minio/pkg/s3select/sql/compexpr.go

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/*
* Minio Cloud Storage, (C) 2019 Minio, Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package sql
import (
"fmt"
"regexp"
"strings"
)
// ComparisonOperator - comparison operator.
type ComparisonOperator string
const (
// Equal operator '='.
Equal ComparisonOperator = "="
// NotEqual operator '!=' or '<>'.
NotEqual ComparisonOperator = "!="
// LessThan operator '<'.
LessThan ComparisonOperator = "<"
// GreaterThan operator '>'.
GreaterThan ComparisonOperator = ">"
// LessThanEqual operator '<='.
LessThanEqual ComparisonOperator = "<="
// GreaterThanEqual operator '>='.
GreaterThanEqual ComparisonOperator = ">="
// Between operator 'BETWEEN'
Between ComparisonOperator = "between"
// In operator 'IN'
In ComparisonOperator = "in"
// Like operator 'LIKE'
Like ComparisonOperator = "like"
// NotBetween operator 'NOT BETWEEN'
NotBetween ComparisonOperator = "not between"
// NotIn operator 'NOT IN'
NotIn ComparisonOperator = "not in"
// NotLike operator 'NOT LIKE'
NotLike ComparisonOperator = "not like"
// IsNull operator 'IS NULL'
IsNull ComparisonOperator = "is null"
// IsNotNull operator 'IS NOT NULL'
IsNotNull ComparisonOperator = "is not null"
)
// String - returns string representation of this operator.
func (operator ComparisonOperator) String() string {
return strings.ToUpper((string(operator)))
}
func equal(leftValue, rightValue *Value) (bool, error) {
switch {
case leftValue.Type() == Null && rightValue.Type() == Null:
return true, nil
case leftValue.Type() == Bool && rightValue.Type() == Bool:
return leftValue.BoolValue() == rightValue.BoolValue(), nil
case (leftValue.Type() == Int || leftValue.Type() == Float) &&
(rightValue.Type() == Int || rightValue.Type() == Float):
return leftValue.FloatValue() == rightValue.FloatValue(), nil
case leftValue.Type() == String && rightValue.Type() == String:
return leftValue.StringValue() == rightValue.StringValue(), nil
case leftValue.Type() == Timestamp && rightValue.Type() == Timestamp:
return leftValue.TimeValue() == rightValue.TimeValue(), nil
}
return false, fmt.Errorf("left value type %v and right value type %v are incompatible for equality check", leftValue.Type(), rightValue.Type())
}
// comparisonExpr - comparison function.
type comparisonExpr struct {
left Expr
right Expr
to Expr
operator ComparisonOperator
funcType Type
}
// String - returns string representation of this function.
func (f *comparisonExpr) String() string {
switch f.operator {
case Equal, NotEqual, LessThan, GreaterThan, LessThanEqual, GreaterThanEqual, In, Like, NotIn, NotLike:
return fmt.Sprintf("(%v %v %v)", f.left, f.operator, f.right)
case Between, NotBetween:
return fmt.Sprintf("(%v %v %v AND %v)", f.left, f.operator, f.right, f.to)
}
return fmt.Sprintf("(%v %v %v %v)", f.left, f.right, f.to, f.operator)
}
func (f *comparisonExpr) equal(leftValue, rightValue *Value) (*Value, error) {
result, err := equal(leftValue, rightValue)
if err != nil {
err = fmt.Errorf("%v: %v", f, err)
return nil, errExternalEvalException(err)
}
return NewBool(result), nil
}
func (f *comparisonExpr) notEqual(leftValue, rightValue *Value) (*Value, error) {
result, err := equal(leftValue, rightValue)
if err != nil {
err = fmt.Errorf("%v: %v", f, err)
return nil, errExternalEvalException(err)
}
return NewBool(!result), nil
}
func (f *comparisonExpr) lessThan(leftValue, rightValue *Value) (*Value, error) {
if !leftValue.Type().isNumber() {
err := fmt.Errorf("%v: left side expression evaluated to %v; not to number", f, leftValue.Type())
