sql

package
v0.14.7 Latest Latest
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 Go to latest Published: Mar 21, 2023 License: Apache-2.0 Imports: 34 Imported by: 0

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Index

Constants

View Source 
const (
	ConnectionIdLogField = "connectionID"
	ConnectionDbLogField = "connectionDb"
	ConnectTimeLogKey    = "connectTime"
)
View Source 
const (
	CurrentDBSessionVar  = "current_database"
	AutoCommitSessionVar = "autocommit"
)
View Source 
const (
	RowCount     = "row_count"
	FoundRows    = "found_rows"
	LastInsertId = "last_insert_id"
)
View Source 
const (
	// DateLayout is the layout of the MySQL date format in the representation
	// Go understands.
	DateLayout = "2006-01-02"

	// TimestampDatetimeLayout is the formatting string with the layout of the timestamp
	// using the format of Go "time" package.
	TimestampDatetimeLayout = "2006-01-02 15:04:05.999999"
)
View Source 
const (
	// False is the numeric representation of False as defined by MySQL.
	False = int8(0)
	// True is the numeric representation of True as defined by MySQL.
	True = int8(1)
)
View Source 
const ChecksumKey = "checksum"

ChecksumKey is the key in an index config to store the checksum.

View Source 
const IndexBatchSize = uint64(10000)

IndexBatchSize is the number of rows to save at a time when creating indexes.

View Source 
const (
	// InformationSchemaDatabaseName is the name of the information schema database.
	InformationSchemaDatabaseName = "information_schema"
)
View Source 
const (
	// QueryKey to access query in the context.
	QueryKey key = iota
)

Variables

View Source 
var (
	// ErrSyntaxError is returned when a syntax error in vitess is encountered.
	ErrSyntaxError = errors.NewKind("%s")

	// ErrUnsupportedFeature is thrown when a feature is not already supported
	ErrUnsupportedFeature = errors.NewKind("unsupported feature: %s")

	// ErrReadOnly is returned when the engine has been set to Read Only but a write operation was attempted.
	ErrReadOnly = errors.NewKind("database server is set to read only mode")

	// ErrInvalidSystemVariableValue is returned when a system variable is assigned a value that it does not accept.
	ErrInvalidSystemVariableValue = errors.NewKind("Variable '%s' can't be set to the value of '%v'")

	// ErrSystemVariableCodeFail is returned when failing to encode/decode a system variable.
	ErrSystemVariableCodeFail = errors.NewKind("unable to encode/decode value '%v' for '%s'")

	// ErrInvalidType is thrown when there is an unexpected type at some part of
	// the execution tree.
	ErrInvalidType = errors.NewKind("invalid type: %s")

	// ErrTableAlreadyExists is thrown when someone tries to create a
	// table with a name of an existing one
	ErrTableAlreadyExists = errors.NewKind("table with name %s already exists")

	// ErrTableNotFound is returned when the table is not available from the
	// current scope.
	ErrTableNotFound = errors.NewKind("table not found: %s")

	// ErrUnknownTable is returned when the non-table name is used for table actions.
	ErrUnknownTable = errors.NewKind("Unknown table '%s'")

	// ErrTableColumnNotFound is thrown when a column named cannot be found in scope
	ErrTableColumnNotFound = errors.NewKind("table %q does not have column %q")

	// ErrColumnNotFound is returned when the column does not exist in any
	// table in scope.
	ErrColumnNotFound = errors.NewKind("column %q could not be found in any table in scope")

	// ErrAmbiguousColumnName is returned when there is a column reference that
	// is present in more than one table.
	ErrAmbiguousColumnName = errors.NewKind("ambiguous column name %q, it's present in all these tables: %v")

	// ErrAmbiguousColumnOrAliasName is returned when a column or alias name can't be qualified to a table or alias definition
	ErrAmbiguousColumnOrAliasName = errors.NewKind("ambiguous column or alias name %q")

	// ErrAmbiguousColumnInOrderBy is returned when an order by column is ambiguous
	ErrAmbiguousColumnInOrderBy = errors.NewKind("Column %q in order clause is ambiguous")

	// ErrColumnExists is returned when an ALTER TABLE statement would create a duplicate column
	ErrColumnExists = errors.NewKind("Column %q already exists")

	// ErrCreateTableNotSupported is thrown when the database doesn't support table creation
	ErrCreateTableNotSupported = errors.NewKind("tables cannot be created on database %s")

	// ErrDropTableNotSupported is thrown when the database doesn't support dropping tables
	ErrDropTableNotSupported = errors.NewKind("tables cannot be dropped on database %s")

	// ErrRenameTableNotSupported is thrown when the database doesn't support renaming tables
	ErrRenameTableNotSupported = errors.NewKind("tables cannot be renamed on database %s")

	// ErrDatabaseCollationsNotSupported is thrown when a database does not allow updating its collation
	ErrDatabaseCollationsNotSupported = errors.NewKind("database %s does not support collation operations")

	// ErrTableCreatedNotFound is thrown when a table is created from CREATE TABLE but cannot be found immediately afterward
	ErrTableCreatedNotFound = errors.NewKind("table was created but could not be found")

	// ErrUnexpectedRowLength is thrown when the obtained row has more columns than the schema
	ErrUnexpectedRowLength = errors.NewKind("expected %d values, got %d")

	// ErrInvalidChildrenNumber is returned when the WithChildren method of a
	// node or expression is called with an invalid number of arguments.
	ErrInvalidChildrenNumber = errors.NewKind("%T: invalid children number, got %d, expected %d")

	// ErrInvalidExpressionNumber is returned when the WithExpression method of a node
	// is called with an invalid number of arguments.
	ErrInvalidExpressionNumber = errors.NewKind("%T: invalid expression number, got %d, expected %d")

	// ErrInvalidChildType is returned when the WithChildren method of a
	// node or expression is called with an invalid child type. This error is indicative of a bug.
	ErrInvalidChildType = errors.NewKind("%T: invalid child type, got %T, expected %T")

	// ErrInvalidJSONText is returned when a JSON string cannot be parsed or unmarshalled
	ErrInvalidJSONText = errors.NewKind("Invalid JSON text: %s")

	// ErrDeleteRowNotFound
	ErrDeleteRowNotFound = errors.NewKind("row was not found when attempting to delete")

	// ErrDuplicateAlias should be returned when a query contains a duplicate alias / table name.
	ErrDuplicateAliasOrTable = errors.NewKind("Not unique table/alias: %s")

	// ErrPrimaryKeyViolation is returned when a primary key constraint is violated
	// This is meant to wrap a sql.UniqueKey error, which provides the key string
	ErrPrimaryKeyViolation = errors.NewKind("duplicate primary key given")

	// ErrUniqueKeyViolation is returned when a unique key constraint is violated
	// This is meant to wrap a sql.UniqueKey error, which provides the key string
	ErrUniqueKeyViolation = errors.NewKind("duplicate unique key given")

	// ErrMisusedAlias is returned when a alias is defined and used in the same projection.
	ErrMisusedAlias = errors.NewKind("column %q does not exist in scope, but there is an alias defined in" +
		" this projection with that name. Aliases cannot be used in the same projection they're defined in")

	// ErrInvalidAsOfExpression is returned when an expression for AS OF cannot be used
	ErrInvalidAsOfExpression = errors.NewKind("expression %s cannot be used in AS OF")

	// ErrIncompatibleDefaultType is returned when a provided default cannot be coerced into the type of the column
	ErrIncompatibleDefaultType = errors.NewKind("incompatible type for default value")

	// ErrInvalidTextBlobColumnDefault is returned when a column of type text/blob (or related) has a literal default set.
	ErrInvalidTextBlobColumnDefault = errors.NewKind("TEXT, BLOB, GEOMETRY, and JSON types may only have expression default values")

	// ErrInvalidColumnDefaultFunction is returned when an invalid function is used in a default value.
	ErrInvalidColumnDefaultFunction = errors.NewKind("function `%s` on column `%s` is not valid for usage in a default value")

	// ErrColumnDefaultDatetimeOnlyFunc is returned when a non datetime/timestamp column attempts to declare now/current_timestamp as a default value literal.
	ErrColumnDefaultDatetimeOnlyFunc = errors.NewKind("only datetime/timestamp may declare default values of now()/current_timestamp() without surrounding parentheses")

	// ErrColumnDefaultSubquery is returned when a default value contains a subquery.
	ErrColumnDefaultSubquery = errors.NewKind("default value on column `%s` may not contain subqueries")

	// ErrInvalidColumnDefaultValue is returned when column default function value is not wrapped in parentheses for column types excluding datetime and timestamp
	ErrInvalidColumnDefaultValue = errors.NewKind("Invalid default value for '%s'")

	// ErrInvalidDefaultValueOrder is returned when a default value references a column that comes after it and contains a default expression.
	ErrInvalidDefaultValueOrder = errors.NewKind(`default value of column "%s" cannot refer to a column defined after it if those columns have an expression default value`)

	// ErrColumnDefaultReturnedNull is returned when a default expression evaluates to nil but the column is non-nullable.
	ErrColumnDefaultReturnedNull = errors.NewKind(`default value attempted to return null but column is non-nullable`)

	// ErrDropColumnReferencedInDefault is returned when a column cannot be dropped as it is referenced by another column's default value.
	ErrDropColumnReferencedInDefault = errors.NewKind(`cannot drop column "%s" as default value of column "%s" references it`)

	// ErrTriggersNotSupported is returned when attempting to create a trigger on a database that doesn't support them
	ErrTriggersNotSupported = errors.NewKind(`database "%s" doesn't support triggers`)

	// ErrTriggerCreateStatementInvalid is returned when a TriggerDatabase returns a CREATE TRIGGER statement that is invalid
	ErrTriggerCreateStatementInvalid = errors.NewKind(`Invalid CREATE TRIGGER statement: %s`)

	// ErrTriggerDoesNotExist is returned when a trigger does not exist.
	ErrTriggerDoesNotExist = errors.NewKind(`trigger "%s" does not exist`)

	// ErrTriggerTableInUse is returned when trigger execution calls for a table that invoked a trigger being updated by it
	ErrTriggerTableInUse = errors.NewKind("Can't update table %s in stored function/trigger because it is already used by statement which invoked this stored function/trigger")

	// ErrTriggerCannotBeDropped is returned when dropping a trigger would cause another trigger to reference a non-existent trigger.
	ErrTriggerCannotBeDropped = errors.NewKind(`trigger "%s" cannot be dropped as it is referenced by trigger "%s"`)

	// ErrStoredProceduresNotSupported is returned when attempting to create a stored procedure on a database that doesn't support them.
	ErrStoredProceduresNotSupported = errors.NewKind(`database "%s" doesn't support stored procedures`)

	// ErrVersionedStoredProceduresNotSupported is returned when attempting to retrieve a versioned stored procedure on a database that doesn't support them.
	ErrVersionedStoredProceduresNotSupported = errors.NewKind(`database "%s" doesn't support versioned stored procedures`)

	// ErrTriggerDoesNotExist is returned when a stored procedure does not exist.
	ErrStoredProcedureAlreadyExists = errors.NewKind(`stored procedure "%s" already exists`)

	// ErrTriggerDoesNotExist is returned when a stored procedure does not exist.
	ErrStoredProcedureDoesNotExist = errors.NewKind(`stored procedure "%s" does not exist`)

	// ErrProcedureCreateStatementInvalid is returned when a StoredProcedureDatabase returns a CREATE PROCEDURE statement that is invalid.
	ErrProcedureCreateStatementInvalid = errors.NewKind(`Invalid CREATE PROCEDURE statement: %s`)

	// ErrProcedureRecursiveCall is returned when a stored procedure has a CALL statement that refers to itself.
	ErrProcedureRecursiveCall = errors.NewKind("recursive CALL on stored procedure `%s`")

	// ErrProcedureNestedCallAsOf is returned when a stored procedure has a CALL ... AS OF statement, which is currently not allowed.
	ErrProcedureNestedCallAsOf = errors.NewKind("CALL ... AS OF in stored procedure `%s`")

	// ErrProcedureCallAsOfReadOnly is returned when a CALL ... AS OF statement attempts to modify a table.
	ErrProcedureCallAsOfReadOnly = errors.NewKind("CALL ... AS OF converts databases to read only")

	// ErrProcedureInvalidBodyStatement is returned when a stored procedure has a statement that is invalid inside of procedures.
	ErrProcedureInvalidBodyStatement = errors.NewKind("`%s` statements are invalid inside of stored procedures")

	// ErrExternalProcedureAmbiguousOverload is returned when an external stored procedure is overloaded and has two
	// functions with the same number of parameters.
	ErrExternalProcedureAmbiguousOverload = errors.NewKind("overloaded stored procedure `%s` may only have a single variant with `%d` parameters")

	// ErrExternalProcedureNonFunction is returned when an external stored procedure is given something other than the
	// expected function type.
	ErrExternalProcedureNonFunction = errors.NewKind("received `%T` in place of a function for an external stored procedure")

	// ErrExternalProcedureMissingContextParam is returned when an external stored procedure's first parameter is not
	// the context.
	ErrExternalProcedureMissingContextParam = errors.NewKind("external stored procedures require the first parameter to be the context")

	// ErrExternalProcedurePointerVariadic is returned when an external stored procedure's variadic parameter has a pointer type.
	ErrExternalProcedurePointerVariadic = errors.NewKind("an external stored procedures's variadiac parameter may not have a pointer type")

	// ErrExternalProcedureReturnTypes is returned when an external stored procedure's return types are incorrect.
	ErrExternalProcedureReturnTypes = errors.NewKind("external stored procedures must return a RowIter and error")

	// ErrExternalProcedureFirstReturn is returned when an external stored procedure's first return type is incorrect.
	ErrExternalProcedureFirstReturn = errors.NewKind("external stored procedures require the first return value to be the RowIter")

	// ErrExternalProcedureSecondReturn is returned when an external stored procedure's second return type is incorrect.
	ErrExternalProcedureSecondReturn = errors.NewKind("external stored procedures require the second return value to be the error")

	// ErrExternalProcedureInvalidParamType is returned when one of an external stored procedure's parameters have an
	// invalid type.
	ErrExternalProcedureInvalidParamType = errors.NewKind("external stored procedures do not support parameters with type `%s`")

	// ErrCallIncorrectParameterCount is returned when a CALL statement has the incorrect number of parameters.
	ErrCallIncorrectParameterCount = errors.NewKind("`%s` expected `%d` parameters but got `%d`")

	// ErrUnknownSystemVariable is returned when a query references a system variable that doesn't exist
	ErrUnknownSystemVariable = errors.NewKind(`Unknown system variable '%s'`)

	// ErrSystemVariableReadOnly is returned when attempting to set a value to a non-Dynamic system variable.
	ErrSystemVariableReadOnly = errors.NewKind(`Variable '%s' is a read only variable`)

	ErrSystemVariableReinitialized = errors.NewKind(`Variable '%s' was initialized more than 1x`)

	// ErrSystemVariableSessionOnly is returned when attempting to set a SESSION-only variable using SET GLOBAL.
	ErrSystemVariableSessionOnly = errors.NewKind(`Variable '%s' is a SESSION variable and can't be used with SET GLOBAL`)

	// ErrSystemVariableGlobalOnly is returned when attempting to set a GLOBAL-only variable using SET SESSION.
	ErrSystemVariableGlobalOnly = errors.NewKind(`Variable '%s' is a GLOBAL variable and should be set with SET GLOBAL`)

	// ErrUserVariableNoDefault is returned when attempting to set the default value on a user variable.
	ErrUserVariableNoDefault = errors.NewKind(`User variable '%s' does not have a default value`)

	// ErrInvalidUseOfOldNew is returned when a trigger attempts to make use of OLD or NEW references when they don't exist
	ErrInvalidUseOfOldNew = errors.NewKind("There is no %s row in on %s trigger")

	// ErrInvalidUpdateOfOldRow is returned when a trigger attempts to assign to an old row's value with SET
	ErrInvalidUpdateOfOldRow = errors.NewKind("Updating of old row is not allowed in trigger")

	// ErrInvalidUpdateInAfterTrigger is returned when a trigger attempts to assign to a new row in an AFTER trigger
	ErrInvalidUpdateInAfterTrigger = errors.NewKind("Updating of new row is not allowed in after trigger")

	// ErrUnknownColumn is returned when the given column is not found in referenced table
	ErrUnknownColumn = errors.NewKind("Unknown column '%s' in '%s'")

	// ErrUnboundPreparedStatementVariable is returned when a query is executed without a binding for one its variables.
	ErrUnboundPreparedStatementVariable = errors.NewKind(`unbound variable "%s" in query`)

	// ErrUnknownPreparedStatement is returned when an unknown query is executed.
	ErrUnknownPreparedStatement = errors.NewKind(`Unknown prepared statement handler (%s) given to EXECUTE`)

	// ErrTruncateReferencedFromForeignKey is returned when a table is referenced in a foreign key and TRUNCATE is called on it.
	ErrTruncateReferencedFromForeignKey = errors.NewKind("cannot truncate table %s as it is referenced in foreign key %s on table %s")

	// ErrInvalidColTypeDefinition is returned when a column type-definition has argument violations.
	ErrInvalidColTypeDefinition = errors.NewKind("column %s type definition is invalid: %s")

	// ErrDatabaseExists is returned when CREATE DATABASE attempts to create a database that already exists.
	ErrDatabaseExists = errors.NewKind("can't create database %s; database exists")

	// ErrInvalidConstraintFunctionNotSupported is returned when a CONSTRAINT CHECK is called with an unsupported function expression.
	ErrInvalidConstraintFunctionNotSupported = errors.NewKind("Invalid constraint expression, function not supported: %s")

	// ErrInvalidConstraintSubqueryNotSupported is returned when a CONSTRAINT CHECK is called with a sub-query expression.
	ErrInvalidConstraintSubqueryNotSupported = errors.NewKind("Invalid constraint expression, sub-queries not supported: %s")

	// ErrCheckConstraintViolated is returned when a CONSTRAINT CHECK is called with a sub-query expression.
	ErrCheckConstraintViolated = errors.NewKind("Check constraint %q violated")

	// ErrCheckConstraintInvalidatedByColumnAlter is returned when an alter column statement would invalidate a check constraint.
	ErrCheckConstraintInvalidatedByColumnAlter = errors.NewKind("can't alter column %q because it would invalidate check constraint %q")

	// ErrColumnCountMismatch is returned when a view, derived table or common table expression has a declared column
	// list with a different number of columns than the schema of the table.
	ErrColumnCountMismatch = errors.NewKind("In definition of view, derived table or common table expression, SELECT list and column names list have different column counts")

	// ErrUuidUnableToParse is returned when a UUID is unable to be parsed.
	ErrUuidUnableToParse = errors.NewKind("unable to parse '%s' to UUID: %s")

	// ErrLoadDataCannotOpen is returned when a LOAD DATA operation is unable to open the file specified.
	ErrLoadDataCannotOpen = errors.NewKind("LOAD DATA is unable to open file: %s")

	// ErrLoadDataCharacterLength is returned when a symbol is of the wrong character length for a LOAD DATA operation.
	ErrLoadDataCharacterLength = errors.NewKind("%s must be 1 character long")

	// ErrJSONObjectAggNullKey is returned when JSON_OBJECTAGG is run on a table with NULL keys
	ErrJSONObjectAggNullKey = errors.NewKind("JSON documents may not contain NULL member names")

	// ErrDeclareConditionOrderInvalid is returned when a DECLARE ... CONDITION statement is at an invalid location.
	ErrDeclareConditionOrderInvalid = errors.NewKind("DECLARE ... CONDITION may only exist at the beginning of a BEGIN/END block")

	// ErrDeclareVariableOrderInvalid is returned when a DECLARE statement, for variables, is at an invalid location.
	ErrDeclareVariableOrderInvalid = errors.NewKind("DECLARE variables may only exist at the beginning of a BEGIN/END block")

	// ErrDeclareCursorOrderInvalid is returned when a DECLARE ... CURSOR statement is at an invalid location.
	ErrDeclareCursorOrderInvalid = errors.NewKind("DECLARE ... CURSOR may only exist at the beginning of a BEGIN/END block, following all variables and conditions")

	// ErrDeclareHandlerOrderInvalid is returned when a DECLARE ... HANDLER statement is at an invalid location.
	ErrDeclareHandlerOrderInvalid = errors.NewKind("DECLARE ... HANDLER may only exist at the beginning of a BEGIN/END block, following all variables, conditions, and cursors")

	// ErrDeclareConditionNotFound is returned when SIGNAL/RESIGNAL references a non-existent DECLARE CONDITION.
	ErrDeclareConditionNotFound = errors.NewKind("condition %s does not exist")

	// ErrDeclareConditionDuplicate is returned when a DECLARE CONDITION statement with the same name was declared in the current scope.
	ErrDeclareConditionDuplicate = errors.NewKind("duplicate condition '%s'")

	// ErrDeclareVariableDuplicate is returned when a DECLARE statement reuses an existing variable name in the current scope.
	ErrDeclareVariableDuplicate = errors.NewKind("duplicate variable '%s'")

	// ErrDeclareCursorDuplicate is returned when a DECLARE ... CURSOR statement reuses an existing name in the current scope.
	ErrDeclareCursorDuplicate = errors.NewKind("duplicate cursor '%s'")

	// ErrDeclareHandlerDuplicate is returned when a DECLARE ... HANDLER statement has a duplicate in the same block.
	ErrDeclareHandlerDuplicate = errors.NewKind("duplicate handler declared in the same block")

	// ErrDeclareHandlerUndo is returned when a DECLARE ... HANDLER statement has the UNDO action, which is currently unsupported.
	ErrDeclareHandlerUndo = errors.NewKind("DECLARE ... HANDLER does not support the UNDO action")

	// ErrLoopRedefinition is returned when a loop with the same label has already been declared in the current block.
	ErrLoopRedefinition = errors.NewKind("redefining label '%s'")

	// ErrLoopLabelNotFound is returned when a control flow statement references a non-existent loop.
	ErrLoopLabelNotFound = errors.NewKind("%s with no matching label: '%s'")

	// ErrCursorNotFound is returned when a CURSOR cannot be found.
	ErrCursorNotFound = errors.NewKind("cursor '%s' does not exist")

	// ErrCursorAlreadyOpen is returned when a CURSOR is already open.
	ErrCursorAlreadyOpen = errors.NewKind("cursor '%s' is already open")

	// ErrCursorNotOpen is returned when a CURSOR has not yet been opened.
	ErrCursorNotOpen = errors.NewKind("cursor '%s' is not open")

	// ErrFetchIncorrectCount is returned when a FETCH does not use the correct number of variables.
	ErrFetchIncorrectCount = errors.NewKind("incorrect number of FETCH variables")

	// ErrSignalOnlySqlState is returned when SIGNAL/RESIGNAL references a DECLARE CONDITION for a MySQL error code.
	ErrSignalOnlySqlState = errors.NewKind("SIGNAL/RESIGNAL can only use a condition defined with SQLSTATE")

	// ErrExpectedSingleRow is returned when a subquery executed in normal queries or aggregation function returns
	// more than 1 row without an attached IN clause.
	ErrExpectedSingleRow = errors.NewKind("the subquery returned more than 1 row")

	// ErrUnknownConstraint is returned when a DROP CONSTRAINT statement refers to a constraint that doesn't exist
	ErrUnknownConstraint = errors.NewKind("Constraint %q does not exist")

	// ErrInsertIntoNonNullableDefaultNullColumn is returned when an INSERT excludes a field which is non-nullable and has no default/autoincrement.
	ErrInsertIntoNonNullableDefaultNullColumn = errors.NewKind("Field '%s' doesn't have a default value")

	// ErrAlterTableNotSupported is thrown when the table doesn't support ALTER TABLE statements
	ErrAlterTableNotSupported = errors.NewKind("table %s cannot be altered")

	// ErrPartitionNotFound is thrown when a partition key on a table is not found
	ErrPartitionNotFound = errors.NewKind("partition not found %q")

	// ErrInsertIntoNonNullableProvidedNull is called when a null value is inserted into a non-nullable column
	ErrInsertIntoNonNullableProvidedNull = errors.NewKind("column name '%v' is non-nullable but attempted to set a value of null")

	// ErrForeignKeyChildViolation is called when a rows is added but there is no parent row, and a foreign key constraint fails. Add the parent row first.
	ErrForeignKeyChildViolation = errors.NewKind("cannot add or update a child row - Foreign key violation on fk: `%s`, table: `%s`, referenced table: `%s`, key: `%s`")

	// ErrForeignKeyParentViolation is called when a parent row that is deleted has children, and a foreign key constraint fails. Delete the children first.
	ErrForeignKeyParentViolation = errors.NewKind("cannot delete or update a parent row - Foreign key violation on fk: `%s`, table: `%s`, referenced table: `%s`, key: `%s`")

	// ErrForeignKeyColumnCountMismatch is called when the declared column and referenced column counts do not match.
	ErrForeignKeyColumnCountMismatch = errors.NewKind("the foreign key must reference an equivalent number of columns")

	// ErrForeignKeyColumnTypeMismatch is returned when the declared column's type and referenced column's type do not match.
	ErrForeignKeyColumnTypeMismatch = errors.NewKind("column type mismatch on `%s` and `%s`")

	// ErrForeignKeyNotResolved is called when an add or update is attempted on a foreign key that has not been resolved yet.
	ErrForeignKeyNotResolved = errors.NewKind("cannot add or update a child row: a foreign key constraint fails (`%s`.`%s`, CONSTRAINT `%s` FOREIGN KEY (`%s`) REFERENCES `%s` (`%s`))")

	// ErrNoForeignKeySupport is returned when the table does not support FOREIGN KEY operations.
	ErrNoForeignKeySupport = errors.NewKind("the table does not support foreign key operations: %s")

	// ErrForeignKeyMissingColumns is returned when an ALTER TABLE ADD FOREIGN KEY statement does not provide any columns
	ErrForeignKeyMissingColumns = errors.NewKind("cannot create a foreign key without columns")

	// ErrForeignKeyDropColumn is returned when attempting to drop a column used in a foreign key
	ErrForeignKeyDropColumn = errors.NewKind("cannot drop column `%s` as it is used in foreign key `%s`")

	// ErrForeignKeyDropTable is returned when attempting to drop a table used in a foreign key
	ErrForeignKeyDropTable = errors.NewKind("cannot drop table `%s` as it is referenced in foreign key `%s`")

	// ErrForeignKeyDropIndex is returned when attempting to drop an index used in a foreign key when there are no other
	// indexes which may be used in its place.
	ErrForeignKeyDropIndex = errors.NewKind("cannot drop index: `%s` is used by foreign key `%s`")

	// ErrForeignKeyDuplicateName is returned when a foreign key already exists with the given name.
	ErrForeignKeyDuplicateName = errors.NewKind("duplicate foreign key constraint name `%s`")

	// ErrAddForeignKeyDuplicateColumn is returned when an ALTER TABLE ADD FOREIGN KEY statement has the same column multiple times
	ErrAddForeignKeyDuplicateColumn = errors.NewKind("cannot have duplicates of columns in a foreign key: `%v`")

	// ErrTemporaryTablesForeignKeySupport is returned when a user tries to create a temporary table with a foreign key
	ErrTemporaryTablesForeignKeySupport = errors.NewKind("temporary tables do not support foreign keys")

	// ErrForeignKeyNotFound is returned when a foreign key was not found.
	ErrForeignKeyNotFound = errors.NewKind("foreign key `%s` was not found on the table `%s`")

	// ErrForeignKeySetDefault is returned when attempting to set a referential action as SET DEFAULT.
	ErrForeignKeySetDefault = errors.NewKind(`"SET DEFAULT" is not supported`)

	// ErrForeignKeySetNullNonNullable is returned when attempting to set a referential action as SET NULL when the
	// column is non-nullable.
	ErrForeignKeySetNullNonNullable = errors.NewKind("cannot use SET NULL as column `%s` is non-nullable")

	// ErrForeignKeyTypeChangeSetNull is returned when attempting to change a column's type to disallow NULL values when
	// a foreign key referential action is SET NULL.
	ErrForeignKeyTypeChangeSetNull = errors.NewKind("column `%s` must allow NULL values as foreign key `%s` has SET NULL")

	// ErrForeignKeyMissingReferenceIndex is returned when the referenced columns in a foreign key do not have an index.
	ErrForeignKeyMissingReferenceIndex = errors.NewKind("missing index for foreign key `%s` on the referenced table `%s`")

	// ErrForeignKeyTextBlob is returned when a TEXT or BLOB column is used in a foreign key, which are not valid types.
	ErrForeignKeyTextBlob = errors.NewKind("TEXT/BLOB are not valid types for foreign keys")

	// ErrForeignKeyTypeChange is returned when attempting to change the type of some column used in a foreign key.
	ErrForeignKeyTypeChange = errors.NewKind("unable to change type of column `%s` as it is used by foreign keys")

	// ErrForeignKeyDepthLimit is returned when the CASCADE depth limit has been reached.
	ErrForeignKeyDepthLimit = errors.NewKind("Foreign key cascade delete/update exceeds max depth of 15.")

