mirror of
https://github.com/isar/rusqlite.git
synced 2024-11-29 21:52:12 +08:00
569 lines
17 KiB
Rust
569 lines
17 KiB
Rust
use fallible_iterator::FallibleIterator;
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use fallible_streaming_iterator::FallibleStreamingIterator;
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use std::convert;
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use super::{Error, Result, Statement};
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use crate::types::{FromSql, FromSqlError, ValueRef};
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/// An handle for the resulting rows of a query.
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#[must_use = "Rows is lazy and will do nothing unless consumed"]
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pub struct Rows<'stmt> {
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pub(crate) stmt: Option<&'stmt Statement<'stmt>>,
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row: Option<Row<'stmt>>,
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}
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impl<'stmt> Rows<'stmt> {
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#[inline]
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fn reset(&mut self) {
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if let Some(stmt) = self.stmt.take() {
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stmt.reset();
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}
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}
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/// Attempt to get the next row from the query. Returns `Ok(Some(Row))` if
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/// there is another row, `Err(...)` if there was an error
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/// getting the next row, and `Ok(None)` if all rows have been retrieved.
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///
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/// ## Note
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///
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/// This interface is not compatible with Rust's `Iterator` trait, because
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/// the lifetime of the returned row is tied to the lifetime of `self`.
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/// This is a fallible "streaming iterator". For a more natural interface,
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/// consider using [`query_map`](crate::Statement::query_map) or
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/// [`query_and_then`](crate::Statement::query_and_then) instead, which
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/// return types that implement `Iterator`.
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#[allow(clippy::should_implement_trait)] // cannot implement Iterator
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#[inline]
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pub fn next(&mut self) -> Result<Option<&Row<'stmt>>> {
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self.advance()?;
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Ok((*self).get())
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}
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/// Map over this `Rows`, converting it to a [`Map`], which
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/// implements `FallibleIterator`.
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/// ```rust,no_run
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/// use fallible_iterator::FallibleIterator;
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/// # use rusqlite::{Result, Statement};
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/// fn query(stmt: &mut Statement) -> Result<Vec<i64>> {
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/// let rows = stmt.query([])?;
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/// rows.map(|r| r.get(0)).collect()
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/// }
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/// ```
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// FIXME Hide FallibleStreamingIterator::map
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#[inline]
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pub fn map<F, B>(self, f: F) -> Map<'stmt, F>
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where
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F: FnMut(&Row<'_>) -> Result<B>,
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{
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Map { rows: self, f }
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}
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/// Map over this `Rows`, converting it to a [`MappedRows`], which
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/// implements `Iterator`.
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#[inline]
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pub fn mapped<F, B>(self, f: F) -> MappedRows<'stmt, F>
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where
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F: FnMut(&Row<'_>) -> Result<B>,
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{
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MappedRows { rows: self, map: f }
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}
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/// Map over this `Rows` with a fallible function, converting it to a
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/// [`AndThenRows`], which implements `Iterator` (instead of
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/// `FallibleStreamingIterator`).
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#[inline]
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pub fn and_then<F, T, E>(self, f: F) -> AndThenRows<'stmt, F>
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where
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F: FnMut(&Row<'_>) -> Result<T, E>,
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{
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AndThenRows { rows: self, map: f }
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}
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/// Give access to the underlying statement
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pub fn as_ref(&self) -> Option<&Statement<'stmt>> {
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self.stmt
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}
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}
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impl<'stmt> Rows<'stmt> {
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#[inline]
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pub(crate) fn new(stmt: &'stmt Statement<'stmt>) -> Rows<'stmt> {
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Rows {
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stmt: Some(stmt),
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row: None,
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}
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}
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#[inline]
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pub(crate) fn get_expected_row(&mut self) -> Result<&Row<'stmt>> {
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match self.next()? {
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Some(row) => Ok(row),
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None => Err(Error::QueryReturnedNoRows),
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}
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}
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}
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impl Drop for Rows<'_> {
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#[inline]
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fn drop(&mut self) {
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self.reset();
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}
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}
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/// `F` is used to transform the _streaming_ iterator into a _fallible_
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/// iterator.
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#[must_use = "iterators are lazy and do nothing unless consumed"]
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pub struct Map<'stmt, F> {
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rows: Rows<'stmt>,
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f: F,
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}
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impl<F, B> FallibleIterator for Map<'_, F>
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where
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F: FnMut(&Row<'_>) -> Result<B>,
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{
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type Error = Error;
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type Item = B;
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#[inline]
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fn next(&mut self) -> Result<Option<B>> {
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match self.rows.next()? {
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Some(v) => Ok(Some((self.f)(v)?)),
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None => Ok(None),
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}
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}
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}
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/// An iterator over the mapped resulting rows of a query.
