expression

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Published: Apr 18, 2019 License: GPL-3.0 Imports: 53 Imported by: 0

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Constants

View Source
const (
	SHA0   = 0
	SHA224 = 224
	SHA256 = 256
	SHA384 = 384
	SHA512 = 512
)

Supported hash length of SHA-2 family

Variables

View Source
var (
	// One stands for a number 1.
	One = &Constant{
		Value:   types.NewDatum(1),
		RetType: types.NewFieldType(mysql.TypeTiny),
	}

	// Zero stands for a number 0.
	Zero = &Constant{
		Value:   types.NewDatum(0),
		RetType: types.NewFieldType(mysql.TypeTiny),
	}

	// Null stands for null constant.
	Null = &Constant{
		Value:   types.NewDatum(nil),
		RetType: types.NewFieldType(mysql.TypeTiny),
	}
)

Error instances.

View Source
var EvalAstExpr func(ctx sessionctx.Context, expr ast.ExprNode) (types.Datum, error)

EvalAstExpr evaluates ast expression directly.

View Source
var MaxPropagateColsCnt = 100

MaxPropagateColsCnt means the max number of columns that can participate propagation.

View Source
var UnCacheableFunctions = map[string]struct{}{
	ast.Now:              {},
	ast.CurrentTimestamp: {},
	ast.UTCTime:          {},
	ast.Curtime:          {},
	ast.CurrentTime:      {},
	ast.UTCTimestamp:     {},
	ast.UnixTimestamp:    {},
	ast.Sysdate:          {},
	ast.Curdate:          {},
	ast.CurrentDate:      {},
	ast.UTCDate:          {},
	ast.Database:         {},
	ast.CurrentUser:      {},
	ast.User:             {},
	ast.ConnectionID:     {},
	ast.LastInsertId:     {},
	ast.Version:          {},
}

UnCacheableFunctions stores functions which can not be cached to plan cache.

Functions

func CheckArgsNotMultiColumnRow

func CheckArgsNotMultiColumnRow(args ...Expression) error

CheckArgsNotMultiColumnRow checks the args are not multi-column row.

func ColumnSliceIsIntersect

func ColumnSliceIsIntersect(s1, s2 []*Column) bool

ColumnSliceIsIntersect checks whether two column slice is intersected.

func Contains

func Contains(exprs []Expression, e Expression) bool

Contains tests if `exprs` contains `e`.

func EvalBool

func EvalBool(ctx sessionctx.Context, exprList CNFExprs, row chunk.Row) (bool, error)

EvalBool evaluates expression list to a boolean value.

func ExplainColumnList

func ExplainColumnList(cols []*Column) []byte

ExplainColumnList generates explain information for a list of columns.

func ExplainExpressionList

func ExplainExpressionList(exprs []Expression) []byte

ExplainExpressionList generates explain information for a list of expressions.

func ExprFromSchema

func ExprFromSchema(expr Expression, schema *Schema) bool

ExprFromSchema checks if all columns of this expression are from the same schema.

func ExpressionsToPB

func ExpressionsToPB(sc *stmtctx.StatementContext, exprs []Expression, client kv.Client) (pbCNF *tipb.Expr, pushed []Expression, remained []Expression)

ExpressionsToPB converts expression to tipb.Expr.

func ExpressionsToPBList

func ExpressionsToPBList(sc *stmtctx.StatementContext, exprs []Expression, client kv.Client) (pbExpr []*tipb.Expr)

ExpressionsToPBList converts expressions to tipb.Expr list for new plan.

func GetAccurateCmpType

func GetAccurateCmpType(lhs, rhs Expression) types.EvalType

GetAccurateCmpType uses a more complex logic to decide the EvalType of the two args when compare with each other than getBaseCmpType does.

func GetRowLen

func GetRowLen(e Expression) int

GetRowLen gets the length if the func is row, returns 1 if not row.

func GetTimeValue

func GetTimeValue(ctx sessionctx.Context, v interface{}, tp byte, fsp int) (d types.Datum, err error)

GetTimeValue gets the time value with type tp.

func GroupByItemToPB

func GroupByItemToPB(sc *stmtctx.StatementContext, client kv.Client, expr Expression) *tipb.ByItem

GroupByItemToPB converts group by items to pb.

func IsBinaryLiteral

func IsBinaryLiteral(expr Expression) bool

IsBinaryLiteral checks whether an expression is a binary literal

func IsCurrentTimestampExpr

func IsCurrentTimestampExpr(e ast.ExprNode) bool

IsCurrentTimestampExpr returns whether e is CurrentTimestamp expression.

func PropConstOverOuterJoin

func PropConstOverOuterJoin(ctx sessionctx.Context, joinConds, filterConds []Expression, outerSchema, innerSchema *Schema) ([]Expression, []Expression)

