database/doris
2
0
Fork 0
Code Issues Pull Requests Actions 3 Packages Projects Releases Wiki Activity
Files
d4c1938b5cb83b0096ab966f3849a5e942ff5419
doris/be/src/exec/blocking_join_node.cpp
trueeyu 839ec45197 Remove llvm relative code from be/src/exec (#2955) 
Remove unused LLVM related codes of directory:be/src/exec (#2910)

there are many LLVM related codes in code base, but these codes are not really used.
The higher version of GCC is not compatible with the LLVM 3.4.2 version currently used by Doris.
The PR delete all LLVM related code of directory: be/src/exec.
2020-02-20 20:43:26 +08:00

218 lines
7.9 KiB
C++
Raw Blame History

// 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/blocking_join_node.h"
#include <sstream>
#include "exprs/expr.h"
#include "runtime/row_batch.h"
#include "runtime/runtime_state.h"
#include "util/runtime_profile.h"
#include "gen_cpp/PlanNodes_types.h"
namespace doris {
BlockingJoinNode::BlockingJoinNode(const std::string& node_name,
const TJoinOp::type join_op,
ObjectPool* pool,
const TPlanNode& tnode,
const DescriptorTbl& descs)
: ExecNode(pool, tnode, descs),
_node_name(node_name),
_join_op(join_op) {
}
Status BlockingJoinNode::init(const TPlanNode& tnode, RuntimeState* state) {
return ExecNode::init(tnode, state);
}
BlockingJoinNode::~BlockingJoinNode() {
// _left_batch must be cleaned up in close() to ensure proper resource freeing.
DCHECK(_left_batch == NULL);
}
Status BlockingJoinNode::prepare(RuntimeState* state) {
SCOPED_TIMER(_runtime_profile->total_time_counter());
RETURN_IF_ERROR(ExecNode::prepare(state));
_build_pool.reset(new MemPool(mem_tracker()));
_build_timer = ADD_TIMER(runtime_profile(), "BuildTime");
_left_child_timer = ADD_TIMER(runtime_profile(), "LeftChildTime");
_build_row_counter = ADD_COUNTER(runtime_profile(), "BuildRows", TUnit::UNIT);
_left_child_row_counter = ADD_COUNTER(runtime_profile(), "LeftChildRows",
TUnit::UNIT);
_result_tuple_row_size = _row_descriptor.tuple_descriptors().size() * sizeof(Tuple*);
// pre-compute the tuple index of build tuples in the output row
int num_left_tuples = child(0)->row_desc().tuple_descriptors().size();
int num_build_tuples = child(1)->row_desc().tuple_descriptors().size();
_build_tuple_size = num_build_tuples;
_build_tuple_idx.reserve(_build_tuple_size);
for (int i = 0; i < _build_tuple_size; ++i) {
TupleDescriptor* build_tuple_desc = child(1)->row_desc().tuple_descriptors()[i];
_build_tuple_idx.push_back(_row_descriptor.get_tuple_idx(build_tuple_desc->id()));
}
_probe_tuple_row_size = num_left_tuples * sizeof(Tuple*);
_build_tuple_row_size = num_build_tuples * sizeof(Tuple*);
_left_batch.reset(new RowBatch(child(0)->row_desc(), state->batch_size(), mem_tracker()));
return Status::OK();
}
Status BlockingJoinNode::close(RuntimeState* state) {
// TODO(zhaochun): avoid double close
// if (is_closed()) return Status::OK();
_left_batch.reset();
ExecNode::close(state);
return Status::OK();
}
void BlockingJoinNode::build_side_thread(RuntimeState* state, boost::promise<Status>* status) {
status->set_value(construct_build_side(state));
// Release the thread token as soon as possible (before the main thread joins
// on it). This way, if we had a chain of 10 joins using 1 additional thread,
// we'd keep the additional thread busy the whole time.
state->resource_pool()->release_thread_token(false);
}
Status BlockingJoinNode::open(RuntimeState* state) {
RETURN_IF_ERROR(ExecNode::open(state));
SCOPED_TIMER(_runtime_profile->total_time_counter());
// RETURN_IF_ERROR(Expr::open(_conjuncts, state));
