use njord::condition::Condition; use njord::keys::AutoIncrementPrimaryKey; use njord::sqlite; use njord::{column::Column, condition::Value}; use std::collections::HashMap; use std::path::Path; use crate::{User, UserWithSubQuery}; #[test] fn open_db() { let db_relative_path = "./db/open.db"; let db_path = Path::new(&db_relative_path); let result = sqlite::open(db_path); assert!(result.is_ok()); } #[test] fn insert_row() { let db_relative_path = "./db/insert.db"; let db_path = Path::new(&db_relative_path); let mut conn = sqlite::open(db_path); let table_row: User = User { id: AutoIncrementPrimaryKey::default(), username: "mjovanc".to_string(), email: "mjovanc@icloud.com".to_string(), address: "Some Random Address 1".to_string(), }; match conn { Ok(ref mut c) => { let result = sqlite::insert(c, vec![table_row]); assert!(result.is_ok()); } Err(e) => { panic!("Failed to INSERT: {:?}", e); } } } #[test] fn update() { let db_relative_path = "./db/insert.db"; let db_path = Path::new(&db_relative_path); let conn = sqlite::open(db_path); let columns = vec!["username".to_string()]; let condition = Condition::Eq( "username".to_string(), Value::Literal("mjovanc".to_string()), ); let table_row: User = User { id: AutoIncrementPrimaryKey::::new(Some(0)), username: "mjovanc".to_string(), email: "mjovanc@icloud.com".to_string(), address: "Some Random Address 1".to_string(), }; let mut order = HashMap::new(); order.insert(vec!["id".to_string()], "DESC".to_string()); match conn { Ok(ref c) => { let result = sqlite::update(c, table_row) .set(columns) .where_clause(condition) .order_by(order) .limit(4) .offset(0) .build(); println!("{:?}", result); assert!(result.is_ok()); } Err(e) => { panic!("Failed to UPDATE: {:?}", e); } } } #[test] fn delete() { let db_relative_path = "./db/insert.db"; let db_path = Path::new(&db_relative_path); let conn = sqlite::open(db_path); let condition = Condition::Eq( "address".to_string(), Value::Literal("Some Random Address 1".to_string()), ); let mut order = HashMap::new(); order.insert(vec!["id".to_string()], "DESC".to_string()); match conn { Ok(ref c) => { let result = sqlite::delete(c) .from(User::default()) .where_clause(condition) .order_by(order) .limit(20) .offset(0) .build(); println!("{:?}", result); assert!(result.is_ok()); } Err(e) => { panic!("Failed to DELETE: {:?}", e); } } } #[test] fn select() { let db_relative_path = "./db/select.db"; let db_path = Path::new(&db_relative_path); let conn = sqlite::open(db_path); let columns = vec![ Column::Text("id".to_string()), Column::Text("username".to_string()), Column::Text("email".to_string()), Column::Text("address".to_string()), ]; let condition = Condition::Eq( "username".to_string(), Value::Literal("mjovanc".to_string()), ); match conn { Ok(ref c) => { let result = sqlite::select(c, columns) .from(User::default()) .where_clause(condition) .build(); match result { Ok(r) => assert_eq!(r.len(), 2), Err(e) => panic!("Failed to SELECT: {:?}", e), }; } Err(e) => panic!("Failed to SELECT: {:?}", e), }; } #[test] fn select_distinct() { let db_relative_path = "./db/select.db"; let db_path = Path::new(&db_relative_path); let conn = sqlite::open(db_path); let columns = vec![ Column::Text("id".to_string()), Column::Text("username".to_string()), Column::Text("email".to_string()), Column::Text("address".to_string()), ]; let condition = Condition::Eq( "username".to_string(), Value::Literal("mjovanc".to_string()), ); match conn { Ok(ref c) => { let result = sqlite::select(c, columns) .from(User::default()) .where_clause(condition) .distinct() .build(); match result { Ok(r) => { // TODO: this test does not work properly since it should return 1 but it seems // like it returns all rows because id is different. Need to check up on that. assert_eq!(r.len(), 2); } Err(e) => panic!("Failed to SELECT: {:?}", e), }; } Err(e) => panic!("Failed to SELECT: {:?