PropConstOverOuterJoin propagate constant equal and column equal conditions over outer join. First step is to extract `outerCol = const` from join conditions and filter conditions, and substitute `outerCol` in join conditions with `const`; Second step is to extract `outerCol = innerCol` from join conditions, and derive new join conditions based on this column equal condition and `outerCol` related expressions in join conditions and filter conditions;

func SetBinFlagOrBinStr

func SetBinFlagOrBinStr(argTp *types.FieldType, resTp *types.FieldType)

SetBinFlagOrBinStr sets resTp to binary string if argTp is a binary string, if not, sets the binary flag of resTp to true if argTp has binary flag.

func SortByItemToPB

func SortByItemToPB(sc *stmtctx.StatementContext, client kv.Client, expr Expression, desc bool) *tipb.ByItem

SortByItemToPB converts order by items to pb.

func SortedExplainExpressionList

func SortedExplainExpressionList(exprs []Expression) []byte

SortedExplainExpressionList generates explain information for a list of expressions in order. In some scenarios, the expr's order may not be stable when executing multiple times. So we add a sort to make its explain result stable.

func ToPBFieldType

func ToPBFieldType(ft *types.FieldType) *tipb.FieldType

ToPBFieldType converts *types.FieldType to *tipb.FieldType.

func Vectorizable

func Vectorizable(exprs []Expression) bool

Vectorizable checks whether a list of expressions can employ vectorized execution.

func VectorizedExecute

func VectorizedExecute(ctx sessionctx.Context, exprs []Expression, iterator *chunk.Iterator4Chunk, output *chunk.Chunk) error

VectorizedExecute evaluates a list of expressions column by column and append their results to "output" Chunk.

func VectorizedFilter

func VectorizedFilter(ctx sessionctx.Context, filters []Expression, iterator *chunk.Iterator4Chunk, selected []bool) ([]bool, error)

VectorizedFilter applies a list of filters to a Chunk and returns a bool slice, which indicates whether a row is passed the filters. Filters is executed vectorized.

Types

type Assignment

type Assignment struct {
	Col  *Column
	Expr Expression
}

Assignment represents a set assignment in Update, such as Update t set c1 = hex(12), c2 = c3 where c2 = 1

type CNFExprs

type CNFExprs []Expression

CNFExprs stands for a CNF expression.

func (CNFExprs) Clone

func (e CNFExprs) Clone() CNFExprs

Clone clones itself.

type Column

type Column struct {
	OrigColName model.CIStr
	ColName     model.CIStr
	DBName      model.CIStr
	OrigTblName model.CIStr
	TblName     model.CIStr
	RetType     *types.FieldType
	// ID is used to specify whether this column is ExtraHandleColumn or to access histogram.
	// We'll try to remove it in the future.
	ID int64
	// UniqueID is the unique id of this column.
	UniqueID int64
	// IsAggOrSubq means if this column is referenced to a Aggregation column or a Subquery column.
	// If so, this column's name will be the plain sql text.
	IsAggOrSubq bool

	// Index is used for execution, to tell the column's position in the given row.
	Index int
	// contains filtered or unexported fields
}

Column represents a column.

func ColInfo2Col

func ColInfo2Col(cols []*Column, col *model.ColumnInfo) *Column

ColInfo2Col finds the corresponding column of the ColumnInfo in a column slice.

func ColumnInfos2ColumnsWithDBName

func ColumnInfos2ColumnsWithDBName(ctx sessionctx.Context, dbName, tblName model.CIStr, colInfos []*model.ColumnInfo) []*Column

ColumnInfos2ColumnsWithDBName converts a slice of ColumnInfo to a slice of Column.

func ExtractColumns

func ExtractColumns(expr Expression) (cols []*Column)

ExtractColumns extracts all columns from an expression.

func ExtractColumnsFromExpressions

func ExtractColumnsFromExpressions(result []*Column, exprs []Expression, filter func(*Column) bool) []*Column

ExtractColumnsFromExpressions is a more efficient version of ExtractColumns for batch operation. filter can be nil, or a function to filter the result column. It's often observed that the pattern of the caller like this:

cols := ExtractColumns(...)

for _, col := range cols {
    if xxx(col) {...}
}

Provide an additional filter argument, this can be done in one step. To avoid allocation for cols that not need.

func FindPrefixOfIndex

func FindPrefixOfIndex(cols []*Column, idxColIDs []int64) []*Column

FindPrefixOfIndex will find columns in index by checking the unique id. So it will return at once no matching column is found.

func IndexInfo2Cols

func IndexInfo2Cols(cols []*Column, index *model.IndexInfo) ([]*Column, []int)

IndexInfo2Cols gets the corresponding []*Column of the indexInfo's []*IndexColumn, together with a []int containing their lengths. If this index has three IndexColumn that the 1st and 3rd IndexColumn has corresponding *Column, the return value will be only the 1st corresponding *Column and its length.

func (*Column) Clone

func (col *Column) Clone() Expression

Clone implements Expression interface.

func (*Column) Decorrelate

func (col *Column) Decorrelate(_ *Schema) Expression

Decorrelate implements Expression interface.

