Breathe life back into this project. #1

Merged
gburd merged 22 commits from gburd/2018edition-fmt-fix-deps into master 2020-01-16 16:27:21 +00:00
3 changed files with 17 additions and 17 deletions
Showing only changes of commit 4d92e3eef9 - Show all commits

View file

@ -97,7 +97,7 @@ impl SyncMetadata {
}, },
PartitionsTable::Tolstoy => { PartitionsTable::Tolstoy => {
let mut stmt: ::rusqlite::Statement = tx.prepare("SELECT part, start, end, idx, allow_excision FROM tolstoy_parts")?; let mut stmt: ::rusqlite::Statement = tx.prepare("SELECT part, start, end, idx, allow_excision FROM tolstoy_parts")?;
let m: Result<PartitionMap> = stmt.query_and_then(&[], |row| -> Result<(String, Partition)> { let m: Result<PartitionMap> = stmt.query_and_then(rusqlite::params![], |row| -> Result<(String, Partition)> {
Ok((row.get(0)?, Partition::new(row.get(1)?, row.get(2)?, row.get(3)?, row.get(4)?))) Ok((row.get(0)?, Partition::new(row.get(1)?, row.get(2)?, row.get(3)?, row.get(4)?)))
})?.collect(); })?.collect();
m m
@ -107,7 +107,7 @@ impl SyncMetadata {
pub fn root_and_head_tx(tx: &rusqlite::Transaction) -> Result<(Entid, Entid)> { pub fn root_and_head_tx(tx: &rusqlite::Transaction) -> Result<(Entid, Entid)> {
let mut stmt: ::rusqlite::Statement = tx.prepare("SELECT tx FROM timelined_transactions WHERE timeline = 0 GROUP BY tx ORDER BY tx")?; let mut stmt: ::rusqlite::Statement = tx.prepare("SELECT tx FROM timelined_transactions WHERE timeline = 0 GROUP BY tx ORDER BY tx")?;
let txs: Vec<_> = stmt.query_and_then(&[], |row| -> Result<Entid> { let txs: Vec<_> = stmt.query_and_then(rusqlite::params![], |row| -> Result<Entid> {
Ok(row.get(0)?) Ok(row.get(0)?)
})?.collect(); })?.collect();
@ -130,7 +130,7 @@ impl SyncMetadata {
None => format!("WHERE timeline = 0") None => format!("WHERE timeline = 0")
}; };
let mut stmt: ::rusqlite::Statement = db_tx.prepare(&format!("SELECT tx FROM timelined_transactions {} GROUP BY tx ORDER BY tx", after_clause))?; let mut stmt: ::rusqlite::Statement = db_tx.prepare(&format!("SELECT tx FROM timelined_transactions {} GROUP BY tx ORDER BY tx", after_clause))?;
let txs: Vec<_> = stmt.query_and_then(&[], |row| -> Result<Entid> { let txs: Vec<_> = stmt.query_and_then(rusqlite::params![], |row| -> Result<Entid> {
Ok(row.get(0)?) Ok(row.get(0)?)
})?.collect(); })?.collect();
@ -143,14 +143,14 @@ impl SyncMetadata {
} }
pub fn is_tx_empty(db_tx: &rusqlite::Transaction, tx_id: Entid) -> Result<bool> { pub fn is_tx_empty(db_tx: &rusqlite::Transaction, tx_id: Entid) -> Result<bool> {
let count: i64 = db_tx.query_row("SELECT count(rowid) FROM timelined_transactions WHERE timeline = 0 AND tx = ? AND e != ?", &[&tx_id, &tx_id], |row| { let count: i64 = db_tx.query_row("SELECT count(rowid) FROM timelined_transactions WHERE timeline = 0 AND tx = ? AND e != ?", rusqlite::params![&tx_id, &tx_id], |row| {
