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2021-05-31 22:56:52 +08:00
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src/sql/engine/expr/ob_expr_mod.cpp Normal file
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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.
*/
#define USING_LOG_PREFIX SQL_ENG
#include <math.h>
#include "sql/engine/expr/ob_expr_mod.h"
//#include "sql/engine/expr/ob_expr_promotion_util.h"
#include "sql/engine/expr/ob_expr_result_type_util.h"
#include "sql/session/ob_sql_session_info.h"
namespace oceanbase {
using namespace common;
namespace sql {
ObExprMod::ObExprMod(ObIAllocator& alloc)
: ObArithExprOperator(alloc, T_OP_MOD, N_MOD, 2, NOT_ROW_DIMENSION, ObExprResultTypeUtil::get_mod_result_type,
ObExprResultTypeUtil::get_mod_calc_type, mod_funcs_)
{
param_lazy_eval_ = true;
}
int ObExprMod::calc_result_type2(
ObExprResType& type, ObExprResType& type1, ObExprResType& type2, ObExprTypeCtx& type_ctx) const
{
int ret = OB_SUCCESS;
if (OB_FAIL(ObArithExprOperator::calc_result_type2(type, type1, type2, type_ctx))) {
} else if (lib::is_oracle_mode() && type.is_oracle_decimal()) {
type.set_scale(ORA_NUMBER_SCALE_UNKNOWN_YET);
type.set_precision(PRECISION_UNKNOWN_YET);
} else {
ObScale scale1 = static_cast<ObScale>(MAX(type1.get_scale(), 0));
ObScale scale2 = static_cast<ObScale>(MAX(type2.get_scale(), 0));
if (OB_UNLIKELY(SCALE_UNKNOWN_YET == type1.get_scale()) || OB_UNLIKELY(SCALE_UNKNOWN_YET == type2.get_scale())) {
type.set_scale(SCALE_UNKNOWN_YET);
} else {
type.set_scale(MAX(scale1, scale2));
type.set_precision(MAX(type1.get_precision(), type2.get_precision()));
}
}
return ret;
}
int ObExprMod::calc_result2(ObObj& res, const ObObj& left, const ObObj& right, ObExprCtx& expr_ctx) const
{
int ret = OB_SUCCESS;
if (OB_FAIL(param_eval(expr_ctx, left, 0))) {
LOG_WARN("failed to calculate parameter 0", K(ret));
} else if (OB_UNLIKELY(ObNullType == left.get_type())) {
res.set_null();
} else if (OB_FAIL(param_eval(expr_ctx, right, 1))) {
LOG_WARN("failed to calculate parameter 1", K(ret));
} else if (OB_UNLIKELY(ObNullType == right.get_type())) {
res.set_null();
} else {
ObObjTypeClass tc1 = left.get_type_class();
ObObjTypeClass tc2 = right.get_type_class();
ObScale calc_scale = result_type_.get_calc_scale();
ObObjType calc_type = result_type_.get_calc_type();
if (ObIntTC == tc1) {
if (ObIntTC == tc2 || ObUIntTC == tc2) {
ret = mod_int(res, left, right, expr_ctx.calc_buf_, calc_scale);
} else {
ret = ObArithExprOperator::calc_(res, left, right, expr_ctx, calc_scale, calc_type, mod_funcs_);
}
} else if (ObUIntTC == tc1) {
if (ObIntTC == tc2 || ObUIntTC == tc2) {
ret = mod_uint(res, left, right, expr_ctx.calc_buf_, calc_scale);
} else {
ret = ObArithExprOperator::calc_(res, left, right, expr_ctx, calc_scale, calc_type, mod_funcs_);
}
} else {
ret = ObArithExprOperator::calc_(res, left, right, expr_ctx, calc_scale, calc_type, mod_funcs_);
}
}
if (OB_SUCC(ret) && result_type_.get_type() != res.get_type() && res.get_type() != ObNullType) {
const ObObj* res_obj = NULL;
EXPR_DEFINE_CAST_CTX(expr_ctx, CM_NONE);
EXPR_CAST_OBJ_V2(result_type_.get_type(), res, res_obj);
if (OB_FAIL(ret)) {
LOG_WARN("cast failed", K(ret), K(left), K(right));
} else if (OB_ISNULL(res_obj)) {
ret = OB_ERR_UNEXPECTED;
LOG_WARN("null pointer", K(ret), K(left), K(right));
} else {
res = *res_obj;
}
}
return ret;
}
int ObExprMod::calc(ObObj& res, const ObObj& left, const ObObj& right, ObIAllocator* allocator, ObScale scale)
{
ObCalcTypeFunc calc_type_func = ObExprResultTypeUtil::get_mod_result_type;
