mirror of
https://github.com/neilotoole/sq.git
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db55986980
- Support for ingest cache, download cache, and progress bars.
483 lines
14 KiB
Go
483 lines
14 KiB
Go
package cli
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import (
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"context"
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"fmt"
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"slices"
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"strings"
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"github.com/spf13/cobra"
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"github.com/neilotoole/sq/cli/flag"
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"github.com/neilotoole/sq/cli/output"
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"github.com/neilotoole/sq/cli/output/format"
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"github.com/neilotoole/sq/cli/run"
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"github.com/neilotoole/sq/drivers/csv"
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"github.com/neilotoole/sq/libsq"
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"github.com/neilotoole/sq/libsq/core/errz"
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"github.com/neilotoole/sq/libsq/core/lg"
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"github.com/neilotoole/sq/libsq/core/lg/lga"
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"github.com/neilotoole/sq/libsq/core/lg/lgm"
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"github.com/neilotoole/sq/libsq/core/stringz"
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"github.com/neilotoole/sq/libsq/driver"
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"github.com/neilotoole/sq/libsq/source"
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)
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func newSLQCmd() *cobra.Command {
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cmd := &cobra.Command{
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Use: "slq",
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Short: "Execute SLQ query",
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// This command is hidden, because it is effectively the root cmd.
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Hidden: true,
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RunE: execSLQ,
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ValidArgsFunction: completeSLQ,
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}
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addQueryCmdFlags(cmd)
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cmd.Flags().StringArray(flag.Arg, nil, flag.ArgUsage)
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// Explicitly add flagVersion because people like to do "sq --version"
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// as much as "sq version".
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cmd.Flags().Bool(flag.Version, false, flag.VersionUsage)
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return cmd
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}
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// execSLQ is sq's core command.
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func execSLQ(cmd *cobra.Command, args []string) error {
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if len(args) == 0 {
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msg := "no query"
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if cmdFlagChanged(cmd, flag.Arg) {
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msg += fmt.Sprintf(": maybe check flag --%s usage", flag.Arg)
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}
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return errz.New(msg)
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}
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ctx := cmd.Context()
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ru := run.FromContext(ctx)
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coll := ru.Config.Collection
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err := determineSources(ctx, ru, false)
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if err != nil {
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return err
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}
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activeSrc := coll.Active()
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if activeSrc == nil {
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lg.FromContext(ctx).Debug("No active source; continuing regardless...")
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// Previously, an error was returned if there was no active source.
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// However, we want to support the use case of being able to
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// execute a trivial query when there is no active source. Basically,
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// we want to be able to use sq as a calculator, even without
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// an active source. Example:
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//
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// $ sq '1+2'
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//
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// In this scenario, the query '1+2' would typically be executed
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// against the active source. However, libsq will fall back to
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// using the scratch source (i.e. embedded SQLite) if there's no
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// active source, so we allow progress to continue.
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}
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mArgs, err := extractFlagArgsValues(cmd)
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if err != nil {
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return err
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}
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if err = applyCollectionOptions(cmd, coll); err != nil {
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return err
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}
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if !cmdFlagChanged(cmd, flag.Insert) {
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// The user didn't specify the --insert=@src.tbl flag,
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// so we just want to print the records.
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return execSLQPrint(ctx, ru, mArgs)
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}
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// Instead of printing the records, they will be
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// written to another database
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insertTo, _ := cmd.Flags().GetString(flag.Insert)
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if insertTo == "" {
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return errz.Errorf("invalid --%s value: empty", flag.Insert)
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}
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destHandle, destTbl, err := source.ParseTableHandle(insertTo)
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if err != nil {
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return errz.Wrapf(err, "invalid --%s value", flag.Insert)
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}
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if destTbl == "" {
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return errz.Errorf("invalid value for --%s: must be @HANDLE.TABLE", flag.Insert)
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}
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destSrc, err := coll.Get(destHandle)
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if err != nil {
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return err
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}
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return execSLQInsert(ctx, ru, mArgs, destSrc, destTbl)
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}
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// execSQLInsert executes the SLQ and inserts resulting records
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// into destTbl in destSrc.
