// Licensed to the Apache Software Foundation (ASF) under one // or more contributor license agreements. See the NOTICE file // distributed with this work for additional information // regarding copyright ownership. The ASF licenses this file // to you under the Apache License, Version 2.0 (the // "License"); you may not use this file except in compliance // with the License. You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, // software distributed under the License is distributed on an // "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY // KIND, either express or implied. See the License for the // specific language governing permissions and limitations // under the License. #include "exec/assert_num_rows_node.h" #include "gen_cpp/PlanNodes_types.h" #include "gutil/strings/substitute.h" #include "runtime/row_batch.h" #include "runtime/runtime_state.h" #include "util/runtime_profile.h" namespace doris { AssertNumRowsNode::AssertNumRowsNode(ObjectPool* pool, const TPlanNode& tnode, const DescriptorTbl& descs) : ExecNode(pool, tnode, descs), _desired_num_rows(tnode.assert_num_rows_node.desired_num_rows), _subquery_string(tnode.assert_num_rows_node.subquery_string) { if (tnode.assert_num_rows_node.__isset.assertion) { _assertion = tnode.assert_num_rows_node.assertion; } else { _assertion = TAssertion::LE; // just compatible for the previous code } } Status AssertNumRowsNode::init(const TPlanNode& tnode, RuntimeState* state) { RETURN_IF_ERROR(ExecNode::init(tnode, state)); return Status::OK(); } Status AssertNumRowsNode::prepare(RuntimeState* state) { RETURN_IF_ERROR(ExecNode::prepare(state)); return Status::OK(); } Status AssertNumRowsNode::open(RuntimeState* state) { SCOPED_TIMER(_runtime_profile->total_time_counter()); RETURN_IF_ERROR(ExecNode::open(state)); SCOPED_CONSUME_MEM_TRACKER(mem_tracker()); // ISSUE-3435 RETURN_IF_ERROR(child(0)->open(state)); return Status::OK(); } Status AssertNumRowsNode::get_next(RuntimeState* state, RowBatch* output_batch, bool* eos) { SCOPED_TIMER(_runtime_profile->total_time_counter()); SCOPED_CONSUME_MEM_TRACKER(mem_tracker()); output_batch->reset(); child(0)->get_next(state, output_batch, eos); _num_rows_returned += output_batch->num_rows(); bool assert_res = false; switch (_assertion) { case TAssertion::EQ: assert_res = _num_rows_returned == _desired_num_rows; break; case TAssertion::NE: assert_res = _num_rows_returned != _desired_num_rows; break; case TAssertion::LT: assert_res = _num_rows_returned < _desired_num_rows; break; case TAssertion::LE: assert_res = _num_rows_returned <= _desired_num_rows; break; case TAssertion::GT: assert_res = _num_rows_returned > _desired_num_rows; break; case TAssertion::GE: assert_res = _num_rows_returned >= _desired_num_rows; break; default: break; } if (!assert_res) { auto to_string_lambda = [](TAssertion::type assertion) { std::map::const_iterator it = _TAssertion_VALUES_TO_NAMES.find(assertion); if (it == _TAggregationOp_VALUES_TO_NAMES.end()) { return "NULL"; } else { return it->second; } }; LOG(INFO) << "Expected " << to_string_lambda(_assertion) << " " << _desired_num_rows << " to be returned by expression " << _subquery_string; return Status::Cancelled("Expected {} {} to be returned by expression {}", to_string_lambda(_assertion), _desired_num_rows, _subquery_string); } COUNTER_SET(_rows_returned_counter, _num_rows_returned); return Status::OK(); } Status AssertNumRowsNode::close(RuntimeState* state) { if (is_closed()) { return Status::OK(); } return ExecNode::close(state); } } // namespace doris