本文整理匯總了Golang中github.com/cockroachdb/cockroach/sql/parser.DTuple函數的典型用法代碼示例。如果您正苦於以下問題:Golang DTuple函數的具體用法?Golang DTuple怎麽用?Golang DTuple使用的例子?那麽, 這裏精選的函數代碼示例或許可以為您提供幫助。
在下文中一共展示了DTuple函數的8個代碼示例,這些例子默認根據受歡迎程度排序。您可以為喜歡或者感覺有用的代碼點讚,您的評價將有助於係統推薦出更棒的Golang代碼示例。
示例1: processSelect
func (s *Server) processSelect(node parser.SelectStatement) (rows []sqlwire.Result_Row, _ error) {
switch nt := node.(type) {
// case *parser.Select:
// case *parser.Union:
// TODO(vivek): return s.query(nt.stmt, nil)
case parser.Values:
for _, tuple := range nt {
data, err := parser.EvalExpr(tuple, nil)
if err != nil {
return rows, err
}
dTuple, ok := data.(parser.DTuple)
if !ok {
// A one-element DTuple is currently turned into whatever its
// underlying element is, so we have to massage here.
// See #1741.
dTuple = parser.DTuple([]parser.Datum{data})
}
var vals []sqlwire.Datum
for _, val := range dTuple {
switch vt := val.(type) {
case parser.DBool:
vals = append(vals, sqlwire.Datum{BoolVal: (*bool)(&vt)})
case parser.DInt:
vals = append(vals, sqlwire.Datum{IntVal: (*int64)(&vt)})
case parser.DFloat:
vals = append(vals, sqlwire.Datum{FloatVal: (*float64)(&vt)})
case parser.DString:
vals = append(vals, sqlwire.Datum{StringVal: (*string)(&vt)})
case parser.DNull:
vals = append(vals, sqlwire.Datum{})
default:
return rows, util.Errorf("unsupported node: %T", val)
}
}
rows = append(rows, sqlwire.Result_Row{Values: vals})
}
return rows, nil
}
return nil, util.Errorf("TODO(pmattis): unsupported node: %T", node)
}
示例2: Delete
// Delete deletes rows from a table.
// Privileges: DELETE and SELECT on table. We currently always use a SELECT statement.
// Notes: postgres requires DELETE. Also requires SELECT for "USING" and "WHERE" with tables.
// mysql requires DELETE. Also requires SELECT if a table is used in the "WHERE" clause.
func (p *planner) Delete(n *parser.Delete) (planNode, *roachpb.Error) {
tableDesc, pErr := p.getAliasedTableLease(n.Table)
if pErr != nil {
return nil, pErr
}
if err := p.checkPrivilege(tableDesc, privilege.DELETE); err != nil {
return nil, roachpb.NewError(err)
}
// TODO(tamird,pmattis): avoid going through Select to avoid encoding
// and decoding keys.
rows, pErr := p.Select(&parser.Select{
Exprs: tableDesc.allColumnsSelector(),
From: parser.TableExprs{n.Table},
Where: n.Where,
})
if pErr != nil {
return nil, pErr
}
if p.prepareOnly {
return nil, nil
}
// Construct a map from column ID to the index the value appears at within a
// row.
colIDtoRowIndex, err := makeColIDtoRowIndex(rows, tableDesc)
if err != nil {
return nil, roachpb.NewError(err)
}
primaryIndex := tableDesc.PrimaryIndex
primaryIndexKeyPrefix := MakeIndexKeyPrefix(tableDesc.ID, primaryIndex.ID)
b := client.Batch{}
result := &valuesNode{}
for rows.Next() {
rowVals := rows.Values()
result.rows = append(result.rows, parser.DTuple(nil))
primaryIndexKey, _, err := encodeIndexKey(
&primaryIndex, colIDtoRowIndex, rowVals, primaryIndexKeyPrefix)
if err != nil {
return nil, roachpb.NewError(err)
}
// Delete the secondary indexes.
