github.com/whtcorpsinc/MilevaDB-Prod@v0.0.0-20211104133533-f57f4be3b597/dbs/memristed/memex/builtin_arithmetic.go (about)

     1  // Copyright 2020 WHTCORPS INC, Inc.
     2  //
     3  // Licensed under the Apache License, Version 2.0 (the "License");
     4  // you may not use this file except in compliance with the License.
     5  // You may obtain a copy of the License at
     6  //
     7  //     http://www.apache.org/licenses/LICENSE-2.0
     8  //
     9  // Unless required by applicable law or agreed to in writing, software
    10  // distributed under the License is distributed on an "AS IS" BASIS,
    11  // See the License for the specific language governing permissions and
    12  // limitations under the License.
    13  
    14  package memex
    15  
    16  import (
    17  	"fmt"
    18  	"math"
    19  
    20  	"github.com/cznic/mathutil"
    21  	"github.com/whtcorpsinc/BerolinaSQL/allegrosql"
    22  	"github.com/whtcorpsinc/BerolinaSQL/terror"
    23  	"github.com/whtcorpsinc/milevadb/stochastikctx"
    24  	"github.com/whtcorpsinc/milevadb/types"
    25  	"github.com/whtcorpsinc/milevadb/soliton/chunk"
    26  	"github.com/whtcorpsinc/fidelpb/go-fidelpb"
    27  )
    28  
    29  var (
    30  	_ functionClass = &arithmeticPlusFunctionClass{}
    31  	_ functionClass = &arithmeticMinusFunctionClass{}
    32  	_ functionClass = &arithmeticDivideFunctionClass{}
    33  	_ functionClass = &arithmeticMultiplyFunctionClass{}
    34  	_ functionClass = &arithmeticIntDivideFunctionClass{}
    35  	_ functionClass = &arithmeticModFunctionClass{}
    36  )
    37  
    38  var (
    39  	_ builtinFunc = &builtinArithmeticPlusRealSig{}
    40  	_ builtinFunc = &builtinArithmeticPlusDecimalSig{}
    41  	_ builtinFunc = &builtinArithmeticPlusIntSig{}
    42  	_ builtinFunc = &builtinArithmeticMinusRealSig{}
    43  	_ builtinFunc = &builtinArithmeticMinusDecimalSig{}
    44  	_ builtinFunc = &builtinArithmeticMinusIntSig{}
    45  	_ builtinFunc = &builtinArithmeticDivideRealSig{}
    46  	_ builtinFunc = &builtinArithmeticDivideDecimalSig{}
    47  	_ builtinFunc = &builtinArithmeticMultiplyRealSig{}
    48  	_ builtinFunc = &builtinArithmeticMultiplyDecimalSig{}
    49  	_ builtinFunc = &builtinArithmeticMultiplyIntUnsignedSig{}
    50  	_ builtinFunc = &builtinArithmeticMultiplyIntSig{}
    51  	_ builtinFunc = &builtinArithmeticIntDivideIntSig{}
    52  	_ builtinFunc = &builtinArithmeticIntDivideDecimalSig{}
    53  	_ builtinFunc = &builtinArithmeticModIntSig{}
    54  	_ builtinFunc = &builtinArithmeticModRealSig{}
    55  	_ builtinFunc = &builtinArithmeticModDecimalSig{}
    56  )
    57  
    58  // precIncrement indicates the number of digits by which to increase the scale of the result of division operations
    59  // performed with the / operator.
    60  const precIncrement = 4
    61  
    62  // numericContextResultType returns types.EvalType for numeric function's parameters.
    63  // the returned types.EvalType should be one of: types.ETInt, types.ETDecimal, types.ETReal
    64  func numericContextResultType(ft *types.FieldType) types.EvalType {
    65  	if types.IsTypeTemporal(ft.Tp) {
    66  		if ft.Decimal > 0 {
    67  			return types.ETDecimal
    68  		}
    69  		return types.ETInt
    70  	}
    71  	if types.IsBinaryStr(ft) {
    72  		return types.ETInt
    73  	}
    74  	evalTp4Ft := types.ETReal
    75  	if !ft.Hybrid() {
    76  		evalTp4Ft = ft.EvalType()
    77  		if evalTp4Ft != types.ETDecimal && evalTp4Ft != types.ETInt {
    78  			evalTp4Ft = types.ETReal
    79  		}
    80  	}
    81  	return evalTp4Ft
    82  }
    83  
    84  // setFlenDecimal4Int is called to set proper `Flen` and `Decimal` of return
    85  // type according to the two input parameter's types.
    86  func setFlenDecimal4Int(retTp, a, b *types.FieldType) {
    87  	retTp.Decimal = 0
    88  	retTp.Flen = allegrosql.MaxIntWidth
    89  }
    90  
    91  // setFlenDecimal4RealOrDecimal is called to set proper `Flen` and `Decimal` of return
    92  // type according to the two input parameter's types.
