rusqlite/src/types/mod.rs

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//! Traits dealing with SQLite data types.
//!
//! SQLite uses a [dynamic type system](https://www.sqlite.org/datatype3.html). Implementations of
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//! the `ToSql` and `FromSql` traits are provided for the basic types that
//! SQLite provides methods for:
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//!
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//! * Integers (`i32` and `i64`; SQLite uses `i64` internally, so getting an
//! `i32` will truncate if the value is too large or too small).
//! * Reals (`f64`)
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//! * Strings (`String` and `&str`)
//! * Blobs (`Vec<u8>` and `&[u8]`)
//!
//! Additionally, because it is such a common data type, implementations are
//! provided for `time::Timespec` that use the RFC 3339 date/time format,
//! `"%Y-%m-%dT%H:%M:%S.%fZ"`, to store time values as strings. These values
//! can be parsed by SQLite's builtin
//! [datetime](https://www.sqlite.org/lang_datefunc.html) functions. If you
//! want different storage for timespecs, you can use a newtype. For example, to
//! store timespecs as `f64`s:
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//!
//! ```rust
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//! use rusqlite::types::{FromSql, FromSqlResult, ToSql, ToSqlOutput, ValueRef};
//! use rusqlite::Result;
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//!
//! pub struct TimespecSql(pub time::Timespec);
//!
//! impl FromSql for TimespecSql {
//! fn column_result(value: ValueRef) -> FromSqlResult<Self> {
//! f64::column_result(value).map(|as_f64| {
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//! TimespecSql(time::Timespec {
//! sec: as_f64.trunc() as i64,
//! nsec: (as_f64.fract() * 1.0e9) as i32,
//! })
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//! })
//! }
//! }
//!
//! impl ToSql for TimespecSql {
//! fn to_sql(&self) -> Result<ToSqlOutput> {
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//! let TimespecSql(ts) = *self;
//! let as_f64 = ts.sec as f64 + (ts.nsec as f64) / 1.0e9;
//! Ok(as_f64.into())
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//! }
//! }
//!
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//! # // Prevent this doc test from being wrapped in a `fn main()` so that it
//! # // will compile.
//! # fn main() {}
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//! ```
//!
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//! `ToSql` and `FromSql` are also implemented for `Option<T>` where `T`
//! implements `ToSql` or `FromSql` for the cases where you want to know if a
//! value was NULL (which gets translated to `None`).
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pub use self::from_sql::{FromSql, FromSqlError, FromSqlResult};
pub use self::to_sql::{ToSql, ToSqlOutput};
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pub use self::value::Value;
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pub use self::value_ref::ValueRef;
use std::fmt;
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#[cfg(feature = "chrono")]
mod chrono;
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mod from_sql;
#[cfg(feature = "serde_json")]
mod serde_json;
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mod time;
mod to_sql;
mod value;
mod value_ref;
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/// Empty struct that can be used to fill in a query parameter as `NULL`.
///
/// ## Example
///
/// ```rust,no_run
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/// # use rusqlite::{Connection, Result};
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/// # use rusqlite::types::{Null};
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/// fn main() {}
/// fn insert_null(conn: &Connection) -> Result<usize> {
/// conn.execute("INSERT INTO people (name) VALUES (?)", &[Null])
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/// }
/// ```
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#[derive(Copy, Clone)]
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pub struct Null;
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#[derive(Clone, Debug, PartialEq)]
pub enum Type {
Null,
Integer,
Real,
Text,
Blob,
}
impl fmt::Display for Type {
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fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
match *self {
Type::Null => write!(f, "Null"),
Type::Integer => write!(f, "Integer"),
Type::Real => write!(f, "Real"),
Type::Text => write!(f, "Text"),
Type::Blob => write!(f, "Blob"),
}
}
}
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#[cfg(test)]
mod test {
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use time;
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use super::Value;
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use crate::{Connection, Error, NO_PARAMS};
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use std::f64::EPSILON;
use std::os::raw::{c_double, c_int};
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fn checked_memory_handle() -> Connection {
let db = Connection::open_in_memory().unwrap();
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db.execute_batch("CREATE TABLE foo (b BLOB, t TEXT, i INTEGER, f FLOAT, n)")
.unwrap();
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db
}
#[test]
fn test_blob() {
let db = checked_memory_handle();
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let v1234 = vec![1u8, 2, 3, 4];
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db.execute("INSERT INTO foo(b) VALUES (?)", &[&v1234])
.unwrap();
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let v: Vec<u8> = db
.query_row("SELECT b FROM foo", NO_PARAMS, |r| r.get(0))
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.unwrap();
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assert_eq!(v, v1234);
}
#[test]
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fn test_empty_blob() {
let db = checked_memory_handle();
let empty = vec![];
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db.execute("INSERT INTO foo(b) VALUES (?)", &[&empty])
.unwrap();
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let v: Vec<u8> = db
.query_row("SELECT b FROM foo", NO_PARAMS, |r| r.get(0))
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.unwrap();
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assert_eq!(v, empty);
}
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#[test]
fn test_str() {
let db = checked_memory_handle();
let s = "hello, world!";
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db.execute("INSERT INTO foo(t) VALUES (?)", &[&s]).unwrap();
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let from: String = db
.query_row("SELECT t FROM foo", NO_PARAMS, |r| r.get(0))
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.unwrap();
assert_eq!(from, s);
}
#[test]
fn test_string() {
let db = checked_memory_handle();
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let s = "hello, world!";
db.execute("INSERT INTO foo(t) VALUES (?)", &[s.to_owned()])