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func execSLQInsert(ctx context.Context, ru *run.Run, mArgs map[string]string,
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destSrc *source.Source, destTbl string,
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) error {
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qc := run.NewQueryContext(ru, mArgs)
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slq, err := preprocessUserSLQ(ctx, ru, ru.Args)
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if err != nil {
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return err
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}
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ctx, cancelFn := context.WithCancel(ctx)
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defer cancelFn()
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destGrip, err := ru.Grips.Open(ctx, destSrc)
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if err != nil {
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return err
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}
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// Note: We don't need to worry about closing fromConn and
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// destConn because they are closed by databases.Close, which
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// is invoked by ru.Close, and ru is closed further up the
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// stack.
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inserter := libsq.NewDBWriter(
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"Insert records",
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destGrip,
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destTbl,
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driver.OptTuningRecChanSize.Get(destSrc.Options),
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libsq.DBWriterCreateTableIfNotExistsHook(destTbl),
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)
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execErr := libsq.ExecuteSLQ(ctx, qc, slq, inserter)
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affected, waitErr := inserter.Wait() // Stop for the writer to finish processing
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if execErr != nil {
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return errz.Wrapf(execErr, "insert %s.%s failed", destSrc.Handle, destTbl)
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}
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if waitErr != nil {
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return errz.Wrapf(waitErr, "insert %s.%s failed", destSrc.Handle, destTbl)
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}
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fmt.Fprintf(ru.Out, stringz.Plu("Inserted %d row(s) into %s.%s\n", int(affected)), affected, destSrc.Handle, destTbl)
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return nil
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}
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// execSLQPrint executes the SLQ query, and prints output to writer.
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func execSLQPrint(ctx context.Context, ru *run.Run, mArgs map[string]string) error {
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qc := run.NewQueryContext(ru, mArgs)
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slq, err := preprocessUserSLQ(ctx, ru, ru.Args)
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if err != nil {
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return err
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}
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recw := output.NewRecordWriterAdapter(ctx, ru.Writers.Record)
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execErr := libsq.ExecuteSLQ(ctx, qc, slq, recw)
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_, waitErr := recw.Wait()
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if execErr != nil {
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return execErr
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}
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return waitErr
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}
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// preprocessUserSLQ does a bit of validation and munging on the
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// SLQ input (provided in args), returning the SLQ query. This
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// function is something of a hangover from the early days of
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// sq and may need to be rethought.
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//
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// If there's piped input but no query args, the first table
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// from the pipe source becomes the query. Invoked like this:
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//
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// $ cat something.csv | sq
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//
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// The query effectively becomes:
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//
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// $ cat something.csv | sq @stdin.data
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//
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// For non-monotable sources, the first table is used:
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//
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// $ cat something.xlsx | sq @stdin.sheet1
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func preprocessUserSLQ(ctx context.Context, ru *run.Run, args []string) (string, error) {
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log, reg, grips, coll := lg.FromContext(ctx), ru.DriverRegistry, ru.Grips, ru.Config.Collection
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activeSrc := coll.Active()
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if len(args) == 0 {
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// Special handling for the case where no args are supplied
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// but sq is receiving pipe input. Let's say the user does this:
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//
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// $ cat something.csv | sq # query becomes "@stdin.data"
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if activeSrc == nil {
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// Piped input would result in an active @stdin src. We don't
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// have that; we don't have any active src.
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return "", errz.New(msgEmptyQueryString)
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}
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if activeSrc.Handle != source.StdinHandle {
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// It's not piped input.
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return "", errz.New(msgEmptyQueryString)
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}
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// We know for sure that we've got pipe input
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drvr, err := reg.DriverFor(activeSrc.Type)
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if err != nil {
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return "", err
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}
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tblName := source.MonotableName
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if !drvr.DriverMetadata().Monotable {
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// This isn't a monotable src, so we can't
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// just select @stdin.data. Instead we'll select
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// the first table name, as found in the source meta.
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grip, err := grips.Open(ctx, activeSrc)
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if err != nil {
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return "", err
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}
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defer lg.WarnIfCloseError(log, lgm.CloseDB, grip)
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srcMeta, err := grip.SourceMetadata(ctx, false)
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if err != nil {
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return "", err
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}
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if len(srcMeta.Tables) == 0 {
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return "", errz.New(msgSrcNoData)
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}
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tblName = srcMeta.Tables[0].Name
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if tblName == "" {
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return "", errz.New(msgSrcEmptyTableName)
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}
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log.Debug("Using first table name from document source metadata as table selector",
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lga.Src, activeSrc, lga.Table, tblName)
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}
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selector := source.StdinHandle + "." + tblName
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log.Debug("Added selector to argument-less piped query",
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lga.Handle, source.StdinHandle, "selector", selector)
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return selector, nil
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}
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// We have at least one query arg
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for i, arg := range args {
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args[i] = strings.TrimSpace(arg)
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}
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start := strings.TrimSpace(args[0])
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parts := strings.Split(start, " ")
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if parts[0][0] == '@' {
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// The query starts with a handle, e.g. sq '@my | .person'.