return ObArithExprOperator::calc(res, left, right, allocator, scale, calc_type_func, mod_funcs_);
}
ObArithFunc ObExprMod::mod_funcs_[ObMaxTC] = {
NULL,
ObExprMod::mod_int,
ObExprMod::mod_uint,
ObExprMod::mod_float,
ObExprMod::mod_double,
ObExprMod::mod_number,
NULL, // datetime
NULL, // date
NULL, // time
NULL, // year
NULL, // varchar
NULL, // extend
NULL, // unknown
NULL, // text
NULL, // bit
NULL, // enumset
NULL, // enumsetInner
};
int ObExprMod::mod_int(ObObj& res, const ObObj& left, const ObObj& right, ObIAllocator* allocator, ObScale scale)
{
int ret = OB_SUCCESS;
int64_t left_i = left.get_int();
int64_t right_i = right.get_int();
if (OB_UNLIKELY(0 == right_i)) {
if (lib::is_oracle_mode()) {
res.set_int(left_i);
} else {
res.set_null();
}
} else if (OB_LIKELY(left.get_type_class() == right.get_type_class())) {
if (INT64_MIN == left_i && -1 == right_i) {
res.set_int(0); // INT64_MIN % -1 --> FPE
} else {
res.set_int(left_i % right_i);
}
} else if (OB_UNLIKELY(ObUIntTC != right.get_type_class())) {
ret = OB_INVALID_ARGUMENT;
LOG_WARN("Invalid types", K(ret), K(left), K(right));
} else {
if (left_i < 0) {
res.set_int(-static_cast<int64_t>(-left_i % static_cast<uint64_t>(right_i)));
} else {
res.set_int(static_cast<int64_t>(left_i % static_cast<uint64_t>(right_i)));
}
}
UNUSED(allocator);
UNUSED(scale);
return ret;
}
int ObExprMod::mod_uint(ObObj& res, const ObObj& left, const ObObj& right, ObIAllocator* allocator, ObScale scale)
{
int ret = OB_SUCCESS;
uint64_t left_ui = left.get_uint64();
uint64_t right_ui = right.get_uint64();
if (OB_UNLIKELY(0 == right_ui)) {
if (lib::is_oracle_mode()) {
res.set_uint64(left_ui);
} else {
res.set_null();
}
} else if (OB_LIKELY(left.get_type_class() == right.get_type_class())) {
res.set_uint64(left_ui % right_ui);
} else if (OB_UNLIKELY(ObIntTC != right.get_type_class())) {
ret = OB_INVALID_ARGUMENT;
LOG_WARN("Invalid types", K(ret), K(left), K(right));
} else {
if (static_cast<int64_t>(right_ui) < 0) {
res.set_uint64(left_ui % -static_cast<int64_t>(right_ui));
} else {
res.set_uint64(left_ui % right_ui);
}
}
UNUSED(allocator);
UNUSED(scale);
return ret;
}
int ObExprMod::mod_float(ObObj& res, const ObObj& left, const ObObj& right, ObIAllocator* allocator, ObScale scale)
{
int ret = OB_SUCCESS;
if (OB_UNLIKELY(!lib::is_oracle_mode())) {
ret = OB_ERR_UNEXPECTED;
LOG_WARN("only oracle mode arrive here", K(ret), K(left), K(right));
} else if (OB_UNLIKELY(left.get_type_class() != right.get_type_class())) {
ret = OB_INVALID_ARGUMENT;
LOG_WARN("Invalid types", K(ret), K(left), K(right));
} else if (fabsf(right.get_float()) == 0.0) {
res.set_float(left.get_float());
} else {
res.set_float(fmodf(left.get_float(), right.get_float()));
LOG_DEBUG("succ to mod float", K(res), K(left), K(right));
}
UNUSED(allocator);
UNUSED(scale);
return ret;
}
int ObExprMod::mod_double(ObObj& res, const ObObj& left, const ObObj& right, ObIAllocator* allocator, ObScale scale)
{
int ret = OB_SUCCESS;
if (OB_UNLIKELY(left.get_type_class() != right.get_type_class())) {
ret = OB_INVALID_ARGUMENT;
LOG_WARN("Invalid types", K(ret), K(left), K(right));
} else if (fabs(right.get_double()) == 0.0) {
if (lib::is_oracle_mode()) {
res.set_double(left.get_double());
} else {
res.set_null();
}
} else {
res.set_double(fmod(left.get_double(), right.get_double()));
LOG_DEBUG("succ to mod double", K(res), K(left), K(right));
}
UNUSED(allocator);
UNUSED(scale);
return ret;
}
int ObExprMod::mod_number(ObObj& res, const ObObj& left, const ObObj& right, ObIAllocator* allocator, ObScale scale)
{
int ret = OB_SUCCESS;
