sqlite-wasm-connector/src/lib.rs

//! Interface to [SQLite][1].
//!
//! ## Example
//!
//! Open a connection, create a table, and insert some rows:
//!
//! ```
//! let connection = sqlite::open(":memory:").unwrap();
//!
//! connection
//!     .execute(
//!         "
//!         CREATE TABLE users (name TEXT, age INTEGER);
//!         INSERT INTO users VALUES ('Alice', 42);
//!         INSERT INTO users VALUES ('Bob', 69);
//!         ",
//!     )
//!     .unwrap();
//! ```
//!
//! Select some rows and process them one by one as plain text:
//!
//! ```
//! # let connection = sqlite::open(":memory:").unwrap();
//! # connection
//! #     .execute(
//! #         "
//! #         CREATE TABLE users (name TEXT, age INTEGER);
//! #         INSERT INTO users VALUES ('Alice', 42);
//! #         INSERT INTO users VALUES ('Bob', 69);
//! #         ",
//! #     )
//! #     .unwrap();
//! connection
//!     .iterate("SELECT * FROM users WHERE age > 50", |pairs| {
//!         for &(column, value) in pairs.iter() {
//!             println!("{} = {}", column, value.unwrap());
//!         }
//!         true
//!     })
//!     .unwrap();
//! ```
//!
//! The same query using a prepared statement, which is much more efficient than
//! the previous technique:
//!
//! ```
//! use sqlite::State;
//! # let connection = sqlite::open(":memory:").unwrap();
//! # connection
//! #     .execute(
//! #         "
//! #         CREATE TABLE users (name TEXT, age INTEGER);
//! #         INSERT INTO users VALUES ('Alice', 42);
//! #         INSERT INTO users VALUES ('Bob', 69);
//! #         ",
//! #     )
//! #     .unwrap();
//!
//! let mut statement = connection
//!     .prepare("SELECT * FROM users WHERE age > ?")
//!     .unwrap();
//!
//! statement.bind(1, 50).unwrap();
//!
//! while let State::Row = statement.next().unwrap() {
//!     println!("name = {}", statement.read::<String>(0).unwrap());
//!     println!("age = {}", statement.read::<i64>(1).unwrap());
//! }
//! ```
//!
//! The same query using a cursor, which is a wrapper around a prepared
//! statement providing the concept of row and featuring all-at-once binding:
//!
//! ```
//! use sqlite::Value;
//! # let connection = sqlite::open(":memory:").unwrap();
//! # connection
//! #     .execute(
//! #         "
//! #         CREATE TABLE users (name TEXT, age INTEGER);
//! #         INSERT INTO users VALUES ('Alice', 42);
//! #         INSERT INTO users VALUES ('Bob', 69);
//! #         ",
//! #     )
//! #     .unwrap();
//!
//! let mut cursor = connection
//!     .prepare("SELECT * FROM users WHERE age > ?")
//!     .unwrap()
//!     .cursor();
//!
//! cursor.bind(&[Value::Integer(50)]).unwrap();
//!
//! while let Some(row) = cursor.next().unwrap() {
//!     println!("name = {}", row[0].as_string().unwrap());
//!     println!("age = {}", row[1].as_integer().unwrap());
//! }
//! ```
//!
//! [1]: https://www.sqlite.org

extern crate libc;
extern crate sqlite3_sys as ffi;

use std::{error, fmt};

macro_rules! raise(
    ($message:expr) => (
        return Err(::Error {
            code: None,
            message: Some($message.to_string()),
        })
    );
);

macro_rules! error(
    ($connection:expr, $code:expr) => (
        match ::last_error($connection) {
            Some(error) => return Err(error),
            _ => return Err(::Error {
                code: Some($code as isize),
                message: None,
            }),
        }
    );
);

macro_rules! ok(
    ($connection:expr, $result:expr) => (
        match $result {
            ::ffi::SQLITE_OK => {}
            code => error!($connection, code),
        }
    );
    ($result:expr) => (
        match $result {
            ::ffi::SQLITE_OK => {}
            code => return Err(::Error {
                code: Some(code as isize),
                message: None,
            }),
        }
    );
);

macro_rules! c_str_to_str(
    ($string:expr) => (::std::str::from_utf8(::std::ffi::CStr::from_ptr($string).to_bytes()));
);

macro_rules! c_str_to_string(
    ($string:expr) => (
        String::from_utf8_lossy(::std::ffi::CStr::from_ptr($string as *const _).to_bytes())
               .into_owned()
    );
);

macro_rules! path_to_cstr(
    ($path:expr) => (
        match $path.to_str() {
            Some(path) => {
                match ::std::ffi::CString::new(path) {
                    Ok(string) => string,
                    _ => raise!("failed to process a path"),
                }
            }
            _ => raise!("failed to process a path"),
        }
    );
);

macro_rules! str_to_cstr(
    ($string:expr) => (
        match ::std::ffi::CString::new($string) {
            Ok(string) => string,
            _ => raise!("failed to process a string"),
        }
    );
);