Ok(row.get(0)?) Ok(row.get(0)?)
})?; })?;
Ok(count == 0) Ok(count == 0)
} }
pub fn has_entity_assertions_in_tx(db_tx: &rusqlite::Transaction, e: Entid, tx_id: Entid) -> Result<bool> { pub fn has_entity_assertions_in_tx(db_tx: &rusqlite::Transaction, e: Entid, tx_id: Entid) -> Result<bool> {
let count: i64 = db_tx.query_row("SELECT count(rowid) FROM timelined_transactions WHERE timeline = 0 AND tx = ? AND e = ?", &[&tx_id, &e], |row| { let count: i64 = db_tx.query_row("SELECT count(rowid) FROM timelined_transactions WHERE timeline = 0 AND tx = ? AND e = ?", rusqlite::params![&tx_id, &e], |row| {
Ok(row.get(0)?) Ok(row.get(0)?)
})?; })?;
Ok(count > 0) Ok(count > 0)
@ -203,11 +203,11 @@ mod tests {
// last attribute is the timeline (0). // last attribute is the timeline (0).
db_tx.execute("INSERT INTO timelined_transactions VALUES (?, ?, ?, ?, ?, ?, ?)", &[&268435457, &3, &1529971773701734_i64, &268435457, &1, &4, &0]).expect("inserted"); db_tx.execute("INSERT INTO timelined_transactions VALUES (?, ?, ?, ?, ?, ?, ?)", rusqlite::params![&268435457, &3, &1529971773701734_i64, &268435457, &1, &4, &0]).expect("inserted");
db_tx.execute("INSERT INTO timelined_transactions VALUES (?, ?, ?, ?, ?, ?, ?)", &[&65536, &1, &":person/name", &268435457, &1, &13, &0]).expect("inserted"); db_tx.execute("INSERT INTO timelined_transactions VALUES (?, ?, ?, ?, ?, ?, ?)", rusqlite::params![&65536, &1, &":person/name", &268435457, &1, &13, &0]).expect("inserted");
db_tx.execute("INSERT INTO timelined_transactions VALUES (?, ?, ?, ?, ?, ?, ?)", &[&65536, &7, &27, &268435457, &1, &0, &0]).expect("inserted"); db_tx.execute("INSERT INTO timelined_transactions VALUES (?, ?, ?, ?, ?, ?, ?)", rusqlite::params![&65536, &7, &27, &268435457, &1, &0, &0]).expect("inserted");
db_tx.execute("INSERT INTO timelined_transactions VALUES (?, ?, ?, ?, ?, ?, ?)", &[&65536, &9, &36, &268435457, &1, &0, &0]).expect("inserted"); db_tx.execute("INSERT INTO timelined_transactions VALUES (?, ?, ?, ?, ?, ?, ?)", rusqlite::params![&65536, &9, &36, &268435457, &1, &0, &0]).expect("inserted");
db_tx.execute("INSERT INTO timelined_transactions VALUES (?, ?, ?, ?, ?, ?, ?)", &[&65536, &11, &1, &268435457, &1, &1, &0]).expect("inserted"); db_tx.execute("INSERT INTO timelined_transactions VALUES (?, ?, ?, ?, ?, ?, ?)", rusqlite::params![&65536, &11, &1, &268435457, &1, &1, &0]).expect("inserted");
let (root_tx, last_tx) = SyncMetadata::root_and_head_tx(&db_tx).expect("last tx"); let (root_tx, last_tx) = SyncMetadata::root_and_head_tx(&db_tx).expect("last tx");
assert_eq!(268435456, root_tx); assert_eq!(268435456, root_tx);