return nil, errExternalEvalException(err)
}
if !rightValue.Type().isNumber() {
err := fmt.Errorf("%v: right side expression evaluated to %v; not to number", f, rightValue.Type())
return nil, errExternalEvalException(err)
}
return NewBool(leftValue.FloatValue() < rightValue.FloatValue()), nil
}
func (f *comparisonExpr) greaterThan(leftValue, rightValue *Value) (*Value, error) {
if !leftValue.Type().isNumber() {
err := fmt.Errorf("%v: left side expression evaluated to %v; not to number", f, leftValue.Type())
return nil, errExternalEvalException(err)
}
if !rightValue.Type().isNumber() {
err := fmt.Errorf("%v: right side expression evaluated to %v; not to number", f, rightValue.Type())
return nil, errExternalEvalException(err)
}
return NewBool(leftValue.FloatValue() > rightValue.FloatValue()), nil
}
func (f *comparisonExpr) lessThanEqual(leftValue, rightValue *Value) (*Value, error) {
if !leftValue.Type().isNumber() {
err := fmt.Errorf("%v: left side expression evaluated to %v; not to number", f, leftValue.Type())
return nil, errExternalEvalException(err)
}
if !rightValue.Type().isNumber() {
err := fmt.Errorf("%v: right side expression evaluated to %v; not to number", f, rightValue.Type())
return nil, errExternalEvalException(err)
}
return NewBool(leftValue.FloatValue() <= rightValue.FloatValue()), nil
}
func (f *comparisonExpr) greaterThanEqual(leftValue, rightValue *Value) (*Value, error) {
if !leftValue.Type().isNumber() {
err := fmt.Errorf("%v: left side expression evaluated to %v; not to number", f, leftValue.Type())
return nil, errExternalEvalException(err)
}
if !rightValue.Type().isNumber() {
err := fmt.Errorf("%v: right side expression evaluated to %v; not to number", f, rightValue.Type())
return nil, errExternalEvalException(err)
}
return NewBool(leftValue.FloatValue() >= rightValue.FloatValue()), nil
}
func (f *comparisonExpr) computeBetween(leftValue, fromValue, toValue *Value) (bool, error) {
if !leftValue.Type().isNumber() {
err := fmt.Errorf("%v: left side expression evaluated to %v; not to number", f, leftValue.Type())
return false, errExternalEvalException(err)
}
if !fromValue.Type().isNumber() {
err := fmt.Errorf("%v: from side expression evaluated to %v; not to number", f, fromValue.Type())
return false, errExternalEvalException(err)
}
if !toValue.Type().isNumber() {
err := fmt.Errorf("%v: to side expression evaluated to %v; not to number", f, toValue.Type())
return false, errExternalEvalException(err)
}
return leftValue.FloatValue() >= fromValue.FloatValue() &&
leftValue.FloatValue() <= toValue.FloatValue(), nil
}
func (f *comparisonExpr) between(leftValue, fromValue, toValue *Value) (*Value, error) {
result, err := f.computeBetween(leftValue, fromValue, toValue)
if err != nil {
return nil, err
}
return NewBool(result), nil
}
func (f *comparisonExpr) notBetween(leftValue, fromValue, toValue *Value) (*Value, error) {
result, err := f.computeBetween(leftValue, fromValue, toValue)
if err != nil {
return nil, err
}
return NewBool(!result), nil
}
func (f *comparisonExpr) computeIn(leftValue, rightValue *Value) (found bool, err error) {
if rightValue.Type() != Array {
err := fmt.Errorf("%v: right side expression evaluated to %v; not to Array", f, rightValue.Type())
return false, errExternalEvalException(err)
}
values := rightValue.ArrayValue()
for i := range values {
found, err = equal(leftValue, values[i])
if err != nil {
return false, err
}
if found {
return true, nil
}
}
return false, nil
}
func (f *comparisonExpr) in(leftValue, rightValue *Value) (*Value, error) {
result, err := f.computeIn(leftValue, rightValue)
if err != nil {
