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expression: fix the issue that incorrect result for query that uses an AND operator on floats (#15927) #16664

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expression: fix the issue that incorrect result for query that uses an AND operator on floats (#15927) #16664

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346 changes: 346 additions & 0 deletions expression/expression.go
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Original file line number Diff line number Diff line change
Expand Up @@ -176,6 +176,352 @@ func EvalBool(ctx sessionctx.Context, exprList CNFExprs, row chunk.Row) (bool, b
return true, false, nil
}

<<<<<<< HEAD
=======
var (
defaultChunkSize = 1024
selPool = sync.Pool{
New: func() interface{} {
return make([]int, defaultChunkSize)
},
}
zeroPool = sync.Pool{
New: func() interface{} {
return make([]int8, defaultChunkSize)
},
}
)

func allocSelSlice(n int) []int {
if n > defaultChunkSize {
return make([]int, n)
}
return selPool.Get().([]int)
}

func deallocateSelSlice(sel []int) {
if cap(sel) <= defaultChunkSize {
selPool.Put(sel)
}
}

func allocZeroSlice(n int) []int8 {
if n > defaultChunkSize {
return make([]int8, n)
}
return zeroPool.Get().([]int8)
}

func deallocateZeroSlice(isZero []int8) {
if cap(isZero) <= defaultChunkSize {
zeroPool.Put(isZero)
}
}

// VecEvalBool does the same thing as EvalBool but it works in a vectorized manner.
func VecEvalBool(ctx sessionctx.Context, exprList CNFExprs, input *chunk.Chunk, selected, nulls []bool) ([]bool, []bool, error) {
// If input.Sel() != nil, we will call input.SetSel(nil) to clear the sel slice in input chunk.
// After the function finished, then we reset the input.Sel().
// The caller will handle the input.Sel() and selected slices.
defer input.SetSel(input.Sel())
input.SetSel(nil)

n := input.NumRows()
selected = selected[:0]
nulls = nulls[:0]
for i := 0; i < n; i++ {
selected = append(selected, false)
nulls = append(nulls, false)
}

sel := allocSelSlice(n)
defer deallocateSelSlice(sel)
sel = sel[:0]
for i := 0; i < n; i++ {
sel = append(sel, i)
}
input.SetSel(sel)

// In isZero slice, -1 means Null, 0 means zero, 1 means not zero
isZero := allocZeroSlice(n)
defer deallocateZeroSlice(isZero)
for _, expr := range exprList {
eType := expr.GetType().EvalType()
buf, err := globalColumnAllocator.get(eType, n)
if err != nil {
return nil, nil, err
}

if err := EvalExpr(ctx, expr, input, buf); err != nil {
return nil, nil, err
}

err = toBool(ctx.GetSessionVars().StmtCtx, eType, buf, sel, isZero)
if err != nil {
return nil, nil, err
}

j := 0
isEQCondFromIn := IsEQCondFromIn(expr)
for i := range sel {
if isZero[i] == -1 {
if eType != types.ETInt && !isEQCondFromIn {
continue
}
// In this case, we set this row to null and let it pass this filter.
// The null flag may be set to false later by other expressions in some cases.
nulls[sel[i]] = true
sel[j] = sel[i]
j++
continue
}

if isZero[i] == 0 {
continue
}
sel[j] = sel[i] // this row passes this filter
j++
}
sel = sel[:j]
input.SetSel(sel)
globalColumnAllocator.put(buf)
}

for _, i := range sel {
if !nulls[i] {
selected[i] = true
}
}

return selected, nulls, nil
}

func toBool(sc *stmtctx.StatementContext, eType types.EvalType, buf *chunk.Column, sel []int, isZero []int8) error {
switch eType {
case types.ETInt:
i64s := buf.Int64s()
for i := range sel {
if buf.IsNull(i) {
isZero[i] = -1
} else {
if i64s[i] == 0 {
isZero[i] = 0
} else {
isZero[i] = 1
}
}
}
case types.ETReal:
f64s := buf.Float64s()
for i := range sel {
if buf.IsNull(i) {
isZero[i] = -1
} else {
if f64s[i] == 0 {
isZero[i] = 0
} else {
isZero[i] = 1
}
}
}
case types.ETDuration:
d64s := buf.GoDurations()
for i := range sel {
if buf.IsNull(i) {
isZero[i] = -1
} else {
if d64s[i] == 0 {
isZero[i] = 0
} else {
isZero[i] = 1
}
}
}
case types.ETDatetime, types.ETTimestamp:
t64s := buf.Times()
for i := range sel {
if buf.IsNull(i) {
isZero[i] = -1
} else {
if t64s[i].IsZero() {
isZero[i] = 0
} else {
isZero[i] = 1
}
}
}
case types.ETString:
for i := range sel {
if buf.IsNull(i) {
isZero[i] = -1
} else {
iVal, err := types.StrToFloat(sc, buf.GetString(i))
if err != nil {
return err
}
if iVal == 0 {
isZero[i] = 0
} else {
isZero[i] = 1
}
}
}
case types.ETDecimal:
d64s := buf.Decimals()
for i := range sel {
if buf.IsNull(i) {
isZero[i] = -1
} else {
if d64s[i].IsZero() {
isZero[i] = 0
} else {
isZero[i] = 1
}
}
}
case types.ETJson:
return errors.Errorf("cannot convert type json.BinaryJSON to bool")
}
return nil
}