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///
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/// `F` is used to transform the _streaming_ iterator into a _standard_
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/// iterator.
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#[must_use = "iterators are lazy and do nothing unless consumed"]
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pub struct MappedRows<'stmt, F> {
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rows: Rows<'stmt>,
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map: F,
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}
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impl<T, F> Iterator for MappedRows<'_, F>
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where
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F: FnMut(&Row<'_>) -> Result<T>,
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{
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type Item = Result<T>;
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#[inline]
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fn next(&mut self) -> Option<Result<T>> {
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let map = &mut self.map;
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self.rows
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.next()
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.transpose()
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.map(|row_result| row_result.and_then(|row| (map)(row)))
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}
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}
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/// An iterator over the mapped resulting rows of a query, with an Error type
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/// unifying with Error.
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#[must_use = "iterators are lazy and do nothing unless consumed"]
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pub struct AndThenRows<'stmt, F> {
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rows: Rows<'stmt>,
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map: F,
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}
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impl<T, E, F> Iterator for AndThenRows<'_, F>
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where
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E: convert::From<Error>,
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F: FnMut(&Row<'_>) -> Result<T, E>,
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{
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type Item = Result<T, E>;
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#[inline]
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fn next(&mut self) -> Option<Self::Item> {
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let map = &mut self.map;
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self.rows
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.next()
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.transpose()
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.map(|row_result| row_result.map_err(E::from).and_then(|row| (map)(row)))
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}
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}
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/// `FallibleStreamingIterator` differs from the standard library's `Iterator`
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/// in two ways:
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/// * each call to `next` (sqlite3_step) can fail.
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/// * returned `Row` is valid until `next` is called again or `Statement` is
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/// reset or finalized.
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///
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/// While these iterators cannot be used with Rust `for` loops, `while let`
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/// loops offer a similar level of ergonomics:
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/// ```rust,no_run
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/// # use rusqlite::{Result, Statement};
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/// fn query(stmt: &mut Statement) -> Result<()> {
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/// let mut rows = stmt.query([])?;
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/// while let Some(row) = rows.next()? {
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/// // scan columns value
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/// }
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/// Ok(())
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/// }
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/// ```
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impl<'stmt> FallibleStreamingIterator for Rows<'stmt> {
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type Error = Error;
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type Item = Row<'stmt>;
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#[inline]
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fn advance(&mut self) -> Result<()> {
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match self.stmt {
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Some(stmt) => match stmt.step() {
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Ok(true) => {
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self.row = Some(Row { stmt });
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Ok(())
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}
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Ok(false) => {
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self.reset();
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self.row = None;
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Ok(())
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}
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Err(e) => {
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self.reset();
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self.row = None;
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Err(e)
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}
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},
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None => {
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self.row = None;
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Ok(())
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}
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}
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}
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#[inline]
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fn get(&self) -> Option<&Row<'stmt>> {
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self.row.as_ref()
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}
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}
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/// A single result row of a query.
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pub struct Row<'stmt> {
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pub(crate) stmt: &'stmt Statement<'stmt>,
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}
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impl<'stmt> Row<'stmt> {
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/// Get the value of a particular column of the result row.
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///
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/// ## Failure
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///
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/// Panics if calling [`row.get(idx)`](Row::get) would return an error,
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/// including:
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///
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/// * If the underlying SQLite column type is not a valid type as a source
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/// for `T`
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/// * If the underlying SQLite integral value is outside the range
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/// representable by `T`
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/// * If `idx` is outside the range of columns in the returned query
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pub fn get_unwrap<I: RowIndex, T: FromSql>(&self, idx: I) -> T {
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self.get(idx).unwrap()
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}
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/// Get the value of a particular column of the result row.
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///
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/// ## Failure
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///
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/// Returns an `Error::InvalidColumnType` if the underlying SQLite column
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/// type is not a valid type as a source for `T`.
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///
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/// Returns an `Error::InvalidColumnIndex` if `idx` is outside the valid
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/// column range for this row.
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///
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/// Returns an `Error::InvalidColumnName` if `idx` is not a valid column
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/// name for this row.
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///
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/// If the result type is i128 (which requires the `i128_blob` feature to be
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/// enabled), and the underlying SQLite column is a blob whose size is not
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/// 16 bytes, `Error::InvalidColumnType` will also be returned.
