Documentation ¶
Index ¶
- Constants
- Variables
- func EvalBool(expr Expression, row []types.Datum, ctx context.Context) (bool, error)
- func GetTimeValue(ctx context.Context, v interface{}, tp byte, fsp int) (types.Datum, error)
- func IsCurrentTimeExpr(e ast.ExprNode) bool
- type AggFunctionMode
- type AggregationFunction
- type Assignment
- type BuiltinFunc
- type Column
- func (col *Column) Clone() Expression
- func (col *Column) Decorrelate(_ *Schema) Expression
- func (col *Column) Equal(expr Expression, _ context.Context) bool
- func (col *Column) Eval(row []types.Datum) (types.Datum, error)
- func (col *Column) GetType() *types.FieldType
- func (col *Column) HashCode() []byte
- func (col *Column) IsCorrelated() bool
- func (col *Column) MarshalJSON() ([]byte, error)
- func (col *Column) ResolveIndices(schema *Schema)
- func (col *Column) String() string
- type Constant
- func (c *Constant) Clone() Expression
- func (c *Constant) Decorrelate(_ *Schema) Expression
- func (c *Constant) Equal(b Expression, ctx context.Context) bool
- func (c *Constant) Eval(_ []types.Datum) (types.Datum, error)
- func (c *Constant) GetType() *types.FieldType
- func (c *Constant) HashCode() []byte
- func (c *Constant) IsCorrelated() bool
- func (c *Constant) MarshalJSON() ([]byte, error)
- func (c *Constant) ResolveIndices(_ *Schema)
- func (c *Constant) String() string
- type CorrelatedColumn
- func (col *CorrelatedColumn) Clone() Expression
- func (col *CorrelatedColumn) Decorrelate(schema *Schema) Expression
- func (col *CorrelatedColumn) Equal(expr Expression, ctx context.Context) bool
- func (col *CorrelatedColumn) Eval(row []types.Datum) (types.Datum, error)
- func (col *CorrelatedColumn) IsCorrelated() bool
- func (col *CorrelatedColumn) ResolveIndices(_ *Schema)
- type Expression
- func Column2Exprs(cols []*Column) []Expression
- func ColumnSubstitute(expr Expression, schema *Schema, newExprs []Expression) Expression
- func ComposeCNFCondition(ctx context.Context, conditions ...Expression) Expression
- func ComposeDNFCondition(ctx context.Context, conditions ...Expression) Expression
- func ConvertCol2CorCol(cond Expression, corCols []*CorrelatedColumn, outerSchema *Schema) Expression
- func EvaluateExprWithNull(ctx context.Context, schema *Schema, expr Expression) (Expression, error)
- func FoldConstant(expr Expression) Expression
- func NewFunction(ctx context.Context, funcName string, retType *types.FieldType, ...) (Expression, error)
- func PBToExpr(expr *tipb.Expr, colIDs map[int64]int, sc *variable.StatementContext) (Expression, error)
- func PropagateConstant(ctx context.Context, conditions []Expression) []Expression
- func ScalarFuncs2Exprs(funcs []*ScalarFunction) []Expression
- func SplitCNFItems(onExpr Expression) []Expression
- func SplitDNFItems(onExpr Expression) []Expression
- func SubstituteCorCol2Constant(expr Expression) (Expression, error)
- type KeyInfo
- type ScalarFunction
- func (sf *ScalarFunction) Clone() Expression
- func (sf *ScalarFunction) Decorrelate(schema *Schema) Expression
- func (sf *ScalarFunction) Equal(e Expression, ctx context.Context) bool
- func (sf *ScalarFunction) Eval(row []types.Datum) (types.Datum, error)
- func (sf *ScalarFunction) GetArgs() []Expression
- func (sf *ScalarFunction) GetCtx() context.Context
- func (sf *ScalarFunction) GetType() *types.FieldType
- func (sf *ScalarFunction) HashCode() []byte
- func (sf *ScalarFunction) IsCorrelated() bool
- func (sf *ScalarFunction) MarshalJSON() ([]byte, error)
- func (sf *ScalarFunction) ResolveIndices(schema *Schema)
- func (sf *ScalarFunction) String() string
- type Schema
- func (s *Schema) Append(col ...*Column)
- func (s *Schema) Clone() *Schema
- func (s *Schema) ColumnIndex(col *Column) int
- func (s *Schema) ColumnsIndices(cols []*Column) (ret []int)
- func (s *Schema) Contains(col *Column) bool
- func (s *Schema) FindColumn(astCol *ast.ColumnName) (*Column, error)
- func (s *Schema) IsUniqueKey(col *Column) bool
- func (s *Schema) Len() int
- func (s *Schema) RetrieveColumn(col *Column) *Column
- func (s *Schema) SetUniqueKeys(keys []KeyInfo)
- func (s *Schema) String() string
- type VarAssignment
Constants ¶
const ( SHA0 int = 0 SHA224 int = 224 SHA256 int = 256 SHA384 int = 384 SHA512 int = 512 )
Supported hash length of SHA-2 family
Variables ¶
var ( // CurrentTimestamp is the keyword getting default value for datetime and timestamp type. CurrentTimestamp = "CURRENT_TIMESTAMP" // ZeroTimestamp shows the zero datetime and timestamp. ZeroTimestamp = "0000-00-00 00:00:00" )
EvalAstExpr evaluates ast expression directly.