indexes := tableDesc.Indexes
// Also include all the indexes under mutation; mutation state is
// irrelevant for deletions.
for _, m := range tableDesc.Mutations {
if index := m.GetIndex(); index != nil {
indexes = append(indexes, *index)
}
}
secondaryIndexEntries, err := encodeSecondaryIndexes(
tableDesc.ID, indexes, colIDtoRowIndex, rowVals)
if err != nil {
return nil, roachpb.NewError(err)
}
for _, secondaryIndexEntry := range secondaryIndexEntries {
if log.V(2) {
log.Infof("Del %s", secondaryIndexEntry.key)
}
b.Del(secondaryIndexEntry.key)
}
// Delete the row.
rowStartKey := roachpb.Key(primaryIndexKey)
rowEndKey := rowStartKey.PrefixEnd()
if log.V(2) {
log.Infof("DelRange %s - %s", rowStartKey, rowEndKey)
}
b.DelRange(rowStartKey, rowEndKey)
}
if pErr := rows.PErr(); pErr != nil {
return nil, pErr
}
if isSystemConfigID(tableDesc.GetID()) {
// Mark transaction as operating on the system DB.
p.txn.SetSystemConfigTrigger()
}
if pErr := p.txn.Run(&b); pErr != nil {
return nil, pErr
}
return result, nil
}
示例3: Delete
// Delete deletes rows from a table.
// Privileges: DELETE and SELECT on table. We currently always use a SELECT statement.
// Notes: postgres requires DELETE. Also requires SELECT for "USING" and "WHERE" with tables.
// mysql requires DELETE. Also requires SELECT if a table is used in the "WHERE" clause.
func (p *planner) Delete(n *parser.Delete) (planNode, error) {
tableDesc, err := p.getAliasedTableDesc(n.Table, false /* !allowCache */)
if err != nil {
return nil, err
}
if err := p.checkPrivilege(tableDesc, privilege.DELETE); err != nil {
return nil, err
}
// TODO(tamird,pmattis): avoid going through Select to avoid encoding
// and decoding keys.
rows, err := p.Select(&parser.Select{
Exprs: parser.SelectExprs{parser.StarSelectExpr()},
From: parser.TableExprs{n.Table},
Where: n.Where,
})
if err != nil {
return nil, err
}
// Construct a map from column ID to the index the value appears at within a
// row.
colIDtoRowIndex, err := makeColIDtoRowIndex(rows, tableDesc)
if err != nil {
return nil, err
}
primaryIndex := tableDesc.PrimaryIndex
primaryIndexKeyPrefix := MakeIndexKeyPrefix(tableDesc.ID, primaryIndex.ID)
b := client.Batch{}
result := &valuesNode{}
for rows.Next() {
rowVals := rows.Values()
result.rows = append(result.rows, parser.DTuple(nil))
primaryIndexKey, _, err := encodeIndexKey(
primaryIndex.ColumnIDs, colIDtoRowIndex, rowVals, primaryIndexKeyPrefix)
if err != nil {
return nil, err
}
// Delete the secondary indexes.
secondaryIndexEntries, err := encodeSecondaryIndexes(
tableDesc.ID, tableDesc.Indexes, colIDtoRowIndex, rowVals)
if err != nil {
return nil, err
}
for _, secondaryIndexEntry := range secondaryIndexEntries {
if log.V(2) {
log.Infof("Del %s", prettyKey(secondaryIndexEntry.key, 0))
}
b.Del(secondaryIndexEntry.key)
}
// Delete the row.
rowStartKey := roachpb.Key(primaryIndexKey)
rowEndKey := rowStartKey.PrefixEnd()
if log.V(2) {
log.Infof("DelRange %s - %s", prettyKey(rowStartKey, 0), prettyKey(rowEndKey, 0))
}
b.DelRange(rowStartKey, rowEndKey)
}
if err := rows.Err(); err != nil {
return nil, err
}
if IsSystemID(tableDesc.GetID()) {
// Mark transaction as operating on the system DB.
p.txn.SetSystemDBTrigger()
}
if err := p.txn.Run(&b); err != nil {
return nil, err
}
return result, nil
}
示例4: Insert
// Insert inserts rows into the database.
