INTEGER,
disabled_workers INTEGER,
parents_and_widowed INTEGER,
spouses INTEGER,
children INTEGER,
over_65 INTEGER,
monthly_benefits_all INTEGER,
monthly_benefits_retired_workers INTEGER,
monthly_benefits_widowed INTEGER,
CBSA INTEGER,
foreign key (state) references state(abbreviation),
foreign key (CBSA) references CBSA(CBSA)
);
CREATE TABLE alias
(
zip_code INTEGER
primary key,
alias TEXT,
foreign key (zip_code) references zip_data(zip_code)
);
CREATE TABLE area_code
(
zip_code INTEGER,
area_code INTEGER,
primary key (zip_code, area_code),
foreign key (zip_code) references zip_data(zip_code)
);
CREATE TABLE avoid
(
zip_code INTEGER,
bad_alias TEXT,
primary key (zip_code, bad_alias),
foreign key (zip_code) references zip_data(zip_code)
);
CREATE TABLE country
(
zip_code INTEGER,
county TEXT,
state TEXT,
primary key (zip_code, county),
foreign key (zip_code) references zip_data(zip_code),
foreign key (state) references state(abbreviation)
);
CREATE TABLE zip_congress
(
zip_code INTEGER,
district TEXT,
primary key (zip_code, district),
foreign key (district) references congress(cognress_rep_id),
foreign key (zip_code) references zip_data(zip_code)
);
|
|
car_retails | Determine the email and Code of employee who are working at United State, state CA | United States of America refers to country = 'USA'; code of employee refers to employeeNumber; | SELECT T1.email, T1.employeeNumber FROM employees AS T1 INNER JOIN offices AS T2 ON T1.officeCode = T2.officeCode WHERE T2.country = 'USA' AND T2.state = 'CA' GROUP BY T1.email, T1.officeCode | CREATE TABLE offices
(
officeCode TEXT not null
primary key,
city TEXT not null,
phone TEXT not null,
addressLine1 TEXT not null,
addressLine2 TEXT,
state TEXT,
country TEXT not null,
postalCode TEXT not null,
territory TEXT not null
);
CREATE TABLE employees
(
employeeNumber INTEGER not null
primary key,
lastName TEXT not null,
firstName TEXT not null,
extension TEXT not null,
email TEXT not null,
officeCode TEXT not null,
reportsTo INTEGER,
jobTitle TEXT not null,
foreign key (officeCode) references offices(officeCode),
foreign key (reportsTo) references employees(employeeNumber)
);
CREATE TABLE customers
(
customerNumber INTEGER not null
primary key,
customerName TEXT not null,
contactLastName TEXT not null,
contactFirstName TEXT not null,
phone TEXT not null,
addressLine1 TEXT not null,
addressLine2 TEXT,
city TEXT not null,
state TEXT,
postalCode TEXT,
country TEXT not null,
salesRepEmployeeNumber INTEGER,
creditLimit REAL,
foreign key (salesRepEmployeeNumber) references employees(employeeNumber)
);
CREATE TABLE orders
(
orderNumber INTEGER not null
primary key,
orderDate DATE not null,
requiredDate DATE not null,
shippedDate DATE,
status TEXT not null,
comments TEXT,
customerNumber INTEGER not null,
foreign key (customerNumber) references customers(customerNumber)
);
CREATE TABLE payments
(
customerNumber INTEGER not null,
checkNumber TEXT not null,
paymentDate DATE not null,
amount REAL not null,
primary key (customerNumber, checkNumber),
foreign key (customerNumber) references customers(customerNumber)
);
CREATE TABLE productlines
(
productLine TEXT not null
primary key,
textDescription TEXT,
htmlDescription TEXT,
image BLOB
);
CREATE TABLE products
(
productCode TEXT not null
primary key,
productName TEXT not null,
productLine TEXT not null,
productScale TEXT not null,
productVendor TEXT not null,
productDescription TEXT not null,
quantityInStock INTEGER not null,
buyPrice REAL not null,
MSRP REAL not null,
foreign key (productLine) references productlines(productLine)
);
CREATE TABLE IF NOT EXISTS "orderdetails"
(
orderNumber INTEGER not null
references orders,
productCode TEXT not null
references products,
quantityOrdered INTEGER not null,
priceEach REAL not null,
orderLineNumber INTEGER not null,
primary key (orderNumber, productCode)
);
|
synthea | How many patients have the most prevalent conditions? | the most prevalent conditions refer to MAX(PREVALENCE RATE); | SELECT COUNT(DISTINCT T2.patient) FROM all_prevalences AS T1 INNER JOIN conditions AS T2 ON lower(T1.ITEM) = lower(T2.DESCRIPTION) ORDER BY T1."PREVALENCE RATE" DESC LIMIT 1 | CREATE TABLE all_prevalences
(
ITEM TEXT
primary key,
"POPULATION TYPE" TEXT,
OCCURRENCES INTEGER,
"POPULATION COUNT" INTEGER,
"PREVALENCE RATE" REAL,
"PREVALENCE PERCENTAGE" REAL
);
CREATE TABLE patients
(
patient TEXT
primary key,
birthdate DATE,
deathdate DATE,
ssn TEXT,
drivers TEXT,
passport TEXT,
prefix TEXT,
first TEXT,
last TEXT,
suffix TEXT,
maiden TEXT,
marital TEXT,
race TEXT,
ethnicity TEXT,
gender TEXT,
birthplace TEXT,
address TEXT
);
CREATE TABLE encounters
(
ID TEXT
primary key,
DATE DATE,
PATIENT TEXT,
CODE INTEGER,
DESCRIPTION TEXT,
REASONCODE INTEGER,
REASONDESCRIPTION TEXT,
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE allergies
(
START TEXT,
STOP TEXT,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE INTEGER,
DESCRIPTION TEXT,
primary key (PATIENT, ENCOUNTER, CODE),
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE careplans
(
ID TEXT,
START DATE,
STOP DATE,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE REAL,
DESCRIPTION TEXT,
REASONCODE INTEGER,
REASONDESCRIPTION TEXT,
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE conditions
(
START DATE,
STOP DATE,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE INTEGER,
DESCRIPTION TEXT,
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient),
foreign key (DESCRIPTION) references all_prevalences(ITEM)
);
CREATE TABLE immunizations
(
DATE DATE,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE INTEGER,
DESCRIPTION TEXT,
primary key (DATE, PATIENT, ENCOUNTER, CODE),
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE medications
(
START DATE,
STOP DATE,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE INTEGER,
DESCRIPTION TEXT,
REASONCODE INTEGER,
REASONDESCRIPTION TEXT,
primary key (START, PATIENT, ENCOUNTER, CODE),
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE observations
(
DATE DATE,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE TEXT,
DESCRIPTION TEXT,
VALUE REAL,
UNITS TEXT,
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE procedures
(
DATE DATE,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE INTEGER,
DESCRIPTION TEXT,
REASONCODE INTEGER,
REASONDESCRIPTION TEXT,
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE IF NOT EXISTS "claims"
(
ID TEXT
primary key,
PATIENT TEXT
references patients,
BILLABLEPERIOD DATE,
ORGANIZATION TEXT,
ENCOUNTER TEXT
references encounters,
DIAGNOSIS TEXT,
TOTAL INTEGER
);
|
car_retails | What is the total value of cancelled orders? | total value = SUM(MULTIPLY(quantityOrdered, priceEach)); cancelled orders refers to status = 'Cancelled'; | SELECT SUM(T1.quantityOrdered * T1.priceEach) FROM orderdetails AS T1 INNER JOIN orders AS T2 ON T1.orderNumber = T2.orderNumber WHERE T2.status = 'Cancelled' | CREATE TABLE offices
(
officeCode TEXT not null
primary key,
city TEXT not null,
phone TEXT not null,
addressLine1 TEXT not null,
addressLine2 TEXT,
state TEXT,
country TEXT not null,
postalCode TEXT not null,
territory TEXT not null
);
CREATE TABLE employees
(
employeeNumber INTEGER not null
primary key,
lastName TEXT not null,
firstName TEXT not null,
extension TEXT not null,
email TEXT not null,
officeCode TEXT not null,
reportsTo INTEGER,
jobTitle TEXT not null,
foreign key (officeCode) references offices(officeCode),
foreign key (reportsTo) references employees(employeeNumber)
);
CREATE TABLE customers
(
customerNumber INTEGER not null
primary key,
customerName TEXT not null,
contactLastName TEXT not null,
contactFirstName TEXT not null,
phone TEXT not null,
addressLine1 TEXT not null,
addressLine2 TEXT,
city TEXT not null,
state TEXT,
postalCode TEXT,
country TEXT not null,
salesRepEmployeeNumber INTEGER,
creditLimit REAL,
foreign key (salesRepEmployeeNumber) references employees(employeeNumber)
);
CREATE TABLE orders
(
orderNumber INTEGER not null
primary key,
orderDate DATE not null,
requiredDate DATE not null,
shippedDate DATE,
status TEXT not null,
comments TEXT,
customerNumber INTEGER not null,
foreign key (customerNumber) references customers(customerNumber)
);
CREATE TABLE payments
(
customerNumber INTEGER not null,
checkNumber TEXT not null,
paymentDate DATE not null,
amount REAL not null,
primary key (customerNumber, checkNumber),
foreign key (customerNumber) references customers(customerNumber)
);
CREATE TABLE productlines
(
productLine TEXT not null
primary key,
textDescription TEXT,
htmlDescription TEXT,
image BLOB
);
CREATE TABLE products
(
productCode TEXT not null
primary key,
productName TEXT not null,
productLine TEXT not null,
productScale TEXT not null,
productVendor TEXT not null,
productDescription TEXT not null,
quantityInStock INTEGER not null,
buyPrice REAL not null,
MSRP REAL not null,
foreign key (productLine) references productlines(productLine)
);
CREATE TABLE IF NOT EXISTS "orderdetails"
(
orderNumber INTEGER not null
references orders,
productCode TEXT not null
references products,
quantityOrdered INTEGER not null,
priceEach REAL not null,
orderLineNumber INTEGER not null,
primary key (orderNumber, productCode)
);
|
mondial_geo | In which lake flows the river that is, in turn, the mouth of the Manicouagan River? | SELECT NAME FROM lake WHERE river = ( SELECT river FROM river WHERE NAME = 'Manicouagan' ) | CREATE TABLE IF NOT EXISTS "borders"
(
Country1 TEXT default '' not null
constraint borders_ibfk_1
references country,
Country2 TEXT default '' not null
constraint borders_ibfk_2
references country,
Length REAL,
primary key (Country1, Country2)
);
CREATE TABLE IF NOT EXISTS "city"
(
Name TEXT default '' not null,
Country TEXT default '' not null
constraint city_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
Population INTEGER,
Longitude REAL,
Latitude REAL,
primary key (Name, Province),
constraint city_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "continent"
(
Name TEXT default '' not null
primary key,
Area REAL
);
CREATE TABLE IF NOT EXISTS "country"
(
Name TEXT not null
constraint ix_county_Name
unique,
Code TEXT default '' not null
primary key,
Capital TEXT,
Province TEXT,
Area REAL,
Population INTEGER
);
CREATE TABLE IF NOT EXISTS "desert"
(
Name TEXT default '' not null
primary key,
Area REAL,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "economy"
(
Country TEXT default '' not null
primary key
constraint economy_ibfk_1
references country
on update cascade on delete cascade,
GDP REAL,
Agriculture REAL,
Service REAL,
Industry REAL,
Inflation REAL
);
CREATE TABLE IF NOT EXISTS "encompasses"
(
Country TEXT not null
constraint encompasses_ibfk_1
references country
on update cascade on delete cascade,
Continent TEXT not null
constraint encompasses_ibfk_2
references continent
on update cascade on delete cascade,
Percentage REAL,
primary key (Country, Continent)
);
CREATE TABLE IF NOT EXISTS "ethnicGroup"
(
Country TEXT default '' not null
constraint ethnicGroup_ibfk_1
references country
on update cascade on delete cascade,
Name TEXT default '' not null,
Percentage REAL,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "geo_desert"
(
Desert TEXT default '' not null
constraint geo_desert_ibfk_3
references desert
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_desert_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Desert),
constraint geo_desert_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_estuary"
(
River TEXT default '' not null
constraint geo_estuary_ibfk_3
references river
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_estuary_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, River),
constraint geo_estuary_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_island"
(
Island TEXT default '' not null
constraint geo_island_ibfk_3
references island
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_island_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Island),
constraint geo_island_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_lake"
(
Lake TEXT default '' not null
constraint geo_lake_ibfk_3
references lake
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_lake_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Lake),
constraint geo_lake_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_mountain"
(
Mountain TEXT default '' not null
constraint geo_mountain_ibfk_3
references mountain
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_mountain_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Mountain),
constraint geo_mountain_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_river"
(
River TEXT default '' not null
constraint geo_river_ibfk_3
references river
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_river_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, River),
constraint geo_river_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_sea"
(
Sea TEXT default '' not null
constraint geo_sea_ibfk_3
references sea
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_sea_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Sea),
constraint geo_sea_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_source"
(
River TEXT default '' not null
constraint geo_source_ibfk_3
references river
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_source_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, River),
constraint geo_source_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "island"
(
Name TEXT default '' not null
primary key,
Islands TEXT,
Area REAL,
Height REAL,
Type TEXT,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "islandIn"
(
Island TEXT
constraint islandIn_ibfk_4
references island
on update cascade on delete cascade,
Sea TEXT
constraint islandIn_ibfk_3
references sea
on update cascade on delete cascade,
Lake TEXT
constraint islandIn_ibfk_1
references lake
on update cascade on delete cascade,
River TEXT
constraint islandIn_ibfk_2
references river
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "isMember"
(
Country TEXT default '' not null
constraint isMember_ibfk_1
references country
on update cascade on delete cascade,
Organization TEXT default '' not null
constraint isMember_ibfk_2
references organization
on update cascade on delete cascade,
Type TEXT default 'member',
primary key (Country, Organization)
);
CREATE TABLE IF NOT EXISTS "lake"
(
Name TEXT default '' not null
primary key,
Area REAL,
Depth REAL,
Altitude REAL,
Type TEXT,
River TEXT,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "language"
(
Country TEXT default '' not null
constraint language_ibfk_1
references country
on update cascade on delete cascade,
Name TEXT default '' not null,
Percentage REAL,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "located"
(
City TEXT,
Province TEXT,
Country TEXT
constraint located_ibfk_1
references country
on update cascade on delete cascade,
River TEXT
constraint located_ibfk_3
references river
on update cascade on delete cascade,
Lake TEXT
constraint located_ibfk_4
references lake
on update cascade on delete cascade,
Sea TEXT
constraint located_ibfk_5
references sea
on update cascade on delete cascade,
constraint located_ibfk_2
foreign key (City, Province) references city
on update cascade on delete cascade,
constraint located_ibfk_6
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "locatedOn"
(
City TEXT default '' not null,
Province TEXT default '' not null,
Country TEXT default '' not null
constraint locatedOn_ibfk_1
references country
on update cascade on delete cascade,
Island TEXT default '' not null
constraint locatedOn_ibfk_2
references island
on update cascade on delete cascade,
primary key (City, Province, Country, Island),
constraint locatedOn_ibfk_3
foreign key (City, Province) references city
on update cascade on delete cascade,
constraint locatedOn_ibfk_4
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "mergesWith"
(
Sea1 TEXT default '' not null
constraint mergesWith_ibfk_1
references sea
on update cascade on delete cascade,
Sea2 TEXT default '' not null
constraint mergesWith_ibfk_2
references sea
on update cascade on delete cascade,
primary key (Sea1, Sea2)
);
CREATE TABLE IF NOT EXISTS "mountain"
(
Name TEXT default '' not null
primary key,
Mountains TEXT,
Height REAL,
Type TEXT,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "mountainOnIsland"
(
Mountain TEXT default '' not null
constraint mountainOnIsland_ibfk_2
references mountain
on update cascade on delete cascade,
Island TEXT default '' not null
constraint mountainOnIsland_ibfk_1
references island
on update cascade on delete cascade,
primary key (Mountain, Island)
);
CREATE TABLE IF NOT EXISTS "organization"
(
Abbreviation TEXT not null
primary key,
Name TEXT not null
constraint ix_organization_OrgNameUnique
unique,
City TEXT,
Country TEXT
constraint organization_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT,
Established DATE,
constraint organization_ibfk_2
foreign key (City, Province) references city
on update cascade on delete cascade,
constraint organization_ibfk_3
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "politics"
(
Country TEXT default '' not null
primary key
constraint politics_ibfk_1
references country
on update cascade on delete cascade,
Independence DATE,
Dependent TEXT
constraint politics_ibfk_2
references country
on update cascade on delete cascade,
Government TEXT
);
CREATE TABLE IF NOT EXISTS "population"
(
Country TEXT default '' not null
primary key
constraint population_ibfk_1
references country
on update cascade on delete cascade,
Population_Growth REAL,
Infant_Mortality REAL
);
CREATE TABLE IF NOT EXISTS "province"
(
Name TEXT not null,
Country TEXT not null
constraint province_ibfk_1
references country
on update cascade on delete cascade,
Population INTEGER,
Area REAL,
Capital TEXT,
CapProv TEXT,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "religion"
(
Country TEXT default '' not null
constraint religion_ibfk_1
references country
on update cascade on delete cascade,
Name TEXT default '' not null,
Percentage REAL,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "river"
(
Name TEXT default '' not null
primary key,
River TEXT,
Lake TEXT
constraint river_ibfk_1
references lake
on update cascade on delete cascade,
Sea TEXT,
Length REAL,
SourceLongitude REAL,
SourceLatitude REAL,
Mountains TEXT,
SourceAltitude REAL,
EstuaryLongitude REAL,
EstuaryLatitude REAL
);
CREATE TABLE IF NOT EXISTS "sea"
(
Name TEXT default '' not null
primary key,
Depth REAL
);
CREATE TABLE IF NOT EXISTS "target"
(
Country TEXT not null
primary key
constraint target_Country_fkey
references country
on update cascade on delete cascade,
Target TEXT
);
|
|
synthea | From 7/9/2010 to 10/29/2013, how many black patients were immunized with the meningococcal MCV4P vaccine? | From 7/9/2010 to 10/29/2013 refers to DATE between '2010-07-09' and '2013-10-29'; black patients refers to race = 'black'; immunized with the meningococcal MCV4P vaccine refers to immunizations.DESCRIPTION = 'meningococcal MCV4P'; | SELECT COUNT(DISTINCT T1.patient) FROM patients AS T1 INNER JOIN immunizations AS T2 ON T1.patient = T2.PATIENT WHERE T2.DESCRIPTION = 'meningococcal MCV4P' AND T2.DATE BETWEEN '2010-07-09' AND '2013-10-29' AND T1.race = 'black' | CREATE TABLE all_prevalences
(
ITEM TEXT
primary key,
"POPULATION TYPE" TEXT,
OCCURRENCES INTEGER,
"POPULATION COUNT" INTEGER,
"PREVALENCE RATE" REAL,
"PREVALENCE PERCENTAGE" REAL
);
CREATE TABLE patients
(
patient TEXT
primary key,
birthdate DATE,
deathdate DATE,
ssn TEXT,
drivers TEXT,
passport TEXT,
prefix TEXT,
first TEXT,
last TEXT,
suffix TEXT,
maiden TEXT,
marital TEXT,
race TEXT,
ethnicity TEXT,
gender TEXT,
birthplace TEXT,
address TEXT
);
CREATE TABLE encounters
(
ID TEXT
primary key,
DATE DATE,
PATIENT TEXT,
CODE INTEGER,
DESCRIPTION TEXT,
REASONCODE INTEGER,
REASONDESCRIPTION TEXT,
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE allergies
(
START TEXT,
STOP TEXT,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE INTEGER,
DESCRIPTION TEXT,
primary key (PATIENT, ENCOUNTER, CODE),
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE careplans
(
ID TEXT,
START DATE,
STOP DATE,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE REAL,
DESCRIPTION TEXT,
REASONCODE INTEGER,
REASONDESCRIPTION TEXT,
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE conditions
(
START DATE,
STOP DATE,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE INTEGER,
DESCRIPTION TEXT,
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient),
foreign key (DESCRIPTION) references all_prevalences(ITEM)
);
CREATE TABLE immunizations
(
DATE DATE,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE INTEGER,
DESCRIPTION TEXT,
primary key (DATE, PATIENT, ENCOUNTER, CODE),
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE medications
(
START DATE,
STOP DATE,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE INTEGER,
DESCRIPTION TEXT,
REASONCODE INTEGER,
REASONDESCRIPTION TEXT,
primary key (START, PATIENT, ENCOUNTER, CODE),
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE observations
(
DATE DATE,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE TEXT,
DESCRIPTION TEXT,
VALUE REAL,
UNITS TEXT,
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE procedures
(
DATE DATE,
PATIENT TEXT,
ENCOUNTER TEXT,
CODE INTEGER,
DESCRIPTION TEXT,
REASONCODE INTEGER,
REASONDESCRIPTION TEXT,
foreign key (ENCOUNTER) references encounters(ID),
foreign key (PATIENT) references patients(patient)
);
CREATE TABLE IF NOT EXISTS "claims"
(
ID TEXT
primary key,
PATIENT TEXT
references patients,
BILLABLEPERIOD DATE,
ORGANIZATION TEXT,
ENCOUNTER TEXT
references encounters,
DIAGNOSIS TEXT,
TOTAL INTEGER
);
|
music_platform_2 | What is the percentage of reviews added each year of the total reviews added? | review added each year refers to runs_at like '2021%' and runs_at like '2022%'; percentage for 2021 = Divide (Sum(reviews_added(runs_at like '2021%)), Sum(reviews_added)) * 100; percentage of 2022 = Divide (Sum(reviews_added(runs_at like '2022%')), Sum(reviews_added)) * 100 | SELECT CAST((SUM(CASE WHEN run_at LIKE '2022-%' THEN reviews_added ELSE 0 END) - SUM(CASE WHEN run_at LIKE '2021-%' THEN reviews_added ELSE 0 END)) AS REAL) * 100 / SUM(reviews_added) OR '%' "percentage" FROM runs | CREATE TABLE runs (
run_at text not null,
max_rowid integer not null,
reviews_added integer not null
);
CREATE TABLE podcasts (
podcast_id text primary key,
itunes_id integer not null,
slug text not null,
itunes_url text not null,
title text not null
);
CREATE TABLE IF NOT EXISTS "reviews"
(
podcast_id TEXT not null
constraint reviews_podcasts_podcast_id_fk
references podcasts,
title TEXT not null,
content TEXT not null,
rating INTEGER not null,
author_id TEXT not null,
created_at TEXT not null
);
CREATE TABLE IF NOT EXISTS "categories"
(
podcast_id TEXT not null
constraint categories_podcasts_podcast_id_fk
references podcasts,
category TEXT not null,
constraint "PRIMARY"
primary key (podcast_id, category)
);
CREATE INDEX category_podcast_id_idx
on categories (podcast_id);
|
authors | Please list the titles of the papers published in the journal "Concepts in Magnetic Resonance Part A" in 2008. | journal "Concepts in Magnetic Resonance Part A" refers to FullName = 'Concepts in Magnetic Resonance Part A'; in 2018 refers to Year = 2018 | SELECT T2.Title FROM Journal AS T1 INNER JOIN Paper AS T2 ON T1.Id = T2.JournalId WHERE T1.FullName = 'Concepts in Magnetic Resonance Part A' AND T2.Year = 2008 | CREATE TABLE IF NOT EXISTS "Author"
(
Id INTEGER
constraint Author_pk
primary key,
Name TEXT,
Affiliation TEXT
);
CREATE TABLE IF NOT EXISTS "Conference"
(
Id INTEGER
constraint Conference_pk
primary key,
ShortName TEXT,
FullName TEXT,
HomePage TEXT
);
CREATE TABLE IF NOT EXISTS "Journal"
(
Id INTEGER
constraint Journal_pk
primary key,
ShortName TEXT,
FullName TEXT,
HomePage TEXT
);
CREATE TABLE Paper
(
Id INTEGER
primary key,
Title TEXT,
Year INTEGER,
ConferenceId INTEGER,
JournalId INTEGER,
Keyword TEXT,
foreign key (ConferenceId) references Conference(Id),
foreign key (JournalId) references Journal(Id)
);
CREATE TABLE PaperAuthor
(
PaperId INTEGER,
AuthorId INTEGER,
Name TEXT,
Affiliation TEXT,
foreign key (PaperId) references Paper(Id),
foreign key (AuthorId) references Author(Id)
);
|
mondial_geo | Among the countries with over 3 organizations, how many of them have an inflation rate of over 5%? | SELECT COUNT(T2.Country) FROM economy AS T1 INNER JOIN organization AS T2 ON T1.Country = T2.Country WHERE T2.Country IN ( SELECT Country FROM organization GROUP BY Country HAVING COUNT(Country) > 3 ) AND T1.Inflation > 5 | CREATE TABLE IF NOT EXISTS "borders"
(
Country1 TEXT default '' not null
constraint borders_ibfk_1
references country,
Country2 TEXT default '' not null
constraint borders_ibfk_2
references country,
Length REAL,
primary key (Country1, Country2)
);
CREATE TABLE IF NOT EXISTS "city"
(
Name TEXT default '' not null,
