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oceanbase/src/sql/engine/expr/ob_expr_st_within.cpp

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/**
* 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.
* This file contains implementation for eval_st_within.
*/
#define USING_LOG_PREFIX SQL_ENG
#include "lib/geo/ob_geo_func_register.h"
#include "lib/geo/ob_geo_ibin.h"
#include "sql/session/ob_sql_session_info.h"
#include "sql/engine/ob_exec_context.h"
#include "observer/omt/ob_tenant_srs_mgr.h"
#include "ob_expr_st_within.h"
#include "lib/geo/ob_geo_utils.h"
#include "sql/engine/expr/ob_geo_expr_utils.h"
using namespace oceanbase::common;
using namespace oceanbase::sql;
namespace oceanbase
{
namespace sql
{
ObExprSTWithin::ObExprSTWithin(ObIAllocator &alloc)
: ObFuncExprOperator(alloc, T_FUN_SYS_ST_WITHIN, N_ST_WITHIN, 2, NOT_ROW_DIMENSION)
{
}
ObExprSTWithin::~ObExprSTWithin()
{
}
int ObExprSTWithin::calc_result_type2(ObExprResType &type,
ObExprResType &type1,
ObExprResType &type2,
common::ObExprTypeCtx &type_ctx) const
{
UNUSED(type_ctx);
INIT_SUCC(ret);
int unexpected_types = 0;
int null_types = 0;
if (type1.get_type() == ObNullType) {
null_types++;
} else if (!ob_is_geometry(type1.get_type()) && !ob_is_string_type(type1.get_type())) {
unexpected_types++;
LOG_WARN("invalid type", K(type1.get_type()));
}
if (type2.get_type() == ObNullType) {
null_types++;
} else if (!ob_is_geometry(type2.get_type()) && !ob_is_string_type(type2.get_type())) {
unexpected_types++;
LOG_WARN("invalid type", K(type2.get_type()));
}
// an invalid type and a null type will return null
// an invalid type and a valid type return error
if (null_types == 0 && unexpected_types > 0) {
ret = OB_ERR_GIS_INVALID_DATA;
LOG_USER_ERROR(OB_ERR_GIS_INVALID_DATA, N_ST_WITHIN);
LOG_WARN("invalid type", K(ret));
}
if (OB_SUCC(ret)) {
type.set_int32();
type.set_scale(common::ObAccuracy::DDL_DEFAULT_ACCURACY[common::ObIntType].scale_);
type.set_precision(common::ObAccuracy::DDL_DEFAULT_ACCURACY[common::ObIntType].precision_);
}
return ret;
}
int ObExprSTWithin::eval_st_within(const ObExpr &expr, ObEvalCtx &ctx, ObDatum &res)
{
int ret = OB_SUCCESS;
ObDatum *gis_datum1 = NULL;
ObDatum *gis_datum2 = NULL;
ObExpr *gis_arg1 = expr.args_[0];
ObExpr *gis_arg2 = expr.args_[1];
ObEvalCtx::TempAllocGuard tmp_alloc_g(ctx);
common::ObArenaAllocator &temp_allocator = tmp_alloc_g.get_allocator();
if (OB_FAIL(gis_arg1->eval(ctx, gis_datum1)) || OB_FAIL(gis_arg2->eval(ctx, gis_datum2))) {
LOG_WARN("eval geo args failed", K(ret));
} else if (gis_datum1->is_null() || gis_datum2->is_null()) {
res.set_null();
} else {
bool is_geo1_empty = false;
bool is_geo2_empty = false;
ObGeometry *geo1 = NULL;
ObGeometry *geo2 = NULL;
ObGeoType type1;
ObGeoType type2;
uint32_t srid1;
uint32_t srid2;
ObString wkb1 = gis_datum1->get_string();
ObString wkb2 = gis_datum2->get_string();
omt::ObSrsCacheGuard srs_guard;
const ObSrsItem *srs = NULL;
if (OB_FAIL(ObTextStringHelper::read_real_string_data(temp_allocator, *gis_datum1,
gis_arg1->datum_meta_, gis_arg1->obj_meta_.has_lob_header(), wkb1))) {
LOG_WARN("fail to get real string data", K(ret), K(wkb1));
} else if (OB_FAIL(ObTextStringHelper::read_real_string_data(temp_allocator, *gis_datum2,
gis_arg2->datum_meta_, gis_arg2->obj_meta_.has_lob_header(), wkb2))) {
LOG_WARN("fail to get real string data", K(ret), K(wkb2));
} else if (OB_FAIL(ObGeoTypeUtil::get_type_srid_from_wkb(wkb1, type1, srid1))) {
if (ret == OB_ERR_GIS_INVALID_DATA) {
LOG_USER_ERROR(OB_ERR_GIS_INVALID_DATA, N_ST_WITHIN);
}
LOG_WARN("get type and srid from wkb failed", K(wkb1), K(ret));
} else if (OB_FAIL(ObGeoTypeUtil::get_type_srid_from_wkb(wkb2, type2, srid2))) {
LOG_WARN("get type and srid from wkb failed", K(wkb2), K(ret));
} else if (srid1 != srid2) {
LOG_WARN("srid not the same", K(srid1), K(srid2));
ret = OB_ERR_GIS_DIFFERENT_SRIDS;
} else if (OB_FAIL(ObGeoExprUtils::get_srs_item(ctx, srs_guard, wkb1, srs, true))) {
LOG_WARN("fail to get srs item", K(ret), K(wkb1));
} else if (OB_FAIL(ObGeoExprUtils::build_geometry(temp_allocator, wkb1, geo1, srs, N_ST_WITHIN))) {
LOG_WARN("get first geo by wkb failed", K(ret));
} else if (OB_FAIL(ObGeoExprUtils::build_geometry(temp_allocator, wkb2, geo2, srs, N_ST_WITHIN))) {
LOG_WARN("get second geo by wkb failed", K(ret));
} else if (OB_FAIL(ObGeoExprUtils::check_empty(geo1, is_geo1_empty))
|| OB_FAIL(ObGeoExprUtils::check_empty(geo2, is_geo2_empty))) {
LOG_WARN("check geo empty failed", K(ret));
} else if (is_geo1_empty || is_geo2_empty) {
res.set_null();
} else if (OB_FAIL(ObGeoExprUtils::zoom_in_geos_for_relation(*geo1, *geo2))) {
LOG_WARN("zoom in geos failed", K(ret));
} else {
ObGeoEvalCtx gis_context(&temp_allocator, srs);
bool result = false;
if (OB_FAIL(gis_context.append_geo_arg(geo1)) || OB_FAIL(gis_context.append_geo_arg(geo2))) {
LOG_WARN("build gis context failed", K(ret), K(gis_context.get_geo_count()));
} else if (OB_FAIL(ObGeoFunc<ObGeoFuncType::Within>::gis_func::eval(gis_context, result))) {
LOG_WARN("eval st intersection failed", K(ret));
ObGeoExprUtils::geo_func_error_handle(ret, N_ST_WITHIN);
} else {
res.set_bool(result);
}
}
}
return ret;
}
int ObExprSTWithin::cg_expr(ObExprCGCtx &expr_cg_ctx, const ObRawExpr &raw_expr,
ObExpr &rt_expr) const
{
UNUSED(expr_cg_ctx);
UNUSED(raw_expr);
rt_expr.eval_func_ = eval_st_within;
return OB_SUCCESS;
}
}
}
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