err = fmt.Errorf("%v: %v", f, err)
return nil, errExternalEvalException(err)
}
return NewBool(result), nil
}
func (f *comparisonExpr) notIn(leftValue, rightValue *Value) (*Value, error) {
result, err := f.computeIn(leftValue, rightValue)
if err != nil {
err = fmt.Errorf("%v: %v", f, err)
return nil, errExternalEvalException(err)
}
return NewBool(!result), nil
}
func (f *comparisonExpr) computeLike(leftValue, rightValue *Value) (matched bool, err error) {
if leftValue.Type() != String {
err := fmt.Errorf("%v: left side expression evaluated to %v; not to string", f, leftValue.Type())
return false, errExternalEvalException(err)
}
if rightValue.Type() != String {
err := fmt.Errorf("%v: right side expression evaluated to %v; not to string", f, rightValue.Type())
return false, errExternalEvalException(err)
}
matched, err = regexp.MatchString(rightValue.StringValue(), leftValue.StringValue())
if err != nil {
err = fmt.Errorf("%v: %v", f, err)
return false, errExternalEvalException(err)
}
return matched, nil
}
func (f *comparisonExpr) like(leftValue, rightValue *Value) (*Value, error) {
result, err := f.computeLike(leftValue, rightValue)
if err != nil {
return nil, err
}
return NewBool(result), nil
}
func (f *comparisonExpr) notLike(leftValue, rightValue *Value) (*Value, error) {
result, err := f.computeLike(leftValue, rightValue)
if err != nil {
return nil, err
}
return NewBool(!result), nil
}
func (f *comparisonExpr) compute(leftValue, rightValue, toValue *Value) (*Value, error) {
switch f.operator {
case Equal:
return f.equal(leftValue, rightValue)
case NotEqual:
return f.notEqual(leftValue, rightValue)
case LessThan:
return f.lessThan(leftValue, rightValue)
case GreaterThan:
return f.greaterThan(leftValue, rightValue)
case LessThanEqual:
return f.lessThanEqual(leftValue, rightValue)
case GreaterThanEqual:
return f.greaterThanEqual(leftValue, rightValue)
case Between:
return f.between(leftValue, rightValue, toValue)
case In:
return f.in(leftValue, rightValue)
case Like:
return f.like(leftValue, rightValue)
case NotBetween:
return f.notBetween(leftValue, rightValue, toValue)
case NotIn:
return f.notIn(leftValue, rightValue)
case NotLike:
return f.notLike(leftValue, rightValue)
}
panic(fmt.Errorf("unexpected expression %v", f))
}
// Call - evaluates this function for given arg values and returns result as Value.
func (f *comparisonExpr) Eval(record Record) (*Value, error) {
leftValue, err := f.left.Eval(record)
if err != nil {
return nil, err
}
rightValue, err := f.right.Eval(record)
if err != nil {
return nil, err
}
var toValue *Value
if f.to != nil {
toValue, err = f.to.Eval(record)
if err != nil {
return nil, err
}
}
if f.funcType == aggregateFunction {
return nil, nil
}
return f.compute(leftValue, rightValue, toValue)
}
// AggregateValue - returns aggregated value.
func (f *comparisonExpr) AggregateValue() (*Value, error) {
if f.funcType != aggregateFunction {
err := fmt.Errorf("%v is not aggreate expression", f)
return nil, errExternalEvalException(err)
}
leftValue, err := f.left.AggregateValue()
if err != nil {
return nil, err
}
rightValue, err := f.right.AggregateValue()
if err != nil {
return nil, err
}
var toValue *Value
if f.to != nil {
toValue, err = f.to.AggregateValue()
if err != nil {
return nil, err
}
}
return f.compute(leftValue, rightValue, toValue)
}
// Type - returns comparisonFunction or aggregateFunction type.
func (f *comparisonExpr) Type() Type {
return f.funcType
}
// ReturnType - returns Bool as return type.
func (f *comparisonExpr) ReturnType() Type {
return Bool
}
// newComparisonExpr - creates new comparison function.
