/**

* Copyright (c) 2021 OceanBase

* OceanBase CE is licensed under Mulan PubL v2.

* You can use this software according to the terms and conditions of the Mulan PubL v2.

* You may obtain a copy of Mulan PubL v2 at:

* http://license.coscl.org.cn/MulanPubL-2.0

* THIS SOFTWARE IS PROVIDED ON AN "AS IS" BASIS, WITHOUT WARRANTIES OF ANY KIND,

* EITHER EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO NON-INFRINGEMENT,

* MERCHANTABILITY OR FIT FOR A PARTICULAR PURPOSE.

* See the Mulan PubL v2 for more details.

*/

#define USING_LOG_PREFIX SQL_OPT

#include "sql/optimizer/ob_log_distinct.h"

#include "sql/optimizer/ob_log_exchange.h"

#include "sql/optimizer/ob_log_sort.h"

#include "sql/optimizer/ob_log_set.h"

#include "sql/optimizer/ob_log_operator_factory.h"

#include "sql/optimizer/ob_join_order.h"

#include "sql/optimizer/ob_log_operator_factory.h"

#include "ob_opt_est_cost.h"

#include "ob_select_log_plan.h"

#include "ob_optimizer_util.h"

#include "ob_opt_selectivity.h"

#include "common/ob_smart_call.h"

#include "sql/rewrite/ob_transform_utils.h"

using namespace oceanbase;

using namespace sql;

using namespace oceanbase::common;

namespace oceanbase

{

namespace sql

{

const char *ObLogDistinct::get_name() const

{

return MERGE_AGGREGATE == algo_ ? "MERGE DISTINCT" : "HASH DISTINCT";

}

int ObLogDistinct::get_plan_item_info(PlanText &plan_text,

ObSqlPlanItem &plan_item)

{

int ret = OB_SUCCESS;

const ObIArray<ObRawExpr*> &distinct = distinct_exprs_;

if (OB_FAIL(ObLogicalOperator::get_plan_item_info(plan_text, plan_item))) {

LOG_WARN("failed to get base plan item info", K(ret));

} else {

BEGIN_BUF_PRINT;

EXPLAIN_PRINT_EXPRS(distinct, type);

if (OB_SUCC(ret) && is_block_mode_) {

ret = BUF_PRINTF(", block");

}

END_BUF_PRINT(plan_item.special_predicates_,

plan_item.special_predicates_len_);

}

return ret;

}

int ObLogDistinct::inner_replace_op_exprs(ObRawExprReplacer &replacer)

{

int ret = OB_SUCCESS;

if(OB_FAIL(replace_exprs_action(replacer, distinct_exprs_))) {

SQL_OPT_LOG(WARN, "failed to replace agg exprs in distinct op", K(ret));

}

return ret;

}

int ObLogDistinct::compute_op_ordering()

{

int ret = OB_SUCCESS;

ObLogicalOperator *child = NULL;

if (algo_ == HASH_AGGREGATE) {

// do nothing

} else if (OB_FAIL(ObLogicalOperator::compute_op_ordering())) {

LOG_WARN("failed to compute op ordering", K(ret));

} else {

is_local_order_ = is_fully_partition_wise() && !get_op_ordering().empty();

}

return ret;

}

int ObLogDistinct::est_width()

{

int ret = OB_SUCCESS;

double width = 0.0;

ObSEArray<ObRawExpr*, 16> output_exprs;

if (OB_ISNULL(get_plan())) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("invalid plan", K(ret));

} else if (OB_FAIL(get_distinct_output_exprs(output_exprs))) {

LOG_WARN("failed to get distinct output exprs", K(ret));

} else if (OB_FAIL(ObOptEstCost::estimate_width_for_exprs(get_plan()->get_basic_table_metas(),

get_plan()->get_selectivity_ctx(),

output_exprs,

width))) {

LOG_WARN("failed to estimate width for output distinct exprs", K(ret));

