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use crate::{
model::{card::Card, entry::Entry},
space_repetition,
util::serialization,
};
use anyhow::Result;
use rusqlite::{params, Connection};
use rusqlite_migration::{Migrations, M};
use crate::util::time;
pub fn init(database: String) -> Result<Connection> {
let mut conn = Connection::open(database)?;
let migrations = Migrations::new(vec![
M::up(include_str!("sql/1-init.sql")),
M::up(include_str!("sql/2-primary-key-question-responses.sql")),
]);
migrations.to_latest(&mut conn)?;
Ok(conn)
}
pub fn last_deck_read(conn: &Connection) -> Option<u64> {
let mut stmt = conn
.prepare("SELECT deck_read FROM cards ORDER BY deck_read DESC LIMIT 1")
.ok()?;
let mut rows = stmt.query([]).ok()?;
let row = rows.next().ok()??;
row.get(0).ok()?
}
/// Synchronize the DB with the deck:
///
/// - insert new cards,
/// - keep existing cards,
/// - hide unused cards (keep state in case the card is added back afterward).
pub fn synchronize(conn: &Connection, entries: Vec<Entry>) -> Result<()> {
let now = time::seconds_since_unix_epoch()?;
let state = serde_json::to_string(&space_repetition::init())?;
for entry in entries {
let concat_1 = serialization::words_to_line(&entry.part_1);
let concat_2 = serialization::words_to_line(&entry.part_2);
for w in entry.part_1.iter() {
insert(conn, now, w, &concat_2, &state)?;
}
for w in entry.part_2.iter() {
insert(conn, now, w, &concat_1, &state)?;
}
}
delete_read_before(conn, now)?;
Ok(())
}
fn insert(conn: &Connection, now: u64, question: &str, responses: &str, state: &str) -> Result<()> {
conn.execute(
"
INSERT INTO cards (question, responses, state, created, deck_read, ready)
VALUES (?, ?, ?, ?, ?, ?)
ON CONFLICT (question, responses) DO UPDATE SET deck_read = ?, deleted = null
",
params![question, responses, state, now, now, now, now],
)?;
Ok(())
}
fn delete_read_before(conn: &Connection, t: u64) -> Result<()> {
conn.execute(
"UPDATE cards SET deleted = ? WHERE deck_read < ?",
params![t, t],
)?;
Ok(())
}
pub fn pick_random_ready(conn: &Connection) -> Option<Card> {
let now = time::seconds_since_unix_epoch().ok()?;
let mut stmt = conn
.prepare(
"
SELECT question, responses, state, ready
FROM cards
WHERE deleted IS NULL AND ready <= ?
ORDER BY RANDOM()
LIMIT 1
",
)
.ok()?;
let mut rows = stmt.query([now]).ok()?;
let row = rows.next().ok()??;
let state_str: String = row.get(2).ok()?;
let responses_str: String = row.get(1).ok()?;
Some(Card {
question: row.get(0).ok()?,
responses: serialization::line_to_words(&responses_str),
state: serde_json::from_str(&state_str).ok()?,
ready: row.get(3).ok()?,
})
}
pub fn next_ready(conn: &Connection) -> Option<u64> {
let mut stmt = conn
.prepare(
"
SELECT ready
FROM cards
WHERE deleted IS NULL
ORDER BY ready
LIMIT 1
",
)
.ok()?;
let mut rows = stmt.query([]).ok()?;
let row = rows.next().ok()??;
row.get(0).ok()?
}
pub fn count_available(conn: &Connection) -> Option<i32> {
let now = time::seconds_since_unix_epoch().ok()?;
let mut stmt = conn
.prepare("SELECT COUNT(*) FROM cards WHERE ready <= ? AND deleted IS NULL")
.ok()?;
let mut rows = stmt.query([now]).ok()?;
let row = rows.next().ok()??;
row.get(0).ok()?
}
pub fn update(conn: &Connection, question: &str, state: &space_repetition::State) -> Result<()> {
let now = time::seconds_since_unix_epoch()?;
let ready = now + state.get_interval_seconds();
let state_str = serde_json::to_string(state)?;
conn.execute(
"
UPDATE cards
SET state = ?, updated = ?, ready = ?
WHERE question = ?
",
params![state_str, now, ready, question],
)?;
Ok(())
}
|