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b6a95a8cb3
* Dropped unused codekit config * Integrated dynamic and static bindata for public * Ignore public bindata * Add a general generate make task * Integrated flexible public assets into web command * Updated vendoring, added all missiong govendor deps * Made the linter happy with the bindata and dynamic code * Moved public bindata definition to modules directory * Ignoring the new bindata path now * Updated to the new public modules import path * Updated public bindata command and drop the new prefix
189 lines
6.2 KiB
Go
189 lines
6.2 KiB
Go
// Copyright 2015 PingCAP, Inc.
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//
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// See the License for the specific language governing permissions and
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// limitations under the License.
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// Package ast is the abstract syntax tree parsed from a SQL statement by parser.
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// It can be analysed and transformed by optimizer.
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package ast
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import (
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"github.com/pingcap/tidb/context"
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"github.com/pingcap/tidb/model"
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"github.com/pingcap/tidb/util/types"
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)
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// Node is the basic element of the AST.
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// Interfaces embed Node should have 'Node' name suffix.
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type Node interface {
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// Accept accepts Visitor to visit itself.
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// The returned node should replace original node.
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// ok returns false to stop visiting.
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//
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// Implementation of this method should first call visitor.Enter,
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// assign the returned node to its method receiver, if skipChildren returns true,
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// children should be skipped. Otherwise, call its children in particular order that
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// later elements depends on former elements. Finally, return visitor.Leave.
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Accept(v Visitor) (node Node, ok bool)
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// Text returns the original text of the element.
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Text() string
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// SetText sets original text to the Node.
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SetText(text string)
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}
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// Flags indicates whether an expression contains certain types of expression.
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const (
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FlagConstant uint64 = 0
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FlagHasParamMarker uint64 = 1 << iota
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FlagHasFunc
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FlagHasReference
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FlagHasAggregateFunc
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FlagHasSubquery
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FlagHasVariable
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FlagHasDefault
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)
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// ExprNode is a node that can be evaluated.
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// Name of implementations should have 'Expr' suffix.
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type ExprNode interface {
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// Node is embeded in ExprNode.
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Node
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// SetType sets evaluation type to the expression.
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SetType(tp *types.FieldType)
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// GetType gets the evaluation type of the expression.
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GetType() *types.FieldType
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// SetValue sets value to the expression.
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SetValue(val interface{})
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// GetValue gets value of the expression.
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GetValue() interface{}
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// SetDatum sets datum to the expression.
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SetDatum(datum types.Datum)
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// GetDatum gets datum of the expression.
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GetDatum() *types.Datum
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// SetFlag sets flag to the expression.
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// Flag indicates whether the expression contains
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// parameter marker, reference, aggregate function...
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SetFlag(flag uint64)
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// GetFlag returns the flag of the expression.
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GetFlag() uint64
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}
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// FuncNode represents function call expression node.
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type FuncNode interface {
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ExprNode
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functionExpression()
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}
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// StmtNode represents statement node.
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// Name of implementations should have 'Stmt' suffix.
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type StmtNode interface {
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Node
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statement()
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}
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// DDLNode represents DDL statement node.
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type DDLNode interface {
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StmtNode
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ddlStatement()
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}
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// DMLNode represents DML statement node.
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type DMLNode interface {
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StmtNode
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dmlStatement()
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}
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// ResultField represents a result field which can be a column from a table,
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// or an expression in select field. It is a generated property during
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// binding process. ResultField is the key element to evaluate a ColumnNameExpr.
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// After resolving process, every ColumnNameExpr will be resolved to a ResultField.
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// During execution, every row retrieved from table will set the row value to
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// ResultFields of that table, so ColumnNameExpr resolved to that ResultField can be
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// easily evaluated.
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type ResultField struct {
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Column *model.ColumnInfo
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ColumnAsName model.CIStr
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Table *model.TableInfo
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TableAsName model.CIStr
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DBName model.CIStr
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// The expression for the result field. If it is generated from a select field, it would
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// be the expression of that select field, otherwise the type would be ValueExpr and value
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// will be set for every retrieved row.
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Expr ExprNode
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TableName *TableName
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}
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// Row represents a single row from Recordset.
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type Row struct {
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Data []types.Datum
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}
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// RecordSet is an abstract result set interface to help get data from Plan.
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type RecordSet interface {
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// Fields gets result fields.
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Fields() (fields []*ResultField, err error)
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// Next returns the next row, nil row means there is no more to return.
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Next() (row *Row, err error)
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// Close closes the underlying iterator, call Next after Close will
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// restart the iteration.
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Close() error
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}
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// ResultSetNode interface has ResultFields property which is computed and set by
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// optimizer.InfoBinder during binding process. Implementations include SelectStmt,
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// SubqueryExpr, TableSource, TableName and Join.
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type ResultSetNode interface {
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Node
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// GetResultFields gets result fields of the result set node.
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GetResultFields() []*ResultField
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// SetResultFields sets result fields of the result set node.
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SetResultFields(fields []*ResultField)
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}
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// Statement is an interface for SQL execution.
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// NOTE: all Statement implementations must be safe for
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// concurrent using by multiple goroutines.
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// If the Exec method requires any Execution domain local data,
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// they must be held out of the implementing instance.
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type Statement interface {
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// Explain gets the execution plans.
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//Explain(ctx context.Context, w format.Formatter)
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// IsDDL shows whether the statement is an DDL operation.
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IsDDL() bool
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// OriginText gets the origin SQL text.
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OriginText() string
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// SetText sets the executive SQL text.
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SetText(text string)
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// Exec executes SQL and gets a Recordset.
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Exec(ctx context.Context) (RecordSet, error)
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}
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// Visitor visits a Node.
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type Visitor interface {
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// Enter is called before children nodes are visited.
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// The returned node must be the same type as the input node n.
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// skipChildren returns true means children nodes should be skipped,
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// this is useful when work is done in Enter and there is no need to visit children.
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Enter(n Node) (node Node, skipChildren bool)
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// Leave is called after children nodes have been visited.
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// The returned node's type can be different from the input node if it is a ExprNode,
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// Non-expression node must be the same type as the input node n.
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// ok returns false to stop visiting.
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Leave(n Node) (node Node, ok bool)
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}
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