return;
m_value = m_cell->value.load(turf::Consume);
if (m_value != Value(ValueTraits::Redirect))
- return; // Found an existing value
+ return; // Found an existing value
// We've encountered a Redirect value. Help finish the migration.
TURF_TRACE(ConcurrentMap_Linear, 1, "[Mutator] find was redirected", uptr(m_table), uptr(0));
m_table->jobCoordinator.participate();
}
// Constructor: Insert cell
- Mutator(ConcurrentMap_Linear& map, Key key) : m_map(map), m_table(map.m_root.load(turf::Consume)), m_value(Value(ValueTraits::NullValue)) {
+ Mutator(ConcurrentMap_Linear& map, Key key)
+ : m_map(map), m_table(map.m_root.load(turf::Consume)), m_value(Value(ValueTraits::NullValue)) {
TURF_TRACE(ConcurrentMap_Linear, 2, "[Mutator] insert constructor called", uptr(m_table), uptr(key));
Hash hash = KeyTraits::hash(key);
for (;;) {
m_table = m_map.m_root.load(turf::Consume);
- switch (Details::insert(hash, m_table, m_cell)) { // Modifies m_cell
- case Details::InsertResult_InsertedNew: {
- // We've inserted a new cell. Don't load m_cell->value.
- return;
- }
- case Details::InsertResult_AlreadyFound: {
- // The hash was already found in the table.
- m_value = m_cell->value.load(turf::Consume);
- if (m_value == Value(ValueTraits::Redirect)) {
- // We've encountered a Redirect value.
- TURF_TRACE(ConcurrentMap_Linear, 3, "[Mutator] insert was redirected", uptr(m_table), uptr(m_value));
- break; // Help finish the migration.
- }
- return; // Found an existing value
- }
- case Details::InsertResult_Overflow: {
- Details::beginTableMigration(m_map, m_table);
- break;
+ switch (Details::insert(hash, m_table, m_cell)) { // Modifies m_cell
+ case Details::InsertResult_InsertedNew: {
+ // We've inserted a new cell. Don't load m_cell->value.
+ return;
+ }
+ case Details::InsertResult_AlreadyFound: {
+ // The hash was already found in the table.
+ m_value = m_cell->value.load(turf::Consume);
+ if (m_value == Value(ValueTraits::Redirect)) {
+ // We've encountered a Redirect value.
+ TURF_TRACE(ConcurrentMap_Linear, 3, "[Mutator] insert was redirected", uptr(m_table), uptr(m_value));
+ break; // Help finish the migration.
}
+ return; // Found an existing value
+ }
+ case Details::InsertResult_Overflow: {
+ Details::beginTableMigration(m_map, m_table);
+ break;
+ }
}
// A migration has been started (either by us, or another thread). Participate until it's complete.
m_table->jobCoordinator.participate();
Value exchangeValue(Value desired) {
TURF_ASSERT(desired != Value(ValueTraits::NullValue));
- TURF_ASSERT(m_cell); // Cell must have been found or inserted
+ TURF_ASSERT(m_cell); // Cell must have been found or inserted
TURF_TRACE(ConcurrentMap_Linear, 4, "[Mutator::exchangeValue] called", uptr(m_table), uptr(m_value));
for (;;) {
Value oldValue = m_value;
// Decrement remainingValues to ensure we have permission to (re)insert a value.
prevRemainingValues = m_table->valuesRemaining.fetchSub(1, turf::Relaxed);
if (prevRemainingValues <= 0) {
- TURF_TRACE(ConcurrentMap_Linear, 5, "[Mutator::exchangeValue] ran out of valuesRemaining", uptr(m_table), prevRemainingValues);
+ TURF_TRACE(ConcurrentMap_Linear, 5, "[Mutator::exchangeValue] ran out of valuesRemaining", uptr(m_table),
+ prevRemainingValues);
// Can't (re)insert any more values.
// There are two ways this can happen. One with a TableMigration already in progress, and one without:
// 1. A TableMigration puts a cap on the number of values late-arriving threads are allowed to insert.
// 2. Two threads race to insert the same key, and it's the last free cell in the table.