func (*Column) Equal

func (col *Column) Equal(_ sessionctx.Context, expr Expression) bool

Equal implements Expression interface.

func (*Column) Eval

func (col *Column) Eval(row chunk.Row) (types.Datum, error)

Eval implements Expression interface.

func (*Column) EvalDecimal

func (col *Column) EvalDecimal(ctx sessionctx.Context, row chunk.Row) (*types.MyDecimal, bool, error)

EvalDecimal returns decimal representation of Column.

func (*Column) EvalDuration

func (col *Column) EvalDuration(ctx sessionctx.Context, row chunk.Row) (types.Duration, bool, error)

EvalDuration returns Duration representation of Column.

func (*Column) EvalInt

func (col *Column) EvalInt(ctx sessionctx.Context, row chunk.Row) (int64, bool, error)

EvalInt returns int representation of Column.

func (*Column) EvalJSON

func (col *Column) EvalJSON(ctx sessionctx.Context, row chunk.Row) (json.BinaryJSON, bool, error)

EvalJSON returns JSON representation of Column.

func (*Column) EvalReal

func (col *Column) EvalReal(ctx sessionctx.Context, row chunk.Row) (float64, bool, error)

EvalReal returns real representation of Column.

func (*Column) EvalString

func (col *Column) EvalString(ctx sessionctx.Context, row chunk.Row) (string, bool, error)

EvalString returns string representation of Column.

func (*Column) EvalTime

func (col *Column) EvalTime(ctx sessionctx.Context, row chunk.Row) (types.Time, bool, error)

EvalTime returns DATE/DATETIME/TIMESTAMP representation of Column.

func (*Column) ExplainInfo

func (expr *Column) ExplainInfo() string

ExplainInfo implements the Expression interface.

func (*Column) GetType

func (col *Column) GetType() *types.FieldType

GetType implements Expression interface.

func (*Column) HashCode

func (col *Column) HashCode(_ *stmtctx.StatementContext) []byte

HashCode implements Expression interface.

func (*Column) IsCorrelated

func (col *Column) IsCorrelated() bool

IsCorrelated implements Expression interface.

func (*Column) MarshalJSON

func (col *Column) MarshalJSON() ([]byte, error)

MarshalJSON implements json.Marshaler interface.

func (*Column) ResolveIndices

func (col *Column) ResolveIndices(schema *Schema) Expression

ResolveIndices implements Expression interface.

func (*Column) String

func (col *Column) String() string

String implements Stringer interface.

type Constant

type Constant struct {
	Value        types.Datum
	RetType      *types.FieldType
	DeferredExpr Expression // parameter getter expression
	// contains filtered or unexported fields
}

Constant stands for a constant value.

func RefineComparedConstant

func RefineComparedConstant(ctx sessionctx.Context, isUnsigned bool, con *Constant, op opcode.Op) (_ *Constant, isAlwaysFalse bool)

RefineComparedConstant changes an non-integer constant argument to its ceiling or floor result by the given op. isAlwaysFalse indicates whether the int column "con" is false.

func (*Constant) Clone

func (c *Constant) Clone() Expression

Clone implements Expression interface.

func (*Constant) Decorrelate

func (c *Constant) Decorrelate(_ *Schema) Expression

Decorrelate implements Expression interface.

func (*Constant) Equal

func (c *Constant) Equal(ctx sessionctx.Context, b Expression) bool

Equal implements Expression interface.

func (*Constant) Eval

func (c *Constant) Eval(_ chunk.Row) (types.Datum, error)

Eval implements Expression interface.

func (*Constant) EvalDecimal

func (c *Constant) EvalDecimal(ctx sessionctx.Context, _ chunk.Row) (*types.MyDecimal, bool, error)

EvalDecimal returns decimal representation of Constant.

func (*Constant) EvalDuration

func (c *Constant) EvalDuration(ctx sessionctx.Context, _ chunk.Row) (val types.Duration, isNull bool, err error)

EvalDuration returns Duration representation of Constant.

func (*Constant) EvalInt

func (c *Constant) EvalInt(ctx sessionctx.Context, _ chunk.Row) (int64, bool, error)

EvalInt returns int representation of Constant.

func (*Constant) EvalJSON

func (c *Constant) EvalJSON(ctx sessionctx.Context, _ chunk.Row) (json.BinaryJSON, bool, error)

EvalJSON returns JSON representation of Constant.

func (*Constant) EvalReal

func (c *Constant) EvalReal(ctx sessionctx.Context, _ chunk.Row) (float64, bool, error)

EvalReal returns real representation of Constant.

func (*Constant) EvalString

func (c *Constant) EvalString(ctx sessionctx.Context, _ chunk.Row) (string, bool, error)

EvalString returns string representation of Constant.

func (*Constant) EvalTime

func (c *Constant) EvalTime(ctx sessionctx.Context, _ chunk.Row) (val types.Time, isNull bool, err error)