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// Let's perform some basic checks on it.
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// We split on . because both @my1.person and @my1 need to be checked.
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dsParts := strings.Split(parts[0], ".")
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handle := dsParts[0]
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if len(handle) < 2 {
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// handle name is too short
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return "", errz.Errorf("invalid data source: %s", handle)
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}
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// Check that the handle actual exists
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_, err := coll.Get(handle)
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if err != nil {
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return "", err
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}
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// All is good, return the query.
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query := strings.Join(args, " ")
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return query, nil
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}
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query := strings.Join(args, " ")
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return query, nil
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}
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// addTextFormatFlags adds the flags for --text format.
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func addTextFormatFlags(cmd *cobra.Command) {
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cmd.Flags().BoolP(flag.Text, flag.TextShort, false, flag.TextUsage)
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cmd.Flags().BoolP(flag.Header, flag.HeaderShort, true, flag.HeaderUsage)
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cmd.Flags().BoolP(flag.NoHeader, flag.NoHeaderShort, false, flag.NoHeaderUsage)
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cmd.MarkFlagsMutuallyExclusive(flag.Header, flag.NoHeader)
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}
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// addQueryCmdFlags sets the common flags for the slq and sql commands.
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func addQueryCmdFlags(cmd *cobra.Command) {
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addOptionFlag(cmd.Flags(), OptFormat)
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panicOn(cmd.RegisterFlagCompletionFunc(
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OptFormat.Flag(),
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completeStrings(-1, stringz.Strings(format.All())...),
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))
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addResultFormatFlags(cmd)
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cmd.MarkFlagsMutuallyExclusive(append(
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[]string{OptFormat.Flag()},
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flag.OutputFormatFlags...,
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)...)
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addTimeFormatOptsFlags(cmd)
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cmd.Flags().StringP(flag.Output, flag.OutputShort, "", flag.OutputUsage)
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cmd.Flags().String(flag.Insert, "", flag.InsertUsage)
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panicOn(cmd.RegisterFlagCompletionFunc(flag.Insert,
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(&handleTableCompleter{onlySQL: true, handleRequired: true}).complete))
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cmd.Flags().String(flag.ActiveSrc, "", flag.ActiveSrcUsage)
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panicOn(cmd.RegisterFlagCompletionFunc(flag.ActiveSrc, completeHandle(0)))
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cmd.Flags().String(flag.ActiveSchema, "", flag.ActiveSchemaUsage)
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panicOn(cmd.RegisterFlagCompletionFunc(flag.ActiveSchema,
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activeSchemaCompleter{getActiveSourceViaFlag}.complete))
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// The driver flag can be used if data is piped to sq over stdin
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cmd.Flags().String(flag.IngestDriver, "", flag.IngestDriverUsage)
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panicOn(cmd.RegisterFlagCompletionFunc(flag.IngestDriver, completeDriverType))
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cmd.Flags().Bool(flag.IngestHeader, false, flag.IngestHeaderUsage)
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addOptionFlag(cmd.Flags(), driver.OptIngestCache)
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cmd.Flags().Bool(flag.CSVEmptyAsNull, true, flag.CSVEmptyAsNullUsage)
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cmd.Flags().String(flag.CSVDelim, flag.CSVDelimDefault, flag.CSVDelimUsage)
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panicOn(cmd.RegisterFlagCompletionFunc(flag.CSVDelim, completeStrings(-1, csv.NamedDelims()...)))
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}
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// addResultFormatFlags adds the individual flags that control result
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// output format, e.g. --text, --json, --csv, etc. It does not add
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// the --format flag, because not every command treats that flag the same.