func newComparisonExpr(operator ComparisonOperator, funcs ...Expr) (*comparisonExpr, error) {
funcType := comparisonFunction
switch operator {
case Equal, NotEqual:
if len(funcs) != 2 {
panic(fmt.Sprintf("exactly two arguments are expected, but found %v", len(funcs)))
}
left := funcs[0]
if !left.ReturnType().isBaseKind() {
err := fmt.Errorf("operator %v: left side expression %v evaluate to %v is incompatible for equality check", operator, left, left.ReturnType())
return nil, errInvalidDataType(err)
}
right := funcs[1]
if !right.ReturnType().isBaseKind() {
err := fmt.Errorf("operator %v: right side expression %v evaluate to %v is incompatible for equality check", operator, right, right.ReturnType())
return nil, errInvalidDataType(err)
}
if left.Type() == aggregateFunction || right.Type() == aggregateFunction {
funcType = aggregateFunction
switch left.Type() {
case column, Array, function, arithmeticFunction, comparisonFunction, logicalFunction, record:
err := fmt.Errorf("operator %v: left side expression %v return type %v is incompatible for equality check", operator, left, left.Type())
return nil, errUnsupportedSQLOperation(err)
}
switch right.Type() {
case column, Array, function, arithmeticFunction, comparisonFunction, logicalFunction, record:
err := fmt.Errorf("operator %v: right side expression %v return type %v is incompatible for equality check", operator, right, right.Type())
return nil, errUnsupportedSQLOperation(err)
}
}
return &comparisonExpr{
left: left,
right: right,
operator: operator,
funcType: funcType,
}, nil
case LessThan, GreaterThan, LessThanEqual, GreaterThanEqual:
if len(funcs) != 2 {
panic(fmt.Sprintf("exactly two arguments are expected, but found %v", len(funcs)))
}
left := funcs[0]
if !left.ReturnType().isNumberKind() {
err := fmt.Errorf("operator %v: left side expression %v evaluate to %v, not number", operator, left, left.ReturnType())
return nil, errInvalidDataType(err)
}
right := funcs[1]
if !right.ReturnType().isNumberKind() {
err := fmt.Errorf("operator %v: right side expression %v evaluate to %v; not number", operator, right, right.ReturnType())
return nil, errInvalidDataType(err)
}
if left.Type() == aggregateFunction || right.Type() == aggregateFunction {
funcType = aggregateFunction
switch left.Type() {
case Int, Float, aggregateFunction:
default:
err := fmt.Errorf("operator %v: left side expression %v return type %v is incompatible for aggregate evaluation", operator, left, left.Type())
return nil, errUnsupportedSQLOperation(err)
}
switch right.Type() {
case Int, Float, aggregateFunction:
default:
err := fmt.Errorf("operator %v: right side expression %v return type %v is incompatible for aggregate evaluation", operator, right, right.Type())
return nil, errUnsupportedSQLOperation(err)
}
}
return &comparisonExpr{
left: left,
right: right,
operator: operator,
funcType: funcType,
}, nil
case In, NotIn:
if len(funcs) != 2 {
panic(fmt.Sprintf("exactly two arguments are expected, but found %v", len(funcs)))
}
left := funcs[0]
if !left.ReturnType().isBaseKind() {
err := fmt.Errorf("operator %v: left side expression %v evaluate to %v is incompatible for equality check", operator, left, left.ReturnType())
return nil, errInvalidDataType(err)
}
right := funcs[1]
if right.ReturnType() != Array {
err := fmt.Errorf("operator %v: right side expression %v evaluate to %v is incompatible for equality check", operator, right, right.ReturnType())
return nil, errInvalidDataType(err)
}
if left.Type() == aggregateFunction || right.Type() == aggregateFunction {
funcType = aggregateFunction
switch left.Type() {
case column, Array, function, arithmeticFunction, comparisonFunction, logicalFunction, record:
err := fmt.Errorf("operator %v: left side expression %v return type %v is incompatible for aggregate evaluation", operator, left, left.Type())
