miller/pkg/transformers/repeat.go
John Kerl f637633420
Tier-2 structured verb options: OptionSpec, initial migration (#2098) (#2111)
* Tier-2 structured verb options: OptionSpec, initial migration (#2098)

PR 3 of the AI-friendly roadmap (plans/plan-2098-llm.md).

Infrastructure:
- Add OptionSpec{Flag,Arg,Type,Desc,Repeatable,Values} to
  pkg/transformers/aaa_record_transformer.go alongside TransformerSetup.
  Type is one of: bool, string, int, float, csv-list, regex, filename,
  format, enum. For type=="enum", Values lists the valid choices.
- Add Options []OptionSpec to TransformerSetup (nil = not yet migrated).
- Emit Options in VerbInfoForJSON (omitempty so unmigrated verbs stay
  backward-compatible; agents check key presence for Tier-2 availability).
  UsageText is always present as the Tier-1 prose fallback.
- Add VerbOptionsNilCheck() in aaa_verb_options_check.go: progress report
  of migrated vs. unmigrated verbs, analogous to FLAG_TABLE.NilCheck().
- Wire verb-options-nil-check into mlr help (internal/docgen section).

Initial migration (5/70 verbs):
- nothing: empty Options (no verb-specific options, explicitly migrated)
- cat: -n (bool), -N (string), -g (csv-list), --filename, --filenum (bool)
- head: -g (csv-list), -n (int)
- tail: -g (csv-list), -n (int)
- tee: -a, -p (bool)

Tests:
- 5 new unit tests in aaa_transformer_json_test.go covering migrated/
  unmigrated paths, field population, JSON round-trip, and key-presence.
- Regression test case 0003: mlr help verb-options-nil-check golden output.

Co-Authored-By: Claude Sonnet 4.6 (1M context) <noreply@anthropic.com>

* Migrate all 70 verbs to structured OptionSpec; bump catalog schema to v2

Completes the Tier-2 migration started in the previous commit. Every verb
in TRANSFORMER_LOOKUP_TABLE now has a non-nil Options field.

- Workflow-migrated all 65 remaining verbs. Each Setup var now carries
  Options: []OptionSpec{...} with Flag/Arg/Type/Desc fields. Verbs with
  no verb-specific options (altkv, check, group-like, nothing, etc.) use
  an empty slice to signal "migrated but no options."
- Drop `omitempty` from VerbInfoForJSON.Options: empty slices were silently
  dropped, making migrated-no-option verbs indistinguishable from unmigrated
  ones in JSON. Without omitempty: null=unmigrated, []=migrated-no-options,
  [...]= migrated-with-options. Bump catalogSchemaVersion 1→2 for this shape
  change.
- Replace the two "unmigrated-verb" unit tests (which used stats1 as an
  example) with TestAllVerbsFullyMigrated (asserts every verb has non-nil
  Options) and TestAllVerbsHaveOptionsKeyInJSON (asserts every migrated
  verb emits the "options" key in JSON).
- Regenerate test/cases/cli-help/0003/expout: now reads
  "Verb options migration: 70/70 migrated."

Co-Authored-By: Claude Sonnet 4.6 (1M context) <noreply@anthropic.com>

* remove a transitional helper

* git rms

* Render verb usage Options blocks from structured OptionSpec

Each verb's usage message and its Tier-2 OptionSpec list previously
duplicated the option text. New WriteVerbOptions (aaa_verb_usage.go)
renders the "Options:" block from the specs: aligned flag column,
descriptions word-wrapped at 80, uniform trailing -h|--help line.

- OptionSpec gains Aliases (JSON "aliases") so long-form spellings
  like join's --lk|--left-keep-field-names survive in both outputs
- All 70 verbs migrated; options literals hoisted to package-level
  vars (usage funcs can't reference their Setup var without a Go
  init cycle)
- Hand-written per-option details the specs had condensed away are
  merged into Desc, enriching the JSON catalog
- Non-option prose (examples, cross-references, dynamic accumulator
  listings) kept verbatim
- Regenerated the six usage-embedding regression expectations and
  the two affected doc pages