    93  func setFlenDecimal4RealOrDecimal(retTp, a, b *types.FieldType, isReal bool, isMultiply bool) {
    94  	if a.Decimal != types.UnspecifiedLength && b.Decimal != types.UnspecifiedLength {
    95  		retTp.Decimal = a.Decimal + b.Decimal
    96  		if !isMultiply {
    97  			retTp.Decimal = mathutil.Max(a.Decimal, b.Decimal)
    98  		}
    99  		if !isReal && retTp.Decimal > allegrosql.MaxDecimalScale {
   100  			retTp.Decimal = allegrosql.MaxDecimalScale
   101  		}
   102  		if a.Flen == types.UnspecifiedLength || b.Flen == types.UnspecifiedLength {
   103  			retTp.Flen = types.UnspecifiedLength
   104  			return
   105  		}
   106  		digitsInt := mathutil.Max(a.Flen-a.Decimal, b.Flen-b.Decimal)
   107  		if isMultiply {
   108  			digitsInt = a.Flen - a.Decimal + b.Flen - b.Decimal
   109  		}
   110  		retTp.Flen = digitsInt + retTp.Decimal + 3
   111  		if isReal {
   112  			retTp.Flen = mathutil.Min(retTp.Flen, allegrosql.MaxRealWidth)
   113  			return
   114  		}
   115  		retTp.Flen = mathutil.Min(retTp.Flen, allegrosql.MaxDecimalWidth)
   116  		return
   117  	}
   118  	if isReal {
   119  		retTp.Flen, retTp.Decimal = types.UnspecifiedLength, types.UnspecifiedLength
   120  	} else {
   121  		retTp.Flen, retTp.Decimal = allegrosql.MaxDecimalWidth, allegrosql.MaxDecimalScale
   122  	}
   123  }
   124  
   125  func (c *arithmeticDivideFunctionClass) setType4DivDecimal(retTp, a, b *types.FieldType) {
   126  	var deca, decb = a.Decimal, b.Decimal
   127  	if deca == int(types.UnspecifiedFsp) {
   128  		deca = 0
   129  	}
   130  	if decb == int(types.UnspecifiedFsp) {
   131  		decb = 0
   132  	}
   133  	retTp.Decimal = deca + precIncrement
   134  	if retTp.Decimal > allegrosql.MaxDecimalScale {
   135  		retTp.Decimal = allegrosql.MaxDecimalScale
   136  	}
   137  	if a.Flen == types.UnspecifiedLength {
   138  		retTp.Flen = allegrosql.MaxDecimalWidth
   139  		return
   140  	}
   141  	retTp.Flen = a.Flen + decb + precIncrement
   142  	if retTp.Flen > allegrosql.MaxDecimalWidth {
   143  		retTp.Flen = allegrosql.MaxDecimalWidth
   144  	}
   145  }
   146  
   147  func (c *arithmeticDivideFunctionClass) setType4DivReal(retTp *types.FieldType) {
   148  	retTp.Decimal = types.UnspecifiedLength
   149  	retTp.Flen = allegrosql.MaxRealWidth
   150  }
   151  
   152  type arithmeticPlusFunctionClass struct {
   153  	baseFunctionClass
   154  }
   155  
   156  func (c *arithmeticPlusFunctionClass) getFunction(ctx stochastikctx.Context, args []Expression) (builtinFunc, error) {
   157  	if err := c.verifyArgs(args); err != nil {
   158  		return nil, err
   159  	}
   160  	lhsTp, rhsTp := args[0].GetType(), args[1].GetType()
   161  	lhsEvalTp, rhsEvalTp := numericContextResultType(lhsTp), numericContextResultType(rhsTp)
   162  	if lhsEvalTp == types.ETReal || rhsEvalTp == types.ETReal {
   163  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETReal, types.ETReal, types.ETReal)
   164  		if err != nil {
   165  			return nil, err
   166  		}
   167  		setFlenDecimal4RealOrDecimal(bf.tp, args[0].GetType(), args[1].GetType(), true, false)
   168  		sig := &builtinArithmeticPlusRealSig{bf}
   169  		sig.setPbCode(fidelpb.ScalarFuncSig_PlusReal)
   170  		return sig, nil
   171  	} else if lhsEvalTp == types.ETDecimal || rhsEvalTp == types.ETDecimal {
   172  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETDecimal, types.ETDecimal, types.ETDecimal)
   173  		if err != nil {
   174  			return nil, err
   175  		}
   176  		setFlenDecimal4RealOrDecimal(bf.tp, args[0].GetType(), args[1].GetType(), false, false)
   177  		sig := &builtinArithmeticPlusDecimalSig{bf}
   178  		sig.setPbCode(fidelpb.ScalarFuncSig_PlusDecimal)
   179  		return sig, nil
   180  	} else {
   181  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETInt, types.ETInt, types.ETInt)
   182  		if err != nil {
   183  			return nil, err
   184  		}
   185  		if allegrosql.HasUnsignedFlag(args[0].GetType().Flag) || allegrosql.HasUnsignedFlag(args[1].GetType().Flag) {
   186  			bf.tp.Flag |= allegrosql.UnsignedFlag
   187  		}
   188  		setFlenDecimal4Int(bf.tp, args[0].GetType(), args[1].GetType())
   189  		sig := &builtinArithmeticPlusIntSig{bf}
   190  		sig.setPbCode(fidelpb.ScalarFuncSig_PlusInt)
   191  		return sig, nil
   192  	}
   193  }
   194  
   195  type builtinArithmeticPlusIntSig struct {
   196  	baseBuiltinFunc
   197  }
   198  
   199  func (s *builtinArithmeticPlusIntSig) Clone() builtinFunc {
   200  	newSig := &builtinArithmeticPlusIntSig{}
   201  	newSig.cloneFrom(&s.baseBuiltinFunc)
   202  	return newSig
   203  }
   204  
   205  func (s *builtinArithmeticPlusIntSig) evalInt(event chunk.Event) (val int64, isNull bool, err error) {
   206  	a, isNull, err := s.args[0].EvalInt(s.ctx, event)
   207  	if isNull || err != nil {
   208  		return 0, isNull, err
   209  	}
   210  
   211  	b, isNull, err := s.args[1].EvalInt(s.ctx, event)
   212  	if isNull || err != nil {
   213  		return 0, isNull, err
   214  	}
   215  
   216  	isLHSUnsigned := allegrosql.HasUnsignedFlag(s.args[0].GetType().Flag)
   217  	isRHSUnsigned := allegrosql.HasUnsignedFlag(s.args[1].GetType().Flag)
   218  
   219  	switch {
   220  	case isLHSUnsigned && isRHSUnsigned:
   221  		if uint64(a) > math.MaxUint64-uint64(b) {