// Privileges: INSERT on table
// Notes: postgres requires INSERT. No "on duplicate key update" option.
// mysql requires INSERT. Also requires UPDATE on "ON DUPLICATE KEY UPDATE".
func (p *planner) Insert(n *parser.Insert) (planNode, error) {
// TODO(marcb): We can't use the cached descriptor here because a recent
// update of the schema (e.g. the addition of an index) might not be
// reflected in the cached version (yet). Perhaps schema modification
// routines such as CREATE INDEX should not return until the schema change
// has been pushed everywhere.
tableDesc, err := p.getTableLease(n.Table)
if err != nil {
return nil, err
}
if err := p.checkPrivilege(tableDesc, privilege.INSERT); err != nil {
return nil, err
}
// Determine which columns we're inserting into.
cols, err := p.processColumns(tableDesc, n.Columns)
if err != nil {
return nil, err
}
// Construct a map from column ID to the index the value appears at within a
// row.
colIDtoRowIndex := map[ColumnID]int{}
for i, c := range cols {
colIDtoRowIndex[c.ID] = i
}
// Add any column not already present that has a DEFAULT expression.
for _, col := range tableDesc.Columns {
if _, ok := colIDtoRowIndex[col.ID]; ok {
continue
}
if col.DefaultExpr != nil {
colIDtoRowIndex[col.ID] = len(cols)
cols = append(cols, col)
}
}
// Verify we have at least the columns that are part of the primary key.
primaryKeyCols := map[ColumnID]struct{}{}
for i, id := range tableDesc.PrimaryIndex.ColumnIDs {
if _, ok := colIDtoRowIndex[id]; !ok {
return nil, fmt.Errorf("missing %q primary key column", tableDesc.PrimaryIndex.ColumnNames[i])
}
primaryKeyCols[id] = struct{}{}
}
// Construct the default expressions. The returned slice will be nil if no
// column in the table has a default expression.
defaultExprs, err := p.makeDefaultExprs(cols)
if err != nil {
return nil, err
}
// Replace any DEFAULT markers with the corresponding default expressions.
if n.Rows, err = p.fillDefaults(defaultExprs, cols, n.Rows); err != nil {
return nil, err
}
// Transform the values into a rows object. This expands SELECT statements or
// generates rows from the values contained within the query.
rows, err := p.makePlan(n.Rows)
if err != nil {
return nil, err
}
if expressions, columns := len(rows.Columns()), len(cols); expressions > columns {
return nil, fmt.Errorf("INSERT has more expressions than target columns: %d/%d", expressions, columns)
}
primaryIndex := tableDesc.PrimaryIndex
primaryIndexKeyPrefix := MakeIndexKeyPrefix(tableDesc.ID, primaryIndex.ID)
marshalled := make([]interface{}, len(cols))
b := client.Batch{}
result := &valuesNode{}
for rows.Next() {
rowVals := rows.Values()
result.rows = append(result.rows, parser.DTuple(nil))
// The values for the row may be shorter than the number of columns being
// inserted into. Generate default values for those columns using the
// default expressions.
for i := len(rowVals); i < len(cols); i++ {
if defaultExprs == nil {
rowVals = append(rowVals, parser.DNull)
continue
}
d, err := defaultExprs[i].Eval(p.evalCtx)
if err != nil {
return nil, err
}
rowVals = append(rowVals, d)
}
//.........這裏部分代碼省略.........
示例5: Update
// Update updates columns for a selection of rows from a table.
// Privileges: UPDATE and SELECT on table. We currently always use a select statement.
