use serialize::json; use std::collections::HashMap; use std::f32; use std::f64; use std::fmt; use std::num::Float; use std::io::net::ip::IpAddr; use postgres::{Connection, SslMode}; use postgres::types::{ToSql, FromSql}; macro_rules! test_array_params( ($name:expr, $v1:expr, $s1:expr, $v2:expr, $s2:expr, $v3:expr, $s3:expr) => ({ use postgres::types::array::ArrayBase; use types::test_type; let tests = &[(Some(ArrayBase::from_vec(vec!(Some($v1), Some($v2), None), 1)), format!("'{{{},{},NULL}}'", $s1, $s2).into_string()), (None, "NULL".to_string())]; test_type(format!("{}[]", $name)[], tests); let mut a = ArrayBase::from_vec(vec!(Some($v1), Some($v2)), 0); a.wrap(-1); a.push_move(ArrayBase::from_vec(vec!(None, Some($v3)), 0)); let tests = &[(Some(a), format!("'[-1:0][0:1]={{{{{},{}}},{{NULL,{}}}}}'", $s1, $s2, $s3).into_string())]; test_type(format!("{}[][]", $name)[], tests); }) ) macro_rules! test_range( ($name:expr, $t:ty, $low:expr, $low_str:expr, $high:expr, $high_str:expr) => ({ let tests = &[(Some(range!('(', ')')), "'(,)'".to_string()), (Some(range!('[' $low, ')')), format!("'[{},)'", $low_str)), (Some(range!('(' $low, ')')), format!("'({},)'", $low_str)), (Some(range!('(', $high ']')), format!("'(,{}]'", $high_str)), (Some(range!('(', $high ')')), format!("'(,{})'", $high_str)), (Some(range!('[' $low, $high ']')), format!("'[{},{}]'", $low_str, $high_str)), (Some(range!('[' $low, $high ')')), format!("'[{},{})'", $low_str, $high_str)), (Some(range!('(' $low, $high ']')), format!("'({},{}]'", $low_str, $high_str)), (Some(range!('(' $low, $high ')')), format!("'({},{})'", $low_str, $high_str)), (Some(range!(empty)), "'empty'".to_string()), (None, "NULL".to_string())]; test_type($name, tests); }) ) mod array; mod range; #[cfg(feature = "uuid")] mod uuid; #[cfg(feature = "time")] mod time; fn test_type(sql_type: &str, checks: &[(T, S)]) { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", &SslMode::None)); for &(ref val, ref repr) in checks.iter() { let stmt = or_panic!(conn.prepare(format!("SELECT {}::{}", *repr, sql_type)[])); let result = or_panic!(stmt.query(&[])).next().unwrap().get(0u); assert!(val == &result); let stmt = or_panic!(conn.prepare(format!("SELECT $1::{}", sql_type)[])); let result = or_panic!(stmt.query(&[val])).next().unwrap().get(0u); assert!(val == &result); } } #[test] fn test_bool_params() { test_type("BOOL", &[(Some(true), "'t'"), (Some(false), "'f'"), (None, "NULL")]); } #[test] fn test_i8_params() { test_type("\"char\"", &[(Some('a' as i8), "'a'"), (None, "NULL")]); } #[test] fn test_name_params() { test_type("NAME", &[(Some("hello world".to_string()), "'hello world'"), (Some("イロハニホヘト チリヌルヲ".to_string()), "'イロハニホヘト チリヌルヲ'"), (None, "NULL")]); } #[test] fn test_i16_params() { test_type("SMALLINT", &[(Some(15001i16), "15001"), (Some(-15001i16), "-15001"), (None, "NULL")]); } #[test] fn test_i32_params() { test_type("INT", &[(Some(2147483548i32), "2147483548"), (Some(-2147483548i32), "-2147483548"), (None, "NULL")]); } #[test] fn test_i64_params() { test_type("BIGINT", &[(Some(9223372036854775708i64), "9223372036854775708"), (Some(-9223372036854775708i64), "-9223372036854775708"), (None, "NULL")]); } #[test] fn test_f32_params() { test_type("REAL", &[(Some(f32::INFINITY), "'infinity'"), (Some(f32::NEG_INFINITY), "'-infinity'"), (Some(1000.55), "1000.55"), (None, "NULL")]); } #[test] fn test_f64_params() { test_type("DOUBLE PRECISION", &[(Some(f64::INFINITY), "'infinity'"), (Some(f64::NEG_INFINITY), "'-infinity'"), (Some(10000.55), "10000.55"), (None, "NULL")]); } #[test] fn test_varchar_params() { test_type("VARCHAR", &[(Some("hello world".to_string()), "'hello world'"), (Some("イロハニホヘト チリヌルヲ".to_string()), "'イロハニホヘト チリヌルヲ'"), (None, "NULL")]); } #[test] fn test_text_params() { test_type("TEXT", &[(Some("hello world".to_string()), "'hello world'"), (Some("イロハニホヘト チリヌルヲ".to_string()), "'イロハニホヘト チリヌルヲ'"), (None, "NULL")]); } #[test] fn test_bpchar_params() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", &SslMode::None)); or_panic!(conn.execute("CREATE TEMPORARY TABLE foo ( id SERIAL PRIMARY KEY, b CHAR(5) )", &[])); or_panic!(conn.execute("INSERT INTO foo (b) VALUES ($1), ($2), ($3)", &[&Some("12345"), &Some("123"), &None::<&'static str>])); let stmt = or_panic!(conn.prepare("SELECT b FROM foo ORDER BY id")); let res = or_panic!(stmt.query(&[])); assert_eq!(vec!(Some("12345".to_string()), Some("123 ".to_string()), None), res.map(|row| row.get(0u)).collect::>()); } #[test] fn test_bytea_params() { test_type("BYTEA", &[(Some(vec!