	// ErrDuplicateEntry is returns when a duplicate entry is placed on an index such as a UNIQUE or a Primary Key.
	ErrDuplicateEntry = errors.NewKind("Duplicate entry for key '%s'")

	// ErrInvalidArgument is returned when an argument to a function is invalid.
	ErrInvalidArgument = errors.NewKind("Invalid argument to %s")

	// ErrInvalidArgumentType is thrown when a function receives invalid argument types
	ErrInvalidArgumentType = errors.NewKind("function '%s' received invalid argument types")

	// ErrInvalidArgumentDetails is returned when the argument is invalid with details of a specific function
	ErrInvalidArgumentDetails = errors.NewKind("Invalid argument to %s: %s")

	// ErrSavepointDoesNotExist is returned when a RELEASE SAVEPOINT or ROLLBACK TO SAVEPOINT statement references a
	// non-existent savepoint identifier
	ErrSavepointDoesNotExist = errors.NewKind("SAVEPOINT %s does not exist")

	// ErrTemporaryTableNotSupported is thrown when an integrator attempts to create a temporary tables without temporary table
	// support.
	ErrTemporaryTableNotSupported = errors.NewKind("database does not support temporary tables")

	// ErrInvalidSyntax is returned for syntax errors that aren't picked up by the parser, e.g. the wrong type of
	// expression used in part of statement.
	ErrInvalidSyntax = errors.NewKind("Invalid syntax: %s")

	// ErrTableCopyingNotSupported is returned when a table invokes the TableCopierDatabase interface's
	// CopyTableData method without supporting the interface
	ErrTableCopyingNotSupported = errors.NewKind("error: Table copying not supported")

	// ErrMultiplePrimaryKeysDefined is returned when a table invokes CreatePrimaryKey with a primary key already
	// defined.
	ErrMultiplePrimaryKeysDefined = errors.NewKind("error: Multiple primary keys defined")

	// ErrWrongAutoKey is returned when a table invokes DropPrimaryKey without first removing the auto increment property
	// (if it exists) on it.
	ErrWrongAutoKey = errors.NewKind("error: incorrect table definition: there can be only one auto column and it must be defined as a key")

	// ErrKeyColumnDoesNotExist is returned when a table invoked CreatePrimaryKey with a non-existent column.
	ErrKeyColumnDoesNotExist = errors.NewKind("error: key column '%s' doesn't exist in table")

	// ErrCantDropFieldOrKey is returned when a table invokes DropPrimaryKey on a keyless table.
	ErrCantDropFieldOrKey = errors.NewKind("error: can't drop '%s'; check that column/key exists")

	// ErrCantDropIndex is return when a table can't drop an index due to a foreign key relationship.
	ErrCantDropIndex = errors.NewKind("error: can't drop index '%s': needed in foreign key constraint %s")

	// ErrImmutableDatabaseProvider is returned when attempting to edit an immutable database databaseProvider.
	ErrImmutableDatabaseProvider = errors.NewKind("error: can't modify database databaseProvider")

	// ErrInvalidValue is returned when a given value does not match what is expected.
	ErrInvalidValue = errors.NewKind(`error: '%v' is not a valid value for '%v'`)

	// ErrInvalidValueType is returned when a given value's type does not match what is expected.
	ErrInvalidValueType = errors.NewKind(`error: '%T' is not a valid value type for '%v'`)

	// ErrFunctionNotFound is thrown when a function is not found
	ErrFunctionNotFound = errors.NewKind("function: '%s' not found")

	// ErrConflictingExternalQuery is thrown when a scope's parent has a conflicting sort or limit node
	ErrConflictingExternalQuery = errors.NewKind("found external scope with conflicting ORDER BY/LIMIT")

	// ErrTableFunctionNotFound is thrown when a table function is not found
	ErrTableFunctionNotFound = errors.NewKind("table function: '%s' not found")

	// ErrNonAggregatedColumnWithoutGroupBy is thrown when an aggregate function is used with the implicit, all-rows
	// grouping and another projected expression contains a non-aggregated column.
	// MySQL error code: 1140, SQL state: 42000
	ErrNonAggregatedColumnWithoutGroupBy = errors.NewKind("in aggregated query without GROUP BY, expression #%d of SELECT list contains nonaggregated column '%s'; " +
		"this is incompatible with sql_mode=only_full_group_by")

	// ErrInvalidArgumentNumber is returned when the number of arguments to call a
	// function is different from the function arity.
	ErrInvalidArgumentNumber = errors.NewKind("function '%s' expected %v arguments, %v received")

	// ErrDatabaseNotFound is thrown when a database is not found
	ErrDatabaseNotFound = errors.NewKind("database not found: %s")

	// ErrNoDatabaseSelected is thrown when a database is not selected and the query requires one
	ErrNoDatabaseSelected = errors.NewKind("no database selected")

	// ErrAsOfNotSupported is thrown when an AS OF query is run on a database that can't support it
	ErrAsOfNotSupported = errors.NewKind("AS OF not supported for database %s")

	// ErrIncompatibleAsOf is thrown when an AS OF clause is used in an incompatible manner, such as when using an AS OF
	// expression with a view when the view definition has its own AS OF expressions.
	ErrIncompatibleAsOf = errors.NewKind("incompatible use of AS OF: %s")

	// ErrPidAlreadyUsed is returned when the pid is already registered.
	ErrPidAlreadyUsed = errors.NewKind("pid %d is already in use")

	// ErrInvalidOperandColumns is returned when the columns in the left
	// operand and the elements of the right operand don't match. Also
	// returned for invalid number of columns in projections, filters,
	// joins, etc.
	ErrInvalidOperandColumns = errors.NewKind("operand should have %d columns, but has %d")

	// ErrReadOnlyTransaction is returned when a write query is executed in a READ ONLY transaction.
	ErrReadOnlyTransaction = errors.NewKind("cannot execute statement in a READ ONLY transaction")

	// ErrLockDeadlock is the go-mysql-server equivalent of ER_LOCK_DEADLOCK. Transactions throwing this error
	// are automatically rolled back. Clients receiving this error must retry the transaction.
	ErrLockDeadlock = errors.NewKind("serialization failure: %s, try restarting transaction.")

	// ErrExistingView is returned when a CREATE VIEW statement uses a name that already exists
	ErrExistingView = errors.NewKind("the view %s.%s already exists")

	// ErrViewDoesNotExist is returned when a DROP VIEW statement drops a view that does not exist
	ErrViewDoesNotExist = errors.NewKind("the view %s.%s does not exist")

	// ErrSessionDoesNotSupportPersistence is thrown when a feature is not already supported
	ErrSessionDoesNotSupportPersistence = errors.NewKind("session does not support persistence")

	// ErrInvalidGISData is thrown when a "ST_<spatial_type>FromText" function receives a malformed string
	ErrInvalidGISData = errors.NewKind("invalid GIS data provided to function %s")

	// ErrIllegalGISValue is thrown when a spatial type constructor receives a non-geometric when one should be provided
	ErrIllegalGISValue = errors.NewKind("illegal non geometric '%v' value found during parsing")

	// ErrDiffSRIDs is thrown when comparing two spatial types that have different SRIDs when they should be the same
	ErrDiffSRIDs = errors.NewKind("binary geometry function %s given two geometries of different srids: %v and %v, which should have been identical")

	// ErrUnsupportedSRID is thrown for spatial functions over unsupported SRIDs
	ErrUnsupportedSRID = errors.NewKind("SRID %v has not been implemented for geographic spatial reference systems.")

	// ErrSRIDOnNonGeomCol is thrown when attempting to define SRID over a non-geometry column
	ErrSRIDOnNonGeomCol = errors.NewKind("incorrect usage of SRID and non-geometry column")

	// ErrTooManyKeyParts is thrown when creating an index with too many columns
	ErrTooManyKeyParts = errors.NewKind("too many key parts specified; max %d parts allowed")

	// ErrNullableSpatialIdx is thrown when creating a SPATIAL index with a nullable column
	ErrNullableSpatialIdx = errors.NewKind("All parts of a SPATIAL index must be NOT NULL")

	// ErrBadSpatialIdxCol is thrown when attempting to define a SPATIAL index over a non-geometry column
	ErrBadSpatialIdxCol = errors.NewKind("a SPATIAL index may only contain a geometrical type column")

	// ErrUnsupportedSpatialIdx is thrown when attempting to create a SPATIAL index
	// TODO: remove this error when spatial index are created
	ErrUnsupportedSpatialIdx = errors.NewKind("unsupported index type: SPATIAL")

	// ErrUnsupportedGISTypeForSpatialFunc is a temporary error because geometry is hard
	// TODO: remove this error when all types are full supported by spatial type functions
	ErrUnsupportedGISTypeForSpatialFunc = errors.NewKind("unsupported spatial type: %s for function %s")

	// ErrUnsupportedGISType is thrown when attempting to convert an unsupported geospatial value to a geometry struct
	ErrUnsupportedGISType = errors.NewKind("unsupported geospatial type: %s from value: 0x%s")

	// ErrUnsupportedSyntax is returned when syntax that parses correctly is not supported
	ErrUnsupportedSyntax = errors.NewKind("unsupported syntax: %s")

	// ErrInvalidSQLValType is returned when a SQL value is of the incorrect type during parsing
	ErrInvalidSQLValType = errors.NewKind("invalid SQLVal of type: %d")

	// ErrUnknownIndexColumn is returned when a column in an index is not in the table
	ErrUnknownIndexColumn = errors.NewKind("unknown column: '%s' in index '%s'")

	// ErrInvalidAutoIncCols is returned when an auto_increment column cannot be applied
	ErrInvalidAutoIncCols = errors.NewKind("there can be only one auto_increment column and it must be defined as a key")

	// ErrUnknownConstraintDefinition is returned when an unknown constraint type is used
	ErrUnknownConstraintDefinition = errors.NewKind("unknown constraint definition: %s, %T")

	// ErrInvalidCheckConstraint is returned when a check constraint is defined incorrectly
	ErrInvalidCheckConstraint = errors.NewKind("invalid constraint definition: %s")

	// ErrUserCreationFailure is returned when attempting to create a user and it fails for any reason.
	ErrUserCreationFailure = errors.NewKind("Operation CREATE USER failed for %s")

	// ErrRoleCreationFailure is returned when attempting to create a role and it fails for any reason.
	ErrRoleCreationFailure = errors.NewKind("Operation CREATE ROLE failed for %s")

	// ErrUserDeletionFailure is returned when attempting to create a user and it fails for any reason.
	ErrUserDeletionFailure = errors.NewKind("Operation DROP USER failed for %s")

	// ErrRoleDeletionFailure is returned when attempting to create a role and it fails for any reason.
	ErrRoleDeletionFailure = errors.NewKind("Operation DROP ROLE failed for %s")

	// ErrDatabaseAccessDeniedForUser is returned when attempting to access a database that the user does not have
	// permission for, regardless of whether that database actually exists.
	ErrDatabaseAccessDeniedForUser = errors.NewKind("Access denied for user %s to database '%s'")

	// ErrTableAccessDeniedForUser is returned when attempting to access a table that the user does not have permission
	// for, regardless of whether that table actually exists.
	ErrTableAccessDeniedForUser = errors.NewKind("Access denied for user %s to table '%s'")

	// ErrPrivilegeCheckFailed is returned when a user does not have the correct privileges to perform an operation.
	ErrPrivilegeCheckFailed = errors.NewKind("command denied to user %s")

	// ErrGrantUserDoesNotExist is returned when a user does not exist when attempting to grant them privileges.
	ErrGrantUserDoesNotExist = errors.NewKind("You are not allowed to create a user with GRANT")

	// ErrRevokeUserDoesNotExist is returned when a user does not exist when attempting to revoke privileges from them.
	ErrRevokeUserDoesNotExist = errors.NewKind("There is no such grant defined for user '%s' on host '%s'")

	// ErrGrantRevokeRoleDoesNotExist is returned when a user or role does not exist when attempting to grant or revoke roles.
	ErrGrantRevokeRoleDoesNotExist = errors.NewKind("Unknown authorization ID %s")

	// ErrShowGrantsUserDoesNotExist is returned when a user does not exist when attempting to show their grants.
	ErrShowGrantsUserDoesNotExist = errors.NewKind("There is no such grant defined for user '%s' on host '%s'")

	// ErrInvalidRecursiveCteUnion is returned when a recursive CTE is not a UNION or UNION ALL node.
	ErrInvalidRecursiveCteUnion = errors.NewKind("recursive cte top-level query must be a union; found: %v")

	// ErrInvalidRecursiveCteInitialQuery is returned when the recursive CTE base clause is not supported.
	ErrInvalidRecursiveCteInitialQuery = errors.NewKind("recursive cte initial query must be non-recursive projection; found: %v")

	// ErrInvalidRecursiveCteRecursiveQuery is returned when the recursive CTE recursion clause is not supported.
	ErrInvalidRecursiveCteRecursiveQuery = errors.NewKind("recursive cte recursive query must be a recursive projection; found: %v")

	// ErrCteRecursionLimitExceeded is returned when a recursive CTE's execution stack depth exceeds the static limit.
	ErrCteRecursionLimitExceeded = errors.NewKind("WITH RECURSIVE iteration limit exceeded")

	// ErrGrantRevokeIllegalPrivilege is returned when a GRANT or REVOKE statement is malformed, or attempts to use privilege incorrectly.
	ErrGrantRevokeIllegalPrivilege = errors.NewKind("Illegal GRANT/REVOKE command")

	// ErrGrantRevokeIllegalPrivilegeWithMessage is returned when a GRANT or REVOKE statement is malformed, or attempts
	// to use privilege incorrectly and an additional message needs to be provided to the user.
	ErrGrantRevokeIllegalPrivilegeWithMessage = errors.NewKind("Illegal GRANT/REVOKE command: %s")

	// ErrInvalidWindowInheritance is returned when a window and its dependency contains conflicting partitioning, ordering, or framing clauses
	ErrInvalidWindowInheritance = errors.NewKind("window '%s' cannot inherit '%s' since %s")

	// ErrCircularWindowInheritance is returned when a WINDOW clause has a circular dependency
	ErrCircularWindowInheritance = errors.NewKind("there is a circularity in the window dependency graph")

	// ErrCannotCopyWindowFrame is returned when we inherit a window frame with a frame clause (replacement without parenthesis is OK)
	ErrCannotCopyWindowFrame = errors.NewKind("cannot copy window '%s' because it has a frame clause")

	// ErrUnknownWindowName is returned when an over by clause references an unknown window definition
	ErrUnknownWindowName = errors.NewKind("named window not found: '%s'")

	// ErrUnexpectedNilRow is returned when an invalid operation is applied to an empty row
	ErrUnexpectedNilRow = errors.NewKind("unexpected nil row")

	// ErrMoreThanOneRow is returned when the result consists of multiple rows, when only one row is expected
	ErrMoreThanOneRow = errors.NewKind("Result consisted of more than one row")

	// ErrColumnNumberDoesNotMatch is returned when the number of columns in result does not match expected number of variables
	ErrColumnNumberDoesNotMatch = errors.NewKind("The used SELECT statements have a different number of columns")

	// ErrUnsupportedJoinFactorCount is returned for a query with more commutable join tables than we support
	ErrUnsupportedJoinFactorCount = errors.NewKind("unsupported join factor count: expected fewer than %d tables, found %d")

	// ErrNotMatchingSRID is returned for SRID values not matching
	ErrNotMatchingSRID = errors.NewKind("The SRID of the geometry is %v, but the SRID of the column is %v. Consider changing the SRID of the geometry or the SRID property of the column.")

	// ErrNotMatchingSRIDWithColName is returned for error of SRID values not matching with column name detail
	ErrNotMatchingSRIDWithColName = errors.NewKind("The SRID of the geometry does not match the SRID of the column '%s'. %v")

	// ErrSpatialTypeConversion is returned when one spatial type cannot be converted to the other spatial type
	ErrSpatialTypeConversion = errors.NewKind("Cannot get geometry object from data you sent to the GEOMETRY field")

	// ErrUnsupportedIndexPrefix is returned for an index on a string column with a prefix
	ErrUnsupportedIndexPrefix = errors.NewKind("prefix index on string column '%s' unsupported")

	// ErrInvalidIndexPrefix is returned for an index prefix on a non-string column, or the prefix is longer than string itself, or just unsupported
	ErrInvalidIndexPrefix = errors.NewKind("incorrect prefix key '%s'; the used key part isn't a string, the used length is longer than the key part, or the storage engine doesn't support unique prefix keys")

	// ErrInvalidBlobTextKey is returned for an index on a blob or text column with no key length specified
	ErrInvalidBlobTextKey = errors.NewKind("blob/text column '%s' used in key specification without a key length")

	// ErrKeyTooLong is returned for an index on a blob or text column that is longer than 3072 bytes
	ErrKeyTooLong = errors.NewKind("specified key was too long; max key length is 3072 bytes")

	// ErrKeyZero is returned for an index on a blob or text column that is 0 in length
	ErrKeyZero = errors.NewKind("key part '%s' length cannot be 0")

	// ErrDatabaseWriteLocked is returned when a database is locked in read-only mode to avoid
	// conflicts with an active server
	ErrDatabaseWriteLocked = errors.NewKind("database is locked to writes")

	// ErrCollationMalformedString is returned when a malformed string is encountered during a collation-related operation.
	ErrCollationMalformedString = errors.NewKind("malformed string encountered while %s")

	// ErrCollatedExprWrongType is returned when the wrong type is given to a CollatedExpression.
	ErrCollatedExprWrongType = errors.NewKind("wrong type in collated expression")

	// ErrCollationInvalidForCharSet is returned when the wrong collation is given for the character set when parsing.
	ErrCollationInvalidForCharSet = errors.NewKind("COLLATION '%s' is not valid for CHARACTER SET '%s'")

	// ErrCollationUnknown is returned when the collation is not a recognized MySQL collation.
	ErrCollationUnknown = errors.NewKind("Unknown collation: %v")

	// ErrCollationNotYetImplementedTemp is returned when the collation is valid but has not yet been implemented.
	// This error is temporary, and will be removed once all collations have been added.
	ErrCollationNotYetImplementedTemp = errors.NewKind("The collation `%s` has not yet been implemented, " +
		"please create an issue at https://github.com/gabereiser/go-mysql-server/issues/new and the DoltHub developers will implement it")

	// ErrCollationIllegalMix is returned when two different collations are used in a scenario where they are not compatible.
	ErrCollationIllegalMix = errors.NewKind("Illegal mix of collations (%v) and (%v)")

	// ErrCharSetIntroducer is returned when a character set introducer is not attached to a string
	ErrCharSetIntroducer = errors.NewKind("CHARACTER SET introducer must be attached to a string")

	// ErrCharSetInvalidString is returned when an invalid string is given for a character set.
	ErrCharSetInvalidString = errors.NewKind("invalid string for character set `%s`: \"%s\"")

	// ErrCharSetFailedToEncode is returned when a character set fails encoding
	ErrCharSetFailedToEncode = errors.NewKind("failed to encode `%s`")

	// ErrCharSetUnknown is returned when the character set is not a recognized MySQL character set
	ErrCharSetUnknown = errors.NewKind("Unknown character set: %v")

	// ErrCharSetNotYetImplementedTemp is returned when the character set is valid but has not yet been implemented.
	// This error is temporary, and will be removed once all character sets have been added.
	ErrCharSetNotYetImplementedTemp = errors.NewKind("The character set `%s` has not yet been implemented, " +
		"please create an issue at https://github.com/gabereiser/go-mysql-server/issues/new and the DoltHub developers will implement it")

	// ErrNoTablesUsed is returned when there is no table provided or dual table is defined with column access.
	ErrNoTablesUsed = errors.NewKind("No tables used")

	// ErrInvalidJson is returned when a JSON string doesn't represent valid JSON.
	ErrInvalidJson = errors.NewKind("Invalid JSON text: %s")

	// ErrNoAutoIncrementCol is returned when there is no auto increment column defined on a table.
	ErrNoAutoIncrementCol = fmt.Errorf("this table has no AUTO_INCREMENT columns")

	// ErrValueOutOfRange is returned when a value is out of range for a type.
	ErrValueOutOfRange = errors.NewKind("%v out of range for %v")

	ErrConvertingToSet   = errors.NewKind("value %v is not valid for this set")
	ErrDuplicateEntrySet = errors.NewKind("duplicate entry: %v")
	ErrInvalidSetValue   = errors.NewKind("value %v was not found in the set")
	ErrTooLargeForSet    = errors.NewKind(`value "%v" is too large for this set`)
	ErrNotPoint          = errors.NewKind("value of type %T is not a point")
	ErrNotLineString     = errors.NewKind("value of type %T is not a linestring")

	// ErrMergeJoinExpectsComparerFilters is returned when we attempt to build a merge join with an invalid filter.
	ErrMergeJoinExpectsComparerFilters = errors.NewKind("merge join expects expression.Comparer filters, found: %T")

	// ErrNoJoinFilters is returned when we attempt to build a filtered join without filters
	ErrNoJoinFilters = errors.NewKind("join expected non-nil filters")

	// ErrDroppedJoinFilters is returned when we removed filters from a join, but failed to re-insert them
	ErrDroppedJoinFilters = errors.NewKind("dropped filters from join, but failed to re-insert them")
)
View Source 
var (
	ErrInvalidColExpr      = errors.NewKind("the expression `%s` could not be found from the index `%s`")
	ErrRangeSimplification = errors.NewKind("attempting to simplify ranges has removed all ranges")
	ErrInvalidRangeType    = errors.NewKind("encountered the RangeType_Invalid")
)
View Source 
var (
	// ErrIndexIDAlreadyRegistered is the error returned when there is already
	// an index with the same ID.
	ErrIndexIDAlreadyRegistered = errors.NewKind("an index with id %q has already been registered")

	// ErrIndexExpressionAlreadyRegistered is the error returned when there is
	// already an index with the same expression.
	ErrIndexExpressionAlreadyRegistered = errors.NewKind("there is already an index registered for the expressions: %s")

	// ErrIndexNotFound is returned when the index could not be found.
	ErrIndexNotFound = errors.NewKind("index %q	was not found")

	// ErrIndexDeleteInvalidStatus is returned when the index trying to delete
	// does not have a ready or outdated state.
	ErrIndexDeleteInvalidStatus = errors.NewKind("can't delete index %q because it's not ready for removal")
)
View Source 
var (
	// ErrNodeNotWritten is returned when the children are printed before the node.
	ErrNodeNotWritten = errors.New("treeprinter: a child was written before the node")
	// ErrNodeAlreadyWritten is returned when the node has already been written.
	ErrNodeAlreadyWritten = errors.New("treeprinter: node already written")
	// ErrChildrenAlreadyWritten is returned when the children have already been written.
	ErrChildrenAlreadyWritten = errors.New("treeprinter: children already written")
)
View Source 
var (
	// ErrNotTuple is returned when the value is not a tuple.
	ErrNotTuple = errors.NewKind("value of type %T is not a tuple")

	// ErrInvalidColumnNumber is returned when a tuple has an invalid number of
	// arguments.
	ErrInvalidColumnNumber = errors.NewKind("tuple should contain %d column(s), but has %d")

	ErrInvalidBaseType = errors.NewKind("%v is not a valid %v base type")

	// ErrConvertToSQL is returned when Convert failed.
	// It makes an error less verbose comparing to what spf13/cast returns.
	ErrConvertToSQL = errors.NewKind("incompatible conversion to SQL type: %s")
)
View Source 
var ErrCannotAddToClosedBackgroundThreads = errors.New("cannot add to a close background threads instance")
View Source 
var ErrKeyNotFound = errors.NewKind("memory: key %d not found in cache")

ErrKeyNotFound is returned when the key could not be found in the cache.

View Source 
var ErrLockDoesNotExist = errors.NewKind("Lock '%s' does not exist.")

ErrLockDoesNotExist is the kind of error returned when a named lock does not exist and the operation does not created it

View Source 
var ErrLockNotOwned = errors.NewKind("Operation '%s' failed as the lock '%s' has a different owner.")

ErrLockNotOwned is the kind of error returned when attempting an operation against a lock that the given context does not own.

View Source 
var ErrLockTimeout = errors.NewKind("Timeout acquiring lock '%s'.")

ErrLockTimeout is the kind of error returned when acquiring a lock takes longer than the user specified timeout

View Source 
var ErrNoMemoryAvailable = errors.NewKind("no memory available")

ErrNoMemoryAvailable is returned when there is no more available memory.

View Source 
var ErrUnableSort = errors.NewKind("unable to sort")

ErrUnableSort is thrown when something happens on sorting

View Source 
var (
	// ErrUnexpectedType is thrown when a received type is not the expected
	ErrUnexpectedType = errors.NewKind("value at %d has unexpected type: %s")
)
View Source 
var NoopTracer = trace.NewNoopTracerProvider().Tracer("github.com/gabereiser/go-mysql-server/sql")
View Source 
var SupportedCharsets = []CharacterSetID{
	CharacterSet_utf8mb4,
}

SupportedCharsets contains all non-binary character sets that are currently supported.

View Source 
var SupportedEngines = []Engine{
	{Name: "InnoDB", /* contains filtered or unexported fields */},
}

Functions

func CastSQLError 

func CastSQLError(err error) *mysql.SQLError

CastSQLError returns a *mysql.SQLError with the error code and in some cases, also a SQL state, populated for the specified error object. Using this method enables Vitess to return an error code, instead of just "unknown error". Many tools (e.g. ORMs, SQL workbenches) rely on this error metadata to work correctly. If the specified error is nil, nil will be returned. If the error is already of type *mysql.SQLError, the error will be returned as is.

func DBTableIter 

func DBTableIter(ctx *Context, db Database, cb func(Table) (cont bool, err error)) error

DBTableIter iterates over all tables returned by db.GetTableNames() calling cb for each one until all tables have been processed, or an error is returned from the callback, or the cont flag is false when returned from the callback.

func DebugString 

func DebugString(nodeOrExpression interface{}) string

DebugString returns a debug string for the Node or Expression given.

func Dispose 

func Dispose(i interface{})

func EvaluateCondition 

func EvaluateCondition(ctx *Context, cond Expression, row Row) (interface{}, error)

EvaluateCondition evaluates a condition, which is an expression whose value will be nil or coerced boolean.

func FormatRow 

func FormatRow(row Row) string

FormatRow returns a formatted string representing this row's values

func GenerateCreateTableCheckConstraintClause 

func GenerateCreateTableCheckConstraintClause(checkName, checkExpr string, enforced bool) string

GenerateCreateTableCheckConstraintClause returns check constraint clause string for 'CREATE TABLE' statement for given check constraint. This part comes the last and after foreign key definitions if there are any.

func GenerateCreateTableColumnDefinition 

func GenerateCreateTableColumnDefinition(colName string, colType Type, nullable bool, autoInc bool, hasDefault bool, colDefault string, comment string) string

GenerateCreateTableColumnDefinition returns column definition string for 'CREATE TABLE' statement for given column. This part comes first in the 'CREATE TABLE' statement.

func GenerateCreateTableForiegnKeyDefinition 

func GenerateCreateTableForiegnKeyDefinition(fkName string, fkCols []string, parentTbl string, parentCols []string, onDelete, onUpdate string) string

GenerateCreateTableForiegnKeyDefinition returns foreign key constraint definition string for 'CREATE TABLE' statement for given foreign key. This part comes after index definitions if there are any.

func GenerateCreateTableIndexDefinition 

func GenerateCreateTableIndexDefinition(isUnique, isSpatial bool, indexID string, indexCols []string, comment string) string

GenerateCreateTableIndexDefinition returns index definition string for 'CREATE TABLE' statement for given index. This part comes after primary key definition if there is any.

func GenerateCreateTablePrimaryKeyDefinition 

func GenerateCreateTablePrimaryKeyDefinition(pkCols []string) string

GenerateCreateTablePrimaryKeyDefinition returns primary key definition string for 'CREATE TABLE' statement for given column(s). This part comes after each column definitions.

func GenerateCreateTableStatement 

func GenerateCreateTableStatement(tblName string, colStmts []string, tblCharsetName, tblCollName string) string

GenerateCreateTableStatement returns 'CREATE TABLE' statement with given table names and column definition statements in order and the collation and character set names for the table

func GetRangeCutKey 

func GetRangeCutKey(c RangeCut) interface{}

GetRangeCutKey returns the inner value from the given RangeCut.

func GetTableNameInsensitive 

func GetTableNameInsensitive(tblName string, tableNames []string) (string, bool)

GetTableNameInsensitive implements a case-insensitive search of a slice of table names. It looks for exact matches first. If no exact matches are found then any table matching the name case insensitively should be returned. If there is more than one table that matches a case-insensitive comparison the resolution strategy is not defined.

func GetTmpdirSessionVar 

func GetTmpdirSessionVar() string

cc: https://dev.mysql.com/doc/refman/8.0/en/temporary-files.html

func HasAvailableMemory 

func HasAvailableMemory(r Reporter) bool

HasAvailableMemory reports whether more memory is available to the program if it hasn't reached the max memory limit.

func HasDefaultValue 

func HasDefaultValue(ctx *Context, s Session, key string) (bool, interface{})

HasDefaultValue checks if session variable value is the default one.

func HashOf 

func HashOf(v Row) (uint64, error)

HashOf returns a hash of the given value to be used as key in a cache.

func Inspect 

func Inspect(expr Expression, f func(expr Expression) bool)

Inspect traverses the plan in depth-first order: It starts by calling f(expr); expr must not be nil. If f returns true, Inspect invokes f recursively for each of the children of expr, followed by a call of f(nil).

func IsFalse 

func IsFalse(val interface{}) bool

IsFalse coerces EvaluateCondition interface{} response to boolean

func IsKeyless 

func IsKeyless(s Schema) bool

func IsTrue 

func IsTrue(val interface{}) bool

IsTrue coerces EvaluateCondition interface{} response to boolean

func MustConvert 

func MustConvert(val interface{}, err error) interface{}

func NewMapCache 

func NewMapCache() mapCache

func NewUniqueKeyErr 

func NewUniqueKeyErr(keyStr string, isPK bool, existing Row) error

func Now 

func Now() time.Time

func OrderedCuts 

func OrderedCuts(l, r RangeCut, typ Type) (RangeCut, RangeCut, error)

OrderedCuts returns the given Cuts in order from lowest-touched values to highest-touched values.

func QuoteIdentifier 

func QuoteIdentifier(id string) string

QuoteIdentifier wraps the specified identifier in backticks and escapes all occurrences of backticks in the identifier by replacing them with double backticks.

func QuoteIdentifiers 

func QuoteIdentifiers(ids []string) []string

QuoteIdentifiers wraps each of the specified identifiers in backticks, escapes all occurrences of backticks in the identifier, and returns a slice of the quoted identifiers.

func RangeCutIsBinding 

func RangeCutIsBinding(c RangeCut) bool

func RunWithNowFunc 

func RunWithNowFunc(nowFunc func() time.Time, fn func() error) error

func UnwrapError 

func UnwrapError(err error) error

UnwrapError removes any wrapping errors (e.g. WrappedInsertError) around the specified error and returns the first non-wrapped error type.

func Walk 

func Walk(v Visitor, expr Expression)

Walk traverses the expression tree in depth-first order. It starts by calling v.Visit(expr); expr must not be nil. If the visitor returned by v.Visit(expr) is not nil, Walk is invoked recursively with the returned visitor for each children of the expr, followed by a call of v.Visit(nil) to the returned visitor.

func WalkWithNode 

func WalkWithNode(v NodeVisitor, n Node, expr Expression)

WalkWithNode traverses the expression tree in depth-first order. It starts by calling v.Visit(node, expr); expr must not be nil. If the visitor returned by v.Visit(node, expr) is not nil, Walk is invoked recursively with the returned visitor for each children of the expr, followed by a call of v.Visit(nil, nil) to the returned visitor.