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func addResultFormatFlags(cmd *cobra.Command) {
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addTextFormatFlags(cmd)
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cmd.Flags().BoolP(flag.JSON, flag.JSONShort, false, flag.JSONUsage)
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cmd.Flags().BoolP(flag.JSONA, flag.JSONAShort, false, flag.JSONAUsage)
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cmd.Flags().BoolP(flag.JSONL, flag.JSONLShort, false, flag.JSONLUsage)
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cmd.Flags().BoolP(flag.CSV, flag.CSVShort, false, flag.CSVUsage)
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cmd.Flags().Bool(flag.TSV, false, flag.TSVUsage)
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cmd.Flags().Bool(flag.HTML, false, flag.HTMLUsage)
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cmd.Flags().Bool(flag.Markdown, false, flag.MarkdownUsage)
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cmd.Flags().BoolP(flag.Raw, flag.RawShort, false, flag.RawUsage)
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cmd.Flags().BoolP(flag.XLSX, flag.XLSXShort, false, flag.XLSXUsage)
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cmd.Flags().Bool(flag.XML, false, flag.XMLUsage)
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cmd.Flags().BoolP(flag.YAML, flag.YAMLShort, false, flag.YAMLUsage)
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cmd.MarkFlagsMutuallyExclusive(flag.OutputFormatFlags...)
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cmd.Flags().BoolP(flag.Compact, flag.CompactShort, false, flag.CompactUsage)
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}
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// extractFlagArgsValues returns a map {key:value} of predefined variables
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// as supplied via --arg. For example:
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//
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// sq --arg name TOM '.actor | .first_name == $name'
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//
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// See preprocessFlagArgVars.
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func extractFlagArgsValues(cmd *cobra.Command) (map[string]string, error) {
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if !cmdFlagChanged(cmd, flag.Arg) {
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return nil, nil //nolint:nilnil
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}
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arr, err := cmd.Flags().GetStringArray(flag.Arg)
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if err != nil {
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return nil, errz.Err(err)
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}
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if len(arr) == 0 {
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return nil, nil //nolint:nilnil
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}
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mArgs := map[string]string{}
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for _, kv := range arr {
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k, v, ok := strings.Cut(kv, ":")
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if !ok || k == "" {
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return nil, errz.Errorf("invalid --%s value", flag.Arg)
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}
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if _, ok := mArgs[k]; ok {
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// If the key already exists, don't overwrite. This mimics jq's
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// behavior.
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log := logFrom(cmd)
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log.With("arg", k).Warn("Double use of --arg key; using first value.")
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continue
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}
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mArgs[k] = v
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}
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return mArgs, nil
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}
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// preprocessFlagArgVars is a hack to support the predefined
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// variables "--arg" mechanism. We implement the mechanism in alignment
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// with how jq does it: "--arg name value".
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// See: https://jqlang.github.io/jq/manual/v1.6/
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//
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// For example:
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//
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// sq --arg first TOM --arg last MIRANDA '.actor | .first_name == $first && .last_name == $last'
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//
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// However, cobra (or rather, pflag) doesn't support this type of flag input.
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// So, we have a hack. In the example above, the two elements "first" and "TOM"
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// are concatenated into a single flag value "first:TOM". Thus, the returned
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// slice will be shorter.
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//
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// This function needs to be called before cobra/pflag starts processing
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// the program args.
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//
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// Any code making use of flagArg will need to deconstruct the flag value.
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// Specifically, that means extractFlagArgsValues.
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func preprocessFlagArgVars(args []string) ([]string, error) {
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const flg = "--" + flag.Arg
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if len(args) == 0 {
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return args, nil
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}
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if !slices.Contains(args, flg) {
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return args, nil
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}
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rez := make([]string, 0, len(args))
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var i int
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for i = 0; i < len(args); {
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if args[i] == flg {
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val, err := extractFlagArgsSingleArg(args[i:])
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if err != nil {
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return nil, err
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}
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rez = append(rez, flg)
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rez = append(rez, val)
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i += 3
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continue
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}
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rez = append(rez, args[i])
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i++
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}
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return rez, nil
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}
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// args will look like ["--arg", "key", "value", "--other-flag"].
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// The function will return "key:value".
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// See preprocessFlagArgVars.
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func extractFlagArgsSingleArg(args []string) (string, error) {
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if len(args) < 3 {
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return "", errz.Errorf("invalid %s flag: must be '--%s key value'", flag.Arg, flag.Arg)
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}
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if err := stringz.ValidIdent(args[1]); err != nil {
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return "", errz.Errorf("invalid --%s key: %s", flag.Arg, args[1])
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}
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return args[1] + ":" + args[2], nil
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}
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