- // (Note: We could get tid of the valuesRemaining counter by handling the possibility of migration failure,
+ // (Note: We could get tid of the valuesRemaining counter by handling the possibility of migration
+ // failure,
// as LeapFrog and Grampa do...)
- m_table->valuesRemaining.fetchAdd(1, turf::Relaxed); // Undo valuesRemaining decrement
- // Since we don't know whether there's already a TableMigration in progress, always attempt to start one here:
+ m_table->valuesRemaining.fetchAdd(1, turf::Relaxed); // Undo valuesRemaining decrement
+ // Since we don't know whether there's already a TableMigration in progress, always attempt to start one
+ // here:
Details::beginTableMigration(m_map, m_table);
goto helpMigrate;
}
// Exchange was successful. Return previous value.
TURF_TRACE(ConcurrentMap_Linear, 6, "[Mutator::exchangeValue] exchanged Value", uptr(m_value), uptr(desired));
Value result = m_value;
- m_value = desired; // Leave the mutator in a valid state
+ m_value = desired; // Leave the mutator in a valid state
return result;
}
// The CAS failed and m_value has been updated with the latest value.
if (m_value != Value(ValueTraits::Redirect)) {
- TURF_TRACE(ConcurrentMap_Linear, 7, "[Mutator::exchangeValue] detected race to write value", uptr(m_table), uptr(m_value));
+ TURF_TRACE(ConcurrentMap_Linear, 7, "[Mutator::exchangeValue] detected race to write value", uptr(m_table),
+ uptr(m_value));
if (oldValue == Value(ValueTraits::NullValue) && m_value != Value(ValueTraits::NullValue)) {
- TURF_TRACE(ConcurrentMap_Linear, 8, "[Mutator::exchangeValue] racing write inserted new value", uptr(m_table), uptr(m_value));
- m_table->valuesRemaining.fetchAdd(1, turf::Relaxed); // Undo valuesRemaining decrement
+ TURF_TRACE(ConcurrentMap_Linear, 8, "[Mutator::exchangeValue] racing write inserted new value",
+ uptr(m_table), uptr(m_value));
+ m_table->valuesRemaining.fetchAdd(1, turf::Relaxed); // Undo valuesRemaining decrement
}
// There was a racing write (or erase) to this cell.
// Pretend we exchanged with ourselves, and just let the racing write win.
// Try again in the new table.
m_table = m_map.m_root.load(turf::Consume);
m_value = Value(ValueTraits::NullValue);
- switch (Details::insert(hash, m_table, m_cell)) { // Modifies m_cell
+ switch (Details::insert(hash, m_table, m_cell)) { // Modifies m_cell
case Details::InsertResult_AlreadyFound:
m_value = m_cell->value.load(turf::Consume);
if (m_value == Value(ValueTraits::Redirect)) {
- TURF_TRACE(ConcurrentMap_Linear, 10, "[Mutator::exchangeValue] was re-redirected", uptr(m_table), uptr(m_value));
+ TURF_TRACE(ConcurrentMap_Linear, 10, "[Mutator::exchangeValue] was re-redirected", uptr(m_table),
+ uptr(m_value));
break;
}
goto breakOuter;
case Details::InsertResult_InsertedNew:
goto breakOuter;
case Details::InsertResult_Overflow:
- TURF_TRACE(ConcurrentMap_Linear, 11, "[Mutator::exchangeValue] overflow after redirect", uptr(m_table), 0);
+ TURF_TRACE(ConcurrentMap_Linear, 11, "[Mutator::exchangeValue] overflow after redirect", uptr(m_table),
+ 0);
Details::beginTableMigration(m_map, m_table);
break;
}
// We were redirected... again
}
- breakOuter:
- ;
+ breakOuter:;
// Try again in the new table.
}
}
}
Value eraseValue() {
- TURF_ASSERT(m_cell); // Cell must have been found or inserted
+ TURF_ASSERT(m_cell); // Cell must have been found or inserted
TURF_TRACE(ConcurrentMap_Linear, 12, "[Mutator::eraseValue] called", uptr(m_table), m_cell - m_table->getCells());
for (;;) {
if (m_value == Value(ValueTraits::NullValue))
return Value(m_value);
- TURF_ASSERT(m_cell); // m_value is non-NullValue, therefore cell must have been found or inserted.