Types

type Above 

type Above struct {
	Key interface{}
}

Above represents the position immediately above the contained key.

func (Above) Compare 

func (a Above) Compare(c RangeCut, typ Type) (int, error)

Compare implements RangeCut.

func (Above) String 

func (a Above) String() string

String implements RangeCut.

func (Above) TypeAsLowerBound 

func (Above) TypeAsLowerBound() RangeBoundType

TypeAsLowerBound implements RangeCut.

func (Above) TypeAsUpperBound 

func (Above) TypeAsUpperBound() RangeBoundType

TypeAsUpperBound implements RangeCut.

type AboveAll 

type AboveAll struct{}

AboveAll represents the position beyond the maximum possible value.

func (AboveAll) Compare 

func (AboveAll) Compare(c RangeCut, typ Type) (int, error)

Compare implements RangeCut.

func (AboveAll) String 

func (AboveAll) String() string

String implements RangeCut.

func (AboveAll) TypeAsLowerBound 

func (AboveAll) TypeAsLowerBound() RangeBoundType

TypeAsLowerBound implements RangeCut.

func (AboveAll) TypeAsUpperBound 

func (AboveAll) TypeAsUpperBound() RangeBoundType

TypeAsUpperBound implements RangeCut.

type AboveNull 

type AboveNull struct{}

AboveNull represents the position just above NULL, lower than every possible value in the domain.

func (AboveNull) Compare 

func (AboveNull) Compare(c RangeCut, typ Type) (int, error)

Compare implements RangeCut.

func (AboveNull) String 

func (AboveNull) String() string

String implements RangeCut.

func (AboveNull) TypeAsLowerBound 

func (AboveNull) TypeAsLowerBound() RangeBoundType

TypeAsLowerBound implements RangeCut.

func (AboveNull) TypeAsUpperBound 

func (AboveNull) TypeAsUpperBound() RangeBoundType

TypeAsUpperBound implements RangeCut.

type Aggregation 

type Aggregation interface {
	WindowAdaptableExpression
	// NewBuffer creates a new aggregation buffer and returns it as a Row.
	NewBuffer() (AggregationBuffer, error)
	// WithWindow returns a version of this aggregation with the WindowDefinition given
	WithWindow(window *WindowDefinition) (Aggregation, error)
	// Window returns this expression's window
	Window() *WindowDefinition
}

Aggregation implements an aggregation expression, where an aggregation buffer is created for each grouping (NewBuffer). Rows for the grouping should be fed to the buffer with |Update| and the buffer should be eval'd with |Eval|. Calling |Eval| directly on an Aggregation expression is typically an error.

type AggregationBuffer 

type AggregationBuffer interface {
	Disposable

	// Eval the given buffer.
	Eval(*Context) (interface{}, error)
	// Update the given buffer with the given row.
	Update(ctx *Context, row Row) error
}

type AlterableTable 

type AlterableTable interface {
	Table
	UpdatableTable

	// AddColumn adds a column to this table as given. If non-nil, order specifies where in the schema to add the column.
	AddColumn(ctx *Context, column *Column, order *ColumnOrder) error
	// DropColumn drops the column with the name given.
	DropColumn(ctx *Context, columnName string) error
	// ModifyColumn modifies the column with the name given, replacing with the new column definition provided (which may
	// include a name change). If non-nil, order specifies where in the schema to move the column.
	ModifyColumn(ctx *Context, columnName string, column *Column, order *ColumnOrder) error
}

AlterableTable should be implemented by tables that can receive ALTER TABLE statements to modify their schemas.

type AutoIncrementEditor 

type AutoIncrementEditor interface {
	AutoIncrementSetter
	AutoIncrementGetter
}

AutoIncrementEditor is an interface for tables that support changing the value of auto increment columns.

type AutoIncrementGetter 

type AutoIncrementGetter interface {
	GetNextAutoIncrementValue(ctx *Context, insertVal interface{}) (uint64, error)
}

AutoIncrementGetter is implemented by tables that support AUTO_INCREMENT to return the next value that will be inserted, given a particular insert value provided by the client.

type AutoIncrementSetter 

type AutoIncrementSetter interface {
	// SetAutoIncrementValue sets a new AUTO_INCREMENT value.
	SetAutoIncrementValue(*Context, uint64) error
	// Closer finalizes the set operation, persisting the result.
	Closer
}

AutoIncrementSetter provides support for altering a table's AUTO_INCREMENT sequence, eg 'ALTER TABLE t AUTO_INCREMENT = 10;'

type AutoIncrementTable 

type AutoIncrementTable interface {
	Table
	// PeekNextAutoIncrementValue returns the next AUTO_INCREMENT value without incrementing the current
	// auto_increment counter.
	PeekNextAutoIncrementValue(ctx *Context) (uint64, error)
	// GetNextAutoIncrementValue gets the next AUTO_INCREMENT value. In the case that a table with an autoincrement
	// column is passed in a row with the autoinc column failed, the next auto increment value must
	// update its internal state accordingly and use the insert val at runtime.
	// Implementations are responsible for updating their state to provide the correct values.
	GetNextAutoIncrementValue(ctx *Context, insertVal interface{}) (uint64, error)
	// AutoIncrementSetter returns an AutoIncrementSetter.
	AutoIncrementSetter(*Context) AutoIncrementSetter
}

AutoIncrementTable is a table that supports AUTO_INCREMENT. Getter and Setter methods access the table's AUTO_INCREMENT sequence. These methods should only be used for tables with and AUTO_INCREMENT column in their schema.

type BackgroundThreads 

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

func NewBackgroundThreads 

func NewBackgroundThreads() *BackgroundThreads

func (*BackgroundThreads) Add 

func (bt *BackgroundThreads) Add(name string, f func(ctx context.Context)) error

Add starts a background goroutine wrapped by a top-level sync.WaitGroup. [f] must return when its [ctx] argument is cancelled, otherwise Shutdown will hang.

func (*BackgroundThreads) Shutdown 

func (bt *BackgroundThreads) Shutdown() error

Shutdown cancels the parent context for every async thread, and waits for each goroutine to drain and return before exiting.

type BaseSession 

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

BaseSession is the basic session implementation. Integrators should typically embed this type into their custom session implementations to get base functionality.

func NewBaseSession 

func NewBaseSession() *BaseSession

NewBaseSession creates a new empty session.

func NewBaseSessionWithClientServer 

func NewBaseSessionWithClientServer(server string, client Client, id uint32) *BaseSession

NewBaseSessionWithClientServer creates a new session with data.

func (*BaseSession) AddLock 

func (s *BaseSession) AddLock(lockName string) error

AddLock adds a lock to the set of locks owned by this user which will need to be released if this session terminates

func (*BaseSession) Address 

func (s *BaseSession) Address() string

Address returns the server address.

func (*BaseSession) ClearWarnings 

func (s *BaseSession) ClearWarnings()

ClearWarnings cleans up session warnings

func (*BaseSession) Client 

func (s *BaseSession) Client() Client

Client returns session's client information.

func (*BaseSession) DelLock 

func (s *BaseSession) DelLock(lockName string) error

DelLock removes a lock from the set of locks owned by this user

func (*BaseSession) GetAllSessionVariables 

func (s *BaseSession) GetAllSessionVariables() map[string]interface{}

GetAllSessionVariables implements the Session interface.

func (*BaseSession) GetCharacterSet 

func (s *BaseSession) GetCharacterSet() CharacterSetID

GetCharacterSet returns the character set for this session (defined by the system variable `character_set_connection`).

func (*BaseSession) GetCharacterSetResults 

func (s *BaseSession) GetCharacterSetResults() CharacterSetID

GetCharacterSetResults returns the result character set for this session (defined by the system variable `character_set_results`).

func (*BaseSession) GetCollation 

func (s *BaseSession) GetCollation() CollationID

GetCollation returns the collation for this session (defined by the system variable `collation_connection`).

func (*BaseSession) GetCurrentDatabase 

func (s *BaseSession) GetCurrentDatabase() string

GetCurrentDatabase gets the current database for this session

func (*BaseSession) GetIgnoreAutoCommit 

func (s *BaseSession) GetIgnoreAutoCommit() bool

func (*BaseSession) GetIndexRegistry 

func (s *BaseSession) GetIndexRegistry() *IndexRegistry

func (*BaseSession) GetLastQueryInfo 

func (s *BaseSession) GetLastQueryInfo(key string) int64

func (*BaseSession) GetLogger 

func (s *BaseSession) GetLogger() *logrus.Entry

func (*BaseSession) GetPrivilegeSet 

func (s *BaseSession) GetPrivilegeSet() (PrivilegeSet, uint64)

func (*BaseSession) GetQueriedDatabase 

func (s *BaseSession) GetQueriedDatabase() string

GetQueriedDatabase implements the Session interface.

func (*BaseSession) GetSessionVariable 

func (s *BaseSession) GetSessionVariable(ctx *Context, sysVarName string) (interface{}, error)

GetSessionVariable implements the Session interface.

func (*BaseSession) GetTransaction 

func (s *BaseSession) GetTransaction() Transaction

func (*BaseSession) GetTransactionDatabase 

func (s *BaseSession) GetTransactionDatabase() string

func (*BaseSession) GetUserVariable 

func (s *BaseSession) GetUserVariable(ctx *Context, varName string) (Type, interface{}, error)

GetUserVariable implements the Session interface.

func (*BaseSession) GetViewRegistry 

func (s *BaseSession) GetViewRegistry() *ViewRegistry

func (*BaseSession) ID 

func (s *BaseSession) ID() uint32

ID implements the Session interface.

func (*BaseSession) InitSessionVariable 

func (s *BaseSession) InitSessionVariable(ctx *Context, sysVarName string, value interface{}) error

InitSessionVariable implements the Session interface and is used to initialize variables (Including read-only variables)

func (*BaseSession) IterLocks 

func (s *BaseSession) IterLocks(cb func(name string) error) error

IterLocks iterates through all locks owned by this user

func (*BaseSession) SetClient 

func (s *BaseSession) SetClient(c Client)

SetClient implements the Session interface.

func (*BaseSession) SetConnectionId 

func (s *BaseSession) SetConnectionId(id uint32)

SetConnectionId sets the [id] for this session

func (*BaseSession) SetCurrentDatabase 

func (s *BaseSession) SetCurrentDatabase(dbName string)

SetCurrentDatabase sets the current database for this session

func (*BaseSession) SetIgnoreAutoCommit 

func (s *BaseSession) SetIgnoreAutoCommit(ignore bool)

func (*BaseSession) SetIndexRegistry 

func (s *BaseSession) SetIndexRegistry(reg *IndexRegistry)

func (*BaseSession) SetLastQueryInfo 

func (s *BaseSession) SetLastQueryInfo(key string, value int64)

func (*BaseSession) SetLogger 

func (s *BaseSession) SetLogger(logger *logrus.Entry)

func (*BaseSession) SetPrivilegeSet 

func (s *BaseSession) SetPrivilegeSet(newPs PrivilegeSet, counter uint64)

func (*BaseSession) SetQueriedDatabase 

func (s *BaseSession) SetQueriedDatabase(dbName string)

SetQueriedDatabase implements the Session interface.

func (*BaseSession) SetSessionVariable 

func (s *BaseSession) SetSessionVariable(ctx *Context, sysVarName string, value interface{}) error

SetSessionVariable implements the Session interface.

func (*BaseSession) SetTransaction 

func (s *BaseSession) SetTransaction(tx Transaction)

func (*BaseSession) SetTransactionDatabase 

func (s *BaseSession) SetTransactionDatabase(dbName string)

func (*BaseSession) SetUserVariable 

func (s *BaseSession) SetUserVariable(ctx *Context, varName string, value interface{}, typ Type) error

SetUserVariable implements the Session interface.

func (*BaseSession) SetViewRegistry 

func (s *BaseSession) SetViewRegistry(reg *ViewRegistry)

func (*BaseSession) ValidateSession 

func (s *BaseSession) ValidateSession(ctx *Context, dbName string) error

ValidateSession provides integrators a chance to do any custom validation of this session before any query is executed in it.

func (*BaseSession) Warn 

func (s *BaseSession) Warn(warn *Warning)

Warn stores the warning in the session.

func (*BaseSession) WarningCount 

func (s *BaseSession) WarningCount() uint16

WarningCount returns a number of session warnings

func (*BaseSession) Warnings 

func (s *BaseSession) Warnings() []*Warning

Warnings returns a copy of session warnings (from the most recent - the last one) The function implements sql.Session interface

type Below 

type Below struct {
	Key interface{}
}

Below represents the position immediately below the contained key.

func (Below) Compare 

func (b Below) Compare(c RangeCut, typ Type) (int, error)

Compare implements RangeCut.

func (Below) String 

func (b Below) String() string

String implements RangeCut.

func (Below) TypeAsLowerBound 

func (Below) TypeAsLowerBound() RangeBoundType

TypeAsLowerBound implements RangeCut.

func (Below) TypeAsUpperBound 

func (Below) TypeAsUpperBound() RangeBoundType

TypeAsUpperBound implements RangeCut.

type BelowNull 

type BelowNull struct{}

BelowNull represents the position below NULL, which sorts before |AboveNull| and every non-NULL value in the domain.

func (BelowNull) Compare 

func (BelowNull) Compare(c RangeCut, typ Type) (int, error)

Compare implements RangeCut.

func (BelowNull) String 

func (BelowNull) String() string

String implements RangeCut.

func (BelowNull) TypeAsLowerBound 

func (BelowNull) TypeAsLowerBound() RangeBoundType

TypeAsLowerBound implements RangeCut.

func (BelowNull) TypeAsUpperBound 

func (BelowNull) TypeAsUpperBound() RangeBoundType

TypeAsUpperBound implements RangeCut.

type BinaryNode 

type BinaryNode interface {
	Left() Node
	Right() Node
}

BinaryNode is a Node with two children

type Catalog 

type Catalog interface {
	// AllDatabases returns all databases known to this catalog
	AllDatabases(ctx *Context) []Database

	// HasDB returns whether a db with the name given exists, case-insensitive
	HasDB(ctx *Context, db string) bool

	// Database returns the database with the name given, case-insensitive, or an error if it doesn't exist
	Database(ctx *Context, db string) (Database, error)

	// CreateDatabase creates a new database, or returns an error if the operation isn't supported or fails.
	CreateDatabase(ctx *Context, dbName string, collation CollationID) error

	// RemoveDatabase removes the  database named, or returns an error if the operation isn't supported or fails.
	RemoveDatabase(ctx *Context, dbName string) error

	// Table returns the table with the name given in the db with the name given
	Table(ctx *Context, dbName, tableName string) (Table, Database, error)

	// TableAsOf returns the table with the name given in the db with the name given, as of the given marker
	TableAsOf(ctx *Context, dbName, tableName string, asOf interface{}) (Table, Database, error)

	// Function returns the function with the name given, or sql.ErrFunctionNotFound if it doesn't exist
	Function(ctx *Context, name string) (Function, error)

	// RegisterFunction registers the functions given, adding them to the built-in functions.
	// Integrators with custom functions should typically use the FunctionProvider interface to register their functions.
	RegisterFunction(ctx *Context, fns ...Function)

	// LockTable locks the table named
	LockTable(ctx *Context, table string)

	// UnlockTables unlocks all tables locked by the session id given
	UnlockTables(ctx *Context, id uint32) error

	// Statistics returns a StatsReadWriter for saving and updating table statistics
	Statistics(ctx *Context) (StatsReadWriter, error)
}

type CatalogTable 

type CatalogTable interface {
	Table

	// AssignCatalog assigns a Catalog to the table.
	AssignCatalog(cat Catalog) Table
}

CatalogTable is a Table that depends on a Catalog.

type CharacterSet 

type CharacterSet struct {
	ID               CharacterSetID
	Name             string
	DefaultCollation CollationID
	BinaryCollation  CollationID
	Description      string
	MaxLength        uint8
	Encoder          encodings.Encoder
}

CharacterSet represents the character set of a string.

type CharacterSetID 

type CharacterSetID uint16

CharacterSetID represents a character set. Unlike collations, this ID is not intended for storage and may change as new character sets are added. It is recommended to use the character set's name if persistence is desired. 

const (
	CharacterSet_armscii8 CharacterSetID = 1
	CharacterSet_ascii    CharacterSetID = 2
	CharacterSet_big5     CharacterSetID = 3
	CharacterSet_binary   CharacterSetID = 4
	CharacterSet_cp1250   CharacterSetID = 5
	CharacterSet_cp1251   CharacterSetID = 6
	CharacterSet_cp1256   CharacterSetID = 7
	CharacterSet_cp1257   CharacterSetID = 8
	CharacterSet_cp850    CharacterSetID = 9
	CharacterSet_cp852    CharacterSetID = 10
	CharacterSet_cp866    CharacterSetID = 11
	CharacterSet_cp932    CharacterSetID = 12
	CharacterSet_dec8     CharacterSetID = 13
	CharacterSet_eucjpms  CharacterSetID = 14
	CharacterSet_euckr    CharacterSetID = 15
	CharacterSet_gb18030  CharacterSetID = 16
	CharacterSet_gb2312   CharacterSetID = 17
	CharacterSet_gbk      CharacterSetID = 18
	CharacterSet_geostd8  CharacterSetID = 19
	CharacterSet_greek    CharacterSetID = 20
	CharacterSet_hebrew   CharacterSetID = 21
	CharacterSet_hp8      CharacterSetID = 22
	CharacterSet_keybcs2  CharacterSetID = 23
	CharacterSet_koi8r    CharacterSetID = 24
	CharacterSet_koi8u    CharacterSetID = 25
	CharacterSet_latin1   CharacterSetID = 26
	CharacterSet_latin2   CharacterSetID = 27
	CharacterSet_latin5   CharacterSetID = 28
	CharacterSet_latin7   CharacterSetID = 29
	CharacterSet_macce    CharacterSetID = 30
	CharacterSet_macroman CharacterSetID = 31
	CharacterSet_sjis     CharacterSetID = 32
	CharacterSet_swe7     CharacterSetID = 33
	CharacterSet_tis620   CharacterSetID = 34
	CharacterSet_ucs2     CharacterSetID = 35
	CharacterSet_ujis     CharacterSetID = 36
	CharacterSet_utf16    CharacterSetID = 37
	CharacterSet_utf16le  CharacterSetID = 38
	CharacterSet_utf32    CharacterSetID = 39
	CharacterSet_utf8mb3  CharacterSetID = 40
	CharacterSet_utf8mb4  CharacterSetID = 41

	CharacterSet_utf8 = CharacterSet_utf8mb3

	// CharacterSet_Unspecified is used when a character set has not been specified, either explicitly or implicitly.
	// This is usually used as an intermediate character set to be later replaced by an analyzer pass or a plan,
	// although it is valid to use it directly. When used, behaves identically to the character set belonging to the
	// default collation, although it will NOT match the aforementioned character set.
	CharacterSet_Unspecified CharacterSetID = 0
)

func ParseCharacterSet 

func ParseCharacterSet(str string) (CharacterSetID, error)

ParseCharacterSet takes in a string representing a CharacterSet and returns the result if a match is found, or an error if not.

func (CharacterSetID) BinaryCollation 

func (cs CharacterSetID) BinaryCollation() CollationID

BinaryCollation returns the binary CollationID for this CharacterSet.

func (CharacterSetID) DefaultCollation 

func (cs CharacterSetID) DefaultCollation() CollationID

DefaultCollation returns the default CollationID for this CharacterSet.

func (CharacterSetID) Description 

func (cs CharacterSetID) Description() string

Description returns the plain-English description of the CharacterSet.

func (CharacterSetID) Encoder 

func (cs CharacterSetID) Encoder() encodings.Encoder

Encoder returns this CharacterSet's encoder. As character sets are a work-in-progress, it is recommended to check if it is nil before allowing the character set to be set within a table.

func (CharacterSetID) MaxLength 

func (cs CharacterSetID) MaxLength() int64

MaxLength returns the maximum size of a single character in the CharacterSet.

func (CharacterSetID) Name 

func (cs CharacterSetID) Name() string

Name returns the name of this CharacterSet.

func (CharacterSetID) String 

func (cs CharacterSetID) String() string

String returns the string representation of the CharacterSet.

type CharacterSetsIterator 

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

CharacterSetsIterator iterates over every character set available.

func NewCharacterSetsIterator 

func NewCharacterSetsIterator() *CharacterSetsIterator

NewCharacterSetsIterator returns a new CharacterSetsIterator.

func (*CharacterSetsIterator) Next 

func (csi *CharacterSetsIterator) Next() (CharacterSet, bool)

Next returns the next character set. If all character sets have been iterated over, returns false.

type CheckAlterableTable 

type CheckAlterableTable interface {
	Table
	// CreateCheck creates an check constraint for this table, using the provided parameters.
	// Returns an error if the constraint name already exists.
	CreateCheck(ctx *Context, check *CheckDefinition) error
	// DropCheck removes a check constraint from the database.
	DropCheck(ctx *Context, chName string) error
}

CheckAlterableTable represents a table that supports check constraints.

type CheckConstraint 

type CheckConstraint struct {
	Name     string
	Expr     Expression
	Enforced bool
}

CheckConstraint declares a boolean-eval constraint.

func (CheckConstraint) DebugString 

func (c CheckConstraint) DebugString() string

type CheckConstraints 

type CheckConstraints []*CheckConstraint

func (CheckConstraints) FromExpressions 

func (checks CheckConstraints) FromExpressions(exprs []Expression) (CheckConstraints, error)

FromExpressions takes a slice of sql.Expression in the same order as these constraints, and returns a new slice of constraints with the expressions given, holding names and other properties constant.

func (CheckConstraints) ToExpressions 

func (checks CheckConstraints) ToExpressions() []Expression

ToExpressions returns the check expressions in these constraints as a slice of sql.Expression

type CheckDefinition 

type CheckDefinition struct {
	Name            string // The name of this check. Check names in a database are unique.
	CheckExpression string // String serialization of the check expression
	Enforced        bool   // Whether this constraint is enforced
}

CheckDefinition defines a trigger. Integrators are not expected to parse or understand the trigger definitions, but must store and return them when asked.

type CheckTable 

type CheckTable interface {
	Table
	// GetChecks returns the check constraints on this table.
	GetChecks(ctx *Context) ([]CheckDefinition, error)
}

CheckTable is a table that declares check constraints.

type Checksumable 

type Checksumable interface {
	// Checksum returns a checksum and an error if there was any problem
	// computing or obtaining the checksum.
	Checksum() (string, error)
}

Checksumable provides the checksum of some data.

type Client 

type Client struct {
	// User of the session.
	User string
	// Address of the client.
	Address string
	// Capabilities of the client
	Capabilities uint32
}

Client holds session user information.

type Closer 

type Closer interface {
	Close(*Context) error
}

Closer is a node that can be closed.

type CollatedDatabase 

type CollatedDatabase interface {
	Database
	// GetCollation returns this database's collation.
	GetCollation(ctx *Context) CollationID
	// SetCollation updates this database's collation.
	SetCollation(ctx *Context, collation CollationID) error
}

CollatedDatabase is a Database that can store and update its collation.

type CollatedDatabaseProvider 

type CollatedDatabaseProvider interface {
	MutableDatabaseProvider

	// CreateCollatedDatabase creates a collated database and adds it to the provider's collection.
	CreateCollatedDatabase(ctx *Context, name string, collation CollationID) error
}

CollatedDatabaseProvider is a DatabaseProvider that can create a Database with a specific collation.

type Collation 

type Collation struct {
	ID           CollationID
	Name         string
	CharacterSet CharacterSetID
	IsDefault    bool
	IsCompiled   bool
	SortLength   uint8
	PadAttribute string
	Sorter       func(r rune) int32
}

Collation represents the collation of a string.

type CollationID 

type CollationID uint16

CollationID represents the collation's unique identifier. May be safely converted to and from an uint16 for storage. 