/// An error.
#[derive(Debug)]
pub struct Error {
    /// The error code.
    pub code: Option<isize>,
    /// The error message.
    pub message: Option<String>,
}

/// A result.
pub type Result<T> = std::result::Result<T, Error>;

/// A data type.
#[derive(Clone, Copy, Debug, Eq, PartialEq)]
pub enum Type {
    /// The binary type.
    Binary,
    /// The floating-point type.
    Float,
    /// The integer type.
    Integer,
    /// The string type.
    String,
    /// The null type.
    Null,
}

/// A typed value.
#[derive(Clone, Debug, PartialEq)]
pub enum Value {
    /// Binary data.
    Binary(Vec<u8>),
    /// A floating-point number.
    Float(f64),
    /// An integer number.
    Integer(i64),
    /// A string.
    String(String),
    /// A null value.
    Null,
}

impl fmt::Display for Error {
    fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result {
        match (self.code, &self.message) {
            (Some(code), &Some(ref message)) => write!(formatter, "{} (code {})", message, code),
            (Some(code), _) => write!(formatter, "an SQLite error (code {})", code),
            (_, &Some(ref message)) => message.fmt(formatter),
            _ => write!(formatter, "an SQLite error"),
        }
    }
}

impl error::Error for Error {
    fn description(&self) -> &str {
        match self.message {
            Some(ref message) => message,
            _ => "an SQLite error",
        }
    }
}

impl Value {
    /// Return the binary data if the value is `Binary`.
    #[inline]
    pub fn as_binary(&self) -> Option<&[u8]> {
        if let &Value::Binary(ref value) = self {
            return Some(value);
        }
        None
    }

    /// Return the floating-point number if the value is `Float`.
    #[inline]
    pub fn as_float(&self) -> Option<f64> {
        if let &Value::Float(value) = self {
            return Some(value);
        }
        None
    }

    /// Return the integer number if the value is `Integer`.
    #[inline]
    pub fn as_integer(&self) -> Option<i64> {
        if let &Value::Integer(value) = self {
            return Some(value);
        }
        None
    }

    /// Return the string if the value is `String`.
    #[inline]
    pub fn as_string(&self) -> Option<&str> {
        if let &Value::String(ref value) = self {
            return Some(value);
        }
        None
    }

    /// Return the type.
    pub fn kind(&self) -> Type {
        match self {
            &Value::Binary(_) => Type::Binary,
            &Value::Float(_) => Type::Float,
            &Value::Integer(_) => Type::Integer,
            &Value::String(_) => Type::String,
            &Value::Null => Type::Null,
        }
    }
}

mod connection;
mod cursor;
mod statement;

pub use connection::Connection;
pub use connection::OpenFlags;
pub use cursor::Cursor;
pub use statement::{Bindable, Readable, State, Statement};

/// Open a read-write connection to a new or existing database.
#[inline]
pub fn open<T: AsRef<std::path::Path>>(path: T) -> Result<Connection> {
    Connection::open(path)
}

/// Return the version number of SQLite.
///
/// For instance, the version `3.8.11.1` corresponds to the integer `3008011`.
#[inline]
pub fn version() -> usize {
    unsafe { ffi::sqlite3_libversion_number() as usize }
}