(0u8, 1, 2, 3, 254, 255)), "'\\x00010203feff'"), (None, "NULL")]); } #[test] fn test_json_params() { test_type("JSON", &[(Some(json::from_str("[10, 11, 12]").unwrap()), "'[10, 11, 12]'"), (Some(json::from_str("{\"f\": \"asd\"}").unwrap()), "'{\"f\": \"asd\"}'"), (None, "NULL")]) } #[test] fn test_inet_params() { test_type("INET", &[(Some(from_str::("127.0.0.1").unwrap()), "'127.0.0.1'"), (Some(from_str("2001:0db8:85a3:0000:0000:8a2e:0370:7334").unwrap()), "'2001:0db8:85a3:0000:0000:8a2e:0370:7334'"), (None, "NULL")]) } #[test] fn test_int4range_params() { test_range!("INT4RANGE", i32, 100i32, "100", 200i32, "200") } #[test] fn test_int8range_params() { test_range!("INT8RANGE", i64, 100i64, "100", 200i64, "200") } #[test] fn test_boolarray_params() { test_array_params!("BOOL", false, "f", true, "t", true, "t"); } #[test] fn test_byteaarray_params() { test_array_params!("BYTEA", vec!(0u8, 1), r#""\\x0001""#, vec!(254u8, 255u8), r#""\\xfeff""#, vec!(10u8, 11u8), r#""\\x0a0b""#); } #[test] fn test_chararray_params() { test_array_params!("\"char\"", 'a' as i8, "a", 'z' as i8, "z", '0' as i8, "0"); } #[test] fn test_namearray_params() { test_array_params!("NAME", "hello".to_string(), "hello", "world".to_string(), "world", "!".to_string(), "!"); } #[test] fn test_int2array_params() { test_array_params!("INT2", 0i16, "0", 1i16, "1", 2i16, "2"); } #[test] fn test_int4array_params() { test_array_params!("INT4", 0i32, "0", 1i32, "1", 2i32, "2"); } #[test] fn test_textarray_params() { test_array_params!("TEXT", "hello".to_string(), "hello", "world".to_string(), "world", "!".to_string(), "!"); } #[test] fn test_charnarray_params() { test_array_params!("CHAR(5)", "hello".to_string(), "hello", "world".to_string(), "world", "! ".to_string(), "!"); } #[test] fn test_varchararray_params() { test_array_params!("VARCHAR", "hello".to_string(), "hello", "world".to_string(), "world", "!".to_string(), "!"); } #[test] fn test_int8array_params() { test_array_params!("INT8", 0i64, "0", 1i64, "1", 2i64, "2"); } #[test] fn test_float4array_params() { test_array_params!("FLOAT4", 0f32, "0", 1.5f32, "1.5", 0.009f32, ".009"); } #[test] fn test_float8array_params() { test_array_params!("FLOAT8", 0f64, "0", 1.5f64, "1.5", 0.009f64, ".009"); } #[test] fn test_int4rangearray_params() { test_array_params!("INT4RANGE", range!('(', ')'), "\"(,)\"", range!('[' 10i32, ')'), "\"[10,)\"", range!('(', 10i32 ')'), "\"(,10)\""); } #[test] fn test_int8rangearray_params() { test_array_params!("INT8RANGE", range!('(', ')'), "\"(,)\"", range!('[' 10i64, ')'), "\"[10,)\"", range!('(', 10i64 ')'), "\"(,10)\""); } #[test] fn test_hstore_params() { macro_rules! make_map( ($($k:expr => $v:expr),+) => ({ let mut map = HashMap::new(); $(map.insert($k, $v);)+ map }) ) test_type("hstore", &[(Some(make_map!("a".to_string() => Some("1".to_string()))), "'a=>1'"), (Some(make_map!("hello".to_string() => Some("world!".to_string()), "hola".to_string() => Some("mundo!".to_string()), "what".to_string() => None)), "'hello=>world!,hola=>mundo!,what=>NULL'"), (None, "NULL")]); } fn test_nan_param(sql_type: &str) { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", &SslMode::None)); let stmt = or_panic!(conn.prepare(format!("SELECT 'NaN'::{}", sql_type)[])); let mut result = or_panic!(stmt.query(&[])); let val: T = result.next().unwrap().get(0u); assert!(val.is_nan()); let nan: T = Float::nan(); let stmt = or_panic!(conn.prepare(format!("SELECT $1::{}", sql_type)[])); let mut result = or_panic!(stmt.query(&[&nan])); let val: T = result.next().unwrap().get(0u); assert!(val.is_nan()) } #[test] fn test_f32_nan_param() { test_nan_param::("REAL"); } #[test] fn test_f64_nan_param() { test_nan_param::("DOUBLE PRECISION"); } #[test] fn test_jsonarray_params() { test_array_params!("JSON", json::from_str("[10, 11, 12]").unwrap(), "\"[10,11,12]\"", json::from_str(r#"{"a": 10, "b": null}"#).unwrap(), r#""{\"a\": 10, \"b\": null}""#, json::from_str(r#"{"a": [10], "b": true}"#).unwrap(), r#""{\"a\": [10], \"b\": true}""#); } #[test] fn test_pg_database_datname() { let conn = or_panic!(Connection::connect("postgres://postgres@localhost", &SslMode::None)); let stmt = or_panic!(conn.prepare("SELECT datname FROM pg_database")); let mut result = or_panic!(stmt.query(&[])); let next = result.next().unwrap(); or_panic!(next.get_opt::(0)); or_panic!(next.get_opt::<&str, String>("datname")); }