Country TEXT default '' not null
constraint city_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
Population INTEGER,
Longitude REAL,
Latitude REAL,
primary key (Name, Province),
constraint city_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "continent"
(
Name TEXT default '' not null
primary key,
Area REAL
);
CREATE TABLE IF NOT EXISTS "country"
(
Name TEXT not null
constraint ix_county_Name
unique,
Code TEXT default '' not null
primary key,
Capital TEXT,
Province TEXT,
Area REAL,
Population INTEGER
);
CREATE TABLE IF NOT EXISTS "desert"
(
Name TEXT default '' not null
primary key,
Area REAL,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "economy"
(
Country TEXT default '' not null
primary key
constraint economy_ibfk_1
references country
on update cascade on delete cascade,
GDP REAL,
Agriculture REAL,
Service REAL,
Industry REAL,
Inflation REAL
);
CREATE TABLE IF NOT EXISTS "encompasses"
(
Country TEXT not null
constraint encompasses_ibfk_1
references country
on update cascade on delete cascade,
Continent TEXT not null
constraint encompasses_ibfk_2
references continent
on update cascade on delete cascade,
Percentage REAL,
primary key (Country, Continent)
);
CREATE TABLE IF NOT EXISTS "ethnicGroup"
(
Country TEXT default '' not null
constraint ethnicGroup_ibfk_1
references country
on update cascade on delete cascade,
Name TEXT default '' not null,
Percentage REAL,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "geo_desert"
(
Desert TEXT default '' not null
constraint geo_desert_ibfk_3
references desert
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_desert_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Desert),
constraint geo_desert_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_estuary"
(
River TEXT default '' not null
constraint geo_estuary_ibfk_3
references river
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_estuary_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, River),
constraint geo_estuary_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_island"
(
Island TEXT default '' not null
constraint geo_island_ibfk_3
references island
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_island_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Island),
constraint geo_island_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_lake"
(
Lake TEXT default '' not null
constraint geo_lake_ibfk_3
references lake
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_lake_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Lake),
constraint geo_lake_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_mountain"
(
Mountain TEXT default '' not null
constraint geo_mountain_ibfk_3
references mountain
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_mountain_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Mountain),
constraint geo_mountain_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_river"
(
River TEXT default '' not null
constraint geo_river_ibfk_3
references river
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_river_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, River),
constraint geo_river_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_sea"
(
Sea TEXT default '' not null
constraint geo_sea_ibfk_3
references sea
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_sea_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, Sea),
constraint geo_sea_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "geo_source"
(
River TEXT default '' not null
constraint geo_source_ibfk_3
references river
on update cascade on delete cascade,
Country TEXT default '' not null
constraint geo_source_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT default '' not null,
primary key (Province, Country, River),
constraint geo_source_ibfk_2
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "island"
(
Name TEXT default '' not null
primary key,
Islands TEXT,
Area REAL,
Height REAL,
Type TEXT,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "islandIn"
(
Island TEXT
constraint islandIn_ibfk_4
references island
on update cascade on delete cascade,
Sea TEXT
constraint islandIn_ibfk_3
references sea
on update cascade on delete cascade,
Lake TEXT
constraint islandIn_ibfk_1
references lake
on update cascade on delete cascade,
River TEXT
constraint islandIn_ibfk_2
references river
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "isMember"
(
Country TEXT default '' not null
constraint isMember_ibfk_1
references country
on update cascade on delete cascade,
Organization TEXT default '' not null
constraint isMember_ibfk_2
references organization
on update cascade on delete cascade,
Type TEXT default 'member',
primary key (Country, Organization)
);
CREATE TABLE IF NOT EXISTS "lake"
(
Name TEXT default '' not null
primary key,
Area REAL,
Depth REAL,
Altitude REAL,
Type TEXT,
River TEXT,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "language"
(
Country TEXT default '' not null
constraint language_ibfk_1
references country
on update cascade on delete cascade,
Name TEXT default '' not null,
Percentage REAL,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "located"
(
City TEXT,
Province TEXT,
Country TEXT
constraint located_ibfk_1
references country
on update cascade on delete cascade,
River TEXT
constraint located_ibfk_3
references river
on update cascade on delete cascade,
Lake TEXT
constraint located_ibfk_4
references lake
on update cascade on delete cascade,
Sea TEXT
constraint located_ibfk_5
references sea
on update cascade on delete cascade,
constraint located_ibfk_2
foreign key (City, Province) references city
on update cascade on delete cascade,
constraint located_ibfk_6
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "locatedOn"
(
City TEXT default '' not null,
Province TEXT default '' not null,
Country TEXT default '' not null
constraint locatedOn_ibfk_1
references country
on update cascade on delete cascade,
Island TEXT default '' not null
constraint locatedOn_ibfk_2
references island
on update cascade on delete cascade,
primary key (City, Province, Country, Island),
constraint locatedOn_ibfk_3
foreign key (City, Province) references city
on update cascade on delete cascade,
constraint locatedOn_ibfk_4
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "mergesWith"
(
Sea1 TEXT default '' not null
constraint mergesWith_ibfk_1
references sea
on update cascade on delete cascade,
Sea2 TEXT default '' not null
constraint mergesWith_ibfk_2
references sea
on update cascade on delete cascade,
primary key (Sea1, Sea2)
);
CREATE TABLE IF NOT EXISTS "mountain"
(
Name TEXT default '' not null
primary key,
Mountains TEXT,
Height REAL,
Type TEXT,
Longitude REAL,
Latitude REAL
);
CREATE TABLE IF NOT EXISTS "mountainOnIsland"
(
Mountain TEXT default '' not null
constraint mountainOnIsland_ibfk_2
references mountain
on update cascade on delete cascade,
Island TEXT default '' not null
constraint mountainOnIsland_ibfk_1
references island
on update cascade on delete cascade,
primary key (Mountain, Island)
);
CREATE TABLE IF NOT EXISTS "organization"
(
Abbreviation TEXT not null
primary key,
Name TEXT not null
constraint ix_organization_OrgNameUnique
unique,
City TEXT,
Country TEXT
constraint organization_ibfk_1
references country
on update cascade on delete cascade,
Province TEXT,
Established DATE,
constraint organization_ibfk_2
foreign key (City, Province) references city
on update cascade on delete cascade,
constraint organization_ibfk_3
foreign key (Province, Country) references province
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "politics"
(
Country TEXT default '' not null
primary key
constraint politics_ibfk_1
references country
on update cascade on delete cascade,
Independence DATE,
Dependent TEXT
constraint politics_ibfk_2
references country
on update cascade on delete cascade,
Government TEXT
);
CREATE TABLE IF NOT EXISTS "population"
(
Country TEXT default '' not null
primary key
constraint population_ibfk_1
references country
on update cascade on delete cascade,
Population_Growth REAL,
Infant_Mortality REAL
);
CREATE TABLE IF NOT EXISTS "province"
(
Name TEXT not null,
Country TEXT not null
constraint province_ibfk_1
references country
on update cascade on delete cascade,
Population INTEGER,
Area REAL,
Capital TEXT,
CapProv TEXT,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "religion"
(
Country TEXT default '' not null
constraint religion_ibfk_1
references country
on update cascade on delete cascade,
Name TEXT default '' not null,
Percentage REAL,
primary key (Name, Country)
);
CREATE TABLE IF NOT EXISTS "river"
(
Name TEXT default '' not null
primary key,
River TEXT,
Lake TEXT
constraint river_ibfk_1
references lake
on update cascade on delete cascade,
Sea TEXT,
Length REAL,
SourceLongitude REAL,
SourceLatitude REAL,
Mountains TEXT,
SourceAltitude REAL,
EstuaryLongitude REAL,
EstuaryLatitude REAL
);
CREATE TABLE IF NOT EXISTS "sea"
(
Name TEXT default '' not null
primary key,
Depth REAL
);
CREATE TABLE IF NOT EXISTS "target"
(
Country TEXT not null
primary key
constraint target_Country_fkey
references country
on update cascade on delete cascade,
Target TEXT
);
|
|
superstore | What is the percentage of furniture orders that were shipped through first class in 2013 at the Central superstore? | furniture refers to Category = 'Furniture'; shipped through first class in 2013 refers to ship mode = 'first class' and "Ship Date" = '2013%'; percentage = divide(sum(Order ID) when Category = 'Furniture' and "Ship Date" = '2013%', sum(Order ID)) as percentage | SELECT CAST(SUM(CASE WHEN T1.`Ship Mode` = 'First Class' THEN 1 ELSE 0 END) AS REAL) * 100 / COUNT(*) FROM central_superstore AS T1 INNER JOIN product AS T2 ON T1.`Product ID` = T2.`Product ID` WHERE T2.Category = 'Furniture' AND STRFTIME('%Y', T1.`Ship Date`) = '2013' | CREATE TABLE people
(
"Customer ID" TEXT,
"Customer Name" TEXT,
Segment TEXT,
Country TEXT,
City TEXT,
State TEXT,
"Postal Code" INTEGER,
Region TEXT,
primary key ("Customer ID", Region)
);
CREATE TABLE product
(
"Product ID" TEXT,
"Product Name" TEXT,
Category TEXT,
"Sub-Category" TEXT,
Region TEXT,
primary key ("Product ID", Region)
);
CREATE TABLE central_superstore
(
"Row ID" INTEGER
primary key,
"Order ID" TEXT,
"Order Date" DATE,
"Ship Date" DATE,
"Ship Mode" TEXT,
"Customer ID" TEXT,
Region TEXT,
"Product ID" TEXT,
Sales REAL,
Quantity INTEGER,
Discount REAL,
Profit REAL,
foreign key ("Customer ID", Region) references people("Customer ID",Region),
foreign key ("Product ID", Region) references product("Product ID",Region)
);
CREATE TABLE east_superstore
(
"Row ID" INTEGER
primary key,
"Order ID" TEXT,
"Order Date" DATE,
"Ship Date" DATE,
"Ship Mode" TEXT,
"Customer ID" TEXT,
Region TEXT,
"Product ID" TEXT,
Sales REAL,
Quantity INTEGER,
Discount REAL,
Profit REAL,
foreign key ("Customer ID", Region) references people("Customer ID",Region),
foreign key ("Product ID", Region) references product("Product ID",Region)
);
CREATE TABLE south_superstore
(
"Row ID" INTEGER
primary key,
"Order ID" TEXT,
"Order Date" DATE,
"Ship Date" DATE,
"Ship Mode" TEXT,
"Customer ID" TEXT,
Region TEXT,
"Product ID" TEXT,
Sales REAL,
Quantity INTEGER,
Discount REAL,
Profit REAL,
foreign key ("Customer ID", Region) references people("Customer ID",Region),
foreign key ("Product ID", Region) references product("Product ID",Region)
);
CREATE TABLE west_superstore
(
"Row ID" INTEGER
primary key,
"Order ID" TEXT,
"Order Date" DATE,
"Ship Date" DATE,
"Ship Mode" TEXT,
"Customer ID" TEXT,
Region TEXT,
"Product ID" TEXT,
Sales REAL,
Quantity INTEGER,
Discount REAL,
Profit REAL,
foreign key ("Customer ID", Region) references people("Customer ID",Region),
foreign key ("Product ID", Region) references product("Product ID",Region)
);
|
shipping | Determine the number of shipments delivered by Andrea Simons to Huntsville in 2016. | "Huntsville" is the city_name; in 2016 refers to Cast(ship_date AS DATE) = 2016; number of shipment refers to Count(ship_id) | SELECT COUNT(*) FROM shipment AS T1 INNER JOIN city AS T2 ON T1.city_id = T2.city_id INNER JOIN driver AS T3 ON T3.driver_id = T1.driver_id WHERE T3.first_name = 'Andrea' AND T3.last_name = 'Simons' AND T2.city_name = 'Huntsville' AND STRFTIME('%Y', T1.ship_date) = '2016' | CREATE TABLE city
(
city_id INTEGER
primary key,
city_name TEXT,
state TEXT,
population INTEGER,
area REAL
);
CREATE TABLE customer
(
cust_id INTEGER
primary key,
cust_name TEXT,
annual_revenue INTEGER,
cust_type TEXT,
address TEXT,
city TEXT,
state TEXT,
zip REAL,
phone TEXT
);
CREATE TABLE driver
(
driver_id INTEGER
primary key,
first_name TEXT,
last_name TEXT,
address TEXT,
city TEXT,
state TEXT,
zip_code INTEGER,
phone TEXT
);
CREATE TABLE truck
(
truck_id INTEGER
primary key,
make TEXT,
model_year INTEGER
);
CREATE TABLE shipment
(
ship_id INTEGER
primary key,
cust_id INTEGER,
weight REAL,
truck_id INTEGER,
driver_id INTEGER,
city_id INTEGER,
ship_date TEXT,
foreign key (cust_id) references customer(cust_id),
foreign key (city_id) references city(city_id),
foreign key (driver_id) references driver(driver_id),
foreign key (truck_id) references truck(truck_id)
);
|
restaurant | List down the restaurant ID of restaurants located in Sunnyvale. | Sunnyvale refers to city = 'sunnyvale' | SELECT id_restaurant FROM location WHERE city = 'sunnyvale' | CREATE TABLE geographic
(
city TEXT not null
primary key,
county TEXT null,
region TEXT null
);
CREATE TABLE generalinfo
(
id_restaurant INTEGER not null
primary key,
label TEXT null,
food_type TEXT null,
city TEXT null,
review REAL null,
foreign key (city) references geographic(city)
on update cascade on delete cascade
);
CREATE TABLE location
(
id_restaurant INTEGER not null
primary key,
street_num INTEGER null,
street_name TEXT null,
city TEXT null,
foreign key (city) references geographic (city)
on update cascade on delete cascade,
foreign key (id_restaurant) references generalinfo (id_restaurant)
on update cascade on delete cascade
);
|
retails | Please give the name of the customer who has made the single order with the highest total price. | name of the customer refers to c_name; single order with the highest total price refers to MAX(o_totalprice) LIMIT 1; | SELECT T2.c_name FROM orders AS T1 INNER JOIN customer AS T2 ON T1.o_custkey = T2.c_custkey ORDER BY T1.o_totalprice DESC LIMIT 1 | CREATE TABLE `customer` (
`c_custkey` INTEGER NOT NULL,
`c_mktsegment` TEXT DEFAULT NULL,
`c_nationkey` INTEGER DEFAULT NULL,
`c_name` TEXT DEFAULT NULL,
`c_address` TEXT DEFAULT NULL,
`c_phone` TEXT DEFAULT NULL,
`c_acctbal` REAL DEFAULT NULL,
`c_comment` TEXT DEFAULT NULL,
PRIMARY KEY (`c_custkey`),
FOREIGN KEY (`c_nationkey`) REFERENCES `nation` (`n_nationkey`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE lineitem
(
l_shipdate DATE null,
l_orderkey INTEGER not null,
l_discount REAL not null,
l_extendedprice REAL not null,
l_suppkey INTEGER not null,
l_quantity INTEGER not null,
l_returnflag TEXT null,
l_partkey INTEGER not null,
l_linestatus TEXT null,
l_tax REAL not null,
l_commitdate DATE null,
l_receiptdate DATE null,
l_shipmode TEXT null,
l_linenumber INTEGER not null,
l_shipinstruct TEXT null,
l_comment TEXT null,
primary key (l_orderkey, l_linenumber),
foreign key (l_orderkey) references orders (o_orderkey)
on update cascade on delete cascade,
foreign key (l_partkey, l_suppkey) references partsupp (ps_partkey, ps_suppkey)
on update cascade on delete cascade
);
CREATE TABLE nation
(
n_nationkey INTEGER not null
primary key,
n_name TEXT null,
n_regionkey INTEGER null,
n_comment TEXT null,
foreign key (n_regionkey) references region (r_regionkey)
on update cascade on delete cascade
);
CREATE TABLE orders
(
o_orderdate DATE null,
o_orderkey INTEGER not null
primary key,
o_custkey INTEGER not null,
o_orderpriority TEXT null,
o_shippriority INTEGER null,
o_clerk TEXT null,
o_orderstatus TEXT null,
o_totalprice REAL null,
o_comment TEXT null,
foreign key (o_custkey) references customer (c_custkey)
on update cascade on delete cascade
);
CREATE TABLE part
(
p_partkey INTEGER not null
primary key,
p_type TEXT null,
p_size INTEGER null,
p_brand TEXT null,
p_name TEXT null,
p_container TEXT null,
p_mfgr TEXT null,
p_retailprice REAL null,
p_comment TEXT null
);
CREATE TABLE partsupp
(
ps_partkey INTEGER not null,
ps_suppkey INTEGER not null,
ps_supplycost REAL not null,
ps_availqty INTEGER null,
ps_comment TEXT null,
primary key (ps_partkey, ps_suppkey),
foreign key (ps_partkey) references part (p_partkey)
on update cascade on delete cascade,
foreign key (ps_suppkey) references supplier (s_suppkey)
on update cascade on delete cascade
);
CREATE TABLE region
(
r_regionkey INTEGER not null
primary key,
r_name TEXT null,
r_comment TEXT null
);
CREATE TABLE supplier
(
s_suppkey INTEGER not null
primary key,
s_nationkey INTEGER null,
s_comment TEXT null,
s_name TEXT null,
s_address TEXT null,
s_phone TEXT null,
s_acctbal REAL null,
foreign key (s_nationkey) references nation (n_nationkey)
);
|
movielens | How many of the movies rated 5 are rated by a user between the ages of 25 and 35? | SELECT COUNT(T1.movieid) FROM u2base AS T1 INNER JOIN users AS T2 ON T1.userid = T2.userid WHERE T1.rating = 5 AND T2.age BETWEEN 25 AND 35 | CREATE TABLE users
(
userid INTEGER default 0 not null
primary key,
age TEXT not null,
u_gender TEXT not null,
occupation TEXT not null
);
CREATE TABLE IF NOT EXISTS "directors"
(
directorid INTEGER not null
primary key,
d_quality INTEGER not null,
avg_revenue INTEGER not null
);
CREATE INDEX avg_revenue
on directors (avg_revenue);
CREATE INDEX d_quality
on directors (d_quality);
CREATE TABLE IF NOT EXISTS "actors"
(
actorid INTEGER not null
primary key,
a_gender TEXT not null,
a_quality INTEGER not null
);
CREATE TABLE IF NOT EXISTS "movies"
(
movieid INTEGER default 0 not null
primary key,
year INTEGER not null,
isEnglish TEXT not null,
country TEXT not null,
runningtime INTEGER not null
);
CREATE TABLE IF NOT EXISTS "movies2actors"
(
movieid INTEGER not null
references movies
on update cascade on delete cascade,
actorid INTEGER not null
references actors
on update cascade on delete cascade,
cast_num INTEGER not null,
primary key (movieid, actorid)
);
CREATE TABLE IF NOT EXISTS "movies2directors"
(
movieid INTEGER not null
references movies
on update cascade on delete cascade,
directorid INTEGER not null
references directors
on update cascade on delete cascade,
genre TEXT not null,
primary key (movieid, directorid)
);
CREATE TABLE IF NOT EXISTS "u2base"
(
userid INTEGER default 0 not null
references users
on update cascade on delete cascade,
movieid INTEGER not null
references movies
on update cascade on delete cascade,
rating TEXT not null,
primary key (userid, movieid)
);
|
|
olympics | What is the NOC code of the region of the competitors weighted 77 kg? | NOC code refers to noc; competitors weighted 77 kg refer to person_id where weight = 77; | SELECT T1.noc FROM noc_region AS T1 INNER JOIN person_region AS T2 ON T1.id = T2.region_id INNER JOIN person AS T3 ON T2.person_id = T3.id WHERE T3.weight = 77 | CREATE TABLE city
(
id INTEGER not null
primary key,
city_name TEXT default NULL
);
CREATE TABLE games
(
id INTEGER not null
primary key,
games_year INTEGER default NULL,
games_name TEXT default NULL,
season TEXT default NULL
);
CREATE TABLE games_city
(
games_id INTEGER default NULL,
city_id INTEGER default NULL,
foreign key (city_id) references city(id),
foreign key (games_id) references games(id)
);
CREATE TABLE medal
(
id INTEGER not null
primary key,
medal_name TEXT default NULL
);
CREATE TABLE noc_region
(
id INTEGER not null
primary key,
noc TEXT default NULL,
region_name TEXT default NULL
);
CREATE TABLE person
(
id INTEGER not null
primary key,
full_name TEXT default NULL,
gender TEXT default NULL,
height INTEGER default NULL,
weight INTEGER default NULL
);
CREATE TABLE games_competitor
(
id INTEGER not null
primary key,
games_id INTEGER default NULL,
person_id INTEGER default NULL,
age INTEGER default NULL,
foreign key (games_id) references games(id),
foreign key (person_id) references person(id)
);
CREATE TABLE person_region
(
person_id INTEGER default NULL,
region_id INTEGER default NULL,
foreign key (person_id) references person(id),
foreign key (region_id) references noc_region(id)
);
CREATE TABLE sport
(
id INTEGER not null
primary key,
sport_name TEXT default NULL
);
CREATE TABLE event
(
id INTEGER not null
primary key,
sport_id INTEGER default NULL,
event_name TEXT default NULL,
foreign key (sport_id) references sport(id)
);
CREATE TABLE competitor_event
(
event_id INTEGER default NULL,
competitor_id INTEGER default NULL,
medal_id INTEGER default NULL,
foreign key (competitor_id) references games_competitor(id),
foreign key (event_id) references event(id),
foreign key (medal_id) references medal(id)
);
|
european_football_1 | How many teams playing in divisions in Greece have ever scored 4 or more goals? | teams include both HomeTeam and AwayTeam; country = 'Greece'; scored 4 or more goals refer to FTAG≥4, which is short name for Final-time Away-team Goals; | SELECT COUNT(DISTINCT CASE WHEN T1.FTHG >= 4 THEN HomeTeam ELSE NULL end) + COUNT(DISTINCT CASE WHEN T1.FTAG >= 4 THEN AwayTeam ELSE NULL end) FROM matchs AS T1 INNER JOIN divisions AS T2 ON T1.Div = T2.division WHERE T2.country = 'Greece' | CREATE TABLE divisions
(
division TEXT not null
primary key,
name TEXT,
country TEXT
);
CREATE TABLE matchs
(
Div TEXT,
Date DATE,
HomeTeam TEXT,
AwayTeam TEXT,
FTHG INTEGER,
FTAG INTEGER,
FTR TEXT,
season INTEGER,
foreign key (Div) references divisions(division)
);
|
retails | What proportion of suppliers are from Asia? | Asia refers to r_name = 'ASIA'; proportion = divide(count(s_name where r_name = 'ASIA'), count(s_name)) * 100% | SELECT CAST(SUM(IIF(T1.r_name = 'ASIA', 1, 0)) AS REAL) * 100 / COUNT(T1.r_regionkey) FROM region AS T1 INNER JOIN nation AS T2 ON T1.r_regionkey = T2.n_regionkey INNER JOIN supplier AS T3 ON T2.n_nationkey = T3.s_nationkey | CREATE TABLE `customer` (
`c_custkey` INTEGER NOT NULL,
`c_mktsegment` TEXT DEFAULT NULL,
`c_nationkey` INTEGER DEFAULT NULL,
`c_name` TEXT DEFAULT NULL,
`c_address` TEXT DEFAULT NULL,
`c_phone` TEXT DEFAULT NULL,
`c_acctbal` REAL DEFAULT NULL,
`c_comment` TEXT DEFAULT NULL,
PRIMARY KEY (`c_custkey`),
FOREIGN KEY (`c_nationkey`) REFERENCES `nation` (`n_nationkey`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE lineitem
(
l_shipdate DATE null,
l_orderkey INTEGER not null,
l_discount REAL not null,
l_extendedprice REAL not null,
l_suppkey INTEGER not null,
l_quantity INTEGER not null,
l_returnflag TEXT null,
l_partkey INTEGER not null,
l_linestatus TEXT null,
l_tax REAL not null,
l_commitdate DATE null,
l_receiptdate DATE null,
l_shipmode TEXT null,
l_linenumber INTEGER not null,
l_shipinstruct TEXT null,
l_comment TEXT null,
primary key (l_orderkey, l_linenumber),
foreign key (l_orderkey) references orders (o_orderkey)
on update cascade on delete cascade,
foreign key (l_partkey, l_suppkey) references partsupp (ps_partkey, ps_suppkey)
on update cascade on delete cascade
);
CREATE TABLE nation
(
n_nationkey INTEGER not null
primary key,
n_name TEXT null,
n_regionkey INTEGER null,
n_comment TEXT null,
foreign key (n_regionkey) references region (r_regionkey)
on update cascade on delete cascade
);
CREATE TABLE orders
(
o_orderdate DATE null,
o_orderkey INTEGER not null
primary key,
o_custkey INTEGER not null,
o_orderpriority TEXT null,
o_shippriority INTEGER null,
o_clerk TEXT null,
o_orderstatus TEXT null,
o_totalprice REAL null,
o_comment TEXT null,
foreign key (o_custkey) references customer (c_custkey)
on update cascade on delete cascade
);
CREATE TABLE part
(
p_partkey INTEGER not null
primary key,
p_type TEXT null,
p_size INTEGER null,
p_brand TEXT null,
p_name TEXT null,
p_container TEXT null,
p_mfgr TEXT null,
p_retailprice REAL null,
p_comment TEXT null
);
CREATE TABLE partsupp
(
ps_partkey INTEGER not null,
ps_suppkey INTEGER not null,
ps_supplycost REAL not null,
ps_availqty INTEGER null,
ps_comment TEXT null,
primary key (ps_partkey, ps_suppkey),
foreign key (ps_partkey) references part (p_partkey)
on update cascade on delete cascade,
foreign key (ps_suppkey) references supplier (s_suppkey)
on update cascade on delete cascade
);
CREATE TABLE region
(
r_regionkey INTEGER not null
primary key,
r_name TEXT null,
r_comment TEXT null
);
CREATE TABLE supplier
(
s_suppkey INTEGER not null
primary key,
s_nationkey INTEGER null,
s_comment TEXT null,
s_name TEXT null,
s_address TEXT null,
s_phone TEXT null,
s_acctbal REAL null,
foreign key (s_nationkey) references nation (n_nationkey)
);
|
regional_sales | What is the name of the product with the highest net profit? | highest net profit = Max(Subtract (Unit Price, Unit Cost)); name of product refers to Product Name | SELECT T2.`Product Name` FROM `Sales Orders` AS T1 INNER JOIN Products AS T2 ON T2.ProductID = T1._ProductID ORDER BY REPLACE(T1.`Unit Price`, ',', '') - REPLACE(T1.`Unit Cost`, ',', '') DESC LIMIT 1 | CREATE TABLE Customers