   222  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s + %s)", s.args[0].String(), s.args[1].String()))
   223  		}
   224  	case isLHSUnsigned && !isRHSUnsigned:
   225  		if b < 0 && uint64(-b) > uint64(a) {
   226  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s + %s)", s.args[0].String(), s.args[1].String()))
   227  		}
   228  		if b > 0 && uint64(a) > math.MaxUint64-uint64(b) {
   229  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s + %s)", s.args[0].String(), s.args[1].String()))
   230  		}
   231  	case !isLHSUnsigned && isRHSUnsigned:
   232  		if a < 0 && uint64(-a) > uint64(b) {
   233  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s + %s)", s.args[0].String(), s.args[1].String()))
   234  		}
   235  		if a > 0 && uint64(b) > math.MaxUint64-uint64(a) {
   236  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s + %s)", s.args[0].String(), s.args[1].String()))
   237  		}
   238  	case !isLHSUnsigned && !isRHSUnsigned:
   239  		if (a > 0 && b > math.MaxInt64-a) || (a < 0 && b < math.MinInt64-a) {
   240  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT", fmt.Sprintf("(%s + %s)", s.args[0].String(), s.args[1].String()))
   241  		}
   242  	}
   243  
   244  	return a + b, false, nil
   245  }
   246  
   247  type builtinArithmeticPlusDecimalSig struct {
   248  	baseBuiltinFunc
   249  }
   250  
   251  func (s *builtinArithmeticPlusDecimalSig) Clone() builtinFunc {
   252  	newSig := &builtinArithmeticPlusDecimalSig{}
   253  	newSig.cloneFrom(&s.baseBuiltinFunc)
   254  	return newSig
   255  }
   256  
   257  func (s *builtinArithmeticPlusDecimalSig) evalDecimal(event chunk.Event) (*types.MyDecimal, bool, error) {
   258  	a, isNull, err := s.args[0].EvalDecimal(s.ctx, event)
   259  	if isNull || err != nil {
   260  		return nil, isNull, err
   261  	}
   262  	b, isNull, err := s.args[1].EvalDecimal(s.ctx, event)
   263  	if isNull || err != nil {
   264  		return nil, isNull, err
   265  	}
   266  	c := &types.MyDecimal{}
   267  	err = types.DecimalAdd(a, b, c)
   268  	if err != nil {
   269  		return nil, true, err
   270  	}
   271  	return c, false, nil
   272  }
   273  
   274  type builtinArithmeticPlusRealSig struct {
   275  	baseBuiltinFunc
   276  }
   277  
   278  func (s *builtinArithmeticPlusRealSig) Clone() builtinFunc {
   279  	newSig := &builtinArithmeticPlusRealSig{}
   280  	newSig.cloneFrom(&s.baseBuiltinFunc)
   281  	return newSig
   282  }
   283  
   284  func (s *builtinArithmeticPlusRealSig) evalReal(event chunk.Event) (float64, bool, error) {
   285  	a, isLHSNull, err := s.args[0].EvalReal(s.ctx, event)
   286  	if err != nil {
   287  		return 0, isLHSNull, err
   288  	}
   289  	b, isRHSNull, err := s.args[1].EvalReal(s.ctx, event)
   290  	if err != nil {
   291  		return 0, isRHSNull, err
   292  	}
   293  	if isLHSNull || isRHSNull {
   294  		return 0, true, nil
   295  	}
   296  	if (a > 0 && b > math.MaxFloat64-a) || (a < 0 && b < -math.MaxFloat64-a) {
   297  		return 0, true, types.ErrOverflow.GenWithStackByArgs("DOUBLE", fmt.Sprintf("(%s + %s)", s.args[0].String(), s.args[1].String()))
   298  	}
   299  	return a + b, false, nil
   300  }
   301  
   302  type arithmeticMinusFunctionClass struct {
   303  	baseFunctionClass
   304  }
   305  
   306  func (c *arithmeticMinusFunctionClass) getFunction(ctx stochastikctx.Context, args []Expression) (builtinFunc, error) {
   307  	if err := c.verifyArgs(args); err != nil {
   308  		return nil, err
   309  	}
   310  	lhsTp, rhsTp := args[0].GetType(), args[1].GetType()
   311  	lhsEvalTp, rhsEvalTp := numericContextResultType(lhsTp), numericContextResultType(rhsTp)
   312  	if lhsEvalTp == types.ETReal || rhsEvalTp == types.ETReal {
   313  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETReal, types.ETReal, types.ETReal)
   314  		if err != nil {
   315  			return nil, err
   316  		}
   317  		setFlenDecimal4RealOrDecimal(bf.tp, args[0].GetType(), args[1].GetType(), true, false)
   318  		sig := &builtinArithmeticMinusRealSig{bf}
   319  		sig.setPbCode(fidelpb.ScalarFuncSig_MinusReal)
   320  		return sig, nil
   321  	} else if lhsEvalTp == types.ETDecimal || rhsEvalTp == types.ETDecimal {
   322  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETDecimal, types.ETDecimal, types.ETDecimal)
   323  		if err != nil {
   324  			return nil, err
   325  		}
   326  		setFlenDecimal4RealOrDecimal(bf.tp, args[0].GetType(), args[1].GetType(), false, false)
   327  		sig := &builtinArithmeticMinusDecimalSig{bf}
   328  		sig.setPbCode(fidelpb.ScalarFuncSig_MinusDecimal)
   329  		return sig, nil
   330  	} else {
   331  
   332  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETInt, types.ETInt, types.ETInt)
   333  		if err != nil {
   334  			return nil, err
   335  		}
   336  		setFlenDecimal4Int(bf.tp, args[0].GetType(), args[1].GetType())
   337  		if (allegrosql.HasUnsignedFlag(args[0].GetType().Flag) || allegrosql.HasUnsignedFlag(args[1].GetType().Flag)) && !ctx.GetStochastikVars().ALLEGROSQLMode.HasNoUnsignedSubtractionMode() {
   338  			bf.tp.Flag |= allegrosql.UnsignedFlag
   339  		}
   340  		sig := &builtinArithmeticMinusIntSig{baseBuiltinFunc: bf}
   341  		sig.setPbCode(fidelpb.ScalarFuncSig_MinusInt)
   342  		return sig, nil
   343  	}
   344  }
   345  
   346  type builtinArithmeticMinusRealSig struct {
   347  	baseBuiltinFunc