View file

@ -37,7 +37,7 @@ lazy_static! {
pub fn ensure_current_version(tx: &mut rusqlite::Transaction) -> Result<()> { pub fn ensure_current_version(tx: &mut rusqlite::Transaction) -> Result<()> {
for statement in (&SCHEMA_STATEMENTS).iter() { for statement in (&SCHEMA_STATEMENTS).iter() {
tx.execute(statement, &[])?; tx.execute(statement, rusqlite::params![])?;
} }
// Initial partition information is what we'd see at bootstrap, and is used during first sync. // Initial partition information is what we'd see at bootstrap, and is used during first sync.
@ -45,7 +45,7 @@ pub fn ensure_current_version(tx: &mut rusqlite::Transaction) -> Result<()> {
tx.execute("INSERT OR IGNORE INTO tolstoy_parts VALUES (?, ?, ?, ?, ?)", rusqlite::params![&name.to_string(), start, end, index, allow_excision])?; tx.execute("INSERT OR IGNORE INTO tolstoy_parts VALUES (?, ?, ?, ?, ?)", rusqlite::params![&name.to_string(), start, end, index, allow_excision])?;
} }
tx.execute("INSERT OR IGNORE INTO tolstoy_metadata (key, value) VALUES (?, zeroblob(16))", &[&REMOTE_HEAD_KEY])?; tx.execute("INSERT OR IGNORE INTO tolstoy_metadata (key, value) VALUES (?, zeroblob(16))", rusqlite::params![&REMOTE_HEAD_KEY])?;
Ok(()) Ok(())
} }
@ -93,7 +93,7 @@ pub mod tests {
assert!(ensure_current_version(&mut tx).is_ok()); assert!(ensure_current_version(&mut tx).is_ok());
let mut stmt = tx.prepare("SELECT key FROM tolstoy_metadata WHERE value = zeroblob(16)").unwrap(); let mut stmt = tx.prepare("SELECT key FROM tolstoy_metadata WHERE value = zeroblob(16)").unwrap();
let mut keys_iter = stmt.query_map(&[], |r| r.get(0)).expect("query works"); let mut keys_iter = stmt.query_map(rusqlite::params![], |r| r.get(0)).expect("query works");
let first: Result<String> = keys_iter.next().unwrap().map_err(|e| e.into()); let first: Result<String> = keys_iter.next().unwrap().map_err(|e| e.into());
let second: Option<_> = keys_iter.next(); let second: Option<_> = keys_iter.next();
@ -127,14 +127,14 @@ pub mod tests {
let test_uuid = Uuid::new_v4(); let test_uuid = Uuid::new_v4();
{ {
let uuid_bytes = test_uuid.as_bytes().to_vec(); let uuid_bytes = test_uuid.as_bytes().to_vec();
match tx.execute("UPDATE tolstoy_metadata SET value = ? WHERE key = ?", &[&uuid_bytes, &REMOTE_HEAD_KEY]) { match tx.execute("UPDATE tolstoy_metadata SET value = ? WHERE key = ?", rusqlite::params![&uuid_bytes, &REMOTE_HEAD_KEY]) {
Err(e) => panic!("Error running an update: {}", e), Err(e) => panic!("Error running an update: {}", e),
_ => () _ => ()
} }
} }
let new_idx = USER0 + 1; let new_idx = USER0 + 1;
match tx.execute("UPDATE tolstoy_parts SET idx = ? WHERE part = ?", &[&new_idx, &PARTITION_USER]) { match tx.execute("UPDATE tolstoy_parts SET idx = ? WHERE part = ?", rusqlite::params![&new_idx, &PARTITION_USER]) {
Err(e) => panic!("Error running an update: {}", e), Err(e) => panic!("Error running an update: {}", e),
_ => () _ => ()
} }
@ -143,7 +143,7 @@ pub mod tests {
// Check that running ensure_current_version on an initialized conn doesn't change anything. // Check that running ensure_current_version on an initialized conn doesn't change anything.
let mut stmt = tx.prepare("SELECT value FROM tolstoy_metadata").unwrap(); let mut stmt = tx.prepare("SELECT value FROM tolstoy_metadata").unwrap();
let mut values_iter = stmt.query_map(&[], |r| { let mut values_iter = stmt.query_map(rusqlite::params![], |r| {
let raw_uuid: Vec<u8> = r.get(0); let raw_uuid: Vec<u8> = r.get(0);
Uuid::from_bytes(raw_uuid.as_slice()).unwrap() Uuid::from_bytes(raw_uuid.as_slice()).unwrap()
}).expect("query works"); }).expect("query works");

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@ -137,7 +137,7 @@ impl Processor {
let select_query = format!("SELECT e, a, v, value_type_tag, tx, added FROM timelined_transactions {} ORDER BY tx", tx_filter); let select_query = format!("SELECT e, a, v, value_type_tag, tx, added FROM timelined_transactions {} ORDER BY tx", tx_filter);
let mut stmt = sqlite.prepare(&select_query)?; let mut stmt = sqlite.prepare(&select_query)?;
let mut rows = stmt.query_and_then(&[], to_tx_part)?.peekable(); let mut rows = stmt.query_and_then(rusqlite::params![], to_tx_part)?.peekable();
// Walk the transaction table, keeping track of the current "tx". // Walk the transaction table, keeping track of the current "tx".
// Whenever "tx" changes, construct a datoms iterator and pass it to the receiver. // Whenever "tx" changes, construct a datoms iterator and pass it to the receiver.