fn last_error(raw: *mut ffi::sqlite3) -> Option<Error> {
    unsafe {
        let code = ffi::sqlite3_errcode(raw);
        if code == ffi::SQLITE_OK {
            return None;
        }
        let message = ffi::sqlite3_errmsg(raw);
        if message.is_null() {
            return None;
        }
        Some(Error {
            code: Some(code as isize),
            message: Some(c_str_to_string!(message)),
        })
    }
}
Update the usage example 2015-06-14 11:33:55 -04:00			`//! Interface to [SQLite][1].`
			`//!`
			`//! ## Example`
			`//!`
Refine the usage example 2016-06-16 10:55:14 +02:00			`//! Open a connection, create a table, and insert some rows:`
Detail the example 2015-08-03 16:12:09 -04:00			`//!`
Update the usage example 2015-06-14 11:33:55 -04:00			//! ```
Rename Database to Connection 2015-07-04 08:53:26 -04:00			`//! let connection = sqlite::open(":memory:").unwrap();`
Update the usage example 2015-06-14 11:33:55 -04:00			`//!`
Update the examples according to rustfmt 2017-08-22 17:47:44 +02:00			`//! connection`
			`//! .execute(`
			`//! "`
			`//! CREATE TABLE users (name TEXT, age INTEGER);`
Simplify a few tests 2019-05-21 19:28:29 +02:00			`//! INSERT INTO users VALUES ('Alice', 42);`
			`//! INSERT INTO users VALUES ('Bob', 69);`
Update the examples according to rustfmt 2017-08-22 17:47:44 +02:00			`//! ",`
			`//! )`
			`//! .unwrap();`
Simplify the example 2015-08-03 17:23:22 -04:00			//! ```
			`//!`
Refine the usage example 2016-06-16 10:55:14 +02:00			`//! Select some rows and process them one by one as plain text:`
Update the usage example 2015-06-14 11:33:55 -04:00			`//!`
Simplify the example 2015-08-03 17:23:22 -04:00			//! ```
			`//! # let connection = sqlite::open(":memory:").unwrap();`
Update the examples according to rustfmt 2017-08-22 17:47:44 +02:00			`//! # connection`
			`//! # .execute(`
			`//! # "`
			`//! # CREATE TABLE users (name TEXT, age INTEGER);`
Simplify a few tests 2019-05-21 19:28:29 +02:00			`//! # INSERT INTO users VALUES ('Alice', 42);`
			`//! # INSERT INTO users VALUES ('Bob', 69);`
Update the examples according to rustfmt 2017-08-22 17:47:44 +02:00			`//! # ",`
			`//! # )`
			`//! # .unwrap();`
			`//! connection`
			`//! .iterate("SELECT * FROM users WHERE age > 50", \|pairs\| {`
			`//! for &(column, value) in pairs.iter() {`
			`//! println!("{} = {}", column, value.unwrap());`
			`//! }`
			`//! true`
			`//! })`
			`//! .unwrap();`
Extend the example 2015-07-30 08:12:43 -04:00			//! ```
			`//!`
Refine the usage example 2016-06-16 10:55:14 +02:00			`//! The same query using a prepared statement, which is much more efficient than`
			`//! the previous technique:`
Extend the example 2015-07-30 08:12:43 -04:00			`//!`
			//! ```
Extend the example 2015-08-03 16:52:51 -04:00			`//! use sqlite::State;`
Simplify the example 2015-08-03 17:23:22 -04:00			`//! # let connection = sqlite::open(":memory:").unwrap();`
Update the examples according to rustfmt 2017-08-22 17:47:44 +02:00			`//! # connection`
			`//! # .execute(`
			`//! # "`
			`//! # CREATE TABLE users (name TEXT, age INTEGER);`
Simplify a few tests 2019-05-21 19:28:29 +02:00			`//! # INSERT INTO users VALUES ('Alice', 42);`
			`//! # INSERT INTO users VALUES ('Bob', 69);`
Update the examples according to rustfmt 2017-08-22 17:47:44 +02:00			`//! # ",`
			`//! # )`
			`//! # .unwrap();`
			`//!`
			`//! let mut statement = connection`
Fix styles 2017-08-23 06:06:04 +02:00			`//! .prepare("SELECT * FROM users WHERE age > ?")`
Update the examples according to rustfmt 2017-08-22 17:47:44 +02:00			`//! .unwrap();`
Detail the example 2015-08-03 16:12:09 -04:00			`//!`
Simplify the example 2015-08-03 17:23:22 -04:00			`//! statement.bind(1, 50).unwrap();`
Extend the example 2015-07-04 09:27:13 -04:00			`//!`
Refine the language of statements and iterators 2015-08-03 17:05:03 -04:00			`//! while let State::Row = statement.next().unwrap() {`
Extend the example 2015-08-03 16:52:51 -04:00			`//! println!("name = {}", statement.read::<String>(0).unwrap());`
			`//! println!("age = {}", statement.read::<i64>(1).unwrap());`
			`//! }`
			//! ```
			`//!`
Adjust the example 2015-12-20 07:00:31 +01:00			`//! The same query using a cursor, which is a wrapper around a prepared`
Refine the usage example 2016-06-16 10:55:14 +02:00			`//! statement providing the concept of row and featuring all-at-once binding:`
Extend the example 2015-08-03 16:52:51 -04:00			`//!`
			//! ```
			`//! use sqlite::Value;`
Simplify the example 2015-08-03 17:23:22 -04:00			`//! # let connection = sqlite::open(":memory:").unwrap();`
Update the examples according to rustfmt 2017-08-22 17:47:44 +02:00			`//! # connection`
			`//! # .execute(`
			`//! # "`
			`//! # CREATE TABLE users (name TEXT, age INTEGER);`
Simplify a few tests 2019-05-21 19:28:29 +02:00			`//! # INSERT INTO users VALUES ('Alice', 42);`
			`//! # INSERT INTO users VALUES ('Bob', 69);`
Update the examples according to rustfmt 2017-08-22 17:47:44 +02:00			`//! # ",`
			`//! # )`
			`//! # .unwrap();`
			`//!`
			`//! let mut cursor = connection`
Fix styles 2017-08-23 06:06:04 +02:00			`//! .prepare("SELECT * FROM users WHERE age > ?")`
Update the examples according to rustfmt 2017-08-22 17:47:44 +02:00			`//! .unwrap()`
			`//! .cursor();`
Extend the example 2015-08-03 16:52:51 -04:00			`//!`
Simplify the example 2015-08-03 17:23:22 -04:00			`//! cursor.bind(&[Value::Integer(50)]).unwrap();`
Extend the example 2015-08-03 16:52:51 -04:00			`//!`
Rename Iterator to Cursor 2015-08-03 17:10:30 -04:00			`//! while let Some(row) = cursor.next().unwrap() {`
Update the example 2015-08-03 22:02:46 -04:00			`//! println!("name = {}", row[0].as_string().unwrap());`
			`//! println!("age = {}", row[1].as_integer().unwrap());`
Extend the example 2015-07-04 09:27:13 -04:00			`//! }`
Update the usage example 2015-06-14 11:33:55 -04:00			//! ```
			`//!`
			`//! [1]: https://www.sqlite.org`