(
CustomerID INTEGER
constraint Customers_pk
primary key,
"Customer Names" TEXT
);
CREATE TABLE Products
(
ProductID INTEGER
constraint Products_pk
primary key,
"Product Name" TEXT
);
CREATE TABLE Regions
(
StateCode TEXT
constraint Regions_pk
primary key,
State TEXT,
Region TEXT
);
CREATE TABLE IF NOT EXISTS "Sales Team"
(
SalesTeamID INTEGER
constraint "Sales Team_pk"
primary key,
"Sales Team" TEXT,
Region TEXT
);
CREATE TABLE IF NOT EXISTS "Store Locations"
(
StoreID INTEGER
constraint "Store Locations_pk"
primary key,
"City Name" TEXT,
County TEXT,
StateCode TEXT
constraint "Store Locations_Regions_StateCode_fk"
references Regions(StateCode),
State TEXT,
Type TEXT,
Latitude REAL,
Longitude REAL,
AreaCode INTEGER,
Population INTEGER,
"Household Income" INTEGER,
"Median Income" INTEGER,
"Land Area" INTEGER,
"Water Area" INTEGER,
"Time Zone" TEXT
);
CREATE TABLE IF NOT EXISTS "Sales Orders"
(
OrderNumber TEXT
constraint "Sales Orders_pk"
primary key,
"Sales Channel" TEXT,
WarehouseCode TEXT,
ProcuredDate TEXT,
OrderDate TEXT,
ShipDate TEXT,
DeliveryDate TEXT,
CurrencyCode TEXT,
_SalesTeamID INTEGER
constraint "Sales Orders_Sales Team_SalesTeamID_fk"
references "Sales Team"(SalesTeamID),
_CustomerID INTEGER
constraint "Sales Orders_Customers_CustomerID_fk"
references Customers(CustomerID),
_StoreID INTEGER
constraint "Sales Orders_Store Locations_StoreID_fk"
references "Store Locations"(StoreID),
_ProductID INTEGER
constraint "Sales Orders_Products_ProductID_fk"
references Products(ProductID),
"Order Quantity" INTEGER,
"Discount Applied" REAL,
"Unit Price" TEXT,
"Unit Cost" TEXT
);
|
student_loan | How many female students are disabled? | females students are disabled refers to name that appeared in both disabled and male tables | SELECT COUNT(name) FROM disabled WHERE name NOT IN ( SELECT name FROM male ) | CREATE TABLE bool
(
"name" TEXT default '' not null
primary key
);
CREATE TABLE person
(
"name" TEXT default '' not null
primary key
);
CREATE TABLE disabled
(
"name" TEXT default '' not null
primary key,
foreign key ("name") references person ("name")
on update cascade on delete cascade
);
CREATE TABLE enlist
(
"name" TEXT not null,
organ TEXT not null,
foreign key ("name") references person ("name")
on update cascade on delete cascade
);
CREATE TABLE filed_for_bankrupcy
(
"name" TEXT default '' not null
primary key,
foreign key ("name") references person ("name")
on update cascade on delete cascade
);
CREATE TABLE longest_absense_from_school
(
"name" TEXT default '' not null
primary key,
"month" INTEGER default 0 null,
foreign key ("name") references person ("name")
on update cascade on delete cascade
);
CREATE TABLE male
(
"name" TEXT default '' not null
primary key,
foreign key ("name") references person ("name")
on update cascade on delete cascade
);
CREATE TABLE no_payment_due
(
"name" TEXT default '' not null
primary key,
bool TEXT null,
foreign key ("name") references person ("name")
on update cascade on delete cascade,
foreign key (bool) references bool ("name")
on update cascade on delete cascade
);
CREATE TABLE unemployed
(
"name" TEXT default '' not null
primary key,
foreign key ("name") references person ("name")
on update cascade on delete cascade
);
CREATE TABLE `enrolled` (
`name` TEXT NOT NULL,
`school` TEXT NOT NULL,
`month` INTEGER NOT NULL DEFAULT 0,
PRIMARY KEY (`name`,`school`),
FOREIGN KEY (`name`) REFERENCES `person` (`name`) ON DELETE CASCADE ON UPDATE CASCADE
);
|
books | Provide the ISBN and price of the book with book ID 7160. | ISBN refers to isbn13; | SELECT T1.isbn13, T2.price FROM book AS T1 INNER JOIN order_line AS T2 ON T1.book_id = T2.book_id WHERE T2.book_id = 6503 | CREATE TABLE address_status
(
status_id INTEGER
primary key,
address_status TEXT
);
CREATE TABLE author
(
author_id INTEGER
primary key,
author_name TEXT
);
CREATE TABLE book_language
(
language_id INTEGER
primary key,
language_code TEXT,
language_name TEXT
);
CREATE TABLE country
(
country_id INTEGER
primary key,
country_name TEXT
);
CREATE TABLE address
(
address_id INTEGER
primary key,
street_number TEXT,
street_name TEXT,
city TEXT,
country_id INTEGER,
foreign key (country_id) references country(country_id)
);
CREATE TABLE customer
(
customer_id INTEGER
primary key,
first_name TEXT,
last_name TEXT,
email TEXT
);
CREATE TABLE customer_address
(
customer_id INTEGER,
address_id INTEGER,
status_id INTEGER,
primary key (customer_id, address_id),
foreign key (address_id) references address(address_id),
foreign key (customer_id) references customer(customer_id)
);
CREATE TABLE order_status
(
status_id INTEGER
primary key,
status_value TEXT
);
CREATE TABLE publisher
(
publisher_id INTEGER
primary key,
publisher_name TEXT
);
CREATE TABLE book
(
book_id INTEGER
primary key,
title TEXT,
isbn13 TEXT,
language_id INTEGER,
num_pages INTEGER,
publication_date DATE,
publisher_id INTEGER,
foreign key (language_id) references book_language(language_id),
foreign key (publisher_id) references publisher(publisher_id)
);
CREATE TABLE book_author
(
book_id INTEGER,
author_id INTEGER,
primary key (book_id, author_id),
foreign key (author_id) references author(author_id),
foreign key (book_id) references book(book_id)
);
CREATE TABLE shipping_method
(
method_id INTEGER
primary key,
method_name TEXT,
cost REAL
);
CREATE TABLE IF NOT EXISTS "cust_order"
(
order_id INTEGER
primary key autoincrement,
order_date DATETIME,
customer_id INTEGER
references customer,
shipping_method_id INTEGER
references shipping_method,
dest_address_id INTEGER
references address
);
CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE IF NOT EXISTS "order_history"
(
history_id INTEGER
primary key autoincrement,
order_id INTEGER
references cust_order,
status_id INTEGER
references order_status,
status_date DATETIME
);
CREATE TABLE IF NOT EXISTS "order_line"
(
line_id INTEGER
primary key autoincrement,
order_id INTEGER
references cust_order,
book_id INTEGER
references book,
price REAL
);
|
genes | Among the pairs of genes that are both located in the nucleus, what is the highest expression correlation score? | SELECT T2.Expression_Corr FROM Genes AS T1 INNER JOIN Interactions AS T2 ON T1.GeneID = T2.GeneID1 INNER JOIN Genes AS T3 ON T3.GeneID = T2.GeneID2 WHERE T1.Localization = 'nucleus' AND T3.Localization = 'nucleus' ORDER BY T2.Expression_Corr DESC LIMIT 1 | CREATE TABLE Classification
(
GeneID TEXT not null
primary key,
Localization TEXT not null
);
CREATE TABLE Genes
(
GeneID TEXT not null,
Essential TEXT not null,
Class TEXT not null,
Complex TEXT null,
Phenotype TEXT not null,
Motif TEXT not null,
Chromosome INTEGER not null,
Function TEXT not null,
Localization TEXT not null,
foreign key (GeneID) references Classification (GeneID)
on update cascade on delete cascade
);
CREATE TABLE Interactions
(
GeneID1 TEXT not null,
GeneID2 TEXT not null,
Type TEXT not null,
Expression_Corr REAL not null,
primary key (GeneID1, GeneID2),
foreign key (GeneID1) references Classification (GeneID)
on update cascade on delete cascade,
foreign key (GeneID2) references Classification (GeneID)
on update cascade on delete cascade
);
|
|
cookbook | Provide the title and total time of the recipe which can be made with only lima beans. | total time refers to total time refers to TOTAL(prep_min, cook_min, stnd_min); lima beans is a name of an ingredient | SELECT T1.title, T1.prep_min + T1.cook_min + T1.stnd_min FROM Recipe AS T1 INNER JOIN Quantity AS T2 ON T1.recipe_id = T2.recipe_id INNER JOIN Ingredient AS T3 ON T3.ingredient_id = T2.ingredient_id WHERE T3.name = 'lima beans' | CREATE TABLE Ingredient
(
ingredient_id INTEGER
primary key,
category TEXT,
name TEXT,
plural TEXT
);
CREATE TABLE Recipe
(
recipe_id INTEGER
primary key,
title TEXT,
subtitle TEXT,
servings INTEGER,
yield_unit TEXT,
prep_min INTEGER,
cook_min INTEGER,
stnd_min INTEGER,
source TEXT,
intro TEXT,
directions TEXT
);
CREATE TABLE Nutrition
(
recipe_id INTEGER
primary key,
protein REAL,
carbo REAL,
alcohol REAL,
total_fat REAL,
sat_fat REAL,
cholestrl REAL,
sodium REAL,
iron REAL,
vitamin_c REAL,
vitamin_a REAL,
fiber REAL,
pcnt_cal_carb REAL,
pcnt_cal_fat REAL,
pcnt_cal_prot REAL,
calories REAL,
foreign key (recipe_id) references Recipe(recipe_id)
);
CREATE TABLE Quantity
(
quantity_id INTEGER
primary key,
recipe_id INTEGER,
ingredient_id INTEGER,
max_qty REAL,
min_qty REAL,
unit TEXT,
preparation TEXT,
optional TEXT,
foreign key (recipe_id) references Recipe(recipe_id),
foreign key (ingredient_id) references Ingredient(ingredient_id),
foreign key (recipe_id) references Nutrition(recipe_id)
);
|
coinmarketcap | What was the max profit a user can make on Bitcoin on 2013/4/28? | the max profit = subtract(high, low); on 2013/4/28 refers to date = '2013-04-28' | SELECT T2.high - T2.low FROM coins AS T1 INNER JOIN historical AS T2 ON T1.id = T2.coin_id WHERE T2.date = '2013-04-28' AND T1.name = 'Bitcoin' | CREATE TABLE coins
(
id INTEGER not null
primary key,
name TEXT,
slug TEXT,
symbol TEXT,
status TEXT,
category TEXT,
description TEXT,
subreddit TEXT,
notice TEXT,
tags TEXT,
tag_names TEXT,
website TEXT,
platform_id INTEGER,
date_added TEXT,
date_launched TEXT
);
CREATE TABLE IF NOT EXISTS "historical"
(
date DATE,
coin_id INTEGER,
cmc_rank INTEGER,
market_cap REAL,
price REAL,
open REAL,
high REAL,
low REAL,
close REAL,
time_high TEXT,
time_low TEXT,
volume_24h REAL,
percent_change_1h REAL,
percent_change_24h REAL,
percent_change_7d REAL,
circulating_supply REAL,
total_supply REAL,
max_supply REAL,
num_market_pairs INTEGER
);
|
language_corpus | What are the words that were paired with "John", list down 10 of them. | pair with "John" refers to w1st.word = "John" or w2nd.word = "John" | SELECT w2nd FROM biwords WHERE w1st = ( SELECT wid FROM words WHERE word = 'john' ) LIMIT 10 | CREATE TABLE langs(lid INTEGER PRIMARY KEY AUTOINCREMENT,
lang TEXT UNIQUE,
locale TEXT UNIQUE,
pages INTEGER DEFAULT 0, -- total pages in this language
words INTEGER DEFAULT 0);
CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE pages(pid INTEGER PRIMARY KEY AUTOINCREMENT,
lid INTEGER REFERENCES langs(lid) ON UPDATE CASCADE ON DELETE CASCADE,
page INTEGER DEFAULT NULL, -- wikipedia page id
revision INTEGER DEFAULT NULL, -- wikipedia revision page id
title TEXT,
words INTEGER DEFAULT 0, -- number of different words in this page
UNIQUE(lid,page,title));
CREATE TRIGGER ins_page AFTER INSERT ON pages FOR EACH ROW
BEGIN
UPDATE langs SET pages=pages+1 WHERE lid=NEW.lid;
END;
CREATE TRIGGER del_page AFTER DELETE ON pages FOR EACH ROW
BEGIN
UPDATE langs SET pages=pages-1 WHERE lid=OLD.lid;
END;
CREATE TABLE words(wid INTEGER PRIMARY KEY AUTOINCREMENT,
word TEXT UNIQUE,
occurrences INTEGER DEFAULT 0);
CREATE TABLE langs_words(lid INTEGER REFERENCES langs(lid) ON UPDATE CASCADE ON DELETE CASCADE,
wid INTEGER REFERENCES words(wid) ON UPDATE CASCADE ON DELETE CASCADE,
occurrences INTEGER, -- repetitions of this word in this language
PRIMARY KEY(lid,wid))
WITHOUT ROWID;
CREATE TRIGGER ins_lang_word AFTER INSERT ON langs_words FOR EACH ROW
BEGIN
UPDATE langs SET words=words+1 WHERE lid=NEW.lid;
END;
CREATE TRIGGER del_lang_word AFTER DELETE ON langs_words FOR EACH ROW
BEGIN
UPDATE langs SET words=words-1 WHERE lid=OLD.lid;
END;
CREATE TABLE pages_words(pid INTEGER REFERENCES pages(pid) ON UPDATE CASCADE ON DELETE CASCADE,
wid INTEGER REFERENCES words(wid) ON UPDATE CASCADE ON DELETE CASCADE,
occurrences INTEGER DEFAULT 0, -- times this word appears into this page
PRIMARY KEY(pid,wid))
WITHOUT ROWID;
CREATE TRIGGER ins_page_word AFTER INSERT ON pages_words FOR EACH ROW
BEGIN
UPDATE pages SET words=words+1 WHERE pid=NEW.pid;
END;
CREATE TRIGGER del_page_word AFTER DELETE ON pages_words FOR EACH ROW
BEGIN
UPDATE pages SET words=words-1 WHERE pid=OLD.pid;
END;
CREATE TABLE biwords(lid INTEGER REFERENCES langs(lid) ON UPDATE CASCADE ON DELETE CASCADE,
w1st INTEGER REFERENCES words(wid) ON UPDATE CASCADE ON DELETE CASCADE,
w2nd INTEGER REFERENCES words(wid) ON UPDATE CASCADE ON DELETE CASCADE,
occurrences INTEGER DEFAULT 0, -- times this pair appears in this language/page
PRIMARY KEY(lid,w1st,w2nd))
WITHOUT ROWID;
|
public_review_platform | Among the users who received low compliments from other users, which users joined Yelp in 2012? | low compliments refers to number_of_compliments = 'Low'; joined Yelp in 2012 refers to user_yelping_since_year = 2012 | SELECT DISTINCT T2.user_id FROM Users AS T1 INNER JOIN Users_Compliments AS T2 ON T1.user_id = T2.user_id WHERE T1.user_yelping_since_year = 2012 AND T2.number_of_compliments = 'Low' | CREATE TABLE Attributes
(
attribute_id INTEGER
constraint Attributes_pk
primary key,
attribute_name TEXT
);
CREATE TABLE Categories
(
category_id INTEGER
constraint Categories_pk
primary key,
category_name TEXT
);
CREATE TABLE Compliments
(
compliment_id INTEGER
constraint Compliments_pk
primary key,
compliment_type TEXT
);
CREATE TABLE Days
(
day_id INTEGER
constraint Days_pk
primary key,
day_of_week TEXT
);
CREATE TABLE Years
(
year_id INTEGER
constraint Years_pk
primary key,
actual_year INTEGER
);
CREATE TABLE IF NOT EXISTS "Business_Attributes"
(
attribute_id INTEGER
constraint Business_Attributes_Attributes_attribute_id_fk
references Attributes,
business_id INTEGER
constraint Business_Attributes_Business_business_id_fk
references Business,
attribute_value TEXT,
constraint Business_Attributes_pk
primary key (attribute_id, business_id)
);
CREATE TABLE IF NOT EXISTS "Business_Categories"
(
business_id INTEGER
constraint Business_Categories_Business_business_id_fk
references Business,
category_id INTEGER
constraint Business_Categories_Categories_category_id_fk
references Categories,
constraint Business_Categories_pk
primary key (business_id, category_id)
);
CREATE TABLE IF NOT EXISTS "Business_Hours"
(
business_id INTEGER
constraint Business_Hours_Business_business_id_fk
references Business,
day_id INTEGER
constraint Business_Hours_Days_day_id_fk
references Days,
opening_time TEXT,
closing_time TEXT,
constraint Business_Hours_pk
primary key (business_id, day_id)
);
CREATE TABLE IF NOT EXISTS "Checkins"
(
business_id INTEGER
constraint Checkins_Business_business_id_fk
references Business,
day_id INTEGER
constraint Checkins_Days_day_id_fk
references Days,
label_time_0 TEXT,
label_time_1 TEXT,
label_time_2 TEXT,
label_time_3 TEXT,
label_time_4 TEXT,
label_time_5 TEXT,
label_time_6 TEXT,
label_time_7 TEXT,
label_time_8 TEXT,
label_time_9 TEXT,
label_time_10 TEXT,
label_time_11 TEXT,
label_time_12 TEXT,
label_time_13 TEXT,
label_time_14 TEXT,
label_time_15 TEXT,
label_time_16 TEXT,
label_time_17 TEXT,
label_time_18 TEXT,
label_time_19 TEXT,
label_time_20 TEXT,
label_time_21 TEXT,
label_time_22 TEXT,
label_time_23 TEXT,
constraint Checkins_pk
primary key (business_id, day_id)
);
CREATE TABLE IF NOT EXISTS "Elite"
(
user_id INTEGER
constraint Elite_Users_user_id_fk
references Users,
year_id INTEGER
constraint Elite_Years_year_id_fk
references Years,
constraint Elite_pk
primary key (user_id, year_id)
);
CREATE TABLE IF NOT EXISTS "Reviews"
(
business_id INTEGER
constraint Reviews_Business_business_id_fk
references Business,
user_id INTEGER
constraint Reviews_Users_user_id_fk
references Users,
review_stars INTEGER,
review_votes_funny TEXT,
review_votes_useful TEXT,
review_votes_cool TEXT,
review_length TEXT,
constraint Reviews_pk
primary key (business_id, user_id)
);
CREATE TABLE IF NOT EXISTS "Tips"
(
business_id INTEGER
constraint Tips_Business_business_id_fk
references Business,
user_id INTEGER
constraint Tips_Users_user_id_fk
references Users,
likes INTEGER,
tip_length TEXT,
constraint Tips_pk
primary key (business_id, user_id)
);
CREATE TABLE IF NOT EXISTS "Users_Compliments"
(
compliment_id INTEGER
constraint Users_Compliments_Compliments_compliment_id_fk
references Compliments,
user_id INTEGER
constraint Users_Compliments_Users_user_id_fk
references Users,
number_of_compliments TEXT,
constraint Users_Compliments_pk
primary key (compliment_id, user_id)
);
CREATE TABLE IF NOT EXISTS "Business"
(
business_id INTEGER
constraint Business_pk
primary key,
active TEXT,
city TEXT,
state TEXT,
stars REAL,
review_count TEXT
);
CREATE TABLE IF NOT EXISTS "Users"
(
user_id INTEGER
constraint Users_pk
primary key,
user_yelping_since_year INTEGER,
user_average_stars TEXT,
user_votes_funny TEXT,
user_votes_useful TEXT,
user_votes_cool TEXT,
user_review_count TEXT,
user_fans TEXT
);
|
beer_factory | In the female customers, how many bought root beer that contains artificial sweetener? | female refers to Gender = 'F'; contains artificial sweetener refers to ArtificialSweetener = 'TRUE'; | SELECT COUNT(T1.CustomerID) FROM customers AS T1 INNER JOIN `transaction` AS T2 ON T1.CustomerID = T2.CustomerID INNER JOIN rootbeer AS T3 ON T2.RootBeerID = T3.RootBeerID INNER JOIN rootbeerbrand AS T4 ON T3.BrandID = T4.BrandID WHERE T1.Gender = 'F' AND T4.ArtificialSweetener = 'TRUE' | CREATE TABLE customers
(
CustomerID INTEGER
primary key,
First TEXT,
Last TEXT,
StreetAddress TEXT,
City TEXT,
State TEXT,
ZipCode INTEGER,
Email TEXT,
PhoneNumber TEXT,
FirstPurchaseDate DATE,
SubscribedToEmailList TEXT,
Gender TEXT
);
CREATE TABLE geolocation
(
LocationID INTEGER
primary key,
Latitude REAL,
Longitude REAL,
foreign key (LocationID) references location(LocationID)
);
CREATE TABLE location
(
LocationID INTEGER
primary key,
LocationName TEXT,
StreetAddress TEXT,
City TEXT,
State TEXT,
ZipCode INTEGER,
foreign key (LocationID) references geolocation(LocationID)
);
CREATE TABLE rootbeerbrand
(
BrandID INTEGER
primary key,
BrandName TEXT,
FirstBrewedYear INTEGER,
BreweryName TEXT,
City TEXT,
State TEXT,
Country TEXT,
Description TEXT,
CaneSugar TEXT,
CornSyrup TEXT,
Honey TEXT,
ArtificialSweetener TEXT,
Caffeinated TEXT,
Alcoholic TEXT,
AvailableInCans TEXT,
AvailableInBottles TEXT,
AvailableInKegs TEXT,
Website TEXT,
FacebookPage TEXT,
Twitter TEXT,
WholesaleCost REAL,
CurrentRetailPrice REAL
);
CREATE TABLE rootbeer
(
RootBeerID INTEGER
primary key,
BrandID INTEGER,
ContainerType TEXT,
LocationID INTEGER,
PurchaseDate DATE,
foreign key (LocationID) references geolocation(LocationID),
foreign key (LocationID) references location(LocationID),
foreign key (BrandID) references rootbeerbrand(BrandID)
);
CREATE TABLE rootbeerreview
(
CustomerID INTEGER,
BrandID INTEGER,
StarRating INTEGER,
ReviewDate DATE,
Review TEXT,
primary key (CustomerID, BrandID),
foreign key (CustomerID) references customers(CustomerID),
foreign key (BrandID) references rootbeerbrand(BrandID)
);
CREATE TABLE IF NOT EXISTS "transaction"
(
TransactionID INTEGER
primary key,
CreditCardNumber INTEGER,
CustomerID INTEGER,
TransactionDate DATE,
CreditCardType TEXT,
LocationID INTEGER,
RootBeerID INTEGER,
PurchasePrice REAL,
foreign key (CustomerID) references customers(CustomerID),
foreign key (LocationID) references location(LocationID),
foreign key (RootBeerID) references rootbeer(RootBeerID)
);
|
address | What is the area code of the city with the female median age over 32 years old? | SELECT T1.area_code FROM area_code AS T1 INNER JOIN ZIP_Data AS T2 ON T1.zip_code = T2.zip_code WHERE T2.female_median_age > 32 GROUP BY T1.area_code | CREATE TABLE CBSA
(
CBSA INTEGER
primary key,
CBSA_name TEXT,
CBSA_type TEXT
);
CREATE TABLE state
(
abbreviation TEXT
primary key,
name TEXT
);
CREATE TABLE congress
(
cognress_rep_id TEXT
primary key,
first_name TEXT,
last_name TEXT,
CID TEXT,
party TEXT,
state TEXT,
abbreviation TEXT,
House TEXT,
District INTEGER,
land_area REAL,
foreign key (abbreviation) references state(abbreviation)
);
CREATE TABLE zip_data
(
zip_code INTEGER
primary key,
city TEXT,
state TEXT,
multi_county TEXT,
type TEXT,
organization TEXT,
time_zone TEXT,
daylight_savings TEXT,
latitude REAL,
longitude REAL,
elevation INTEGER,
state_fips INTEGER,
county_fips INTEGER,
region TEXT,
division TEXT,
population_2020 INTEGER,
population_2010 INTEGER,
households INTEGER,
avg_house_value INTEGER,
avg_income_per_household INTEGER,
persons_per_household REAL,
white_population INTEGER,
black_population INTEGER,
hispanic_population INTEGER,
asian_population INTEGER,
american_indian_population INTEGER,
hawaiian_population INTEGER,
other_population INTEGER,
male_population INTEGER,
female_population INTEGER,
median_age REAL,
male_median_age REAL,
female_median_age REAL,
residential_mailboxes INTEGER,
business_mailboxes INTEGER,
total_delivery_receptacles INTEGER,
businesses INTEGER,
"1st_quarter_payroll" INTEGER,
annual_payroll INTEGER,
employees INTEGER,
water_area REAL,
land_area REAL,
single_family_delivery_units INTEGER,
multi_family_delivery_units INTEGER,
total_beneficiaries INTEGER,
retired_workers INTEGER,
disabled_workers INTEGER,
parents_and_widowed INTEGER,
spouses INTEGER,
children INTEGER,
over_65 INTEGER,
monthly_benefits_all INTEGER,
monthly_benefits_retired_workers INTEGER,
monthly_benefits_widowed INTEGER,
CBSA INTEGER,
foreign key (state) references state(abbreviation),
foreign key (CBSA) references CBSA(CBSA)
);
CREATE TABLE alias
(
zip_code INTEGER
primary key,
alias TEXT,
foreign key (zip_code) references zip_data(zip_code)
);
CREATE TABLE area_code
(
zip_code INTEGER,
area_code INTEGER,
primary key (zip_code, area_code),
foreign key (zip_code) references zip_data(zip_code)
);
CREATE TABLE avoid
(
zip_code INTEGER,
bad_alias TEXT,
primary key (zip_code, bad_alias),
foreign key (zip_code) references zip_data(zip_code)
);
CREATE TABLE country
(
zip_code INTEGER,
county TEXT,
state TEXT,
primary key (zip_code, county),
foreign key (zip_code) references zip_data(zip_code),
foreign key (state) references state(abbreviation)
);
CREATE TABLE zip_congress
(
zip_code INTEGER,
district TEXT,
primary key (zip_code, district),
foreign key (district) references congress(cognress_rep_id),
foreign key (zip_code) references zip_data(zip_code)
);
|
|
retail_world | What is the family name of the employee who shipped the order 10521 to CACTU? | order 10521 refers to OrderID = 10521; CustomerID = 'CACTU'; family name refers to LastName; | SELECT T1.LastName FROM Employees AS T1 INNER JOIN Orders AS T2 ON T1.EmployeeID = T2.EmployeeID WHERE T2.OrderID = 10521 AND T2.CustomerID = 'CACTU' | CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE Categories
(
CategoryID INTEGER PRIMARY KEY AUTOINCREMENT,
CategoryName TEXT,
Description TEXT
);
CREATE TABLE Customers
(
CustomerID INTEGER PRIMARY KEY AUTOINCREMENT,
CustomerName TEXT,
ContactName TEXT,
Address TEXT,
City TEXT,
PostalCode TEXT,
Country TEXT
);
CREATE TABLE Employees
(
EmployeeID INTEGER PRIMARY KEY AUTOINCREMENT,
LastName TEXT,
FirstName TEXT,
BirthDate DATE,
Photo TEXT,
Notes TEXT
);
CREATE TABLE Shippers(
ShipperID INTEGER PRIMARY KEY AUTOINCREMENT,
ShipperName TEXT,
Phone TEXT
);
CREATE TABLE Suppliers(
SupplierID INTEGER PRIMARY KEY AUTOINCREMENT,
SupplierName TEXT,
ContactName TEXT,
Address TEXT,
City TEXT,
PostalCode TEXT,
Country TEXT,
Phone TEXT
);
CREATE TABLE Products(
ProductID INTEGER PRIMARY KEY AUTOINCREMENT,
ProductName TEXT,
SupplierID INTEGER,
CategoryID INTEGER,
Unit TEXT,
Price REAL DEFAULT 0,
FOREIGN KEY (CategoryID) REFERENCES Categories (CategoryID),
FOREIGN KEY (SupplierID) REFERENCES Suppliers (SupplierID)
);
CREATE TABLE Orders(
OrderID INTEGER PRIMARY KEY AUTOINCREMENT,
CustomerID INTEGER,
EmployeeID INTEGER,
OrderDate DATETIME,
ShipperID INTEGER,
FOREIGN KEY (EmployeeID) REFERENCES Employees (EmployeeID),
FOREIGN KEY (CustomerID) REFERENCES Customers (CustomerID),
FOREIGN KEY (ShipperID) REFERENCES Shippers (ShipperID)
);
CREATE TABLE OrderDetails(
OrderDetailID INTEGER PRIMARY KEY AUTOINCREMENT,
OrderID INTEGER,
ProductID INTEGER,
Quantity INTEGER,
FOREIGN KEY (OrderID) REFERENCES Orders (OrderID),
FOREIGN KEY (ProductID) REFERENCES Products (ProductID)
);
|
college_completion | How many more students in total graduated from Central Alabama Community College in 2012 than in 2011? | how many more = SUBTRACT(SUM(grad_cohort WHERE year = 2012)), (sum(grad_cohort WHERE year = 2011)); Central Alabama Community College refers to chronname = 'Central Alabama Community College'; in 2012 refers to year = 2012; in 2011 refers to year = 2011; | SELECT SUM(CASE WHEN T2.year = 2012 THEN T2.grad_cohort ELSE 0 END) - SUM(CASE WHEN T2.year = 2011 THEN T2.grad_cohort ELSE 0 END) FROM institution_details AS T1 INNER JOIN institution_grads AS T2 ON T2.unitid = T1.unitid WHERE T1.chronname = 'Central Alabama Community College' | CREATE TABLE institution_details
(
unitid INTEGER
constraint institution_details_pk
primary key,
chronname TEXT,
city TEXT,
state TEXT,
level TEXT,
control TEXT,
basic TEXT,
hbcu TEXT,
flagship TEXT,
long_x REAL,
lat_y REAL,
site TEXT,
student_count INTEGER,
awards_per_value REAL,
awards_per_state_value REAL,
awards_per_natl_value REAL,
exp_award_value INTEGER,
exp_award_state_value INTEGER,
exp_award_natl_value INTEGER,
