package main import ( "context" "encoding/json" "errors" "flag" "fmt" "log" "os" "sort" "strings" "text/tabwriter" "time" "github.com/go-playground/validator/v10" "github.com/sirupsen/logrus" "gitlab.com/mbugroup/lti-api.git/internal/common/service" "gitlab.com/mbugroup/lti-api.git/internal/config" "gitlab.com/mbugroup/lti-api.git/internal/database" entity "gitlab.com/mbugroup/lti-api.git/internal/entities" pwRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/inventory/product-warehouses/repositories" transferRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/inventory/transfers/repositories" transferSvc "gitlab.com/mbugroup/lti-api.git/internal/modules/inventory/transfers/services" warehouseRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/master/warehouses/repositories" pfkRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/production/project_flocks/repositories" stockLogRepo "gitlab.com/mbugroup/lti-api.git/internal/modules/shared/repositories" "gorm.io/gorm" ) const ( cutoverReasonPrefix = "EGG_FARM_CUTOVER" outputModeTable = "table" outputModeJSON = "json" ) type commandOptions struct { Apply bool DryRun bool RollbackRunID string LocationID uint LocationName string CutoverDate time.Time CutoverDateRaw string IncludeOverlap bool Output string ActorID uint RunID string } type locationTiming struct { LocationID uint LocationName string FirstKandangDate *time.Time LastKandangDate *time.Time FirstFarmDate *time.Time LastFarmDate *time.Time Status string } type legacyEggStockRow struct { LocationID uint LocationName string SourceWarehouseID uint SourceWarehouseName string FarmWarehouseID *uint FarmWarehouseName *string ProductWarehouseID uint ProductID uint ProductName string OnHandQty float64 } type migrationReportRow struct { RunID string `json:"run_id"` LocationID uint `json:"location_id"` LocationName string `json:"location_name"` SourceWarehouseID uint `json:"source_warehouse_id"` SourceWarehouseName string `json:"source_warehouse_name"` FarmWarehouseID *uint `json:"farm_warehouse_id,omitempty"` FarmWarehouseName *string `json:"farm_warehouse_name,omitempty"` ProductWarehouseID uint `json:"product_warehouse_id"` ProductID uint `json:"product_id"` ProductName string `json:"product_name"` Qty float64 `json:"qty"` LocationStatus string `json:"location_status"` Status string `json:"status"` Reason string `json:"reason,omitempty"` TransferID *uint64 `json:"transfer_id,omitempty"` MovementNumber *string `json:"movement_number,omitempty"` } type applySummary struct { RowsPlanned int `json:"rows_planned"` RowsApplied int `json:"rows_applied"` RowsSkipped int `json:"rows_skipped"` RowsFailed int `json:"rows_failed"` GroupsPlanned int `json:"groups_planned"` GroupsApplied int `json:"groups_applied"` } type rollbackDetailRow struct { RunID string `json:"run_id"` TransferID uint64 `json:"transfer_id"` MovementNumber string `json:"movement_number"` LocationName string `json:"location_name"` SourceWarehouseName string `json:"source_warehouse_name"` FarmWarehouseName string `json:"farm_warehouse_name"` ProductName string `json:"product_name"` Qty float64 `json:"qty"` Status string `json:"status"` Reason string `json:"reason,omitempty"` } type systemTransferExecutor interface { CreateSystemTransfer(ctx context.Context, req *transferSvc.SystemTransferRequest) (*entity.StockTransfer, error) DeleteSystemTransfer(ctx context.Context, id uint, actorID uint) error } type transferGroup struct { LocationID uint LocationName string SourceWarehouseID uint SourceWarehouseName string FarmWarehouseID uint FarmWarehouseName string Rows []*migrationReportRow } func