Initialize the project 2015-05-28 17:21:43 -04:00			`extern crate libc;`
Rename raw to ffi 2015-06-12 14:23:18 -04:00			`extern crate sqlite3_sys as ffi;`
Initialize the project 2015-05-28 17:21:43 -04:00
Get rid of ErrorKind 2015-08-01 17:38:08 -04:00			`use std::{error, fmt};`

Move Database into a separate file 2015-05-29 09:44:06 -04:00			`macro_rules! raise(`
Fix styles 2017-08-23 06:06:04 +02:00			`($message:expr) => (`
			`return Err(::Error {`
			`code: None,`
			`message: Some($message.to_string()),`
			`})`
			`);`
Move Database into a separate file 2015-05-29 09:44:06 -04:00			`);`
Implement Database::execute 2015-05-28 21:30:02 -04:00
Rename success! to ok! 2015-06-19 20:30:28 -04:00			`macro_rules! error(`
Adjust the formatting of the macros 2017-08-23 10:09:04 +02:00			`($connection:expr, $code:expr) => (`
			`match ::last_error($connection) {`
			`Some(error) => return Err(error),`
			`_ => return Err(::Error {`
			`code: Some($code as isize),`
			`message: None,`
			`}),`
			`}`
			`);`
Refactor the error handling 2015-06-08 17:43:31 -04:00			`);`

Rename success! to ok! 2015-06-19 20:30:28 -04:00			`macro_rules! ok(`
Adjust the formatting of the macros 2017-08-23 10:09:04 +02:00			`($connection:expr, $result:expr) => (`
			`match $result {`
			`::ffi::SQLITE_OK => {}`
			`code => error!($connection, code),`
			`}`
			`);`
			`($result:expr) => (`
			`match $result {`
			`::ffi::SQLITE_OK => {}`
			`code => return Err(::Error {`
			`code: Some(code as isize),`
			`message: None,`
			`}),`
			`}`
			`);`
Move Database into a separate file 2015-05-29 09:44:06 -04:00			`);`
Implement Database::execute 2015-05-28 21:30:02 -04:00
Move a macro 2015-06-19 20:23:12 -04:00			`macro_rules! c_str_to_str(`
			`($string:expr) => (::std::str::from_utf8(::std::ffi::CStr::from_ptr($string).to_bytes()));`
			`);`