const (
	Collation_armscii8_bin                CollationID = 64
	Collation_armscii8_general_ci         CollationID = 32
	Collation_ascii_bin                   CollationID = 65
	Collation_ascii_general_ci            CollationID = 11
	Collation_big5_bin                    CollationID = 84
	Collation_big5_chinese_ci             CollationID = 1
	Collation_binary                      CollationID = 63
	Collation_cp1250_bin                  CollationID = 66
	Collation_cp1250_croatian_ci          CollationID = 44
	Collation_cp1250_czech_cs             CollationID = 34
	Collation_cp1250_general_ci           CollationID = 26
	Collation_cp1250_polish_ci            CollationID = 99
	Collation_cp1251_bin                  CollationID = 50
	Collation_cp1251_bulgarian_ci         CollationID = 14
	Collation_cp1251_general_ci           CollationID = 51
	Collation_cp1251_general_cs           CollationID = 52
	Collation_cp1251_ukrainian_ci         CollationID = 23
	Collation_cp1256_bin                  CollationID = 67
	Collation_cp1256_general_ci           CollationID = 57
	Collation_cp1257_bin                  CollationID = 58
	Collation_cp1257_general_ci           CollationID = 59
	Collation_cp1257_lithuanian_ci        CollationID = 29
	Collation_cp850_bin                   CollationID = 80
	Collation_cp850_general_ci            CollationID = 4
	Collation_cp852_bin                   CollationID = 81
	Collation_cp852_general_ci            CollationID = 40
	Collation_cp866_bin                   CollationID = 68
	Collation_cp866_general_ci            CollationID = 36
	Collation_cp932_bin                   CollationID = 96
	Collation_cp932_japanese_ci           CollationID = 95
	Collation_dec8_bin                    CollationID = 69
	Collation_dec8_swedish_ci             CollationID = 3
	Collation_eucjpms_bin                 CollationID = 98
	Collation_eucjpms_japanese_ci         CollationID = 97
	Collation_euckr_bin                   CollationID = 85
	Collation_euckr_korean_ci             CollationID = 19
	Collation_gb18030_bin                 CollationID = 249
	Collation_gb18030_chinese_ci          CollationID = 248
	Collation_gb18030_unicode_520_ci      CollationID = 250
	Collation_gb2312_bin                  CollationID = 86
	Collation_gb2312_chinese_ci           CollationID = 24
	Collation_gbk_bin                     CollationID = 87
	Collation_gbk_chinese_ci              CollationID = 28
	Collation_geostd8_bin                 CollationID = 93
	Collation_geostd8_general_ci          CollationID = 92
	Collation_greek_bin                   CollationID = 70
	Collation_greek_general_ci            CollationID = 25
	Collation_hebrew_bin                  CollationID = 71
	Collation_hebrew_general_ci           CollationID = 16
	Collation_hp8_bin                     CollationID = 72
	Collation_hp8_english_ci              CollationID = 6
	Collation_keybcs2_bin                 CollationID = 73
	Collation_keybcs2_general_ci          CollationID = 37
	Collation_koi8r_bin                   CollationID = 74
	Collation_koi8r_general_ci            CollationID = 7
	Collation_koi8u_bin                   CollationID = 75
	Collation_koi8u_general_ci            CollationID = 22
	Collation_latin1_bin                  CollationID = 47
	Collation_latin1_danish_ci            CollationID = 15
	Collation_latin1_general_ci           CollationID = 48
	Collation_latin1_general_cs           CollationID = 49
	Collation_latin1_german1_ci           CollationID = 5
	Collation_latin1_german2_ci           CollationID = 31
	Collation_latin1_spanish_ci           CollationID = 94
	Collation_latin1_swedish_ci           CollationID = 8
	Collation_latin2_bin                  CollationID = 77
	Collation_latin2_croatian_ci          CollationID = 27
	Collation_latin2_czech_cs             CollationID = 2
	Collation_latin2_general_ci           CollationID = 9
	Collation_latin2_hungarian_ci         CollationID = 21
	Collation_latin5_bin                  CollationID = 78
	Collation_latin5_turkish_ci           CollationID = 30
	Collation_latin7_bin                  CollationID = 79
	Collation_latin7_estonian_cs          CollationID = 20
	Collation_latin7_general_ci           CollationID = 41
	Collation_latin7_general_cs           CollationID = 42
	Collation_macce_bin                   CollationID = 43
	Collation_macce_general_ci            CollationID = 38
	Collation_macroman_bin                CollationID = 53
	Collation_macroman_general_ci         CollationID = 39
	Collation_sjis_bin                    CollationID = 88
	Collation_sjis_japanese_ci            CollationID = 13
	Collation_swe7_bin                    CollationID = 82
	Collation_swe7_swedish_ci             CollationID = 10
	Collation_tis620_bin                  CollationID = 89
	Collation_tis620_thai_ci              CollationID = 18
	Collation_ucs2_bin                    CollationID = 90
	Collation_ucs2_croatian_ci            CollationID = 149
	Collation_ucs2_czech_ci               CollationID = 138
	Collation_ucs2_danish_ci              CollationID = 139
	Collation_ucs2_esperanto_ci           CollationID = 145
	Collation_ucs2_estonian_ci            CollationID = 134
	Collation_ucs2_general_ci             CollationID = 35
	Collation_ucs2_general_mysql500_ci    CollationID = 159
	Collation_ucs2_german2_ci             CollationID = 148
	Collation_ucs2_hungarian_ci           CollationID = 146
	Collation_ucs2_icelandic_ci           CollationID = 129
	Collation_ucs2_latvian_ci             CollationID = 130
	Collation_ucs2_lithuanian_ci          CollationID = 140
	Collation_ucs2_persian_ci             CollationID = 144
	Collation_ucs2_polish_ci              CollationID = 133
	Collation_ucs2_roman_ci               CollationID = 143
	Collation_ucs2_romanian_ci            CollationID = 131
	Collation_ucs2_sinhala_ci             CollationID = 147
	Collation_ucs2_slovak_ci              CollationID = 141
	Collation_ucs2_slovenian_ci           CollationID = 132
	Collation_ucs2_spanish2_ci            CollationID = 142
	Collation_ucs2_spanish_ci             CollationID = 135
	Collation_ucs2_swedish_ci             CollationID = 136
	Collation_ucs2_turkish_ci             CollationID = 137
	Collation_ucs2_unicode_520_ci         CollationID = 150
	Collation_ucs2_unicode_ci             CollationID = 128
	Collation_ucs2_vietnamese_ci          CollationID = 151
	Collation_ujis_bin                    CollationID = 91
	Collation_ujis_japanese_ci            CollationID = 12
	Collation_utf16_bin                   CollationID = 55
	Collation_utf16_croatian_ci           CollationID = 122
	Collation_utf16_czech_ci              CollationID = 111
	Collation_utf16_danish_ci             CollationID = 112
	Collation_utf16_esperanto_ci          CollationID = 118
	Collation_utf16_estonian_ci           CollationID = 107
	Collation_utf16_general_ci            CollationID = 54
	Collation_utf16_german2_ci            CollationID = 121
	Collation_utf16_hungarian_ci          CollationID = 119
	Collation_utf16_icelandic_ci          CollationID = 102
	Collation_utf16_latvian_ci            CollationID = 103
	Collation_utf16_lithuanian_ci         CollationID = 113
	Collation_utf16_persian_ci            CollationID = 117
	Collation_utf16_polish_ci             CollationID = 106
	Collation_utf16_roman_ci              CollationID = 116
	Collation_utf16_romanian_ci           CollationID = 104
	Collation_utf16_sinhala_ci            CollationID = 120
	Collation_utf16_slovak_ci             CollationID = 114
	Collation_utf16_slovenian_ci          CollationID = 105
	Collation_utf16_spanish2_ci           CollationID = 115
	Collation_utf16_spanish_ci            CollationID = 108
	Collation_utf16_swedish_ci            CollationID = 109
	Collation_utf16_turkish_ci            CollationID = 110
	Collation_utf16_unicode_520_ci        CollationID = 123
	Collation_utf16_unicode_ci            CollationID = 101
	Collation_utf16_vietnamese_ci         CollationID = 124
	Collation_utf16le_bin                 CollationID = 62
	Collation_utf16le_general_ci          CollationID = 56
	Collation_utf32_bin                   CollationID = 61
	Collation_utf32_croatian_ci           CollationID = 181
	Collation_utf32_czech_ci              CollationID = 170
	Collation_utf32_danish_ci             CollationID = 171
	Collation_utf32_esperanto_ci          CollationID = 177
	Collation_utf32_estonian_ci           CollationID = 166
	Collation_utf32_general_ci            CollationID = 60
	Collation_utf32_german2_ci            CollationID = 180
	Collation_utf32_hungarian_ci          CollationID = 178
	Collation_utf32_icelandic_ci          CollationID = 161
	Collation_utf32_latvian_ci            CollationID = 162
	Collation_utf32_lithuanian_ci         CollationID = 172
	Collation_utf32_persian_ci            CollationID = 176
	Collation_utf32_polish_ci             CollationID = 165
	Collation_utf32_roman_ci              CollationID = 175
	Collation_utf32_romanian_ci           CollationID = 163
	Collation_utf32_sinhala_ci            CollationID = 179
	Collation_utf32_slovak_ci             CollationID = 173
	Collation_utf32_slovenian_ci          CollationID = 164
	Collation_utf32_spanish2_ci           CollationID = 174
	Collation_utf32_spanish_ci            CollationID = 167
	Collation_utf32_swedish_ci            CollationID = 168
	Collation_utf32_turkish_ci            CollationID = 169
	Collation_utf32_unicode_520_ci        CollationID = 182
	Collation_utf32_unicode_ci            CollationID = 160
	Collation_utf32_vietnamese_ci         CollationID = 183
	Collation_utf8mb3_bin                 CollationID = 83
	Collation_utf8mb3_croatian_ci         CollationID = 213
	Collation_utf8mb3_czech_ci            CollationID = 202
	Collation_utf8mb3_danish_ci           CollationID = 203
	Collation_utf8mb3_esperanto_ci        CollationID = 209
	Collation_utf8mb3_estonian_ci         CollationID = 198
	Collation_utf8mb3_general_ci          CollationID = 33
	Collation_utf8mb3_general_mysql500_ci CollationID = 223
	Collation_utf8mb3_german2_ci          CollationID = 212
	Collation_utf8mb3_hungarian_ci        CollationID = 210
	Collation_utf8mb3_icelandic_ci        CollationID = 193
	Collation_utf8mb3_latvian_ci          CollationID = 194
	Collation_utf8mb3_lithuanian_ci       CollationID = 204
	Collation_utf8mb3_persian_ci          CollationID = 208
	Collation_utf8mb3_polish_ci           CollationID = 197
	Collation_utf8mb3_roman_ci            CollationID = 207
	Collation_utf8mb3_romanian_ci         CollationID = 195
	Collation_utf8mb3_sinhala_ci          CollationID = 211
	Collation_utf8mb3_slovak_ci           CollationID = 205
	Collation_utf8mb3_slovenian_ci        CollationID = 196
	Collation_utf8mb3_spanish2_ci         CollationID = 206
	Collation_utf8mb3_spanish_ci          CollationID = 199
	Collation_utf8mb3_swedish_ci          CollationID = 200
	Collation_utf8mb3_tolower_ci          CollationID = 76
	Collation_utf8mb3_turkish_ci          CollationID = 201
	Collation_utf8mb3_unicode_520_ci      CollationID = 214
	Collation_utf8mb3_unicode_ci          CollationID = 192
	Collation_utf8mb3_vietnamese_ci       CollationID = 215
	Collation_utf8mb4_0900_ai_ci          CollationID = 255
	Collation_utf8mb4_0900_as_ci          CollationID = 305
	Collation_utf8mb4_0900_as_cs          CollationID = 278
	Collation_utf8mb4_0900_bin            CollationID = 309
	Collation_utf8mb4_bg_0900_ai_ci       CollationID = 318
	Collation_utf8mb4_bg_0900_as_cs       CollationID = 319
	Collation_utf8mb4_bin                 CollationID = 46
	Collation_utf8mb4_bs_0900_ai_ci       CollationID = 316
	Collation_utf8mb4_bs_0900_as_cs       CollationID = 317
	Collation_utf8mb4_croatian_ci         CollationID = 245
	Collation_utf8mb4_cs_0900_ai_ci       CollationID = 266
	Collation_utf8mb4_cs_0900_as_cs       CollationID = 289
	Collation_utf8mb4_czech_ci            CollationID = 234
	Collation_utf8mb4_da_0900_ai_ci       CollationID = 267
	Collation_utf8mb4_da_0900_as_cs       CollationID = 290
	Collation_utf8mb4_danish_ci           CollationID = 235
	Collation_utf8mb4_de_pb_0900_ai_ci    CollationID = 256
	Collation_utf8mb4_de_pb_0900_as_cs    CollationID = 279
	Collation_utf8mb4_eo_0900_ai_ci       CollationID = 273
	Collation_utf8mb4_eo_0900_as_cs       CollationID = 296
	Collation_utf8mb4_es_0900_ai_ci       CollationID = 263
	Collation_utf8mb4_es_0900_as_cs       CollationID = 286
	Collation_utf8mb4_es_trad_0900_ai_ci  CollationID = 270
	Collation_utf8mb4_es_trad_0900_as_cs  CollationID = 293
	Collation_utf8mb4_esperanto_ci        CollationID = 241
	Collation_utf8mb4_estonian_ci         CollationID = 230
	Collation_utf8mb4_et_0900_ai_ci       CollationID = 262
	Collation_utf8mb4_et_0900_as_cs       CollationID = 285
	Collation_utf8mb4_general_ci          CollationID = 45
	Collation_utf8mb4_german2_ci          CollationID = 244
	Collation_utf8mb4_gl_0900_ai_ci       CollationID = 320
	Collation_utf8mb4_gl_0900_as_cs       CollationID = 321
	Collation_utf8mb4_hr_0900_ai_ci       CollationID = 275
	Collation_utf8mb4_hr_0900_as_cs       CollationID = 298
	Collation_utf8mb4_hu_0900_ai_ci       CollationID = 274
	Collation_utf8mb4_hu_0900_as_cs       CollationID = 297
	Collation_utf8mb4_hungarian_ci        CollationID = 242
	Collation_utf8mb4_icelandic_ci        CollationID = 225
	Collation_utf8mb4_is_0900_ai_ci       CollationID = 257
	Collation_utf8mb4_is_0900_as_cs       CollationID = 280
	Collation_utf8mb4_ja_0900_as_cs       CollationID = 303
	Collation_utf8mb4_ja_0900_as_cs_ks    CollationID = 304
	Collation_utf8mb4_la_0900_ai_ci       CollationID = 271
	Collation_utf8mb4_la_0900_as_cs       CollationID = 294
	Collation_utf8mb4_latvian_ci          CollationID = 226
	Collation_utf8mb4_lithuanian_ci       CollationID = 236
	Collation_utf8mb4_lt_0900_ai_ci       CollationID = 268
	Collation_utf8mb4_lt_0900_as_cs       CollationID = 291
	Collation_utf8mb4_lv_0900_ai_ci       CollationID = 258
	Collation_utf8mb4_lv_0900_as_cs       CollationID = 281
	Collation_utf8mb4_mn_cyrl_0900_ai_ci  CollationID = 322
	Collation_utf8mb4_mn_cyrl_0900_as_cs  CollationID = 323
	Collation_utf8mb4_nb_0900_ai_ci       CollationID = 310
	Collation_utf8mb4_nb_0900_as_cs       CollationID = 311
	Collation_utf8mb4_nn_0900_ai_ci       CollationID = 312
	Collation_utf8mb4_nn_0900_as_cs       CollationID = 313
	Collation_utf8mb4_persian_ci          CollationID = 240
	Collation_utf8mb4_pl_0900_ai_ci       CollationID = 261
	Collation_utf8mb4_pl_0900_as_cs       CollationID = 284
	Collation_utf8mb4_polish_ci           CollationID = 229
	Collation_utf8mb4_ro_0900_ai_ci       CollationID = 259
	Collation_utf8mb4_ro_0900_as_cs       CollationID = 282
	Collation_utf8mb4_roman_ci            CollationID = 239
	Collation_utf8mb4_romanian_ci         CollationID = 227
	Collation_utf8mb4_ru_0900_ai_ci       CollationID = 306
	Collation_utf8mb4_ru_0900_as_cs       CollationID = 307
	Collation_utf8mb4_sinhala_ci          CollationID = 243
	Collation_utf8mb4_sk_0900_ai_ci       CollationID = 269
	Collation_utf8mb4_sk_0900_as_cs       CollationID = 292
	Collation_utf8mb4_sl_0900_ai_ci       CollationID = 260
	Collation_utf8mb4_sl_0900_as_cs       CollationID = 283
	Collation_utf8mb4_slovak_ci           CollationID = 237
	Collation_utf8mb4_slovenian_ci        CollationID = 228
	Collation_utf8mb4_spanish2_ci         CollationID = 238
	Collation_utf8mb4_spanish_ci          CollationID = 231
	Collation_utf8mb4_sr_latn_0900_ai_ci  CollationID = 314
	Collation_utf8mb4_sr_latn_0900_as_cs  CollationID = 315
	Collation_utf8mb4_sv_0900_ai_ci       CollationID = 264
	Collation_utf8mb4_sv_0900_as_cs       CollationID = 287
	Collation_utf8mb4_swedish_ci          CollationID = 232
	Collation_utf8mb4_tr_0900_ai_ci       CollationID = 265
	Collation_utf8mb4_tr_0900_as_cs       CollationID = 288
	Collation_utf8mb4_turkish_ci          CollationID = 233
	Collation_utf8mb4_unicode_520_ci      CollationID = 246
	Collation_utf8mb4_unicode_ci          CollationID = 224
	Collation_utf8mb4_vi_0900_ai_ci       CollationID = 277
	Collation_utf8mb4_vi_0900_as_cs       CollationID = 300
	Collation_utf8mb4_vietnamese_ci       CollationID = 247
	Collation_utf8mb4_zh_0900_as_cs       CollationID = 308

	Collation_utf8_general_ci          = Collation_utf8mb3_general_ci
	Collation_utf8_tolower_ci          = Collation_utf8mb3_tolower_ci
	Collation_utf8_bin                 = Collation_utf8mb3_bin
	Collation_utf8_unicode_ci          = Collation_utf8mb3_unicode_ci
	Collation_utf8_icelandic_ci        = Collation_utf8mb3_icelandic_ci
	Collation_utf8_latvian_ci          = Collation_utf8mb3_latvian_ci
	Collation_utf8_romanian_ci         = Collation_utf8mb3_romanian_ci
	Collation_utf8_slovenian_ci        = Collation_utf8mb3_slovenian_ci
	Collation_utf8_polish_ci           = Collation_utf8mb3_polish_ci
	Collation_utf8_estonian_ci         = Collation_utf8mb3_estonian_ci
	Collation_utf8_spanish_ci          = Collation_utf8mb3_spanish_ci
	Collation_utf8_swedish_ci          = Collation_utf8mb3_swedish_ci
	Collation_utf8_turkish_ci          = Collation_utf8mb3_turkish_ci
	Collation_utf8_czech_ci            = Collation_utf8mb3_czech_ci
	Collation_utf8_danish_ci           = Collation_utf8mb3_danish_ci
	Collation_utf8_lithuanian_ci       = Collation_utf8mb3_lithuanian_ci
	Collation_utf8_slovak_ci           = Collation_utf8mb3_slovak_ci
	Collation_utf8_spanish2_ci         = Collation_utf8mb3_spanish2_ci
	Collation_utf8_roman_ci            = Collation_utf8mb3_roman_ci
	Collation_utf8_persian_ci          = Collation_utf8mb3_persian_ci
	Collation_utf8_esperanto_ci        = Collation_utf8mb3_esperanto_ci
	Collation_utf8_hungarian_ci        = Collation_utf8mb3_hungarian_ci
	Collation_utf8_sinhala_ci          = Collation_utf8mb3_sinhala_ci
	Collation_utf8_german2_ci          = Collation_utf8mb3_german2_ci
	Collation_utf8_croatian_ci         = Collation_utf8mb3_croatian_ci
	Collation_utf8_unicode_520_ci      = Collation_utf8mb3_unicode_520_ci
	Collation_utf8_vietnamese_ci       = Collation_utf8mb3_vietnamese_ci
	Collation_utf8_general_mysql500_ci = Collation_utf8mb3_general_mysql500_ci

	Collation_Default                    = Collation_utf8mb4_0900_bin
	Collation_Information_Schema_Default = Collation_utf8mb3_general_ci
	// Collation_Unspecified is used when a collation has not been specified, either explicitly or implicitly. This is
	// usually used as an intermediate collation to be later replaced by an analyzer pass or a plan, although it is
	// valid to use it directly. When used, behaves identically to the default collation, although it will NOT match
	// the default collation.
	Collation_Unspecified CollationID = 0
)

func ParseCollation 

func ParseCollation(characterSetStr *string, collationStr *string, binaryAttribute bool) (CollationID, error)

ParseCollation takes in an optional character set and collation, along with the binary attribute if present, and returns a valid collation or error. A nil character set and collation will return the default collation.

func (CollationID) CharacterSet 

func (c CollationID) CharacterSet() CharacterSetID

CharacterSet returns the CharacterSetID belonging to this Collation.

func (CollationID) Collation 

func (c CollationID) Collation() Collation

Collation returns the Collation with this ID.

func (CollationID) Equals 

func (c CollationID) Equals(other CollationID) bool

Equals returns whether the given collation is the same as the calling collation.

func (CollationID) HashToBytes 

func (c CollationID) HashToBytes(str string) ([]byte, error)

HashToBytes returns a hash of the given decoded string based on the collation. Collations take each rune's weight into account, therefore two strings with technically different contents may hash to the same value, as the collation considers them the same string. This is equivalent to HashToUint, except that it converts the uint64 to a byte slice.

func (CollationID) HashToUint 

func (c CollationID) HashToUint(str string) (uint64, error)

HashToUint returns a hash of the given decoded string based on the collation. Collations take each rune's weight into account, therefore two strings with technically different contents may hash to the same value, as the collation considers them the same string.

func (CollationID) IsCompiled 

func (c CollationID) IsCompiled() string

IsCompiled returns a string indicating whether this collation is compiled.

func (CollationID) IsDefault 

func (c CollationID) IsDefault() string

IsDefault returns a string indicating whether this collation is the default for the character set.

func (CollationID) Name 

func (c CollationID) Name() string

Name returns the name of this collation.

func (CollationID) PadAttribute 

func (c CollationID) PadAttribute() string

PadAttribute returns a string representing the pad attribute of the collation.

func (CollationID) SortLength 

func (c CollationID) SortLength() uint32

SortLength returns the sort length of the collation.

func (CollationID) Sorter 

func (c CollationID) Sorter() func(r rune) int32

Sorter returns this collation's sort function. As collations are a work-in-progress, it is recommended to avoid using any collations that return a nil sort function.

func (CollationID) String 

func (c CollationID) String() string

String returns the string representation of the Collation.

func (CollationID) WorksWithCharacterSet 

func (c CollationID) WorksWithCharacterSet(cs CharacterSetID) bool

WorksWithCharacterSet returns whether the Collation is valid for the given CharacterSet.

func (CollationID) WriteWeightString 

func (c CollationID) WriteWeightString(hash io.Writer, str string) error

WriteWeightString writes the weights of each codepoint in the string into the given io.Writer. Two strings with technically different contents may generate the same WeightString to the same value, as the collation considers them the same string.

type CollationsIterator 

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

CollationsIterator iterates over every collation available, ordered by their ID (ascending).

func NewCollationsIterator 

func NewCollationsIterator() *CollationsIterator

NewCollationsIterator returns a new CollationsIterator.

func (*CollationsIterator) Next 

func (ci *CollationsIterator) Next() (Collation, bool)

Next returns the next collation. If all collations have been iterated over, returns false.

type Column 

type Column struct {
	// Name is the name of the column.
	Name string
	// Type is the data type of the column.
	Type Type
	// Default contains the default value of the column or nil if it was not explicitly defined. A nil instance is valid, thus calls do not error.
	Default *ColumnDefaultValue
	// AutoIncrement is true if the column auto-increments.
	AutoIncrement bool
	// Nullable is true if the column can contain NULL values, or false
	// otherwise.
	Nullable bool
	// Source is the name of the table this column came from.
	Source string
	// DatabaseSource is the name of the database this column came from.
	DatabaseSource string
	// PrimaryKey is true if the column is part of the primary key for its table.
	PrimaryKey bool
	// Comment contains the string comment for this column.
	Comment string
	// Extra contains any additional information to put in the `extra` column under `information_schema.columns`.
	Extra string
}

Column is the definition of a table column. As SQL:2016 puts it: 

A column is a named component of a table. It has a data type, a default,
and a nullability characteristic.

func (*Column) Check 

func (c *Column) Check(v interface{}) bool

Check ensures the value is correct for this column.

func (*Column) Copy 

func (c *Column) Copy() *Column

func (*Column) DebugString 

func (c *Column) DebugString() string

func (*Column) Equals 

func (c *Column) Equals(c2 *Column) bool

Equals checks whether two columns are equal.

type ColumnDefaultValue 

type ColumnDefaultValue struct {
	// Expression is the expression representing this default value
	Expression
	// contains filtered or unexported fields
}

ColumnDefaultValue is an expression representing the default value of a column. May represent both a default literal and a default expression. A nil pointer of this type represents an implicit default value and is thus valid, so all method calls will return without error.

func NewColumnDefaultValue 

func NewColumnDefaultValue(expr Expression, outType Type, representsLiteral bool, parenthesized bool, mayReturnNil bool) (*ColumnDefaultValue, error)

NewColumnDefaultValue returns a new ColumnDefaultValue expression.

func NewUnresolvedColumnDefaultValue 

func NewUnresolvedColumnDefaultValue(expr string) *ColumnDefaultValue

NewUnresolvedColumnDefaultValue returns a column default

func (*ColumnDefaultValue) CheckType 

func (e *ColumnDefaultValue) CheckType(ctx *Context) error

CheckType validates that the ColumnDefaultValue has the correct type.

func (*ColumnDefaultValue) Children 

func (e *ColumnDefaultValue) Children() []Expression

Children implements sql.Expression

func (*ColumnDefaultValue) DebugString 

func (e *ColumnDefaultValue) DebugString() string

func (*ColumnDefaultValue) Eval 

func (e *ColumnDefaultValue) Eval(ctx *Context, r Row) (interface{}, error)

Eval implements sql.Expression

func (*ColumnDefaultValue) IsLiteral 

func (e *ColumnDefaultValue) IsLiteral() bool

IsLiteral returns whether this expression represents a literal default value (otherwise it's an expression default value).

func (*ColumnDefaultValue) IsNullable 

func (e *ColumnDefaultValue) IsNullable() bool

IsNullable implements sql.Expression

func (*ColumnDefaultValue) IsParenthesized 

func (e *ColumnDefaultValue) IsParenthesized() bool

IsParenthesized returns whether this column default was specified in parentheses, using the expression default value form. It is almost always the opposite of IsLiteral, but there is one edge case where matching MySQL's behavior require that we can distinguish between a non-literal value in parens and a non-literal value not in parens. The edge case is using now/current_timestamp as a column default; now/current_timestamp can be specified without parens for datetime/timestamp fields, but it must be enclosed in parens to be used as the default for other types.

func (*ColumnDefaultValue) Resolved 

func (e *ColumnDefaultValue) Resolved() bool

Resolved implements sql.Expression

func (*ColumnDefaultValue) String 

func (e *ColumnDefaultValue) String() string

String implements sql.Expression

func (*ColumnDefaultValue) Type 

func (e *ColumnDefaultValue) Type() Type

Type implements sql.Expression

func (*ColumnDefaultValue) WithChildren 

func (e *ColumnDefaultValue) WithChildren(children ...Expression) (Expression, error)

WithChildren implements sql.Expression

type ColumnExpressionType 

type ColumnExpressionType struct {
	Expression string
	Type       Type
}

ColumnExpressionType returns a column expression along with its Type.

type ColumnOrder 

type ColumnOrder struct {
	First       bool   // True if this column should come first
	AfterColumn string // Set to the name of the column after which this column should appear
}

ColumnOrder is used in ALTER TABLE statements to change the order of inserted / modified columns.

type CommentedNode 

type CommentedNode interface {
	Node
	WithComment(string) Node
	Comment() string
}

CommentedNode allows comments to be set and retrieved on it. Used primarily for join hint comments.

type Context 

type Context struct {
	context.Context
	Session
	Memory      *MemoryManager
	ProcessList ProcessList
	// contains filtered or unexported fields
}

Context of the query execution.

func NewContext 

func NewContext(
	ctx context.Context,
	opts ...ContextOption,
) *Context

NewContext creates a new query context. Options can be passed to configure the context. If some aspect of the context is not configure, the default value will be used. By default, the context will have an empty base session, a noop tracer and a memory manager using the process reporter.

func NewEmptyContext 

func NewEmptyContext() *Context

NewEmptyContext returns a default context with default values.

func (*Context) ApplyOpts 

func (c *Context) ApplyOpts(opts ...ContextOption)

ApplyOpts the options given to the context. Mostly for tests, not safe for use after construction of the context.

func (*Context) Error 

func (c *Context) Error(code int, msg string, args ...interface{})

Error adds an error as warning to the session.

func (*Context) KillConnection 

func (c *Context) KillConnection(connID uint32) error

Terminate the connection associated with |connID|.

func (*Context) LoadInfile 

func (c *Context) LoadInfile(filename string) (io.ReadCloser, error)

Load the remote file |filename| from the client. Returns a |ReadCloser| for the file's contents. Returns an error if this functionality is not supported.

func (*Context) NewCtxWithClient 

func (c *Context) NewCtxWithClient(client Client) *Context

NewCtxWithClient returns a new Context with the given [client]

func (*Context) NewErrgroup 

func (c *Context) NewErrgroup() (*errgroup.Group, *Context)

func (*Context) NewSubContext 

func (c *Context) NewSubContext() (*Context, context.CancelFunc)

NewSubContext creates a new sub-context with the current context as parent. Returns the resulting context.CancelFunc as well as the new *sql.Context, which be used to cancel the new context before the parent is finished.

func (*Context) Pid 

func (c *Context) Pid() uint64

Pid returns the process id associated with this context.

func (*Context) Query 

func (c *Context) Query() string

Query returns the query string associated with this context.

func (*Context) QueryTime 

func (c *Context) QueryTime() time.Time

QueryTime returns the time.Time when the context associated with this query was created

func (*Context) RootSpan 

func (c *Context) RootSpan() trace.Span

RootSpan returns the root span, if any.

func (*Context) SetQueryTime 

func (c *Context) SetQueryTime(t time.Time)

SetQueryTime updates the queryTime to the given time

func (*Context) Span 

func (c *Context) Span(
	opName string,
	opts ...trace.SpanStartOption,
) (trace.Span, *Context)

Span creates a new tracing span with the given context. It will return the span and a new context that should be passed to all children of this span.

func (*Context) Warn 

func (c *Context) Warn(code int, msg string, args ...interface{})

Warn adds a warning to the session.

func (*Context) WithContext 

func (c *Context) WithContext(ctx context.Context) *Context

WithContext returns a new context with the given underlying context.

func (Context) WithQuery 

func (c Context) WithQuery(q string) *Context

type ContextOption 

type ContextOption func(*Context)

ContextOption is a function to configure the context.

func WithMemoryManager 

func WithMemoryManager(m *MemoryManager) ContextOption

WithMemoryManager adds the given memory manager to the context.

func WithPid 

func WithPid(pid uint64) ContextOption

WithPid adds the given pid to the context.

func WithProcessList 

func WithProcessList(p ProcessList) ContextOption

func WithQuery 

func WithQuery(q string) ContextOption

WithQuery adds the given query to the context.

func WithRootSpan 

func WithRootSpan(s trace.Span) ContextOption

WithRootSpan sets the root span of the context.

func WithServices 

func WithServices(services Services) ContextOption

WithServices sets the services for the Context

func WithSession 

func WithSession(s Session) ContextOption

WithSession adds the given session to the context.

func WithTracer 

func WithTracer(t trace.Tracer) ContextOption

WithTracer adds the given tracer to the context.

type CreateFunc0Args 

type CreateFunc0Args func() Expression

type CreateFunc1Args 

type CreateFunc1Args func(e1 Expression) Expression

type CreateFunc2Args 

type CreateFunc2Args func(e1, e2 Expression) Expression

type CreateFunc3Args 

type CreateFunc3Args func(e1, e2, e3 Expression) Expression

type CreateFunc4Args 

type CreateFunc4Args func(e1, e2, e3, e4 Expression) Expression

type CreateFunc5Args 

type CreateFunc5Args func(e1, e2, e3, e4, e5 Expression) Expression

type CreateFunc6Args 

type CreateFunc6Args func(e1, e2, e3, e4, e5, e6 Expression) Expression

type CreateFunc7Args 

type CreateFunc7Args func(e1, e2, e3, e4, e5, e6, e7 Expression) Expression

type CreateFuncNArgs 

type CreateFuncNArgs func(args ...Expression) (Expression, error)

type Database 

type Database interface {
	Nameable
	// GetTableInsensitive retrieves a table by its case-insensitive name. To be SQL compliant, databases should not
	// allow two tables with the same case-insensitive name. Behavior is undefined when two tables have the same
	// case-insensitive name.
	GetTableInsensitive(ctx *Context, tblName string) (Table, bool, error)
	// GetTableNames returns the table names of every table in the database. It does not return the names of temporary
	// tables
	GetTableNames(ctx *Context) ([]string, error)
}

Database represents the database. Its primary job is to provide access to all tables.

type DatabaseProvider 

type DatabaseProvider interface {
	// Database gets a Database from the provider.
	Database(ctx *Context, name string) (Database, error)
	// HasDatabase checks if the Database exists in the provider.
	HasDatabase(ctx *Context, name string) bool
	// AllDatabases returns a slice of all Databases in the provider.
	AllDatabases(ctx *Context) []Database
}

DatabaseProvider is the fundamental interface to integrate with the engine. It provides access to all databases in a given backend. A DatabaseProvider is provided to the Catalog when the engine is initialized.

func NewDatabaseProvider 

func NewDatabaseProvider(dbs ...Database) DatabaseProvider

type Databaseable 

type Databaseable interface {
	Database() string
}

Databaseable is a node with a string reference to a database

type Databaser 

type Databaser interface {
	// Database the current database.
	Database() Database
	// WithDatabase returns a new node instance with the database replaced with
	// the one given as parameter.
	WithDatabase(Database) (Node, error)
}

Databaser is a node that contains a reference to a database.

type DatetimeType 

type DatetimeType interface {
	Type
	ConvertWithoutRangeCheck(v interface{}) (time.Time, error)
	MaximumTime() time.Time
	MinimumTime() time.Time
}

DatetimeType represents DATE, DATETIME, and TIMESTAMP. https://dev.mysql.com/doc/refman/8.0/en/datetime.html The type of the returned value is time.Time.

type DbTable 

type DbTable struct {
	Db    string
	Table string
}

func NewDbTable 

func NewDbTable(db, table string) DbTable

func (*DbTable) String 

func (dt *DbTable) String() string

type DebugStringer 

type DebugStringer interface {
	// DebugString prints a debug string of the node in question.
	DebugString() string
}

DebugStringer is shared by implementors of Node and Expression, and is used for debugging the analyzer. It allows a node or expression to be printed in greater detail than its default String() representation.

type DecimalType 

type DecimalType interface {
	Type
	// ConvertToNullDecimal converts the given value to a decimal.NullDecimal if it has a compatible type. It is worth
	// noting that Convert() returns a nil value for nil inputs, and also returns decimal.Decimal rather than
	// decimal.NullDecimal.
	ConvertToNullDecimal(v interface{}) (decimal.NullDecimal, error)
	//ConvertNoBoundsCheck normalizes an interface{} to a decimal type without performing expensive bound checks
	ConvertNoBoundsCheck(v interface{}) (decimal.Decimal, error)
	// BoundsCheck rounds and validates a decimal
	BoundsCheck(v decimal.Decimal) (decimal.Decimal, error)
	// ExclusiveUpperBound returns the exclusive upper bound for this Decimal.
	// For example, DECIMAL(5,2) would return 1000, as 999.99 is the max represented.
	ExclusiveUpperBound() decimal.Decimal
	// MaximumScale returns the maximum scale allowed for the current precision.
	MaximumScale() uint8
	// Precision returns the base-10 precision of the type, which is the total number of digits. For example, a
	// precision of 3 means that 999, 99.9, 9.99, and .999 are all valid maximums (depending on the scale).
	Precision() uint8
	// Scale returns the scale, or number of digits after the decimal, that may be held.
	// This will always be less than or equal to the precision.
	Scale() uint8
}

DecimalType represents the DECIMAL type. https://dev.mysql.com/doc/refman/8.0/en/fixed-point-types.html The type of the returned value is decimal.Decimal.

type DeferredType 

type DeferredType interface {
	Type
	IsDeferred() bool
	Name() string
}

DeferredType is a placeholder for prepared statements that is replaced by the BindVar type on re-analysis.

type DeletableTable 

type DeletableTable interface {
	Table
	// Deleter returns a RowDeleter for this table. The RowDeleter will get one call to Delete for each row to be deleted,
	// and will end with a call to Close() to finalize the delete operation.
	Deleter(*Context) RowDeleter
}

DeletableTable is a table that can delete rows.

type Disposable 

type Disposable interface {
	// Dispose the contents.
	Dispose()
}

Disposable objects can erase all their content when they're no longer in use. Expressions and Nodes that implement Disposable will have Dispose called on them as a final stage of query execution. This can be used to clean up cached memory that wouldn't get caught via the normal garbage collection process.

type DisposeFunc 

type DisposeFunc func()

DisposeFunc is a function to completely erase a cache and remove it from the manager.

type DriverIndex 

type DriverIndex interface {
	Index
	// Driver ID of the index.
	Driver() string
}

An indexed managed by a driver, as opposed to natively by a DB table.

type DriverIndexLookup 

type DriverIndexLookup interface {
	Lookup() IndexLookup

	// Values returns the values in the subset of the index. These are used to populate the index via the driver.
	Values(Partition) (IndexValueIter, error)

	// Indexes returns the IDs of all indexes involved in this lookup.
	Indexes() []string
}

DriverIndexLookup is a subset of an index. More specific interfaces can be implemented to grant more capabilities to the index lookup.

type DriverIndexableTable 

type DriverIndexableTable interface {
	IndexAddressableTable
	WithDriverIndexLookup(DriverIndexLookup) Table
	// IndexKeyValues returns an iterator over partitions and ultimately the rows of the table to compute the value of an
	// index for every row in this table. Used when creating an index for access through an IndexDriver.
	IndexKeyValues(*Context, []string) (PartitionIndexKeyValueIter, error)
}

DriverIndexableTable represents a table that supports being indexed and receiving indexes to be able to speed up its execution.

type EditOpenerCloser 

type EditOpenerCloser interface {
	// StatementBegin is called before the first operation of a statement. Integrators should mark the state of the data
	// in some way that it may be returned to in the case of an error.
	StatementBegin(ctx *Context)
	// DiscardChanges is called if a statement encounters an error, and all current changes since the statement beginning
	// should be discarded.
	DiscardChanges(ctx *Context, errorEncountered error) error
	// StatementComplete is called after the last operation of the statement, indicating that it has successfully completed.
	// The mark set in StatementBegin may be removed, and a new one should be created on the next StatementBegin.
	StatementComplete(ctx *Context) error
}

EditOpenerCloser is the base interface for table editors, and deals with statement boundaries.

