351 lines
9 KiB
Go
351 lines
9 KiB
Go
package sqlbuilder
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import (
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"bytes"
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"github.com/dropbox/godropbox/database/sqltypes"
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"github.com/dropbox/godropbox/errors"
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"reflect"
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"time"
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)
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type BoolExpression interface {
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Expression
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And(expression BoolExpression) BoolExpression
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Or(expression BoolExpression) BoolExpression
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IsTrue() BoolExpression
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IsFalse() BoolExpression
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}
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type boolInterfaceImpl struct {
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parent BoolExpression
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}
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func (b *boolInterfaceImpl) And(expression BoolExpression) BoolExpression {
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return And(b.parent, expression)
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}
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func (b *boolInterfaceImpl) Or(expression BoolExpression) BoolExpression {
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return Or(b.parent, expression)
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}
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func (b *boolInterfaceImpl) IsTrue() BoolExpression {
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return IsTrue(b.parent)
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}
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func (b *boolInterfaceImpl) IsFalse() BoolExpression {
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return nil
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}
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//---------------------------------------------------//
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type boolLiteralExpression struct {
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boolInterfaceImpl
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literalExpression
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}
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func NewBoolLiteralExpression(value bool) BoolExpression {
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boolLiteralExpression := boolLiteralExpression{}
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sqlValue, err := sqltypes.BuildValue(value)
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if err != nil {
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panic(errors.Wrap(err, "Invalid literal value"))
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}
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boolLiteralExpression.literalExpression = *NewLiteralExpression(sqlValue)
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boolLiteralExpression.boolInterfaceImpl.parent = &boolLiteralExpression
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return &boolLiteralExpression
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}
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//---------------------------------------------------//
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type binaryBoolExpression struct {
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boolInterfaceImpl
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binaryExpression
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}
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func NewBinaryBoolExpression(lhs, rhs Expression, operator []byte) BoolExpression {
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boolExpression := binaryBoolExpression{}
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boolExpression.binaryExpression = *NewBinaryExpression(lhs, rhs, operator, &boolExpression)
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boolExpression.boolInterfaceImpl.parent = &boolExpression
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return &boolExpression
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}
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//---------------------------------------------------//
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type prefixBoolExpression struct {
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boolInterfaceImpl
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prefixExpression
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}
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func NewPrefixBoolExpression(expression Expression, operator []byte) BoolExpression {
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boolExpression := prefixBoolExpression{}
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boolExpression.prefixExpression = *NewPrefixExpression(expression, operator, &boolExpression)
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boolExpression.boolInterfaceImpl.parent = &boolExpression
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return &boolExpression
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}
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//---------------------------------------------------//
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type conjunctBoolExpression struct {
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boolInterfaceImpl
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conjunctExpression
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name string
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}
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func NewConjunctBoolExpression(operator []byte, expressions ...BoolExpression) BoolExpression {
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boolExpression := conjunctBoolExpression{
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conjunctExpression: conjunctExpression{
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expressions: expressions,
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conjunction: operator,
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},
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}
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//boolExpression.expressionInterfaceImpl.parent = &boolExpression
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//boolExpression.boolInterfaceImpl.parent = &boolExpression
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return &boolExpression
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}
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//---------------------------------------------------//
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type inExpression struct {
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expressionInterfaceImpl
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boolInterfaceImpl
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lhs Expression
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rhs *listClause
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err error
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}
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func (c *inExpression) SerializeSql(out *bytes.Buffer) error {
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if c.err != nil {
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return errors.Wrap(c.err, "Invalid IN expression")
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}
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if c.lhs == nil {
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return errors.Newf(
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"lhs of in expression is nil. Generated sql: %s",
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out.String())
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}
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// We'll serialize the lhs even if we don't need it to ensure no error
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buf := &bytes.Buffer{}
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err := c.lhs.SerializeSql(buf)
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if err != nil {
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return err
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}
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if c.rhs == nil {
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_, _ = out.WriteString("FALSE")
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return nil
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}
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_, _ = out.WriteString(buf.String())
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_, _ = out.WriteString(" IN ")
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err = c.rhs.SerializeSql(out)
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if err != nil {
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return err
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}
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return nil
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}
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// Returns a representation of "a=b"
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func Eq(lhs, rhs Expression) BoolExpression {
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lit, ok := rhs.(*literalExpression)
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if ok && sqltypes.Value(lit.value).IsNull() {
