void DeleteTranslator::Consume(ConsumerContext &, RowBatch::Row &row) const {
CodeGen &codegen = GetCodeGen();
// Call Deleter::Delete(tile_group_id, tuple_offset)
auto *deleter = LoadStatePtr(deleter_state_id_);
codegen.Call(DeleterProxy::Delete,
{deleter, row.GetTileGroupID(), row.GetTID(codegen)});
}
Value NegationTranslator::DeriveValue(CodeGen &codegen,
RowBatch::Row &row) const {
const auto &negation_expr =
GetExpressionAs<expression::OperatorUnaryMinusExpression>();
Value child_value = row.DeriveValue(codegen, *negation_expr.GetChild(0));
return child_value.CallUnaryOp(codegen, OperatorId::Negation);
}
// Produce the value that is the result of codegening the expression
codegen::Value ConjunctionTranslator::DeriveValue(CodeGen &codegen,
RowBatch::Row &row) const {
const auto &conjunction =
GetExpressionAs<expression::ConjunctionExpression>();
codegen::Value left = row.DeriveValue(codegen, *conjunction.GetChild(0));
codegen::Value right = row.DeriveValue(codegen, *conjunction.GetChild(1));
switch (conjunction.GetExpressionType()) {
case ExpressionType::CONJUNCTION_AND:
return left.LogicalAnd(codegen, right);
case ExpressionType::CONJUNCTION_OR:
return left.LogicalOr(codegen, right);
default:
throw Exception{"Received a non-conjunction expression type: " +
ExpressionTypeToString(conjunction.GetExpressionType())};
}
}
// Pass this row to the next operator in the pipeline
void ConsumerContext::Consume(RowBatch::Row &row) {
// If we're at a stage boundary in the pipeline, it means the next operator
// in the pipeline wants to operate on a batch of rows. To facilitate this,
// we mark the given row as valid in this batch and return immediately.
if (pipeline_.AtStageBoundary()) {
auto &codegen = GetCodeGen();
row.SetValidity(codegen, codegen.ConstBool(true));
return;
}
// Otherwise, we move along to the next operator in the pipeline and deliver
// the row there.
auto *translator = pipeline_.NextStep();
if (translator != nullptr) {
translator->Consume(*this, row);
return;
}
// We're at the end of the query pipeline, we now send the output tuples
// to the result consumer configured in the compilation context
auto &consumer = compilation_context_.GetExecutionConsumer();
consumer.ConsumeResult(*this, row);
}
codegen::Value TableScanTranslator::AttributeAccess::Access(
CodeGen &codegen, RowBatch::Row &row) {
auto raw_row = tile_group_access_.GetRow(row.GetTID(codegen));
return raw_row.LoadColumn(codegen, ai_->attribute_id);
}
void RowBatch::OutputTracker::AppendRowToOutput(CodeGen &codegen,
RowBatch::Row &row,
llvm::Value *delta) {
output_.SetValue(codegen, target_pos_, row.GetTID(codegen));
final_pos_ = codegen->CreateAdd(target_pos_, delta);
}