} else {

set_width(width);

LOG_TRACE("est width for distinct", K(output_exprs), K(width));

}

return ret;

}

int ObLogDistinct::get_distinct_output_exprs(ObIArray<ObRawExpr *> &output_exprs)

{

int ret = OB_SUCCESS;

ObLogPlan *plan = NULL;

ObSEArray<ObRawExpr*, 16> candi_exprs;

ObSEArray<ObRawExpr*, 16> extracted_col_aggr_winfunc_exprs;

if (OB_ISNULL(plan = get_plan())) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("invalid input", K(ret));

} else if (OB_FAIL(append_array_no_dup(candi_exprs, plan->get_select_item_exprs_for_width_est()))) {

LOG_WARN("failed to add into output exprs", K(ret));

} else if (OB_FAIL(append_array_no_dup(candi_exprs, plan->get_orderby_exprs_for_width_est()))) {

LOG_WARN("failed to add into output exprs", K(ret));

} else if (OB_FAIL(ObRawExprUtils::extract_col_aggr_winfunc_exprs(candi_exprs,

extracted_col_aggr_winfunc_exprs))) {

} else if (OB_FAIL(append_array_no_dup(output_exprs, extracted_col_aggr_winfunc_exprs))) {

LOG_WARN("failed to add into output exprs", K(ret));

} else {/*do nothing*/}

return ret;

}

int ObLogDistinct::est_cost()

{

int ret = OB_SUCCESS;

double distinct_cost = 0.0;

ObLogicalOperator *child = NULL;

if (OB_ISNULL(child = get_child(ObLogicalOperator::first_child))) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("get unexpected null", K(child), K(ret));

} else if (OB_UNLIKELY(total_ndv_ < 0)) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("get unexpected total ndv", K(total_ndv_), K(ret));

} else if (OB_FAIL(inner_est_cost(get_parallel(), child->get_card(), total_ndv_, distinct_cost))) {

LOG_WARN("failed to est distinct cost", K(ret));

} else {

set_op_cost(distinct_cost);

set_cost(child->get_cost() + distinct_cost);

set_card(total_ndv_);

}

return ret;

}

int ObLogDistinct::do_re_est_cost(EstimateCostInfo &param, double &card, double &op_cost, double &cost)

{

int ret = OB_SUCCESS;

ObLogicalOperator *child = NULL;

if (OB_ISNULL(child = get_child(ObLogicalOperator::first_child))) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("unexpect null child", K(ret));

} else if (OB_UNLIKELY(total_ndv_ < 0)) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("get unexpected total ndv", K(total_ndv_), K(ret));

} else {

double child_card = child->get_card();

double child_cost = child->get_cost();

double child_ndv = total_ndv_;

const int64_t parallel = param.need_parallel_;

if (param.need_row_count_ >= 0 &&

child_card > 0 &&

total_ndv_ > 0 &&

param.need_row_count_ < child_card &&

param.need_row_count_ < total_ndv_) {

child_ndv = param.need_row_count_;

param.need_row_count_ = child_card * (1 - std::pow((1 - child_ndv / total_ndv_), total_ndv_ / child_card));

} else {

param.need_row_count_ = -1;

}

if (OB_FAIL(SMART_CALL(child->re_est_cost(param, child_card, child_cost)))) {

LOG_WARN("failed to re est child cost", K(ret));

} else if (OB_FAIL(inner_est_cost(parallel, child_card, child_ndv, op_cost))) {

LOG_WARN("failed to est distinct cost", K(ret));

} else {

cost = child_cost + op_cost;

card = child_ndv;

if (param.override_) {

total_ndv_ = child_ndv;

}

}

}

return ret;

}

int ObLogDistinct::inner_est_cost(const int64_t parallel, double child_card, double child_ndv, double &op_cost)

{

int ret = OB_SUCCESS;

double per_dop_card = 0.0;

double per_dop_ndv = 0.0;