			`macro_rules! c_str_to_string(`
			`($string:expr) => (`
			`String::from_utf8_lossy(::std::ffi::CStr::from_ptr($string as *const _).to_bytes())`
			`.into_owned()`
			`);`
			`);`

Fix the handling of C strings 2015-07-27 11:38:54 -04:00			`macro_rules! path_to_cstr(`
Adjust the formatting of the macros 2017-08-23 10:09:04 +02:00			`($path:expr) => (`
			`match $path.to_str() {`
			`Some(path) => {`
			`match ::std::ffi::CString::new(path) {`
			`Ok(string) => string,`
			`_ => raise!("failed to process a path"),`
			`}`
Make it compile on stable 2017-08-23 08:06:53 +02:00			`}`
Adjust the formatting of the macros 2017-08-23 10:09:04 +02:00			`_ => raise!("failed to process a path"),`
Fix styles 2017-08-23 06:06:04 +02:00			`}`
Adjust the formatting of the macros 2017-08-23 10:09:04 +02:00			`);`
Fix the handling of C strings 2015-07-27 11:38:54 -04:00			`);`

			`macro_rules! str_to_cstr(`
Adjust the formatting of the macros 2017-08-23 10:09:04 +02:00			`($string:expr) => (`
			`match ::std::ffi::CString::new($string) {`
			`Ok(string) => string,`
			`_ => raise!("failed to process a string"),`
			`}`
			`);`
Move Database into a separate file 2015-05-29 09:44:06 -04:00			`);`
Implement Database::execute 2015-05-28 21:30:02 -04:00
Get rid of ErrorKind 2015-08-01 17:38:08 -04:00			`/// An error.`
			`#[derive(Debug)]`
			`pub struct Error {`
			`/// The error code.`
			`pub code: Option<isize>,`
			`/// The error message.`
			`pub message: Option<String>,`
			`}`

			`/// A result.`
			`pub type Result<T> = std::result::Result<T, Error>;`

Introduce Type and Statement::kind for reading it 2015-08-01 16:23:05 -04:00			`/// A data type.`
			`#[derive(Clone, Copy, Debug, Eq, PartialEq)]`
			`pub enum Type {`
Adjust the description of Type once more 2015-08-01 17:50:06 -04:00			`/// The binary type.`
Rename Blob to Binary 2015-08-01 17:51:43 -04:00			`Binary,`
Rename Value to Readable and Parameter to Bindable 2015-08-02 20:15:15 -04:00			`/// The floating-point type.`
Introduce Type and Statement::kind for reading it 2015-08-01 16:23:05 -04:00			`Float,`
Rename Value to Readable and Parameter to Bindable 2015-08-02 20:15:15 -04:00			`/// The integer type.`
Introduce Type and Statement::kind for reading it 2015-08-01 16:23:05 -04:00			`Integer,`
Adjust the description of Type once more 2015-08-01 17:50:06 -04:00			`/// The string type.`
Introduce Type and Statement::kind for reading it 2015-08-01 16:23:05 -04:00			`String,`
Introduce Value representing an arbitrary value for binding and reading 2015-08-02 20:34:27 -04:00			`/// The null type.`
			`Null,`
			`}`

			`/// A typed value.`
			`#[derive(Clone, Debug, PartialEq)]`
			`pub enum Value {`
			`/// Binary data.`
			`Binary(Vec<u8>),`
			`/// A floating-point number.`
			`Float(f64),`
Add auxiliary as_* to Value 2015-08-03 22:00:53 -04:00			`/// An integer number.`
Introduce Value representing an arbitrary value for binding and reading 2015-08-02 20:34:27 -04:00			`Integer(i64),`
			`/// A string.`
			`String(String),`
			`/// A null value.`
			`Null,`
Introduce Type and Statement::kind for reading it 2015-08-01 16:23:05 -04:00			`}`

Get rid of ErrorKind 2015-08-01 17:38:08 -04:00			`impl fmt::Display for Error {`
			`fn fmt(&self, formatter: &mut fmt::Formatter) -> fmt::Result {`
			`match (self.code, &self.message) {`
			`(Some(code), &Some(ref message)) => write!(formatter, "{} (code {})", message, code),`
			`(Some(code), _) => write!(formatter, "an SQLite error (code {})", code),`
			`(_, &Some(ref message)) => message.fmt(formatter),`
			`_ => write!(formatter, "an SQLite error"),`
			`}`
			`}`
			`}`