number::ObNumber res_nmb;
if (OB_UNLIKELY(NULL == allocator)) {
ret = OB_ALLOCATE_MEMORY_FAILED;
LOG_ERROR("allocator is null", K(ret));
} else if (OB_UNLIKELY(right.is_zero())) {
if (lib::is_oracle_mode()) {
res.set_number(left.get_number());
} else {
res.set_null();
}
} else if (OB_FAIL(left.get_number().rem_v3(right.get_number(), res_nmb, *allocator))) {
LOG_WARN("failed to rem numbers", K(ret), K(left), K(right));
} else {
res.set_number(res_nmb);
}
UNUSED(scale);
return ret;
}
int ObExprMod::mod_int_int(const ObExpr& expr, ObEvalCtx& ctx, ObDatum& datum)
{
int ret = OB_SUCCESS;
ObDatum* left = NULL;
ObDatum* right = NULL;
bool is_finish = false;
if (OB_FAIL(get_arith_operand(expr, ctx, left, right, datum, is_finish))) {
LOG_WARN("get_arith_operand failed", K(ret));
} else if (is_finish) {
// do nothing
} else {
int64_t left_i = left->get_int();
int64_t right_i = right->get_int();
if (OB_UNLIKELY(0 == right_i)) {
if (lib::is_oracle_mode()) {
datum.set_int(left_i);
} else {
datum.set_null();
}
} else {
if (INT64_MIN == left_i && -1 == right_i) {
datum.set_int(0); // INT64_MIN % -1 --> FPE
} else {
datum.set_int(left_i % right_i);
}
}
}
return ret;
}
int ObExprMod::mod_int_uint(const ObExpr& expr, ObEvalCtx& ctx, ObDatum& datum)
{
int ret = OB_SUCCESS;
ObDatum* left = NULL;
ObDatum* right = NULL;
bool is_finish = false;
if (OB_FAIL(get_arith_operand(expr, ctx, left, right, datum, is_finish))) {
LOG_WARN("get_arith_operand failed", K(ret));
} else if (is_finish) {
// do nothing
} else {
int64_t left_i = left->get_int();
uint64_t right_ui = right->get_uint();
if (OB_UNLIKELY(0 == right_ui)) {
if (lib::is_oracle_mode()) {
datum.set_int(left_i);
} else {
datum.set_null();
}
} else {
if (left_i < 0) {
datum.set_int(-static_cast<int64_t>(-left_i % right_ui));
} else {
datum.set_int(static_cast<int64_t>(left_i % right_ui));
}
}
}
return ret;
}
int ObExprMod::mod_uint_int(const ObExpr& expr, ObEvalCtx& ctx, ObDatum& datum)
{
int ret = OB_SUCCESS;
ObDatum* left = NULL;
ObDatum* right = NULL;
bool is_finish = false;
if (OB_FAIL(get_arith_operand(expr, ctx, left, right, datum, is_finish))) {
LOG_WARN("get_arith_operand failed", K(ret));
} else if (is_finish) {
// do nothing
} else {
uint64_t left_ui = left->get_uint();
int64_t right_i = right->get_int();
if (OB_UNLIKELY(0 == right_i)) {
if (lib::is_oracle_mode()) {
datum.set_uint(left_ui);
} else {
datum.set_null();
}
} else {
datum.set_uint(left_ui % labs(right_i));
}
}
return ret;
}
int ObExprMod::mod_uint_uint(const ObExpr& expr, ObEvalCtx& ctx, ObDatum& datum)
{
int ret = OB_SUCCESS;
ObDatum* left = NULL;
ObDatum* right = NULL;
bool is_finish = false;
if (OB_FAIL(get_arith_operand(expr, ctx, left, right, datum, is_finish))) {
LOG_WARN("get_arith_operand failed", K(ret));
} else if (is_finish) {
// do nothing
} else {
uint64_t left_ui = left->get_uint();
uint64_t right_ui = right->get_uint();
if (OB_UNLIKELY(0 == right_ui)) {
if (lib::is_oracle_mode()) {
datum.set_uint(left_ui);
} else {
datum.set_null();
}
} else {
datum.set_uint(left_ui % right_ui);
}
}
return ret;
}
int ObExprMod::mod_float(const ObExpr& expr, ObEvalCtx& ctx, ObDatum& datum)
{
int ret = OB_SUCCESS;
ObDatum* left = NULL;
ObDatum* right = NULL;
bool is_finish = false;
if (OB_UNLIKELY(!lib::is_oracle_mode())) {
ret = OB_ERR_UNEXPECTED;
LOG_WARN("only oracle mode arrive here", K(ret), K(left), K(right));
} else if (OB_FAIL(get_arith_operand(expr, ctx, left, right, datum, is_finish))) {
LOG_WARN("get_arith_operand failed", K(ret));
} else if (is_finish) {
// do nothing
} else {
const float left_f = left->get_float();