ObLogicalOperator *child = NULL;

if (OB_ISNULL(get_plan()) ||

OB_ISNULL(child = get_child(ObLogicalOperator::first_child))) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("get unexpected null", K(child), K(ret));

} else if (OB_UNLIKELY(parallel < 1)) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("get unexpected parallel", K(parallel), K(ret));

} else {

ObOptimizerContext &opt_ctx = get_plan()->get_optimizer_context();

per_dop_card = child_card / parallel;

if (parallel > 1) {

if (is_push_down()) {

per_dop_ndv = ObOptSelectivity::scale_distinct(per_dop_card, child_card, child_ndv);

} else {

per_dop_ndv = child_ndv / parallel;

}

} else {

per_dop_ndv = child_ndv;

}

if (MERGE_AGGREGATE == algo_) {

op_cost = ObOptEstCost::cost_merge_distinct(per_dop_card,

per_dop_ndv,

child->get_width(),

distinct_exprs_,

opt_ctx);

} else {

op_cost = ObOptEstCost::cost_hash_distinct(per_dop_card,

per_dop_ndv,

child->get_width(),

distinct_exprs_,

opt_ctx);

}

}

return ret;

}

uint64_t ObLogDistinct::hash(uint64_t seed) const

{

seed = do_hash(algo_, seed);

seed = ObLogicalOperator::hash(seed);

return seed;

}

int ObLogDistinct::compute_fd_item_set()

{

int ret = OB_SUCCESS;

const ObLogicalOperator *child = NULL;

ObFdItemSet *fd_item_set = NULL;

ObTableFdItem *fd_item = NULL;

if (OB_ISNULL(child = get_child(ObLogicalOperator::first_child)) ||

OB_ISNULL(my_plan_) || OB_ISNULL(get_stmt())) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("get unexpect null", K(ret), K(child), K(my_plan_), K(get_stmt()));

} else if (OB_FAIL(my_plan_->get_fd_item_factory().create_fd_item_set(fd_item_set))) {

LOG_WARN("failed to create fd item set", K(ret));

} else if (OB_FAIL(fd_item_set->assign(child->get_fd_item_set()))) {

LOG_WARN("failed to assign fd item set", K(ret));

} else if (!ObTransformUtils::need_compute_fd_item_set(distinct_exprs_)) {

//do nothing

}else if (OB_FAIL(my_plan_->get_fd_item_factory().create_table_fd_item(fd_item,

true,

distinct_exprs_,

get_table_set()))) {

LOG_WARN("failed to create fd item", K(ret));

} else if (OB_FAIL(fd_item_set->push_back(fd_item))) {

LOG_WARN("failed to push back fd item", K(ret));

} else if (OB_FAIL(deduce_const_exprs_and_ft_item_set(*fd_item_set))) {

LOG_WARN("falied to deduce fd item set", K(ret));

} else {

set_fd_item_set(fd_item_set);

}

return ret;

}

int ObLogDistinct::allocate_granule_pre(AllocGIContext &ctx)

{

int ret = OB_SUCCESS;

if (OB_FAIL(pw_allocate_granule_pre(ctx))) {

LOG_WARN("failed to allocate partition wise granule", K(ret));

} else { /*do nothing*/ }

return ret;

}

int ObLogDistinct::allocate_granule_post(AllocGIContext &ctx)

{

return pw_allocate_granule_post(ctx);

}

int ObLogDistinct::get_op_exprs(ObIArray<ObRawExpr*> &all_exprs)

{

int ret = OB_SUCCESS;

if (OB_FAIL(append(all_exprs, distinct_exprs_))) {

LOG_WARN("failed to add exprs to ctx", K(ret));

} else if (OB_FAIL(ObLogicalOperator::get_op_exprs(all_exprs))) {

LOG_WARN("failed to get op exprs", K(ret));

