本文整理匯總了Golang中github.com/cockroachdb/cockroach/pkg/sql/parser.Parser類的典型用法代碼示例。如果您正苦於以下問題:Golang Parser類的具體用法?Golang Parser怎麽用?Golang Parser使用的例子?那麽, 這裏精選的類代碼示例或許可以為您提供幫助。
在下文中一共展示了Parser類的5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: makeDefaultExprs
func makeDefaultExprs(
cols []sqlbase.ColumnDescriptor, parse *parser.Parser, evalCtx *parser.EvalContext,
) ([]parser.TypedExpr, error) {
// Check to see if any of the columns have DEFAULT expressions. If there
// are no DEFAULT expressions, we don't bother with constructing the
// defaults map as the defaults are all NULL.
haveDefaults := false
for _, col := range cols {
if col.DefaultExpr != nil {
haveDefaults = true
break
}
}
if !haveDefaults {
return nil, nil
}
// Build the default expressions map from the parsed SELECT statement.
defaultExprs := make([]parser.TypedExpr, 0, len(cols))
exprStrings := make([]string, 0, len(cols))
for _, col := range cols {
if col.DefaultExpr != nil {
exprStrings = append(exprStrings, *col.DefaultExpr)
}
}
exprs, err := parser.ParseExprsTraditional(exprStrings)
if err != nil {
return nil, err
}
defExprIdx := 0
for _, col := range cols {
if col.DefaultExpr == nil {
defaultExprs = append(defaultExprs, parser.DNull)
continue
}
expr := exprs[defExprIdx]
typedExpr, err := parser.TypeCheck(expr, nil, col.Type.ToDatumType())
if err != nil {
return nil, err
}
if typedExpr, err = parse.NormalizeExpr(evalCtx, typedExpr); err != nil {
return nil, err
}
defaultExprs = append(defaultExprs, typedExpr)
defExprIdx++
}
return defaultExprs, nil
}
示例2: init
func (eh *exprHelper) init(
expr Expression, types []sqlbase.ColumnType_Kind, evalCtx *parser.EvalContext,
) error {
if expr.Expr == "" {
return nil
}
eh.types = types
eh.evalCtx = evalCtx
eh.vars = parser.MakeIndexedVarHelper(eh, len(types))
var err error
eh.expr, err = processExpression(expr, &eh.vars)
if err != nil {
return err
}
var p parser.Parser
if p.AggregateInExpr(eh.expr, evalCtx.SearchPath) {
return errors.Errorf("expression '%s' has aggregate", eh.expr)
}
return nil
}
示例3: Prepare
// Prepare returns the result types of the given statement. pinfo may
// contain partial type information for placeholders. Prepare will
// populate the missing types. The column result types are returned (or
// nil if there are no results).
func (e *Executor) Prepare(
query string, session *Session, pinfo parser.PlaceholderTypes,
) (ResultColumns, error) {
log.VEventf(session.Ctx(), 2, "preparing: %s", query)
var p parser.Parser
stmts, err := p.Parse(query, parser.Syntax(session.Syntax))
if err != nil {
return nil, err
}
switch len(stmts) {
case 0:
return nil, nil
case 1:
// ignore
default:
return nil, errors.Errorf("expected 1 statement, but found %d", len(stmts))
}
stmt := stmts[0]
if err = pinfo.ProcessPlaceholderAnnotations(stmt); err != nil {
return nil, err
}
protoTS, err := isAsOf(&session.planner, stmt, e.cfg.Clock.Now())
if err != nil {
return nil, err
}
session.planner.resetForBatch(e)
session.planner.semaCtx.Placeholders.SetTypes(pinfo)
session.planner.evalCtx.PrepareOnly = true
// Prepare needs a transaction because it needs to retrieve db/table
// descriptors for type checking.
// TODO(andrei): is this OK? If we're preparing as part of a SQL txn, how do
// we check that they're reading descriptors consistent with the txn in which
// they'll be used?
txn := client.NewTxn(session.Ctx(), *e.cfg.DB)
txn.Proto.Isolation = session.DefaultIsolationLevel
session.planner.setTxn(txn)
defer session.planner.setTxn(nil)
if protoTS != nil {
session.planner.avoidCachedDescriptors = true
defer func() {
session.planner.avoidCachedDescriptors = false
}()
setTxnTimestamps(txn, *protoTS)
}
plan, err := session.planner.prepare(stmt)
if err != nil {
return nil, err
}
if plan == nil {
return nil, nil
}
defer plan.Close()
cols := plan.Columns()
for _, c := range cols {
if err := checkResultType(c.Typ); err != nil {
return nil, err
}
}
return cols, nil
}
示例4: MakeColumnDefDescs
//.........這裏部分代碼省略.........