var MaxPropagateColsCnt = 100
MaxPropagateColsCnt means the max number of columns that can participate propagation.
var Null = &Constant{ Value: types.NewDatum(nil), RetType: types.NewFieldType(mysql.TypeTiny), }
Null stands for null constant.
var One = &Constant{ Value: types.NewDatum(1), RetType: types.NewFieldType(mysql.TypeTiny), }
One stands for a number 1.
var Zero = &Constant{ Value: types.NewDatum(0), RetType: types.NewFieldType(mysql.TypeTiny), }
Zero stands for a number 0.
Functions ¶
func GetTimeValue ¶
GetTimeValue gets the time value with type tp.
func IsCurrentTimeExpr ¶
IsCurrentTimeExpr returns whether e is CurrentTimeExpr.
Types ¶
type AggFunctionMode ¶
type AggFunctionMode int
AggFunctionMode stands for the aggregation function's mode.
const ( // CompleteMode function accepts origin data. CompleteMode AggFunctionMode = iota // FinalMode function accepts partial data. FinalMode )
type AggregationFunction ¶
type AggregationFunction interface { fmt.Stringer json.Marshaler // Update during executing. Update(row []types.Datum, groupKey []byte, sc *variable.StatementContext) error // GetPartialResult will called by coprocessor to get partial results. For avg function, partial results will return // sum and count values at the same time. GetPartialResult(groupKey []byte) []types.Datum // StreamUpdate updates data using streaming algo. StreamUpdate(row []types.Datum, sc *variable.StatementContext) error // SetMode sets aggFunctionMode for aggregate function. SetMode(mode AggFunctionMode) // GetMode gets aggFunctionMode from aggregate function. GetMode() AggFunctionMode // GetGroupResult will be called when all data have been processed. GetGroupResult(groupKey []byte) types.Datum // GetStreamResult gets a result using streaming agg. GetStreamResult() types.Datum // GetArgs stands for getting all arguments. GetArgs() []Expression // GetName gets the aggregation function name. GetName() string // SetArgs sets argument by index. SetArgs(args []Expression) // Clear collects the mapper's memory. Clear() // IsDistinct indicates if the aggregate function contains distinct attribute. IsDistinct() bool // SetContext sets the aggregate evaluation context. SetContext(ctx map[string](*aggEvaluateContext)) // Equal checks whether two aggregation functions are equal. Equal(agg AggregationFunction, ctx context.Context) bool // Clone copies an aggregate function totally. Clone() AggregationFunction // GetType gets field type of aggregate function. GetType() *types.FieldType // CalculateDefaultValue gets the default value when the aggregate function's input is null. // The input stands for the schema of Aggregation's child. If the function can't produce a default value, the second // return value will be false. CalculateDefaultValue(schema *Schema, ctx context.Context) (types.Datum, bool) }
AggregationFunction stands for aggregate functions.
func NewAggFunction ¶
func NewAggFunction(funcType string, funcArgs []Expression, distinct bool) AggregationFunction
NewAggFunction creates a new AggregationFunction.
func NewDistAggFunc ¶
func NewDistAggFunc(expr *tipb.Expr, colsID map[int64]int, sc *variable.StatementContext) (AggregationFunction, error)
NewDistAggFunc creates new Aggregate function for mock tikv.
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 BuiltinFunc ¶
BuiltinFunc is the function signature for builtin functions
type Column ¶
type Column struct { FromID string ColName model.CIStr DBName model.CIStr TblName model.CIStr RetType *types.FieldType ID int64 // Position means the position of this column that appears in the select fields. // e.g. SELECT name as id , 1 - id as id , 1 + name as id, name as id from src having id = 1; // There are four ids in the same schema, so you can't identify the column through the FromID and ColName. Position int // 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 // Only used for execution. Index int // contains filtered or unexported fields }
Column represents a column.
func ColumnInfos2Columns ¶
func ColumnInfos2Columns(tblName model.CIStr, colInfos []*model.ColumnInfo) []*Column
ColumnInfos2Columns 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 (*Column) Decorrelate ¶
func (col *Column) Decorrelate(_ *Schema) Expression
Decorrelate implements Expression interface.
func (*Column) Equal ¶
func (col *Column) Equal(expr Expression, _ context.Context) bool
Equal implements Expression interface.
func (*Column) IsCorrelated ¶
IsCorrelated implements Expression interface.
func (*Column) MarshalJSON ¶
MarshalJSON implements json.Marshaler interface.
func (*Column) ResolveIndices ¶
ResolveIndices implements Expression interface.
type Constant ¶
Constant stands for a constant value.