} else { /*do nothing*/ }

return ret;

}

int ObLogDistinct::print_outline_data(PlanText &plan_text)

{

int ret = OB_SUCCESS;

char *buf = plan_text.buf_;

int64_t &buf_len = plan_text.buf_len_;

int64_t &pos = plan_text.pos_;

const ObDMLStmt *stmt = NULL;

ObString qb_name;

const ObLogicalOperator *child = NULL;

const ObLogicalOperator *op = NULL;

if (is_push_down()) {

/* print outline in top distinct */

} else if (OB_ISNULL(get_plan()) || OB_ISNULL(stmt = get_plan()->get_stmt())

|| OB_ISNULL(child = get_child(ObLogicalOperator::first_child))) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("unexpected NULL", K(ret), K(get_plan()), K(stmt), K(child));

} else if (OB_FAIL(child->get_pushdown_op(log_op_def::LOG_DISTINCT, op))) {

LOG_WARN("failed to get push down distinct", K(ret));

} else if (OB_FAIL(stmt->get_qb_name(qb_name))) {

LOG_WARN("fail to get qb_name", K(ret), K(stmt->get_stmt_id()));

} else if (NULL != op &&

OB_FAIL(BUF_PRINTF("%s%s(@\"%.*s\")",

ObQueryHint::get_outline_indent(plan_text.is_oneline_),

ObHint::get_hint_name(T_DISTINCT_PUSHDOWN),

qb_name.length(),

qb_name.ptr()))) {

LOG_WARN("fail to print buffer", K(ret), K(buf), K(buf_len), K(pos));

} else if (HASH_AGGREGATE == algo_ &&

OB_FAIL(BUF_PRINTF("%s%s(@\"%.*s\")",

ObQueryHint::get_outline_indent(plan_text.is_oneline_),

ObHint::get_hint_name(T_USE_HASH_DISTINCT),

qb_name.length(),

qb_name.ptr()))) {

LOG_WARN("fail to print buffer", K(ret), K(buf), K(buf_len), K(pos));

} else {/*do nothing*/}

return ret;

}

int ObLogDistinct::print_used_hint(PlanText &plan_text)

{

int ret = OB_SUCCESS;

if (is_push_down()) {

/* print outline in top distinct */

} else if (OB_ISNULL(get_plan())) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("unexpected NULL", K(ret), K(get_plan()));

} else {

const ObHint *use_hash = get_plan()->get_log_plan_hint().get_normal_hint(T_USE_HASH_DISTINCT);

const ObHint *pushdown = get_plan()->get_log_plan_hint().get_normal_hint(T_DISTINCT_PUSHDOWN);

if (NULL != use_hash) {

bool match_hint = (HASH_AGGREGATE == algo_ && use_hash->is_enable_hint())

|| (MERGE_AGGREGATE == algo_ && use_hash->is_disable_hint());

if (match_hint && OB_FAIL(use_hash->print_hint(plan_text))) {

LOG_WARN("failed to print used hint for group by", K(ret), K(*use_hash));

}

}

if (OB_SUCC(ret) && NULL != pushdown) {

const ObLogicalOperator *child = NULL;

const ObLogicalOperator *op = NULL;

if (OB_ISNULL(child = get_child(ObLogicalOperator::first_child))) {

ret = OB_ERR_UNEXPECTED;

LOG_WARN("unexpected NULL", K(ret), K(child));

} else if (OB_FAIL(child->get_pushdown_op(log_op_def::LOG_DISTINCT, op))) {

LOG_WARN("failed to get push down distinct", K(ret));

} else {

bool match_hint = NULL == op ? pushdown->is_disable_hint()

: pushdown->is_enable_hint();

if (match_hint && OB_FAIL(pushdown->print_hint(plan_text))) {

LOG_WARN("failed to print used hint for group by", K(ret), K(*pushdown));

}

}

}

}

return ret;

}

}

}