// EvalExpr evaluates this expr according to its type.
// And it selects the method for evaluating expression based on
// the environment variables and whether the expression can be vectorized.
func EvalExpr(ctx sessionctx.Context, expr Expression, input *chunk.Chunk, result *chunk.Column) (err error) {
evalType := expr.GetType().EvalType()
if expr.Vectorized() && ctx.GetSessionVars().EnableVectorizedExpression {
switch evalType {
case types.ETInt:
err = expr.VecEvalInt(ctx, input, result)
case types.ETReal:
err = expr.VecEvalReal(ctx, input, result)
case types.ETDuration:
err = expr.VecEvalDuration(ctx, input, result)
case types.ETDatetime, types.ETTimestamp:
err = expr.VecEvalTime(ctx, input, result)
case types.ETString:
err = expr.VecEvalString(ctx, input, result)
case types.ETJson:
err = expr.VecEvalJSON(ctx, input, result)
case types.ETDecimal:
err = expr.VecEvalDecimal(ctx, input, result)
default:
err = errors.New(fmt.Sprintf("invalid eval type %v", expr.GetType().EvalType()))
}
} else {
ind, n := 0, input.NumRows()
iter := chunk.NewIterator4Chunk(input)
switch evalType {
case types.ETInt:
result.ResizeInt64(n, false)
i64s := result.Int64s()
for it := iter.Begin(); it != iter.End(); it = iter.Next() {
value, isNull, err := expr.EvalInt(ctx, it)
if err != nil {
return err
}
if isNull {
result.SetNull(ind, isNull)
} else {
i64s[ind] = value
}
ind++
}
case types.ETReal:
result.ResizeFloat64(n, false)
f64s := result.Float64s()
for it := iter.Begin(); it != iter.End(); it = iter.Next() {
value, isNull, err := expr.EvalReal(ctx, it)
if err != nil {
return err
}
if isNull {
result.SetNull(ind, isNull)
} else {
f64s[ind] = value
}
ind++
}
case types.ETDuration:
result.ResizeGoDuration(n, false)
d64s := result.GoDurations()
for it := iter.Begin(); it != iter.End(); it = iter.Next() {
value, isNull, err := expr.EvalDuration(ctx, it)
if err != nil {
return err
}
if isNull {
result.SetNull(ind, isNull)
} else {
d64s[ind] = value.Duration
}
ind++
}
case types.ETDatetime, types.ETTimestamp:
result.ResizeTime(n, false)
t64s := result.Times()
for it := iter.Begin(); it != iter.End(); it = iter.Next() {
value, isNull, err := expr.EvalTime(ctx, it)
if err != nil {
return err
}
if isNull {
result.SetNull(ind, isNull)
} else {
t64s[ind] = value
}
ind++
}
case types.ETString:
result.ReserveString(n)
for it := iter.Begin(); it != iter.End(); it = iter.Next() {
value, isNull, err := expr.EvalString(ctx, it)
if err != nil {
return err
}
if isNull {
result.AppendNull()
} else {
result.AppendString(value)
}
}
case types.ETJson:
result.ReserveJSON(n)
for it := iter.Begin(); it != iter.End(); it = iter.Next() {
value, isNull, err := expr.EvalJSON(ctx, it)
if err != nil {
return err
}
if isNull {
result.AppendNull()
} else {
result.AppendJSON(value)
}
}
case types.ETDecimal:
result.ResizeDecimal(n, false)
d64s := result.Decimals()
for it := iter.Begin(); it != iter.End(); it = iter.Next() {
value, isNull, err := expr.EvalDecimal(ctx, it)
if err != nil {
return err
}
if isNull {
result.SetNull(ind, isNull)
} else {
d64s[ind] = *value
}
ind++
}
default:
err = errors.New(fmt.Sprintf("invalid eval type %v", expr.GetType().EvalType()))
}
}
return
}

>>>>>>> 94011e6... expression: fix the issue that incorrect result for query that uses an AND operator on floats (#15927)
// composeConditionWithBinaryOp composes condition with binary operator into a balance deep tree, which benefits a lot for pb decoder/encoder.
func composeConditionWithBinaryOp(ctx sessionctx.Context, conditions []Expression, funcName string) Expression {
length := len(conditions)
Expand Down
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