			`impl error::Error for Error {`
			`fn description(&self) -> &str {`
			`match self.message {`
			`Some(ref message) => message,`
			`_ => "an SQLite error",`
			`}`
			`}`
			`}`

Add auxiliary as_* to Value 2015-08-03 22:00:53 -04:00			`impl Value {`
			/// Return the binary data if the value is `Binary`.
			`#[inline]`
			`pub fn as_binary(&self) -> Option<&[u8]> {`
			`if let &Value::Binary(ref value) = self {`
			`return Some(value);`
			`}`
			`None`
			`}`

			/// Return the floating-point number if the value is `Float`.
			`#[inline]`
			`pub fn as_float(&self) -> Option<f64> {`
			`if let &Value::Float(value) = self {`
			`return Some(value);`
			`}`
			`None`
			`}`

			/// Return the integer number if the value is `Integer`.
			`#[inline]`
			`pub fn as_integer(&self) -> Option<i64> {`
			`if let &Value::Integer(value) = self {`
			`return Some(value);`
			`}`
			`None`
			`}`

			/// Return the string if the value is `String`.
			`#[inline]`
			`pub fn as_string(&self) -> Option<&str> {`
			`if let &Value::String(ref value) = self {`
			`return Some(value);`
			`}`
			`None`
			`}`
Add kind to Value 2015-08-04 08:28:00 -04:00
			`/// Return the type.`
			`pub fn kind(&self) -> Type {`
			`match self {`
			`&Value::Binary(_) => Type::Binary,`
			`&Value::Float(_) => Type::Float,`
			`&Value::Integer(_) => Type::Integer,`
			`&Value::String(_) => Type::String,`
			`&Value::Null => Type::Null,`
			`}`
			`}`
Add auxiliary as_* to Value 2015-08-03 22:00:53 -04:00			`}`

Rename Database to Connection 2015-07-04 08:53:26 -04:00			`mod connection;`
Rename Iterator to Cursor 2015-08-03 17:10:30 -04:00			`mod cursor;`
Implement prepared statements 2015-05-29 11:24:01 -04:00			`mod statement;`
Implement Database::open 2015-05-28 19:19:08 -04:00
Rename Database to Connection 2015-07-04 08:53:26 -04:00			`pub use connection::Connection;`
Rename ConnectionFlags to OpenFlags 2019-06-09 07:15:34 +02:00			`pub use connection::OpenFlags;`
Rename Iterator to Cursor 2015-08-03 17:10:30 -04:00			`pub use cursor::Cursor;`
Run rustfmt (nightly) 2017-08-26 07:52:28 +02:00			`pub use statement::{Bindable, Readable, State, Statement};`
Implement Database::open 2015-05-28 19:19:08 -04:00
Introduce connection flags 2019-06-08 19:50:27 +02:00			`/// Open a read-write connection to a new or existing database.`
Implement Database::open 2015-05-28 19:19:08 -04:00			`#[inline]`
Get rid of the livetime parameter of Connection 2015-08-01 15:14:10 -04:00			`pub fn open<T: AsRef<std::path::Path>>(path: T) -> Result<Connection> {`
Rename Database to Connection 2015-07-04 08:53:26 -04:00			`Connection::open(path)`
Initialize the project 2015-05-28 17:21:43 -04:00			`}`
Get rid of ErrorKind 2015-08-01 17:38:08 -04:00
Add version 2015-08-01 21:38:54 -04:00			`/// Return the version number of SQLite.`
			`///`
			/// For instance, the version `3.8.11.1` corresponds to the integer `3008011`.
			`#[inline]`
			`pub fn version() -> usize {`
			`unsafe { ffi::sqlite3_libversion_number() as usize }`
			`}`

Get rid of ErrorKind 2015-08-01 17:38:08 -04:00			`fn last_error(raw: *mut ffi::sqlite3) -> Option<Error> {`
			`unsafe {`
			`let code = ffi::sqlite3_errcode(raw);`
			`if code == ffi::SQLITE_OK {`
			`return None;`
			`}`
			`let message = ffi::sqlite3_errmsg(raw);`
			`if message.is_null() {`
			`return None;`
			`}`
Run rustfmt 2017-08-22 17:34:03 +02:00			`Some(Error {`
			`code: Some(code as isize),`
			`message: Some(c_str_to_string!(message)),`
			`})`
Get rid of ErrorKind 2015-08-01 17:38:08 -04:00			`}`
			`}`