// Notes: postgres requires UPDATE. Requires SELECT with WHERE clause with table.
// mysql requires UPDATE. Also requires SELECT with WHERE clause with table.
func (p *planner) Update(n *parser.Update) (planNode, *roachpb.Error) {
tableDesc, pErr := p.getAliasedTableLease(n.Table)
if pErr != nil {
return nil, pErr
}
if err := p.checkPrivilege(tableDesc, privilege.UPDATE); err != nil {
return nil, roachpb.NewError(err)
}
// Determine which columns we're inserting into.
var names parser.QualifiedNames
for _, expr := range n.Exprs {
var epErr *roachpb.Error
expr.Expr, epErr = p.expandSubqueries(expr.Expr, len(expr.Names))
if epErr != nil {
return nil, epErr
}
if expr.Tuple {
// TODO(pmattis): The distinction between Tuple and DTuple here is
// irritating. We'll see a DTuple if the expression was a subquery that
// has been evaluated. We'll see a Tuple in other cases.
n := 0
switch t := expr.Expr.(type) {
case parser.Tuple:
n = len(t)
case parser.DTuple:
n = len(t)
default:
return nil, roachpb.NewErrorf("unsupported tuple assignment: %T", expr.Expr)
}
if len(expr.Names) != n {
return nil, roachpb.NewUErrorf("number of columns (%d) does not match number of values (%d)",
len(expr.Names), n)
}
}
names = append(names, expr.Names...)
}
cols, err := p.processColumns(tableDesc, names)
if err != nil {
return nil, roachpb.NewError(err)
}
// Set of columns being updated
colIDSet := map[ColumnID]struct{}{}
for _, c := range cols {
colIDSet[c.ID] = struct{}{}
}
// Don't allow updating any column that is part of the primary key.
for i, id := range tableDesc.PrimaryIndex.ColumnIDs {
if _, ok := colIDSet[id]; ok {
return nil, roachpb.NewUErrorf("primary key column %q cannot be updated", tableDesc.PrimaryIndex.ColumnNames[i])
}
}
defaultExprs, err := p.makeDefaultExprs(cols)
if err != nil {
return nil, roachpb.NewError(err)
}
// Generate the list of select targets. We need to select all of the columns
// plus we select all of the update expressions in case those expressions
// reference columns (e.g. "UPDATE t SET v = v + 1"). Note that we flatten
// expressions for tuple assignments just as we flattened the column names
// above. So "UPDATE t SET (a, b) = (1, 2)" translates into select targets of
// "*, 1, 2", not "*, (1, 2)".
targets := tableDesc.allColumnsSelector()
i := 0
for _, expr := range n.Exprs {
if expr.Tuple {
switch t := expr.Expr.(type) {
case parser.Tuple:
for _, e := range t {
e = fillDefault(e, i, defaultExprs)
targets = append(targets, parser.SelectExpr{Expr: e})
i++
}
case parser.DTuple:
for _, e := range t {
targets = append(targets, parser.SelectExpr{Expr: e})
i++
}
}
} else {
e := fillDefault(expr.Expr, i, defaultExprs)
targets = append(targets, parser.SelectExpr{Expr: e})
i++
}
}
// Query the rows that need updating.
rows, pErr := p.Select(&parser.Select{
Exprs: targets,
From: parser.TableExprs{n.Table},
Where: n.Where,
//.........這裏部分代碼省略.........