EvalTime returns DATE/DATETIME/TIMESTAMP representation of Constant.

func (*Constant) ExplainInfo

func (expr *Constant) ExplainInfo() string

ExplainInfo implements the Expression interface.

func (*Constant) GetType

func (c *Constant) GetType() *types.FieldType

GetType implements Expression interface.

func (*Constant) HashCode

func (c *Constant) HashCode(sc *stmtctx.StatementContext) []byte

HashCode implements Expression interface.

func (*Constant) IsCorrelated

func (c *Constant) IsCorrelated() bool

IsCorrelated implements Expression interface.

func (*Constant) MarshalJSON

func (c *Constant) MarshalJSON() ([]byte, error)

MarshalJSON implements json.Marshaler interface.

func (*Constant) ResolveIndices

func (c *Constant) ResolveIndices(_ *Schema) Expression

ResolveIndices implements Expression interface.

func (*Constant) String

func (c *Constant) String() string

String implements fmt.Stringer interface.

type CorrelatedColumn

type CorrelatedColumn struct {
	Column

	Data *types.Datum
}

CorrelatedColumn stands for a column in a correlated sub query.

func ExtractCorColumns

func ExtractCorColumns(expr Expression) (cols []*CorrelatedColumn)

ExtractCorColumns extracts correlated column from given expression.

func (*CorrelatedColumn) Clone

func (col *CorrelatedColumn) Clone() Expression

Clone implements Expression interface.

func (*CorrelatedColumn) Decorrelate

func (col *CorrelatedColumn) Decorrelate(schema *Schema) Expression

Decorrelate implements Expression interface.

func (*CorrelatedColumn) Equal

func (col *CorrelatedColumn) Equal(ctx sessionctx.Context, expr Expression) bool

Equal implements Expression interface.

func (*CorrelatedColumn) Eval

func (col *CorrelatedColumn) Eval(row chunk.Row) (types.Datum, error)

Eval implements Expression interface.

func (*CorrelatedColumn) EvalDecimal

func (col *CorrelatedColumn) EvalDecimal(ctx sessionctx.Context, row chunk.Row) (*types.MyDecimal, bool, error)

EvalDecimal returns decimal representation of CorrelatedColumn.

func (*CorrelatedColumn) EvalDuration

func (col *CorrelatedColumn) EvalDuration(ctx sessionctx.Context, row chunk.Row) (types.Duration, bool, error)

EvalDuration returns Duration representation of CorrelatedColumn.

func (*CorrelatedColumn) EvalInt

func (col *CorrelatedColumn) EvalInt(ctx sessionctx.Context, row chunk.Row) (int64, bool, error)

EvalInt returns int representation of CorrelatedColumn.

func (*CorrelatedColumn) EvalJSON

func (col *CorrelatedColumn) EvalJSON(ctx sessionctx.Context, row chunk.Row) (json.BinaryJSON, bool, error)

EvalJSON returns JSON representation of CorrelatedColumn.

func (*CorrelatedColumn) EvalReal

func (col *CorrelatedColumn) EvalReal(ctx sessionctx.Context, row chunk.Row) (float64, bool, error)

EvalReal returns real representation of CorrelatedColumn.

func (*CorrelatedColumn) EvalString

func (col *CorrelatedColumn) EvalString(ctx sessionctx.Context, row chunk.Row) (string, bool, error)

EvalString returns string representation of CorrelatedColumn.

func (*CorrelatedColumn) EvalTime

func (col *CorrelatedColumn) EvalTime(ctx sessionctx.Context, row chunk.Row) (types.Time, bool, error)

EvalTime returns DATE/DATETIME/TIMESTAMP representation of CorrelatedColumn.

func (*CorrelatedColumn) IsCorrelated

func (col *CorrelatedColumn) IsCorrelated() bool

IsCorrelated implements Expression interface.

func (*CorrelatedColumn) ResolveIndices

func (col *CorrelatedColumn) ResolveIndices(_ *Schema) Expression

ResolveIndices implements Expression interface.

type EvaluatorSuit

type EvaluatorSuit struct {
	// contains filtered or unexported fields
}

EvaluatorSuit is responsible for the evaluation of a list of expressions. It separates them to "column" and "other" expressions and evaluates "other" expressions before "column" expressions.

func NewEvaluatorSuit

func NewEvaluatorSuit(exprs []Expression) *EvaluatorSuit

NewEvaluatorSuit creates an EvaluatorSuit to evaluate all the exprs.

func (*EvaluatorSuit) Run

func (e *EvaluatorSuit) Run(ctx sessionctx.Context, input, output *chunk.Chunk) error

Run evaluates all the expressions hold by this EvaluatorSuit. NOTE: "defaultEvaluator" must be evaluated before "columnEvaluator".

func (*EvaluatorSuit) Vectorizable

func (e *EvaluatorSuit) Vectorizable() bool

Vectorizable checks whether this EvaluatorSuit can use vectorizd execution mode.