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pub fn get<I: RowIndex, T: FromSql>(&self, idx: I) -> Result<T> {
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let idx = idx.idx(self.stmt)?;
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let value = self.stmt.value_ref(idx);
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FromSql::column_result(value).map_err(|err| match err {
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FromSqlError::InvalidType => Error::InvalidColumnType(
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idx,
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self.stmt.column_name_unwrap(idx).into(),
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value.data_type(),
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),
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FromSqlError::OutOfRange(i) => Error::IntegralValueOutOfRange(idx, i),
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FromSqlError::Other(err) => {
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Error::FromSqlConversionFailure(idx as usize, value.data_type(), err)
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}
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#[cfg(feature = "i128_blob")]
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FromSqlError::InvalidI128Size(_) => Error::InvalidColumnType(
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idx,
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self.stmt.column_name_unwrap(idx).into(),
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value.data_type(),
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),
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#[cfg(feature = "uuid")]
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FromSqlError::InvalidUuidSize(_) => Error::InvalidColumnType(
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idx,
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self.stmt.column_name_unwrap(idx).into(),
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value.data_type(),
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),
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})
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}
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/// Get the value of a particular column of the result row as a `ValueRef`,
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/// allowing data to be read out of a row without copying.
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///
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/// This `ValueRef` is valid only as long as this Row, which is enforced by
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/// it's lifetime. This means that while this method is completely safe,
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/// it can be somewhat difficult to use, and most callers will be better
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/// served by [`get`](Row::get) or [`get_unwrap`](Row::get_unwrap).
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///
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/// ## Failure
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///
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/// Returns an `Error::InvalidColumnIndex` if `idx` is outside the valid
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/// column range for this row.
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///
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/// Returns an `Error::InvalidColumnName` if `idx` is not a valid column
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/// name for this row.
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pub fn get_ref<I: RowIndex>(&self, idx: I) -> Result<ValueRef<'_>> {
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let idx = idx.idx(self.stmt)?;
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// Narrowing from `ValueRef<'stmt>` (which `self.stmt.value_ref(idx)`
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// returns) to `ValueRef<'a>` is needed because it's only valid until
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// the next call to sqlite3_step.
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let val_ref = self.stmt.value_ref(idx);
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Ok(val_ref)
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}
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/// Get the value of a particular column of the result row as a `ValueRef`,
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/// allowing data to be read out of a row without copying.
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///
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/// This `ValueRef` is valid only as long as this Row, which is enforced by
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/// it's lifetime. This means that while this method is completely safe,
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/// it can be difficult to use, and most callers will be better served by
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/// [`get`](Row::get) or [`get_unwrap`](Row::get_unwrap).
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///
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/// ## Failure
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///
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/// Panics if calling [`row.get_ref(idx)`](Row::get_ref) would return an
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/// error, including:
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///
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/// * If `idx` is outside the range of columns in the returned query.
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/// * If `idx` is not a valid column name for this row.
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pub fn get_ref_unwrap<I: RowIndex>(&self, idx: I) -> ValueRef<'_> {
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self.get_ref(idx).unwrap()
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}
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/// Renamed to [`get_ref`](Row::get_ref).
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#[deprecated = "Use [`get_ref`](Row::get_ref) instead."]
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#[inline]
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pub fn get_raw_checked<I: RowIndex>(&self, idx: I) -> Result<ValueRef<'_>> {
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self.get_ref(idx)
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}
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/// Renamed to [`get_ref_unwrap`](Row::get_ref_unwrap).
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#[deprecated = "Use [`get_ref_unwrap`](Row::get_ref_unwrap) instead."]
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#[inline]
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pub fn get_raw<I: RowIndex>(&self, idx: I) -> ValueRef<'_> {
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self.get_ref_unwrap(idx)
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}
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}
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impl<'stmt> AsRef<Statement<'stmt>> for Row<'stmt> {
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fn as_ref(&self) -> &Statement<'stmt> {
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self.stmt
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}
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}
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mod sealed {
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/// This trait exists just to ensure that the only impls of `trait Params`
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/// that are allowed are ones in this crate.
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pub trait Sealed {}
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impl Sealed for usize {}
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impl Sealed for &str {}
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}
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/// A trait implemented by types that can index into columns of a row.
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///
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/// It is only implemented for `usize` and `&str`.
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pub trait RowIndex: sealed::Sealed {
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/// Returns the index of the appropriate column, or `None` if no such
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/// column exists.