exp_award_percentile INTEGER,
ft_pct REAL,
fte_value INTEGER,
fte_percentile INTEGER,
med_sat_value TEXT,
med_sat_percentile TEXT,
aid_value INTEGER,
aid_percentile INTEGER,
endow_value TEXT,
endow_percentile TEXT,
grad_100_value REAL,
grad_100_percentile INTEGER,
grad_150_value REAL,
grad_150_percentile INTEGER,
pell_value REAL,
pell_percentile INTEGER,
retain_value REAL,
retain_percentile INTEGER,
ft_fac_value REAL,
ft_fac_percentile INTEGER,
vsa_year TEXT,
vsa_grad_after4_first TEXT,
vsa_grad_elsewhere_after4_first TEXT,
vsa_enroll_after4_first TEXT,
vsa_enroll_elsewhere_after4_first TEXT,
vsa_grad_after6_first TEXT,
vsa_grad_elsewhere_after6_first TEXT,
vsa_enroll_after6_first TEXT,
vsa_enroll_elsewhere_after6_first TEXT,
vsa_grad_after4_transfer TEXT,
vsa_grad_elsewhere_after4_transfer TEXT,
vsa_enroll_after4_transfer TEXT,
vsa_enroll_elsewhere_after4_transfer TEXT,
vsa_grad_after6_transfer TEXT,
vsa_grad_elsewhere_after6_transfer TEXT,
vsa_enroll_after6_transfer TEXT,
vsa_enroll_elsewhere_after6_transfer TEXT,
similar TEXT,
state_sector_ct INTEGER,
carnegie_ct INTEGER,
counted_pct TEXT,
nicknames TEXT,
cohort_size INTEGER
);
CREATE TABLE institution_grads
(
unitid INTEGER,
year INTEGER,
gender TEXT,
race TEXT,
cohort TEXT,
grad_cohort TEXT,
grad_100 TEXT,
grad_150 TEXT,
grad_100_rate TEXT,
grad_150_rate TEXT,
foreign key (unitid) references institution_details(unitid)
);
CREATE TABLE state_sector_grads
(
stateid INTEGER,
state TEXT,
state_abbr TEXT,
control TEXT,
level TEXT,
year INTEGER,
gender TEXT,
race TEXT,
cohort TEXT,
grad_cohort TEXT,
grad_100 TEXT,
grad_150 TEXT,
grad_100_rate TEXT,
grad_150_rate TEXT,
grad_cohort_ct INTEGER,
foreign key (state) references institution_details(state),
foreign key (stateid) references state_sector_details(stateid)
);
CREATE TABLE IF NOT EXISTS "state_sector_details"
(
stateid INTEGER,
state TEXT
references institution_details (state),
state_post TEXT,
level TEXT,
control TEXT,
schools_count INTEGER,
counted_pct TEXT,
awards_per_state_value TEXT,
awards_per_natl_value REAL,
exp_award_state_value TEXT,
exp_award_natl_value INTEGER,
state_appr_value TEXT,
state_appr_rank TEXT,
grad_rate_rank TEXT,
awards_per_rank TEXT,
primary key (stateid, level, control)
);
|
superstore | Calculate the percentage of ordered office supplies products in the central and the south superstore. | office supplies products refers to Category = 'Office Supplies'; central refers to Region = 'Central'; south superstore refers to Region = 'South'; percentage = divide(SUM(Product ID where Category = 'Office Supplies'), count(Product ID)) * 100 where Region = 'Central' OR Region = 'South' | SELECT CAST(SUM(CASE WHEN T3.Category = 'Office Supplies' THEN 1 ELSE 0 END) AS REAL) * 100 / COUNT(T3.Category) FROM people AS T1 INNER JOIN central_superstore AS T2 ON T1.`Customer ID` = T2.`Customer ID` INNER JOIN product AS T3 ON T3.`Product ID` = T2.`Product ID` | CREATE TABLE people
(
"Customer ID" TEXT,
"Customer Name" TEXT,
Segment TEXT,
Country TEXT,
City TEXT,
State TEXT,
"Postal Code" INTEGER,
Region TEXT,
primary key ("Customer ID", Region)
);
CREATE TABLE product
(
"Product ID" TEXT,
"Product Name" TEXT,
Category TEXT,
"Sub-Category" TEXT,
Region TEXT,
primary key ("Product ID", Region)
);
CREATE TABLE central_superstore
(
"Row ID" INTEGER
primary key,
"Order ID" TEXT,
"Order Date" DATE,
"Ship Date" DATE,
"Ship Mode" TEXT,
"Customer ID" TEXT,
Region TEXT,
"Product ID" TEXT,
Sales REAL,
Quantity INTEGER,
Discount REAL,
Profit REAL,
foreign key ("Customer ID", Region) references people("Customer ID",Region),
foreign key ("Product ID", Region) references product("Product ID",Region)
);
CREATE TABLE east_superstore
(
"Row ID" INTEGER
primary key,
"Order ID" TEXT,
"Order Date" DATE,
"Ship Date" DATE,
"Ship Mode" TEXT,
"Customer ID" TEXT,
Region TEXT,
"Product ID" TEXT,
Sales REAL,
Quantity INTEGER,
Discount REAL,
Profit REAL,
foreign key ("Customer ID", Region) references people("Customer ID",Region),
foreign key ("Product ID", Region) references product("Product ID",Region)
);
CREATE TABLE south_superstore
(
"Row ID" INTEGER
primary key,
"Order ID" TEXT,
"Order Date" DATE,
"Ship Date" DATE,
"Ship Mode" TEXT,
"Customer ID" TEXT,
Region TEXT,
"Product ID" TEXT,
Sales REAL,
Quantity INTEGER,
Discount REAL,
Profit REAL,
foreign key ("Customer ID", Region) references people("Customer ID",Region),
foreign key ("Product ID", Region) references product("Product ID",Region)
);
CREATE TABLE west_superstore
(
"Row ID" INTEGER
primary key,
"Order ID" TEXT,
"Order Date" DATE,
"Ship Date" DATE,
"Ship Mode" TEXT,
"Customer ID" TEXT,
Region TEXT,
"Product ID" TEXT,
Sales REAL,
Quantity INTEGER,
Discount REAL,
Profit REAL,
foreign key ("Customer ID", Region) references people("Customer ID",Region),
foreign key ("Product ID", Region) references product("Product ID",Region)
);
|
movielens | List the IDs of all the directors who worked on French films. | France is a country | SELECT T2.directorid FROM movies AS T1 INNER JOIN movies2directors AS T2 ON T1.movieid = T2.movieid WHERE T1.country = 'France' | CREATE TABLE users
(
userid INTEGER default 0 not null
primary key,
age TEXT not null,
u_gender TEXT not null,
occupation TEXT not null
);
CREATE TABLE IF NOT EXISTS "directors"
(
directorid INTEGER not null
primary key,
d_quality INTEGER not null,
avg_revenue INTEGER not null
);
CREATE INDEX avg_revenue
on directors (avg_revenue);
CREATE INDEX d_quality
on directors (d_quality);
CREATE TABLE IF NOT EXISTS "actors"
(
actorid INTEGER not null
primary key,
a_gender TEXT not null,
a_quality INTEGER not null
);
CREATE TABLE IF NOT EXISTS "movies"
(
movieid INTEGER default 0 not null
primary key,
year INTEGER not null,
isEnglish TEXT not null,
country TEXT not null,
runningtime INTEGER not null
);
CREATE TABLE IF NOT EXISTS "movies2actors"
(
movieid INTEGER not null
references movies
on update cascade on delete cascade,
actorid INTEGER not null
references actors
on update cascade on delete cascade,
cast_num INTEGER not null,
primary key (movieid, actorid)
);
CREATE TABLE IF NOT EXISTS "movies2directors"
(
movieid INTEGER not null
references movies
on update cascade on delete cascade,
directorid INTEGER not null
references directors
on update cascade on delete cascade,
genre TEXT not null,
primary key (movieid, directorid)
);
CREATE TABLE IF NOT EXISTS "u2base"
(
userid INTEGER default 0 not null
references users
on update cascade on delete cascade,
movieid INTEGER not null
references movies
on update cascade on delete cascade,
rating TEXT not null,
primary key (userid, movieid)
);
|
movie_3 | What language was the most used in movies released in 2006? | released in 2006 refers to release_year = 2006; the most used language refers to MAX(COUNT(language_id)) | SELECT T.language_id FROM ( SELECT T1.language_id, COUNT(T1.language_id) AS num FROM film AS T1 INNER JOIN language AS T2 ON T1.language_id = T2.language_id WHERE STRFTIME('%Y',T1.release_year) = '2006' GROUP BY T1.language_id ) AS T ORDER BY T.num DESC LIMIT 1 | CREATE TABLE film_text
(
film_id INTEGER not null
primary key,
title TEXT not null,
description TEXT null
);
CREATE TABLE IF NOT EXISTS "actor"
(
actor_id INTEGER
primary key autoincrement,
first_name TEXT not null,
last_name TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE IF NOT EXISTS "address"
(
address_id INTEGER
primary key autoincrement,
address TEXT not null,
address2 TEXT,
district TEXT not null,
city_id INTEGER not null
references city
on update cascade,
postal_code TEXT,
phone TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "category"
(
category_id INTEGER
primary key autoincrement,
name TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "city"
(
city_id INTEGER
primary key autoincrement,
city TEXT not null,
country_id INTEGER not null
references country
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "country"
(
country_id INTEGER
primary key autoincrement,
country TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "customer"
(
customer_id INTEGER
primary key autoincrement,
store_id INTEGER not null
references store
on update cascade,
first_name TEXT not null,
last_name TEXT not null,
email TEXT,
address_id INTEGER not null
references address
on update cascade,
active INTEGER default 1 not null,
create_date DATETIME not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "film"
(
film_id INTEGER
primary key autoincrement,
title TEXT not null,
description TEXT,
release_year TEXT,
language_id INTEGER not null
references language
on update cascade,
original_language_id INTEGER
references language
on update cascade,
rental_duration INTEGER default 3 not null,
rental_rate REAL default 4.99 not null,
length INTEGER,
replacement_cost REAL default 19.99 not null,
rating TEXT default 'G',
special_features TEXT,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "film_actor"
(
actor_id INTEGER not null
references actor
on update cascade,
film_id INTEGER not null
references film
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null,
primary key (actor_id, film_id)
);
CREATE TABLE IF NOT EXISTS "film_category"
(
film_id INTEGER not null
references film
on update cascade,
category_id INTEGER not null
references category
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null,
primary key (film_id, category_id)
);
CREATE TABLE IF NOT EXISTS "inventory"
(
inventory_id INTEGER
primary key autoincrement,
film_id INTEGER not null
references film
on update cascade,
store_id INTEGER not null
references store
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "language"
(
language_id INTEGER
primary key autoincrement,
name TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "payment"
(
payment_id INTEGER
primary key autoincrement,
customer_id INTEGER not null
references customer
on update cascade,
staff_id INTEGER not null
references staff
on update cascade,
rental_id INTEGER
references rental
on update cascade on delete set null,
amount REAL not null,
payment_date DATETIME not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "rental"
(
rental_id INTEGER
primary key autoincrement,
rental_date DATETIME not null,
inventory_id INTEGER not null
references inventory
on update cascade,
customer_id INTEGER not null
references customer
on update cascade,
return_date DATETIME,
staff_id INTEGER not null
references staff
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null,
unique (rental_date, inventory_id, customer_id)
);
CREATE TABLE IF NOT EXISTS "staff"
(
staff_id INTEGER
primary key autoincrement,
first_name TEXT not null,
last_name TEXT not null,
address_id INTEGER not null
references address
on update cascade,
picture BLOB,
email TEXT,
store_id INTEGER not null
references store
on update cascade,
active INTEGER default 1 not null,
username TEXT not null,
password TEXT,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "store"
(
store_id INTEGER
primary key autoincrement,
manager_staff_id INTEGER not null
unique
references staff
on update cascade,
address_id INTEGER not null
references address
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
|
image_and_language | How many attributes are related to the object sample no. 7 on image no. 4? | How many attributes refers to ATT_CLASS_ID; object sample no. 7 on image no. 4 refers to IMG_ID = 4 and OBJ_SAMPLE_ID = 7 | SELECT COUNT(ATT_CLASS_ID) FROM IMG_OBJ_ATT WHERE IMG_ID = 4 AND OBJ_SAMPLE_ID = 7 | CREATE TABLE ATT_CLASSES
(
ATT_CLASS_ID INTEGER default 0 not null
primary key,
ATT_CLASS TEXT not null
);
CREATE TABLE OBJ_CLASSES
(
OBJ_CLASS_ID INTEGER default 0 not null
primary key,
OBJ_CLASS TEXT not null
);
CREATE TABLE IMG_OBJ
(
IMG_ID INTEGER default 0 not null,
OBJ_SAMPLE_ID INTEGER default 0 not null,
OBJ_CLASS_ID INTEGER null,
X INTEGER null,
Y INTEGER null,
W INTEGER null,
H INTEGER null,
primary key (IMG_ID, OBJ_SAMPLE_ID),
foreign key (OBJ_CLASS_ID) references OBJ_CLASSES (OBJ_CLASS_ID)
);
CREATE TABLE IMG_OBJ_ATT
(
IMG_ID INTEGER default 0 not null,
ATT_CLASS_ID INTEGER default 0 not null,
OBJ_SAMPLE_ID INTEGER default 0 not null,
primary key (IMG_ID, ATT_CLASS_ID, OBJ_SAMPLE_ID),
foreign key (ATT_CLASS_ID) references ATT_CLASSES (ATT_CLASS_ID),
foreign key (IMG_ID, OBJ_SAMPLE_ID) references IMG_OBJ (IMG_ID, OBJ_SAMPLE_ID)
);
CREATE TABLE PRED_CLASSES
(
PRED_CLASS_ID INTEGER default 0 not null
primary key,
PRED_CLASS TEXT not null
);
CREATE TABLE IMG_REL
(
IMG_ID INTEGER default 0 not null,
PRED_CLASS_ID INTEGER default 0 not null,
OBJ1_SAMPLE_ID INTEGER default 0 not null,
OBJ2_SAMPLE_ID INTEGER default 0 not null,
primary key (IMG_ID, PRED_CLASS_ID, OBJ1_SAMPLE_ID, OBJ2_SAMPLE_ID),
foreign key (PRED_CLASS_ID) references PRED_CLASSES (PRED_CLASS_ID),
foreign key (IMG_ID, OBJ1_SAMPLE_ID) references IMG_OBJ (IMG_ID, OBJ_SAMPLE_ID),
foreign key (IMG_ID, OBJ2_SAMPLE_ID) references IMG_OBJ (IMG_ID, OBJ_SAMPLE_ID)
);
|
legislator | What is the username of the current official Facebook presence of current legislator Todd Young? | Todd Young is an official_full_name; username of current official Facebook presences refers to facebook; | SELECT T1.facebook FROM `social-media` AS T1 INNER JOIN current AS T2 ON T2.bioguide_id = T1.bioguide WHERE T2.official_full_name = 'Todd Young' | CREATE TABLE current
(
ballotpedia_id TEXT,
bioguide_id TEXT,
birthday_bio DATE,
cspan_id REAL,
fec_id TEXT,
first_name TEXT,
gender_bio TEXT,
google_entity_id_id TEXT,
govtrack_id INTEGER,
house_history_id REAL,
icpsr_id REAL,
last_name TEXT,
lis_id TEXT,
maplight_id REAL,
middle_name TEXT,
nickname_name TEXT,
official_full_name TEXT,
opensecrets_id TEXT,
religion_bio TEXT,
suffix_name TEXT,
thomas_id INTEGER,
votesmart_id REAL,
wikidata_id TEXT,
wikipedia_id TEXT,
primary key (bioguide_id, cspan_id)
);
CREATE TABLE IF NOT EXISTS "current-terms"
(
address TEXT,
bioguide TEXT,
caucus TEXT,
chamber TEXT,
class REAL,
contact_form TEXT,
district REAL,
end TEXT,
fax TEXT,
last TEXT,
name TEXT,
office TEXT,
party TEXT,
party_affiliations TEXT,
phone TEXT,
relation TEXT,
rss_url TEXT,
start TEXT,
state TEXT,
state_rank TEXT,
title TEXT,
type TEXT,
url TEXT,
primary key (bioguide, end),
foreign key (bioguide) references current(bioguide_id)
);
CREATE TABLE historical
(
ballotpedia_id TEXT,
bioguide_id TEXT
primary key,
bioguide_previous_id TEXT,
birthday_bio TEXT,
cspan_id TEXT,
fec_id TEXT,
first_name TEXT,
gender_bio TEXT,
google_entity_id_id TEXT,
govtrack_id INTEGER,
house_history_alternate_id TEXT,
house_history_id REAL,
icpsr_id REAL,
last_name TEXT,
lis_id TEXT,
maplight_id TEXT,
middle_name TEXT,
nickname_name TEXT,
official_full_name TEXT,
opensecrets_id TEXT,
religion_bio TEXT,
suffix_name TEXT,
thomas_id TEXT,
votesmart_id TEXT,
wikidata_id TEXT,
wikipedia_id TEXT
);
CREATE TABLE IF NOT EXISTS "historical-terms"
(
address TEXT,
bioguide TEXT
primary key,
chamber TEXT,
class REAL,
contact_form TEXT,
district REAL,
end TEXT,
fax TEXT,
last TEXT,
middle TEXT,
name TEXT,
office TEXT,
party TEXT,
party_affiliations TEXT,
phone TEXT,
relation TEXT,
rss_url TEXT,
start TEXT,
state TEXT,
state_rank TEXT,
title TEXT,
type TEXT,
url TEXT,
foreign key (bioguide) references historical(bioguide_id)
);
CREATE TABLE IF NOT EXISTS "social-media"
(
bioguide TEXT
primary key,
facebook TEXT,
facebook_id REAL,
govtrack REAL,
instagram TEXT,
instagram_id REAL,
thomas INTEGER,
twitter TEXT,
twitter_id REAL,
youtube TEXT,
youtube_id TEXT,
foreign key (bioguide) references current(bioguide_id)
);
|
movies_4 | List all the keywords with "christmas" in them. | keywords with "christmas" in them refers to keyword_name LIKE '%christmas%' | SELECT keyword_name FROM keyword WHERE keyword_name LIKE '%christmas%' | CREATE TABLE country
(
country_id INTEGER not null
primary key,
country_iso_code TEXT default NULL,
country_name TEXT default NULL
);
CREATE TABLE department
(
department_id INTEGER not null
primary key,
department_name TEXT default NULL
);
CREATE TABLE gender
(
gender_id INTEGER not null
primary key,
gender TEXT default NULL
);
CREATE TABLE genre
(
genre_id INTEGER not null
primary key,
genre_name TEXT default NULL
);
CREATE TABLE keyword
(
keyword_id INTEGER not null
primary key,
keyword_name TEXT default NULL
);
CREATE TABLE language
(
language_id INTEGER not null
primary key,
language_code TEXT default NULL,
language_name TEXT default NULL
);
CREATE TABLE language_role
(
role_id INTEGER not null
primary key,
language_role TEXT default NULL
);
CREATE TABLE movie
(
movie_id INTEGER not null
primary key,
title TEXT default NULL,
budget INTEGER default NULL,
homepage TEXT default NULL,
overview TEXT default NULL,
popularity REAL default NULL,
release_date DATE default NULL,
revenue INTEGER default NULL,
runtime INTEGER default NULL,
movie_status TEXT default NULL,
tagline TEXT default NULL,
vote_average REAL default NULL,
vote_count INTEGER default NULL
);
CREATE TABLE movie_genres
(
movie_id INTEGER default NULL,
genre_id INTEGER default NULL,
foreign key (genre_id) references genre(genre_id),
foreign key (movie_id) references movie(movie_id)
);
CREATE TABLE movie_languages
(
movie_id INTEGER default NULL,
language_id INTEGER default NULL,
language_role_id INTEGER default NULL,
foreign key (language_id) references language(language_id),
foreign key (movie_id) references movie(movie_id),
foreign key (language_role_id) references language_role(role_id)
);
CREATE TABLE person
(
person_id INTEGER not null
primary key,
person_name TEXT default NULL
);
CREATE TABLE movie_crew
(
movie_id INTEGER default NULL,
person_id INTEGER default NULL,
department_id INTEGER default NULL,
job TEXT default NULL,
foreign key (department_id) references department(department_id),
foreign key (movie_id) references movie(movie_id),
foreign key (person_id) references person(person_id)
);
CREATE TABLE production_company
(
company_id INTEGER not null
primary key,
company_name TEXT default NULL
);
CREATE TABLE production_country
(
movie_id INTEGER default NULL,
country_id INTEGER default NULL,
foreign key (country_id) references country(country_id),
foreign key (movie_id) references movie(movie_id)
);
CREATE TABLE movie_cast
(
movie_id INTEGER default NULL,
person_id INTEGER default NULL,
character_name TEXT default NULL,
gender_id INTEGER default NULL,
cast_order INTEGER default NULL,
foreign key (gender_id) references gender(gender_id),
foreign key (movie_id) references movie(movie_id),
foreign key (person_id) references person(person_id)
);
CREATE TABLE IF NOT EXISTS "movie_keywords"
(
movie_id INTEGER default NULL
references movie,
keyword_id INTEGER default NULL
references keyword
);
CREATE TABLE IF NOT EXISTS "movie_company"
(
movie_id INTEGER default NULL
references movie,
company_id INTEGER default NULL
references production_company
);
|
car_retails | List the name of employees in Japan office and who are they reporting to. | Japan is the name of the country; 'reportsTO' is the leader of the 'employeeNumber'; | SELECT t2.firstName, t2.lastName, t2.reportsTo FROM offices AS t1 INNER JOIN employees AS t2 ON t1.officeCode = t2.officeCode WHERE t1.country = 'Japan' | CREATE TABLE offices
(
officeCode TEXT not null
primary key,
city TEXT not null,
phone TEXT not null,
addressLine1 TEXT not null,
addressLine2 TEXT,
state TEXT,
country TEXT not null,
postalCode TEXT not null,
territory TEXT not null
);
CREATE TABLE employees
(
employeeNumber INTEGER not null
primary key,
lastName TEXT not null,
firstName TEXT not null,
extension TEXT not null,
email TEXT not null,
officeCode TEXT not null,
reportsTo INTEGER,
jobTitle TEXT not null,
foreign key (officeCode) references offices(officeCode),
foreign key (reportsTo) references employees(employeeNumber)
);
CREATE TABLE customers
(
customerNumber INTEGER not null
primary key,
customerName TEXT not null,
contactLastName TEXT not null,
contactFirstName TEXT not null,
phone TEXT not null,
addressLine1 TEXT not null,
addressLine2 TEXT,
city TEXT not null,
state TEXT,
postalCode TEXT,
country TEXT not null,
salesRepEmployeeNumber INTEGER,
creditLimit REAL,
foreign key (salesRepEmployeeNumber) references employees(employeeNumber)
);
CREATE TABLE orders
(
orderNumber INTEGER not null
primary key,
orderDate DATE not null,
requiredDate DATE not null,
shippedDate DATE,
status TEXT not null,
comments TEXT,
customerNumber INTEGER not null,
foreign key (customerNumber) references customers(customerNumber)
);
CREATE TABLE payments
(
customerNumber INTEGER not null,
checkNumber TEXT not null,
paymentDate DATE not null,
amount REAL not null,
primary key (customerNumber, checkNumber),
foreign key (customerNumber) references customers(customerNumber)
);
CREATE TABLE productlines
(
productLine TEXT not null
primary key,
textDescription TEXT,
htmlDescription TEXT,
image BLOB
);
CREATE TABLE products
(
productCode TEXT not null
primary key,
productName TEXT not null,
productLine TEXT not null,
productScale TEXT not null,
productVendor TEXT not null,
productDescription TEXT not null,
quantityInStock INTEGER not null,
buyPrice REAL not null,
MSRP REAL not null,
foreign key (productLine) references productlines(productLine)
);
CREATE TABLE IF NOT EXISTS "orderdetails"
(
orderNumber INTEGER not null
references orders,
productCode TEXT not null
references products,
quantityOrdered INTEGER not null,
priceEach REAL not null,
orderLineNumber INTEGER not null,
primary key (orderNumber, productCode)
);
|
law_episode | Was Anthony Azzara's role in episode tt0629204 displayed in the credits at the end of the episode? | episode tt0629204 refers to episode_id = 'tt0629204'; credited refers to credited = 'true'; not credited refers to credited = '' | SELECT T1.credited FROM Credit AS T1 INNER JOIN Person AS T2 ON T2.person_id = T1.person_id WHERE T2.name = 'Anthony Azzara' AND T1.episode_id = 'tt0629204' | CREATE TABLE Episode
(
episode_id TEXT
primary key,
series TEXT,
season INTEGER,
episode INTEGER,
number_in_series INTEGER,
title TEXT,
summary TEXT,
air_date DATE,
episode_image TEXT,
rating REAL,
votes INTEGER
);
CREATE TABLE Keyword
(
episode_id TEXT,
keyword TEXT,
primary key (episode_id, keyword),
foreign key (episode_id) references Episode(episode_id)
);
CREATE TABLE Person
(
person_id TEXT
primary key,
name TEXT,
birthdate DATE,
birth_name TEXT,
birth_place TEXT,
birth_region TEXT,
birth_country TEXT,
height_meters REAL,
nickname TEXT
);
CREATE TABLE Award
(
award_id INTEGER
primary key,
organization TEXT,
year INTEGER,
award_category TEXT,
award TEXT,
series TEXT,
episode_id TEXT,
person_id TEXT,
role TEXT,
result TEXT,
foreign key (episode_id) references Episode(episode_id),
foreign key (person_id) references Person(person_id)
);
CREATE TABLE Credit
(
episode_id TEXT,
person_id TEXT,
category TEXT,
role TEXT,
credited TEXT,
primary key (episode_id, person_id),
foreign key (episode_id) references Episode(episode_id),
foreign key (person_id) references Person(person_id)
);
CREATE TABLE Vote
(
episode_id TEXT,
stars INTEGER,
votes INTEGER,
percent REAL,
foreign key (episode_id) references Episode(episode_id)
);
|
retail_world | What are the the total number of territory in each region? | SELECT COUNT(TerritoryDescription) FROM Territories WHERE RegionID IN (1, 2, 3, 4) GROUP BY RegionID | CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE Categories
(
CategoryID INTEGER PRIMARY KEY AUTOINCREMENT,
CategoryName TEXT,
Description TEXT
);
CREATE TABLE Customers
(
CustomerID INTEGER PRIMARY KEY AUTOINCREMENT,
CustomerName TEXT,
ContactName TEXT,
Address TEXT,
City TEXT,
PostalCode TEXT,
Country TEXT
);
CREATE TABLE Employees
(
EmployeeID INTEGER PRIMARY KEY AUTOINCREMENT,
LastName TEXT,
FirstName TEXT,
BirthDate DATE,
Photo TEXT,
Notes TEXT
);
CREATE TABLE Shippers(
ShipperID INTEGER PRIMARY KEY AUTOINCREMENT,
ShipperName TEXT,
Phone TEXT
);
CREATE TABLE Suppliers(
SupplierID INTEGER PRIMARY KEY AUTOINCREMENT,
SupplierName TEXT,
ContactName TEXT,
Address TEXT,
City TEXT,
PostalCode TEXT,
Country TEXT,
Phone TEXT
);
CREATE TABLE Products(
ProductID INTEGER PRIMARY KEY AUTOINCREMENT,
ProductName TEXT,
SupplierID INTEGER,
CategoryID INTEGER,
Unit TEXT,
Price REAL DEFAULT 0,
FOREIGN KEY (CategoryID) REFERENCES Categories (CategoryID),
FOREIGN KEY (SupplierID) REFERENCES Suppliers (SupplierID)
);
CREATE TABLE Orders(
OrderID INTEGER PRIMARY KEY AUTOINCREMENT,
CustomerID INTEGER,
EmployeeID INTEGER,
OrderDate DATETIME,
ShipperID INTEGER,
FOREIGN KEY (EmployeeID) REFERENCES Employees (EmployeeID),
FOREIGN KEY (CustomerID) REFERENCES Customers (CustomerID),
FOREIGN KEY (ShipperID) REFERENCES Shippers (ShipperID)
);
CREATE TABLE OrderDetails(
OrderDetailID INTEGER PRIMARY KEY AUTOINCREMENT,
OrderID INTEGER,
ProductID INTEGER,
Quantity INTEGER,
FOREIGN KEY (OrderID) REFERENCES Orders (OrderID),
FOREIGN KEY (ProductID) REFERENCES Products (ProductID)
);
|
|