+ TURF_ASSERT(m_cell); // m_value is non-NullValue, therefore cell must have been found or inserted.
if (m_cell->value.compareExchangeStrong(m_value, Value(ValueTraits::NullValue), turf::Consume)) {
// Exchange was successful and a non-NULL value was erased and returned by reference in m_value.
- TURF_ASSERT(m_value != ValueTraits::NullValue); // Implied by the test at the start of the loop.
+ TURF_ASSERT(m_value != ValueTraits::NullValue); // Implied by the test at the start of the loop.
m_table->valuesRemaining.fetchAdd(1, turf::Relaxed);
Value result = m_value;
- m_value = Value(ValueTraits::NullValue); // Leave the mutator in a valid state
+ m_value = Value(ValueTraits::NullValue); // Leave the mutator in a valid state
return result;
}
// The CAS failed and m_value has been updated with the latest value.
- TURF_TRACE(ConcurrentMap_Linear, 13, "[Mutator::eraseValue] detected race to write value", uptr(m_table), m_cell - m_table->getCells());
+ TURF_TRACE(ConcurrentMap_Linear, 13, "[Mutator::eraseValue] detected race to write value", uptr(m_table),
+ m_cell - m_table->getCells());
if (m_value != Value(ValueTraits::Redirect)) {
// There was a racing write (or erase) to this cell.
// Pretend we erased nothing, and just let the racing write win.
return Value(ValueTraits::NullValue);
}
// We've been redirected to a new table.
- TURF_TRACE(ConcurrentMap_Linear, 14, "[Mutator::eraseValue] was redirected", uptr(m_table), m_cell - m_table->getCells());
- Hash hash = m_cell->hash.load(turf::Relaxed); // Re-fetch hash
+ TURF_TRACE(ConcurrentMap_Linear, 14, "[Mutator::eraseValue] was redirected", uptr(m_table),
+ m_cell - m_table->getCells());
+ Hash hash = m_cell->hash.load(turf::Relaxed); // Re-fetch hash
for (;;) {
// Help complete the migration.
m_table->jobCoordinator.participate();
m_value = m_cell->value.load(turf::Relaxed);
if (m_value != Value(ValueTraits::Redirect))
break;
- TURF_TRACE(ConcurrentMap_Linear, 15, "[Mutator::eraseValue] was re-redirected", uptr(m_table), m_cell - m_table->getCells());
+ TURF_TRACE(ConcurrentMap_Linear, 15, "[Mutator::eraseValue] was re-redirected", uptr(m_table),
+ m_cell - m_table->getCells());
}
}
}
return Value(ValueTraits::NullValue);
Value value = cell->value.load(turf::Consume);
if (value != Value(ValueTraits::Redirect))
- return value; // Found an existing value
+ return value; // Found an existing value
// We've been redirected to a new table. Help with the migration.
TURF_TRACE(ConcurrentMap_Linear, 17, "[get] was redirected", uptr(table), uptr(cell));
table->jobCoordinator.participate();
void next() {
TURF_ASSERT(m_table);
- TURF_ASSERT(isValid() || m_idx == -1); // Either the Iterator is already valid, or we've just started iterating.
+ TURF_ASSERT(isValid() || m_idx == -1); // Either the Iterator is already valid, or we've just started iterating.
while (++m_idx <= m_table->sizeMask) {
// Index still inside range of table.
- typename Details::Cell *cell = m_table->getCells() + m_idx;
+ typename Details::Cell* cell = m_table->getCells() + m_idx;
m_hash = cell->hash.load(turf::Relaxed);
if (m_hash != KeyTraits::NullHash) {
// Cell has been reserved.
m_value = cell->value.load(turf::Relaxed);
TURF_ASSERT(m_value != Value(ValueTraits::Redirect));
if (m_value != Value(ValueTraits::NullValue))
- return; // Yield this cell.
+ return; // Yield this cell.
}
}
// That's the end of the map.