// import os // import term // import mysql // import pg import time import sqlite struct Module { id int [primary; sql: serial] name string nr_downloads int test_id u64 user User created time.Time } [table: 'userlist'] struct User { id int [primary; sql: serial] age int name string [sql: 'username'] is_customer bool skipped_string string [skip] } struct Foo { age int } struct TestTime { id int [primary; sql: serial] create time.Time } fn test_orm() { db := sqlite.connect(':memory:') or { panic(err) } db.exec('drop table if exists User') // db := pg.connect(host: 'localhost', port: 5432, user: 'louis', password: 'abc', dbname: 'orm') or { panic(err) } /* mut db := mysql.Connection{ host: '127.0.0.1' username: 'root' password: 'pw' dbname: 'v' } db.connect() or { panic(err) }*/ sql db { create table Module } name := 'Peter' sam := User{ age: 29 name: 'Sam' } peter := User{ age: 31 name: 'Peter' } k := User{ age: 30 name: 'Kate' is_customer: true } sql db { insert sam into User insert peter into User insert k into User } c := sql db { select count from User where id != 1 } assert c == 2 nr_all_users := sql db { select count from User } assert nr_all_users == 3 println('nr_all_users=$nr_all_users') // nr_users1 := sql db { select count from User where id == 1 } assert nr_users1 == 1 println('nr_users1=$nr_users1') // nr_peters := sql db { select count from User where id == 2 && name == 'Peter' } assert nr_peters == 1 println('nr_peters=$nr_peters') // nr_peters2 := sql db { select count from User where id == 2 && name == name } assert nr_peters2 == 1 nr_peters3 := sql db { select count from User where name == name } assert nr_peters3 == 1 peters := sql db { select from User where name == name } assert peters.len == 1 assert peters[0].name == 'Peter' one_peter := sql db { select from User where name == name limit 1 } assert one_peter.name == 'Peter' assert one_peter.id == 2 // user := sql db { select from User where id == 1 } println(user) assert user.name == 'Sam' assert user.id == 1 assert user.age == 29 // users := sql db { select from User where id > 0 } println(users) assert users.len == 3 assert users[0].name == 'Sam' assert users[1].name == 'Peter' assert users[1].age == 31 // users2 := sql db { select from User where id < 0 } println(users2) assert users2.len == 0 // users3 := sql db { select from User where age == 29 || age == 31 } println(users3) assert users3.len == 2 assert users3[0].age == 29 assert users3[1].age == 31 // missing_user := sql db { select from User where id == 8777 } println('missing_user:') println(missing_user) // zero struct // new_user := User{ name: 'New user' age: 30 } sql db { insert new_user into User } // db.insert(user2) x := sql db { select from User where id == 4 } println(x) assert x.age == 30 assert x.id == 4 assert x.name == 'New user' // kate := sql db { select from User where id == 3 } assert kate.is_customer == true // customer := sql db { select from User where is_customer == true limit 1 } assert customer.is_customer == true assert customer.name == 'Kate' // sql db { update User set age = 31 where name == 'Kate' } kate2 := sql db { select from User where id == 3 } assert kate2.age == 31 assert kate2.name == 'Kate' // sql db { update User set age = 32, name = 'Kate N' where name == 'Kate' } mut kate3 := sql db { select from User where id == 3 } assert kate3.age == 32 assert kate3.name == 'Kate N' // /* sql db { update User set age = age + 1, name = 'Kate N' where name == 'Kate' } kate3 = sql db { select from User where id == 3 } println(kate3) assert kate3.age == 32 assert kate3.name == 'Kate N' */ new_age := 33 sql db { update User set age = new_age, name = 'Kate N' where id == 3 } kate3 = sql db { select from User where id == 3 } assert kate3.age == 33 assert kate3.name == 'Kate N' // foo := Foo{34} sql db { update User set age = foo.age, name = 'Kate N' where id == 3 } kate3 = sql db { select from User where id == 3 } assert kate3.age == 34 assert kate3.name == 'Kate N' // no_user := sql db { select from User where id == 30 } assert no_user.name == '' // TODO optional assert no_user.age == 0 // two_users := sql db { select from User limit 2 } assert two_users.len == 2 assert two_users[0].id == 1 // y := sql db { select from User limit 2 offset 1 } assert y.len == 2 assert y[0].id == 2 // offset_const := 2 z := sql db { select from User order by id limit 2 offset offset_const } assert z.len == 2 assert z[0].id == 3 oldest := sql db { select from User order by age desc limit 1 } assert oldest.age == 34 offs := 1 second_oldest := sql db { select from User order by age desc limit 1 offset offs } assert second_oldest.age == 31 sql db { delete from User where age == 34 } updated_oldest := sql db { select from User order by age desc limit 1 } assert updated_oldest.age == 31 // Remove this when pg is used // db.exec('insert into User (name, age) values (NULL, 31)') null_user := sql db { select from User where id == 5 } assert null_user.name == '' age_test := sql db { select from User where id == 1 } assert age_test.age == 29 sql db { update User set age = age + 1 where id == 1 } mut first := sql db { select from User where id == 1 } assert first.age == 30 sql db { update User set age = age * 2 where id == 1 } first = sql db { select from User where id == 1 } assert first.age == 60 sql db { create table TestTime } tnow := time.now() time_test := TestTime{ create: tnow } sql db { insert time_test into TestTime } data := sql db { select from TestTime where create == tnow } assert data.len == 1 assert tnow.unix == data[0].create.unix mod := Module{} sql db { insert mod into Module } sql db { update Module set test_id = 11 where id == 1 } test_id_mod := sql db { select from Module where id == 1 } assert test_id_mod.test_id == 11 t := time.now() sql db { update Module set created = t where id == 1 } updated_time_mod := sql db { select from Module where id == 1 } // Note: usually updated_time_mod.created != t, because t has // its microseconds set, while the value retrieved from the DB // has them zeroed, because the db field resolution is seconds. assert updated_time_mod.created.format_ss() == t.format_ss() sql db { drop table Module drop table TestTime } }