type Expression

type Expression interface {
	fmt.Stringer
	goJSON.Marshaler

	// Eval evaluates an expression through a row.
	Eval(row chunk.Row) (types.Datum, error)

	// EvalInt returns the int64 representation of expression.
	EvalInt(ctx sessionctx.Context, row chunk.Row) (val int64, isNull bool, err error)

	// EvalReal returns the float64 representation of expression.
	EvalReal(ctx sessionctx.Context, row chunk.Row) (val float64, isNull bool, err error)

	// EvalString returns the string representation of expression.
	EvalString(ctx sessionctx.Context, row chunk.Row) (val string, isNull bool, err error)

	// EvalDecimal returns the decimal representation of expression.
	EvalDecimal(ctx sessionctx.Context, row chunk.Row) (val *types.MyDecimal, isNull bool, err error)

	// EvalTime returns the DATE/DATETIME/TIMESTAMP representation of expression.
	EvalTime(ctx sessionctx.Context, row chunk.Row) (val types.Time, isNull bool, err error)

	// EvalDuration returns the duration representation of expression.
	EvalDuration(ctx sessionctx.Context, row chunk.Row) (val types.Duration, isNull bool, err error)

	// EvalJSON returns the JSON representation of expression.
	EvalJSON(ctx sessionctx.Context, row chunk.Row) (val json.BinaryJSON, isNull bool, err error)

	// GetType gets the type that the expression returns.
	GetType() *types.FieldType

	// Clone copies an expression totally.
	Clone() Expression

	// Equal checks whether two expressions are equal.
	Equal(ctx sessionctx.Context, e Expression) bool

	// IsCorrelated checks if this expression has correlated key.
	IsCorrelated() bool

	// Decorrelate try to decorrelate the expression by schema.
	Decorrelate(schema *Schema) Expression

	// ResolveIndices resolves indices by the given schema. It will copy the original expression and return the copied one.
	ResolveIndices(schema *Schema) Expression

	// ExplainInfo returns operator information to be explained.
	ExplainInfo() string

	// HashCode creates the hashcode for expression which can be used to identify itself from other expression.
	// It generated as the following:
	// Constant: ConstantFlag+encoded value
	// Column: ColumnFlag+encoded value
	// ScalarFunction: SFFlag+encoded function name + encoded arg_1 + encoded arg_2 + ...
	HashCode(sc *stmtctx.StatementContext) []byte
	// contains filtered or unexported methods
}

Expression represents all scalar expression in SQL.

func BuildCastFunction

func BuildCastFunction(ctx sessionctx.Context, expr Expression, tp *types.FieldType) (res Expression)

BuildCastFunction builds a CAST ScalarFunction from the Expression.

func BuildCastFunction4Union

func BuildCastFunction4Union(ctx sessionctx.Context, expr Expression, tp *types.FieldType) (res Expression)

BuildCastFunction4Union build a implicitly CAST ScalarFunction from the Union Expression.

func Column2Exprs

func Column2Exprs(cols []*Column) []Expression

Column2Exprs will transfer column slice to expression slice.

func ColumnSubstitute

func ColumnSubstitute(expr Expression, schema *Schema, newExprs []Expression) Expression

ColumnSubstitute substitutes the columns in filter to expressions in select fields. e.g. select * from (select b as a from t) k where a < 10 => select * from (select b as a from t where b < 10) k.

func ComposeCNFCondition

func ComposeCNFCondition(ctx sessionctx.Context, conditions ...Expression) Expression

ComposeCNFCondition composes CNF items into a balance deep CNF tree, which benefits a lot for pb decoder/encoder.

func ComposeDNFCondition

func ComposeDNFCondition(ctx sessionctx.Context, conditions ...Expression) Expression

ComposeDNFCondition composes DNF items into a balance deep DNF tree.

func DeriveRelaxedFiltersFromDNF

func DeriveRelaxedFiltersFromDNF(expr Expression, schema *Schema) Expression

DeriveRelaxedFiltersFromDNF given a DNF expression, derive a relaxed DNF expression which only contains columns in specified schema; the derived expression is a superset of original expression, i.e, any tuple satisfying the original expression must satisfy the derived expression. Return nil when the derived expression is universal set. A running example is: for schema of t1, `(t1.a=1 and t2.a=1) or (t1.a=2 and t2.a=2)` would be derived as `t1.a=1 or t1.a=2`, while `t1.a=1 or t2.a=1` would get nil.

func EvaluateExprWithNull

func EvaluateExprWithNull(ctx sessionctx.Context, schema *Schema, expr Expression) Expression

EvaluateExprWithNull sets columns in schema as null and calculate the final result of the scalar function. If the Expression is a non-constant value, it means the result is unknown.

func ExtractFiltersFromDNFs

func ExtractFiltersFromDNFs(ctx sessionctx.Context, conditions []Expression) []Expression