type EmptyProcessList 

type EmptyProcessList struct{}

EmptyProcessList is a no-op implementation of ProcessList suitable for use in tests or other installations that don't require a process list

func (EmptyProcessList) AddConnection 

func (e EmptyProcessList) AddConnection(id uint32, addr string)

func (EmptyProcessList) AddPartitionProgress 

func (e EmptyProcessList) AddPartitionProgress(pid uint64, tableName, partitionName string, total int64)

func (EmptyProcessList) AddTableProgress 

func (e EmptyProcessList) AddTableProgress(pid uint64, name string, total int64)

func (EmptyProcessList) BeginQuery 

func (e EmptyProcessList) BeginQuery(ctx *Context, query string) (*Context, error)

func (EmptyProcessList) ConnectionReady 

func (e EmptyProcessList) ConnectionReady(Session)

func (EmptyProcessList) Done 

func (e EmptyProcessList) Done(pid uint64)

func (EmptyProcessList) EndQuery 

func (e EmptyProcessList) EndQuery(ctx *Context)

func (EmptyProcessList) Kill 

func (e EmptyProcessList) Kill(connID uint32)

func (EmptyProcessList) Processes 

func (e EmptyProcessList) Processes() []Process

func (EmptyProcessList) RemoveConnection 

func (e EmptyProcessList) RemoveConnection(uint32)

func (EmptyProcessList) RemovePartitionProgress 

func (e EmptyProcessList) RemovePartitionProgress(pid uint64, tableName, partitionName string)

func (EmptyProcessList) RemoveTableProgress 

func (e EmptyProcessList) RemoveTableProgress(pid uint64, name string)

func (EmptyProcessList) UpdatePartitionProgress 

func (e EmptyProcessList) UpdatePartitionProgress(pid uint64, tableName, partitionName string, delta int64)

func (EmptyProcessList) UpdateTableProgress 

func (e EmptyProcessList) UpdateTableProgress(pid uint64, name string, delta int64)

type Engine 

type Engine struct {
	Name string
	// contains filtered or unexported fields
}

Engine represents a sql engine.

func (Engine) Comment 

func (e Engine) Comment() string

Comment returns a brief description of the storage engine.

func (Engine) Savepoints 

func (e Engine) Savepoints() string

Savepoints returns whether the storage engine supports savepoints.

func (Engine) String 

func (e Engine) String() string

String returns the string representation of the Engine.

func (Engine) Support 

func (e Engine) Support() string

Support returns the server's level of support for the storage engine,

func (Engine) Transactions 

func (e Engine) Transactions() string

Transactions returns whether the storage engine supports transactions.

func (Engine) XA 

func (e Engine) XA() string

XA returns whether the storage engine supports XA transactions.

type EnumType 

type EnumType interface {
	Type
	// At returns the string at the given index, as well if the string was found.
	At(index int) (string, bool)
	CharacterSet() CharacterSetID
	Collation() CollationID
	// IndexOf returns the index of the given string. If the string was not found, then this returns -1.
	IndexOf(v string) int
	// NumberOfElements returns the number of enumerations.
	NumberOfElements() uint16
	// Values returns the elements, in order, of every enumeration.
	Values() []string
}

EnumType represents the ENUM type. https://dev.mysql.com/doc/refman/8.0/en/enum.html The type of the returned value is uint16.

type Expression 

type Expression interface {
	Resolvable
	fmt.Stringer
	// Type returns the expression type.
	Type() Type
	// IsNullable returns whether the expression can be null.
	IsNullable() bool
	// Eval evaluates the given row and returns a result.
	Eval(ctx *Context, row Row) (interface{}, error)
	// Children returns the children expressions of this expression.
	Children() []Expression
	// WithChildren returns a copy of the expression with children replaced.
	// It will return an error if the number of children is different than
	// the current number of children. They must be given in the same order
	// as they are returned by Children.
	WithChildren(children ...Expression) (Expression, error)
}

Expression is a combination of one or more SQL expressions.

func NillaryWithChildren 

func NillaryWithChildren(expr Expression, children ...Expression) (Expression, error)

NillaryWithChildren is a common implementation of expression.WithChildren for expressions with no children.

type Expression2 

type Expression2 interface {
	Expression
	// Eval2 evaluates the given row frame and returns a result.
	Eval2(ctx *Context, row Row2) (Value, error)
	// Type2 returns the expression type.
	Type2() Type2
}

Expression2 is an experimental future interface alternative to Expression to provide faster access.

type ExpressionWithNodes 

type ExpressionWithNodes interface {
	Expression
	// NodeChildren returns all node children.
	NodeChildren() []Node
	// WithNodeChildren returns a copy of the expression with its node children replaced. It will return an error if the
	// number of children is different than the current number of children. They must be given in the same order as they
	// are returned by NodeChildren.
	WithNodeChildren(children ...Node) (ExpressionWithNodes, error)
}

ExpressionWithNodes is an expression that contains nodes as children.

type Expressioner 

type Expressioner interface {
	// Expressions returns the list of expressions contained by the node.
	Expressions() []Expression
	// WithExpressions returns a copy of the node with expressions replaced.
	// It will return an error if the number of expressions is different than
	// the current number of expressions. They must be given in the same order
	// as they are returned by Expressions.
	WithExpressions(...Expression) (Node, error)
}

Expressioner is a node that contains expressions.

type ExternalStoredProcedureDetails 

type ExternalStoredProcedureDetails struct {
	// Name is the name of the external stored procedure. If two external stored procedures share a name, then they're
	// considered overloaded. Standard stored procedures do not support overloading.
	Name string
	// Schema describes the row layout of the RowIter returned from Function.
	Schema Schema
	// Function is the implementation of the external stored procedure. All functions should have the following definition:
	// `func(*Context, <PARAMETERS>) (RowIter, error)`. The <PARAMETERS> may be any of the following types: `bool`,
	// `string`, `[]byte`, `int8`-`int64`, `uint8`-`uint64`, `float32`, `float64`, `time.Time`, or `Decimal`
	// (shopspring/decimal). The architecture-dependent types `int` and `uint` (without a number) are also supported.
	// It is valid to return a nil RowIter if there are no rows to be returned.
	//
	// Each parameter, by default, is an IN parameter. If the parameter type is a pointer, e.g. `*int32`, then it
	// becomes an INOUT parameter. INOUT parameters will be given their zero value if the parameter's value is nil.
	// There is no way to set a parameter as an OUT parameter.
	//
	// Values are converted to their nearest type before being passed in, following the conversion rules of their
	// related SQL types. The exceptions are `time.Time` (treated as a `DATETIME`), string (treated as a `LONGTEXT` with
	// the default collation) and Decimal (treated with a larger precision and scale). Take extra care when using decimal
	// for an INOUT parameter, to ensure that the returned value fits the original's precision and scale, else an error
	// will occur.
	//
	// As functions support overloading, each variant must have a completely unique function signature to prevent
	// ambiguity. Uniqueness is determined by the number of parameters. If two functions are returned that have the same
	// name and same number of parameters, then an error is thrown. If the last parameter is variadic, then the stored
	// procedure functions as though it has the integer-max number of parameters. When an exact match is not found for
	// overloaded functions, the largest function is used (which in this case will be the variadic function). Also, due
	// to the usage of the integer-max for the parameter count, only one variadic function is allowed per function name.
	// The type of the variadic parameter may not have a pointer type.
	Function interface{}
}

ExternalStoredProcedureDetails are the details of an external stored procedure. Compared to standard stored procedures, external ones are considered "built-in", in that they're not created by the user, and may not be modified or deleted by a user. In addition, they're implemented as a function taking standard parameters, compared to stored procedures being implemented as expressions.

func (ExternalStoredProcedureDetails) FakeCreateProcedureStmt 

func (espd ExternalStoredProcedureDetails) FakeCreateProcedureStmt() string

FakeCreateProcedureStmt returns a parseable CREATE PROCEDURE statement for this external stored procedure, as some tools (such as Java's JDBC connector) require a valid statement in some situations.

type ExternalStoredProcedureProvider 

type ExternalStoredProcedureProvider interface {
	// ExternalStoredProcedure returns the external stored procedure details for the procedure with the specified name
	// that is able to accept the specified number of parameters. If no matching external stored procedure is found,
	// nil, nil is returned. If an unexpected error is encountered, it is returned as the error parameter.
	ExternalStoredProcedure(ctx *Context, name string, numOfParams int) (*ExternalStoredProcedureDetails, error)
	// ExternalStoredProcedures returns a slice of all external stored procedure details with the specified name. External
	// stored procedures can overload the same name with different arguments, so this method enables a caller to see all
	// available variants with the specified name. If no matching external stored procedures are found, an
	// empty slice is returned, with a nil error. If an unexpected error is encountered, it is returned as the
	// error parameter.
	ExternalStoredProcedures(ctx *Context, name string) ([]ExternalStoredProcedureDetails, error)
}

ExternalStoredProcedureProvider provides access to built-in stored procedures. These procedures are implemented as functions, instead of as SQL statements. The returned stored procedures cannot be modified or deleted.

type ExternalStoredProcedureRegistry 

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

ExternalStoredProcedureRegistry manages a collection of ExternalStoredProcedures and encapsulates the logic for looking up external stored procedures based on name and number of arguments.

func NewExternalStoredProcedureRegistry 

func NewExternalStoredProcedureRegistry() ExternalStoredProcedureRegistry

NewExternalStoredProcedureRegistry creates a new, empty instance of ExternalStoredProcedureRegistry.

func (*ExternalStoredProcedureRegistry) LookupByName 

func (epd *ExternalStoredProcedureRegistry) LookupByName(name string) ([]ExternalStoredProcedureDetails, error)

LookupByName returns all stored procedure variants registered with the specified name, no matter how many parameters they require. If no external stored procedures are registered with the specified name, nil is returned, with no error. If an unexpected error occurs, it is returned as the error parameter.

func (*ExternalStoredProcedureRegistry) LookupByNameAndParamCount 

func (epd *ExternalStoredProcedureRegistry) LookupByNameAndParamCount(name string, numOfParams int) (*ExternalStoredProcedureDetails, error)

LookupByNameAndParamCount returns the external stored procedure registered with the specified name and able to accept the specified number of parameters. If no external stored procedures are registered with the specified name and able to accept the specified number of parameters, nil is returned with no error. If an unexpected error occurs, it is returned as the error param.

func (*ExternalStoredProcedureRegistry) Register 

func (epd *ExternalStoredProcedureRegistry) Register(procedureDetails ExternalStoredProcedureDetails)

Register adds an external stored procedure to this registry.

type FastIntSet 

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

FastIntSet keeps track of a set of integers. It does not perform any allocations when the values are small. It is not thread-safe.

func NewFastIntSet 

func NewFastIntSet(vals ...int) FastIntSet

NewFastIntSet returns a set initialized with the given values.

func (*FastIntSet) Add 

func (s *FastIntSet) Add(i int)

Add adds a value to the set. No-op if the value is already in the set.

func (*FastIntSet) AddRange 

func (s *FastIntSet) AddRange(from, to int)

AddRange adds values 'from' up to 'to' (inclusively) to the set. E.g. AddRange(1,5) adds the values 1, 2, 3, 4, 5 to the set. 'to' must be >= 'from'. AddRange is always more efficient than individual Adds.

func (FastIntSet) Contains 

func (s FastIntSet) Contains(i int) bool

Contains returns true if the set contains the value.

func (FastIntSet) Copy 

func (s FastIntSet) Copy() FastIntSet

Copy returns a copy of s which can be modified independently.

func (*FastIntSet) CopyFrom 

func (s *FastIntSet) CopyFrom(c FastIntSet)

CopyFrom sets the receiver to a copy of c, which can then be modified independently.

func (FastIntSet) Difference 

func (s FastIntSet) Difference(rhs FastIntSet) FastIntSet

Difference returns the elements of s that are not in rhs as a new set.

func (*FastIntSet) DifferenceWith 

func (s *FastIntSet) DifferenceWith(rhs FastIntSet)

DifferenceWith removes any elements in rhs from this set.

func (FastIntSet) Empty 

func (s FastIntSet) Empty() bool

Empty returns true if the set is empty.

func (FastIntSet) Equals 

func (s FastIntSet) Equals(rhs FastIntSet) bool

Equals returns true if the two sets are identical.

func (FastIntSet) ForEach 

func (s FastIntSet) ForEach(f func(i int))

ForEach calls a function for each value in the set (in increasing order).

func (FastIntSet) Intersection 

func (s FastIntSet) Intersection(rhs FastIntSet) FastIntSet

Intersection returns the intersection of s and rhs as a new set.

func (*FastIntSet) IntersectionWith 

func (s *FastIntSet) IntersectionWith(rhs FastIntSet)

IntersectionWith removes any elements not in rhs from this set.

func (FastIntSet) Intersects 

func (s FastIntSet) Intersects(rhs FastIntSet) bool

Intersects returns true if s has any elements in common with rhs.

func (FastIntSet) Len 

func (s FastIntSet) Len() int

Len returns the number of the elements in the set.

func (FastIntSet) Next 

func (s FastIntSet) Next(startVal int) (int, bool)

Next returns the first value in the set which is >= startVal. If there is no value, the second return value is false.

func (FastIntSet) Ordered 

func (s FastIntSet) Ordered() []int

Ordered returns a slice with all the integers in the set, in increasing order.

func (*FastIntSet) Remove 

func (s *FastIntSet) Remove(i int)

Remove removes a value from the set. No-op if the value is not in the set.

func (*FastIntSet) Shift 

func (s *FastIntSet) Shift(delta int) FastIntSet

Shift generates a new set which contains elements i+delta for elements i in the original set.

func (FastIntSet) String 

func (s FastIntSet) String() string

String returns a list representation of elements. Sequential runs of positive numbers are shown as ranges. For example, for the set {0, 1, 2, 5, 6, 10}, the output is "(0-2,5,6,10)".

func (FastIntSet) SubsetOf 

func (s FastIntSet) SubsetOf(rhs FastIntSet) bool

SubsetOf returns true if rhs contains all the elements in s.

func (FastIntSet) Union 

func (s FastIntSet) Union(rhs FastIntSet) FastIntSet

Union returns the union of s and rhs as a new set.

func (*FastIntSet) UnionWith 

func (s *FastIntSet) UnionWith(rhs FastIntSet)

UnionWith adds all the elements from rhs to this set.

type FilteredIndex 

type FilteredIndex interface {
	Index
	// HandledFilters returns a subset of |filters| that are satisfied
	// by index lookups to this index.
	HandledFilters(filters []Expression) (handled []Expression)
}

FilteredIndex is an extension of |Index| that allows an index to declare certain filter predicates handled, allowing them to be removed from the overall plan for greater execution efficiency

type FilteredTable 

type FilteredTable interface {
	Table
	// Filters returns the filter expressions that have been applied to this table.
	Filters() []Expression
	// HandledFilters returns the subset of the filter expressions given that this table can apply.
	HandledFilters(filters []Expression) []Expression
	// WithFilters returns a table with the given filter expressions applied.
	WithFilters(ctx *Context, filters []Expression) Table
}

FilteredTable is a table that can filter its result rows from RowIter using filter expressions that would otherwise be applied by a separate Filter node.

type ForeignKeyConstraint 

type ForeignKeyConstraint struct {
	Name           string
	Database       string
	Table          string
	Columns        []string
	ParentDatabase string
	ParentTable    string
	ParentColumns  []string
	OnUpdate       ForeignKeyReferentialAction
	OnDelete       ForeignKeyReferentialAction
	IsResolved     bool
}

ForeignKeyConstraint declares a constraint between the columns of two tables.

func (*ForeignKeyConstraint) DebugString 

func (f *ForeignKeyConstraint) DebugString() string

func (ForeignKeyConstraint) IsSelfReferential 

func (f ForeignKeyConstraint) IsSelfReferential() bool

IsSelfReferential returns whether this foreign key represents a self-referential foreign key.

type ForeignKeyEditor 

type ForeignKeyEditor interface {
	TableEditor
	IndexAddressable
}

ForeignKeyEditor is a TableEditor that is addressable via IndexLookup.

type ForeignKeyReferentialAction 

type ForeignKeyReferentialAction string

ForeignKeyReferentialAction is the behavior for this foreign key with the relevant action is performed on the foreign table. 

const (
	ForeignKeyReferentialAction_DefaultAction ForeignKeyReferentialAction = "DEFAULT" // No explicit action was specified
	ForeignKeyReferentialAction_Restrict      ForeignKeyReferentialAction = "RESTRICT"
	ForeignKeyReferentialAction_Cascade       ForeignKeyReferentialAction = "CASCADE"
	ForeignKeyReferentialAction_NoAction      ForeignKeyReferentialAction = "NO ACTION"
	ForeignKeyReferentialAction_SetNull       ForeignKeyReferentialAction = "SET NULL"
	ForeignKeyReferentialAction_SetDefault    ForeignKeyReferentialAction = "SET DEFAULT"
)

func (ForeignKeyReferentialAction) IsEquivalentToRestrict 

func (f ForeignKeyReferentialAction) IsEquivalentToRestrict() bool

IsEquivalentToRestrict returns whether the referential action is equivalent to RESTRICT. In MySQL, although there are a number of referential actions, the majority of them are functionally ignored and default to RESTRICT.

type ForeignKeyTable 

type ForeignKeyTable interface {
	IndexAddressableTable
	// CreateIndexForForeignKey creates an index for this table, using the provided parameters. Indexes created through
	// this function are specifically ones generated for use with a foreign key. Returns an error if the index name
	// already exists, or an index on the same columns already exists.
	CreateIndexForForeignKey(ctx *Context, indexDef IndexDef) error
	// GetDeclaredForeignKeys returns the foreign key constraints that are declared by this table.
	GetDeclaredForeignKeys(ctx *Context) ([]ForeignKeyConstraint, error)
	// GetReferencedForeignKeys returns the foreign key constraints that are referenced by this table.
	GetReferencedForeignKeys(ctx *Context) ([]ForeignKeyConstraint, error)
	// AddForeignKey adds the given foreign key constraint to the table. Returns an error if the foreign key name
	// already exists on any other table within the database.
	AddForeignKey(ctx *Context, fk ForeignKeyConstraint) error
	// DropForeignKey removes a foreign key from the table.
	DropForeignKey(ctx *Context, fkName string) error
	// UpdateForeignKey updates the given foreign key constraint. May range from updated table names to setting the
	// IsResolved boolean.
	UpdateForeignKey(ctx *Context, fkName string, fk ForeignKeyConstraint) error
	// GetForeignKeyEditor returns a ForeignKeyEditor for this table.
	GetForeignKeyEditor(ctx *Context) ForeignKeyEditor
}

ForeignKeyTable is a table that declares foreign key constraints, and can be referenced by other tables' foreign key constraints.

type Freeable 

type Freeable interface {
	// Free the memory.
	Free()
}

Freeable objects can free their memory.

type Function 

type Function interface {
	// NewInstance returns a new instance of the function to evaluate against rows
	NewInstance([]Expression) (Expression, error)
	// FunctionName returns the name of this function
	FunctionName() string
	// contains filtered or unexported methods
}

Function is a function defined by the user that can be applied in a SQL query.

type Function0 

type Function0 struct {
	Name string
	Fn   CreateFunc0Args
}

Function0 is a function with 0 arguments.

func NewFunction0 

func NewFunction0(name string, fn func() Expression) Function0

func (Function0) FunctionName 

func (fn Function0) FunctionName() string

func (Function0) NewInstance 

func (fn Function0) NewInstance(args []Expression) (Expression, error)

type Function1 

type Function1 struct {
	Name string
	Fn   CreateFunc1Args
}

Function1 is a function with 1 argument.

func (Function1) FunctionName 

func (fn Function1) FunctionName() string

func (Function1) NewInstance 

func (fn Function1) NewInstance(args []Expression) (Expression, error)

type Function2 

type Function2 struct {
	Name string
	Fn   CreateFunc2Args
}

Function2 is a function with 2 arguments.

func (Function2) FunctionName 

func (fn Function2) FunctionName() string

func (Function2) NewInstance 

func (fn Function2) NewInstance(args []Expression) (Expression, error)

type Function3 

type Function3 struct {
	Name string
	Fn   CreateFunc3Args
}

Function3 is a function with 3 arguments.

func (Function3) FunctionName 

func (fn Function3) FunctionName() string

func (Function3) NewInstance 

func (fn Function3) NewInstance(args []Expression) (Expression, error)

type Function4 

type Function4 struct {
	Name string
	Fn   CreateFunc4Args
}

Function4 is a function with 4 arguments.

func (Function4) FunctionName 

func (fn Function4) FunctionName() string

func (Function4) NewInstance 

func (fn Function4) NewInstance(args []Expression) (Expression, error)

type Function5 

type Function5 struct {
	Name string
	Fn   CreateFunc5Args
}

Function5 is a function with 5 arguments.

func (Function5) FunctionName 

func (fn Function5) FunctionName() string

func (Function5) NewInstance 

func (fn Function5) NewInstance(args []Expression) (Expression, error)

type Function6 

type Function6 struct {
	Name string
	Fn   CreateFunc6Args
}

Function6 is a function with 6 arguments.

func (Function6) FunctionName 

func (fn Function6) FunctionName() string

func (Function6) NewInstance 

func (fn Function6) NewInstance(args []Expression) (Expression, error)

type Function7 

type Function7 struct {
	Name string
	Fn   CreateFunc7Args
}

Function7 is a function with 7 arguments.

func (Function7) FunctionName 

func (fn Function7) FunctionName() string

func (Function7) NewInstance 

func (fn Function7) NewInstance(args []Expression) (Expression, error)

type FunctionExpression 

type FunctionExpression interface {
	Expression
	FunctionName() string
	Description() string
}

FunctionExpression is an Expression that represents a function.

type FunctionN 

type FunctionN struct {
	Name string
	Fn   CreateFuncNArgs
}

FunctionN is a function with variable number of arguments. This function is expected to return ErrInvalidArgumentNumber if the arity does not match, since the check has to be done in the implementation.

func (FunctionN) FunctionName 

func (fn FunctionN) FunctionName() string

func (FunctionN) NewInstance 

func (fn FunctionN) NewInstance(args []Expression) (Expression, error)

type FunctionProvider 

type FunctionProvider interface {
	// Function returns the function with the name provided, case-insensitive
	Function(ctx *Context, name string) (Function, error)
}

FunctionProvider is an interface that allows custom functions to be provided. It's usually (but not always) implemented by a DatabaseProvider.

type Histogram 

type Histogram struct {
	Buckets       []*HistogramBucket
	Mean          float64
	Min           float64
	Max           float64
	Count         uint64
	NullCount     uint64
	DistinctCount uint64
}

Histogram is all statistics we care about for each column

type HistogramBucket 

type HistogramBucket struct {
	LowerBound float64 // inclusive
	UpperBound float64 // inclusive
	Frequency  float64
}

HistogramBucket represents a bucket in a histogram inspiration pulled from MySQL and Cockroach DB

type HistogramMap 

type HistogramMap map[string]*Histogram

HistogramMap is a map from column name to associated histogram

type IgnorableError 

type IgnorableError struct {
	OffendingRow Row
}

IgnorableError is used propagate information about an error that needs to be ignored and does not interfere with any update accumulators

func NewIgnorableError 

func NewIgnorableError(row Row) IgnorableError

func (IgnorableError) Error 

func (e IgnorableError) Error() string

type Index 

type Index interface {
	// ID returns the identifier of the index.
	ID() string
	// Database returns the database name this index belongs to.
	Database() string
	// Table returns the table name this index belongs to.
	Table() string
	// Expressions returns the indexed expressions. If the result is more than
	// one expression, it means the index has multiple columns indexed. If it's
	// just one, it means it may be an expression or a column.
	Expressions() []string
	// IsUnique returns whether this index is unique
	IsUnique() bool
	// IsSpatial returns whether this index is a spatial index
	IsSpatial() bool
	// Comment returns the comment for this index
	Comment() string
	// IndexType returns the type of this index, e.g. BTREE
	IndexType() string
	// IsGenerated returns whether this index was generated. Generated indexes
	// are used for index access, but are not displayed (such as with SHOW INDEXES).
	IsGenerated() bool
	// ColumnExpressionTypes returns each expression and its associated Type.
	// Each expression string should exactly match the string returned from
	// Index.Expressions().
	ColumnExpressionTypes() []ColumnExpressionType
	// CanSupport returns whether this index supports lookups on the given
	// range filters.
	CanSupport(...Range) bool
	// PrefixLengths returns the prefix lengths for each column in this index
	PrefixLengths() []uint16
}

Index is the representation of an index, and also creates an IndexLookup when given a collection of ranges.

type IndexAddressable 

type IndexAddressable interface {
	// IndexedAccess returns a table that can perform scans constrained to
	// an IndexLookup on the index given, or nil if the index cannot support
	// the lookup expression.
	IndexedAccess(IndexLookup) IndexedTable
	// GetIndexes returns an array of this table's Indexes
	GetIndexes(ctx *Context) ([]Index, error)
}

IndexAddressable is a table that can be scanned through a primary index

type IndexAddressableTable 

type IndexAddressableTable interface {
	Table
	IndexAddressable
}

IndexAddressableTable is a table that can be accessed through an index

type IndexAlterableTable 

type IndexAlterableTable interface {
	Table
	// CreateIndex creates an index for this table, using the provided parameters.
	// Returns an error if the index name already exists, or an index with the same columns already exists.
	CreateIndex(ctx *Context, indexDef IndexDef) error
	// DropIndex removes an index from this table, if it exists.
	// Returns an error if the removal failed or the index does not exist.
	DropIndex(ctx *Context, indexName string) error
	// RenameIndex renames an existing index to another name that is not already taken by another index on this table.
	RenameIndex(ctx *Context, fromIndexName string, toIndexName string) error
}

IndexAlterableTable represents a table that supports index modification operations.

type IndexBuilder 

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

IndexBuilder builds ranges based on the combination of calls made for the given index, and then relies on the Index to return an IndexLookup from the created ranges.

func NewIndexBuilder 

func NewIndexBuilder(idx Index) *IndexBuilder

NewIndexBuilder returns a new IndexBuilder. Used internally to construct a range that will later be passed to integrators through the Index function NewLookup.

func (*IndexBuilder) Build 

func (b *IndexBuilder) Build(ctx *Context) (IndexLookup, error)

Build constructs a new IndexLookup based on the ranges that have been built internally by this builder.

func (*IndexBuilder) Equals 

func (b *IndexBuilder) Equals(ctx *Context, colExpr string, keys ...interface{}) *IndexBuilder

Equals represents colExpr = key. For IN expressions, pass all of them in the same Equals call.

func (*IndexBuilder) GreaterOrEqual 

func (b *IndexBuilder) GreaterOrEqual(ctx *Context, colExpr string, key interface{}) *IndexBuilder

GreaterOrEqual represents colExpr >= key.

func (*IndexBuilder) GreaterThan 

func (b *IndexBuilder) GreaterThan(ctx *Context, colExpr string, key interface{}) *IndexBuilder

GreaterThan represents colExpr > key.

func (*IndexBuilder) IsNotNull 

func (b *IndexBuilder) IsNotNull(ctx *Context, colExpr string) *IndexBuilder

IsNotNull represents colExpr != nil

func (*IndexBuilder) IsNull 

func (b *IndexBuilder) IsNull(ctx *Context, colExpr string) *IndexBuilder

IsNull represents colExpr = nil

func (*IndexBuilder) LessOrEqual 

func (b *IndexBuilder) LessOrEqual(ctx *Context, colExpr string, key interface{}) *IndexBuilder

LessOrEqual represents colExpr <= key.

func (*IndexBuilder) LessThan 

func (b *IndexBuilder) LessThan(ctx *Context, colExpr string, key interface{}) *IndexBuilder

LessThan represents colExpr < key.

func (*IndexBuilder) NotEquals 

func (b *IndexBuilder) NotEquals(ctx *Context, colExpr string, key interface{}) *IndexBuilder

NotEquals represents colExpr <> key.

func (*IndexBuilder) Ranges 

func (b *IndexBuilder) Ranges(ctx *Context) RangeCollection

Ranges returns all ranges for this index builder. If the builder is in an error state then this returns nil.

type IndexColumn 

type IndexColumn struct {
	Name string
	// Length represents the index prefix length. If zero, then no length was specified.
	Length int64
}

IndexColumn is the column by which to add to an index.

type IndexConstraint 

type IndexConstraint byte

IndexConstraint represents any constraints that should be applied to the index. 

const (
	IndexConstraint_None IndexConstraint = iota
	IndexConstraint_Unique
	IndexConstraint_Fulltext
	IndexConstraint_Spatial
	IndexConstraint_Primary
)

type IndexDef 

type IndexDef struct {
	Name       string
	Columns    []IndexColumn
	Constraint IndexConstraint
	Storage    IndexUsing
	Comment    string
}

type IndexDriver 

type IndexDriver interface {
	// ID returns the unique name of the driver.
	ID() string
	// Create a new index. If exprs is more than one expression, it means the
	// index has multiple columns indexed. If it's just one, it means it may
	// be an expression or a column.
	Create(db, table, id string, expressions []Expression, config map[string]string) (DriverIndex, error)
	// LoadAll loads all indexes for given db and table.
	LoadAll(ctx *Context, db, table string) ([]DriverIndex, error)
	// Save the given index for all partitions.
	Save(*Context, DriverIndex, PartitionIndexKeyValueIter) error
	// Delete the given index for all partitions in the iterator.
	Delete(DriverIndex, PartitionIter) error
}

IndexDriver manages the coordination between the indexes and their representation on disk.

type IndexKeyValueIter 

type IndexKeyValueIter interface {
	// Next returns the next tuple of index key values. The length of the
	// returned slice will be the same as the number of columns used to
	// create this iterator. The second returned parameter is a repo's location.
	Next(*Context) ([]interface{}, []byte, error)
	Closer
}

IndexKeyValueIter is an iterator of index key values, that is, a tuple of the values that will be index keys.

type IndexLookup 

type IndexLookup struct {
	Index  Index
	Ranges RangeCollection
	// IsPointLookup is true if the lookup will return one or zero
	// values; the range is null safe, the index is unique, every index
	// column has a range expression, and every range expression is an
	// exact equality.
	IsPointLookup   bool
	IsEmptyRange    bool
	IsSpatialLookup bool
}

IndexLookup is the implementation-specific definition of an index lookup. The IndexLookup must contain all necessary information to retrieve exactly the rows in the table as specified by the ranges given to their parent index. Implementors are responsible for all semantics of correctly returning rows that match an index lookup.

func (IndexLookup) DebugString 

func (il IndexLookup) DebugString() string

func (IndexLookup) IsEmpty 

func (il IndexLookup) IsEmpty() bool

func (IndexLookup) String 

func (il IndexLookup) String() string

type IndexOrder 

type IndexOrder byte
const (
	IndexOrderNone IndexOrder = iota
	IndexOrderAsc
	IndexOrderDesc
)

type IndexRegistry 

type IndexRegistry struct {
	// Root path where all the data of the indexes is stored on disk.
	Root string
	// contains filtered or unexported fields
}

IndexRegistry keeps track of all driver-provided indexes in the engine.

func NewIndexRegistry 

func NewIndexRegistry() *IndexRegistry

NewIndexRegistry returns a new Index Registry.

func (*IndexRegistry) AddIndex 

func (r *IndexRegistry) AddIndex(
	idx DriverIndex,
) (created chan<- struct{}, ready <-chan struct{}, err error)

AddIndex adds the given index to the registry. The added index will be marked as creating, so nobody can register two indexes with the same expression or id while the other is still being created. When something is sent through the returned channel, it means the index has finished its creation and will be marked as ready. Another channel is returned to notify the user when the index is ready.