movie_platform | Which of the films directed by Álex de la Iclesia is the most popular among Mubi users? | Alex de la Iclesia is the director name; the most popular refers to Max(movie_popularity); films refers to movies; | SELECT movie_title FROM movies WHERE director_name = 'Åke Sandgren' ORDER BY movie_popularity DESC LIMIT 1 | CREATE TABLE IF NOT EXISTS "lists"
(
user_id INTEGER
references lists_users (user_id),
list_id INTEGER not null
primary key,
list_title TEXT,
list_movie_number INTEGER,
list_update_timestamp_utc TEXT,
list_creation_timestamp_utc TEXT,
list_followers INTEGER,
list_url TEXT,
list_comments INTEGER,
list_description TEXT,
list_cover_image_url TEXT,
list_first_image_url TEXT,
list_second_image_url TEXT,
list_third_image_url TEXT
);
CREATE TABLE IF NOT EXISTS "movies"
(
movie_id INTEGER not null
primary key,
movie_title TEXT,
movie_release_year INTEGER,
movie_url TEXT,
movie_title_language TEXT,
movie_popularity INTEGER,
movie_image_url TEXT,
director_id TEXT,
director_name TEXT,
director_url TEXT
);
CREATE TABLE IF NOT EXISTS "ratings_users"
(
user_id INTEGER
references lists_users (user_id),
rating_date_utc TEXT,
user_trialist INTEGER,
user_subscriber INTEGER,
user_avatar_image_url TEXT,
user_cover_image_url TEXT,
user_eligible_for_trial INTEGER,
user_has_payment_method INTEGER
);
CREATE TABLE lists_users
(
user_id INTEGER not null ,
list_id INTEGER not null ,
list_update_date_utc TEXT,
list_creation_date_utc TEXT,
user_trialist INTEGER,
user_subscriber INTEGER,
user_avatar_image_url TEXT,
user_cover_image_url TEXT,
user_eligible_for_trial TEXT,
user_has_payment_method TEXT,
primary key (user_id, list_id),
foreign key (list_id) references lists(list_id),
foreign key (user_id) references lists(user_id)
);
CREATE TABLE ratings
(
movie_id INTEGER,
rating_id INTEGER,
rating_url TEXT,
rating_score INTEGER,
rating_timestamp_utc TEXT,
critic TEXT,
critic_likes INTEGER,
critic_comments INTEGER,
user_id INTEGER,
user_trialist INTEGER,
user_subscriber INTEGER,
user_eligible_for_trial INTEGER,
user_has_payment_method INTEGER,
foreign key (movie_id) references movies(movie_id),
foreign key (user_id) references lists_users(user_id),
foreign key (rating_id) references ratings(rating_id),
foreign key (user_id) references ratings_users(user_id)
);
|
image_and_language | How many images have at least 25 attributes? | images refers to IMG_ID; have at least 25 attributes refers to count(ATT_CLASS_ID) > = 25 | SELECT COUNT(*) FROM ( SELECT IMG_ID FROM IMG_OBJ_att GROUP BY IMG_ID HAVING COUNT(ATT_CLASS_ID) > 25 ) T1 | CREATE TABLE ATT_CLASSES
(
ATT_CLASS_ID INTEGER default 0 not null
primary key,
ATT_CLASS TEXT not null
);
CREATE TABLE OBJ_CLASSES
(
OBJ_CLASS_ID INTEGER default 0 not null
primary key,
OBJ_CLASS TEXT not null
);
CREATE TABLE IMG_OBJ
(
IMG_ID INTEGER default 0 not null,
OBJ_SAMPLE_ID INTEGER default 0 not null,
OBJ_CLASS_ID INTEGER null,
X INTEGER null,
Y INTEGER null,
W INTEGER null,
H INTEGER null,
primary key (IMG_ID, OBJ_SAMPLE_ID),
foreign key (OBJ_CLASS_ID) references OBJ_CLASSES (OBJ_CLASS_ID)
);
CREATE TABLE IMG_OBJ_ATT
(
IMG_ID INTEGER default 0 not null,
ATT_CLASS_ID INTEGER default 0 not null,
OBJ_SAMPLE_ID INTEGER default 0 not null,
primary key (IMG_ID, ATT_CLASS_ID, OBJ_SAMPLE_ID),
foreign key (ATT_CLASS_ID) references ATT_CLASSES (ATT_CLASS_ID),
foreign key (IMG_ID, OBJ_SAMPLE_ID) references IMG_OBJ (IMG_ID, OBJ_SAMPLE_ID)
);
CREATE TABLE PRED_CLASSES
(
PRED_CLASS_ID INTEGER default 0 not null
primary key,
PRED_CLASS TEXT not null
);
CREATE TABLE IMG_REL
(
IMG_ID INTEGER default 0 not null,
PRED_CLASS_ID INTEGER default 0 not null,
OBJ1_SAMPLE_ID INTEGER default 0 not null,
OBJ2_SAMPLE_ID INTEGER default 0 not null,
primary key (IMG_ID, PRED_CLASS_ID, OBJ1_SAMPLE_ID, OBJ2_SAMPLE_ID),
foreign key (PRED_CLASS_ID) references PRED_CLASSES (PRED_CLASS_ID),
foreign key (IMG_ID, OBJ1_SAMPLE_ID) references IMG_OBJ (IMG_ID, OBJ_SAMPLE_ID),
foreign key (IMG_ID, OBJ2_SAMPLE_ID) references IMG_OBJ (IMG_ID, OBJ_SAMPLE_ID)
);
|
movie_platform | Please list the titles of the movie lists user 32172230 created when he or she was eligible for trial. | the user was eligible for trail when he created the list refers to user_eligile_for_trail = 1; user 32172230 refers to user_id = 32172230; | SELECT T1.list_title FROM lists AS T1 INNER JOIN lists_users AS T2 ON T1.list_id = T2.list_id AND T1.user_id = T2.user_id WHERE T1.user_id = 32172230 AND T2.user_eligible_for_trial = 1 | CREATE TABLE IF NOT EXISTS "lists"
(
user_id INTEGER
references lists_users (user_id),
list_id INTEGER not null
primary key,
list_title TEXT,
list_movie_number INTEGER,
list_update_timestamp_utc TEXT,
list_creation_timestamp_utc TEXT,
list_followers INTEGER,
list_url TEXT,
list_comments INTEGER,
list_description TEXT,
list_cover_image_url TEXT,
list_first_image_url TEXT,
list_second_image_url TEXT,
list_third_image_url TEXT
);
CREATE TABLE IF NOT EXISTS "movies"
(
movie_id INTEGER not null
primary key,
movie_title TEXT,
movie_release_year INTEGER,
movie_url TEXT,
movie_title_language TEXT,
movie_popularity INTEGER,
movie_image_url TEXT,
director_id TEXT,
director_name TEXT,
director_url TEXT
);
CREATE TABLE IF NOT EXISTS "ratings_users"
(
user_id INTEGER
references lists_users (user_id),
rating_date_utc TEXT,
user_trialist INTEGER,
user_subscriber INTEGER,
user_avatar_image_url TEXT,
user_cover_image_url TEXT,
user_eligible_for_trial INTEGER,
user_has_payment_method INTEGER
);
CREATE TABLE lists_users
(
user_id INTEGER not null ,
list_id INTEGER not null ,
list_update_date_utc TEXT,
list_creation_date_utc TEXT,
user_trialist INTEGER,
user_subscriber INTEGER,
user_avatar_image_url TEXT,
user_cover_image_url TEXT,
user_eligible_for_trial TEXT,
user_has_payment_method TEXT,
primary key (user_id, list_id),
foreign key (list_id) references lists(list_id),
foreign key (user_id) references lists(user_id)
);
CREATE TABLE ratings
(
movie_id INTEGER,
rating_id INTEGER,
rating_url TEXT,
rating_score INTEGER,
rating_timestamp_utc TEXT,
critic TEXT,
critic_likes INTEGER,
critic_comments INTEGER,
user_id INTEGER,
user_trialist INTEGER,
user_subscriber INTEGER,
user_eligible_for_trial INTEGER,
user_has_payment_method INTEGER,
foreign key (movie_id) references movies(movie_id),
foreign key (user_id) references lists_users(user_id),
foreign key (rating_id) references ratings(rating_id),
foreign key (user_id) references ratings_users(user_id)
);
|
books | How many books were published by Kensington? | "Kensington" is the publisher_name; | SELECT COUNT(T1.book_id) FROM book AS T1 INNER JOIN publisher AS T2 ON T1.publisher_id = T2.publisher_id WHERE T2.publisher_name = 'Kensington' | CREATE TABLE address_status
(
status_id INTEGER
primary key,
address_status TEXT
);
CREATE TABLE author
(
author_id INTEGER
primary key,
author_name TEXT
);
CREATE TABLE book_language
(
language_id INTEGER
primary key,
language_code TEXT,
language_name TEXT
);
CREATE TABLE country
(
country_id INTEGER
primary key,
country_name TEXT
);
CREATE TABLE address
(
address_id INTEGER
primary key,
street_number TEXT,
street_name TEXT,
city TEXT,
country_id INTEGER,
foreign key (country_id) references country(country_id)
);
CREATE TABLE customer
(
customer_id INTEGER
primary key,
first_name TEXT,
last_name TEXT,
email TEXT
);
CREATE TABLE customer_address
(
customer_id INTEGER,
address_id INTEGER,
status_id INTEGER,
primary key (customer_id, address_id),
foreign key (address_id) references address(address_id),
foreign key (customer_id) references customer(customer_id)
);
CREATE TABLE order_status
(
status_id INTEGER
primary key,
status_value TEXT
);
CREATE TABLE publisher
(
publisher_id INTEGER
primary key,
publisher_name TEXT
);
CREATE TABLE book
(
book_id INTEGER
primary key,
title TEXT,
isbn13 TEXT,
language_id INTEGER,
num_pages INTEGER,
publication_date DATE,
publisher_id INTEGER,
foreign key (language_id) references book_language(language_id),
foreign key (publisher_id) references publisher(publisher_id)
);
CREATE TABLE book_author
(
book_id INTEGER,
author_id INTEGER,
primary key (book_id, author_id),
foreign key (author_id) references author(author_id),
foreign key (book_id) references book(book_id)
);
CREATE TABLE shipping_method
(
method_id INTEGER
primary key,
method_name TEXT,
cost REAL
);
CREATE TABLE IF NOT EXISTS "cust_order"
(
order_id INTEGER
primary key autoincrement,
order_date DATETIME,
customer_id INTEGER
references customer,
shipping_method_id INTEGER
references shipping_method,
dest_address_id INTEGER
references address
);
CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE IF NOT EXISTS "order_history"
(
history_id INTEGER
primary key autoincrement,
order_id INTEGER
references cust_order,
status_id INTEGER
references order_status,
status_date DATETIME
);
CREATE TABLE IF NOT EXISTS "order_line"
(
line_id INTEGER
primary key autoincrement,
order_id INTEGER
references cust_order,
book_id INTEGER
references book,
price REAL
);
|
soccer_2016 | How many umpires are from South Africa? | South Africa refers to Country_Name = 'South Africa' | SELECT SUM(CASE WHEN T1.Country_Name = 'South Africa' THEN 1 ELSE 0 END) FROM Country AS T1 INNER JOIN Umpire AS T2 ON T1.Country_ID = T2.Umpire_Country | CREATE TABLE Batting_Style
(
Batting_Id INTEGER
primary key,
Batting_hand TEXT
);
CREATE TABLE Bowling_Style
(
Bowling_Id INTEGER
primary key,
Bowling_skill TEXT
);
CREATE TABLE City
(
City_Id INTEGER
primary key,
City_Name TEXT,
Country_id INTEGER
);
CREATE TABLE Country
(
Country_Id INTEGER
primary key,
Country_Name TEXT,
foreign key (Country_Id) references Country(Country_Id)
);
CREATE TABLE Extra_Type
(
Extra_Id INTEGER
primary key,
Extra_Name TEXT
);
CREATE TABLE Extra_Runs
(
Match_Id INTEGER,
Over_Id INTEGER,
Ball_Id INTEGER,
Extra_Type_Id INTEGER,
Extra_Runs INTEGER,
Innings_No INTEGER,
primary key (Match_Id, Over_Id, Ball_Id, Innings_No),
foreign key (Extra_Type_Id) references Extra_Type(Extra_Id)
);
CREATE TABLE Out_Type
(
Out_Id INTEGER
primary key,
Out_Name TEXT
);
CREATE TABLE Outcome
(
Outcome_Id INTEGER
primary key,
Outcome_Type TEXT
);
CREATE TABLE Player
(
Player_Id INTEGER
primary key,
Player_Name TEXT,
DOB DATE,
Batting_hand INTEGER,
Bowling_skill INTEGER,
Country_Name INTEGER,
foreign key (Batting_hand) references Batting_Style(Batting_Id),
foreign key (Bowling_skill) references Bowling_Style(Bowling_Id),
foreign key (Country_Name) references Country(Country_Id)
);
CREATE TABLE Rolee
(
Role_Id INTEGER
primary key,
Role_Desc TEXT
);
CREATE TABLE Season
(
Season_Id INTEGER
primary key,
Man_of_the_Series INTEGER,
Orange_Cap INTEGER,
Purple_Cap INTEGER,
Season_Year INTEGER
);
CREATE TABLE Team
(
Team_Id INTEGER
primary key,
Team_Name TEXT
);
CREATE TABLE Toss_Decision
(
Toss_Id INTEGER
primary key,
Toss_Name TEXT
);
CREATE TABLE Umpire
(
Umpire_Id INTEGER
primary key,
Umpire_Name TEXT,
Umpire_Country INTEGER,
foreign key (Umpire_Country) references Country(Country_Id)
);
CREATE TABLE Venue
(
Venue_Id INTEGER
primary key,
Venue_Name TEXT,
City_Id INTEGER,
foreign key (City_Id) references City(City_Id)
);
CREATE TABLE Win_By
(
Win_Id INTEGER
primary key,
Win_Type TEXT
);
CREATE TABLE Match
(
Match_Id INTEGER
primary key,
Team_1 INTEGER,
Team_2 INTEGER,
Match_Date DATE,
Season_Id INTEGER,
Venue_Id INTEGER,
Toss_Winner INTEGER,
Toss_Decide INTEGER,
Win_Type INTEGER,
Win_Margin INTEGER,
Outcome_type INTEGER,
Match_Winner INTEGER,
Man_of_the_Match INTEGER,
foreign key (Team_1) references Team(Team_Id),
foreign key (Team_2) references Team(Team_Id),
foreign key (Season_Id) references Season(Season_Id),
foreign key (Venue_Id) references Venue(Venue_Id),
foreign key (Toss_Winner) references Team(Team_Id),
foreign key (Toss_Decide) references Toss_Decision(Toss_Id),
foreign key (Win_Type) references Win_By(Win_Id),
foreign key (Outcome_type) references Out_Type(Out_Id),
foreign key (Match_Winner) references Team(Team_Id),
foreign key (Man_of_the_Match) references Player(Player_Id)
);
CREATE TABLE Ball_by_Ball
(
Match_Id INTEGER,
Over_Id INTEGER,
Ball_Id INTEGER,
Innings_No INTEGER,
Team_Batting INTEGER,
Team_Bowling INTEGER,
Striker_Batting_Position INTEGER,
Striker INTEGER,
Non_Striker INTEGER,
Bowler INTEGER,
primary key (Match_Id, Over_Id, Ball_Id, Innings_No),
foreign key (Match_Id) references Match(Match_Id)
);
CREATE TABLE Batsman_Scored
(
Match_Id INTEGER,
Over_Id INTEGER,
Ball_Id INTEGER,
Runs_Scored INTEGER,
Innings_No INTEGER,
primary key (Match_Id, Over_Id, Ball_Id, Innings_No),
foreign key (Match_Id) references Match(Match_Id)
);
CREATE TABLE Player_Match
(
Match_Id INTEGER,
Player_Id INTEGER,
Role_Id INTEGER,
Team_Id INTEGER,
primary key (Match_Id, Player_Id, Role_Id),
foreign key (Match_Id) references Match(Match_Id),
foreign key (Player_Id) references Player(Player_Id),
foreign key (Team_Id) references Team(Team_Id),
foreign key (Role_Id) references Rolee(Role_Id)
);
CREATE TABLE Wicket_Taken
(
Match_Id INTEGER,
Over_Id INTEGER,
Ball_Id INTEGER,
Player_Out INTEGER,
Kind_Out INTEGER,
Fielders INTEGER,
Innings_No INTEGER,
primary key (Match_Id, Over_Id, Ball_Id, Innings_No),
foreign key (Match_Id) references Match(Match_Id),
foreign key (Player_Out) references Player(Player_Id),
foreign key (Kind_Out) references Out_Type(Out_Id),
foreign key (Fielders) references Player(Player_Id)
);
|
legislator | How many current legislators have both accounts on both VoteView.com and maplight.org? | have both accounts on both VoteView.com and maplight.org refers to icpsr_id is not null AND maplight_id is not null; | SELECT COUNT(*) FROM current WHERE icpsr_id IS NOT NULL AND maplight_id IS NOT NULL | CREATE TABLE current
(
ballotpedia_id TEXT,
bioguide_id TEXT,
birthday_bio DATE,
cspan_id REAL,
fec_id TEXT,
first_name TEXT,
gender_bio TEXT,
google_entity_id_id TEXT,
govtrack_id INTEGER,
house_history_id REAL,
icpsr_id REAL,
last_name TEXT,
lis_id TEXT,
maplight_id REAL,
middle_name TEXT,
nickname_name TEXT,
official_full_name TEXT,
opensecrets_id TEXT,
religion_bio TEXT,
suffix_name TEXT,
thomas_id INTEGER,
votesmart_id REAL,
wikidata_id TEXT,
wikipedia_id TEXT,
primary key (bioguide_id, cspan_id)
);
CREATE TABLE IF NOT EXISTS "current-terms"
(
address TEXT,
bioguide TEXT,
caucus TEXT,
chamber TEXT,
class REAL,
contact_form TEXT,
district REAL,
end TEXT,
fax TEXT,
last TEXT,
name TEXT,
office TEXT,
party TEXT,
party_affiliations TEXT,
phone TEXT,
relation TEXT,
rss_url TEXT,
start TEXT,
state TEXT,
state_rank TEXT,
title TEXT,
type TEXT,
url TEXT,
primary key (bioguide, end),
foreign key (bioguide) references current(bioguide_id)
);
CREATE TABLE historical
(
ballotpedia_id TEXT,
bioguide_id TEXT
primary key,
bioguide_previous_id TEXT,
birthday_bio TEXT,
cspan_id TEXT,
fec_id TEXT,
first_name TEXT,
gender_bio TEXT,
google_entity_id_id TEXT,
govtrack_id INTEGER,
house_history_alternate_id TEXT,
house_history_id REAL,
icpsr_id REAL,
last_name TEXT,
lis_id TEXT,
maplight_id TEXT,
middle_name TEXT,
nickname_name TEXT,
official_full_name TEXT,
opensecrets_id TEXT,
religion_bio TEXT,
suffix_name TEXT,
thomas_id TEXT,
votesmart_id TEXT,
wikidata_id TEXT,
wikipedia_id TEXT
);
CREATE TABLE IF NOT EXISTS "historical-terms"
(
address TEXT,
bioguide TEXT
primary key,
chamber TEXT,
class REAL,
contact_form TEXT,
district REAL,
end TEXT,
fax TEXT,
last TEXT,
middle TEXT,
name TEXT,
office TEXT,
party TEXT,
party_affiliations TEXT,
phone TEXT,
relation TEXT,
rss_url TEXT,
start TEXT,
state TEXT,
state_rank TEXT,
title TEXT,
type TEXT,
url TEXT,
foreign key (bioguide) references historical(bioguide_id)
);
CREATE TABLE IF NOT EXISTS "social-media"
(
bioguide TEXT
primary key,
facebook TEXT,
facebook_id REAL,
govtrack REAL,
instagram TEXT,
instagram_id REAL,
thomas INTEGER,
twitter TEXT,
twitter_id REAL,
youtube TEXT,
youtube_id TEXT,
foreign key (bioguide) references current(bioguide_id)
);
|
retail_complains | What is the percentage of male clients complaining about their credit cards? | percentage = MULTIPLY(DIVIDE(SUM(sex = 'Male'), COUNT(client_id)), 1.0); male refers to sex = 'Male'; credit cards refers to Product = 'Credit card'; | SELECT CAST(SUM(CASE WHEN T1.sex = 'Male' THEN 1 ELSE 0 END) AS REAL) * 100 / COUNT(T1.sex) FROM client AS T1 INNER JOIN events AS T2 ON T1.client_id = T2.Client_ID WHERE T2.Product = 'Credit card' | CREATE TABLE state
(
StateCode TEXT
constraint state_pk
primary key,
State TEXT,
Region TEXT
);
CREATE TABLE callcenterlogs
(
"Date received" DATE,
"Complaint ID" TEXT,
"rand client" TEXT,
phonefinal TEXT,
"vru+line" TEXT,
call_id INTEGER,
priority INTEGER,
type TEXT,
outcome TEXT,
server TEXT,
ser_start TEXT,
ser_exit TEXT,
ser_time TEXT,
primary key ("Complaint ID"),
foreign key ("rand client") references client(client_id)
);
CREATE TABLE client
(
client_id TEXT
primary key,
sex TEXT,
day INTEGER,
month INTEGER,
year INTEGER,
age INTEGER,
social TEXT,
first TEXT,
middle TEXT,
last TEXT,
phone TEXT,
email TEXT,
address_1 TEXT,
address_2 TEXT,
city TEXT,
state TEXT,
zipcode INTEGER,
district_id INTEGER,
foreign key (district_id) references district(district_id)
);
CREATE TABLE district
(
district_id INTEGER
primary key,
city TEXT,
state_abbrev TEXT,
division TEXT,
foreign key (state_abbrev) references state(StateCode)
);
CREATE TABLE events
(
"Date received" DATE,
Product TEXT,
"Sub-product" TEXT,
Issue TEXT,
"Sub-issue" TEXT,
"Consumer complaint narrative" TEXT,
Tags TEXT,
"Consumer consent provided?" TEXT,
"Submitted via" TEXT,
"Date sent to company" TEXT,
"Company response to consumer" TEXT,
"Timely response?" TEXT,
"Consumer disputed?" TEXT,
"Complaint ID" TEXT,
Client_ID TEXT,
primary key ("Complaint ID", Client_ID),
foreign key ("Complaint ID") references callcenterlogs("Complaint ID"),
foreign key (Client_ID) references client(client_id)
);
CREATE TABLE reviews
(
"Date" DATE
primary key,
Stars INTEGER,
Reviews TEXT,
Product TEXT,
district_id INTEGER,
foreign key (district_id) references district(district_id)
);
|
books | What are the languages of the first two published books? | first two published book refers to Min(publication_date); language refers to language_name | SELECT T2.language_name FROM book AS T1 INNER JOIN book_language AS T2 ON T1.language_id = T2.language_id ORDER BY T1.publication_date ASC LIMIT 2 | CREATE TABLE address_status
(
status_id INTEGER
primary key,
address_status TEXT
);
CREATE TABLE author
(
author_id INTEGER
primary key,
author_name TEXT
);
CREATE TABLE book_language
(
language_id INTEGER
primary key,
language_code TEXT,
language_name TEXT
);
CREATE TABLE country
(
country_id INTEGER
primary key,
country_name TEXT
);
CREATE TABLE address
(
address_id INTEGER
primary key,
street_number TEXT,
street_name TEXT,
city TEXT,
country_id INTEGER,
foreign key (country_id) references country(country_id)
);
CREATE TABLE customer
(
customer_id INTEGER
primary key,
first_name TEXT,
last_name TEXT,
email TEXT
);
CREATE TABLE customer_address
(
customer_id INTEGER,
address_id INTEGER,
status_id INTEGER,
primary key (customer_id, address_id),
foreign key (address_id) references address(address_id),
foreign key (customer_id) references customer(customer_id)
);
CREATE TABLE order_status
(
status_id INTEGER
primary key,
status_value TEXT
);
CREATE TABLE publisher
(
publisher_id INTEGER
primary key,
publisher_name TEXT
);
CREATE TABLE book
(
book_id INTEGER
primary key,
title TEXT,
isbn13 TEXT,
language_id INTEGER,
num_pages INTEGER,
publication_date DATE,
publisher_id INTEGER,
foreign key (language_id) references book_language(language_id),
foreign key (publisher_id) references publisher(publisher_id)
);
CREATE TABLE book_author
(
book_id INTEGER,
author_id INTEGER,
primary key (book_id, author_id),
foreign key (author_id) references author(author_id),
foreign key (book_id) references book(book_id)
);
CREATE TABLE shipping_method
(
method_id INTEGER
primary key,
method_name TEXT,
cost REAL
);
CREATE TABLE IF NOT EXISTS "cust_order"
(
order_id INTEGER
primary key autoincrement,
order_date DATETIME,
customer_id INTEGER
references customer,
shipping_method_id INTEGER
references shipping_method,
dest_address_id INTEGER
references address
);
CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE IF NOT EXISTS "order_history"
(
history_id INTEGER
primary key autoincrement,
order_id INTEGER
references cust_order,
status_id INTEGER
references order_status,
status_date DATETIME
);
CREATE TABLE IF NOT EXISTS "order_line"
(
line_id INTEGER
primary key autoincrement,
order_id INTEGER
references cust_order,
book_id INTEGER
references book,
price REAL
);
|
restaurant | What is the name of the least popular Indian restaurant on Shattuck Avenue in Berkeley? | restaurant name refers to label; the least popular refers to min(review); Indian restaurant refers to food_type = 'Indian restaurant'; Shattuck Avenue in Berkeley refers to street_name = 'shattuck ave' and city = 'berkeley' | SELECT T1.id_restaurant FROM generalinfo AS T1 INNER JOIN location AS T2 ON T1.id_restaurant = T2.id_restaurant WHERE T1.city = 'berkeley' AND T2.street_name = 'shattuck ave' AND T1.food_type = 'Indian restaurant' ORDER BY T1.review LIMIT 1 | CREATE TABLE geographic
(
city TEXT not null
primary key,
county TEXT null,
region TEXT null
);
CREATE TABLE generalinfo
(
id_restaurant INTEGER not null
primary key,
label TEXT null,
food_type TEXT null,
city TEXT null,
review REAL null,
foreign key (city) references geographic(city)
on update cascade on delete cascade
);
CREATE TABLE location
(
id_restaurant INTEGER not null
primary key,
street_num INTEGER null,
street_name TEXT null,
city TEXT null,
foreign key (city) references geographic (city)
on update cascade on delete cascade,
foreign key (id_restaurant) references generalinfo (id_restaurant)
on update cascade on delete cascade
);
|
movie_3 | What is the average duration time of the films starring PENELOPE GUINESS? | average duration time = AVG(length) | SELECT AVG(T3.length) FROM actor AS T1 INNER JOIN film_actor AS T2 ON T1.actor_id = T2.actor_id INNER JOIN film AS T3 ON T2.film_id = T3.film_id WHERE T1.first_name = 'PENELOPE' AND T1.last_name = 'GUINESS' | CREATE TABLE film_text
(
film_id INTEGER not null
primary key,
title TEXT not null,
description TEXT null
);
CREATE TABLE IF NOT EXISTS "actor"
(
actor_id INTEGER
primary key autoincrement,
first_name TEXT not null,
last_name TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE IF NOT EXISTS "address"
(
address_id INTEGER
primary key autoincrement,
address TEXT not null,
address2 TEXT,
district TEXT not null,
city_id INTEGER not null
references city
on update cascade,
postal_code TEXT,
phone TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "category"
(
category_id INTEGER
primary key autoincrement,
name TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "city"
(
city_id INTEGER
primary key autoincrement,
city TEXT not null,
country_id INTEGER not null
references country
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "country"
(
country_id INTEGER
primary key autoincrement,
country TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "customer"
(
customer_id INTEGER
primary key autoincrement,
store_id INTEGER not null
references store
on update cascade,
first_name TEXT not null,
last_name TEXT not null,
email TEXT,
address_id INTEGER not null
references address
on update cascade,
active INTEGER default 1 not null,
create_date DATETIME not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "film"
(
film_id INTEGER
primary key autoincrement,
title TEXT not null,
description TEXT,
release_year TEXT,
language_id INTEGER not null
references language
on update cascade,
original_language_id INTEGER
references language
on update cascade,
rental_duration INTEGER default 3 not null,
rental_rate REAL default 4.99 not null,
length INTEGER,
replacement_cost REAL default 19.99 not null,
rating TEXT default 'G',
special_features TEXT,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "film_actor"
(
actor_id INTEGER not null
references actor
on update cascade,
film_id INTEGER not null
references film
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null,
primary key (actor_id, film_id)
);
CREATE TABLE IF NOT EXISTS "film_category"
(
film_id INTEGER not null
references film
on update cascade,
category_id INTEGER not null
references category
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null,
primary key (film_id, category_id)
);
CREATE TABLE IF NOT EXISTS "inventory"
(
inventory_id INTEGER
primary key autoincrement,
film_id INTEGER not null
references film
on update cascade,
store_id INTEGER not null
references store
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "language"
(
language_id INTEGER
primary key autoincrement,
name TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "payment"
(
payment_id INTEGER
primary key autoincrement,
customer_id INTEGER not null
references customer
on update cascade,
staff_id INTEGER not null
references staff
on update cascade,
rental_id INTEGER
references rental
on update cascade on delete set null,
amount REAL not null,
payment_date DATETIME not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "rental"