ExtractFiltersFromDNFs checks whether the cond is DNF. If so, it will get the extracted part and the remained part. The original DNF will be replaced by the remained part or just be deleted if remained part is nil. And the extracted part will be appended to the end of the orignal slice.

func Filter

func Filter(result []Expression, input []Expression, filter func(Expression) bool) []Expression

Filter the input expressions, append the results to result.

func FlattenCNFConditions

func FlattenCNFConditions(CNFCondition *ScalarFunction) []Expression

FlattenCNFConditions extracts CNF expression's leaf item. e.g. and(and(a>1, a>2), and(a>3, a>4)), we'll get [a>1, a>2, a>3, a>4].

func FlattenDNFConditions

func FlattenDNFConditions(DNFCondition *ScalarFunction) []Expression

FlattenDNFConditions extracts DNF expression's leaf item. e.g. or(or(a=1, a=2), or(a=3, a=4)), we'll get [a=1, a=2, a=3, a=4].

func FoldConstant

func FoldConstant(expr Expression) Expression

FoldConstant does constant folding optimization on an expression excluding deferred ones.

func GetFuncArg

func GetFuncArg(e Expression, idx int) Expression

GetFuncArg gets the argument of the function at idx.

func NewFunction

func NewFunction(ctx sessionctx.Context, funcName string, retType *types.FieldType, args ...Expression) (Expression, error)

NewFunction creates a new scalar function or constant.

func NewFunctionInternal

func NewFunctionInternal(ctx sessionctx.Context, funcName string, retType *types.FieldType, args ...Expression) Expression

NewFunctionInternal is similar to NewFunction, but do not returns error, should only be used internally.

func PBToExpr

func PBToExpr(expr *tipb.Expr, tps []*types.FieldType, sc *stmtctx.StatementContext) (Expression, error)

PBToExpr converts pb structure to expression.

func ParseSimpleExprCastWithTableInfo

func ParseSimpleExprCastWithTableInfo(ctx sessionctx.Context, exprStr string, tableInfo *model.TableInfo, targetFt *types.FieldType) (Expression, error)

ParseSimpleExprCastWithTableInfo parses simple expression string to Expression. And the expr returns will cast to the target type.

func ParseSimpleExprWithTableInfo

func ParseSimpleExprWithTableInfo(ctx sessionctx.Context, exprStr string, tableInfo *model.TableInfo) (Expression, error)

ParseSimpleExprWithTableInfo parses simple expression string to Expression. The expression string must only reference the column in table Info.

func ParseSimpleExprsWithSchema

func ParseSimpleExprsWithSchema(ctx sessionctx.Context, exprStr string, schema *Schema) ([]Expression, error)

ParseSimpleExprsWithSchema parses simple expression string to Expression. The expression string must only reference the column in the given schema.

func PopRowFirstArg

func PopRowFirstArg(ctx sessionctx.Context, e Expression) (ret Expression, err error)

PopRowFirstArg pops the first element and returns the rest of row. e.g. After this function (1, 2, 3) becomes (2, 3).

func PropagateConstant

func PropagateConstant(ctx sessionctx.Context, conditions []Expression) []Expression

PropagateConstant propagate constant values of deterministic predicates in a condition.

func PushDownNot

func PushDownNot(ctx sessionctx.Context, expr Expression, not bool) Expression

PushDownNot pushes the `not` function down to the expression's arguments.

func RewriteSimpleExprWithSchema

func RewriteSimpleExprWithSchema(ctx sessionctx.Context, expr ast.ExprNode, schema *Schema) (Expression, error)

RewriteSimpleExprWithSchema rewrites simple ast.ExprNode to expression.Expression.

func RewriteSimpleExprWithTableInfo

func RewriteSimpleExprWithTableInfo(ctx sessionctx.Context, tbl *model.TableInfo, expr ast.ExprNode) (Expression, error)

RewriteSimpleExprWithTableInfo rewrites simple ast.ExprNode to expression.Expression.

func ScalarFuncs2Exprs

func ScalarFuncs2Exprs(funcs []*ScalarFunction) []Expression

ScalarFuncs2Exprs converts []*ScalarFunction to []Expression.

func SplitCNFItems

func SplitCNFItems(onExpr Expression) []Expression

SplitCNFItems splits CNF items. CNF means conjunctive normal form, e.g. "a and b and c".

func SplitDNFItems

func SplitDNFItems(onExpr Expression) []Expression

SplitDNFItems splits DNF items. DNF means disjunctive normal form, e.g. "a or b or c".

func SubstituteCorCol2Constant

func SubstituteCorCol2Constant(expr Expression) (Expression, error)

SubstituteCorCol2Constant will substitute correlated column to constant value which it contains. If the args of one scalar function are all constant, we will substitute it to constant.

func WrapWithCastAsDecimal

func WrapWithCastAsDecimal(ctx sessionctx.Context, expr Expression) Expression

WrapWithCastAsDecimal wraps `expr` with `cast` if the return type of expr is not type decimal, otherwise, returns `expr` directly.