const float right_f = right->get_float();
if (fabsf(right_f) == 0.0) {
datum.set_float(left_f);
} else {
datum.set_float(fmodf(left_f, right_f));
LOG_DEBUG("succ to mod float", K(datum), K(left_f), K(right_f));
}
}
return ret;
}
int ObExprMod::mod_double(const ObExpr& expr, ObEvalCtx& ctx, ObDatum& datum)
{
int ret = OB_SUCCESS;
ObDatum* left = NULL;
ObDatum* right = NULL;
bool is_finish = false;
if (OB_FAIL(get_arith_operand(expr, ctx, left, right, datum, is_finish))) {
LOG_WARN("get_arith_operand failed", K(ret));
} else if (is_finish) {
// do nothing
} else {
const double left_d = left->get_double();
const double right_d = right->get_double();
if (fabs(right_d) == 0.0) {
if (lib::is_oracle_mode()) {
datum.set_double(left_d);
} else {
datum.set_null();
}
} else {
datum.set_double(fmod(left_d, right_d));
LOG_DEBUG("succ to mod double", K(datum), K(left_d), K(right_d));
}
}
return ret;
}
int ObExprMod::mod_number(const ObExpr& expr, ObEvalCtx& ctx, ObDatum& datum)
{
int ret = OB_SUCCESS;
ObDatum* left = NULL;
ObDatum* right = NULL;
bool is_finish = false;
if (OB_FAIL(get_arith_operand(expr, ctx, left, right, datum, is_finish))) {
LOG_WARN("get_arith_operand failed", K(ret));
} else if (is_finish) {
// do nothing
} else {
const number::ObNumber lnum(left->get_number());
const number::ObNumber rnum(right->get_number());
if (OB_UNLIKELY(rnum.is_zero())) {
if (lib::is_oracle_mode()) {
datum.set_number(lnum);
} else {
datum.set_null();
}
} else {
char local_buff[number::ObNumber::MAX_BYTE_LEN];
ObDataBuffer local_alloc(local_buff, number::ObNumber::MAX_BYTE_LEN);
number::ObNumber result;
if (OB_FAIL(lnum.rem_v3(rnum, result, local_alloc))) {
LOG_WARN("failed to rem numbers", K(lnum), K(rnum), K(ret));
} else {
datum.set_number(result);
}
}
}
return ret;
}
int ObExprMod::cg_expr(ObExprCGCtx& op_cg_ctx, const ObRawExpr& raw_expr, ObExpr& rt_expr) const
{
int ret = OB_SUCCESS;
UNUSED(raw_expr);
UNUSED(op_cg_ctx);
OB_ASSERT(2 == rt_expr.arg_cnt_);
OB_ASSERT(NULL != rt_expr.args_);
OB_ASSERT(NULL != rt_expr.args_[0]);
OB_ASSERT(NULL != rt_expr.args_[1]);
const common::ObObjType left = rt_expr.args_[0]->datum_meta_.type_;
const common::ObObjType right = rt_expr.args_[1]->datum_meta_.type_;
const ObObjTypeClass right_tc = ob_obj_type_class(right);
OB_ASSERT(left == input_types_[0].get_calc_type());
OB_ASSERT(right == input_types_[1].get_calc_type());
rt_expr.inner_functions_ = NULL;
LOG_DEBUG("arrive here cg_expr", K(ret), K(rt_expr));
switch (rt_expr.datum_meta_.type_) {
case ObTinyIntType:
case ObSmallIntType:
case ObMediumIntType:
case ObInt32Type:
case ObIntType: {
if (right_tc == ObIntTC) {
rt_expr.eval_func_ = ObExprMod::mod_int_int;
} else if (right_tc == ObUIntTC) {
rt_expr.eval_func_ = ObExprMod::mod_int_uint;
}
break;
}
case ObUTinyIntType:
case ObUSmallIntType:
case ObUMediumIntType:
case ObUInt32Type:
case ObUInt64Type: {
if (right_tc == ObIntTC) {
rt_expr.eval_func_ = ObExprMod::mod_uint_int;
} else if (right_tc == ObUIntTC) {
rt_expr.eval_func_ = ObExprMod::mod_uint_uint;
}
break;
}
case ObFloatType: {
rt_expr.eval_func_ = ObExprMod::mod_float;
break;
}
case ObUDoubleType:
case ObDoubleType: {
rt_expr.eval_func_ = ObExprMod::mod_double;
break;
}
case ObUNumberType:
case ObNumberType: {
rt_expr.eval_func_ = ObExprMod::mod_number;
break;
}
default: {
// do nothing
break;
}
}
if (OB_ISNULL(rt_expr.eval_func_)) {
ret = OB_ERR_UNEXPECTED;
LOG_WARN("unexpected result type", K(ret), K(rt_expr.datum_meta_.type_), K(left), K(right));
}
return ret;
}
} // namespace sql
} // namespace oceanbase