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>

* Fix pre-existing usage-text bugs surfaced by the OptionSpec migration

- gap: usage said "One of -f or -g is required" but the parser takes
  -n or -g
- seqgen: drop description line copy-pasted from cat ("Passes input
  records directly to output...") which contradicted "Discards the
  input record stream"
- utf8-to-latin1: description read inverted ("from Latin-1 to UTF-8")
- sec2gmtdate: usage said "../c/mlr" instead of "mlr"
- top: document the accepted-but-undocumented --max flag
- stats2: add linreg-pca to the -a enum values, matching the runtime
  accumulator table

Regression expectations and docs regenerated accordingly.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>

* Fix check usage sentence order; stats1 usage blank line to usage stream

- check: the description's second and third lines were swapped,
  reading "Consumes records without printing any output, / Useful for
  doing a well-formatted check on input data. / with the exception
  that warnings are printed to stderr."
- stats1: a bare fmt.Println() in the usage func wrote its blank line
  to process stdout instead of the usage output stream

Regression expectation and docs regenerated.

Co-Authored-By: Claude Fable 5 <noreply@anthropic.com>

---------

Co-authored-by: Claude Sonnet 4.6 (1M context) <noreply@anthropic.com>
2026-07-03 14:27:23 -04:00

224 lines
5.9 KiB
Go

package transformers
import (
"fmt"
"os"
"strings"
"github.com/johnkerl/miller/v6/pkg/cli"
"github.com/johnkerl/miller/v6/pkg/types"
)
type tRepeatCountSource int
const (
repeatCountSourceUnspecified tRepeatCountSource = iota
repeatCountFromInt
repeatCountFromFieldName
)
const verbNameRepeat = "repeat"
var repeatOptions = []OptionSpec{
{
Flag: "-n",
Arg: "{repeat count}",
Type: "int",
Desc: "Repeat each input record this many times.",
},
{
Flag: "-f",
Arg: "{field name}",
Type: "string",
Desc: "Same as -n, but take the repeat count from the specified field name of each input record.",
},
}
var RepeatSetup = TransformerSetup{
Verb: verbNameRepeat,
UsageFunc: transformerRepeatUsage,
ParseCLIFunc: transformerRepeatParseCLI,
IgnoresInput: false,
Options: repeatOptions,
}
func transformerRepeatUsage(
o *os.File,
) {
fmt.Fprintf(o, "Usage: %s %s [options]\n", "mlr", verbNameRepeat)
fmt.Fprintf(o, "Copies input records to output records multiple times.\n")
fmt.Fprintf(o, "Options must be exactly one of -n or -f.\n")
WriteVerbOptions(o, repeatOptions)
fmt.Fprintf(o, "Example:\n")
fmt.Fprintf(o, " echo x=0 | %s %s -n 4 then put '$x=urand()'\n", "mlr", verbNameRepeat)
fmt.Fprintf(o, "produces:\n")
fmt.Fprintf(o, " x=0.488189\n")
fmt.Fprintf(o, " x=0.484973\n")
fmt.Fprintf(o, " x=0.704983\n")
fmt.Fprintf(o, " x=0.147311\n")
fmt.Fprintf(o, "Example:\n")
fmt.Fprintf(o, " echo a=1,b=2,c=3 | %s %s -f b\n", "mlr", verbNameRepeat)
fmt.Fprintf(o, "produces:\n")
fmt.Fprintf(o, " a=1,b=2,c=3\n")
fmt.Fprintf(o, " a=1,b=2,c=3\n")
fmt.Fprintf(o, "Example:\n")
fmt.Fprintf(o, " echo a=1,b=2,c=3 | %s %s -f c\n", "mlr", verbNameRepeat)
fmt.Fprintf(o, "produces:\n")
fmt.Fprintf(o, " a=1,b=2,c=3\n")
fmt.Fprintf(o, " a=1,b=2,c=3\n")
fmt.Fprintf(o, " a=1,b=2,c=3\n")
}
func transformerRepeatParseCLI(
pargi *int,
argc int,
args []string,
_ *cli.TOptions,
doConstruct bool, // false for first pass of CLI-parse, true for second pass
) (RecordTransformer, error) {
repeatCountSource := repeatCountSourceUnspecified
repeatCount := int64(0)
repeatCountFieldName := ""
// Skip the verb name from the current spot in the mlr command line