   348  }
   349  
   350  func (s *builtinArithmeticMinusRealSig) Clone() builtinFunc {
   351  	newSig := &builtinArithmeticMinusRealSig{}
   352  	newSig.cloneFrom(&s.baseBuiltinFunc)
   353  	return newSig
   354  }
   355  
   356  func (s *builtinArithmeticMinusRealSig) evalReal(event chunk.Event) (float64, bool, error) {
   357  	a, isNull, err := s.args[0].EvalReal(s.ctx, event)
   358  	if isNull || err != nil {
   359  		return 0, isNull, err
   360  	}
   361  	b, isNull, err := s.args[1].EvalReal(s.ctx, event)
   362  	if isNull || err != nil {
   363  		return 0, isNull, err
   364  	}
   365  	if (a > 0 && -b > math.MaxFloat64-a) || (a < 0 && -b < -math.MaxFloat64-a) {
   366  		return 0, true, types.ErrOverflow.GenWithStackByArgs("DOUBLE", fmt.Sprintf("(%s - %s)", s.args[0].String(), s.args[1].String()))
   367  	}
   368  	return a - b, false, nil
   369  }
   370  
   371  type builtinArithmeticMinusDecimalSig struct {
   372  	baseBuiltinFunc
   373  }
   374  
   375  func (s *builtinArithmeticMinusDecimalSig) Clone() builtinFunc {
   376  	newSig := &builtinArithmeticMinusDecimalSig{}
   377  	newSig.cloneFrom(&s.baseBuiltinFunc)
   378  	return newSig
   379  }
   380  
   381  func (s *builtinArithmeticMinusDecimalSig) evalDecimal(event chunk.Event) (*types.MyDecimal, bool, error) {
   382  	a, isNull, err := s.args[0].EvalDecimal(s.ctx, event)
   383  	if isNull || err != nil {
   384  		return nil, isNull, err
   385  	}
   386  	b, isNull, err := s.args[1].EvalDecimal(s.ctx, event)
   387  	if isNull || err != nil {
   388  		return nil, isNull, err
   389  	}
   390  	c := &types.MyDecimal{}
   391  	err = types.DecimalSub(a, b, c)
   392  	if err != nil {
   393  		return nil, true, err
   394  	}
   395  	return c, false, nil
   396  }
   397  
   398  type builtinArithmeticMinusIntSig struct {
   399  	baseBuiltinFunc
   400  }
   401  
   402  func (s *builtinArithmeticMinusIntSig) Clone() builtinFunc {
   403  	newSig := &builtinArithmeticMinusIntSig{}
   404  	newSig.cloneFrom(&s.baseBuiltinFunc)
   405  	return newSig
   406  }
   407  
   408  func (s *builtinArithmeticMinusIntSig) evalInt(event chunk.Event) (val int64, isNull bool, err error) {
   409  	a, isNull, err := s.args[0].EvalInt(s.ctx, event)
   410  	if isNull || err != nil {
   411  		return 0, isNull, err
   412  	}
   413  
   414  	b, isNull, err := s.args[1].EvalInt(s.ctx, event)
   415  	if isNull || err != nil {
   416  		return 0, isNull, err
   417  	}
   418  	forceToSigned := s.ctx.GetStochastikVars().ALLEGROSQLMode.HasNoUnsignedSubtractionMode()
   419  	isLHSUnsigned := !forceToSigned && allegrosql.HasUnsignedFlag(s.args[0].GetType().Flag)
   420  	isRHSUnsigned := !forceToSigned && allegrosql.HasUnsignedFlag(s.args[1].GetType().Flag)
   421  
   422  	if forceToSigned && allegrosql.HasUnsignedFlag(s.args[0].GetType().Flag) {
   423  		if a < 0 {
   424  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s - %s)", s.args[0].String(), s.args[1].String()))
   425  		}
   426  	}
   427  	if forceToSigned && allegrosql.HasUnsignedFlag(s.args[1].GetType().Flag) {
   428  		if b < 0 {
   429  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s - %s)", s.args[0].String(), s.args[1].String()))
   430  		}
   431  	}
   432  
   433  	switch {
   434  	case isLHSUnsigned && isRHSUnsigned:
   435  		if uint64(a) < uint64(b) {
   436  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s - %s)", s.args[0].String(), s.args[1].String()))
   437  		}
   438  	case isLHSUnsigned && !isRHSUnsigned:
   439  		if b >= 0 && uint64(a) < uint64(b) {
   440  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s - %s)", s.args[0].String(), s.args[1].String()))
   441  		}
   442  		if b < 0 && uint64(a) > math.MaxUint64-uint64(-b) {
   443  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s - %s)", s.args[0].String(), s.args[1].String()))
   444  		}
   445  	case !isLHSUnsigned && isRHSUnsigned:
   446  		if a < 0 || uint64(a) < uint64(b) {
   447  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s - %s)", s.args[0].String(), s.args[1].String()))
   448  		}
   449  	case !isLHSUnsigned && !isRHSUnsigned:
   450  		// We need `(a >= 0 && b == math.MinInt64)` due to `-(math.MinInt64) == math.MinInt64`.
   451  		// If `a<0 && b<=0`: `a-b` will not overflow even though b==math.MinInt64.
   452  		// If `a<0 && b>0`: `a-b` will not overflow only if `math.MinInt64<=a-b` satisfied
   453  		if (a >= 0 && b == math.MinInt64) || (a > 0 && -b > math.MaxInt64-a) || (a < 0 && -b < math.MinInt64-a) {
   454  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT", fmt.Sprintf("(%s - %s)", s.args[0].String(), s.args[1].String()))
   455  		}
   456  	}
   457  	return a - b, false, nil
   458  }
   459  
   460  type arithmeticMultiplyFunctionClass struct {
   461  	baseFunctionClass
   462  }
   463  
   464  func (c *arithmeticMultiplyFunctionClass) getFunction(ctx stochastikctx.Context, args []Expression) (builtinFunc, error) {
   465  	if err := c.verifyArgs(args); err != nil {
   466  		return nil, err
   467  	}
   468  	lhsTp, rhsTp := args[0].GetType(), args[1].GetType()
   469  	lhsEvalTp, rhsEvalTp := numericContextResultType(lhsTp), numericContextResultType(rhsTp)
   470  	if lhsEvalTp == types.ETReal || rhsEvalTp == types.ETReal {