(
rental_id INTEGER
primary key autoincrement,
rental_date DATETIME not null,
inventory_id INTEGER not null
references inventory
on update cascade,
customer_id INTEGER not null
references customer
on update cascade,
return_date DATETIME,
staff_id INTEGER not null
references staff
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null,
unique (rental_date, inventory_id, customer_id)
);
CREATE TABLE IF NOT EXISTS "staff"
(
staff_id INTEGER
primary key autoincrement,
first_name TEXT not null,
last_name TEXT not null,
address_id INTEGER not null
references address
on update cascade,
picture BLOB,
email TEXT,
store_id INTEGER not null
references store
on update cascade,
active INTEGER default 1 not null,
username TEXT not null,
password TEXT,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "store"
(
store_id INTEGER
primary key autoincrement,
manager_staff_id INTEGER not null
unique
references staff
on update cascade,
address_id INTEGER not null
references address
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
|
food_inspection | In businesses with a score lower than 95 and located around the postal code of 94110, what is the percentage of businesses with a risk category of low risk? | DIVIDE(COUNT(business_id where risk_category = 'Low Risk', score < 95 and postal_code = 94110), COUNT(business_id where score < 95 and postal_code = 94110)) as percentage; | SELECT CAST(SUM(CASE WHEN T1.risk_category = 'Low Risk' THEN 1 ELSE 0 END) AS REAL) * 100 / COUNT(T1.risk_category) FROM violations AS T1 INNER JOIN inspections AS T2 ON T1.business_id = T2.business_id INNER JOIN businesses AS T3 ON T2.business_id = T3.business_id WHERE T2.score < 95 AND T3.postal_code = 94110 | CREATE TABLE `businesses` (
`business_id` INTEGER NOT NULL,
`name` TEXT NOT NULL,
`address` TEXT DEFAULT NULL,
`city` TEXT DEFAULT NULL,
`postal_code` TEXT DEFAULT NULL,
`latitude` REAL DEFAULT NULL,
`longitude` REAL DEFAULT NULL,
`phone_number` INTEGER DEFAULT NULL,
`tax_code` TEXT DEFAULT NULL,
`business_certificate` INTEGER NOT NULL,
`application_date` DATE DEFAULT NULL,
`owner_name` TEXT NOT NULL,
`owner_address` TEXT DEFAULT NULL,
`owner_city` TEXT DEFAULT NULL,
`owner_state` TEXT DEFAULT NULL,
`owner_zip` TEXT DEFAULT NULL,
PRIMARY KEY (`business_id`)
);
CREATE TABLE `inspections` (
`business_id` INTEGER NOT NULL,
`score` INTEGER DEFAULT NULL,
`date` DATE NOT NULL,
`type` TEXT NOT NULL,
FOREIGN KEY (`business_id`) REFERENCES `businesses` (`business_id`)
);
CREATE TABLE `violations` (
`business_id` INTEGER NOT NULL,
`date` DATE NOT NULL,
`violation_type_id` TEXT NOT NULL,
`risk_category` TEXT NOT NULL,
`description` TEXT NOT NULL,
FOREIGN KEY (`business_id`) REFERENCES `businesses` (`business_id`)
);
|
olympics | When did Roma host the Olympic Games? | Roma refers to city_name = 'Roma'; When host refers to games_year; | SELECT T3.games_year FROM games_city AS T1 INNER JOIN city AS T2 ON T1.city_id = T2.id INNER JOIN games AS T3 ON T1.games_id = T3.id WHERE T2.city_name = 'Roma' | CREATE TABLE city
(
id INTEGER not null
primary key,
city_name TEXT default NULL
);
CREATE TABLE games
(
id INTEGER not null
primary key,
games_year INTEGER default NULL,
games_name TEXT default NULL,
season TEXT default NULL
);
CREATE TABLE games_city
(
games_id INTEGER default NULL,
city_id INTEGER default NULL,
foreign key (city_id) references city(id),
foreign key (games_id) references games(id)
);
CREATE TABLE medal
(
id INTEGER not null
primary key,
medal_name TEXT default NULL
);
CREATE TABLE noc_region
(
id INTEGER not null
primary key,
noc TEXT default NULL,
region_name TEXT default NULL
);
CREATE TABLE person
(
id INTEGER not null
primary key,
full_name TEXT default NULL,
gender TEXT default NULL,
height INTEGER default NULL,
weight INTEGER default NULL
);
CREATE TABLE games_competitor
(
id INTEGER not null
primary key,
games_id INTEGER default NULL,
person_id INTEGER default NULL,
age INTEGER default NULL,
foreign key (games_id) references games(id),
foreign key (person_id) references person(id)
);
CREATE TABLE person_region
(
person_id INTEGER default NULL,
region_id INTEGER default NULL,
foreign key (person_id) references person(id),
foreign key (region_id) references noc_region(id)
);
CREATE TABLE sport
(
id INTEGER not null
primary key,
sport_name TEXT default NULL
);
CREATE TABLE event
(
id INTEGER not null
primary key,
sport_id INTEGER default NULL,
event_name TEXT default NULL,
foreign key (sport_id) references sport(id)
);
CREATE TABLE competitor_event
(
event_id INTEGER default NULL,
competitor_id INTEGER default NULL,
medal_id INTEGER default NULL,
foreign key (competitor_id) references games_competitor(id),
foreign key (event_id) references event(id),
foreign key (medal_id) references medal(id)
);
|
cars | List the price of Ford cars from model 1970 to 1980. | Ford cars refers to car_name LIKE 'ford%'; from model 1970 to 1980 refers to model_year BETWEEN 1970 AND 1980 | SELECT DISTINCT T3.price FROM data AS T1 INNER JOIN production AS T2 ON T1.ID = T2.ID INNER JOIN price AS T3 ON T3.ID = T2.ID WHERE T1.car_name LIKE 'ford%' AND T2.model_year BETWEEN 1970 AND 1980 | CREATE TABLE country
(
origin INTEGER
primary key,
country TEXT
);
CREATE TABLE price
(
ID INTEGER
primary key,
price REAL
);
CREATE TABLE data
(
ID INTEGER
primary key,
mpg REAL,
cylinders INTEGER,
displacement REAL,
horsepower INTEGER,
weight INTEGER,
acceleration REAL,
model INTEGER,
car_name TEXT,
foreign key (ID) references price(ID)
);
CREATE TABLE production
(
ID INTEGER,
model_year INTEGER,
country INTEGER,
primary key (ID, model_year),
foreign key (country) references country(origin),
foreign key (ID) references data(ID),
foreign key (ID) references price(ID)
);
|
professional_basketball | For all the full attendence players in 1995, which player had most turnovers? Give the full name of the player. | full attendance refers to GP = 82; in 1995 refers to year = 1995; the most turnovers refers to max(turnovers); full name refers to first_name, last_name | SELECT T1.firstName, T1.middleName, T1.lastName FROM players AS T1 INNER JOIN players_teams AS T2 ON T1.playerID = T2.playerID WHERE T2.GP = 82 AND T2.year = 1995 ORDER BY T2.turnovers DESC LIMIT 1 | CREATE TABLE awards_players
(
playerID TEXT not null,
award TEXT not null,
year INTEGER not null,
lgID TEXT null,
note TEXT null,
pos TEXT null,
primary key (playerID, year, award),
foreign key (playerID) references players (playerID)
on update cascade on delete cascade
);
CREATE TABLE coaches
(
coachID TEXT not null,
year INTEGER not null,
tmID TEXT not null,
lgID TEXT null,
stint INTEGER not null,
won INTEGER null,
lost INTEGER null,
post_wins INTEGER null,
post_losses INTEGER null,
primary key (coachID, year, tmID, stint),
foreign key (tmID, year) references teams (tmID, year)
on update cascade on delete cascade
);
CREATE TABLE draft
(
id INTEGER default 0 not null
primary key,
draftYear INTEGER null,
draftRound INTEGER null,
draftSelection INTEGER null,
draftOverall INTEGER null,
tmID TEXT null,
firstName TEXT null,
lastName TEXT null,
suffixName TEXT null,
playerID TEXT null,
draftFrom TEXT null,
lgID TEXT null,
foreign key (tmID, draftYear) references teams (tmID, year)
on update cascade on delete cascade
);
CREATE TABLE player_allstar
(
playerID TEXT not null,
last_name TEXT null,
first_name TEXT null,
season_id INTEGER not null,
conference TEXT null,
league_id TEXT null,
games_played INTEGER null,
minutes INTEGER null,
points INTEGER null,
o_rebounds INTEGER null,
d_rebounds INTEGER null,
rebounds INTEGER null,
assists INTEGER null,
steals INTEGER null,
blocks INTEGER null,
turnovers INTEGER null,
personal_fouls INTEGER null,
fg_attempted INTEGER null,
fg_made INTEGER null,
ft_attempted INTEGER null,
ft_made INTEGER null,
three_attempted INTEGER null,
three_made INTEGER null,
primary key (playerID, season_id),
foreign key (playerID) references players (playerID)
on update cascade on delete cascade
);
CREATE TABLE players
(
playerID TEXT not null
primary key,
useFirst TEXT null,
firstName TEXT null,
middleName TEXT null,
lastName TEXT null,
nameGiven TEXT null,
fullGivenName TEXT null,
nameSuffix TEXT null,
nameNick TEXT null,
pos TEXT null,
firstseason INTEGER null,
lastseason INTEGER null,
height REAL null,
weight INTEGER null,
college TEXT null,
collegeOther TEXT null,
birthDate DATE null,
birthCity TEXT null,
birthState TEXT null,
birthCountry TEXT null,
highSchool TEXT null,
hsCity TEXT null,
hsState TEXT null,
hsCountry TEXT null,
deathDate DATE null,
race TEXT null
);
CREATE TABLE teams
(
year INTEGER not null,
lgID TEXT null,
tmID TEXT not null,
franchID TEXT null,
confID TEXT null,
divID TEXT null,
`rank` INTEGER null,
confRank INTEGER null,
playoff TEXT null,
name TEXT null,
o_fgm INTEGER null,
-- o_fga int null,
o_ftm INTEGER null,
-- o_fta int null,
-- o_3pm int null,
-- o_3pa int null,
-- o_oreb int null,
-- o_dreb int null,
-- o_reb int null,
-- o_asts int null,
-- o_pf int null,
-- o_stl int null,
-- o_to int null,
-- o_blk int null,
o_pts INTEGER null,
-- d_fgm int null,
-- d_fga int null,
-- d_ftm int null,
-- d_fta int null,
-- d_3pm int null,
-- d_3pa int null,
-- d_oreb int null,
-- d_dreb int null,
-- d_reb int null,
-- d_asts int null,
-- d_pf int null,
-- d_stl int null,
-- d_to int null,
-- d_blk int null,
d_pts INTEGER null,
-- o_tmRebound int null,
-- d_tmRebound int null,
homeWon INTEGER null,
homeLost INTEGER null,
awayWon INTEGER null,
awayLost INTEGER null,
-- neutWon int null,
-- neutLoss int null,
-- confWon int null,
-- confLoss int null,
-- divWon int null,
-- divLoss int null,
-- pace int null,
won INTEGER null,
lost INTEGER null,
games INTEGER null,
-- min int null,
arena TEXT null,
-- attendance int null,
-- bbtmID varchar(255) null,
primary key (year, tmID)
);
CREATE TABLE IF NOT EXISTS "awards_coaches"
(
id INTEGER
primary key autoincrement,
year INTEGER,
coachID TEXT,
award TEXT,
lgID TEXT,
note TEXT,
foreign key (coachID, year) references coaches (coachID, year)
on update cascade on delete cascade
);
CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE IF NOT EXISTS "players_teams"
(
id INTEGER
primary key autoincrement,
playerID TEXT not null
references players
on update cascade on delete cascade,
year INTEGER,
stint INTEGER,
tmID TEXT,
lgID TEXT,
GP INTEGER,
GS INTEGER,
minutes INTEGER,
points INTEGER,
oRebounds INTEGER,
dRebounds INTEGER,
rebounds INTEGER,
assists INTEGER,
steals INTEGER,
blocks INTEGER,
turnovers INTEGER,
PF INTEGER,
fgAttempted INTEGER,
fgMade INTEGER,
ftAttempted INTEGER,
ftMade INTEGER,
threeAttempted INTEGER,
threeMade INTEGER,
PostGP INTEGER,
PostGS INTEGER,
PostMinutes INTEGER,
PostPoints INTEGER,
PostoRebounds INTEGER,
PostdRebounds INTEGER,
PostRebounds INTEGER,
PostAssists INTEGER,
PostSteals INTEGER,
PostBlocks INTEGER,
PostTurnovers INTEGER,
PostPF INTEGER,
PostfgAttempted INTEGER,
PostfgMade INTEGER,
PostftAttempted INTEGER,
PostftMade INTEGER,
PostthreeAttempted INTEGER,
PostthreeMade INTEGER,
note TEXT,
foreign key (tmID, year) references teams (tmID, year)
on update cascade on delete cascade
);
CREATE TABLE IF NOT EXISTS "series_post"
(
id INTEGER
primary key autoincrement,
year INTEGER,
round TEXT,
series TEXT,
tmIDWinner TEXT,
lgIDWinner TEXT,
tmIDLoser TEXT,
lgIDLoser TEXT,
W INTEGER,
L INTEGER,
foreign key (tmIDWinner, year) references teams (tmID, year)
on update cascade on delete cascade,
foreign key (tmIDLoser, year) references teams (tmID, year)
on update cascade on delete cascade
);
|
airline | List the air carrier's description of the flights with 0 departure delay. | 0 departure delay refers to DEP_DELAY = 0; | SELECT T1.Description FROM `Air Carriers` AS T1 INNER JOIN Airlines AS T2 ON T1.Code = T2.OP_CARRIER_AIRLINE_ID WHERE T2.DEP_DELAY = 0 GROUP BY T1.Description | CREATE TABLE IF NOT EXISTS "Air Carriers"
(
Code INTEGER
primary key,
Description TEXT
);
CREATE TABLE Airports
(
Code TEXT
primary key,
Description TEXT
);
CREATE TABLE Airlines
(
FL_DATE TEXT,
OP_CARRIER_AIRLINE_ID INTEGER,
TAIL_NUM TEXT,
OP_CARRIER_FL_NUM INTEGER,
ORIGIN_AIRPORT_ID INTEGER,
ORIGIN_AIRPORT_SEQ_ID INTEGER,
ORIGIN_CITY_MARKET_ID INTEGER,
ORIGIN TEXT,
DEST_AIRPORT_ID INTEGER,
DEST_AIRPORT_SEQ_ID INTEGER,
DEST_CITY_MARKET_ID INTEGER,
DEST TEXT,
CRS_DEP_TIME INTEGER,
DEP_TIME INTEGER,
DEP_DELAY INTEGER,
DEP_DELAY_NEW INTEGER,
ARR_TIME INTEGER,
ARR_DELAY INTEGER,
ARR_DELAY_NEW INTEGER,
CANCELLED INTEGER,
CANCELLATION_CODE TEXT,
CRS_ELAPSED_TIME INTEGER,
ACTUAL_ELAPSED_TIME INTEGER,
CARRIER_DELAY INTEGER,
WEATHER_DELAY INTEGER,
NAS_DELAY INTEGER,
SECURITY_DELAY INTEGER,
LATE_AIRCRAFT_DELAY INTEGER,
FOREIGN KEY (ORIGIN) REFERENCES Airports(Code),
FOREIGN KEY (DEST) REFERENCES Airports(Code),
FOREIGN KEY (OP_CARRIER_AIRLINE_ID) REFERENCES "Air Carriers"(Code)
);
|
hockey | List all the deceased goalies and the teams he had played whose birth country was in Canada. | goalies refers to pos = 'G'; deceased goalies refers to deathYear IS NOT NULL
| SELECT DISTINCT firstName, lastName, T3.name FROM Goalies AS T1 INNER JOIN Master AS T2 ON T2.playerID = T1.playerID INNER JOIN Teams AS T3 ON T1.lgID = T3.lgID WHERE T2.birthCountry = 'Canada' AND T2.deathYear IS NOT NULL AND T2.pos = 'G' | CREATE TABLE AwardsMisc
(
name TEXT not null
primary key,
ID TEXT,
award TEXT,
year INTEGER,
lgID TEXT,
note TEXT
);
CREATE TABLE HOF
(
year INTEGER,
hofID TEXT not null
primary key,
name TEXT,
category TEXT
);
CREATE TABLE Teams
(
year INTEGER not null,
lgID TEXT,
tmID TEXT not null,
franchID TEXT,
confID TEXT,
divID TEXT,
rank INTEGER,
playoff TEXT,
G INTEGER,
W INTEGER,
L INTEGER,
T INTEGER,
OTL TEXT,
Pts INTEGER,
SoW TEXT,
SoL TEXT,
GF INTEGER,
GA INTEGER,
name TEXT,
PIM TEXT,
BenchMinor TEXT,
PPG TEXT,
PPC TEXT,
SHA TEXT,
PKG TEXT,
PKC TEXT,
SHF TEXT,
primary key (year, tmID)
);
CREATE TABLE Coaches
(
coachID TEXT not null,
year INTEGER not null,
tmID TEXT not null,
lgID TEXT,
stint INTEGER not null,
notes TEXT,
g INTEGER,
w INTEGER,
l INTEGER,
t INTEGER,
postg TEXT,
postw TEXT,
postl TEXT,
postt TEXT,
primary key (coachID, year, tmID, stint),
foreign key (year, tmID) references Teams (year, tmID)
on update cascade on delete cascade
);
CREATE TABLE AwardsCoaches
(
coachID TEXT,
award TEXT,
year INTEGER,
lgID TEXT,
note TEXT,
foreign key (coachID) references Coaches (coachID)
);
CREATE TABLE Master
(
playerID TEXT,
coachID TEXT,
hofID TEXT,
firstName TEXT,
lastName TEXT not null,
nameNote TEXT,
nameGiven TEXT,
nameNick TEXT,
height TEXT,
weight TEXT,
shootCatch TEXT,
legendsID TEXT,
ihdbID TEXT,
hrefID TEXT,
firstNHL TEXT,
lastNHL TEXT,
firstWHA TEXT,
lastWHA TEXT,
pos TEXT,
birthYear TEXT,
birthMon TEXT,
birthDay TEXT,
birthCountry TEXT,
birthState TEXT,
birthCity TEXT,
deathYear TEXT,
deathMon TEXT,
deathDay TEXT,
deathCountry TEXT,
deathState TEXT,
deathCity TEXT,
foreign key (coachID) references Coaches (coachID)
on update cascade on delete cascade
);
CREATE TABLE AwardsPlayers
(
playerID TEXT not null,
award TEXT not null,
year INTEGER not null,
lgID TEXT,
note TEXT,
pos TEXT,
primary key (playerID, award, year),
foreign key (playerID) references Master (playerID)
on update cascade on delete cascade
);
CREATE TABLE CombinedShutouts
(
year INTEGER,
month INTEGER,
date INTEGER,
tmID TEXT,
oppID TEXT,
"R/P" TEXT,
IDgoalie1 TEXT,
IDgoalie2 TEXT,
foreign key (IDgoalie1) references Master (playerID)
on update cascade on delete cascade,
foreign key (IDgoalie2) references Master (playerID)
on update cascade on delete cascade
);
CREATE TABLE Goalies
(
playerID TEXT not null,
year INTEGER not null,
stint INTEGER not null,
tmID TEXT,
lgID TEXT,
GP TEXT,
Min TEXT,
W TEXT,
L TEXT,
"T/OL" TEXT,
ENG TEXT,
SHO TEXT,
GA TEXT,
SA TEXT,
PostGP TEXT,
PostMin TEXT,
PostW TEXT,
PostL TEXT,
PostT TEXT,
PostENG TEXT,
PostSHO TEXT,
PostGA TEXT,
PostSA TEXT,
primary key (playerID, year, stint),
foreign key (year, tmID) references Teams (year, tmID)
on update cascade on delete cascade,
foreign key (playerID) references Master (playerID)
on update cascade on delete cascade
);
CREATE TABLE GoaliesSC
(
playerID TEXT not null,
year INTEGER not null,
tmID TEXT,
lgID TEXT,
GP INTEGER,
Min INTEGER,
W INTEGER,
L INTEGER,
T INTEGER,
SHO INTEGER,
GA INTEGER,
primary key (playerID, year),
foreign key (year, tmID) references Teams (year, tmID)
on update cascade on delete cascade,
foreign key (playerID) references Master (playerID)
on update cascade on delete cascade
);
CREATE TABLE GoaliesShootout
(
playerID TEXT,
year INTEGER,
stint INTEGER,
tmID TEXT,
W INTEGER,
L INTEGER,
SA INTEGER,
GA INTEGER,
foreign key (year, tmID) references Teams (year, tmID)
on update cascade on delete cascade,
foreign key (playerID) references Master (playerID)
on update cascade on delete cascade
);
CREATE TABLE Scoring
(
playerID TEXT,
year INTEGER,
stint INTEGER,
tmID TEXT,
lgID TEXT,
pos TEXT,
GP INTEGER,
G INTEGER,
A INTEGER,
Pts INTEGER,
PIM INTEGER,
"+/-" TEXT,
PPG TEXT,
PPA TEXT,
SHG TEXT,
SHA TEXT,
GWG TEXT,
GTG TEXT,
SOG TEXT,
PostGP TEXT,
PostG TEXT,
PostA TEXT,
PostPts TEXT,
PostPIM TEXT,
"Post+/-" TEXT,
PostPPG TEXT,
PostPPA TEXT,
PostSHG TEXT,
PostSHA TEXT,
PostGWG TEXT,
PostSOG TEXT,
foreign key (year, tmID) references Teams (year, tmID)
on update cascade on delete cascade,
foreign key (playerID) references Master (playerID)
on update cascade on delete cascade
);
CREATE TABLE ScoringSC
(
playerID TEXT,
year INTEGER,
tmID TEXT,
lgID TEXT,
pos TEXT,
GP INTEGER,
G INTEGER,
A INTEGER,
Pts INTEGER,
PIM INTEGER,
foreign key (year, tmID) references Teams (year, tmID)
on update cascade on delete cascade,
foreign key (playerID) references Master (playerID)
on update cascade on delete cascade
);
CREATE TABLE ScoringShootout
(
playerID TEXT,
year INTEGER,
stint INTEGER,
tmID TEXT,
S INTEGER,
G INTEGER,
GDG INTEGER,
foreign key (year, tmID) references Teams (year, tmID)
on update cascade on delete cascade,
foreign key (playerID) references Master (playerID)
on update cascade on delete cascade
);
CREATE TABLE ScoringSup
(
playerID TEXT,
year INTEGER,
PPA TEXT,
SHA TEXT,
foreign key (playerID) references Master (playerID)
on update cascade on delete cascade
);
CREATE TABLE SeriesPost
(
year INTEGER,
round TEXT,
series TEXT,
tmIDWinner TEXT,
lgIDWinner TEXT,
tmIDLoser TEXT,
lgIDLoser TEXT,
W INTEGER,
L INTEGER,
T INTEGER,
GoalsWinner INTEGER,
GoalsLoser INTEGER,
note TEXT,
foreign key (year, tmIDWinner) references Teams (year, tmID)
on update cascade on delete cascade,
foreign key (year, tmIDLoser) references Teams (year, tmID)
on update cascade on delete cascade
);
CREATE TABLE TeamSplits
(
year INTEGER not null,
lgID TEXT,
tmID TEXT not null,
hW INTEGER,
hL INTEGER,
hT INTEGER,
hOTL TEXT,
rW INTEGER,
rL INTEGER,
rT INTEGER,
rOTL TEXT,
SepW TEXT,
SepL TEXT,
SepT TEXT,
SepOL TEXT,
OctW TEXT,
OctL TEXT,
OctT TEXT,
OctOL TEXT,
NovW TEXT,
NovL TEXT,
NovT TEXT,
NovOL TEXT,
DecW TEXT,
DecL TEXT,
DecT TEXT,
DecOL TEXT,
JanW INTEGER,
JanL INTEGER,
JanT INTEGER,
JanOL TEXT,
FebW INTEGER,
FebL INTEGER,
FebT INTEGER,
FebOL TEXT,
MarW TEXT,
MarL TEXT,
MarT TEXT,
MarOL TEXT,
AprW TEXT,
AprL TEXT,
AprT TEXT,
AprOL TEXT,
primary key (year, tmID),
foreign key (year, tmID) references Teams (year, tmID)
on update cascade on delete cascade
);
CREATE TABLE TeamVsTeam
(
year INTEGER not null,
lgID TEXT,
tmID TEXT not null,
oppID TEXT not null,
W INTEGER,
L INTEGER,
T INTEGER,
OTL TEXT,
primary key (year, tmID, oppID),
foreign key (year, tmID) references Teams (year, tmID)
on update cascade on delete cascade,
foreign key (oppID, year) references Teams (tmID, year)
on update cascade on delete cascade
);
CREATE TABLE TeamsHalf
(
year INTEGER not null,
lgID TEXT,
tmID TEXT not null,
half INTEGER not null,
rank INTEGER,
G INTEGER,
W INTEGER,
L INTEGER,
T INTEGER,
GF INTEGER,
GA INTEGER,
primary key (year, tmID, half),
foreign key (tmID, year) references Teams (tmID, year)
on update cascade on delete cascade
);
CREATE TABLE TeamsPost
(
year INTEGER not null,
lgID TEXT,
tmID TEXT not null,
G INTEGER,
W INTEGER,
L INTEGER,
T INTEGER,
GF INTEGER,
GA INTEGER,
PIM TEXT,
BenchMinor TEXT,
PPG TEXT,
PPC TEXT,
SHA TEXT,
PKG TEXT,
PKC TEXT,
SHF TEXT,
primary key (year, tmID),
foreign key (year, tmID) references Teams (year, tmID)
on update cascade on delete cascade
);
CREATE TABLE TeamsSC
(
year INTEGER not null,
lgID TEXT,
tmID TEXT not null,
G INTEGER,
W INTEGER,
L INTEGER,
T INTEGER,
GF INTEGER,
GA INTEGER,
PIM TEXT,
primary key (year, tmID),
foreign key (year, tmID) references Teams (year, tmID)
on update cascade on delete cascade
);
CREATE TABLE abbrev
(
Type TEXT not null,
Code TEXT not null,
Fullname TEXT,
primary key (Type, Code)
);
|
retail_complains | In 2014, what is the percentage of complaints from consumers in Houston that the delay was over 5 days? | in 2014 refers to Date received LIKE'2014%'; Houston refers to city = 'Houston'; delay over 5 days refers to subtract(Date sent to company, Date received) > 5; percentage = divide(count(Complaint ID where subtract(Date sent to company , Date received) > 5) , count(Complaint ID)) * 100% | SELECT CAST((SUM(CASE WHEN strftime('%J', T2.`Date sent to company`) - strftime('%J', T2.`Date received`) > 5 THEN 1 ELSE 0 END)) AS REAL) * 100 / COUNT(T1.client_id) FROM client AS T1 INNER JOIN events AS T2 ON T1.client_id = T2.Client_ID WHERE T1.city = 'Houston' AND strftime('%Y', T2.`Date received`) = '2014' | CREATE TABLE state
(
StateCode TEXT
constraint state_pk
primary key,
State TEXT,
Region TEXT
);
CREATE TABLE callcenterlogs
(
"Date received" DATE,
"Complaint ID" TEXT,
"rand client" TEXT,
phonefinal TEXT,
"vru+line" TEXT,
call_id INTEGER,
priority INTEGER,
type TEXT,
outcome TEXT,
server TEXT,
ser_start TEXT,
ser_exit TEXT,
ser_time TEXT,
primary key ("Complaint ID"),
foreign key ("rand client") references client(client_id)
);
CREATE TABLE client
(
client_id TEXT
primary key,
sex TEXT,
day INTEGER,
month INTEGER,
year INTEGER,
age INTEGER,
social TEXT,
first TEXT,
middle TEXT,
last TEXT,
phone TEXT,
email TEXT,
address_1 TEXT,
address_2 TEXT,
city TEXT,
state TEXT,
zipcode INTEGER,
district_id INTEGER,
foreign key (district_id) references district(district_id)
);
CREATE TABLE district
(
district_id INTEGER
primary key,
city TEXT,
state_abbrev TEXT,
division TEXT,
foreign key (state_abbrev) references state(StateCode)
);
CREATE TABLE events
(
"Date received" DATE,
Product TEXT,
"Sub-product" TEXT,
Issue TEXT,
"Sub-issue" TEXT,
"Consumer complaint narrative" TEXT,
Tags TEXT,
"Consumer consent provided?" TEXT,
"Submitted via" TEXT,
"Date sent to company" TEXT,
"Company response to consumer" TEXT,
"Timely response?" TEXT,
"Consumer disputed?" TEXT,
"Complaint ID" TEXT,
Client_ID TEXT,
primary key ("Complaint ID", Client_ID),
foreign key ("Complaint ID") references callcenterlogs("Complaint ID"),
foreign key (Client_ID) references client(client_id)
);
CREATE TABLE reviews
(
"Date" DATE
primary key,
Stars INTEGER,
Reviews TEXT,
Product TEXT,
district_id INTEGER,
foreign key (district_id) references district(district_id)
);
|
movies_4 | Provide the homepage of the Bahasa Indonesia movies. | Bahasa Indonesia movies refers to language_name = 'Bahasa indonesia' | SELECT DISTINCT T1.homepage FROM movie AS T1 INNER JOIN movie_languages AS T2 ON T1.movie_id = T2.movie_id INNER JOIN language AS T3 ON T2.language_id = T3.language_id WHERE T3.language_name = 'Bahasa indonesia' | CREATE TABLE country
(
country_id INTEGER not null
primary key,
country_iso_code TEXT default NULL,
country_name TEXT default NULL
);
CREATE TABLE department
(
department_id INTEGER not null
primary key,
department_name TEXT default NULL
);
CREATE TABLE gender
(
gender_id INTEGER not null
primary key,
gender TEXT default NULL
);
CREATE TABLE genre
(
genre_id INTEGER not null
primary key,
genre_name TEXT default NULL
);
CREATE TABLE keyword
(
keyword_id INTEGER not null
primary key,
keyword_name TEXT default NULL
);
CREATE TABLE language
(
language_id INTEGER not null
primary key,
language_code TEXT default NULL,
language_name TEXT default NULL
);
CREATE TABLE language_role
(
role_id INTEGER not null
primary key,
language_role TEXT default NULL
);
CREATE TABLE movie
(
movie_id INTEGER not null
primary key,
title TEXT default NULL,
budget INTEGER default NULL,
homepage TEXT default NULL,
overview TEXT default NULL,
popularity REAL default NULL,
release_date DATE default NULL,
revenue INTEGER default NULL,
runtime INTEGER default NULL,
movie_status TEXT default NULL,
tagline TEXT default NULL,
vote_average REAL default NULL,
vote_count INTEGER default NULL
);
CREATE TABLE movie_genres
(
movie_id INTEGER default NULL,
genre_id INTEGER default NULL,
foreign key (genre_id) references genre(genre_id),
foreign key (movie_id) references movie(movie_id)
);
CREATE TABLE movie_languages
(
movie_id INTEGER default NULL,
language_id INTEGER default NULL,
language_role_id INTEGER default NULL,
foreign key (language_id) references language(language_id),
foreign key (movie_id) references movie(movie_id),