return nil, errUnsupportedSQLOperation(err)
}
switch right.Type() {
case Array, aggregateFunction:
default:
err := fmt.Errorf("operator %v: right side expression %v return type %v is incompatible for aggregate evaluation", operator, right, right.Type())
return nil, errUnsupportedSQLOperation(err)
}
}
return &comparisonExpr{
left: left,
right: right,
operator: operator,
funcType: funcType,
}, nil
case Like, NotLike:
if len(funcs) != 2 {
panic(fmt.Sprintf("exactly two arguments are expected, but found %v", len(funcs)))
}
left := funcs[0]
if !left.ReturnType().isStringKind() {
err := fmt.Errorf("operator %v: left side expression %v evaluate to %v, not string", operator, left, left.ReturnType())
return nil, errLikeInvalidInputs(err)
}
right := funcs[1]
if !right.ReturnType().isStringKind() {
err := fmt.Errorf("operator %v: right side expression %v evaluate to %v, not string", operator, right, right.ReturnType())
return nil, errLikeInvalidInputs(err)
}
if left.Type() == aggregateFunction || right.Type() == aggregateFunction {
funcType = aggregateFunction
switch left.Type() {
case String, aggregateFunction:
default:
err := fmt.Errorf("operator %v: left side expression %v return type %v is incompatible for aggregate evaluation", operator, left, left.Type())
return nil, errUnsupportedSQLOperation(err)
}
switch right.Type() {
case String, aggregateFunction:
default:
err := fmt.Errorf("operator %v: right side expression %v return type %v is incompatible for aggregate evaluation", operator, right, right.Type())
return nil, errUnsupportedSQLOperation(err)
}
}
return &comparisonExpr{
left: left,
right: right,
operator: operator,
funcType: funcType,
}, nil
case Between, NotBetween:
if len(funcs) != 3 {
panic(fmt.Sprintf("too many values in funcs %v", funcs))
}
left := funcs[0]
if !left.ReturnType().isNumberKind() {
err := fmt.Errorf("operator %v: left side expression %v evaluate to %v, not number", operator, left, left.ReturnType())
return nil, errInvalidDataType(err)
}
from := funcs[1]
if !from.ReturnType().isNumberKind() {
err := fmt.Errorf("operator %v: from expression %v evaluate to %v, not number", operator, from, from.ReturnType())
return nil, errInvalidDataType(err)
}
to := funcs[2]
if !to.ReturnType().isNumberKind() {
err := fmt.Errorf("operator %v: to expression %v evaluate to %v, not number", operator, to, to.ReturnType())
return nil, errInvalidDataType(err)
}
if left.Type() == aggregateFunction || from.Type() == aggregateFunction || to.Type() == aggregateFunction {
funcType = aggregateFunction
switch left.Type() {
case Int, Float, aggregateFunction:
default:
err := fmt.Errorf("operator %v: left side expression %v return type %v is incompatible for aggregate evaluation", operator, left, left.Type())
return nil, errUnsupportedSQLOperation(err)
}
switch from.Type() {
case Int, Float, aggregateFunction:
default:
err := fmt.Errorf("operator %v: from expression %v return type %v is incompatible for aggregate evaluation", operator, from, from.Type())
return nil, errUnsupportedSQLOperation(err)
}
switch to.Type() {
case Int, Float, aggregateFunction:
default:
err := fmt.Errorf("operator %v: to expression %v return type %v is incompatible for aggregate evaluation", operator, to, to.Type())
return nil, errUnsupportedSQLOperation(err)
}
}
return &comparisonExpr{
left: left,
right: from,
to: to,
operator: operator,
funcType: funcType,
}, nil
case IsNull, IsNotNull:
if len(funcs) != 1 {
panic(fmt.Sprintf("too many values in funcs %v", funcs))
}
if funcs[0].Type() == aggregateFunction {
funcType = aggregateFunction
}
if operator == IsNull {
operator = Equal
} else {
operator = NotEqual
}
return &comparisonExpr{
left: funcs[0],
right: newValueExpr(NewNull()),
operator: operator,
funcType: funcType,
}, nil
}
return nil, errParseUnknownOperator(fmt.Errorf("unknown operator %v", operator))
}