   471  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETReal, types.ETReal, types.ETReal)
   472  		if err != nil {
   473  			return nil, err
   474  		}
   475  		setFlenDecimal4RealOrDecimal(bf.tp, args[0].GetType(), args[1].GetType(), true, true)
   476  		sig := &builtinArithmeticMultiplyRealSig{bf}
   477  		sig.setPbCode(fidelpb.ScalarFuncSig_MultiplyReal)
   478  		return sig, nil
   479  	} else if lhsEvalTp == types.ETDecimal || rhsEvalTp == types.ETDecimal {
   480  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETDecimal, types.ETDecimal, types.ETDecimal)
   481  		if err != nil {
   482  			return nil, err
   483  		}
   484  		setFlenDecimal4RealOrDecimal(bf.tp, args[0].GetType(), args[1].GetType(), false, true)
   485  		sig := &builtinArithmeticMultiplyDecimalSig{bf}
   486  		sig.setPbCode(fidelpb.ScalarFuncSig_MultiplyDecimal)
   487  		return sig, nil
   488  	} else {
   489  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETInt, types.ETInt, types.ETInt)
   490  		if err != nil {
   491  			return nil, err
   492  		}
   493  		if allegrosql.HasUnsignedFlag(lhsTp.Flag) || allegrosql.HasUnsignedFlag(rhsTp.Flag) {
   494  			bf.tp.Flag |= allegrosql.UnsignedFlag
   495  			setFlenDecimal4Int(bf.tp, args[0].GetType(), args[1].GetType())
   496  			sig := &builtinArithmeticMultiplyIntUnsignedSig{bf}
   497  			sig.setPbCode(fidelpb.ScalarFuncSig_MultiplyIntUnsigned)
   498  			return sig, nil
   499  		}
   500  		setFlenDecimal4Int(bf.tp, args[0].GetType(), args[1].GetType())
   501  		sig := &builtinArithmeticMultiplyIntSig{bf}
   502  		sig.setPbCode(fidelpb.ScalarFuncSig_MultiplyInt)
   503  		return sig, nil
   504  	}
   505  }
   506  
   507  type builtinArithmeticMultiplyRealSig struct{ baseBuiltinFunc }
   508  
   509  func (s *builtinArithmeticMultiplyRealSig) Clone() builtinFunc {
   510  	newSig := &builtinArithmeticMultiplyRealSig{}
   511  	newSig.cloneFrom(&s.baseBuiltinFunc)
   512  	return newSig
   513  }
   514  
   515  type builtinArithmeticMultiplyDecimalSig struct{ baseBuiltinFunc }
   516  
   517  func (s *builtinArithmeticMultiplyDecimalSig) Clone() builtinFunc {
   518  	newSig := &builtinArithmeticMultiplyDecimalSig{}
   519  	newSig.cloneFrom(&s.baseBuiltinFunc)
   520  	return newSig
   521  }
   522  
   523  type builtinArithmeticMultiplyIntUnsignedSig struct{ baseBuiltinFunc }
   524  
   525  func (s *builtinArithmeticMultiplyIntUnsignedSig) Clone() builtinFunc {
   526  	newSig := &builtinArithmeticMultiplyIntUnsignedSig{}
   527  	newSig.cloneFrom(&s.baseBuiltinFunc)
   528  	return newSig
   529  }
   530  
   531  type builtinArithmeticMultiplyIntSig struct{ baseBuiltinFunc }
   532  
   533  func (s *builtinArithmeticMultiplyIntSig) Clone() builtinFunc {
   534  	newSig := &builtinArithmeticMultiplyIntSig{}
   535  	newSig.cloneFrom(&s.baseBuiltinFunc)
   536  	return newSig
   537  }
   538  
   539  func (s *builtinArithmeticMultiplyRealSig) evalReal(event chunk.Event) (float64, bool, error) {
   540  	a, isNull, err := s.args[0].EvalReal(s.ctx, event)
   541  	if isNull || err != nil {
   542  		return 0, isNull, err
   543  	}
   544  	b, isNull, err := s.args[1].EvalReal(s.ctx, event)
   545  	if isNull || err != nil {
   546  		return 0, isNull, err
   547  	}
   548  	result := a * b
   549  	if math.IsInf(result, 0) {
   550  		return 0, true, types.ErrOverflow.GenWithStackByArgs("DOUBLE", fmt.Sprintf("(%s * %s)", s.args[0].String(), s.args[1].String()))
   551  	}
   552  	return result, false, nil
   553  }
   554  
   555  func (s *builtinArithmeticMultiplyDecimalSig) evalDecimal(event chunk.Event) (*types.MyDecimal, bool, error) {
   556  	a, isNull, err := s.args[0].EvalDecimal(s.ctx, event)
   557  	if isNull || err != nil {
   558  		return nil, isNull, err
   559  	}
   560  	b, isNull, err := s.args[1].EvalDecimal(s.ctx, event)
   561  	if isNull || err != nil {
   562  		return nil, isNull, err
   563  	}
   564  	c := &types.MyDecimal{}
   565  	err = types.DecimalMul(a, b, c)
   566  	if err != nil && !terror.ErrorEqual(err, types.ErrTruncated) {
   567  		return nil, true, err
   568  	}
   569  	return c, false, nil
   570  }
   571  
   572  func (s *builtinArithmeticMultiplyIntUnsignedSig) evalInt(event chunk.Event) (val int64, isNull bool, err error) {
   573  	a, isNull, err := s.args[0].EvalInt(s.ctx, event)
   574  	if isNull || err != nil {
   575  		return 0, isNull, err
   576  	}
   577  	unsignedA := uint64(a)
   578  	b, isNull, err := s.args[1].EvalInt(s.ctx, event)
   579  	if isNull || err != nil {
   580  		return 0, isNull, err
   581  	}
   582  	unsignedB := uint64(b)
   583  	result := unsignedA * unsignedB
   584  	if unsignedA != 0 && result/unsignedA != unsignedB {
   585  		return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s * %s)", s.args[0].String(), s.args[1].String()))
   586  	}
   587  	return int64(result), false, nil
   588  }
   589  
   590  func (s *builtinArithmeticMultiplyIntSig) evalInt(event chunk.Event) (val int64, isNull bool, err error) {
   591  	a, isNull, err := s.args[0].EvalInt(s.ctx, event)
   592  	if isNull || err != nil {
   593  		return 0, isNull, err
   594  	}
   595  	b, isNull, err := s.args[1].EvalInt(s.ctx, event)
   596  	if isNull || err != nil {
   597  		return 0, isNull, err
   598  	}
   599  	result := a * b
   600  	if a != 0 && result/a != b {