示例6: Insert
//.........這裏部分代碼省略.........
marshalled := make([]interface{}, len(cols))
b := p.txn.NewBatch()
result := &valuesNode{}
var qvals qvalMap
if n.Returning != nil {
result.columns = make([]ResultColumn, len(n.Returning))
table := tableInfo{
columns: makeResultColumns(cols, 0),
}
qvals = make(qvalMap)
for i, c := range n.Returning {
expr, err := resolveQNames(&table, qvals, c.Expr)
if err != nil {
return nil, roachpb.NewError(err)
}
n.Returning[i].Expr = expr
typ, err := expr.TypeCheck(p.evalCtx.Args)
if err != nil {
return nil, roachpb.NewError(err)
}
name := string(c.As)
if name == "" {
name = expr.String()
}
result.columns[i] = ResultColumn{
Name: name,
Typ: typ,
}
}
}
for rows.Next() {
rowVals := rows.Values()
result.rows = append(result.rows, parser.DTuple(nil))
// The values for the row may be shorter than the number of columns being
// inserted into. Generate default values for those columns using the
// default expressions.
for i := len(rowVals); i < len(cols); i++ {
if defaultExprs == nil {
rowVals = append(rowVals, parser.DNull)
continue
}
d, err := defaultExprs[i].Eval(p.evalCtx)
if err != nil {
return nil, roachpb.NewError(err)
}
rowVals = append(rowVals, d)
}
// Check to see if NULL is being inserted into any non-nullable column.
for _, col := range tableDesc.Columns {
if !col.Nullable {
if i, ok := colIDtoRowIndex[col.ID]; !ok || rowVals[i] == parser.DNull {
return nil, roachpb.NewUErrorf("null value in column %q violates not-null constraint", col.Name)
}
}
}
// Check that the row value types match the column types. This needs to
// happen before index encoding because certain datum types (i.e. tuple)
// cannot be used as index values.
for i, val := range rowVals {
// Make sure the value can be written to the column before proceeding.
var mErr error
if marshalled[i], mErr = marshalColumnValue(cols[i], val, p.evalCtx.Args); mErr != nil {
示例7: Delete
// Delete deletes rows from a table.
// Privileges: DELETE and SELECT on table. We currently always use a SELECT statement.
// Notes: postgres requires DELETE. Also requires SELECT for "USING" and "WHERE" with tables.
// mysql requires DELETE. Also requires SELECT if a table is used in the "WHERE" clause.
func (p *planner) Delete(n *parser.Delete) (planNode, error) {
tableDesc, err := p.getAliasedTableDesc(n.Table)
if err != nil {
return nil, err
}
if err := p.checkPrivilege(tableDesc, privilege.DELETE); err != nil {
return nil, err
}
// TODO(tamird,pmattis): avoid going through Select to avoid encoding
// and decoding keys. Also, avoiding Select may provide more
// convenient access to index keys which we are not currently
// deleting.
rows, err := p.Select(&parser.Select{
Exprs: parser.SelectExprs{parser.StarSelectExpr()},
From: parser.TableExprs{n.Table},
Where: n.Where,
})
if err != nil {
return nil, err
}
// Construct a map from column ID to the index the value appears at within a
// row.
colIDtoRowIndex := map[ColumnID]int{}
for i, name := range rows.Columns() {
c, err := tableDesc.FindColumnByName(name)
if err != nil {
return nil, err
}
colIDtoRowIndex[c.ID] = i
}
primaryIndex := tableDesc.PrimaryIndex
primaryIndexKeyPrefix := MakeIndexKeyPrefix(tableDesc.ID, primaryIndex.ID)
b := client.Batch{}
result := &valuesNode{}
for rows.Next() {
rowVals := rows.Values()
result.rows = append(result.rows, parser.DTuple(nil))
primaryIndexKey, _, err := encodeIndexKey(
primaryIndex.ColumnIDs, colIDtoRowIndex, rowVals, primaryIndexKeyPrefix)
if err != nil {
return nil, err
}
// Delete the secondary indexes.
secondaryIndexEntries, err := encodeSecondaryIndexes(
tableDesc.ID, tableDesc.Indexes, colIDtoRowIndex, rowVals)
if err != nil {
return nil, err
}
for _, secondaryIndexEntry := range secondaryIndexEntries {
if log.V(2) {
log.Infof("Del %s", prettyKey(secondaryIndexEntry.key, 0))
}
b.Del(secondaryIndexEntry.key)
}
// Delete the row.
rowStartKey := proto.Key(primaryIndexKey)
rowEndKey := rowStartKey.PrefixEnd()
if log.V(2) {
log.Infof("DelRange %s - %s", prettyKey(rowStartKey, 0), prettyKey(rowEndKey, 0))
}
b.DelRange(rowStartKey, rowEndKey)
}
if err := rows.Err(); err != nil {
return nil, err
}
if err := p.txn.Run(&b); err != nil {
return nil, err
}
return result, nil
}
示例8: Update
// Update updates columns for a selection of rows from a table.