}", e), }; } #[test] fn select_group_by() { let db_relative_path = "./db/select.db"; let db_path = Path::new(&db_relative_path); let conn = sqlite::open(db_path); let columns = vec![ Column::Text("id".to_string()), Column::Text("username".to_string()), Column::Text("email".to_string()), Column::Text("address".to_string()), ]; let condition = Condition::Eq( "username".to_string(), Value::Literal("mjovanc".to_string()), ); let group_by = vec!["username".to_string(), "email".to_string()]; match conn { Ok(ref c) => { let result = sqlite::select(c, columns) .from(User::default()) .where_clause(condition) .group_by(group_by) .build(); match result { Ok(r) => assert_eq!(r.len(), 1), Err(e) => panic!("Failed to SELECT: {:?}", e), }; } Err(e) => panic!("Failed to SELECT: {:?}", e), }; } #[test] fn select_order_by() { let db_relative_path = "./db/select.db"; let db_path = Path::new(&db_relative_path); let conn = sqlite::open(db_path); let columns = vec![ Column::Text("id".to_string()), Column::Text("username".to_string()), Column::Text("email".to_string()), Column::Text("address".to_string()), ]; let condition = Condition::Eq( "username".to_string(), Value::Literal("mjovanc".to_string()), ); let group_by = vec!["username".to_string(), "email".to_string()]; let mut order_by = HashMap::new(); order_by.insert(vec!["email".to_string()], "ASC".to_string()); match conn { Ok(ref c) => { let result = sqlite::select(c, columns) .from(User::default()) .where_clause(condition) .order_by(order_by) .group_by(group_by) .build(); match result { Ok(r) => assert_eq!(r.len(), 1), Err(e) => panic!("Failed to SELECT: {:?}", e), }; } Err(e) => panic!("Failed to SELECT: {:?}", e), }; } #[test] fn select_limit_offset() { let db_relative_path = "./db/select.db"; let db_path = Path::new(&db_relative_path); let conn = sqlite::open(db_path); let columns = vec![ Column::Text("id".to_string()), Column::Text("username".to_string()), Column::Text("email".to_string()), Column::Text("address".to_string()), ]; let condition = Condition::Eq( "username".to_string(), Value::Literal("mjovanc".to_string()), ); let group_by = vec!["username".to_string(), "email".to_string()]; let mut order_by = HashMap::new(); order_by.insert(vec!["id".to_string()], "DESC".to_string()); match conn { Ok(ref c) => { let result = sqlite::select(c, columns) .from(User::default()) .where_clause(condition) .order_by(order_by) .group_by(group_by) .limit(1) .offset(0) .build(); match result { Ok(r) => assert_eq!(r.len(), 1), Err(e) => panic!("Failed to SELECT: {:?}", e), }; } Err(error) => panic!("Failed to SELECT: {:?}", error), }; } #[test] fn select_having() { let db_relative_path = "./db/select.db"; let db_path = Path::new(&db_relative_path); let conn = sqlite::open(db_path); let columns = vec![ Column::Text("id".to_string()), Column::Text("username".to_string()), Column::Text("email".to_string()), Column::Text("address".to_string()), ]; let condition = Condition::Eq( "username".to_string(), Value::Literal("mjovanc".to_string()), ); let group_by = vec!["username".to_string(), "email".to_string()]; let mut order_by = HashMap::new(); order_by.insert(vec!["email".to_string()], "DESC".to_string()); let having_condition = Condition::Gt("id".to_string(), Value::Literal("1".to_string())); match conn { Ok(ref c) => { let result = sqlite::select(c, columns) .from(User::default()) .where_clause(condition) .order_by(order_by) .group_by(group_by) .having(having_condition) .build(); match result { Ok(r) => assert_eq!(r.len(), 1), Err(e) => panic!("Failed to SELECT: {:?}", e), }; } Err(e) => panic!("Failed to SELECT: {:?