   601  		return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT", fmt.Sprintf("(%s * %s)", s.args[0].String(), s.args[1].String()))
   602  	}
   603  	return result, false, nil
   604  }
   605  
   606  type arithmeticDivideFunctionClass struct {
   607  	baseFunctionClass
   608  }
   609  
   610  func (c *arithmeticDivideFunctionClass) getFunction(ctx stochastikctx.Context, args []Expression) (builtinFunc, error) {
   611  	if err := c.verifyArgs(args); err != nil {
   612  		return nil, err
   613  	}
   614  	lhsTp, rhsTp := args[0].GetType(), args[1].GetType()
   615  	lhsEvalTp, rhsEvalTp := numericContextResultType(lhsTp), numericContextResultType(rhsTp)
   616  	if lhsEvalTp == types.ETReal || rhsEvalTp == types.ETReal {
   617  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETReal, types.ETReal, types.ETReal)
   618  		if err != nil {
   619  			return nil, err
   620  		}
   621  		c.setType4DivReal(bf.tp)
   622  		sig := &builtinArithmeticDivideRealSig{bf}
   623  		sig.setPbCode(fidelpb.ScalarFuncSig_DivideReal)
   624  		return sig, nil
   625  	}
   626  	bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETDecimal, types.ETDecimal, types.ETDecimal)
   627  	if err != nil {
   628  		return nil, err
   629  	}
   630  	c.setType4DivDecimal(bf.tp, lhsTp, rhsTp)
   631  	sig := &builtinArithmeticDivideDecimalSig{bf}
   632  	sig.setPbCode(fidelpb.ScalarFuncSig_DivideDecimal)
   633  	return sig, nil
   634  }
   635  
   636  type builtinArithmeticDivideRealSig struct{ baseBuiltinFunc }
   637  
   638  func (s *builtinArithmeticDivideRealSig) Clone() builtinFunc {
   639  	newSig := &builtinArithmeticDivideRealSig{}
   640  	newSig.cloneFrom(&s.baseBuiltinFunc)
   641  	return newSig
   642  }
   643  
   644  type builtinArithmeticDivideDecimalSig struct{ baseBuiltinFunc }
   645  
   646  func (s *builtinArithmeticDivideDecimalSig) Clone() builtinFunc {
   647  	newSig := &builtinArithmeticDivideDecimalSig{}
   648  	newSig.cloneFrom(&s.baseBuiltinFunc)
   649  	return newSig
   650  }
   651  
   652  func (s *builtinArithmeticDivideRealSig) evalReal(event chunk.Event) (float64, bool, error) {
   653  	a, isNull, err := s.args[0].EvalReal(s.ctx, event)
   654  	if isNull || err != nil {
   655  		return 0, isNull, err
   656  	}
   657  	b, isNull, err := s.args[1].EvalReal(s.ctx, event)
   658  	if isNull || err != nil {
   659  		return 0, isNull, err
   660  	}
   661  	if b == 0 {
   662  		return 0, true, handleDivisionByZeroError(s.ctx)
   663  	}
   664  	result := a / b
   665  	if math.IsInf(result, 0) {
   666  		return 0, true, types.ErrOverflow.GenWithStackByArgs("DOUBLE", fmt.Sprintf("(%s / %s)", s.args[0].String(), s.args[1].String()))
   667  	}
   668  	return result, false, nil
   669  }
   670  
   671  func (s *builtinArithmeticDivideDecimalSig) evalDecimal(event chunk.Event) (*types.MyDecimal, bool, error) {
   672  	a, isNull, err := s.args[0].EvalDecimal(s.ctx, event)
   673  	if isNull || err != nil {
   674  		return nil, isNull, err
   675  	}
   676  
   677  	b, isNull, err := s.args[1].EvalDecimal(s.ctx, event)
   678  	if isNull || err != nil {
   679  		return nil, isNull, err
   680  	}
   681  
   682  	c := &types.MyDecimal{}
   683  	err = types.DecimalDiv(a, b, c, types.DivFracIncr)
   684  	if err == types.ErrDivByZero {
   685  		return c, true, handleDivisionByZeroError(s.ctx)
   686  	} else if err == types.ErrTruncated {
   687  		sc := s.ctx.GetStochastikVars().StmtCtx
   688  		err = sc.HandleTruncate(errTruncatedWrongValue.GenWithStackByArgs("DECIMAL", c))
   689  	} else if err == nil {
   690  		_, frac := c.PrecisionAndFrac()
   691  		if frac < s.baseBuiltinFunc.tp.Decimal {
   692  			err = c.Round(c, s.baseBuiltinFunc.tp.Decimal, types.ModeHalfEven)
   693  		}
   694  	}
   695  	return c, false, err
   696  }
   697  
   698  type arithmeticIntDivideFunctionClass struct {
   699  	baseFunctionClass
   700  }
   701  
   702  func (c *arithmeticIntDivideFunctionClass) getFunction(ctx stochastikctx.Context, args []Expression) (builtinFunc, error) {
   703  	if err := c.verifyArgs(args); err != nil {
   704  		return nil, err
   705  	}
   706  
   707  	lhsTp, rhsTp := args[0].GetType(), args[1].GetType()
   708  	lhsEvalTp, rhsEvalTp := numericContextResultType(lhsTp), numericContextResultType(rhsTp)
   709  	if lhsEvalTp == types.ETInt && rhsEvalTp == types.ETInt {
   710  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETInt, types.ETInt, types.ETInt)
   711  		if err != nil {
   712  			return nil, err
   713  		}
   714  		if allegrosql.HasUnsignedFlag(lhsTp.Flag) || allegrosql.HasUnsignedFlag(rhsTp.Flag) {
   715  			bf.tp.Flag |= allegrosql.UnsignedFlag
   716  		}
   717  		sig := &builtinArithmeticIntDivideIntSig{bf}
   718  		sig.setPbCode(fidelpb.ScalarFuncSig_IntDivideInt)
   719  		return sig, nil
   720  	}
   721  	bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETInt, types.ETDecimal, types.ETDecimal)
   722  	if err != nil {
   723  		return nil, err
   724  	}
   725  	if allegrosql.HasUnsignedFlag(lhsTp.Flag) || allegrosql.HasUnsignedFlag(rhsTp.Flag) {
   726  		bf.tp.Flag |= allegrosql.UnsignedFlag
   727  	}
   728  	sig := &builtinArithmeticIntDivideDecimalSig{bf}
   729  	sig.setPbCode(fidelpb.ScalarFuncSig_IntDivideDecimal)
   730  	return sig, nil
   731  }