// Privileges: UPDATE and SELECT on table. We currently always use a select statement.
// Notes: postgres requires UPDATE. Requires SELECT with WHERE clause with table.
// mysql requires UPDATE. Also requires SELECT with WHERE clause with table.
func (p *planner) Update(n *parser.Update) (planNode, error) {
tableDesc, err := p.getAliasedTableDesc(n.Table)
if err != nil {
return nil, err
}
if err := p.checkPrivilege(tableDesc, privilege.UPDATE); err != nil {
return nil, err
}
// Determine which columns we're inserting into.
var names parser.QualifiedNames
for _, expr := range n.Exprs {
var err error
expr.Expr, err = p.expandSubqueries(expr.Expr, len(expr.Names))
if err != nil {
return nil, err
}
if expr.Tuple {
// TODO(pmattis): The distinction between Tuple and DTuple here is
// irritating. We'll see a DTuple if the expression was a subquery that
// has been evaluated. We'll see a Tuple in other cases.
n := 0
switch t := expr.Expr.(type) {
case parser.Tuple:
n = len(t)
case parser.DTuple:
n = len(t)
default:
return nil, util.Errorf("unsupported tuple assignment: %T", expr.Expr)
}
if len(expr.Names) != n {
return nil, fmt.Errorf("number of columns (%d) does not match number of values (%d)",
len(expr.Names), n)
}
}
names = append(names, expr.Names...)
}
cols, err := p.processColumns(tableDesc, names)
if err != nil {
return nil, err
}
// Set of columns being updated
colIDSet := map[ColumnID]struct{}{}
for _, c := range cols {
colIDSet[c.ID] = struct{}{}
}
// Don't allow updating any column that is part of the primary key.
for i, id := range tableDesc.PrimaryIndex.ColumnIDs {
if _, ok := colIDSet[id]; ok {
return nil, fmt.Errorf("primary key column %q cannot be updated", tableDesc.PrimaryIndex.ColumnNames[i])
}
}
defaultExprs, err := p.makeDefaultExprs(cols)
if err != nil {
return nil, err
}
// Generate the list of select targets. We need to select all of the columns
// plus we select all of the update expressions in case those expressions
// reference columns (e.g. "UPDATE t SET v = v + 1"). Note that we flatten
// expressions for tuple assignments just as we flattened the column names
// above. So "UPDATE t SET (a, b) = (1, 2)" translates into select targets of
// "*, 1, 2", not "*, (1, 2)".
targets := make(parser.SelectExprs, 0, len(n.Exprs)+1)
targets = append(targets, parser.StarSelectExpr())
for _, expr := range n.Exprs {
if expr.Tuple {
switch t := expr.Expr.(type) {
case parser.Tuple:
for i, e := range t {
e, err := fillDefault(e, i, defaultExprs)
if err != nil {
return nil, err
}
targets = append(targets, parser.SelectExpr{Expr: e})
}
case parser.DTuple:
for _, e := range t {
targets = append(targets, parser.SelectExpr{Expr: e})
}
}
} else {
e, err := fillDefault(expr.Expr, 0, defaultExprs)
if err != nil {
return nil, err
}
targets = append(targets, parser.SelectExpr{Expr: e})
}
}
// Query the rows that need updating.
rows, err := p.Select(&parser.Select{
//.........這裏部分代碼省略.........