argi := *pargi
verb := args[argi]
argi++
var err error
for argi < argc /* variable increment: 1 or 2 depending on flag */ {
opt := args[argi]
if !strings.HasPrefix(opt, "-") {
break // No more flag options to process
}
if args[argi] == "--" {
break // All transformers must do this so main-flags can follow verb-flags
}
argi++
switch opt {
case "-h", "--help":
transformerRepeatUsage(os.Stdout)
return nil, cli.ErrHelpRequested
case "-n":
repeatCount, err = cli.VerbGetIntArg(verb, opt, args, &argi, argc)
if err != nil {
return nil, err
}
repeatCountSource = repeatCountFromInt
case "-f":
repeatCountFieldName, err = cli.VerbGetStringArg(verb, opt, args, &argi, argc)
if err != nil {
return nil, err
}
repeatCountSource = repeatCountFromFieldName
default:
return nil, cli.VerbErrorf(verb, "option \"%s\" not recognized", opt)
}
}
if repeatCountSource == repeatCountSourceUnspecified {
return nil, cli.VerbErrorf(verb, "-n or -f is required")
}
*pargi = argi
if !doConstruct { // All transformers must do this for main command-line parsing
return nil, nil
}
transformer, err := NewTransformerRepeat(
repeatCountSource,
repeatCount,
repeatCountFieldName,
)
if err != nil {
return nil, err
}
return transformer, nil
}
type TransformerRepeat struct {
repeatCount int64
repeatCountFieldName string
recordTransformerFunc RecordTransformerFunc
}
func NewTransformerRepeat(
repeatCountSource tRepeatCountSource,
repeatCount int64,
repeatCountFieldName string,
) (*TransformerRepeat, error) {
tr := &TransformerRepeat{
repeatCount: repeatCount,
repeatCountFieldName: repeatCountFieldName,
}
if repeatCountSource == repeatCountFromInt {
tr.recordTransformerFunc = tr.repeatByCount
} else {
tr.recordTransformerFunc = tr.repeatByFieldName
}
return tr, nil
}
func (tr *TransformerRepeat) Transform(
inrecAndContext *types.RecordAndContext,
outputRecordsAndContexts *[]*types.RecordAndContext, // list of *types.RecordAndContext
inputDownstreamDoneChannel <-chan bool,
outputDownstreamDoneChannel chan<- bool,
) {
HandleDefaultDownstreamDone(inputDownstreamDoneChannel, outputDownstreamDoneChannel)
tr.recordTransformerFunc(inrecAndContext, outputRecordsAndContexts, inputDownstreamDoneChannel, outputDownstreamDoneChannel)
}
func (tr *TransformerRepeat) repeatByCount(
inrecAndContext *types.RecordAndContext,
outputRecordsAndContexts *[]*types.RecordAndContext, // list of *types.RecordAndContext
inputDownstreamDoneChannel <-chan bool,
outputDownstreamDoneChannel chan<- bool,
) {
if !inrecAndContext.EndOfStream {
for i := int64(0); i < tr.repeatCount; i++ {
*outputRecordsAndContexts = append(*outputRecordsAndContexts, types.NewRecordAndContext(
inrecAndContext.Record.Copy(),
&inrecAndContext.Context,
))
}
} else {
*outputRecordsAndContexts = append(*outputRecordsAndContexts, inrecAndContext)
}
}
func (tr *TransformerRepeat) repeatByFieldName(
inrecAndContext *types.RecordAndContext,
outputRecordsAndContexts *[]*types.RecordAndContext, // list of *types.RecordAndContext
inputDownstreamDoneChannel <-chan bool,
outputDownstreamDoneChannel chan<- bool,
) {
if !inrecAndContext.EndOfStream {
fieldValue := inrecAndContext.Record.Get(tr.repeatCountFieldName)
if fieldValue == nil {
return
}
repeatCount, ok := fieldValue.GetIntValue()
if !ok {
return
}
for i := 0; i < int(repeatCount); i++ {
*outputRecordsAndContexts = append(*outputRecordsAndContexts, types.NewRecordAndContext(
inrecAndContext.Record.Copy(),
&inrecAndContext.Context,
))
}
} else {
*outputRecordsAndContexts = append(*outputRecordsAndContexts, inrecAndContext)
}
}