foreign key (language_role_id) references language_role(role_id)
);
CREATE TABLE person
(
person_id INTEGER not null
primary key,
person_name TEXT default NULL
);
CREATE TABLE movie_crew
(
movie_id INTEGER default NULL,
person_id INTEGER default NULL,
department_id INTEGER default NULL,
job TEXT default NULL,
foreign key (department_id) references department(department_id),
foreign key (movie_id) references movie(movie_id),
foreign key (person_id) references person(person_id)
);
CREATE TABLE production_company
(
company_id INTEGER not null
primary key,
company_name TEXT default NULL
);
CREATE TABLE production_country
(
movie_id INTEGER default NULL,
country_id INTEGER default NULL,
foreign key (country_id) references country(country_id),
foreign key (movie_id) references movie(movie_id)
);
CREATE TABLE movie_cast
(
movie_id INTEGER default NULL,
person_id INTEGER default NULL,
character_name TEXT default NULL,
gender_id INTEGER default NULL,
cast_order INTEGER default NULL,
foreign key (gender_id) references gender(gender_id),
foreign key (movie_id) references movie(movie_id),
foreign key (person_id) references person(person_id)
);
CREATE TABLE IF NOT EXISTS "movie_keywords"
(
movie_id INTEGER default NULL
references movie,
keyword_id INTEGER default NULL
references keyword
);
CREATE TABLE IF NOT EXISTS "movie_company"
(
movie_id INTEGER default NULL
references movie,
company_id INTEGER default NULL
references production_company
);
|
car_retails | From 2003 to 2004, how many customers have paid more than three times? | paymentdate BETWEEN '2003-01-01' AND '2004-12-31'; customers who have paid more than three times refers to (COUNT(customernumber)>3); | SELECT COUNT(customernumber) FROM ( SELECT customernumber FROM payments WHERE STRFTIME('%Y', paymentDate) >= '2003' AND STRFTIME('%Y', paymentDate) <= '2004' GROUP BY customernumber HAVING COUNT(customernumber) > 3 ) T | CREATE TABLE offices
(
officeCode TEXT not null
primary key,
city TEXT not null,
phone TEXT not null,
addressLine1 TEXT not null,
addressLine2 TEXT,
state TEXT,
country TEXT not null,
postalCode TEXT not null,
territory TEXT not null
);
CREATE TABLE employees
(
employeeNumber INTEGER not null
primary key,
lastName TEXT not null,
firstName TEXT not null,
extension TEXT not null,
email TEXT not null,
officeCode TEXT not null,
reportsTo INTEGER,
jobTitle TEXT not null,
foreign key (officeCode) references offices(officeCode),
foreign key (reportsTo) references employees(employeeNumber)
);
CREATE TABLE customers
(
customerNumber INTEGER not null
primary key,
customerName TEXT not null,
contactLastName TEXT not null,
contactFirstName TEXT not null,
phone TEXT not null,
addressLine1 TEXT not null,
addressLine2 TEXT,
city TEXT not null,
state TEXT,
postalCode TEXT,
country TEXT not null,
salesRepEmployeeNumber INTEGER,
creditLimit REAL,
foreign key (salesRepEmployeeNumber) references employees(employeeNumber)
);
CREATE TABLE orders
(
orderNumber INTEGER not null
primary key,
orderDate DATE not null,
requiredDate DATE not null,
shippedDate DATE,
status TEXT not null,
comments TEXT,
customerNumber INTEGER not null,
foreign key (customerNumber) references customers(customerNumber)
);
CREATE TABLE payments
(
customerNumber INTEGER not null,
checkNumber TEXT not null,
paymentDate DATE not null,
amount REAL not null,
primary key (customerNumber, checkNumber),
foreign key (customerNumber) references customers(customerNumber)
);
CREATE TABLE productlines
(
productLine TEXT not null
primary key,
textDescription TEXT,
htmlDescription TEXT,
image BLOB
);
CREATE TABLE products
(
productCode TEXT not null
primary key,
productName TEXT not null,
productLine TEXT not null,
productScale TEXT not null,
productVendor TEXT not null,
productDescription TEXT not null,
quantityInStock INTEGER not null,
buyPrice REAL not null,
MSRP REAL not null,
foreign key (productLine) references productlines(productLine)
);
CREATE TABLE IF NOT EXISTS "orderdetails"
(
orderNumber INTEGER not null
references orders,
productCode TEXT not null
references products,
quantityOrdered INTEGER not null,
priceEach REAL not null,
orderLineNumber INTEGER not null,
primary key (orderNumber, productCode)
);
|
olympics | Give the height of the tallest athlete from Portugal. | the tallest athlete refers to id where MAX(height); from Portugal refers to region_name = 'Portugal'; | SELECT T3.height FROM noc_region AS T1 INNER JOIN person_region AS T2 ON T1.id = T2.region_id INNER JOIN person AS T3 ON T2.person_id = T3.id WHERE T1.region_name = 'Portugal' ORDER BY T3.height DESC LIMIT 1 | CREATE TABLE city
(
id INTEGER not null
primary key,
city_name TEXT default NULL
);
CREATE TABLE games
(
id INTEGER not null
primary key,
games_year INTEGER default NULL,
games_name TEXT default NULL,
season TEXT default NULL
);
CREATE TABLE games_city
(
games_id INTEGER default NULL,
city_id INTEGER default NULL,
foreign key (city_id) references city(id),
foreign key (games_id) references games(id)
);
CREATE TABLE medal
(
id INTEGER not null
primary key,
medal_name TEXT default NULL
);
CREATE TABLE noc_region
(
id INTEGER not null
primary key,
noc TEXT default NULL,
region_name TEXT default NULL
);
CREATE TABLE person
(
id INTEGER not null
primary key,
full_name TEXT default NULL,
gender TEXT default NULL,
height INTEGER default NULL,
weight INTEGER default NULL
);
CREATE TABLE games_competitor
(
id INTEGER not null
primary key,
games_id INTEGER default NULL,
person_id INTEGER default NULL,
age INTEGER default NULL,
foreign key (games_id) references games(id),
foreign key (person_id) references person(id)
);
CREATE TABLE person_region
(
person_id INTEGER default NULL,
region_id INTEGER default NULL,
foreign key (person_id) references person(id),
foreign key (region_id) references noc_region(id)
);
CREATE TABLE sport
(
id INTEGER not null
primary key,
sport_name TEXT default NULL
);
CREATE TABLE event
(
id INTEGER not null
primary key,
sport_id INTEGER default NULL,
event_name TEXT default NULL,
foreign key (sport_id) references sport(id)
);
CREATE TABLE competitor_event
(
event_id INTEGER default NULL,
competitor_id INTEGER default NULL,
medal_id INTEGER default NULL,
foreign key (competitor_id) references games_competitor(id),
foreign key (event_id) references event(id),
foreign key (medal_id) references medal(id)
);
|
regional_sales | Please list all sale team names which had orders on 5/31/2018. | had orders on 5/31/2018 refer to OrderDate = '5/31/18'; sale team names refer to Sales Team; | SELECT T FROM ( SELECT DISTINCT CASE WHEN T1.OrderDate = '5/31/18' THEN T2.`Sales Team` ELSE NULL END AS T FROM `Sales Orders` T1 INNER JOIN `Sales Team` T2 ON T2.SalesTeamID = T1._SalesTeamID ) WHERE T IS NOT NULL | CREATE TABLE Customers
(
CustomerID INTEGER
constraint Customers_pk
primary key,
"Customer Names" TEXT
);
CREATE TABLE Products
(
ProductID INTEGER
constraint Products_pk
primary key,
"Product Name" TEXT
);
CREATE TABLE Regions
(
StateCode TEXT
constraint Regions_pk
primary key,
State TEXT,
Region TEXT
);
CREATE TABLE IF NOT EXISTS "Sales Team"
(
SalesTeamID INTEGER
constraint "Sales Team_pk"
primary key,
"Sales Team" TEXT,
Region TEXT
);
CREATE TABLE IF NOT EXISTS "Store Locations"
(
StoreID INTEGER
constraint "Store Locations_pk"
primary key,
"City Name" TEXT,
County TEXT,
StateCode TEXT
constraint "Store Locations_Regions_StateCode_fk"
references Regions(StateCode),
State TEXT,
Type TEXT,
Latitude REAL,
Longitude REAL,
AreaCode INTEGER,
Population INTEGER,
"Household Income" INTEGER,
"Median Income" INTEGER,
"Land Area" INTEGER,
"Water Area" INTEGER,
"Time Zone" TEXT
);
CREATE TABLE IF NOT EXISTS "Sales Orders"
(
OrderNumber TEXT
constraint "Sales Orders_pk"
primary key,
"Sales Channel" TEXT,
WarehouseCode TEXT,
ProcuredDate TEXT,
OrderDate TEXT,
ShipDate TEXT,
DeliveryDate TEXT,
CurrencyCode TEXT,
_SalesTeamID INTEGER
constraint "Sales Orders_Sales Team_SalesTeamID_fk"
references "Sales Team"(SalesTeamID),
_CustomerID INTEGER
constraint "Sales Orders_Customers_CustomerID_fk"
references Customers(CustomerID),
_StoreID INTEGER
constraint "Sales Orders_Store Locations_StoreID_fk"
references "Store Locations"(StoreID),
_ProductID INTEGER
constraint "Sales Orders_Products_ProductID_fk"
references Products(ProductID),
"Order Quantity" INTEGER,
"Discount Applied" REAL,
"Unit Price" TEXT,
"Unit Cost" TEXT
);
|
movies_4 | How many movies did Harrison Ford appear in total? | SELECT COUNT(T2.movie_id) FROM person AS T1 INNER JOIN movie_cast AS T2 ON T1.person_id = T2.person_id WHERE T1.person_name = 'Harrison Ford' | CREATE TABLE country
(
country_id INTEGER not null
primary key,
country_iso_code TEXT default NULL,
country_name TEXT default NULL
);
CREATE TABLE department
(
department_id INTEGER not null
primary key,
department_name TEXT default NULL
);
CREATE TABLE gender
(
gender_id INTEGER not null
primary key,
gender TEXT default NULL
);
CREATE TABLE genre
(
genre_id INTEGER not null
primary key,
genre_name TEXT default NULL
);
CREATE TABLE keyword
(
keyword_id INTEGER not null
primary key,
keyword_name TEXT default NULL
);
CREATE TABLE language
(
language_id INTEGER not null
primary key,
language_code TEXT default NULL,
language_name TEXT default NULL
);
CREATE TABLE language_role
(
role_id INTEGER not null
primary key,
language_role TEXT default NULL
);
CREATE TABLE movie
(
movie_id INTEGER not null
primary key,
title TEXT default NULL,
budget INTEGER default NULL,
homepage TEXT default NULL,
overview TEXT default NULL,
popularity REAL default NULL,
release_date DATE default NULL,
revenue INTEGER default NULL,
runtime INTEGER default NULL,
movie_status TEXT default NULL,
tagline TEXT default NULL,
vote_average REAL default NULL,
vote_count INTEGER default NULL
);
CREATE TABLE movie_genres
(
movie_id INTEGER default NULL,
genre_id INTEGER default NULL,
foreign key (genre_id) references genre(genre_id),
foreign key (movie_id) references movie(movie_id)
);
CREATE TABLE movie_languages
(
movie_id INTEGER default NULL,
language_id INTEGER default NULL,
language_role_id INTEGER default NULL,
foreign key (language_id) references language(language_id),
foreign key (movie_id) references movie(movie_id),
foreign key (language_role_id) references language_role(role_id)
);
CREATE TABLE person
(
person_id INTEGER not null
primary key,
person_name TEXT default NULL
);
CREATE TABLE movie_crew
(
movie_id INTEGER default NULL,
person_id INTEGER default NULL,
department_id INTEGER default NULL,
job TEXT default NULL,
foreign key (department_id) references department(department_id),
foreign key (movie_id) references movie(movie_id),
foreign key (person_id) references person(person_id)
);
CREATE TABLE production_company
(
company_id INTEGER not null
primary key,
company_name TEXT default NULL
);
CREATE TABLE production_country
(
movie_id INTEGER default NULL,
country_id INTEGER default NULL,
foreign key (country_id) references country(country_id),
foreign key (movie_id) references movie(movie_id)
);
CREATE TABLE movie_cast
(
movie_id INTEGER default NULL,
person_id INTEGER default NULL,
character_name TEXT default NULL,
gender_id INTEGER default NULL,
cast_order INTEGER default NULL,
foreign key (gender_id) references gender(gender_id),
foreign key (movie_id) references movie(movie_id),
foreign key (person_id) references person(person_id)
);
CREATE TABLE IF NOT EXISTS "movie_keywords"
(
movie_id INTEGER default NULL
references movie,
keyword_id INTEGER default NULL
references keyword
);
CREATE TABLE IF NOT EXISTS "movie_company"
(
movie_id INTEGER default NULL
references movie,
company_id INTEGER default NULL
references production_company
);
|
|
cs_semester | Among the easiest courses, what is the name of the course where most students got an A? | diff refers to difficulty; the easiest courses refers to diff = 1; A refers to an excellent grade in which grade = 'A' for the course; | SELECT T2.name FROM registration AS T1 INNER JOIN course AS T2 ON T1.course_id = T2.course_id WHERE T1.grade = 'A' AND T2.diff = 1 GROUP BY T2.name ORDER BY COUNT(T1.student_id) DESC LIMIT 1 | CREATE TABLE IF NOT EXISTS "course"
(
course_id INTEGER
constraint course_pk
primary key,
name TEXT,
credit INTEGER,
diff INTEGER
);
CREATE TABLE prof
(
prof_id INTEGER
constraint prof_pk
primary key,
gender TEXT,
first_name TEXT,
last_name TEXT,
email TEXT,
popularity INTEGER,
teachingability INTEGER,
graduate_from TEXT
);
CREATE TABLE RA
(
student_id INTEGER,
capability INTEGER,
prof_id INTEGER,
salary TEXT,
primary key (student_id, prof_id),
foreign key (prof_id) references prof(prof_id),
foreign key (student_id) references student(student_id)
);
CREATE TABLE registration
(
course_id INTEGER,
student_id INTEGER,
grade TEXT,
sat INTEGER,
primary key (course_id, student_id),
foreign key (course_id) references course(course_id),
foreign key (student_id) references student(student_id)
);
CREATE TABLE student
(
student_id INTEGER
primary key,
f_name TEXT,
l_name TEXT,
phone_number TEXT,
email TEXT,
intelligence INTEGER,
gpa REAL,
type TEXT
);
|
talkingdata | For the event which happened at 14:09:49 on 2016/5/6, in the location coordinate(116, 40), how many apps were active? | at 14:09:49 on 2016/5/6 refers to timestamp = '2016/5/6 14:09:49'; location coordinate(116, 40) refers to longitude = '116' AND latitude = '40'; active refers to is_active = '1'; | SELECT COUNT(T1.app_id) FROM app_events AS T1 INNER JOIN events AS T2 ON T1.event_id = T2.event_id WHERE T2.timestamp = '2016-05-06 14:09:49' AND T1.is_active = '1' AND T2.longitude = '116' AND T2.latitude = '40' | CREATE TABLE `app_all`
(
`app_id` INTEGER NOT NULL,
PRIMARY KEY (`app_id`)
);
CREATE TABLE `app_events` (
`event_id` INTEGER NOT NULL,
`app_id` INTEGER NOT NULL,
`is_installed` INTEGER NOT NULL,
`is_active` INTEGER NOT NULL,
PRIMARY KEY (`event_id`,`app_id`),
FOREIGN KEY (`event_id`) REFERENCES `events` (`event_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `app_events_relevant` (
`event_id` INTEGER NOT NULL,
`app_id` INTEGER NOT NULL,
`is_installed` INTEGER DEFAULT NULL,
`is_active` INTEGER DEFAULT NULL,
PRIMARY KEY (`event_id`,`app_id`),
FOREIGN KEY (`event_id`) REFERENCES `events_relevant` (`event_id`) ON DELETE CASCADE ON UPDATE CASCADE,
FOREIGN KEY (`app_id`) REFERENCES `app_all` (`app_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `app_labels` (
`app_id` INTEGER NOT NULL,
`label_id` INTEGER NOT NULL,
FOREIGN KEY (`label_id`) REFERENCES `label_categories` (`label_id`) ON DELETE CASCADE ON UPDATE CASCADE,
FOREIGN KEY (`app_id`) REFERENCES `app_all` (`app_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `events` (
`event_id` INTEGER NOT NULL,
`device_id` INTEGER DEFAULT NULL,
`timestamp` DATETIME DEFAULT NULL,
`longitude` REAL DEFAULT NULL,
`latitude` REAL DEFAULT NULL,
PRIMARY KEY (`event_id`)
);
CREATE TABLE `events_relevant` (
`event_id` INTEGER NOT NULL,
`device_id` INTEGER DEFAULT NULL,
`timestamp` DATETIME NOT NULL,
`longitude` REAL NOT NULL,
`latitude` REAL NOT NULL,
PRIMARY KEY (`event_id`),
FOREIGN KEY (`device_id`) REFERENCES `gender_age` (`device_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `gender_age` (
`device_id` INTEGER NOT NULL,
`gender` TEXT DEFAULT NULL,
`age` INTEGER DEFAULT NULL,
`group` TEXT DEFAULT NULL,
PRIMARY KEY (`device_id`),
FOREIGN KEY (`device_id`) REFERENCES `phone_brand_device_model2` (`device_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `gender_age_test` (
`device_id` INTEGER NOT NULL,
PRIMARY KEY (`device_id`)
);
CREATE TABLE `gender_age_train` (
`device_id` INTEGER NOT NULL,
`gender` TEXT DEFAULT NULL,
`age` INTEGER DEFAULT NULL,
`group` TEXT DEFAULT NULL,
PRIMARY KEY (`device_id`)
);
CREATE TABLE `label_categories` (
`label_id` INTEGER NOT NULL,
`category` TEXT DEFAULT NULL,
PRIMARY KEY (`label_id`)
);
CREATE TABLE `phone_brand_device_model2` (
`device_id` INTEGER NOT NULL,
`phone_brand` TEXT NOT NULL,
`device_model` TEXT NOT NULL,
PRIMARY KEY (`device_id`,`phone_brand`,`device_model`)
);
CREATE TABLE `sample_submission` (
`device_id` INTEGER NOT NULL,
`F23-` REAL DEFAULT NULL,
`F24-26` REAL DEFAULT NULL,
`F27-28` REAL DEFAULT NULL,
`F29-32` REAL DEFAULT NULL,
`F33-42` REAL DEFAULT NULL,
`F43+` REAL DEFAULT NULL,
`M22-` REAL DEFAULT NULL,
`M23-26` REAL DEFAULT NULL,
`M27-28` REAL DEFAULT NULL,
`M29-31` REAL DEFAULT NULL,
`M32-38` REAL DEFAULT NULL,
`M39+` REAL DEFAULT NULL,
PRIMARY KEY (`device_id`)
);
|
movie_platform | What is the URL to the movie director page on Mubi of the movie titled "Red Blooded American Girl" | movie titled "Red Blooded American Girl" refers to movie_title = 'Red Blooded American Girl' | SELECT director_url FROM movies WHERE movie_title LIKE 'Red Blooded American Girl' | CREATE TABLE IF NOT EXISTS "lists"
(
user_id INTEGER
references lists_users (user_id),
list_id INTEGER not null
primary key,
list_title TEXT,
list_movie_number INTEGER,
list_update_timestamp_utc TEXT,
list_creation_timestamp_utc TEXT,
list_followers INTEGER,
list_url TEXT,
list_comments INTEGER,
list_description TEXT,
list_cover_image_url TEXT,
list_first_image_url TEXT,
list_second_image_url TEXT,
list_third_image_url TEXT
);
CREATE TABLE IF NOT EXISTS "movies"
(
movie_id INTEGER not null
primary key,
movie_title TEXT,
movie_release_year INTEGER,
movie_url TEXT,
movie_title_language TEXT,
movie_popularity INTEGER,
movie_image_url TEXT,
director_id TEXT,
director_name TEXT,
director_url TEXT
);
CREATE TABLE IF NOT EXISTS "ratings_users"
(
user_id INTEGER
references lists_users (user_id),
rating_date_utc TEXT,
user_trialist INTEGER,
user_subscriber INTEGER,
user_avatar_image_url TEXT,
user_cover_image_url TEXT,
user_eligible_for_trial INTEGER,
user_has_payment_method INTEGER
);
CREATE TABLE lists_users
(
user_id INTEGER not null ,
list_id INTEGER not null ,
list_update_date_utc TEXT,
list_creation_date_utc TEXT,
user_trialist INTEGER,
user_subscriber INTEGER,
user_avatar_image_url TEXT,
user_cover_image_url TEXT,
user_eligible_for_trial TEXT,
user_has_payment_method TEXT,
primary key (user_id, list_id),
foreign key (list_id) references lists(list_id),
foreign key (user_id) references lists(user_id)
);
CREATE TABLE ratings
(
movie_id INTEGER,
rating_id INTEGER,
rating_url TEXT,
rating_score INTEGER,
rating_timestamp_utc TEXT,
critic TEXT,
critic_likes INTEGER,
critic_comments INTEGER,
user_id INTEGER,
user_trialist INTEGER,
user_subscriber INTEGER,
user_eligible_for_trial INTEGER,
user_has_payment_method INTEGER,
foreign key (movie_id) references movies(movie_id),
foreign key (user_id) references lists_users(user_id),
foreign key (rating_id) references ratings(rating_id),
foreign key (user_id) references ratings_users(user_id)
);
|
mental_health_survey | What was the most common answer for the question "What country do you work in?"? | most common answer refers to AnswerText where MAX(COUNT(AnswerText(QuestionID = 3))) | SELECT T1.AnswerText FROM Answer AS T1 INNER JOIN Question AS T2 ON T1.QuestionID = T2.questionid WHERE T2.questiontext = 'What country do you work in?' GROUP BY T1.AnswerText ORDER BY COUNT(T1.AnswerText) DESC LIMIT 1 | CREATE TABLE Question
(
questiontext TEXT,
questionid INTEGER
constraint Question_pk
primary key
);
CREATE TABLE Survey
(
SurveyID INTEGER
constraint Survey_pk
primary key,
Description TEXT
);
CREATE TABLE IF NOT EXISTS "Answer"
(
AnswerText TEXT,
SurveyID INTEGER
constraint Answer_Survey_SurveyID_fk
references Survey,
UserID INTEGER,
QuestionID INTEGER
constraint Answer_Question_questionid_fk
references Question,
constraint Answer_pk
primary key (UserID, QuestionID)
);
|
movie_3 | Sherri Rhodes rented a film at 12:27:27 on 2005/7/28, when did she/he return that film? | rented at 12:27:27 on 2005/7/28 refers to rental_date = '2005-07-28 12:27:27' | SELECT T2.return_date FROM customer AS T1 INNER JOIN rental AS T2 ON T1.customer_id = T2.customer_id WHERE T1.first_name = 'SHERRI' AND T1.last_name = 'RHODES' AND T2.rental_date = '2005-07-28 12:27:27' | CREATE TABLE film_text
(
film_id INTEGER not null
primary key,
title TEXT not null,
description TEXT null
);
CREATE TABLE IF NOT EXISTS "actor"
(
actor_id INTEGER
primary key autoincrement,
first_name TEXT not null,
last_name TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE sqlite_sequence(name,seq);
CREATE TABLE IF NOT EXISTS "address"
(
address_id INTEGER
primary key autoincrement,
address TEXT not null,
address2 TEXT,
district TEXT not null,
city_id INTEGER not null
references city
on update cascade,
postal_code TEXT,
phone TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "category"
(
category_id INTEGER
primary key autoincrement,
name TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "city"
(
city_id INTEGER
primary key autoincrement,
city TEXT not null,
country_id INTEGER not null
references country
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "country"
(
country_id INTEGER
primary key autoincrement,
country TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "customer"
(
customer_id INTEGER
primary key autoincrement,
store_id INTEGER not null
references store
on update cascade,
first_name TEXT not null,
last_name TEXT not null,
email TEXT,
address_id INTEGER not null
references address
on update cascade,
active INTEGER default 1 not null,
create_date DATETIME not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "film"
(
film_id INTEGER
primary key autoincrement,
title TEXT not null,
description TEXT,
release_year TEXT,
language_id INTEGER not null
references language
on update cascade,
original_language_id INTEGER
references language
on update cascade,
rental_duration INTEGER default 3 not null,
rental_rate REAL default 4.99 not null,
length INTEGER,
replacement_cost REAL default 19.99 not null,
rating TEXT default 'G',
special_features TEXT,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "film_actor"
(
actor_id INTEGER not null
references actor
on update cascade,
film_id INTEGER not null
references film
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null,
primary key (actor_id, film_id)
);
CREATE TABLE IF NOT EXISTS "film_category"
(
film_id INTEGER not null
references film
on update cascade,
category_id INTEGER not null
references category
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null,
primary key (film_id, category_id)
);
CREATE TABLE IF NOT EXISTS "inventory"
(
inventory_id INTEGER
primary key autoincrement,
film_id INTEGER not null
references film
on update cascade,
store_id INTEGER not null
references store
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "language"
(
language_id INTEGER
primary key autoincrement,
name TEXT not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "payment"
(
payment_id INTEGER
primary key autoincrement,
customer_id INTEGER not null
references customer
on update cascade,
staff_id INTEGER not null
references staff
on update cascade,
rental_id INTEGER
references rental
on update cascade on delete set null,
amount REAL not null,
payment_date DATETIME not null,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "rental"
(
rental_id INTEGER
primary key autoincrement,
rental_date DATETIME not null,
inventory_id INTEGER not null
references inventory
on update cascade,
customer_id INTEGER not null
references customer
on update cascade,
return_date DATETIME,
staff_id INTEGER not null
references staff
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null,
unique (rental_date, inventory_id, customer_id)
);
CREATE TABLE IF NOT EXISTS "staff"
(
staff_id INTEGER
primary key autoincrement,
first_name TEXT not null,
last_name TEXT not null,
address_id INTEGER not null
references address
on update cascade,
picture BLOB,
email TEXT,
store_id INTEGER not null
references store
on update cascade,
active INTEGER default 1 not null,
username TEXT not null,
password TEXT,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
CREATE TABLE IF NOT EXISTS "store"
(
store_id INTEGER
primary key autoincrement,
manager_staff_id INTEGER not null
unique
references staff
on update cascade,
address_id INTEGER not null
references address
on update cascade,
last_update DATETIME default CURRENT_TIMESTAMP not null
);
|
movie_platform | For all ratings which are rated in year 2020, name the movies which has the rating scored 4 and above. | ratings in year 2020 refers to rating_timestamp_utc like '%2020%'; rating_score > = 4; | SELECT T2.movie_title FROM ratings AS T1 INNER JOIN movies AS T2 ON T1.movie_id = T2.movie_id WHERE CAST(SUBSTR(T1.rating_timestamp_utc, 1, 4) AS INTEGER) = 2020 AND CAST(SUBSTR(T1.rating_timestamp_utc, 6, 2) AS INTEGER) > 4 | CREATE TABLE IF NOT EXISTS "lists"
(
user_id INTEGER
references lists_users (user_id),
list_id INTEGER not null
primary key,
list_title TEXT,
list_movie_number INTEGER,
list_update_timestamp_utc TEXT,
list_creation_timestamp_utc TEXT,
list_followers INTEGER,
list_url TEXT,
list_comments INTEGER,
list_description TEXT,
list_cover_image_url TEXT,
list_first_image_url TEXT,