RETURN_IF_CANCELLED(state);
// TODO(zhaochun)
// RETURN_IF_ERROR(state->check_query_state());
_eos = false;
// Kick-off the construction of the build-side table in a separate
// thread, so that the left child can do any initialisation in parallel.
// Only do this if we can get a thread token. Otherwise, do this in the
// main thread
boost::promise<Status> build_side_status;
if (state->resource_pool()->try_acquire_thread_token()) {
add_runtime_exec_option("Join Build-Side Prepared Asynchronously");
// Thread build_thread(_node_name, "build thread",
// bind(&BlockingJoinNode::BuildSideThread, this, state, &build_side_status));
// if (!state->cgroup().empty()) {
// RETURN_IF_ERROR(
// state->exec_env()->cgroups_mgr()->assign_thread_to_cgroup(
// build_thread, state->cgroup()));
// }
boost::thread(bind(&BlockingJoinNode::build_side_thread, this, state, &build_side_status));
} else {
build_side_status.set_value(construct_build_side(state));
}
// Open the left child so that it may perform any initialisation in parallel.
// Don't exit even if we see an error, we still need to wait for the build thread
// to finish.
Status open_status = child(0)->open(state);
// Blocks until ConstructBuildSide has returned, after which the build side structures
// are fully constructed.
RETURN_IF_ERROR(build_side_status.get_future().get());
// We can close the right child to release its resources because its input has been
// fully consumed.
child(1)->close(state);
RETURN_IF_ERROR(open_status);
// Seed left child in preparation for get_next().
while (true) {
RETURN_IF_ERROR(child(0)->get_next(state, _left_batch.get(), &_left_side_eos));
COUNTER_UPDATE(_left_child_row_counter, _left_batch->num_rows());
_left_batch_pos = 0;
if (_left_batch->num_rows() == 0) {
if (_left_side_eos) {
init_get_next(NULL /* eos */);
_eos = true;
break;
}
_left_batch->reset();
continue;
} else {
_current_left_child_row = _left_batch->get_row(_left_batch_pos++);
init_get_next(_current_left_child_row);
break;
}
}
return Status::OK();
}
void BlockingJoinNode::debug_string(int indentation_level, std::stringstream* out) const {
*out << std::string(indentation_level * 2, ' ');
*out << _node_name;
*out << "(eos=" << (_eos ? "true" : "false")
<< " left_batch_pos=" << _left_batch_pos;
add_to_debug_string(indentation_level, out);
ExecNode::debug_string(indentation_level, out);
*out << ")";
}
std::string BlockingJoinNode::get_left_child_row_string(TupleRow* row) {
std::stringstream out;
out << "[";
int* _build_tuple_idx_ptr = &_build_tuple_idx[0];
for (int i = 0; i < row_desc().tuple_descriptors().size(); ++i) {
if (i != 0) {
out << " ";
}
int* is_build_tuple =
std::find(_build_tuple_idx_ptr, _build_tuple_idx_ptr + _build_tuple_size, i);
if (is_build_tuple != _build_tuple_idx_ptr + _build_tuple_size) {
out << Tuple::to_string(NULL, *row_desc().tuple_descriptors()[i]);
} else {
out << Tuple::to_string(row->get_tuple(i), *row_desc().tuple_descriptors()[i]);
}
}
out << "]";
return out.str();
}
// This function is replaced by codegen
void BlockingJoinNode::create_output_row(TupleRow* out, TupleRow* left, TupleRow* build) {
uint8_t* out_ptr = reinterpret_cast<uint8_t*>(out);
if (left == NULL) {
memset(out_ptr, 0, _probe_tuple_row_size);
} else {
memcpy(out_ptr, left, _probe_tuple_row_size);
}
if (build == NULL) {
memset(out_ptr + _probe_tuple_row_size, 0, _build_tuple_row_size);
} else {
memcpy(out_ptr + _probe_tuple_row_size, build, _build_tuple_row_size);
}
}
}
Reference in New Issue View Git Blame Copy Permalink