func WrapWithCastAsDuration

func WrapWithCastAsDuration(ctx sessionctx.Context, expr Expression) Expression

WrapWithCastAsDuration wraps `expr` with `cast` if the return type of expr is not type duration, otherwise, returns `expr` directly.

func WrapWithCastAsInt

func WrapWithCastAsInt(ctx sessionctx.Context, expr Expression) Expression

WrapWithCastAsInt wraps `expr` with `cast` if the return type of expr is not type int, otherwise, returns `expr` directly.

func WrapWithCastAsJSON

func WrapWithCastAsJSON(ctx sessionctx.Context, expr Expression) Expression

WrapWithCastAsJSON wraps `expr` with `cast` if the return type of expr is not type json, otherwise, returns `expr` directly.

func WrapWithCastAsReal

func WrapWithCastAsReal(ctx sessionctx.Context, expr Expression) Expression

WrapWithCastAsReal wraps `expr` with `cast` if the return type of expr is not type real, otherwise, returns `expr` directly.

func WrapWithCastAsString

func WrapWithCastAsString(ctx sessionctx.Context, expr Expression) Expression

WrapWithCastAsString wraps `expr` with `cast` if the return type of expr is not type string, otherwise, returns `expr` directly.

func WrapWithCastAsTime

func WrapWithCastAsTime(ctx sessionctx.Context, expr Expression, tp *types.FieldType) Expression

WrapWithCastAsTime wraps `expr` with `cast` if the return type of expr is not same as type of the specified `tp` , otherwise, returns `expr` directly.

type KeyInfo

type KeyInfo []*Column

KeyInfo stores the columns of one unique key or primary key.

func (KeyInfo) Clone

func (ki KeyInfo) Clone() KeyInfo

Clone copies the entire UniqueKey.

type PbConverter

type PbConverter struct {
	// contains filtered or unexported fields
}

PbConverter supplys methods to convert TiDB expressions to TiPB.

func NewPBConverter

func NewPBConverter(client kv.Client, sc *stmtctx.StatementContext) PbConverter

NewPBConverter creates a PbConverter.

func (PbConverter) ExprToPB

func (pc PbConverter) ExprToPB(expr Expression) *tipb.Expr

ExprToPB converts Expression to TiPB.

type ScalarFunction

type ScalarFunction struct {
	FuncName model.CIStr
	// RetType is the type that ScalarFunction returns.
	// TODO: Implement type inference here, now we use ast's return type temporarily.
	RetType  *types.FieldType
	Function builtinFunc
	// contains filtered or unexported fields
}

ScalarFunction is the function that returns a value.

func NewValuesFunc

func NewValuesFunc(ctx sessionctx.Context, offset int, retTp *types.FieldType) *ScalarFunction

NewValuesFunc creates a new values function.

func (*ScalarFunction) Clone

func (sf *ScalarFunction) Clone() Expression

Clone implements Expression interface.

func (*ScalarFunction) Decorrelate

func (sf *ScalarFunction) Decorrelate(schema *Schema) Expression

Decorrelate implements Expression interface.

func (*ScalarFunction) Equal

func (sf *ScalarFunction) Equal(ctx sessionctx.Context, e Expression) bool

Equal implements Expression interface.

func (*ScalarFunction) Eval

func (sf *ScalarFunction) Eval(row chunk.Row) (d types.Datum, err error)

Eval implements Expression interface.

func (*ScalarFunction) EvalDecimal

func (sf *ScalarFunction) EvalDecimal(ctx sessionctx.Context, row chunk.Row) (*types.MyDecimal, bool, error)

EvalDecimal implements Expression interface.

func (*ScalarFunction) EvalDuration

func (sf *ScalarFunction) EvalDuration(ctx sessionctx.Context, row chunk.Row) (types.Duration, bool, error)

EvalDuration implements Expression interface.

func (*ScalarFunction) EvalInt

func (sf *ScalarFunction) EvalInt(ctx sessionctx.Context, row chunk.Row) (int64, bool, error)

EvalInt implements Expression interface.

func (*ScalarFunction) EvalJSON

func (sf *ScalarFunction) EvalJSON(ctx sessionctx.Context, row chunk.Row) (json.BinaryJSON, bool, error)

EvalJSON implements Expression interface.

func (*ScalarFunction) EvalReal

func (sf *ScalarFunction) EvalReal(ctx sessionctx.Context, row chunk.Row) (float64, bool, error)

EvalReal implements Expression interface.

func (*ScalarFunction) EvalString

func (sf *ScalarFunction) EvalString(ctx sessionctx.Context, row chunk.Row) (string, bool, error)

EvalString implements Expression interface.

func (*ScalarFunction) EvalTime

func (sf *ScalarFunction) EvalTime(ctx sessionctx.Context, row chunk.Row) (types.Time, bool, error)

EvalTime implements Expression interface.