colDatumType = parser.TypeFloat
case *parser.DecimalColType:
col.Type.Kind = ColumnType_DECIMAL
col.Type.Width = int32(t.Scale)
col.Type.Precision = int32(t.Prec)
colDatumType = parser.TypeDecimal
case *parser.DateColType:
col.Type.Kind = ColumnType_DATE
colDatumType = parser.TypeDate
case *parser.TimestampColType:
col.Type.Kind = ColumnType_TIMESTAMP
colDatumType = parser.TypeTimestamp
case *parser.TimestampTZColType:
col.Type.Kind = ColumnType_TIMESTAMPTZ
colDatumType = parser.TypeTimestampTZ
case *parser.IntervalColType:
col.Type.Kind = ColumnType_INTERVAL
colDatumType = parser.TypeInterval
case *parser.StringColType:
col.Type.Kind = ColumnType_STRING
col.Type.Width = int32(t.N)
colDatumType = parser.TypeString
case *parser.BytesColType:
col.Type.Kind = ColumnType_BYTES
colDatumType = parser.TypeBytes
case *parser.ArrayColType:
if _, ok := t.ParamType.(*parser.IntColType); ok {
col.Type.Kind = ColumnType_INT_ARRAY
} else {
return nil, nil, errors.Errorf("arrays of type %s are unsupported", t.ParamType)
}
colDatumType = parser.TypeIntArray
for i, e := range t.BoundsExprs {
ctx := parser.SemaContext{SearchPath: searchPath}
te, err := parser.TypeCheckAndRequire(e, &ctx, parser.TypeInt, "array bounds")
if err != nil {
return nil, nil, errors.Wrapf(err, "couldn't get bound %d", i)
}
d, err := te.Eval(nil)
if err != nil {
return nil, nil, errors.Wrapf(err, "couldn't Eval bound %d", i)
}
b := d.(*parser.DInt)
col.Type.ArrayDimensions = append(col.Type.ArrayDimensions, int32(*b))
}
default:
return nil, nil, errors.Errorf("unexpected type %T", t)
}
if col.Type.Kind == ColumnType_DECIMAL {
switch {
case col.Type.Precision == 0 && col.Type.Width > 0:
// TODO (seif): Find right range for error message.
return nil, nil, errors.New("invalid NUMERIC precision 0")
case col.Type.Precision < col.Type.Width:
return nil, nil, fmt.Errorf("NUMERIC scale %d must be between 0 and precision %d",
col.Type.Width, col.Type.Precision)
}
}
if len(d.CheckExprs) > 0 {
// Should never happen since `hoistConstraints` moves these to table level
return nil, nil, errors.New("unexpected column CHECK constraint")
}
if d.HasFKConstraint() {
// Should never happen since `hoistConstraints` moves these to table level
return nil, nil, errors.New("unexpected column REFERENCED constraint")
}
if d.HasDefaultExpr() {
// Verify the default expression type is compatible with the column type.
if err := SanitizeVarFreeExpr(
d.DefaultExpr.Expr, colDatumType, "DEFAULT", searchPath,
); err != nil {
return nil, nil, err
}
var p parser.Parser
if err := p.AssertNoAggregationOrWindowing(
d.DefaultExpr.Expr, "DEFAULT expressions", searchPath,
); err != nil {
return nil, nil, err
}
s := d.DefaultExpr.Expr.String()
col.DefaultExpr = &s
}
var idx *IndexDescriptor
if d.PrimaryKey || d.Unique {
idx = &IndexDescriptor{
Unique: true,
ColumnNames: []string{string(d.Name)},
ColumnDirections: []IndexDescriptor_Direction{IndexDescriptor_ASC},
}
if d.UniqueConstraintName != "" {
idx.Name = string(d.UniqueConstraintName)
}
}
return col, idx, nil
}
示例5: doCheckStatement
func (c *cliState) doCheckStatement(startState, contState, execState cliStateEnum) cliStateEnum {
// From here on, client-side syntax checking is enabled.
var parser parser.Parser
parsedStmts, err := parser.Parse(c.concatLines, c.syntax)
if err != nil {
_ = c.invalidSyntax(0, "statement ignored: %v", err)
// Even on failure, add the last (erroneous) lines as-is to the
// history, so that the user can recall them later to fix them.
for i := c.partialStmtsLen; i < len(c.partialLines); i++ {
c.addHistory(c.partialLines[i])
}
// Stop here if exiterr is set.
if c.errExit {
return cliStop
}
// Otherwise, remove the erroneous lines from the buffered input,
// then try again.
c.partialLines = c.partialLines[:c.partialStmtsLen]
if len(c.partialLines) == 0 {
return startState
}
return contState
}
if !isInteractive {
return execState
}
if c.normalizeHistory {
// Add statements, not lines, to the history.
for i := c.partialStmtsLen; i < len(parsedStmts); i++ {
c.addHistory(parsedStmts[i].String() + ";")
}
} else {
// Add the last lines received to the history.
for i := c.partialStmtsLen; i < len(c.partialLines); i++ {
c.addHistory(c.partialLines[i])
}
}
// Replace the last entered lines by the last entered statements.
c.partialLines = c.partialLines[:c.partialStmtsLen]
for i := c.partialStmtsLen; i < len(parsedStmts); i++ {
c.partialLines = append(c.partialLines, parsedStmts[i].String()+";")
}
nextState := execState
// In interactive mode, we make some additional effort to help the user:
// if the entry so far is starting an incomplete transaction, push
// the user to enter input over multiple lines.
if endsWithIncompleteTxn(parsedStmts) && c.lastInputLine != "" {
if c.partialStmtsLen == 0 {
fmt.Fprintln(osStderr, "Now adding input for a multi-line SQL transaction client-side.\n"+
"Press Enter two times to send the SQL text collected so far to the server, or Ctrl+C to cancel.")
}
nextState = contState
}
c.partialStmtsLen = len(parsedStmts)
return nextState
}