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.unwrap();
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let from: String = db
.query_row("SELECT t FROM foo", NO_PARAMS, |r| r.get(0))
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.unwrap();
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assert_eq!(from, s);
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}
#[test]
fn test_value() {
let db = checked_memory_handle();
db.execute("INSERT INTO foo(i) VALUES (?)", &[Value::Integer(10)])
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.unwrap();
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assert_eq!(
10i64,
db.query_row::<i64, _, _>("SELECT i FROM foo", NO_PARAMS, |r| r.get(0))
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.unwrap()
);
}
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#[test]
fn test_option() {
let db = checked_memory_handle();
let s = Some("hello, world!");
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let b = Some(vec![1u8, 2, 3, 4]);
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db.execute("INSERT INTO foo(t) VALUES (?)", &[&s]).unwrap();
db.execute("INSERT INTO foo(b) VALUES (?)", &[&b]).unwrap();
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let mut stmt = db
.prepare("SELECT t, b FROM foo ORDER BY ROWID ASC")
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.unwrap();
let mut rows = stmt.query(NO_PARAMS).unwrap();
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{
let row1 = rows.next().unwrap().unwrap();
let s1: Option<String> = row1.get_unwrap(0);
let b1: Option<Vec<u8>> = row1.get_unwrap(1);
assert_eq!(s.unwrap(), s1.unwrap());
assert!(b1.is_none());
}
{
let row2 = rows.next().unwrap().unwrap();
let s2: Option<String> = row2.get_unwrap(0);
let b2: Option<Vec<u8>> = row2.get_unwrap(1);
assert!(s2.is_none());
assert_eq!(b, b2);
}
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}
#[test]
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#[allow(clippy::cyclomatic_complexity)]
fn test_mismatched_types() {
fn is_invalid_column_type(err: Error) -> bool {
match err {
Error::InvalidColumnType(_, _) => true,
_ => false,
}
}
let db = checked_memory_handle();
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db.execute(
"INSERT INTO foo(b, t, i, f) VALUES (X'0102', 'text', 1, 1.5)",
NO_PARAMS,
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)
.unwrap();
let mut stmt = db.prepare("SELECT b, t, i, f, n FROM foo").unwrap();
let mut rows = stmt.query(NO_PARAMS).unwrap();
let row = rows.next().unwrap().unwrap();
// check the correct types come back as expected
assert_eq!(vec![1, 2], row.get::<_, Vec<u8>>(0).unwrap());
assert_eq!("text", row.get::<_, String>(1).unwrap());
assert_eq!(1, row.get::<_, c_int>(2).unwrap());
assert!((1.5 - row.get::<_, c_double>(3).unwrap()).abs() < EPSILON);
assert!(row.get::<_, Option<c_int>>(4).unwrap().is_none());
assert!(row.get::<_, Option<c_double>>(4).unwrap().is_none());
assert!(row.get::<_, Option<String>>(4).unwrap().is_none());
// check some invalid types
// 0 is actually a blob (Vec<u8>)
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assert!(is_invalid_column_type(
row.get::<_, c_int>(0).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, c_int>(0).err().unwrap()
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));
assert!(is_invalid_column_type(row.get::<_, i64>(0).err().unwrap()));
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assert!(is_invalid_column_type(
row.get::<_, c_double>(0).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, String>(0).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, time::Timespec>(0).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, Option<c_int>>(0).err().unwrap()
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));
// 1 is actually a text (String)
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assert!(is_invalid_column_type(
row.get::<_, c_int>(1).err().unwrap()
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));
assert!(is_invalid_column_type(row.get::<_, i64>(1).err().unwrap()));
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assert!(is_invalid_column_type(
row.get::<_, c_double>(1).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, Vec<u8>>(1).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, Option<c_int>>(1).err().unwrap()
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));
// 2 is actually an integer
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assert!(is_invalid_column_type(
row.get::<_, String>(2).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, Vec<u8>>(2).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, Option<String>>(2).err().unwrap()
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));
// 3 is actually a float (c_double)
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assert!(is_invalid_column_type(
row.get::<_, c_int>(3).err().unwrap()
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));
assert!(is_invalid_column_type(row.get::<_, i64>(3).err().unwrap()));
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assert!(is_invalid_column_type(
row.get::<_, String>(3).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, Vec<u8>>(3).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, Option<c_int>>(3).err().unwrap()
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));
// 4 is actually NULL
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assert!(is_invalid_column_type(
row.get::<_, c_int>(4).err().unwrap()
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));
assert!(is_invalid_column_type(row.get::<_, i64>(4).err().unwrap()));
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assert!(is_invalid_column_type(
row.get::<_, c_double>(4).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, String>(4).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, Vec<u8>>(4).err().unwrap()
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));
assert!(is_invalid_column_type(
row.get::<_, time::Timespec>(4).err().unwrap()
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));
}
#[test]
fn test_dynamic_type() {
use super::Value;
let db = checked_memory_handle();
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db.execute(
"INSERT INTO foo(b, t, i, f) VALUES (X'0102', 'text', 1, 1.5)",
NO_PARAMS,
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)
.unwrap();
let mut stmt = db.prepare("SELECT b, t, i, f, n FROM foo").unwrap();
let mut rows = stmt.query(NO_PARAMS).unwrap();
let row = rows.next().unwrap().unwrap();
assert_eq!(Value::Blob(vec![1, 2]), row.get::<_, Value>(0).unwrap());
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assert_eq!(
Value::Text(String::from("text")),
row.get::<_, Value>(1).unwrap()
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);
assert_eq!(Value::Integer(1), row.get::<_, Value>(2).unwrap());
match row.get::<_, Value>(3).unwrap() {
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Value::Real(val) => assert!((1.5 - val).abs() < EPSILON),
x => panic!("Invalid Value {:?}", x),
}
assert_eq!(Value::Null, row.get::<_, Value>(4).unwrap());
}
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}