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fn idx(&self, stmt: &Statement<'_>) -> Result<usize>;
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}
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impl RowIndex for usize {
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#[inline]
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fn idx(&self, stmt: &Statement<'_>) -> Result<usize> {
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if *self >= stmt.column_count() {
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Err(Error::InvalidColumnIndex(*self))
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} else {
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Ok(*self)
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}
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}
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}
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impl RowIndex for &'_ str {
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#[inline]
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fn idx(&self, stmt: &Statement<'_>) -> Result<usize> {
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stmt.column_index(*self)
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}
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}
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macro_rules! tuple_try_from_row {
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($($field:ident),*) => {
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impl<'a, $($field,)*> convert::TryFrom<&'a Row<'a>> for ($($field,)*) where $($field: FromSql,)* {
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type Error = crate::Error;
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// we end with index += 1, which rustc warns about
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// unused_variables and unused_mut are allowed for ()
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#[allow(unused_assignments, unused_variables, unused_mut)]
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fn try_from(row: &'a Row<'a>) -> Result<Self> {
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let mut index = 0;
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$(
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#[allow(non_snake_case)]
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let $field = row.get::<_, $field>(index)?;
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index += 1;
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)*
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Ok(($($field,)*))
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}
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}
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}
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}
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|
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macro_rules! tuples_try_from_row {
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() => {
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// not very useful, but maybe some other macro users will find this helpful
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tuple_try_from_row!();
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};
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($first:ident $(, $remaining:ident)*) => {
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tuple_try_from_row!($first $(, $remaining)*);
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tuples_try_from_row!($($remaining),*);
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};
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}
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tuples_try_from_row!(A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P);
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|
|
#[cfg(test)]
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mod tests {
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|
#![allow(clippy::redundant_closure)] // false positives due to lifetime issues; clippy issue #5594
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use crate::{Connection, Result};
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|
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#[test]
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fn test_try_from_row_for_tuple_1() -> Result<()> {
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use crate::ToSql;
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use std::convert::TryFrom;
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|
|
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let conn = Connection::open_in_memory()?;
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conn.execute(
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"CREATE TABLE test (a INTEGER)",
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crate::params_from_iter(std::iter::empty::<&dyn ToSql>()),
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)?;
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conn.execute("INSERT INTO test VALUES (42)", [])?;
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let val = conn.query_row("SELECT a FROM test", [], |row| <(u32,)>::try_from(row))?;
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assert_eq!(val, (42,));
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let fail = conn.query_row("SELECT a FROM test", [], |row| <(u32, u32)>::try_from(row));
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assert!(fail.is_err());
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Ok(())
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}
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|
|
|
#[test]
|
|
fn test_try_from_row_for_tuple_2() -> Result<()> {
|
|
use std::convert::TryFrom;
|
|
|
|
let conn = Connection::open_in_memory()?;
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conn.execute("CREATE TABLE test (a INTEGER, b INTEGER)", [])?;
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conn.execute("INSERT INTO test VALUES (42, 47)", [])?;
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let val = conn.query_row("SELECT a, b FROM test", [], |row| {
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<(u32, u32)>::try_from(row)
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})?;
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assert_eq!(val, (42, 47));
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let fail = conn.query_row("SELECT a, b FROM test", [], |row| {
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<(u32, u32, u32)>::try_from(row)
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});
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assert!(fail.is_err());
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Ok(())
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}
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|
|
#[test]
|
|
fn test_try_from_row_for_tuple_16() -> Result<()> {
|
|
use std::convert::TryFrom;
|
|
|
|
let create_table = "CREATE TABLE test (
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a INTEGER,
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b INTEGER,
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c INTEGER,
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d INTEGER,
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e INTEGER,
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f INTEGER,
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g INTEGER,
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h INTEGER,
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i INTEGER,
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j INTEGER,
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k INTEGER,
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l INTEGER,
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m INTEGER,
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n INTEGER,
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o INTEGER,
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p INTEGER
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)";
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|
|
let insert_values = "INSERT INTO test VALUES (
|
|
0,
|
|
1,
|
|
2,
|
|
3,
|
|
4,
|
|
5,
|
|
6,
|
|
7,
|
|
8,
|
|
9,
|
|
10,
|
|
11,
|
|
12,
|
|
13,
|
|
14,
|
|
15
|
|
)";
|
|
|
|
type BigTuple = (
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
u32,
|
|
);
|
|
|
|
let conn = Connection::open_in_memory()?;
|
|
conn.execute(create_table, [])?;
|
|
conn.execute(insert_values, [])?;
|
|
let val = conn.query_row("SELECT * FROM test", [], |row| BigTuple::try_from(row))?;
|
|
// Debug is not implemented for tuples of 16
|
|
assert_eq!(val.0, 0);
|
|
assert_eq!(val.1, 1);
|
|
assert_eq!(val.2, 2);
|
|
assert_eq!(val.3, 3);
|
|
assert_eq!(val.4, 4);
|
|
assert_eq!(val.5, 5);
|
|
assert_eq!(val.6, 6);
|
|
assert_eq!(val.7, 7);
|
|
assert_eq!(val.8, 8);
|
|
assert_eq!(val.9, 9);
|
|
assert_eq!(val.10, 10);
|
|
assert_eq!(val.11, 11);
|
|
assert_eq!(val.12, 12);
|
|
assert_eq!(val.13, 13);
|
|
assert_eq!(val.14, 14);
|
|
assert_eq!(val.15, 15);
|
|
|
|
// We don't test one bigger because it's unimplemented
|
|
Ok(())
|
|
}
|
|
}
|