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(b Expression, ctx context.Context) bool
Equal implements Expression interface.
func (*Constant) IsCorrelated ¶
IsCorrelated implements Expression interface.
func (*Constant) MarshalJSON ¶
MarshalJSON implements json.Marshaler interface.
func (*Constant) ResolveIndices ¶
ResolveIndices implements Expression interface.
type CorrelatedColumn ¶
type CorrelatedColumn struct {}
CorrelatedColumn stands for a column in a correlated sub query.
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(expr Expression, ctx context.Context) bool
Equal implements Expression interface.
func (*CorrelatedColumn) IsCorrelated ¶
func (col *CorrelatedColumn) IsCorrelated() bool
IsCorrelated implements Expression interface.
func (*CorrelatedColumn) ResolveIndices ¶
func (col *CorrelatedColumn) ResolveIndices(_ *Schema)
ResolveIndices implements Expression interface.
type Expression ¶
type Expression interface { fmt.Stringer json.Marshaler // Eval evaluates an expression through a row. Eval(row []types.Datum) (types.Datum, error) // Get the expression return type. GetType() *types.FieldType // Clone copies an expression totally. Clone() Expression // HashCode create the hashcode for expression HashCode() []byte // Equal checks whether two expressions are equal. Equal(e Expression, ctx context.Context) bool IsCorrelated() bool // Decorrelate try to decorrelate the expression by schema. Decorrelate(schema *Schema) Expression // ResolveIndices resolves indices by the given schema. ResolveIndices(schema *Schema) }
Expression represents all scalar expression in SQL.
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 context.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 context.Context, conditions ...Expression) Expression
ComposeDNFCondition composes DNF items into a balance deep DNF tree.
func ConvertCol2CorCol ¶
func ConvertCol2CorCol(cond Expression, corCols []*CorrelatedColumn, outerSchema *Schema) Expression
ConvertCol2CorCol will convert the column in the condition which can be found in outerSchema to a correlated column whose Column is this column. And please make sure the outerSchema.Columns[i].Equal(corCols[i].Column)) holds when you call this.
func EvaluateExprWithNull ¶
func EvaluateExprWithNull(ctx context.Context, schema *Schema, expr Expression) (Expression, error)
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 FoldConstant ¶
func FoldConstant(expr Expression) Expression
FoldConstant does constant folding optimization on an expression.
func NewFunction ¶
func NewFunction(ctx context.Context, funcName string, retType *types.FieldType, args ...Expression) (Expression, error)
NewFunction creates a new scalar function or constant.
func PBToExpr ¶
func PBToExpr(expr *tipb.Expr, colIDs map[int64]int, sc *variable.StatementContext) (Expression, error)
PBToExpr converts pb structure to expression.
func PropagateConstant ¶
func PropagateConstant(ctx context.Context, conditions []Expression) []Expression
PropagateConstant propagate constant values of equality predicates and inequality predicates in a condition.
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.
type ScalarFunction ¶
type ScalarFunction struct { FuncName model.CIStr // TODO: Implement type inference here, now we use ast's return type temporarily. RetType *types.FieldType Function builtinFunc }
ScalarFunction is the function that returns a value.
func NewCastFunc ¶
func NewCastFunc(tp *types.FieldType, arg Expression, ctx context.Context) *ScalarFunction
NewCastFunc creates a new cast function.
func NewValuesFunc ¶
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(e Expression, ctx context.Context) bool
Equal implements Expression interface.
func (*ScalarFunction) GetArgs ¶
func (sf *ScalarFunction) GetArgs() []Expression
GetArgs gets arguments of function.
func (*ScalarFunction) GetCtx ¶
func (sf *ScalarFunction) GetCtx() context.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() []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)
ResolveIndices implements Expression interface.
func (*ScalarFunction) String ¶
func (sf *ScalarFunction) String() string
String implements fmt.Stringer interface.
type Schema ¶
Schema stands for the row schema and unique key information get from input.
func MergeSchema ¶
MergeSchema will merge two schema into one schema.
func TableInfo2Schema ¶
TableInfo2Schema converts table info to schema.
func (*Schema) ColumnIndex ¶
ColumnIndex finds the index for a column.
func (*Schema) ColumnsIndices ¶
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) 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) IsUniqueKey ¶
IsUniqueKey checks if this column is a unique key.
func (*Schema) RetrieveColumn ¶
RetrieveColumn retrieves column in expression from the columns in schema.
func (*Schema) SetUniqueKeys ¶
SetUniqueKeys will set the value of Schema.Keys.
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.
Source Files ¶
- aggregation.go
- builtin.go
- builtin_compare.go
- builtin_control.go
- builtin_encryption.go
- builtin_info.go
- builtin_like.go
- builtin_math.go
- builtin_miscellaneous.go
- builtin_op.go
- builtin_other.go
- builtin_string.go
- builtin_time.go
- column.go
- constant_fold.go
- constant_propagation.go
- distsql_builtin.go
- expression.go
- helper.go
- scalar_function.go
- schema.go
- util.go