list_second_image_url TEXT,
list_third_image_url TEXT
);
CREATE TABLE IF NOT EXISTS "movies"
(
movie_id INTEGER not null
primary key,
movie_title TEXT,
movie_release_year INTEGER,
movie_url TEXT,
movie_title_language TEXT,
movie_popularity INTEGER,
movie_image_url TEXT,
director_id TEXT,
director_name TEXT,
director_url TEXT
);
CREATE TABLE IF NOT EXISTS "ratings_users"
(
user_id INTEGER
references lists_users (user_id),
rating_date_utc TEXT,
user_trialist INTEGER,
user_subscriber INTEGER,
user_avatar_image_url TEXT,
user_cover_image_url TEXT,
user_eligible_for_trial INTEGER,
user_has_payment_method INTEGER
);
CREATE TABLE lists_users
(
user_id INTEGER not null ,
list_id INTEGER not null ,
list_update_date_utc TEXT,
list_creation_date_utc TEXT,
user_trialist INTEGER,
user_subscriber INTEGER,
user_avatar_image_url TEXT,
user_cover_image_url TEXT,
user_eligible_for_trial TEXT,
user_has_payment_method TEXT,
primary key (user_id, list_id),
foreign key (list_id) references lists(list_id),
foreign key (user_id) references lists(user_id)
);
CREATE TABLE ratings
(
movie_id INTEGER,
rating_id INTEGER,
rating_url TEXT,
rating_score INTEGER,
rating_timestamp_utc TEXT,
critic TEXT,
critic_likes INTEGER,
critic_comments INTEGER,
user_id INTEGER,
user_trialist INTEGER,
user_subscriber INTEGER,
user_eligible_for_trial INTEGER,
user_has_payment_method INTEGER,
foreign key (movie_id) references movies(movie_id),
foreign key (user_id) references lists_users(user_id),
foreign key (rating_id) references ratings(rating_id),
foreign key (user_id) references ratings_users(user_id)
);
|
talkingdata | What is the brand of the device used by the most users in the M23-26 user group? | brand of the device refers to phone_brand; M23-26 user group refers to `group` = 'M23-26'; | SELECT T.phone_brand FROM ( SELECT T2.phone_brand, COUNT(T1.device_id) AS num FROM gender_age AS T1 INNER JOIN phone_brand_device_model2 AS T2 ON T1.device_id = T2.device_id WHERE T1.`group` = 'M23-26' GROUP BY T2.phone_brand ) AS T ORDER BY T.num DESC LIMIT 1 | CREATE TABLE `app_all`
(
`app_id` INTEGER NOT NULL,
PRIMARY KEY (`app_id`)
);
CREATE TABLE `app_events` (
`event_id` INTEGER NOT NULL,
`app_id` INTEGER NOT NULL,
`is_installed` INTEGER NOT NULL,
`is_active` INTEGER NOT NULL,
PRIMARY KEY (`event_id`,`app_id`),
FOREIGN KEY (`event_id`) REFERENCES `events` (`event_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `app_events_relevant` (
`event_id` INTEGER NOT NULL,
`app_id` INTEGER NOT NULL,
`is_installed` INTEGER DEFAULT NULL,
`is_active` INTEGER DEFAULT NULL,
PRIMARY KEY (`event_id`,`app_id`),
FOREIGN KEY (`event_id`) REFERENCES `events_relevant` (`event_id`) ON DELETE CASCADE ON UPDATE CASCADE,
FOREIGN KEY (`app_id`) REFERENCES `app_all` (`app_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `app_labels` (
`app_id` INTEGER NOT NULL,
`label_id` INTEGER NOT NULL,
FOREIGN KEY (`label_id`) REFERENCES `label_categories` (`label_id`) ON DELETE CASCADE ON UPDATE CASCADE,
FOREIGN KEY (`app_id`) REFERENCES `app_all` (`app_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `events` (
`event_id` INTEGER NOT NULL,
`device_id` INTEGER DEFAULT NULL,
`timestamp` DATETIME DEFAULT NULL,
`longitude` REAL DEFAULT NULL,
`latitude` REAL DEFAULT NULL,
PRIMARY KEY (`event_id`)
);
CREATE TABLE `events_relevant` (
`event_id` INTEGER NOT NULL,
`device_id` INTEGER DEFAULT NULL,
`timestamp` DATETIME NOT NULL,
`longitude` REAL NOT NULL,
`latitude` REAL NOT NULL,
PRIMARY KEY (`event_id`),
FOREIGN KEY (`device_id`) REFERENCES `gender_age` (`device_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `gender_age` (
`device_id` INTEGER NOT NULL,
`gender` TEXT DEFAULT NULL,
`age` INTEGER DEFAULT NULL,
`group` TEXT DEFAULT NULL,
PRIMARY KEY (`device_id`),
FOREIGN KEY (`device_id`) REFERENCES `phone_brand_device_model2` (`device_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `gender_age_test` (
`device_id` INTEGER NOT NULL,
PRIMARY KEY (`device_id`)
);
CREATE TABLE `gender_age_train` (
`device_id` INTEGER NOT NULL,
`gender` TEXT DEFAULT NULL,
`age` INTEGER DEFAULT NULL,
`group` TEXT DEFAULT NULL,
PRIMARY KEY (`device_id`)
);
CREATE TABLE `label_categories` (
`label_id` INTEGER NOT NULL,
`category` TEXT DEFAULT NULL,
PRIMARY KEY (`label_id`)
);
CREATE TABLE `phone_brand_device_model2` (
`device_id` INTEGER NOT NULL,
`phone_brand` TEXT NOT NULL,
`device_model` TEXT NOT NULL,
PRIMARY KEY (`device_id`,`phone_brand`,`device_model`)
);
CREATE TABLE `sample_submission` (
`device_id` INTEGER NOT NULL,
`F23-` REAL DEFAULT NULL,
`F24-26` REAL DEFAULT NULL,
`F27-28` REAL DEFAULT NULL,
`F29-32` REAL DEFAULT NULL,
`F33-42` REAL DEFAULT NULL,
`F43+` REAL DEFAULT NULL,
`M22-` REAL DEFAULT NULL,
`M23-26` REAL DEFAULT NULL,
`M27-28` REAL DEFAULT NULL,
`M29-31` REAL DEFAULT NULL,
`M32-38` REAL DEFAULT NULL,
`M39+` REAL DEFAULT NULL,
PRIMARY KEY (`device_id`)
);
|
public_review_platform | What city does the business came from where they received a high volume of check-ins from 12 am to 1 am on Saturday. | 12 am refers to opening_time = '12AM'; 1 am refers to closing_time = '1AM'; on Saturday refers to day_of_week = 'Saturday' | SELECT T1.city FROM Business AS T1 INNER JOIN Business_Hours AS T2 ON T1.business_id = T2.business_id INNER JOIN Days AS T3 ON T2.day_id = T3.day_id WHERE T2.closing_time = '1AM' AND T2.opening_time = '12AM' AND T3.day_of_week = 'Saturday' | CREATE TABLE Attributes
(
attribute_id INTEGER
constraint Attributes_pk
primary key,
attribute_name TEXT
);
CREATE TABLE Categories
(
category_id INTEGER
constraint Categories_pk
primary key,
category_name TEXT
);
CREATE TABLE Compliments
(
compliment_id INTEGER
constraint Compliments_pk
primary key,
compliment_type TEXT
);
CREATE TABLE Days
(
day_id INTEGER
constraint Days_pk
primary key,
day_of_week TEXT
);
CREATE TABLE Years
(
year_id INTEGER
constraint Years_pk
primary key,
actual_year INTEGER
);
CREATE TABLE IF NOT EXISTS "Business_Attributes"
(
attribute_id INTEGER
constraint Business_Attributes_Attributes_attribute_id_fk
references Attributes,
business_id INTEGER
constraint Business_Attributes_Business_business_id_fk
references Business,
attribute_value TEXT,
constraint Business_Attributes_pk
primary key (attribute_id, business_id)
);
CREATE TABLE IF NOT EXISTS "Business_Categories"
(
business_id INTEGER
constraint Business_Categories_Business_business_id_fk
references Business,
category_id INTEGER
constraint Business_Categories_Categories_category_id_fk
references Categories,
constraint Business_Categories_pk
primary key (business_id, category_id)
);
CREATE TABLE IF NOT EXISTS "Business_Hours"
(
business_id INTEGER
constraint Business_Hours_Business_business_id_fk
references Business,
day_id INTEGER
constraint Business_Hours_Days_day_id_fk
references Days,
opening_time TEXT,
closing_time TEXT,
constraint Business_Hours_pk
primary key (business_id, day_id)
);
CREATE TABLE IF NOT EXISTS "Checkins"
(
business_id INTEGER
constraint Checkins_Business_business_id_fk
references Business,
day_id INTEGER
constraint Checkins_Days_day_id_fk
references Days,
label_time_0 TEXT,
label_time_1 TEXT,
label_time_2 TEXT,
label_time_3 TEXT,
label_time_4 TEXT,
label_time_5 TEXT,
label_time_6 TEXT,
label_time_7 TEXT,
label_time_8 TEXT,
label_time_9 TEXT,
label_time_10 TEXT,
label_time_11 TEXT,
label_time_12 TEXT,
label_time_13 TEXT,
label_time_14 TEXT,
label_time_15 TEXT,
label_time_16 TEXT,
label_time_17 TEXT,
label_time_18 TEXT,
label_time_19 TEXT,
label_time_20 TEXT,
label_time_21 TEXT,
label_time_22 TEXT,
label_time_23 TEXT,
constraint Checkins_pk
primary key (business_id, day_id)
);
CREATE TABLE IF NOT EXISTS "Elite"
(
user_id INTEGER
constraint Elite_Users_user_id_fk
references Users,
year_id INTEGER
constraint Elite_Years_year_id_fk
references Years,
constraint Elite_pk
primary key (user_id, year_id)
);
CREATE TABLE IF NOT EXISTS "Reviews"
(
business_id INTEGER
constraint Reviews_Business_business_id_fk
references Business,
user_id INTEGER
constraint Reviews_Users_user_id_fk
references Users,
review_stars INTEGER,
review_votes_funny TEXT,
review_votes_useful TEXT,
review_votes_cool TEXT,
review_length TEXT,
constraint Reviews_pk
primary key (business_id, user_id)
);
CREATE TABLE IF NOT EXISTS "Tips"
(
business_id INTEGER
constraint Tips_Business_business_id_fk
references Business,
user_id INTEGER
constraint Tips_Users_user_id_fk
references Users,
likes INTEGER,
tip_length TEXT,
constraint Tips_pk
primary key (business_id, user_id)
);
CREATE TABLE IF NOT EXISTS "Users_Compliments"
(
compliment_id INTEGER
constraint Users_Compliments_Compliments_compliment_id_fk
references Compliments,
user_id INTEGER
constraint Users_Compliments_Users_user_id_fk
references Users,
number_of_compliments TEXT,
constraint Users_Compliments_pk
primary key (compliment_id, user_id)
);
CREATE TABLE IF NOT EXISTS "Business"
(
business_id INTEGER
constraint Business_pk
primary key,
active TEXT,
city TEXT,
state TEXT,
stars REAL,
review_count TEXT
);
CREATE TABLE IF NOT EXISTS "Users"
(
user_id INTEGER
constraint Users_pk
primary key,
user_yelping_since_year INTEGER,
user_average_stars TEXT,
user_votes_funny TEXT,
user_votes_useful TEXT,
user_votes_cool TEXT,
user_review_count TEXT,
user_fans TEXT
);
|
book_publishing_company | Which one is the cheapest business book? | business books refers to type = 'business'; cheapest book refers to MIN(price) | SELECT title FROM titles WHERE type = 'business' ORDER BY price LIMIT 1 | CREATE TABLE authors
(
au_id TEXT
primary key,
au_lname TEXT not null,
au_fname TEXT not null,
phone TEXT not null,
address TEXT,
city TEXT,
state TEXT,
zip TEXT,
contract TEXT not null
);
CREATE TABLE jobs
(
job_id INTEGER
primary key,
job_desc TEXT not null,
min_lvl INTEGER not null,
max_lvl INTEGER not null
);
CREATE TABLE publishers
(
pub_id TEXT
primary key,
pub_name TEXT,
city TEXT,
state TEXT,
country TEXT
);
CREATE TABLE employee
(
emp_id TEXT
primary key,
fname TEXT not null,
minit TEXT,
lname TEXT not null,
job_id INTEGER not null,
job_lvl INTEGER,
pub_id TEXT not null,
hire_date DATETIME not null,
foreign key (job_id) references jobs(job_id)
on update cascade on delete cascade,
foreign key (pub_id) references publishers(pub_id)
on update cascade on delete cascade
);
CREATE TABLE pub_info
(
pub_id TEXT
primary key,
logo BLOB,
pr_info TEXT,
foreign key (pub_id) references publishers(pub_id)
on update cascade on delete cascade
);
CREATE TABLE stores
(
stor_id TEXT
primary key,
stor_name TEXT,
stor_address TEXT,
city TEXT,
state TEXT,
zip TEXT
);
CREATE TABLE discounts
(
discounttype TEXT not null,
stor_id TEXT,
lowqty INTEGER,
highqty INTEGER,
discount REAL not null,
foreign key (stor_id) references stores(stor_id)
on update cascade on delete cascade
);
CREATE TABLE titles
(
title_id TEXT
primary key,
title TEXT not null,
type TEXT not null,
pub_id TEXT,
price REAL,
advance REAL,
royalty INTEGER,
ytd_sales INTEGER,
notes TEXT,
pubdate DATETIME not null,
foreign key (pub_id) references publishers(pub_id)
on update cascade on delete cascade
);
CREATE TABLE roysched
(
title_id TEXT not null,
lorange INTEGER,
hirange INTEGER,
royalty INTEGER,
foreign key (title_id) references titles(title_id)
on update cascade on delete cascade
);
CREATE TABLE sales
(
stor_id TEXT not null,
ord_num TEXT not null,
ord_date DATETIME not null,
qty INTEGER not null,
payterms TEXT not null,
title_id TEXT not null,
primary key (stor_id, ord_num, title_id),
foreign key (stor_id) references stores(stor_id)
on update cascade on delete cascade,
foreign key (title_id) references titles(title_id)
on update cascade on delete cascade
);
CREATE TABLE titleauthor
(
au_id TEXT not null,
title_id TEXT not null,
au_ord INTEGER,
royaltyper INTEGER,
primary key (au_id, title_id),
foreign key (au_id) references authors(au_id)
on update cascade on delete cascade,
foreign key (title_id) references titles (title_id)
on update cascade on delete cascade
);
|
simpson_episodes | Who is the recipient of the Primetime Emmy Award with the most votes? | Primetime Emmy Award refers to award_category = 'Primetime Emmy'; the most votes refers to MAX(votes) | SELECT T1.person FROM Award AS T1 INNER JOIN Vote AS T2 ON T2.episode_id = T1.episode_id WHERE T1.award_category = 'Primetime Emmy' ORDER BY T2.votes DESC LIMIT 1; | CREATE TABLE IF NOT EXISTS "Episode"
(
episode_id TEXT
constraint Episode_pk
primary key,
season INTEGER,
episode INTEGER,
number_in_series INTEGER,
title TEXT,
summary TEXT,
air_date TEXT,
episode_image TEXT,
rating REAL,
votes INTEGER
);
CREATE TABLE Person
(
name TEXT
constraint Person_pk
primary key,
birthdate TEXT,
birth_name TEXT,
birth_place TEXT,
birth_region TEXT,
birth_country TEXT,
height_meters REAL,
nickname TEXT
);
CREATE TABLE Award
(
award_id INTEGER
primary key,
organization TEXT,
year INTEGER,
award_category TEXT,
award TEXT,
person TEXT,
role TEXT,
episode_id TEXT,
season TEXT,
song TEXT,
result TEXT,
foreign key (person) references Person(name),
foreign key (episode_id) references Episode(episode_id)
);
CREATE TABLE Character_Award
(
award_id INTEGER,
character TEXT,
foreign key (award_id) references Award(award_id)
);
CREATE TABLE Credit
(
episode_id TEXT,
category TEXT,
person TEXT,
role TEXT,
credited TEXT,
foreign key (episode_id) references Episode(episode_id),
foreign key (person) references Person(name)
);
CREATE TABLE Keyword
(
episode_id TEXT,
keyword TEXT,
primary key (episode_id, keyword),
foreign key (episode_id) references Episode(episode_id)
);
CREATE TABLE Vote
(
episode_id TEXT,
stars INTEGER,
votes INTEGER,
percent REAL,
foreign key (episode_id) references Episode(episode_id)
);
|
talkingdata | How many labels belong to the game-card category? | labels refers to label_id; | SELECT COUNT(label_id) FROM label_categories WHERE category = 'game-card' | CREATE TABLE `app_all`
(
`app_id` INTEGER NOT NULL,
PRIMARY KEY (`app_id`)
);
CREATE TABLE `app_events` (
`event_id` INTEGER NOT NULL,
`app_id` INTEGER NOT NULL,
`is_installed` INTEGER NOT NULL,
`is_active` INTEGER NOT NULL,
PRIMARY KEY (`event_id`,`app_id`),
FOREIGN KEY (`event_id`) REFERENCES `events` (`event_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `app_events_relevant` (
`event_id` INTEGER NOT NULL,
`app_id` INTEGER NOT NULL,
`is_installed` INTEGER DEFAULT NULL,
`is_active` INTEGER DEFAULT NULL,
PRIMARY KEY (`event_id`,`app_id`),
FOREIGN KEY (`event_id`) REFERENCES `events_relevant` (`event_id`) ON DELETE CASCADE ON UPDATE CASCADE,
FOREIGN KEY (`app_id`) REFERENCES `app_all` (`app_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `app_labels` (
`app_id` INTEGER NOT NULL,
`label_id` INTEGER NOT NULL,
FOREIGN KEY (`label_id`) REFERENCES `label_categories` (`label_id`) ON DELETE CASCADE ON UPDATE CASCADE,
FOREIGN KEY (`app_id`) REFERENCES `app_all` (`app_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `events` (
`event_id` INTEGER NOT NULL,
`device_id` INTEGER DEFAULT NULL,
`timestamp` DATETIME DEFAULT NULL,
`longitude` REAL DEFAULT NULL,
`latitude` REAL DEFAULT NULL,
PRIMARY KEY (`event_id`)
);
CREATE TABLE `events_relevant` (
`event_id` INTEGER NOT NULL,
`device_id` INTEGER DEFAULT NULL,
`timestamp` DATETIME NOT NULL,
`longitude` REAL NOT NULL,
`latitude` REAL NOT NULL,
PRIMARY KEY (`event_id`),
FOREIGN KEY (`device_id`) REFERENCES `gender_age` (`device_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `gender_age` (
`device_id` INTEGER NOT NULL,
`gender` TEXT DEFAULT NULL,
`age` INTEGER DEFAULT NULL,
`group` TEXT DEFAULT NULL,
PRIMARY KEY (`device_id`),
FOREIGN KEY (`device_id`) REFERENCES `phone_brand_device_model2` (`device_id`) ON DELETE CASCADE ON UPDATE CASCADE
);
CREATE TABLE `gender_age_test` (
`device_id` INTEGER NOT NULL,
PRIMARY KEY (`device_id`)
);
CREATE TABLE `gender_age_train` (
`device_id` INTEGER NOT NULL,
`gender` TEXT DEFAULT NULL,
`age` INTEGER DEFAULT NULL,
`group` TEXT DEFAULT NULL,
PRIMARY KEY (`device_id`)
);
CREATE TABLE `label_categories` (
`label_id` INTEGER NOT NULL,
`category` TEXT DEFAULT NULL,
PRIMARY KEY (`label_id`)
);
CREATE TABLE `phone_brand_device_model2` (
`device_id` INTEGER NOT NULL,
`phone_brand` TEXT NOT NULL,
`device_model` TEXT NOT NULL,
PRIMARY KEY (`device_id`,`phone_brand`,`device_model`)
);
CREATE TABLE `sample_submission` (
`device_id` INTEGER NOT NULL,
`F23-` REAL DEFAULT NULL,
`F24-26` REAL DEFAULT NULL,
`F27-28` REAL DEFAULT NULL,
`F29-32` REAL DEFAULT NULL,
`F33-42` REAL DEFAULT NULL,
`F43+` REAL DEFAULT NULL,
`M22-` REAL DEFAULT NULL,
`M23-26` REAL DEFAULT NULL,
`M27-28` REAL DEFAULT NULL,
`M29-31` REAL DEFAULT NULL,
`M32-38` REAL DEFAULT NULL,
`M39+` REAL DEFAULT NULL,
PRIMARY KEY (`device_id`)
);
|
beer_factory | Calculate the difference between the number of root beers sold that use cane sugar and corn syrup. | difference = SUBTRACT(SUM(CaneSugar = 'TRUE'), SUM(CornSyrup = 'TRUE')); use cane sugar refers to CaneSugar = 'TRUE'; corn syrup refers to CornSyrup = 'TRUE'; | SELECT COUNT(CASE WHEN T3.CaneSugar = 'TRUE' THEN T1.BrandID ELSE NULL END) - COUNT(CASE WHEN T3.CornSyrup = 'TRUE' THEN T1.BrandID ELSE NULL END) AS DIFFERENCE FROM rootbeer AS T1 INNER JOIN `transaction` AS T2 ON T1.RootBeerID = T2.RootBeerID INNER JOIN rootbeerbrand AS T3 ON T1.BrandID = T3.BrandID | CREATE TABLE customers
(
CustomerID INTEGER
primary key,
First TEXT,
Last TEXT,
StreetAddress TEXT,
City TEXT,
State TEXT,
ZipCode INTEGER,
Email TEXT,
PhoneNumber TEXT,
FirstPurchaseDate DATE,
SubscribedToEmailList TEXT,
Gender TEXT
);
CREATE TABLE geolocation
(
LocationID INTEGER
primary key,
Latitude REAL,
Longitude REAL,
foreign key (LocationID) references location(LocationID)
);
CREATE TABLE location
(
LocationID INTEGER
primary key,
LocationName TEXT,
StreetAddress TEXT,
City TEXT,
State TEXT,
ZipCode INTEGER,
foreign key (LocationID) references geolocation(LocationID)
);
CREATE TABLE rootbeerbrand
(
BrandID INTEGER
primary key,
BrandName TEXT,
FirstBrewedYear INTEGER,
BreweryName TEXT,
City TEXT,
State TEXT,
Country TEXT,
Description TEXT,
CaneSugar TEXT,
CornSyrup TEXT,
Honey TEXT,
ArtificialSweetener TEXT,
Caffeinated TEXT,
Alcoholic TEXT,
AvailableInCans TEXT,
AvailableInBottles TEXT,
AvailableInKegs TEXT,
Website TEXT,
FacebookPage TEXT,
Twitter TEXT,
WholesaleCost REAL,
CurrentRetailPrice REAL
);
CREATE TABLE rootbeer
(
RootBeerID INTEGER
primary key,
BrandID INTEGER,
ContainerType TEXT,
LocationID INTEGER,
PurchaseDate DATE,
foreign key (LocationID) references geolocation(LocationID),
foreign key (LocationID) references location(LocationID),
foreign key (BrandID) references rootbeerbrand(BrandID)
);
CREATE TABLE rootbeerreview
(
CustomerID INTEGER,
BrandID INTEGER,
StarRating INTEGER,
ReviewDate DATE,
Review TEXT,
primary key (CustomerID, BrandID),
foreign key (CustomerID) references customers(CustomerID),
foreign key (BrandID) references rootbeerbrand(BrandID)
);
CREATE TABLE IF NOT EXISTS "transaction"
(
TransactionID INTEGER
primary key,
CreditCardNumber INTEGER,
CustomerID INTEGER,
TransactionDate DATE,
CreditCardType TEXT,
LocationID INTEGER,
RootBeerID INTEGER,
PurchasePrice REAL,
foreign key (CustomerID) references customers(CustomerID),
foreign key (LocationID) references location(LocationID),
foreign key (RootBeerID) references rootbeer(RootBeerID)
);
|
food_inspection_2 | What is the difference in the number of restaurants that passed and failed the canvass inspection type? | canvass inspection type refers to inspection_type = 'Canvass'; restaurant refers to facility_type = 'Restaurant'; difference = subtract(count(inspection_id where results = 'Pass'), count(inspection_id where results = 'Fail')) | SELECT COUNT(CASE WHEN T2.results = 'Pass' THEN T1.license_no END) - COUNT(CASE WHEN T2.results = 'Fail' THEN T1.license_no END) AS diff FROM establishment AS T1 INNER JOIN inspection AS T2 ON T1.license_no = T2.license_no WHERE T2.inspection_type = 'Canvass' AND T1.facility_type = 'Restaurant' | CREATE TABLE employee
(
employee_id INTEGER
primary key,
first_name TEXT,
last_name TEXT,
address TEXT,
city TEXT,
state TEXT,
zip INTEGER,
phone TEXT,
title TEXT,
salary INTEGER,
supervisor INTEGER,
foreign key (supervisor) references employee(employee_id)
);
CREATE TABLE establishment
(
license_no INTEGER
primary key,
dba_name TEXT,
aka_name TEXT,
facility_type TEXT,
risk_level INTEGER,
address TEXT,
city TEXT,
state TEXT,
zip INTEGER,
latitude REAL,
longitude REAL,
ward INTEGER
);
CREATE TABLE inspection
(
inspection_id INTEGER
primary key,
inspection_date DATE,
inspection_type TEXT,
results TEXT,
employee_id INTEGER,
license_no INTEGER,
followup_to INTEGER,
foreign key (employee_id) references employee(employee_id),
foreign key (license_no) references establishment(license_no),
foreign key (followup_to) references inspection(inspection_id)
);
CREATE TABLE inspection_point
(
point_id INTEGER
primary key,
Description TEXT,
category TEXT,
code TEXT,
fine INTEGER,
point_level TEXT
);
CREATE TABLE violation
(
inspection_id INTEGER,
point_id INTEGER,
fine INTEGER,
inspector_comment TEXT,
primary key (inspection_id, point_id),
foreign key (inspection_id) references inspection(inspection_id),
foreign key (point_id) references inspection_point(point_id)
);
|
beer_factory | How many purchases were made at Sac State American River Courtyard using Master Card? | Sac State American River Courtyard refers to LocationName = 'Sac State American River Courtyard'; Master Card refers to CreditCardType = 'MasterCard'; | SELECT COUNT(T1.TransactionID) FROM `transaction` AS T1 INNER JOIN location AS T2 ON T1.LocationID = T2.LocationID WHERE T2.LocationName = 'Sac State American River Courtyard' AND T1.CreditCardType = 'MasterCard' | CREATE TABLE customers
(
CustomerID INTEGER
primary key,
First TEXT,
Last TEXT,
StreetAddress TEXT,
City TEXT,
State TEXT,
ZipCode INTEGER,
Email TEXT,
PhoneNumber TEXT,
FirstPurchaseDate DATE,
SubscribedToEmailList TEXT,
Gender TEXT
);
CREATE TABLE geolocation
(
LocationID INTEGER
primary key,
Latitude REAL,
Longitude REAL,
foreign key (LocationID) references location(LocationID)
);
CREATE TABLE location
(
LocationID INTEGER
primary key,
LocationName TEXT,
StreetAddress TEXT,
City TEXT,
State TEXT,
ZipCode INTEGER,
foreign key (LocationID) references geolocation(LocationID)
);
CREATE TABLE rootbeerbrand
(
BrandID INTEGER
primary key,
BrandName TEXT,
FirstBrewedYear INTEGER,
BreweryName TEXT,
City TEXT,
State TEXT,
Country TEXT,
Description TEXT,
CaneSugar TEXT,
CornSyrup TEXT,
Honey TEXT,
ArtificialSweetener TEXT,
Caffeinated TEXT,
Alcoholic TEXT,
AvailableInCans TEXT,
AvailableInBottles TEXT,
AvailableInKegs TEXT,
Website TEXT,
FacebookPage TEXT,
Twitter TEXT,
WholesaleCost REAL,
CurrentRetailPrice REAL
);
CREATE TABLE rootbeer
(
RootBeerID INTEGER
primary key,
BrandID INTEGER,
ContainerType TEXT,
LocationID INTEGER,
PurchaseDate DATE,
foreign key (LocationID) references geolocation(LocationID),
foreign key (LocationID) references location(LocationID),
foreign key (BrandID) references rootbeerbrand(BrandID)
);
CREATE TABLE rootbeerreview
(
CustomerID INTEGER,
BrandID INTEGER,
StarRating INTEGER,
ReviewDate DATE,
Review TEXT,
primary key (CustomerID, BrandID),
foreign key (CustomerID) references customers(CustomerID),
foreign key (BrandID) references rootbeerbrand(BrandID)
);
CREATE TABLE IF NOT EXISTS "transaction"
(
TransactionID INTEGER
primary key,
CreditCardNumber INTEGER,
CustomerID INTEGER,
TransactionDate DATE,
CreditCardType TEXT,
LocationID INTEGER,
RootBeerID INTEGER,
PurchasePrice REAL,
foreign key (CustomerID) references customers(CustomerID),
foreign key (LocationID) references location(LocationID),
foreign key (RootBeerID) references rootbeer(RootBeerID)
);
|
sales_in_weather | Please list the dates on which the sale of item no.5 in store no.3 exceeded 100 and the average wind speed exceeded 10. | item no. 5 refers to item_nbr = 5; store no.3 refers to store_nbr = 3; exceed 100 refers to units > 100; average wind speed exceeded 10 refers to avgspeed > 10 | SELECT T1.`date` FROM sales_in_weather AS T1 INNER JOIN relation AS T2 ON T1.store_nbr = T2.store_nbr INNER JOIN weather AS T3 ON T2.station_nbr = T3.station_nbr WHERE T2.store_nbr = 3 AND T1.item_nbr = 5 AND T1.units > 100 AND T3.avgspeed > 10 | CREATE TABLE sales_in_weather
(
date DATE,
store_nbr INTEGER,
item_nbr INTEGER,
units INTEGER,
primary key (store_nbr, date, item_nbr)
);
CREATE TABLE weather
(
station_nbr INTEGER,
date DATE,
tmax INTEGER,
tmin INTEGER,
tavg INTEGER,
depart INTEGER,
dewpoint INTEGER,
wetbulb INTEGER,
heat INTEGER,
cool INTEGER,
sunrise TEXT,
sunset TEXT,
codesum TEXT,
snowfall REAL,
preciptotal REAL,
stnpressure REAL,
sealevel REAL,
resultspeed REAL,
resultdir INTEGER,
avgspeed REAL,
primary key (station_nbr, date)
);
CREATE TABLE relation
(
store_nbr INTEGER
primary key,
station_nbr INTEGER,
foreign key (store_nbr) references sales_in_weather(store_nbr),
foreign key (station_nbr) references weather(station_nbr)
);
|
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