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return NewBinaryBoolExpression(lhs, rhs, []byte(" IS "))
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}
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return NewBinaryBoolExpression(lhs, rhs, []byte(" = "))
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}
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// Returns a representation of "a=b", where b is a literal
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func EqL(lhs Expression, val interface{}) BoolExpression {
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return Eq(lhs, Literal(val))
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}
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// Returns a representation of "a!=b"
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func Neq(lhs, rhs Expression) BoolExpression {
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lit, ok := rhs.(*literalExpression)
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if ok && sqltypes.Value(lit.value).IsNull() {
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return NewBinaryBoolExpression(lhs, rhs, []byte(" IS NOT "))
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}
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return NewBinaryBoolExpression(lhs, rhs, []byte("!="))
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}
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// Returns a representation of "a!=b", where b is a literal
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func NeqL(lhs Expression, val interface{}) BoolExpression {
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return Neq(lhs, Literal(val))
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}
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// Returns a representation of "a<b"
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func Lt(lhs Expression, rhs Expression) BoolExpression {
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return NewBinaryBoolExpression(lhs, rhs, []byte("<"))
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}
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// Returns a representation of "a<b", where b is a literal
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func LtL(lhs Expression, val interface{}) BoolExpression {
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return Lt(lhs, Literal(val))
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}
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// Returns a representation of "a<=b"
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func Lte(lhs, rhs Expression) BoolExpression {
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return NewBinaryBoolExpression(lhs, rhs, []byte("<="))
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}
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// Returns a representation of "a<=b", where b is a literal
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func LteL(lhs Expression, val interface{}) BoolExpression {
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return Lte(lhs, Literal(val))
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}
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// Returns a representation of "a>b"
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func Gt(lhs, rhs Expression) BoolExpression {
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return NewBinaryBoolExpression(lhs, rhs, []byte(">"))
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}
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// Returns a representation of "a>b", where b is a literal
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func GtL(lhs Expression, val interface{}) BoolExpression {
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return Gt(lhs, Literal(val))
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}
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// Returns a representation of "a>=b"
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func Gte(lhs, rhs Expression) BoolExpression {
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return NewBinaryBoolExpression(lhs, rhs, []byte(">="))
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}
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// Returns a representation of "a>=b", where b is a literal
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func GteL(lhs Expression, val interface{}) BoolExpression {
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return Gte(lhs, Literal(val))
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}
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// Returns a representation of "not expr"
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func Not(expr BoolExpression) BoolExpression {
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return NewPrefixBoolExpression(expr, []byte(" NOT "))
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}
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func IsTrue(expr BoolExpression) BoolExpression {
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return NewPrefixBoolExpression(expr, []byte(" IS TRUE "))
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}
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// Returns a representation of "c[0] AND ... AND c[n-1]" for c in clauses
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func And(expressions ...BoolExpression) BoolExpression {
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return NewConjunctBoolExpression([]byte(" AND "), expressions...)
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}
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// Returns a representation of "c[0] OR ... OR c[n-1]" for c in clauses
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func Or(expressions ...BoolExpression) BoolExpression {
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return NewConjunctBoolExpression([]byte(" OR "), expressions...)
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}
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func Like(lhs, rhs Expression) BoolExpression {
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return NewBinaryBoolExpression(lhs, rhs, []byte(" LIKE "))
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}
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func LikeL(lhs Expression, val string) BoolExpression {
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return Like(lhs, Literal(val))
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}
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func Regexp(lhs, rhs Expression) BoolExpression {
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return NewBinaryBoolExpression(lhs, rhs, []byte(" REGEXP "))
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}
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func RegexpL(lhs Expression, val string) BoolExpression {
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return Regexp(lhs, Literal(val))
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}
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// Returns a representation of "a IN (b[0], ..., b[n-1])", where b is a list
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// of literals valList must be a slice type
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func In(lhs Expression, valList interface{}) BoolExpression {
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var clauses []Clause
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switch val := valList.(type) {
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// This atrocious body of copy-paste code is due to the fact that if you
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// try to merge the cases, you can't treat val as a list
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case []int:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case []int32:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case []int64:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case []uint:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case []uint32:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case []uint64:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case []float64:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case []string:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case [][]byte:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case []time.Time:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case []sqltypes.Numeric:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case []sqltypes.Fractional:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case []sqltypes.String:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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case []sqltypes.Value:
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clauses = make([]Clause, 0, len(val))
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for _, v := range val {
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clauses = append(clauses, Literal(v))
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}
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default:
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return &inExpression{
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err: errors.Newf(
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"Unknown value list type in IN clause: %s",
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reflect.TypeOf(valList)),
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}
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}
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expr := &inExpression{lhs: lhs}
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if len(clauses) > 0 {
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expr.rhs = &listClause{clauses: clauses, includeParentheses: true}
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}
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return expr
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}
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