func (*ScalarFunction) ExplainInfo

func (expr *ScalarFunction) ExplainInfo() string

ExplainInfo implements the Expression interface.

func (*ScalarFunction) GetArgs

func (sf *ScalarFunction) GetArgs() []Expression

GetArgs gets arguments of function.

func (*ScalarFunction) GetCtx

func (sf *ScalarFunction) GetCtx() sessionctx.Context

GetCtx gets the context of function.

func (*ScalarFunction) GetType

func (sf *ScalarFunction) GetType() *types.FieldType

GetType implements Expression interface.

func (*ScalarFunction) HashCode

func (sf *ScalarFunction) HashCode(sc *stmtctx.StatementContext) []byte

HashCode implements Expression interface.

func (*ScalarFunction) IsCorrelated

func (sf *ScalarFunction) IsCorrelated() bool

IsCorrelated implements Expression interface.

func (*ScalarFunction) MarshalJSON

func (sf *ScalarFunction) MarshalJSON() ([]byte, error)

MarshalJSON implements json.Marshaler interface.

func (*ScalarFunction) ResolveIndices

func (sf *ScalarFunction) ResolveIndices(schema *Schema) Expression

ResolveIndices implements Expression interface.

func (*ScalarFunction) String

func (sf *ScalarFunction) String() string

String implements fmt.Stringer interface.

type Schema

type Schema struct {
	Columns []*Column
	Keys    []KeyInfo
	// TblID2Handle stores the tables' handle column information if we need handle in execution phase.
	TblID2Handle map[int64][]*Column
}

Schema stands for the row schema and unique key information get from input.

func MergeSchema

func MergeSchema(lSchema, rSchema *Schema) *Schema

MergeSchema will merge two schema into one schema. We shouldn't need to consider unique keys. That will be processed in build_key_info.go.

func NewSchema

func NewSchema(cols ...*Column) *Schema

NewSchema returns a schema made by its parameter.

func TableInfo2Schema

func TableInfo2Schema(ctx sessionctx.Context, tbl *model.TableInfo) *Schema

TableInfo2Schema converts table info to schema with empty DBName.

func TableInfo2SchemaWithDBName

func TableInfo2SchemaWithDBName(ctx sessionctx.Context, dbName model.CIStr, tbl *model.TableInfo) *Schema

TableInfo2SchemaWithDBName converts table info to schema.

func (*Schema) Append

func (s *Schema) Append(col ...*Column)

Append append new column to the columns stored in schema.

func (*Schema) Clone

func (s *Schema) Clone() *Schema

Clone copies the total schema.

func (*Schema) ColumnIndex

func (s *Schema) ColumnIndex(col *Column) int

ColumnIndex finds the index for a column.

func (*Schema) ColumnsByIndices

func (s *Schema) ColumnsByIndices(offsets []int) []*Column

ColumnsByIndices returns columns by multiple offsets. Callers should guarantee that all the offsets provided should be valid, which means offset should: 1. not smaller than 0, and 2. not exceed len(s.Columns)

func (*Schema) ColumnsIndices

func (s *Schema) ColumnsIndices(cols []*Column) (ret []int)

ColumnsIndices will return a slice which contains the position of each column in schema. If there is one column that doesn't match, nil will be returned.

func (*Schema) Contains

func (s *Schema) Contains(col *Column) bool

Contains checks if the schema contains the column.

func (*Schema) FindColumn

func (s *Schema) FindColumn(astCol *ast.ColumnName) (*Column, error)

FindColumn finds an Column from schema for a ast.ColumnName. It compares the db/table/column names. If there are more than one result, it will raise ambiguous error.

func (*Schema) FindColumnAndIndex

func (s *Schema) FindColumnAndIndex(astCol *ast.ColumnName) (*Column, int, error)

FindColumnAndIndex finds an Column and its index from schema for a ast.ColumnName. It compares the db/table/column names. If there are more than one result, raise ambiguous error.

func (*Schema) FindColumnByName

func (s *Schema) FindColumnByName(name string) *Column

FindColumnByName finds a column by its name.

func (*Schema) IsUniqueKey

func (s *Schema) IsUniqueKey(col *Column) bool

IsUniqueKey checks if this column is a unique key.

func (*Schema) Len

func (s *Schema) Len() int

Len returns the number of columns in schema.

func (*Schema) RetrieveColumn

func (s *Schema) RetrieveColumn(col *Column) *Column

RetrieveColumn retrieves column in expression from the columns in schema.

func (*Schema) SetUniqueKeys

func (s *Schema) SetUniqueKeys(keys []KeyInfo)

SetUniqueKeys will set the value of Schema.Keys.

func (*Schema) String

func (s *Schema) String() string

String implements fmt.Stringer interface.

type VarAssignment

type VarAssignment struct {
	Name        string
	Expr        Expression
	IsDefault   bool
	IsGlobal    bool
	IsSystem    bool
	ExtendValue *Constant
}

VarAssignment represents a variable assignment in Set, such as set global a = 1.

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