   732  
   733  type builtinArithmeticIntDivideIntSig struct{ baseBuiltinFunc }
   734  
   735  func (s *builtinArithmeticIntDivideIntSig) Clone() builtinFunc {
   736  	newSig := &builtinArithmeticIntDivideIntSig{}
   737  	newSig.cloneFrom(&s.baseBuiltinFunc)
   738  	return newSig
   739  }
   740  
   741  type builtinArithmeticIntDivideDecimalSig struct{ baseBuiltinFunc }
   742  
   743  func (s *builtinArithmeticIntDivideDecimalSig) Clone() builtinFunc {
   744  	newSig := &builtinArithmeticIntDivideDecimalSig{}
   745  	newSig.cloneFrom(&s.baseBuiltinFunc)
   746  	return newSig
   747  }
   748  
   749  func (s *builtinArithmeticIntDivideIntSig) evalInt(event chunk.Event) (int64, bool, error) {
   750  	return s.evalIntWithCtx(s.ctx, event)
   751  }
   752  
   753  func (s *builtinArithmeticIntDivideIntSig) evalIntWithCtx(sctx stochastikctx.Context, event chunk.Event) (int64, bool, error) {
   754  	b, isNull, err := s.args[1].EvalInt(sctx, event)
   755  	if isNull || err != nil {
   756  		return 0, isNull, err
   757  	}
   758  
   759  	if b == 0 {
   760  		return 0, true, handleDivisionByZeroError(sctx)
   761  	}
   762  
   763  	a, isNull, err := s.args[0].EvalInt(sctx, event)
   764  	if isNull || err != nil {
   765  		return 0, isNull, err
   766  	}
   767  
   768  	var (
   769  		ret int64
   770  		val uint64
   771  	)
   772  	isLHSUnsigned := allegrosql.HasUnsignedFlag(s.args[0].GetType().Flag)
   773  	isRHSUnsigned := allegrosql.HasUnsignedFlag(s.args[1].GetType().Flag)
   774  
   775  	switch {
   776  	case isLHSUnsigned && isRHSUnsigned:
   777  		ret = int64(uint64(a) / uint64(b))
   778  	case isLHSUnsigned && !isRHSUnsigned:
   779  		val, err = types.DivUintWithInt(uint64(a), b)
   780  		ret = int64(val)
   781  	case !isLHSUnsigned && isRHSUnsigned:
   782  		val, err = types.DivIntWithUint(a, uint64(b))
   783  		ret = int64(val)
   784  	case !isLHSUnsigned && !isRHSUnsigned:
   785  		ret, err = types.DivInt64(a, b)
   786  	}
   787  
   788  	return ret, err != nil, err
   789  }
   790  
   791  func (s *builtinArithmeticIntDivideDecimalSig) evalInt(event chunk.Event) (ret int64, isNull bool, err error) {
   792  	sc := s.ctx.GetStochastikVars().StmtCtx
   793  	var num [2]*types.MyDecimal
   794  	for i, arg := range s.args {
   795  		num[i], isNull, err = arg.EvalDecimal(s.ctx, event)
   796  		if isNull || err != nil {
   797  			return 0, isNull, err
   798  		}
   799  	}
   800  
   801  	c := &types.MyDecimal{}
   802  	err = types.DecimalDiv(num[0], num[1], c, types.DivFracIncr)
   803  	if err == types.ErrDivByZero {
   804  		return 0, true, handleDivisionByZeroError(s.ctx)
   805  	}
   806  	if err == types.ErrTruncated {
   807  		err = sc.HandleTruncate(errTruncatedWrongValue.GenWithStackByArgs("DECIMAL", c))
   808  	}
   809  	if err == types.ErrOverflow {
   810  		newErr := errTruncatedWrongValue.GenWithStackByArgs("DECIMAL", c)
   811  		err = sc.HandleOverflow(newErr, newErr)
   812  	}
   813  	if err != nil {
   814  		return 0, true, err
   815  	}
   816  
   817  	isLHSUnsigned := allegrosql.HasUnsignedFlag(s.args[0].GetType().Flag)
   818  	isRHSUnsigned := allegrosql.HasUnsignedFlag(s.args[1].GetType().Flag)
   819  
   820  	if isLHSUnsigned || isRHSUnsigned {
   821  		val, err := c.ToUint()
   822  		// err returned by ToUint may be ErrTruncated or ErrOverflow, only handle ErrOverflow, ignore ErrTruncated.
   823  		if err == types.ErrOverflow {
   824  			v, err := c.ToInt()
   825  			// when the final result is at (-1, 0], it should be return 0 instead of the error
   826  			if v == 0 && err == types.ErrTruncated {
   827  				ret = int64(0)
   828  				return ret, false, nil
   829  			}
   830  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT UNSIGNED", fmt.Sprintf("(%s DIV %s)", s.args[0].String(), s.args[1].String()))
   831  		}
   832  		ret = int64(val)
   833  	} else {
   834  		ret, err = c.ToInt()
   835  		// err returned by ToInt may be ErrTruncated or ErrOverflow, only handle ErrOverflow, ignore ErrTruncated.
   836  		if err == types.ErrOverflow {
   837  			return 0, true, types.ErrOverflow.GenWithStackByArgs("BIGINT", fmt.Sprintf("(%s DIV %s)", s.args[0].String(), s.args[1].String()))
   838  		}
   839  	}
   840  
   841  	return ret, false, nil
   842  }
   843  
   844  type arithmeticModFunctionClass struct {
   845  	baseFunctionClass
   846  }
   847  
   848  func (c *arithmeticModFunctionClass) setType4ModRealOrDecimal(retTp, a, b *types.FieldType, isDecimal bool) {
   849  	if a.Decimal == types.UnspecifiedLength || b.Decimal == types.UnspecifiedLength {
   850  		retTp.Decimal = types.UnspecifiedLength
   851  	} else {
   852  		retTp.Decimal = mathutil.Max(a.Decimal, b.Decimal)
   853  		if isDecimal && retTp.Decimal > allegrosql.MaxDecimalScale {
   854  			retTp.Decimal = allegrosql.MaxDecimalScale
   855  		}
   856  	}
   857  
   858  	if a.Flen == types.UnspecifiedLength || b.Flen == types.UnspecifiedLength {
   859  		retTp.Flen = types.UnspecifiedLength
   860  	} else {
   861  		retTp.Flen = mathutil.Max(a.Flen, b.Flen)
   862  		if isDecimal {
   863  			retTp.Flen = mathutil.Min(retTp.Flen, allegrosql.MaxDecimalWidth)
   864  			return
   865  		}
   866  		retTp.Flen = mathutil.Min(retTp.Flen, allegrosql.MaxRealWidth)
   867  	}
   868  }