}", e), } } #[test] fn select_except() { let db_relative_path = "./db/select.db"; let db_path = Path::new(&db_relative_path); let conn = sqlite::open(db_path); let columns = vec![ Column::Text("id".to_string()), Column::Text("username".to_string()), Column::Text("email".to_string()), Column::Text("address".to_string()), ]; let condition1 = Condition::Eq( "username".to_string(), Value::Literal("mjovanc".to_string()), ); let condition2 = Condition::Eq( "username".to_string(), Value::Literal("otheruser".to_string()), ); let condition3 = Condition::Eq( "username".to_string(), Value::Literal("anotheruser".to_string()), ); match conn { Ok(ref c) => { // Create a new connection for each query builder let query1 = sqlite::select(c, columns.clone()) .from(User::default()) .where_clause(condition1); let query2 = sqlite::select(c, columns.clone()) .from(User::default()) .where_clause(condition2); let query3 = sqlite::select(c, columns.clone()) .from(User::default()) .where_clause(condition3); // Test a chain of EXCEPT queries (query1 EXCEPT query2 EXCEPT query3) let result = query1.except(query2).except(query3).build(); match result { Ok(r) => { assert_eq!(r.len(), 2, "Expected 2 results after EXCEPT clauses."); } Err(e) => panic!("Failed to SELECT with EXCEPT: {:?}", e), }; } Err(e) => panic!("Failed to SELECT: {:?}", e), }; } #[test] fn select_union() { let db_relative_path = "./db/select.db"; let db_path = Path::new(&db_relative_path); let conn = sqlite::open(db_path); let columns = vec![ Column::Text("id".to_string()), Column::Text("username".to_string()), Column::Text("email".to_string()), Column::Text("address".to_string()), ]; let condition1 = Condition::Eq("id".to_string(), Value::Literal(42.to_string())); let condition2 = Condition::Eq("id".to_string(), Value::Literal(43.to_string())); match conn { Ok(ref c) => { // Create a new connection for each query builder let query1 = sqlite::select(c, columns.clone()) .from(User::default()) .where_clause(condition1); let query2 = sqlite::select(c, columns.clone()) .from(User::default()) .where_clause(condition2); // Test a chain of UNION queries (query1 UNION query2) let result = query1.union(query2).build(); match result { Ok(r) => { // We expect two results: mjovanc and otheruser assert_eq!(r.len(), 2, "Expected 2 results from the UNION query."); assert_eq!( r[0].id, AutoIncrementPrimaryKey::new(Some(42)), "First user should be mjovanc." ); assert_eq!( r[1].id, AutoIncrementPrimaryKey::new(Some(43)), "Second user should be otheruser." ); } Err(e) => panic!("Failed to SELECT with UNION: {:?}", e), }; } Err(e) => panic!("Failed to SELECT: {:?}", e), } } #[test] fn select_sub_queries() { let db_relative_path = "./db/select.db"; let db_path = Path::new(&db_relative_path); let conn = sqlite::open(db_path); match conn { Ok(c) => { let sub_query = sqlite::select(&c, vec![Column::Text("username".to_string())]) .from(UserWithSubQuery::default()); let columns = vec![ Column::Text("id".to_string()), Column::Text("username".to_string()), Column::Text("email".to_string()), Column::Text("address".to_string()), Column::SubQuery(sub_query), ]; let result = sqlite::select(&c, columns) .from(UserWithSubQuery::default()) .build(); match result { Ok(r) => { assert_eq!(r.len(), 2); assert_eq!(r[0].additional_address, "mjovanc"); } Err(e) => panic!("Failed to SELECT: {:?}", e), }; } Err(e) => panic!("Failed to SELECT: {:?}", e), }; } #[test] fn select_in() { let db_relative_path = "./db/select.db"; let db_path = Path::new(&db_relative_path); let conn = sqlite::open(db_path); let columns = vec![ Column::Text("id".to_string()), Column::Text("username".to_string()), Column::Text("email".to_string()), Column::Text("address".to_string()), ]; let condition = Condition::And( Box::new(Condition::In( "username".to_string(), vec![ Value::Literal("mjovanc".to_string()), Value::Literal("otheruser".to_string()), ], )), Box::new(Condition::NotIn( "username".to_string(), vec![Value::Literal("chasewillden".to_string())], )), ); match conn { Ok(ref c) => { let result = sqlite::select(c, columns) .from(User::default()) .where_clause(condition) .build(); match result { Ok(r) => assert_eq!(r.len(), 2), Err(e) => panic!("Failed to SELECT: {:?}", e), }; } Err(e) => panic!("Failed to SELECT: {:?}", e), }; }