func (*IndexRegistry) CanRemoveIndex 

func (r *IndexRegistry) CanRemoveIndex(idx Index) bool

CanRemoveIndex returns whether the given index is ready to be removed.

func (*IndexRegistry) CanUseIndex 

func (r *IndexRegistry) CanUseIndex(idx Index) bool

CanUseIndex returns whether the given index is ready to use or not.

func (*IndexRegistry) DefaultIndexDriver 

func (r *IndexRegistry) DefaultIndexDriver() IndexDriver

DefaultIndexDriver returns the default index driver, which is the only driver when there is 1 driver in the registry. If there are more than 1 drivers in the registry, this will return the empty string, as there is no clear default driver.

func (*IndexRegistry) DeleteIndex 

func (r *IndexRegistry) DeleteIndex(db, id string, force bool) (<-chan struct{}, error)

DeleteIndex deletes an index from the registry by its id. First, it marks the index for deletion but does not remove it, so queries that are using it may still do so. The returned channel will send a message when the index can be deleted from disk. If force is true, it will delete the index even if it's not ready for usage. Only use that parameter if you know what you're doing.

func (*IndexRegistry) ExpressionsWithIndexes 

func (r *IndexRegistry) ExpressionsWithIndexes(
	db string,
	exprs ...Expression,
) [][]Expression

ExpressionsWithIndexes finds all the combinations of expressions with matching indexes. This only matches multi-column indexes.

func (*IndexRegistry) HasIndexes 

func (r *IndexRegistry) HasIndexes() bool

HasIndexes returns whether the index registry has any registered indexes. Not thread safe, so the answer is approximate in the face of drivers and indexes being added and removed.

func (*IndexRegistry) Index 

func (r *IndexRegistry) Index(db, id string) DriverIndex

Index returns the index with the given id. It may return nil if the index is not found.

func (*IndexRegistry) IndexDriver 

func (r *IndexRegistry) IndexDriver(id string) IndexDriver

IndexDriver returns the IndexDriver with the given ID.

func (*IndexRegistry) IndexesByTable 

func (r *IndexRegistry) IndexesByTable(db, table string) []DriverIndex

IndexesByTable returns a slice of all the indexes existing on the given table.

func (*IndexRegistry) LoadIndexes 

func (r *IndexRegistry) LoadIndexes(ctx *Context, dbs []Database) error

LoadIndexes creates load functions for all indexes for all dbs, tables and drivers. These functions are called as needed by the query

func (*IndexRegistry) MarkOutdated 

func (r *IndexRegistry) MarkOutdated(idx Index)

MarkOutdated sets the index status as outdated. This method is not thread safe and should not be used directly except for testing.

func (*IndexRegistry) MatchingIndex 

func (r *IndexRegistry) MatchingIndex(ctx *Context, db string, expr ...Expression) (index Index, prefixCount int, err error)

MatchingIndex returns the index that best fits the given expressions. See analyzer.MatchingIndexes for the rules regarding which index is considered the best. If no index matches then returns nil.

func (*IndexRegistry) RegisterIndexDriver 

func (r *IndexRegistry) RegisterIndexDriver(driver IndexDriver)

RegisterIndexDriver registers a new index driver.

func (*IndexRegistry) ReleaseIndex 

func (r *IndexRegistry) ReleaseIndex(idx Index)

ReleaseIndex releases an index after it's been used.

type IndexStatus 

type IndexStatus byte

IndexStatus represents the current status in which the index is. 

const (
	// IndexNotReady means the index is not ready to be used.
	IndexNotReady IndexStatus = iota
	// IndexReady means the index can be used.
	IndexReady
	// IndexOutdated means the index is loaded but will not be used because the
	// contents in it are outdated.
	IndexOutdated
)

func (IndexStatus) IsUsable 

func (s IndexStatus) IsUsable() bool

IsUsable returns whether the index can be used or not based on the status.

func (IndexStatus) String 

func (s IndexStatus) String() string

type IndexUsing 

type IndexUsing byte

IndexUsing is the desired storage type. 

const (
	IndexUsing_Default IndexUsing = iota
	IndexUsing_BTree
	IndexUsing_Hash
)

type IndexValueIter 

type IndexValueIter interface {
	// Next returns the next value (repo's location) - see IndexKeyValueIter.
	Next(*Context) ([]byte, error)
	Closer
}

IndexValueIter is an iterator of index values.

type IndexedTable 

type IndexedTable interface {
	Table
	// LookupPartitions returns partitions scanned by the given IndexLookup
	LookupPartitions(*Context, IndexLookup) (PartitionIter, error)
}

IndexedTable is a table with an index chosen for range scans

type IndexedTableCreator 

type IndexedTableCreator interface {
	Database
	// CreateIndexedTable creates the table with the given name and schema using the index definition provided for its
	// primary key index.
	CreateIndexedTable(ctx *Context, name string, schema PrimaryKeySchema, idxDef IndexDef, collation CollationID) error
}

IndexedTableCreator is a Database that can create new tables which have a Primary Key with columns that have prefix lengths.

type InsertableTable 

type InsertableTable interface {
	Table
	// Inserter returns an Inserter for this table. The Inserter will get one call to Insert() for each row to be
	// inserted, and will end with a call to Close() to finalize the insert operation.
	Inserter(*Context) RowInserter
}

InsertableTable is a table that can process insertion of new rows.

type KeyValueCache 

type KeyValueCache interface {
	// Put a new value in the cache.
	Put(uint64, interface{}) error
	// Get the value with the given key. An error is returned if the specified key does not exist.
	Get(uint64) (interface{}, error)
	// Size returns the number of elements in the cache.
	Size() int
}

KeyValueCache is a cache of key value pairs.

type LockState 

type LockState int

LockState represents the different states a lock can be in 

const (
	// LockDoesNotExist is the state where a lock has never been created
	LockDoesNotExist LockState = iota
	// LockInUse is the state where a lock has been acquired by a user
	LockInUse
	// LockFree is the state where a lock has been created, but is not currently owned by any user
	LockFree
)

type LockSubsystem 

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

LockSubsystem manages reentrant named locks

func NewLockSubsystem 

func NewLockSubsystem() *LockSubsystem

NewLockSubsystem creates a LockSubsystem object

func (*LockSubsystem) GetLockState 

func (ls *LockSubsystem) GetLockState(name string) (state LockState, owner uint32)

GetLockState returns the LockState and owner ID for a lock with a given name.

func (*LockSubsystem) Lock 

func (ls *LockSubsystem) Lock(ctx *Context, name string, timeout time.Duration) error

Lock attempts to acquire a lock with a given name for the Id associated with the given ctx.Session within the given timeout

func (*LockSubsystem) ReleaseAll 

func (ls *LockSubsystem) ReleaseAll(ctx *Context) (int, error)

ReleaseAll releases all locks the ID associated with the given ctx.Session, and returns the number of locks that were succeessfully released.

func (*LockSubsystem) Unlock 

func (ls *LockSubsystem) Unlock(ctx *Context, name string) error

Unlock releases a lock with a given name for the ID associated with the given ctx.Session

type Lockable 

type Lockable interface {
	Nameable
	// Lock locks the table either for reads or writes. Any session clients can
	// read while the table is locked for read, but not write.
	// When the table is locked for write, nobody can write except for the
	// session client that requested the lock.
	Lock(ctx *Context, write bool) error
	// Unlock releases the lock for the current session client. It blocks until
	// all reads or writes started during the lock are finished.
	// Context may be nil if the unlock it's because the connection was closed.
	// The id will always be provided, since in some cases context is not
	// available.
	Unlock(ctx *Context, id uint32) error
}

Lockable should be implemented by tables that can be locked and unlocked.

type MemoryManager 

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

MemoryManager is in charge of keeping track and managing all the components that operate in memory. There should only be one instance of a memory manager running at the same time in each process.

func NewMemoryManager 

func NewMemoryManager(r Reporter) *MemoryManager

NewMemoryManager creates a new manager with the given memory reporter. If nil is given, then the Process reporter will be used by default.

func (*MemoryManager) Free 

func (m *MemoryManager) Free()

Free the memory of all freeable caches.

func (*MemoryManager) HasAvailable 

func (m *MemoryManager) HasAvailable() bool

HasAvailable reports whether the memory manager has any available memory.

func (*MemoryManager) NewHistoryCache 

func (m *MemoryManager) NewHistoryCache() (KeyValueCache, DisposeFunc)

NewHistoryCache returns an empty history cache and a function to dispose it when it's no longer needed.

func (*MemoryManager) NewLRUCache 

func (m *MemoryManager) NewLRUCache(size uint) (KeyValueCache, DisposeFunc)

NewLRUCache returns an empty LRU cache and a function to dispose it when it's no longer needed.

func (*MemoryManager) NewRows2Cache 

func (m *MemoryManager) NewRows2Cache() (Rows2Cache, DisposeFunc)

NewRowsCache returns an empty rows cache and a function to dispose it when it's no longer needed.

func (*MemoryManager) NewRowsCache 

func (m *MemoryManager) NewRowsCache() (RowsCache, DisposeFunc)

NewRowsCache returns an empty rows cache and a function to dispose it when it's no longer needed.

func (*MemoryManager) NumCaches 

func (m *MemoryManager) NumCaches() int

type MultiDatabaser 

type MultiDatabaser interface {
	// DatabaseProvider returns the current DatabaseProvider.
	DatabaseProvider() DatabaseProvider
	// WithDatabaseProvider returns a new node instance with the database provider replaced with the one given as parameter.
	WithDatabaseProvider(DatabaseProvider) (Node, error)
}

MultiDatabaser is a node that contains a reference to a database provider. This interface is intended for very specific nodes that must resolve databases during execution time rather than during analysis, such as block statements where the execution of a nested statement in the block may affect future statements within that same block.

type MutableDatabaseProvider 

type MutableDatabaseProvider interface {
	DatabaseProvider

	// CreateDatabase creates a database and adds it to the provider's collection.
	CreateDatabase(ctx *Context, name string) error

	// DropDatabase removes a database from the provider's collection.
	DropDatabase(ctx *Context, name string) error
}

MutableDatabaseProvider is a DatabaseProvider that can create and drop databases.

type Nameable 

type Nameable interface {
	// Name returns the name.
	Name() string
}

Nameable is something that has a name.

type NameableNode 

type NameableNode interface {
	Nameable
	Node
}

type Node 

type Node interface {
	Resolvable
	fmt.Stringer
	// Schema of the node.
	Schema() Schema
	// Children nodes.
	Children() []Node
	// RowIter produces a row iterator from this node. The current row being evaluated is provided, as well the context
	// of the query.
	RowIter(ctx *Context, row Row) (RowIter, error)
	// WithChildren returns a copy of the node with children replaced.
	// It will return an error if the number of children is different than
	// the current number of children. They must be given in the same order
	// as they are returned by Children.
	WithChildren(children ...Node) (Node, error)
	// CheckPrivileges passes the operations representative of this Node to the PrivilegedOperationChecker to determine
	// whether a user (contained in the context, along with their active roles) has the necessary privileges to execute
	// this node (and its children).
	CheckPrivileges(ctx *Context, opChecker PrivilegedOperationChecker) bool
}

Node is a node in the execution plan tree.

type Node2 

type Node2 interface {
	Node

	// RowIter2 produces a row iterator from this node. The current row frame being
	// evaluated is provided, as well the context of the query.
	RowIter2(ctx *Context, f *RowFrame) (RowIter2, error)
}

Node2 is an experimental future interface alternative to Node to provide faster access.

type NodeVisitor 

type NodeVisitor interface {
	// Visit method is invoked for each expr encountered by Walk. If the result Visitor is not nil, Walk visits each of
	// the children of the expr with that visitor, followed by a call of Visit(nil, nil) to the returned visitor.
	Visit(node Node, expression Expression) NodeVisitor
}

NodeVisitor visits expressions in an expression tree. Like Visitor, but with the added context of the node in which an expression is embedded. See WalkExpressionsWithNode in the plan package.

type NonDeterministicExpression 

type NonDeterministicExpression interface {
	Expression
	// IsNonDeterministic returns whether this expression returns a non-deterministic result. An expression is
	// non-deterministic if it can return different results on subsequent evaluations.
	IsNonDeterministic() bool
}

NonDeterministicExpression allows a way for expressions to declare that they are non-deterministic, which will signal the engine to not cache their results when this would otherwise appear to be safe.

type NullOrdering 

type NullOrdering byte

NullOrdering represents how to order based on null values. 

const (
	// NullsFirst puts the null values before any other values.
	NullsFirst NullOrdering = iota
	// NullsLast puts the null values after all other values.
	NullsLast NullOrdering = 2
)

type NullType 

type NullType interface {
	Type
}

NullType represents the type of NULL values

type NumberType 

type NumberType interface {
	Type
	IsSigned() bool
	IsFloat() bool
}

NumberType represents all integer and floating point types. https://dev.mysql.com/doc/refman/8.0/en/integer-types.html https://dev.mysql.com/doc/refman/8.0/en/floating-point-types.html The type of the returned value is one of the following: int8, int16, int32, int64, uint8, uint16, uint32, uint64, float32, float64.

type OpaqueNode 

type OpaqueNode interface {
	Node
	// Opaque reports whether the node is opaque or not.
	Opaque() bool
}

OpaqueNode is a node that doesn't allow transformations to its children and acts as a black box.

type OrderedIndex 

type OrderedIndex interface {
	Index
	// Order returns the order of results for reads from this index
	Order() IndexOrder
}

OrderedIndex is an extension of |Index| that allows indexes to declare their return order. The query engine can optimize certain queries if the order of an index is guaranteed, e.g. removing a sort operation.

type Partition 

type Partition interface {
	Key() []byte
}

Partition represents a partition from a SQL table.

type PartitionCounter 

type PartitionCounter interface {
	// PartitionCount returns the number of partitions.
	PartitionCount(*Context) (int64, error)
}

PartitionCounter can return the number of partitions.

type PartitionIndexKeyValueIter 

type PartitionIndexKeyValueIter interface {
	// Next returns the next partition and the IndexKeyValueIter for that
	// partition.
	Next(*Context) (Partition, IndexKeyValueIter, error)
	Closer
}

PartitionIndexKeyValueIter is an iterator of partitions that will return the partition and the IndexKeyValueIter of that partition.

type PartitionIter 

type PartitionIter interface {
	Closer
	Next(*Context) (Partition, error)
}

PartitionIter is an iterator that retrieves partitions.

func PartitionsToPartitionIter 

func PartitionsToPartitionIter(partitions ...Partition) PartitionIter

PartitionsToPartitionIter creates a PartitionIter that iterates over the given partitions.

type PartitionProgress 

type PartitionProgress struct {
	Progress
}

PartitionProgress keeps track of a partition progress

func (PartitionProgress) String 

func (p PartitionProgress) String() string

type PersistableSession 

type PersistableSession interface {
	Session
	// PersistGlobal writes to the persisted global system variables file
	PersistGlobal(sysVarName string, value interface{}) error
	// RemovePersistedGlobal deletes a variable from the persisted globals file
	RemovePersistedGlobal(sysVarName string) error
	// RemoveAllPersistedGlobals clears the contents of the persisted globals file
	RemoveAllPersistedGlobals() error
	// GetPersistedValue returns persisted value for a global system variable
	GetPersistedValue(k string) (interface{}, error)
}

PersistableSession supports serializing/deserializing global system variables/

type PrimaryKeyAlterableTable 

type PrimaryKeyAlterableTable interface {
	Table
	// CreatePrimaryKey creates a primary key for this table, using the provided parameters.
	// Returns an error if the new primary key set is not compatible with the current table data.
	CreatePrimaryKey(ctx *Context, columns []IndexColumn) error
	// DropPrimaryKey drops a primary key on a table. Returns an error if that table does not have a key.
	DropPrimaryKey(ctx *Context) error
}

PrimaryKeyAlterableTable represents a table that supports primary key changes.

type PrimaryKeySchema 

type PrimaryKeySchema struct {
	Schema
	PkOrdinals []int
}

PrimaryKeySchema defines table metadata for columns and primary key ordering

func NewPrimaryKeySchema 

func NewPrimaryKeySchema(s Schema, pkOrds ...int) PrimaryKeySchema

NewPrimaryKeySchema constructs a new PrimaryKeySchema. PK ordinals default to the in-order set read from the Schema.

func SchemaToPrimaryKeySchema 

func SchemaToPrimaryKeySchema(table Table, sch Schema) PrimaryKeySchema

SchemaToPrimaryKeySchema adapts the schema given to a PrimaryKey schema using the primary keys of the table given, if present. The resulting PrimaryKeySchema may have an empty key set if the table has no primary keys. Matching for ordinals is performed by column name.

type PrimaryKeySchemaTarget 

type PrimaryKeySchemaTarget interface {
	SchemaTarget
	WithPrimaryKeySchema(schema PrimaryKeySchema) (Node, error)
}

PrimaryKeySchemaTarget is a node that has a primary key target schema that can be set

type PrimaryKeyTable 

type PrimaryKeyTable interface {
	// PrimaryKeySchema returns this table's PrimaryKeySchema
	PrimaryKeySchema() PrimaryKeySchema
}

PrimaryKeyTable is a table with a primary key.

type PrivilegeSet 

type PrivilegeSet interface {
	// Has returns whether the given global privilege(s) exists.
	Has(privileges ...PrivilegeType) bool
	// HasPrivileges returns whether this PrivilegeSet has any privileges at any level.
	HasPrivileges() bool
	// Count returns the number of global privileges.
	Count() int
	// Database returns the set of privileges for the given database. Returns an empty set if the database does not exist.
	Database(dbName string) PrivilegeSetDatabase
	// GetDatabases returns all databases.
	GetDatabases() []PrivilegeSetDatabase
	// Equals returns whether the given set of privileges is equivalent to the calling set.
	Equals(otherPs PrivilegeSet) bool
	// ToSlice returns all of the global privileges contained as a sorted slice.
	ToSlice() []PrivilegeType
}

PrivilegeSet is a set containing privileges. Integrators should not implement this interface.

type PrivilegeSetColumn 

type PrivilegeSetColumn interface {
	// Name returns the name of the column that this privilege set belongs to.
	Name() string
	// Has returns whether the given column privilege(s) exists.
	Has(privileges ...PrivilegeType) bool
	// Count returns the number of column privileges.
	Count() int
	// Equals returns whether the given set of privileges is equivalent to the calling set.
	Equals(otherPs PrivilegeSetColumn) bool
	// ToSlice returns all of the column privileges contained as a sorted slice.
	ToSlice() []PrivilegeType
}

PrivilegeSetColumn is a set containing column privileges. Integrators should not implement this interface.

type PrivilegeSetDatabase 

type PrivilegeSetDatabase interface {
	// Name returns the name of the database that this privilege set belongs to.
	Name() string
	// Has returns whether the given database privilege(s) exists.
	Has(privileges ...PrivilegeType) bool
	// HasPrivileges returns whether this database has either database-level privileges, or privileges on a table or
	// column contained within this database.
	HasPrivileges() bool
	// Count returns the number of database privileges.
	Count() int
	// Table returns the set of privileges for the given table. Returns an empty set if the table does not exist.
	Table(tblName string) PrivilegeSetTable
	// GetTables returns all tables.
	GetTables() []PrivilegeSetTable
	// Equals returns whether the given set of privileges is equivalent to the calling set.
	Equals(otherPs PrivilegeSetDatabase) bool
	// ToSlice returns all of the database privileges contained as a sorted slice.
	ToSlice() []PrivilegeType
}

PrivilegeSetDatabase is a set containing database-level privileges. Integrators should not implement this interface.

type PrivilegeSetTable 

type PrivilegeSetTable interface {
	// Name returns the name of the table that this privilege set belongs to.
	Name() string
	// Has returns whether the given table privilege(s) exists.
	Has(privileges ...PrivilegeType) bool
	// HasPrivileges returns whether this table has either table-level privileges, or privileges on a column contained
	// within this table.
	HasPrivileges() bool
	// Count returns the number of table privileges.
	Count() int
	// Column returns the set of privileges for the given column. Returns an empty set if the column does not exist.
	Column(colName string) PrivilegeSetColumn
	// GetColumns returns all columns.
	GetColumns() []PrivilegeSetColumn
	// Equals returns whether the given set of privileges is equivalent to the calling set.
	Equals(otherPs PrivilegeSetTable) bool
	// ToSlice returns all of the table privileges contained as a sorted slice.
	ToSlice() []PrivilegeType
}

PrivilegeSetTable is a set containing table-level privileges. Integrators should not implement this interface.

type PrivilegeType 

type PrivilegeType int

PrivilegeType represents a privilege. 

const (
	PrivilegeType_Select PrivilegeType = iota
	PrivilegeType_Insert
	PrivilegeType_Update
	PrivilegeType_Delete
	PrivilegeType_Create
	PrivilegeType_Drop
	PrivilegeType_Reload
	PrivilegeType_Shutdown
	PrivilegeType_Process
	PrivilegeType_File
	PrivilegeType_GrantOption
	PrivilegeType_References
	PrivilegeType_Index
	PrivilegeType_Alter
	PrivilegeType_ShowDB
	PrivilegeType_Super
	PrivilegeType_CreateTempTable
	PrivilegeType_LockTables
	PrivilegeType_Execute
	PrivilegeType_ReplicationSlave
	PrivilegeType_ReplicationClient
	PrivilegeType_CreateView
	PrivilegeType_ShowView
	PrivilegeType_CreateRoutine
	PrivilegeType_AlterRoutine
	PrivilegeType_CreateUser
	PrivilegeType_Event
	PrivilegeType_Trigger
	PrivilegeType_CreateTablespace
	PrivilegeType_CreateRole
	PrivilegeType_DropRole
)

func PrivilegeTypeFromString 

func PrivilegeTypeFromString(privilegeType string) (PrivilegeType, bool)

PrivilegeTypeFromString returns the matching PrivilegeType for the given string. If there is no match, returns false.

func (PrivilegeType) String 

func (pt PrivilegeType) String() string

String returns the sql.PrivilegeType as a string, for display in places such as "SHOW GRANTS".

type PrivilegedOperation 

type PrivilegedOperation struct {
	Database          string
	Table             string
	Column            string
	StaticPrivileges  []PrivilegeType
	DynamicPrivileges []string
}

PrivilegedOperation represents an operation that requires privileges to execute.

func NewDynamicPrivilegedOperation 

func NewDynamicPrivilegedOperation(privs ...string) PrivilegedOperation

NewDynamicPrivilegedOperation returns a new PrivilegedOperation for the specified dynamic privileges. Dynamic privileges may only be applied globally, so you cannot specify a database, table, or column.

func NewPrivilegedOperation 

func NewPrivilegedOperation(dbName string, tblName string, colName string, privs ...PrivilegeType) PrivilegedOperation

NewPrivilegedOperation returns a new PrivilegedOperation with the given parameters.

type PrivilegedOperationChecker 

type PrivilegedOperationChecker interface {
	// UserHasPrivileges fetches the User, and returns whether they have the desired privileges necessary to perform the
	// privileged operation(s). This takes into account the active roles, which are set in the context, therefore both
	// the user and the active roles are pulled from the context.
	UserHasPrivileges(ctx *Context, operations ...PrivilegedOperation) bool
}

PrivilegedOperationChecker contains the necessary data to check whether the operation should succeed based on the privileges contained by the user. The user is retrieved from the context, along with their active roles.

type Process 

type Process struct {
	Connection uint32
	Host       string
	Database   string
	User       string
	Command    ProcessCommand

	// The time of the last Command transition...
	StartedAt time.Time

	QueryPid uint64
	Query    string
	Progress map[string]TableProgress
	Kill     context.CancelFunc
}

Process represents a process in the SQL server.

func (*Process) Done 

func (p *Process) Done()

Done needs to be called when this process has finished.

func (*Process) Seconds 

func (p *Process) Seconds() uint64

Seconds returns the number of seconds this process has been running.

type ProcessCommand 

type ProcessCommand string
const (
	// During initial connection and handshake.
	ProcessCommandConnect ProcessCommand = "Connect"
	// Connected, not running a query.
	ProcessCommandSleep ProcessCommand = "Sleep"
	// Currently running a query, possibly streaming the response.
	ProcessCommandQuery ProcessCommand = "Query"
)

type ProcessList 

type ProcessList interface {
	// Processes returns the list of current running processes
	Processes() []Process

	// AddConnection adds a new connection to the process list. Must be matched with RemoveConnection.
	AddConnection(connID uint32, addr string)

	// Transitions a connection from Connect to Sleep.
	ConnectionReady(sess Session)

	// RemoveConnection removes the connection from the process list.
	RemoveConnection(connID uint32)

	// BeginQuery transitions an existing connection in the processlist from Command "Sleep" to Command "Query".
	// Returns a new context which will be canceled when this query is done.
	BeginQuery(ctx *Context, query string) (*Context, error)

	// EndQuery transitions a previously transitioned connection from Command "Query" to Command "Sleep".
	EndQuery(ctx *Context)

	// Kill terminates all queries for a given connection id
	Kill(connID uint32)

	// UpdateTableProgress updates the progress of the table with the given name for the
	// process with the given pid.
	UpdateTableProgress(pid uint64, name string, delta int64)

	// UpdatePartitionProgress updates the progress of the table partition with the
	// given name for the process with the given pid.
	UpdatePartitionProgress(pid uint64, tableName, partitionName string, delta int64)

	// AddTableProgress adds a new item to track progress from to the process with
	// the given pid. If the pid does not exist, it will do nothing.
	AddTableProgress(pid uint64, name string, total int64)

	// AddPartitionProgress adds a new item to track progress from to the process with
	// the given pid. If the pid or the table does not exist, it will do nothing.
	AddPartitionProgress(pid uint64, tableName, partitionName string, total int64)

	// RemoveTableProgress removes an existing item tracking progress from the
	// process with the given pid, if it exists.
	RemoveTableProgress(pid uint64, name string)

	// RemovePartitionProgress removes an existing partition tracking progress from the
	// process with the given pid, if it exists.
	RemovePartitionProgress(pid uint64, tableName, partitionName string)
}

type Progress 

type Progress struct {
	Name  string
	Done  int64
	Total int64
}

Progress between done items and total items

type ProjectedTable 

type ProjectedTable interface {
	Table
	// WithProjections returns a version of this table with only the subset of columns named. Calls to Schema must
	// only include these columns. A zero-length slice of column names is valid and indicates that rows from this table
	// should be spooled, but no columns should be returned. A nil slice will never be provided.
	WithProjections(colNames []string) Table
	// Projections returns the names of the column projections applied to this table, or nil if no projection is applied
	// and all columns of the schema will be returned.
	Projections() []string
}

ProjectedTable is a table that can return only a subset of its columns from RowIter. This provides a very large efficiency gain during table scans. Tables that implement this interface must return only the projected columns in future calls to Schema.

type Projector 

type Projector interface {
	// ProjectedExprs returns the list of expressions projected by this node.
	ProjectedExprs() []Expression
	// WithProjectedExprs returns a new Projector instance with the specified expressions set as its projected expressions.
	WithProjectedExprs(...Expression) (Projector, error)
}

Projector is a node that projects expressions for parent nodes to consume (i.e. GroupBy, Window, Project).

type Range 

type Range []RangeColumnExpr

Range is a collection of RangeColumns that are ordered by the column expressions as returned by their parent index. A single range represents a set of values intended for iteration by an integrator's index.

func IntersectRanges 

func IntersectRanges(ranges ...Range) Range

IntersectRanges intersects each Range for each column expression. If a RangeColumnExpr ends up with no valid ranges then a nil is returned.

func SortRanges 

func SortRanges(ranges ...Range) ([]Range, error)

SortRanges sorts the given ranges, returning a new slice of ranges.

func (Range) AsEmpty 

func (rang Range) AsEmpty() Range

AsEmpty returns a Range full of empty RangeColumns with the same types as the calling Range.

func (Range) Compare 

func (rang Range) Compare(otherRange Range) (int, error)

Compare returns an integer stating the relative position of the calling Range to the given Range.

func (Range) Copy 

func (rang Range) Copy() Range

Copy returns a duplicate of this Range.

func (Range) DebugString 

func (rang Range) DebugString() string

DebugString returns this Range as a string for debugging purposes.

func (Range) Equals 

func (rang Range) Equals(otherRange Range) (bool, error)

Equals evaluates whether the calling Range is equivalent to the given Range.

func (Range) ExpressionByColumnName 

func (rang Range) ExpressionByColumnName(idx Index, colExpr string) (RangeColumnExpr, bool)

ExpressionByColumnName returns the RangeColumnExpr that belongs to the given column expression. If an index does not contain the column expression then false is returned.

func (Range) Intersect 

func (rang Range) Intersect(otherRange Range) (Range, error)

Intersect intersects the given Range with the calling Range.

func (Range) IsConnected 

func (rang Range) IsConnected(otherRange Range) (bool, error)

IsConnected returns whether the calling Range and given Range have overlapping values, which would result in the same values being returned from some subset of both ranges.

func (Range) IsEmpty 

func (rang Range) IsEmpty() (bool, error)

func (Range) IsSubsetOf 

func (rang Range) IsSubsetOf(otherRange Range) (bool, error)

IsSubsetOf evaluates whether the calling Range is fully encompassed by the given Range.

func (Range) IsSupersetOf 

func (rang Range) IsSupersetOf(otherRange Range) (bool, error)

IsSupersetOf evaluates whether the calling Range fully encompasses the given Range.

func (Range) Overlaps 

func (rang Range) Overlaps(otherRange Range) (bool, error)

Overlaps returns whether the calling Range and given Range have overlapping values, which would result in the same values being returned from some subset of both ranges.

func (Range) RemoveOverlap 

func (rang Range) RemoveOverlap(otherRange Range) (RangeCollection, bool, error)

RemoveOverlap removes any overlap that the given Range may have with the calling Range. If the two ranges do not overlap and are not mergeable then they're both returned. If one is a subset of the other or is mergeable then only one Range is returned. Otherwise, this returns a collection of ranges that do not overlap with each other, and covers the entirety of the original ranges (and nothing more). If the two ranges do not overlap and are not mergeable then false is returned, otherwise returns true.

func (Range) String 

func (rang Range) String() string

String returns this Range as a string for display purposes.

func (Range) TryMerge 

func (rang Range) TryMerge(otherRange Range) (Range, bool, error)

TryMerge attempts to merge the given Range with the calling Range. This can only do a merge if one Range is a subset of the other, or if all columns except for one are equivalent, upon which a union is attempted on that column. Returns true if the merge was successful.

type RangeBoundType 

type RangeBoundType int

RangeBoundType is the bound of the RangeCut. 

const (
	// Open bounds represent exclusion.
	Open RangeBoundType = iota
	// Closed bounds represent inclusion.
	Closed
)

func (RangeBoundType) Inclusive 

func (bt RangeBoundType) Inclusive() bool

Inclusive returns whether the bound represents inclusion.

type RangeCollection 

type RangeCollection []Range

RangeCollection is a collection of ranges that represent different (non-overlapping) filter expressions.

func RemoveOverlappingRanges 

func RemoveOverlappingRanges(ranges ...Range) (RangeCollection, error)

RemoveOverlappingRanges removes all overlap between all ranges.