   869  
   870  func (c *arithmeticModFunctionClass) getFunction(ctx stochastikctx.Context, args []Expression) (builtinFunc, error) {
   871  	if err := c.verifyArgs(args); err != nil {
   872  		return nil, err
   873  	}
   874  	lhsTp, rhsTp := args[0].GetType(), args[1].GetType()
   875  	lhsEvalTp, rhsEvalTp := numericContextResultType(lhsTp), numericContextResultType(rhsTp)
   876  	if lhsEvalTp == types.ETReal || rhsEvalTp == types.ETReal {
   877  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETReal, types.ETReal, types.ETReal)
   878  		if err != nil {
   879  			return nil, err
   880  		}
   881  		c.setType4ModRealOrDecimal(bf.tp, lhsTp, rhsTp, false)
   882  		if allegrosql.HasUnsignedFlag(lhsTp.Flag) {
   883  			bf.tp.Flag |= allegrosql.UnsignedFlag
   884  		}
   885  		sig := &builtinArithmeticModRealSig{bf}
   886  		sig.setPbCode(fidelpb.ScalarFuncSig_ModReal)
   887  		return sig, nil
   888  	} else if lhsEvalTp == types.ETDecimal || rhsEvalTp == types.ETDecimal {
   889  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETDecimal, types.ETDecimal, types.ETDecimal)
   890  		if err != nil {
   891  			return nil, err
   892  		}
   893  		c.setType4ModRealOrDecimal(bf.tp, lhsTp, rhsTp, true)
   894  		if allegrosql.HasUnsignedFlag(lhsTp.Flag) {
   895  			bf.tp.Flag |= allegrosql.UnsignedFlag
   896  		}
   897  		sig := &builtinArithmeticModDecimalSig{bf}
   898  		sig.setPbCode(fidelpb.ScalarFuncSig_ModDecimal)
   899  		return sig, nil
   900  	} else {
   901  		bf, err := newBaseBuiltinFuncWithTp(ctx, c.funcName, args, types.ETInt, types.ETInt, types.ETInt)
   902  		if err != nil {
   903  			return nil, err
   904  		}
   905  		if allegrosql.HasUnsignedFlag(lhsTp.Flag) {
   906  			bf.tp.Flag |= allegrosql.UnsignedFlag
   907  		}
   908  		sig := &builtinArithmeticModIntSig{bf}
   909  		sig.setPbCode(fidelpb.ScalarFuncSig_ModInt)
   910  		return sig, nil
   911  	}
   912  }
   913  
   914  type builtinArithmeticModRealSig struct {
   915  	baseBuiltinFunc
   916  }
   917  
   918  func (s *builtinArithmeticModRealSig) Clone() builtinFunc {
   919  	newSig := &builtinArithmeticModRealSig{}
   920  	newSig.cloneFrom(&s.baseBuiltinFunc)
   921  	return newSig
   922  }
   923  
   924  func (s *builtinArithmeticModRealSig) evalReal(event chunk.Event) (float64, bool, error) {
   925  	b, isNull, err := s.args[1].EvalReal(s.ctx, event)
   926  	if isNull || err != nil {
   927  		return 0, isNull, err
   928  	}
   929  
   930  	if b == 0 {
   931  		return 0, true, handleDivisionByZeroError(s.ctx)
   932  	}
   933  
   934  	a, isNull, err := s.args[0].EvalReal(s.ctx, event)
   935  	if isNull || err != nil {
   936  		return 0, isNull, err
   937  	}
   938  
   939  	return math.Mod(a, b), false, nil
   940  }
   941  
   942  type builtinArithmeticModDecimalSig struct {
   943  	baseBuiltinFunc
   944  }
   945  
   946  func (s *builtinArithmeticModDecimalSig) Clone() builtinFunc {
   947  	newSig := &builtinArithmeticModDecimalSig{}
   948  	newSig.cloneFrom(&s.baseBuiltinFunc)
   949  	return newSig
   950  }
   951  
   952  func (s *builtinArithmeticModDecimalSig) evalDecimal(event chunk.Event) (*types.MyDecimal, bool, error) {
   953  	a, isNull, err := s.args[0].EvalDecimal(s.ctx, event)
   954  	if isNull || err != nil {
   955  		return nil, isNull, err
   956  	}
   957  	b, isNull, err := s.args[1].EvalDecimal(s.ctx, event)
   958  	if isNull || err != nil {
   959  		return nil, isNull, err
   960  	}
   961  	c := &types.MyDecimal{}
   962  	err = types.DecimalMod(a, b, c)
   963  	if err == types.ErrDivByZero {
   964  		return c, true, handleDivisionByZeroError(s.ctx)
   965  	}
   966  	return c, err != nil, err
   967  }
   968  
   969  type builtinArithmeticModIntSig struct {
   970  	baseBuiltinFunc
   971  }
   972  
   973  func (s *builtinArithmeticModIntSig) Clone() builtinFunc {
   974  	newSig := &builtinArithmeticModIntSig{}
   975  	newSig.cloneFrom(&s.baseBuiltinFunc)
   976  	return newSig
   977  }
   978  
   979  func (s *builtinArithmeticModIntSig) evalInt(event chunk.Event) (val int64, isNull bool, err error) {
   980  	b, isNull, err := s.args[1].EvalInt(s.ctx, event)
   981  	if isNull || err != nil {
   982  		return 0, isNull, err
   983  	}
   984  
   985  	if b == 0 {
   986  		return 0, true, handleDivisionByZeroError(s.ctx)
   987  	}
   988  
   989  	a, isNull, err := s.args[0].EvalInt(s.ctx, event)
   990  	if isNull || err != nil {
   991  		return 0, isNull, err
   992  	}
   993  
   994  	var ret int64
   995  	isLHSUnsigned := allegrosql.HasUnsignedFlag(s.args[0].GetType().Flag)
   996  	isRHSUnsigned := allegrosql.HasUnsignedFlag(s.args[1].GetType().Flag)
   997  
   998  	switch {
   999  	case isLHSUnsigned && isRHSUnsigned:
  1000  		ret = int64(uint64(a) % uint64(b))
  1001  	case isLHSUnsigned && !isRHSUnsigned:
  1002  		if b < 0 {
  1003  			ret = int64(uint64(a) % uint64(-b))
  1004  		} else {
  1005  			ret = int64(uint64(a) % uint64(b))
  1006  		}
  1007  	case !isLHSUnsigned && isRHSUnsigned:
  1008  		if a < 0 {
  1009  			ret = -int64(uint64(-a) % uint64(b))
  1010  		} else {
  1011  			ret = int64(uint64(a) % uint64(b))
  1012  		}
  1013  	case !isLHSUnsigned && !isRHSUnsigned:
  1014  		ret = a % b
  1015  	}
  1016  
  1017  	return ret, false, nil
  1018  }