func (RangeCollection) DebugString 

func (ranges RangeCollection) DebugString() string

DebugString returns this RangeCollection as a string for debugging purposes.

func (RangeCollection) Equals 

func (ranges RangeCollection) Equals(otherCollection RangeCollection) (bool, error)

Equals returns whether the given RangeCollection matches the calling RangeCollection. The order of each Range is important, therefore it is recommended to sort two collections beforehand.

func (RangeCollection) Intersect 

func (ranges RangeCollection) Intersect(otherRanges RangeCollection) (RangeCollection, error)

Intersect attempts to intersect the given RangeCollection with the calling RangeCollection. This ensures that each Range belonging to the same collection is treated as a union with respect to that same collection, rather than attempting to intersect ranges that are a part of the same collection.

func (RangeCollection) String 

func (ranges RangeCollection) String() string

String returns this RangeCollection as a string for display purposes.

type RangeColumnExpr 

type RangeColumnExpr struct {
	LowerBound RangeCut
	UpperBound RangeCut
	Typ        Type
}

RangeColumnExpr represents the contiguous set of values on a specific column.

func AllRangeColumnExpr 

func AllRangeColumnExpr(typ Type) RangeColumnExpr

AllRangeColumnExpr returns a RangeColumnExpr representing all values.

func ClosedRangeColumnExpr 

func ClosedRangeColumnExpr(lower, upper interface{}, typ Type) RangeColumnExpr

ClosedRangeColumnExpr returns a RangeColumnExpr representing {l <= x <= u}.

func CustomRangeColumnExpr 

func CustomRangeColumnExpr(lower, upper interface{}, lowerBound, upperBound RangeBoundType, typ Type) RangeColumnExpr

CustomRangeColumnExpr returns a RangeColumnExpr defined by the bounds given.

func EmptyRangeColumnExpr 

func EmptyRangeColumnExpr(typ Type) RangeColumnExpr

EmptyRangeColumnExpr returns the empty RangeColumnExpr for the given type.

func GreaterOrEqualRangeColumnExpr 

func GreaterOrEqualRangeColumnExpr(lower interface{}, typ Type) RangeColumnExpr

GreaterOrEqualRangeColumnExpr returns a RangeColumnExpr representing {x >= l}.

func GreaterThanRangeColumnExpr 

func GreaterThanRangeColumnExpr(lower interface{}, typ Type) RangeColumnExpr

GreaterThanRangeColumnExpr returns a RangeColumnExpr representing {x > l}.

func LessOrEqualRangeColumnExpr 

func LessOrEqualRangeColumnExpr(upper interface{}, typ Type) RangeColumnExpr

LessOrEqualRangeColumnExpr returns a RangeColumnExpr representing {x <= u}.

func LessThanRangeColumnExpr 

func LessThanRangeColumnExpr(upper interface{}, typ Type) RangeColumnExpr

LessThanRangeColumnExpr returns a RangeColumnExpr representing {x < u}.

func NotNullRangeColumnExpr 

func NotNullRangeColumnExpr(typ Type) RangeColumnExpr

NotNullRangeColumnExpr returns the not null RangeColumnExpr for the given type.

func NullRangeColumnExpr 

func NullRangeColumnExpr(typ Type) RangeColumnExpr

NullRangeColumnExpr returns the null RangeColumnExpr for the given type.

func OpenRangeColumnExpr 

func OpenRangeColumnExpr(lower, upper interface{}, typ Type) RangeColumnExpr

OpenRangeColumnExpr returns a RangeColumnExpr representing {l < x < u}.

func SimplifyRangeColumn 

func SimplifyRangeColumn(rces ...RangeColumnExpr) ([]RangeColumnExpr, error)

SimplifyRangeColumn combines all RangeColumnExprs that are connected and returns a new slice.

func (RangeColumnExpr) DebugString 

func (r RangeColumnExpr) DebugString() string

DebugString returns this RangeColumnExpr as a string for debugging purposes.

func (RangeColumnExpr) Equals 

func (r RangeColumnExpr) Equals(other RangeColumnExpr) (bool, error)

Equals checks for equality with the given RangeColumnExpr.

func (RangeColumnExpr) HasLowerBound 

func (r RangeColumnExpr) HasLowerBound() bool

HasLowerBound returns whether this RangeColumnExpr has a value for the lower bound.

func (RangeColumnExpr) HasUpperBound 

func (r RangeColumnExpr) HasUpperBound() bool

HasUpperBound returns whether this RangeColumnExpr has a value for the upper bound.

func (RangeColumnExpr) IsConnected 

func (r RangeColumnExpr) IsConnected(other RangeColumnExpr) (bool, error)

IsConnected evaluates whether the given RangeColumnExpr overlaps or is adjacent to the calling RangeColumnExpr.

func (RangeColumnExpr) IsEmpty 

func (r RangeColumnExpr) IsEmpty() (bool, error)

IsEmpty returns whether this RangeColumnExpr is empty.

func (RangeColumnExpr) IsSubsetOf 

func (r RangeColumnExpr) IsSubsetOf(other RangeColumnExpr) (bool, error)

IsSubsetOf evaluates whether the calling RangeColumnExpr is fully encompassed by the given RangeColumnExpr.

func (RangeColumnExpr) IsSupersetOf 

func (r RangeColumnExpr) IsSupersetOf(other RangeColumnExpr) (bool, error)

IsSupersetOf evaluates whether the calling RangeColumnExpr fully encompasses the given RangeColumnExpr.

func (RangeColumnExpr) Overlaps 

func (r RangeColumnExpr) Overlaps(other RangeColumnExpr) (RangeColumnExpr, bool, error)

Overlaps evaluates whether the given RangeColumnExpr overlaps the calling RangeColumnExpr. If they do, returns the overlapping region as a RangeColumnExpr.

func (RangeColumnExpr) RepresentsEquals 

func (r RangeColumnExpr) RepresentsEquals() (bool, error)

RepresentsEquals returns whether this RangeColumnExpr represents an "equals". An "equals" is a special kind of RangeType_ClosedClosed that iterates over a single value (or the specific prefix of some value).

func (RangeColumnExpr) String 

func (r RangeColumnExpr) String() string

String returns this RangeColumnExpr as a string for display purposes.

func (RangeColumnExpr) Subtract 

func (r RangeColumnExpr) Subtract(other RangeColumnExpr) ([]RangeColumnExpr, error)

Subtract removes the given RangeColumnExpr from the calling RangeColumnExpr. In the event that the given RangeColumnExpr is a strict subset of the calling RangeColumnExpr, two RangeColumnExprs will be returned. If the given RangeColumnExpr does not overlap the calling RangeColumnExpr, then the calling RangeColumnExpr is returned. If the calling RangeColumnExpr is a strict subset (or equivalent) of the given RangeColumnExpr, then an empty slice is returned. In all other cases, a slice with a single RangeColumnExpr will be returned.

func (RangeColumnExpr) TryIntersect 

func (r RangeColumnExpr) TryIntersect(other RangeColumnExpr) (RangeColumnExpr, bool, error)

TryIntersect attempts to intersect the given RangeColumnExpr with the calling RangeColumnExpr. Returns true if the intersection result is not the empty RangeColumnExpr, however a valid RangeColumnExpr is always returned if the error is nil.

func (RangeColumnExpr) TryUnion 

func (r RangeColumnExpr) TryUnion(other RangeColumnExpr) (RangeColumnExpr, bool, error)

TryUnion attempts to combine the given RangeColumnExpr with the calling RangeColumnExpr. Returns true if the union was a success.

func (RangeColumnExpr) Type 

func (r RangeColumnExpr) Type() RangeType

Type returns this RangeColumnExpr's RangeType.

type RangeColumnExprTree 

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

RangeColumnExprTree represents a red-black tree over a range column expression. To represent an entire range, each node has both an upper bound and lower bound that represents a single column expression. If the Range has another dimension, then the node will have an inner tree representing the nested dimension ad infinitum. This implicitly means that all column expressions on the lower dimension share the same column expression in the higher dimensions. This way, a Range is deconstructed and sorted by its column expressions, but may easily be retrieved by walking down a tree and all of its inner trees.

func NewRangeColumnExprTree 

func NewRangeColumnExprTree(initialRange Range, columnExprTypes []Type) (*RangeColumnExprTree, error)

NewRangeColumnExprTree creates a new RangeColumnExprTree constructed from an initial range. As the initial Range may contain column expressions that have a NULL type, the expected non-NULL type for each column expression is given separately. If all column expressions for a specific column will be NULL, then it is valid to use the NULL type. Returns an error if the number of column expressions do not equal the number of types, or if the Range has a length of zero.

func (*RangeColumnExprTree) FindConnections 

func (tree *RangeColumnExprTree) FindConnections(rang Range, colExprIdx int) (RangeCollection, error)

FindConnections returns all connecting Ranges found in the tree. They may or may not be mergeable or overlap.

func (*RangeColumnExprTree) GetRangeCollection 

func (tree *RangeColumnExprTree) GetRangeCollection() (RangeCollection, error)

GetRangeCollection returns every Range that this tree contains.

func (*RangeColumnExprTree) Insert 

func (tree *RangeColumnExprTree) Insert(rang Range) error

Insert adds the given Range into the tree.

func (*RangeColumnExprTree) Iterator 

func (tree *RangeColumnExprTree) Iterator() *rangeTreeIter

Iterator returns an iterator over the calling tree. Does not handle any inner trees.

func (*RangeColumnExprTree) Remove 

func (tree *RangeColumnExprTree) Remove(rang Range) error

Remove removes the given Range from the tree (and subtrees if applicable).

func (*RangeColumnExprTree) String 

func (tree *RangeColumnExprTree) String() string

String returns the tree as a formatted string. Does not display the inner trees.

type RangeCut 

type RangeCut interface {
	// Compare returns an integer stating the relative position of the calling RangeCut to the given RangeCut.
	Compare(RangeCut, Type) (int, error)
	// String returns the RangeCut as a string for display purposes.
	String() string
	// TypeAsLowerBound returns the bound type if the calling RangeCut is the lower bound of a range.
	TypeAsLowerBound() RangeBoundType
	// TypeAsUpperBound returns the bound type if the calling RangeCut is the upper bound of a range.
	TypeAsUpperBound() RangeBoundType
}

RangeCut represents a position on the line of all possible values.

func GetRangeCutMax 

func GetRangeCutMax(typ Type, cuts ...RangeCut) (RangeCut, error)

GetRangeCutMax returns the RangeCut with the highest value.

func GetRangeCutMin 

func GetRangeCutMin(typ Type, cuts ...RangeCut) (RangeCut, error)

GetRangeCutMin returns the RangeCut with the lowest value.

type RangeType 

type RangeType int

RangeType returns what a RangeColumnExpr represents, such as a GreaterThan on some column, or a column set between two bounds. 

const (
	RangeType_Invalid           RangeType = iota // This range is invalid, which should not be possible. Please create a GitHub issue if this is ever returned.
	RangeType_Empty                              // This range represents the empty set of values.
	RangeType_All                                // This range represents every possible value.
	RangeType_GreaterThan                        // This range is equivalent to checking for all values greater than the lowerbound.
	RangeType_GreaterOrEqual                     // This range is equivalent to checking for all values greater than or equal to the lowerbound.
	RangeType_LessThanOrNull                     // This range is equivalent to checking for all values less than the upperbound.
	RangeType_LessOrEqualOrNull                  // This range is equivalent to checking for all values less than or equal to the upperbound.
	RangeType_ClosedClosed                       // This range covers a finite set of values with the lower and upperbounds inclusive.
	RangeType_OpenOpen                           // This range covers a finite set of values with the lower and upperbounds exclusive.
	RangeType_OpenClosed                         // This range covers a finite set of values with the lowerbound exclusive and upperbound inclusive.
	RangeType_ClosedOpen                         // This range covers a finite set of values with the lowerbound inclusive and upperbound exclusive.
	RangeType_EqualNull                          // A range matching only NULL.
)

type ReadOnlyDatabase 

type ReadOnlyDatabase interface {
	Database
	// IsReadOnly returns whether this database is read-only.
	IsReadOnly() bool
}

ReadOnlyDatabase is an extension of Database that may declare itself read-only, which will disallow any DDL or DML statements from executing.

type ReplaceableTable 

type ReplaceableTable interface {
	Table
	// Replacer returns a RowReplacer for this table. The RowReplacer will have Insert and optionally Delete called once
	// for each row, followed by a call to Close() when all rows have been processed.
	Replacer(ctx *Context) RowReplacer
}

ReplaceableTable allows rows to be replaced through a Delete (if applicable) then Insert.

type Reporter 

type Reporter interface {
	// MaxMemory returns the maximum number of memory allowed in bytes.
	MaxMemory() uint64
	// UsedMemory returns the memory in use in bytes.
	UsedMemory() uint64
}

Reporter is a component that gives information about the memory usage. 

var ProcessMemory Reporter = new(processReporter)

ProcessMemory is a reporter for the memory used by the process and the maximum amount of memory allowed controlled by the MAX_MEMORY environment variable.

type Resolvable 

type Resolvable interface {
	// Resolved returns whether the node is resolved.
	Resolved() bool
}

Resolvable is something that can be resolved or not.

type RewritableTable 

type RewritableTable interface {
	Table
	AlterableTable

	// ShouldRewriteTable returns whether this table should be rewritten because of a schema change. The old and new
	// versions of the schema and modified column are provided. For some operations, one or both of |oldColumn| or
	// |newColumn| may be nil.
	// The engine may decide to rewrite tables regardless in some cases, such as when a new non-nullable column is added.
	ShouldRewriteTable(ctx *Context, oldSchema, newSchema PrimaryKeySchema, oldColumn, newColumn *Column) bool

	// RewriteInserter returns a RowInserter for the new schema. Rows from the current table, with the old schema, will
	// be streamed from the table and passed to this RowInserter. Implementor tables must still return rows in the
	// current schema until the rewrite operation completes. |Close| will be called on RowInserter when all rows have
	// been inserted.
	RewriteInserter(ctx *Context, oldSchema, newSchema PrimaryKeySchema, oldColumn, newColumn *Column, idxCols []IndexColumn) (RowInserter, error)
}

RewritableTable is an extension to Table that makes it simpler for integrators to adapt to schema changes that must rewrite every row of the table. In this case, rows are streamed from the existing table in the old schema, transformed / updated appropriately, and written with the new format.

type Row 

type Row []interface{}

Row is a tuple of values.

func NewRow 

func NewRow(values ...interface{}) Row

NewRow creates a row from the given values.

func NodeToRows 

func NodeToRows(ctx *Context, n Node) ([]Row, error)

NodeToRows converts a node to a slice of rows.

func RowIter2ToRows 

func RowIter2ToRows(ctx *Context, sch Schema, i RowIter2) ([]Row, error)

func RowIterToRows 

func RowIterToRows(ctx *Context, sch Schema, i RowIter) ([]Row, error)

RowIterToRows converts a row iterator to a slice of rows.

func (Row) Append 

func (r Row) Append(r2 Row) Row

Append appends all the values in r2 to this row and returns the result

func (Row) Copy 

func (r Row) Copy() Row

Copy creates a new row with the same values as the current one.

func (Row) Equals 

func (r Row) Equals(row Row, schema Schema) (bool, error)

Equals checks whether two rows are equal given a schema.

type Row2 

type Row2 []Value

Row2 is a slice of values

func (Row2) GetField 

func (r Row2) GetField(i int) Value

GetField returns the Value for the ith field in this row.

func (Row2) Len 

func (r Row2) Len() int

Len returns the number of fields of this row

type RowDeleter 

type RowDeleter interface {
	EditOpenerCloser
	// Delete deletes the given row. Returns ErrDeleteRowNotFound if the row was not found. Delete will be called once for
	// each row to process for the delete operation, which may involve many rows. After all rows have been processed,
	// Close is called.
	Delete(*Context, Row) error
	// Closer finalizes the delete operation, persisting the result.
	Closer
}

RowDeleter is a delete cursor that can delete one or more rows from a table.

type RowFrame 

type RowFrame struct {
	Types []querypb.Type

	// Values are the values this row.
	Values []ValueBytes
	// contains filtered or unexported fields
}

func NewRowFrame 

func NewRowFrame(vals ...Value) (f *RowFrame)

func (*RowFrame) Append 

func (f *RowFrame) Append(vals ...Value)

Append appends the values given into this frame.

func (*RowFrame) AppendMany 

func (f *RowFrame) AppendMany(types []querypb.Type, vals []ValueBytes)

AppendMany appends the types and values given, as two parallel arrays, into this frame.

func (*RowFrame) Clear 

func (f *RowFrame) Clear()

Clear clears this row frame for reuse. The underlying byte arrays are not zeroed out or discarded, but will be overwritten by future calls to Append.

func (*RowFrame) Recycle 

func (f *RowFrame) Recycle()

Recycle returns this row frame to the shared pool. Further use will result in concurrency errors. All RowFrames should be recycled when they are no longer being used to prevent resource leaks.

func (*RowFrame) Row2 

func (f *RowFrame) Row2() Row2

Row2 returns the underlying row value in this frame. Does not make a deep copy of underlying byte arrays, so further modification to this frame may result in the returned value changing as well.

func (*RowFrame) Row2Copy 

func (f *RowFrame) Row2Copy() Row2

Row2Copy returns the row in this frame as a deep copy of the underlying byte arrays. Useful when reusing the RowFrame object via Clear()

type RowInserter 

type RowInserter interface {
	EditOpenerCloser
	// Insert inserts the row given, returning an error if it cannot. Insert will be called once for each row to process
	// for the insert operation, which may involve many rows. After all rows in an operation have been processed, Close
	// is called.
	Insert(*Context, Row) error
	// Close finalizes the insert operation, persisting its result.
	Closer
}

RowInserter is an insert cursor that can insert one or more values to a table.

type RowIter 

type RowIter interface {
	// Next retrieves the next row. It will return io.EOF if it's the last row.
	// After retrieving the last row, Close will be automatically closed.
	Next(ctx *Context) (Row, error)
	Closer
}

RowIter is an iterator that produces rows. TODO: most row iters need to be Disposable for CachedResult safety

func NewSpanIter 

func NewSpanIter(span trace.Span, iter RowIter) RowIter

NewSpanIter creates a RowIter executed in the given span. Currently inactive, returns the iter returned unaltered.

func RowsToRowIter 

func RowsToRowIter(rows ...Row) RowIter

RowsToRowIter creates a RowIter that iterates over the given rows.

type RowIter2 

type RowIter2 interface {
	RowIter

	// Next2 produces the next row, and stores it in the RowFrame provided.
	// It will return io.EOF if it's the last row. After retrieving the
	// last row, Close will be automatically called.
	Next2(ctx *Context, frame *RowFrame) error
}

RowIter2 is an iterator that fills a row frame buffer with rows from its source

type RowIterTypeSelector 

type RowIterTypeSelector interface {
	RowIter
	IsNode2() bool
}

RowIterTypeSelector is implemented by top-level type-switch nodes that return either a Node or Node2 implementation.

type RowReplacer 

type RowReplacer interface {
	EditOpenerCloser
	RowInserter
	RowDeleter
}

RowReplacer is a combination of RowDeleter and RowInserter.

type RowUpdater 

type RowUpdater interface {
	EditOpenerCloser
	// Update the given row. Provides both the old and new rows.
	Update(ctx *Context, old Row, new Row) error
	// Closer finalizes the update operation, persisting the result.
	Closer
}

RowUpdater is an update cursor that can update one or more rows in a table.

type Rows2Cache 

type Rows2Cache interface {
	RowsCache
	// Add2 a new row to the cache. If there is no memory available, it will try to
	// free some memory. If after that there is still no memory available, it
	// will return an error and erase all the content of the cache.
	Add2(Row2) error
	// Get2 gets all rows.
	Get2() []Row2
}

Rows2Cache is a cache of Row2s.

type RowsCache 

type RowsCache interface {
	// Add a new row to the cache. If there is no memory available, it will try to
	// free some memory. If after that there is still no memory available, it
	// will return an error and erase all the content of the cache.
	Add(Row) error
	// Get returns all rows.
	Get() []Row
}

RowsCache is a cache of rows.

type Schema 

type Schema []*Column

Schema is the definition of a table.

func (Schema) CheckRow 

func (s Schema) CheckRow(row Row) error

CheckRow checks the row conforms to the schema.

func (Schema) Contains 

func (s Schema) Contains(column string, source string) bool

Contains returns whether the schema contains a column with the given name.

func (Schema) Copy 

func (s Schema) Copy() Schema

Copy returns a deep copy of this schema, making a copy of all columns

func (Schema) Equals 

func (s Schema) Equals(s2 Schema) bool

Equals checks whether the given schema is equal to this one.

func (Schema) HasAutoIncrement 

func (s Schema) HasAutoIncrement() bool

HasAutoIncrement returns true if the schema has an auto increment column.

func (Schema) IndexOf 

func (s Schema) IndexOf(column, source string) int

IndexOf returns the index of the given column in the schema or -1 if it's not present.

func (Schema) IndexOfColName 

func (s Schema) IndexOfColName(column string) int

IndexOfColName returns the index of the given column in the schema or -1 if it's not present. Only safe for schemas corresponding to a single table, where the source of the column is irrelevant.

type SchemaTarget 

type SchemaTarget interface {
	// WithTargetSchema returns a copy of this node with the target schema set
	WithTargetSchema(Schema) (Node, error)
	// TargetSchema returns the target schema for this node
	TargetSchema() Schema
}

SchemaTarget is a node that has a target schema that can be set during analysis. This is necessary because some schema objects (things that involve expressions, column references, etc.) can only be reified during analysis. The target schema is the schema of a table under a DDL operation, not the schema of rows returned by this node.

type Services 

type Services struct {
	KillConnection func(connID uint32) error
	LoadInfile     func(filename string) (io.ReadCloser, error)
}

Services are handles to optional or plugin functionality that can be used by the SQL implementation in certain situations. An integrator can set methods on Services for a given *Context and different parts of go-mysql-server will inspect it in order to fulfill their implementations. Currently, the KillConnection service is available. Set these with |WithServices|; the implementation will access them through the corresponding methods on *Context, such as |KillConnection|.

type Session 

type Session interface {
	// Address of the server.
	Address() string
	// Client returns the user of the session.
	Client() Client
	// SetClient returns a new session with the given client.
	SetClient(Client)
	// SetSessionVariable sets the given system variable to the value given for this session.
	SetSessionVariable(ctx *Context, sysVarName string, value interface{}) error
	// InitSessionVariable sets the given system variable to the value given for this session and will allow for
	// initialization of readonly variables.
	InitSessionVariable(ctx *Context, sysVarName string, value interface{}) error
	// SetUserVariable sets the given user variable to the value given for this session, or creates it for this session.
	SetUserVariable(ctx *Context, varName string, value interface{}, typ Type) error
	// GetSessionVariable returns this session's value of the system variable with the given name.
	GetSessionVariable(ctx *Context, sysVarName string) (interface{}, error)
	// GetUserVariable returns this session's value of the user variable with the given name, along with its most
	// appropriate type.
	GetUserVariable(ctx *Context, varName string) (Type, interface{}, error)
	// GetAllSessionVariables returns a copy of all session variable values.
	GetAllSessionVariables() map[string]interface{}
	// GetCurrentDatabase gets the current database for this session
	GetCurrentDatabase() string
	// SetCurrentDatabase sets the current database for this session
	SetCurrentDatabase(dbName string)
	// ID returns the unique ID of the connection.
	ID() uint32
	// Warn stores the warning in the session.
	Warn(warn *Warning)
	// Warnings returns a copy of session warnings (from the most recent).
	Warnings() []*Warning
	// ClearWarnings cleans up session warnings.
	ClearWarnings()
	// WarningCount returns a number of session warnings
	WarningCount() uint16
	// AddLock adds a lock to the set of locks owned by this user which will need to be released if this session terminates
	AddLock(lockName string) error
	// DelLock removes a lock from the set of locks owned by this user
	DelLock(lockName string) error
	// IterLocks iterates through all locks owned by this user
	IterLocks(cb func(name string) error) error
	// SetLastQueryInfo sets session-level query info for the key given, applying to the query just executed.
	SetLastQueryInfo(key string, value int64)
	// GetLastQueryInfo returns the session-level query info for the key given, for the query most recently executed.
	GetLastQueryInfo(key string) int64
	// GetTransaction returns the active transaction, if any
	GetTransaction() Transaction
	// SetTransaction sets the session's transaction
	SetTransaction(tx Transaction)
	// SetIgnoreAutoCommit instructs the session to ignore the value of the @@autocommit variable, or consider it again
	SetIgnoreAutoCommit(ignore bool)
	// GetIgnoreAutoCommit returns whether this session should ignore the @@autocommit variable
	GetIgnoreAutoCommit() bool
	// GetLogger returns the logger for this session, useful if clients want to log messages with the same format / output
	// as the running server. Clients should instantiate their own global logger with formatting options, and session
	// implementations should return the logger to be used for the running server.
	GetLogger() *logrus.Entry
	// SetLogger sets the logger to use for this session, which will always be an extension of the one returned by
	// GetLogger, extended with session information
	SetLogger(*logrus.Entry)
	// GetIndexRegistry returns the index registry for this session
	GetIndexRegistry() *IndexRegistry
	// GetViewRegistry returns the view registry for this session
	GetViewRegistry() *ViewRegistry
	// SetIndexRegistry sets the index registry for this session. Integrators should set an index registry in the event
	// they are using an index driver.
	SetIndexRegistry(*IndexRegistry)
	// SetViewRegistry sets the view registry for this session. Integrators should set a view registry if their database
	// doesn't implement ViewDatabase and they want views created to persist across sessions.
	SetViewRegistry(*ViewRegistry)
	// SetConnectionId sets this sessions unique ID
	SetConnectionId(connId uint32)
	// GetCharacterSet returns the character set for this session (defined by the system variable `character_set_connection`).
	GetCharacterSet() CharacterSetID
	// GetCharacterSetResults returns the result character set for this session (defined by the system variable `character_set_results`).
	GetCharacterSetResults() CharacterSetID
	// GetCollation returns the collation for this session (defined by the system variable `collation_connection`).
	GetCollation() CollationID
	// GetPrivilegeSet returns the cached privilege set associated with this session, along with its counter. The
	// PrivilegeSet is only valid when the counter is greater than zero.
	GetPrivilegeSet() (PrivilegeSet, uint64)
	// SetPrivilegeSet updates this session's cache with the given counter and privilege set. Setting the counter to a
	// value of zero will force the cache to reload. This is an internal function and is not intended to be used by
	// integrators.
	SetPrivilegeSet(newPs PrivilegeSet, counter uint64)
	// ValidateSession provides integrators a chance to do any custom validation of this session before any query is executed in it. For example, Dolt uses this hook to validate that the session's working set is valid.
	ValidateSession(ctx *Context, dbName string) error
	// SetTransactionDatabase is called when a transaction begins, and is set to the name of the database in scope for
	// that transaction. GetTransactionDatabase can be called by integrators to retrieve this database later, when it's
	// time to commit via TransactionSession.CommitTransaction. This supports implementations that can only support a
	// single database being modified per transaction.
	SetTransactionDatabase(dbName string)
	// GetTransactionDatabase returns the name of the database considered in scope when the current transaction began.
	GetTransactionDatabase() string
}

Session holds the session data.

type SessionUserVariables 

type SessionUserVariables interface {
	// SetUserVariable sets the user variable name to the given value and type
	SetUserVariable(ctx *Context, varName string, value interface{}, typ Type) error
	// GetUserVariable returns the value and type of the user variable named
	GetUserVariable(ctx *Context, varName string) (Type, interface{}, error)
}

SessionUserVariables is a simple dictionary to set and retrieve user variables within a session.

func NewUserVars 

func NewUserVars() SessionUserVariables

type SetType 

type SetType interface {
	Type
	CharacterSet() CharacterSetID
	Collation() CollationID
	// NumberOfElements returns the number of elements in this set.
	NumberOfElements() uint16
	// BitsToString takes a previously-converted value and returns it as a string.
	BitsToString(bits uint64) (string, error)
	// Values returns all of the set's values in ascending order according to their corresponding bit value.
	Values() []string
}

SetType represents the SET type. https://dev.mysql.com/doc/refman/8.0/en/set.html The type of the returned value is uint64.

type SortField 

type SortField struct {
	// Column to order by.
	Column Expression
	// Column Expression2 to order by. This is always the same value as Column, but avoids a type cast
	Column2 Expression2
	// Order type.
	Order SortOrder
	// NullOrdering defining how nulls will be ordered.
	NullOrdering NullOrdering
}

SortField is a field by which a query will be sorted.

func (SortField) DebugString 

func (s SortField) DebugString() string

func (SortField) String 

func (s SortField) String() string

type SortFields 

type SortFields []SortField

func (SortFields) FromExpressions 

func (sf SortFields) FromExpressions(exprs ...Expression) SortFields

func (SortFields) ToExpressions 

func (sf SortFields) ToExpressions() []Expression

type SortOrder 

type SortOrder byte

SortOrder represents the order of the sort (ascending or descending). 

const (
	// Ascending order.
	Ascending SortOrder = 1
	// Descending order.
	Descending SortOrder = 2
)

func (SortOrder) String 

func (s SortOrder) String() string

type SpatialColumnType 

type SpatialColumnType interface {
	// GetSpatialTypeSRID returns the SRID value for spatial types.
	GetSpatialTypeSRID() (uint32, bool)
	// SetSRID sets SRID value for spatial types.
	SetSRID(uint32) Type
	// MatchSRID returns nil if column type SRID matches given value SRID otherwise returns error.
	MatchSRID(interface{}) error
}

SpatialColumnType is a node that contains a reference to all spatial types.

type SpatialIndexBuilder 

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

SpatialIndexBuilder is like the IndexBuilder, but spatial

func NewSpatialIndexBuilder 

func NewSpatialIndexBuilder(idx Index) *SpatialIndexBuilder

func (*SpatialIndexBuilder) AddRange 

func (b *SpatialIndexBuilder) AddRange(lower, upper interface{}) *SpatialIndexBuilder

func (*SpatialIndexBuilder) Build 

func (b *SpatialIndexBuilder) Build() (IndexLookup, error)

type StatisticsTable 

type StatisticsTable interface {
	Table
	// DataLength returns the length of the data file (varies by engine).
	DataLength(ctx *Context) (uint64, error)
	// RowCount returns the row count for this table
	RowCount(ctx *Context) (uint64, error)
}

StatisticsTable is a table that can provide information about its number of rows and other facts to improve query planning performance.

type StatsReadWriter 

type StatsReadWriter interface {
	StatsReader
	StatsWriter
}

type StatsReader 

type StatsReader interface {
	CatalogTable
	// Hist returns a HistogramMap providing statistics for a table's columns
	Hist(ctx *Context, db, table string) (HistogramMap, error)
	// RowCount returns a table's row count if the table implements sql.StatisticsTable,
	// false if the table does not, or an error if the table was not found.
	RowCount(ctx *Context, db, table string) (uint64, bool, error)
}

type StatsWriter 

type StatsWriter interface {
	CatalogTable
	Analyze(ctx *Context, db, table string) error
}

type StoredProcedureDatabase 

type StoredProcedureDatabase interface {
	Database
	// GetStoredProcedure returns the desired StoredProcedureDetails from the database.
	GetStoredProcedure(ctx *Context, name string) (StoredProcedureDetails, bool, error)
	// GetStoredProcedures returns all StoredProcedureDetails for the database.
	GetStoredProcedures(ctx *Context) ([]StoredProcedureDetails, error)
	// SaveStoredProcedure stores the given StoredProcedureDetails to the database. The integrator should verify that
	// the name of the new stored procedure is unique amongst existing stored procedures.
	SaveStoredProcedure(ctx *Context, spd StoredProcedureDetails) error
	// DropStoredProcedure removes the StoredProcedureDetails with the matching name from the database.
	DropStoredProcedure(ctx *Context, name string) error
}

StoredProcedureDatabase is a database that supports the creation and execution of stored procedures. The engine will handle all parsing and execution logic for stored procedures. Integrators only need to store and retrieve StoredProcedureDetails, while verifying that all stored procedures have a unique name without regard to case-sensitivity.

type StoredProcedureDetails 

type StoredProcedureDetails struct {
	Name            string    // The name of this stored procedure. Names must be unique within a database.
	CreateStatement string    // The CREATE statement for this stored procedure.
	CreatedAt       time.Time // The time that the stored procedure was created.
	ModifiedAt      time.Time // The time of the last modification to the stored procedure.
}

StoredProcedureDetails are the details of the stored procedure. Integrators only need to store and retrieve the given details for a stored procedure, as the engine handles all parsing and processing.

type StringType 

type StringType interface {
	Type
	CharacterSet() CharacterSetID
	Collation() CollationID
	// MaxCharacterLength returns the maximum number of chars that can safely be stored in this type, based on
	// the current character set.
	MaxCharacterLength() int64
	// MaxByteLength returns the maximum number of bytes that may be consumed by a value stored in this type.
	MaxByteLength() int64
	// Length returns the maximum length, in characters, allowed for this string type.
	Length() int64
}

StringType represents all string types, including VARCHAR and BLOB. https://dev.mysql.com/doc/refman/8.0/en/char.html https://dev.mysql.com/doc/refman/8.0/en/binary-varbinary.html https://dev.mysql.com/doc/refman/8.0/en/blob.html The type of the returned value is string.

type SystemVarValue 

type SystemVarValue struct {
	Var SystemVariable
	Val interface{}
}

type SystemVariable 

type SystemVariable struct {
	// Name is the name of the system variable.
	Name string
	// Scope defines the scope of the system variable, which is either Global, Session, or Both.
	Scope SystemVariableScope
	// Dynamic defines whether the variable may be written to during runtime. Variables with this set to `false` will
	// return an error if a user attempts to set a value.
	Dynamic bool
	// SetVarHintApplies defines if the variable may be set for a single query using SET_VAR().
	// https://dev.mysql.com/doc/refman/8.0/en/optimizer-hints.html#optimizer-hints-set-var
	SetVarHintApplies bool
	// Type defines the type of the system variable. This may be a special type not accessible to standard MySQL operations.
	Type Type
	// Default defines the default value of the system variable.
	Default interface{}
}

SystemVariable represents a system variable.

type SystemVariableRegistry 

type SystemVariableRegistry interface {
	// AddSystemVariables adds the given system variables to this registry
	AddSystemVariables(sysVars []SystemVariable)
	// AssignValues assigns the given values to the system variables in this registry
	AssignValues(vals map[string]interface{}) error
	// NewSessionMap returns a map of system variables values that can be used by a session
	NewSessionMap() map[string]SystemVarValue
	// GetGlobal returns the global value of the system variable with the given name
	GetGlobal(name string) (SystemVariable, interface{}, bool)
	// SetGlobal sets the global value of the system variable with the given name
	SetGlobal(name string, val interface{}) error
	// GetAllGlobalVariables returns a copy of all global variable values.
	GetAllGlobalVariables() map[string]interface{}
}

SystemVariableRegistry is a registry of system variables. Each session gets its own copy of all values via the SessionMap() method. 

var SystemVariables SystemVariableRegistry

type SystemVariableScope 

type SystemVariableScope byte

SystemVariableScope represents the scope of a system variable. 

const (
	// SystemVariableScope_Global is set when the system variable exists only in the global context.
	SystemVariableScope_Global SystemVariableScope = iota
	// SystemVariableScope_Session is set when the system variable exists only in the session context.
	SystemVariableScope_Session
	// SystemVariableScope_Both is set when the system variable exists in both the global and session contexts.
	SystemVariableScope_Both
	// SystemVariableScope_Persist is set when the system variable is global and persisted.
	SystemVariableScope_Persist
	// SystemVariableScope_PersistOnly is set when the system variable is persisted outside of server context.
	SystemVariableScope_PersistOnly
	// SystemVariableScope_ResetPersist is used to remove a persisted variable
	SystemVariableScope_ResetPersist
)

func (SystemVariableScope) String 

func (s SystemVariableScope) String() string

String returns the scope as an uppercase string.

type SystemVariableType 

type SystemVariableType interface {
	Type
	// EncodeValue returns the given value as a string for storage.
	EncodeValue(interface{}) (string, error)
	// DecodeValue returns the original value given to EncodeValue from the given string. This is different from `Convert`,
	// as the encoded value may technically be an "illegal" value according to the type rules.
	DecodeValue(string) (interface{}, error)
}

SystemVariableType represents a SQL type specifically (and only) used in system variables. Assigning any non-system variables a SystemVariableType will cause errors.

type Table 

type Table interface {
	Nameable
	fmt.Stringer
	// Schema returns the table's schema.
	Schema() Schema
	// Collation returns the table's collation.
	Collation() CollationID
	// Partitions returns the table's partitions in an iterator.
	Partitions(*Context) (PartitionIter, error)
	// PartitionRows returns the rows in the given partition, which was returned by Partitions.
	PartitionRows(*Context, Partition) (RowIter, error)
}

Table is a SQL table.

func GetTableInsensitive 

func GetTableInsensitive(tblName string, tables map[string]Table) (Table, bool)

GetTableInsensitive implements a case-insensitive map lookup for tables keyed off of the table name. Looks for exact matches first. If no exact matches are found then any table matching the name case insensitively should be returned. If there is more than one table that matches a case-insensitive comparison the resolution strategy is not defined.

type Table2 

type Table2 interface {
	Table

	PartitionRows2(ctx *Context, part Partition) (RowIter2, error)
}

Table2 is an experimental future interface alternative to Table to provide faster access.

type TableCopierDatabase 

type TableCopierDatabase interface {
	// CopyTableData copies the sourceTable data to the destinationTable and returns the number of rows copied.
	CopyTableData(ctx *Context, sourceTable string, destinationTable string) (uint64, error)
}

TableCopierDatabase is a database that can copy a source table's data (without preserving indexed, fks, etc.) into another destination table.

type TableCreator 

type TableCreator interface {
	Database
	// CreateTable creates the table with the given name and schema.
	CreateTable(ctx *Context, name string, schema PrimaryKeySchema, collation CollationID) error
}

TableCreator is a Database that can create new tables.

type TableDropper 

type TableDropper interface {
	Database
	DropTable(ctx *Context, name string) error
}

TableDropper is a Datagbase that can drop tables.

type TableEditor 

type TableEditor interface {
	RowReplacer
	RowUpdater
}

TableEditor is the combination of interfaces that allow any table edit operation: i.e. INSERT, UPDATE, DELETE, REPLACE

type TableFunction 

type TableFunction interface {
	Node
	Expressioner
	Databaser
	Nameable

	// NewInstance calls the table function with the arguments provided, producing a Node
	NewInstance(ctx *Context, db Database, args []Expression) (Node, error)
}

TableFunction is a node that is generated by a function and can be used as a table factor in many SQL queries.

type TableFunctionProvider 

type TableFunctionProvider interface {
	// TableFunction returns the table function with the name provided, case-insensitive
	TableFunction(ctx *Context, name string) (TableFunction, error)
}

TableFunctionProvider is an interface that allows custom table functions to be provided. It's usually (but not always) implemented by a DatabaseProvider.

type TableProgress 

type TableProgress struct {
	Progress
	PartitionsProgress map[string]PartitionProgress
}

TableProgress keeps track of a table progress, and for each of its partitions

func NewTableProgress 

func NewTableProgress(name string, total int64) TableProgress

func (TableProgress) String 

func (p TableProgress) String() string

type TableRenamer 

type TableRenamer interface {
	Database
	// RenameTable renames a table from oldName to newName as given.
	RenameTable(ctx *Context, oldName, newName string) error
}

TableRenamer is a database that can rename tables.

type TableRowIter 

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

TableRowIter is an iterator over the partitions in a table.

func NewTableRowIter 

func NewTableRowIter(ctx *Context, table Table, partitions PartitionIter) *TableRowIter

NewTableRowIter returns a new iterator over the rows in the partitions of the table given.

func (*TableRowIter) Close 

func (i *TableRowIter) Close(ctx *Context) error

func (*TableRowIter) Next 

func (i *TableRowIter) Next(ctx *Context) (Row, error)

func (*TableRowIter) Next2 

func (i *TableRowIter) Next2(ctx *Context, frame *RowFrame) error

type TableStatistics 

type TableStatistics struct {
	// RowCount returns the number of rows in this table.
	RowCount uint64
	// CreatedAt returns the time at which the current statistics for this table were generated.
	CreatedAt time.Time
	// Histograms returns a map from all column names to their associated histograms.
	Histograms HistogramMap
}

TableStatistics provides access to statistical information about the values stored in a table

func (*TableStatistics) Histogram 

func (ts *TableStatistics) Histogram(colName string) (*Histogram, error)

type TableWrapper 

type TableWrapper interface {
	// Underlying returns the underlying table.
	Underlying() Table
}

TableWrapper is a node that wraps the real table. This is needed because wrappers cannot implement some methods the table may implement. This interface is used in analysis and planning and is not expected to be implemented by integrators.

type Tableable 

type Tableable interface {
	// Table returns the table name.
	Table() string
}

Tableable is something that has a table.

type TemporaryTable 

type TemporaryTable interface {
	// IsTemporary should return true if the table is temporary to the session
	IsTemporary() bool
}

TemporaryTable allows tables to declare that they are temporary (created by CREATE TEMPORARY TABLE). Only used for validation of certain DDL operations -- in almost all respects TemporaryTables are indistinguishable from persisted tables to the engine.

type TemporaryTableCreator 

type TemporaryTableCreator interface {
	Database
	// CreateTemporaryTable creates the table with the given name and schema. If a temporary table with that name already exists, must
	// return sql.ErrTableAlreadyExists
	CreateTemporaryTable(ctx *Context, name string, schema PrimaryKeySchema, collation CollationID) error
}

TemporaryTableCreator is a database that can create temporary tables that persist only as long as the session. Note that temporary tables with the same name as persisted tables take precedence in most SQL operations.

type TemporaryTableDatabase 

type TemporaryTableDatabase interface {
	// GetAllTemporaryTables returns the names of all temporary tables in the session.
	GetAllTemporaryTables(ctx *Context) ([]Table, error)
}

TemporaryTableDatabase is a database that can query the session (which manages the temporary table state) to retrieve the name of all temporary tables.

type Transaction 

type Transaction interface {
	fmt.Stringer
	IsReadOnly() bool
}

Transaction is an opaque type implemented by an integrator to record necessary information at the start of a transaction. Active transactions will be recorded in the session.

type TransactionCharacteristic 

type TransactionCharacteristic int
const (
	ReadWrite TransactionCharacteristic = iota
	ReadOnly
)

type TransactionSession 

type TransactionSession interface {
	Session
	// StartTransaction starts a new transaction and returns it
	StartTransaction(ctx *Context, tCharacteristic TransactionCharacteristic) (Transaction, error)
	// CommitTransaction commits the transaction given
	CommitTransaction(ctx *Context, tx Transaction) error
	// Rollback restores the database to the state recorded in the transaction given
	Rollback(ctx *Context, transaction Transaction) error
	// CreateSavepoint records a savepoint for the transaction given with the name given. If the name is already in use
	// for this transaction, the new savepoint replaces the old one.
	CreateSavepoint(ctx *Context, transaction Transaction, name string) error
	// RollbackToSavepoint restores the database to the state named by the savepoint
	RollbackToSavepoint(ctx *Context, transaction Transaction, name string) error
	// ReleaseSavepoint removes the savepoint named from the transaction given
	ReleaseSavepoint(ctx *Context, transaction Transaction, name string) error
}

TransactionSession can BEGIN, ROLLBACK and COMMIT transactions, as well as create SAVEPOINTS and restore to them. Transactions can span multiple databases, and integrators must do their own error handling to prevent this if they cannot support multiple databases in a single transaction. Such integrators can use Session.GetTransactionDatabase to determine the database that was considered in scope when a transaction began.

type TreePrinter 

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

TreePrinter is a printer for tree nodes.

func NewTreePrinter 

func NewTreePrinter() *TreePrinter

NewTreePrinter creates a new tree printer.

func (*TreePrinter) String 

func (p *TreePrinter) String() string

String returns the output of the printed tree.

func (*TreePrinter) WriteChildren 

func (p *TreePrinter) WriteChildren(children ...string) error

WriteChildren writes a children of the tree.

func (*TreePrinter) WriteNode 

func (p *TreePrinter) WriteNode(format string, args ...interface{}) error

WriteNode writes the main node.

type TriggerDatabase 

type TriggerDatabase interface {
	Database
	// GetTriggers returns all trigger definitions for the database
	GetTriggers(ctx *Context) ([]TriggerDefinition, error)
	// CreateTrigger is called when an integrator is asked to create a trigger. The CREATE TRIGGER statement string is
	// provided to store, along with the name of the trigger.
	CreateTrigger(ctx *Context, definition TriggerDefinition) error
	// DropTrigger is called when a trigger should no longer be stored. The name has already been validated.
	// Returns ErrTriggerDoesNotExist if the trigger was not found.
	DropTrigger(ctx *Context, name string) error
}

TriggerDatabase is a Database that supports creating and storing triggers. The engine handles all parsing and execution logic for triggers. Integrators are not expected to parse or understand the trigger definitions, but must store and return them when asked.

type TriggerDefinition 

type TriggerDefinition struct {
	// The name of this trigger. Trigger names in a database are unique.
	Name string
	// The text of the statement to create this trigger.
	CreateStatement string
	// The time that the trigger was created.
	CreatedAt time.Time
}

TriggerDefinition defines a trigger. Integrators are not expected to parse or understand the trigger definitions, but must store and return them when asked.

type TruncateableTable 

type TruncateableTable interface {
	Table
	// Truncate removes all rows from the table. If the table also implements DeletableTable and it is determined that
	// truncate would be equivalent to a DELETE which spans the entire table, then this function will be called instead.
	// Returns the number of rows that were removed.
	Truncate(*Context) (int, error)
}

TruncateableTable is a table that can process the deletion of all rows either via a TRUNCATE TABLE statement or a DELETE statement without a WHERE clause. This is usually much faster that deleting rows one at a time.

type Type 

type Type interface {
	// Compare returns an integer comparing two values.
	// The result will be 0 if a==b, -1 if a < b, and +1 if a > b.
	Compare(interface{}, interface{}) (int, error)
	// Convert a value of a compatible type to a most accurate type.
	Convert(interface{}) (interface{}, error)
	// Equals returns whether the given type is equivalent to the calling type. All parameters are included in the
	// comparison, so ENUM("a", "b") is not equivalent to ENUM("a", "b", "c").
	Equals(otherType Type) bool
	// MaxTextResponseByteLength returns the maximum number of bytes needed to serialize an instance of this type as a string in a response over the wire for MySQL's text protocol – in other words, this is the maximum bytes needed to serialize any value of this type as human-readable text, NOT in a more compact, binary representation.
	MaxTextResponseByteLength() uint32
	// Promote will promote the current type to the largest representing type of the same kind, such as Int8 to Int64.
	Promote() Type
	// SQL returns the sqltypes.Value for the given value.
	// Implementations can optionally use |dest| to append
	// serialized data, but should not mutate existing data.
	SQL(ctx *Context, dest []byte, v interface{}) (sqltypes.Value, error)
	// Type returns the query.Type for the given Type.
	Type() query.Type
	// ValueType returns the Go type of the value returned by Convert().
	ValueType() reflect.Type
	// Zero returns the golang zero value for this type
	Zero() interface{}
	fmt.Stringer
}

Type represents a SQL type.

func GetColExprTypes 

func GetColExprTypes(ranges []Range) []Type

GetColExprTypes returns a list of RangeColumnExpr type fields, defaulting to Null types if all columns expressions are Null.

type Type2 

type Type2 interface {
	Type

	// Compare2 returns an integer comparing two Values.
	Compare2(Value, Value) (int, error)
	// Convert2 converts a value of a compatible type.
	Convert2(Value) (Value, error)
	// Zero2 returns the zero Value for this type.
	Zero2() Value
	// SQL2 returns the sqltypes.Value for the given value
	SQL2(Value) (sqltypes.Value, error)
}

type TypeWithCollation 

type TypeWithCollation interface {
	Collation() CollationID
	WithNewCollation(collation CollationID) (Type, error)
}

TypeWithCollation is implemented on all types that may return a collation.

type TypedValue 

type TypedValue struct {
	Typ   Type
	Value interface{}
}

TypedValue is a value along with its type.

type UnaryNode 

type UnaryNode interface {
	Child() Node
}

UnaryNode is a Node with one child.

type UniqueKeyError 

type UniqueKeyError struct {
	IsPK     bool
	Existing Row
	// contains filtered or unexported fields
}

func (UniqueKeyError) Error 

func (ue UniqueKeyError) Error() string

type UnresolvedColumnDefault 

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

func (UnresolvedColumnDefault) Children 

func (u UnresolvedColumnDefault) Children() []Expression

func (UnresolvedColumnDefault) Eval 

func (u UnresolvedColumnDefault) Eval(ctx *Context, row Row) (interface{}, error)

func (UnresolvedColumnDefault) IsNullable 

func (u UnresolvedColumnDefault) IsNullable() bool

func (UnresolvedColumnDefault) Resolved 

func (u UnresolvedColumnDefault) Resolved() bool

func (UnresolvedColumnDefault) String 

func (u UnresolvedColumnDefault) String() string

func (UnresolvedColumnDefault) Type 

func (u UnresolvedColumnDefault) Type() Type

func (UnresolvedColumnDefault) WithChildren 

func (u UnresolvedColumnDefault) WithChildren(children ...Expression) (Expression, error)

type UnresolvedDatabase 

type UnresolvedDatabase string

UnresolvedDatabase is a database which has not been resolved yet.

func (UnresolvedDatabase) GetTableInsensitive 

func (UnresolvedDatabase) GetTableInsensitive(ctx *Context, tblName string) (Table, bool, error)

func (UnresolvedDatabase) GetTableNames 

func (UnresolvedDatabase) GetTableNames(ctx *Context) ([]string, error)

func (UnresolvedDatabase) Name 

func (d UnresolvedDatabase) Name() string

Name returns the database name.

func (UnresolvedDatabase) Tables 

func (UnresolvedDatabase) Tables() map[string]Table

Tables returns the tables in the database.

type UnresolvedTable 

type UnresolvedTable interface {
	Nameable
	// Database returns the database name
	Database() string
	// WithAsOf returns a copy of this versioned table with its AsOf
	// field set to the given value. Analogous to WithChildren.
	WithAsOf(asOf Expression) (Node, error)
	// AsOf returns this table's asof expression.
	AsOf() Expression
}

UnresolvedTable is a Table that is either unresolved or deferred for until an asOf resolution. Used by the analyzer during planning, and is not expected to be implemented by integrators.

type UnsupportedFunctionStub 

type UnsupportedFunctionStub interface {
	IsUnsupported() bool
}

UnsupportedFunctionStub is a marker interface for function stubs that are unsupported

type UpdatableTable 

type UpdatableTable interface {
	Table
	// Updater returns a RowUpdater for this table. The RowUpdater will have Update called once for each row to be
	// updated, followed by a call to Close() when all rows have been processed.
	Updater(ctx *Context) RowUpdater
}

UpdatableTable is a table that can process updates of existing rows via update statements.

type UserVars 

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

func (*UserVars) GetUserVariable 

func (u *UserVars) GetUserVariable(ctx *Context, varName string) (Type, interface{}, error)

GetUserVariable implements the Session interface.

func (*UserVars) SetUserVariable 

func (u *UserVars) SetUserVariable(ctx *Context, varName string, value interface{}, typ Type) error

type Value 

type Value struct {
	Typ querypb.Type
	Val ValueBytes
}

Value is a logical index into a Row2. For efficiency reasons, use sparingly.

func ConvertToValue 

func ConvertToValue(v interface{}) (Value, error)

ConvertToValue converts the interface to a sql value.

func (Value) IsNull 

func (v Value) IsNull() bool

IsNull returns whether this value represents NULL

type ValueBytes 

type ValueBytes []byte

type VersionedDatabase 

type VersionedDatabase interface {
	Database
	// GetTableInsensitiveAsOf retrieves a table by its case-insensitive name with the same semantics as
	// Database.GetTableInsensitive, but at a particular revision of the database. Implementors must choose which types
	// of expressions to accept as revision names.
	GetTableInsensitiveAsOf(ctx *Context, tblName string, asOf interface{}) (Table, bool, error)
	// GetTableNamesAsOf returns the table names of every table in the database as of the revision given. Implementors
	// must choose which types of expressions to accept as revision names.
	GetTableNamesAsOf(ctx *Context, asOf interface{}) ([]string, error)
}

VersionedDatabase is a Database that can return tables as they existed at different points in time. The engine supports queries on historical table data via the AS OF construct introduced in SQL 2011.

type View 

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

View is the parsed version of ViewDefinition Not meant to be used externally

func NewView 

func NewView(name string, definition Node, textDefinition, createViewStmt string) *View

NewView creates a View with the specified name and definition.

func (*View) CreateStatement 

func (v *View) CreateStatement() string

CreateStatement returns the text create view statement of the view as originally defined.

func (*View) Definition 

func (v *View) Definition() Node

Definition returns the definition of the view.

func (*View) Name 

func (v *View) Name() string

Name returns the name of the view.

func (*View) TextDefinition 

func (v *View) TextDefinition() string

TextDefinition returns the text definition of the view as originally defined.

type ViewDatabase 

type ViewDatabase interface {
	// CreateView persists the definition a view with the name and select statement given. If a view with that name
	// already exists, should return ErrExistingView
	CreateView(ctx *Context, name string, selectStatement, createViewStmt string) error

	// DropView deletes the view named from persistent storage. If the view doesn't exist, should return
	// ErrViewDoesNotExist
	DropView(ctx *Context, name string) error

	// GetViewDefinition returns the ViewDefinition of the view with the name given, or false if it doesn't exist.
	GetViewDefinition(ctx *Context, viewName string) (ViewDefinition, bool, error)

	// AllViews returns the definitions of all views in the database
	AllViews(ctx *Context) ([]ViewDefinition, error)
}

ViewDatabase is implemented by databases that persist view definitions

type ViewDefinition 

type ViewDefinition struct {
	Name                string
	TextDefinition      string
	CreateViewStatement string
}

ViewDefinition is the named textual definition of a view

type ViewKey 

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

ViewKey is the key used to store view definitions

func NewViewKey 

func NewViewKey(databaseName, viewName string) ViewKey

NewViewKey creates a ViewKey ensuring both names are lowercase.

type ViewRegistry 

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

ViewRegistry stores session-local views for databases that don't implement view storage. Each session gets a new view registry by default. Integrators that want views to persist across sessions should either implement sql.ViewDatabase, or construct their sessions to reuse the same ViewRegistry for each session.

func NewViewRegistry 

func NewViewRegistry() *ViewRegistry

NewViewRegistry creates an empty ViewRegistry.

func (*ViewRegistry) Delete 

func (r *ViewRegistry) Delete(databaseName, viewName string) error

Delete deletes the view specified by the pair {databaseName, viewName}, returning an error if it does not exist.

func (*ViewRegistry) Exists 

func (r *ViewRegistry) Exists(databaseName, viewName string) bool

Exists returns whether the specified key is already registered

func (*ViewRegistry) Register 

func (r *ViewRegistry) Register(database string, view *View) error

Register adds the view specified by the pair {database, view.Name()}, returning an error if there is already an element with that key.

func (*ViewRegistry) View 

func (r *ViewRegistry) View(databaseName, viewName string) (*View, bool)

View returns a pointer to the view specified by the pair {databaseName, viewName}, returning an error if it does not exist.

func (*ViewRegistry) ViewsInDatabase 

func (r *ViewRegistry) ViewsInDatabase(databaseName string) (views []*View)

ViewsInDatabase returns an array of all the views registered under the specified database.

type Visitor 

type Visitor interface {
	// Visit method is invoked for each expr encountered by Walk.
	// If the result Visitor is not nil, Walk visits each of the children
	// of the expr with that visitor, followed by a call of Visit(nil)
	// to the returned visitor.
	Visit(expr Expression) Visitor
}

Visitor visits expressions in an expression tree.

type Warning 

type Warning struct {
	Level   string
	Message string
	Code    int
}

Warning stands for mySQL warning record.

type WindowAdaptableExpression 

type WindowAdaptableExpression interface {
	Expression

	// NewEvalable constructs an executable aggregation WindowFunction
	NewWindowFunction() (WindowFunction, error)
}

WindowAdaptableExpression is an Expression that can be executed as a window aggregation

type WindowAggregation 

type WindowAggregation interface {
	WindowAdaptableExpression
	// Window returns this expression's window
	Window() *WindowDefinition
	// WithWindow returns a version of this window aggregation with the window given
	WithWindow(window *WindowDefinition) (WindowAggregation, error)
}

WindowAggregation implements a window aggregation expression. A WindowAggregation is similar to an Aggregation, except that it returns a result row for every input row, as opposed to as single for the entire result set. A WindowAggregation is expected to track its input rows in the order received, and to return the value for the row index given on demand.

type WindowBuffer 

type WindowBuffer []Row

WindowBuffer is a type alias for a window materialization

type WindowDefinition 

type WindowDefinition struct {
	PartitionBy []Expression
	OrderBy     SortFields
	Frame       WindowFrame
	Ref         string
	Name        string
	// contains filtered or unexported fields
}

A WindowDefinition specifies the window parameters of a window function

func NewWindowDefinition 

func NewWindowDefinition(partitionBy []Expression, orderBy SortFields, frame WindowFrame, ref, name string) *WindowDefinition

func (*WindowDefinition) DebugString 

func (w *WindowDefinition) DebugString() string

func (*WindowDefinition) FromExpressions 

func (w *WindowDefinition) FromExpressions(children []Expression) (*WindowDefinition, error)

FromExpressions returns copy of this window with the given expressions taken to stand in for the partition and order by fields. An error is returned if the lengths or types of these expressions are incompatible with this window.

func (*WindowDefinition) PartitionId 

func (w *WindowDefinition) PartitionId() (uint64, error)

func (*WindowDefinition) String 

func (w *WindowDefinition) String() string

func (*WindowDefinition) ToExpressions 

func (w *WindowDefinition) ToExpressions() []Expression

ToExpressions converts the PartitionBy and OrderBy expressions to a single slice of expressions suitable for manipulation by analyzer rules.

type WindowFrame 

type WindowFrame interface {
	fmt.Stringer

	// NewFramer constructs an executable WindowFramer
	NewFramer(*WindowDefinition) (WindowFramer, error)
	// UnboundedFollowing returns whether a frame end is unbounded
	UnboundedFollowing() bool
	// UnboundedPreceding returns whether a frame start is unbounded
	UnboundedPreceding() bool
	// StartCurrentRow returns whether a frame start is CURRENT ROW
	StartCurrentRow() bool
	// EndCurrentRow returns whether a frame end is CURRENT ROW
	EndCurrentRow() bool
	// StartNFollowing returns a frame's start preceding Expression or nil
	StartNPreceding() Expression
	// StartNFollowing returns a frame's start following Expression or nil
	StartNFollowing() Expression
	// EndNPreceding returns whether a frame end preceding Expression or nil
	EndNPreceding() Expression
	// EndNPreceding returns whether a frame end following Expression or nil
	EndNFollowing() Expression
}

WindowFrame describe input bounds for an aggregation function execution. A frame will only have two non-null fields for the start and end bounds. A WindowFrame plan node is associated with an exec WindowFramer.

type WindowFramer 

type WindowFramer interface {
	// NewFramer is a prototype constructor that create a new Framer with pass-through
	// parent arguments
	NewFramer(WindowInterval) (WindowFramer, error)
	// Next returns the next WindowInterval frame, or an io.EOF error after the last row
	Next(*Context, WindowBuffer) (WindowInterval, error)
	// FirstIdx returns the current frame start index
	FirstIdx() int
	// LastIdx returns the last valid index in the current frame
	LastIdx() int
	// Interval returns the current frame as a WindowInterval
	Interval() (WindowInterval, error)
}

WindowFramer is responsible for tracking window frame indices for partition rows. WindowFramer is aware of the framing strategy (offsets, ranges, etc), and is responsible for returning a WindowInterval for each partition row.

type WindowFunction 

type WindowFunction interface {
	Disposable

	// WithWindow passes fields from the parent WindowDefinition, deferring partial construction of a WindowFunction
	WithWindow(w *WindowDefinition) (WindowFunction, error)
	// StartPartition discards any previous state and initializes the aggregation for a new partition
	StartPartition(*Context, WindowInterval, WindowBuffer) error
	// DefaultFramer returns a new instance of the default WindowFramer for a particular aggregation
	DefaultFramer() WindowFramer
	// NewSlidingFrameInterval is updates the function's internal aggregation state for the next
	// Compute call using three WindowInterval: added, dropped, and current.
	// TODO: implement sliding window interface in aggregation functions and windowBlockIter
	// NewSlidingFrameInterval(added, dropped WindowInterval)
	// Compute returns an aggregation result for a given interval and buffer
	Compute(*Context, WindowInterval, WindowBuffer) interface{}
}

WindowFunction performs aggregations on buffer intervals, optionally maintaining internal state for performance optimizations

type WindowInterval 

type WindowInterval struct {
	Start, End int
}

WindowInterval is a WindowBuffer index range, where [Start] is inclusive, and [End] is exclusive

type WrappedInsertError 

type WrappedInsertError struct {
	OffendingRow Row
	Cause        error
}

func NewWrappedInsertError 

func NewWrappedInsertError(r Row, err error) WrappedInsertError

func (WrappedInsertError) Error 

func (w WrappedInsertError) Error() string

type WrappedTypeConversionError 

type WrappedTypeConversionError struct {
	OffendingVal interface{}
	OffendingIdx int
	Err          error
}

func NewWrappedTypeConversionError 

func NewWrappedTypeConversionError(offendingVal interface{}, idx int, err error) WrappedTypeConversionError

func (WrappedTypeConversionError) Error 

func (w WrappedTypeConversionError) Error() string

type YearType 

type YearType interface {
	Type
}

YearType represents the YEAR type. https://dev.mysql.com/doc/refman/8.0/en/year.html The type of the returned value is int16.

Source Files

View all Source files

Directories

Path Synopsis
function
function/aggregation
function/aggregation/window
function/spatial
serial
dateparse

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