main() { opts, err := parseFlags() if err != nil { log.Fatalf("invalid flags: %v", err) } db := database.Connect(config.DBHost, config.DBName) ctx := context.Background() if strings.TrimSpace(opts.RollbackRunID) != "" { rows, err := loadRollbackDetails(ctx, db, opts.RollbackRunID) if err != nil { log.Fatalf("failed to load rollback details: %v", err) } if !opts.Apply { for i := range rows { rows[i].Status = "eligible" } renderRollbackReport(opts.Output, rows) return } if err := executeRollback(ctx, newSystemTransferService(db), rows, opts.ActorID); err != nil { log.Fatalf("rollback failed: %v", err) } renderRollbackReport(opts.Output, rows) return } timings, err := loadLocationTimings(ctx, db, opts) if err != nil { log.Fatalf("failed to load location timings: %v", err) } legacyRows, err := loadLegacyEggStocks(ctx, db, opts) if err != nil { log.Fatalf("failed to load legacy egg stocks: %v", err) } reportRows, groups := buildMigrationPlan(opts, timings, legacyRows) if !opts.Apply { renderMigrationReport(opts.Output, reportRows, summarizeApply(reportRows, groups, 0)) return } summary, err := executeApply(ctx, newSystemTransferService(db), opts, groups) if err != nil { log.Fatalf("apply failed: %v", err) } finalRows := flattenGroups(groups, reportRows) summary = summarizeApply(finalRows, groups, summary.GroupsApplied) renderMigrationReport(opts.Output, finalRows, summary) } func parseFlags() (*commandOptions, error) { var opts commandOptions flag.BoolVar(&opts.Apply, "apply", false, "Apply migration. If false, run as dry-run") flag.BoolVar(&opts.DryRun, "dry-run", true, "Run as dry-run") flag.StringVar(&opts.RollbackRunID, "rollback-run-id", "", "Rollback all transfers created by the provided run id") flag.UintVar(&opts.LocationID, "location-id", 0, "Filter by location id") flag.StringVar(&opts.LocationName, "location-name", "", "Filter by exact location name") flag.StringVar(&opts.CutoverDateRaw, "cutover-date", "", "Cutover date in YYYY-MM-DD format") flag.BoolVar(&opts.IncludeOverlap, "include-overlap", false, "Include overlap locations in plan/apply") flag.StringVar(&opts.Output, "output", outputModeTable, "Output format: table or json") flag.UintVar(&opts.ActorID, "actor-id", 1, "Actor id used for created/deleted transfers") flag.Parse() opts.LocationName = strings.TrimSpace(opts.LocationName) opts.RollbackRunID = strings.TrimSpace(opts.RollbackRunID) opts.Output = strings.ToLower(strings.TrimSpace(opts.Output)) if opts.Output == "" { opts.Output = outputModeTable } if opts.Output != outputModeTable && opts.Output != outputModeJSON { return nil, fmt.Errorf("unsupported --output=%s", opts.Output) } if opts.Apply { opts.DryRun = false } if opts.LocationID > 0 && opts.LocationName != "" { return nil, errors.New("use either --location-id or --location-name, not both") } if opts.RollbackRunID != "" { if opts.LocationID > 0 || opts.LocationName != "" { return nil, errors.New("location filters are not supported with --rollback-run-id") } if opts.CutoverDateRaw != "" { return nil, errors.New("--cutover-date is not used with --rollback-run-id") } } else if opts.Apply { if opts.LocationID == 0 && opts.LocationName == "" { return nil, errors.New("apply mode requires --location-id or --location-name for safety") } if strings.TrimSpace(opts.CutoverDateRaw) == "" { return nil, errors.New("--cutover-date is required in apply mode") } } if strings.TrimSpace(opts.CutoverDateRaw) == "" { opts.CutoverDate = normalizeDateOnly(time.Now().In(time.FixedZone("Asia/Jakarta", 7*3600))) } else { t, err := time.Parse("2006-01-02", opts.CutoverDateRaw) if err != nil { return nil, fmt.Errorf("invalid --cutover-date: %w", err) } opts.CutoverDate = normalizeDateOnly(t) } opts.RunID = buildRunID() return &opts, nil } func newSystemTransferService(db *gorm.DB) systemTransferExecutor { validate := validator.New() stockTransferRepo := transferRepo.NewStockTransferRepository(db) stockTransferDetailRepo := transferRepo.NewStockTransferDetailRepository(db) stockTransferDeliveryRepo := transferRepo.NewStockTransferDeliveryRepository(db) stockTransferDeliveryItemRepo := transferRepo.NewStockTransferDeliveryItemRepository(db) stockLogsRepo := stockLogRepo.NewStockLogRepository(db) productWarehouseRepo := pwRepo.NewProductWarehouseRepository(db) warehouseRepository := warehouseRepo.NewWarehouseRepository(db) projectFlockKandangRepo := pfkRepo.NewProjectFlockKandangRepository(db) projectFlockPopulationRepo := pfkRepo.NewProjectFlockPopulationRepository(db) fifoSvc := service.NewFifoStockV2Service(db, logrus.StandardLogger()) return transferSvc.NewTransferService( validate, stockTransferRepo, stockTransferDetailRepo, stockTransferDeliveryRepo, stockTransferDeliveryItemRepo, stockLogsRepo, productWarehouseRepo, nil, warehouseRepository, projectFlockKandangRepo, projectFlockPopulationRepo, nil, fifoSvc, nil, ) } func loadLocationTimings(ctx context.Context, db *gorm.DB, opts *commandOptions) (map[uint]locationTiming, error) { type row struct { LocationID uint `gorm:"column:location_id"` LocationName string `gorm:"column:location_name"` FirstKandangDate *time.Time `gorm:"column:first_kandang_date"` LastKandangDate *time.Time `gorm:"column:last_kandang_date"` FirstFarmDate *time.Time `gorm:"column:first_farm_date"` LastFarmDate *time.Time `gorm:"column:last_farm_date"` } query := db.WithContext(ctx). Table("recording_eggs re"). Select(` pf.location_id AS location_id, l.name AS location_name, MIN(CASE WHEN w.type = 'KANDANG' THEN DATE(r.record_datetime) END) AS first_kandang_date, MAX(CASE WHEN w.type = 'KANDANG' THEN DATE(r.record_datetime) END) AS last_kandang_date, MIN(CASE WHEN w.type = 'LOKASI' THEN DATE(r.record_datetime) END) AS first_farm_date, MAX(CASE WHEN w.type = 'LOKASI' THEN DATE(r.record_datetime) END) AS last_farm_date `). Joins("JOIN recordings r ON r.id = re.recording_id"). Joins("JOIN project_flock_kandangs pk ON pk.id = COALESCE(re.project_flock_kandang_id, r.project_flock_kandangs_id)"). Joins("JOIN project_flocks pf ON pf.id = pk.project_flock_id"). Joins("JOIN locations l ON l.id = pf.location_id"). Joins("JOIN product_warehouses pw ON pw.id = re.product_warehouse_id"). Joins("JOIN warehouses w ON w.id = pw.warehouse_id"). Group("pf.location_id, l.name") query = applyTimingLocationFilter(query, opts) var rows []row if err := query.Scan(&rows).Error; err != nil { return nil, err } result := make(map[uint]locationTiming, len(rows)) for _, row := range rows { status := "KANDANG_ONLY" if row.FirstFarmDate != nil { status = "OVERLAP" if row.LastKandangDate == nil || row.FirstFarmDate.After(normalizeDateOnly(*row.LastKandangDate)) { status = "CLEAN_CUTOVER" } } result[row.LocationID] = locationTiming{ LocationID: row.LocationID, LocationName: row.LocationName, FirstKandangDate: normalizeDatePtr(row.FirstKandangDate), LastKandangDate: normalizeDatePtr(row.LastKandangDate), FirstFarmDate: normalizeDatePtr(row.FirstFarmDate), LastFarmDate: normalizeDatePtr(row.LastFarmDate), Status: status, } } return result, nil } func loadLegacyEggStocks(ctx context.Context, db *gorm.DB, opts *commandOptions) ([]legacyEggStockRow, error) { type row struct { LocationID uint `gorm:"column:location_id"` LocationName string `gorm:"column:location_name"` SourceWarehouseID uint `gorm:"column:source_warehouse_id"` SourceWarehouseName string `gorm:"column:source_warehouse_name"` FarmWarehouseID *uint `gorm:"column:farm_warehouse_id"` FarmWarehouseName *string `gorm:"column:farm_warehouse_name"` ProductWarehouseID uint `gorm:"column:product_warehouse_id"` ProductID uint `gorm:"column:product_id"` ProductName string `gorm:"column:product_name"` OnHandQty float64 `gorm:"column:on_hand_qty"` } firstFarmSub := db.WithContext(ctx). Table("warehouses fw"). Select("fw.location_id AS location_id, MIN(fw.id) AS farm_warehouse_id"). Where("fw.deleted_at IS NULL"). Where("fw.type = ?", "LOKASI"). Group("fw.location_id") query := db.WithContext(ctx). Table("product_warehouses pw"). Select(` kw.location_id AS location_id, l.name AS location_name, kw.id AS source_warehouse_id, kw.name AS source_warehouse_name, fw.id AS farm_warehouse_id, fw.name AS farm_warehouse_name, pw.id AS product_warehouse_id, pw.product_id AS product_id, p.name AS product_name, COALESCE(pw.qty, 0) AS on_hand_qty `). Joins("JOIN warehouses kw ON kw.id = pw.warehouse_id AND kw.deleted_at IS NULL"). Joins("JOIN locations l ON l.id = kw.location_id"). Joins("JOIN products p ON p.id = pw.product_id"). Joins("LEFT JOIN product_categories pc ON pc.id = p.product_category_id"). Joins("LEFT JOIN (?) ff ON ff.location_id = kw.location_id", firstFarmSub). Joins("LEFT JOIN warehouses fw ON fw.id = ff.farm_warehouse_id"). Where("kw.type = ?", "KANDANG"). Where(` EXISTS ( SELECT 1 FROM recording_eggs re WHERE re.product_warehouse_id = pw.id ) `). Where(` EXISTS ( SELECT 1 FROM flags f WHERE f.flagable_type = ? AND f.flagable_id = p.id AND (UPPER(f.name) = 'TELUR' OR UPPER(f.name) LIKE 'TELUR-%') ) OR ( NOT EXISTS ( SELECT 1 FROM flags f_any WHERE f_any.flagable_type = ? AND f_any.flagable_id = p.id ) AND UPPER(COALESCE(pc.code, '')) = 'EGG' ) `, entity.FlagableTypeProduct, entity.FlagableTypeProduct). Order("l.name ASC, kw.name ASC, p.name ASC") query = applyLegacyStockLocationFilter(query, opts) var rows []row if err := query.Scan(&rows).Error; err != nil { return nil, err } result := make([]legacyEggStockRow, 0, len(rows)) for _, row := range rows { result = append(result, legacyEggStockRow{ LocationID: row.LocationID, LocationName: row.LocationName, SourceWarehouseID: row.SourceWarehouseID, SourceWarehouseName: row.SourceWarehouseName, FarmWarehouseID: row.FarmWarehouseID, FarmWarehouseName: row.FarmWarehouseName, ProductWarehouseID: row.ProductWarehouseID, ProductID: row.ProductID, ProductName: row.ProductName, OnHandQty: row.OnHandQty, }) } return result, nil } func buildMigrationPlan( opts *commandOptions, timings map[uint]locationTiming, rows []legacyEggStockRow, ) ([]migrationReportRow, []transferGroup) { reportRows := make([]migrationReportRow, 0, len(rows)) groupMap := make(map[string]*transferGroup) for _, row := range rows { locationStatus := "UNKNOWN" if timing, ok := timings[row.LocationID]; ok { locationStatus = timing.Status } report := migrationReportRow{ RunID: opts.RunID, LocationID: row.LocationID, LocationName: row.LocationName, SourceWarehouseID: row.SourceWarehouseID, SourceWarehouseName: row.SourceWarehouseName, FarmWarehouseID: row.FarmWarehouseID, FarmWarehouseName: row.FarmWarehouseName, ProductWarehouseID: row.ProductWarehouseID, ProductID: row.ProductID, ProductName: row.ProductName, Qty: row.OnHandQty, LocationStatus: locationStatus, Status: "eligible", } switch { case row.FarmWarehouseID == nil || row.FarmWarehouseName == nil: report.Status = "skipped" report.Reason = "missing_farm_warehouse" case row.OnHandQty <= 0: report.Status = "skipped" report.Reason = "non_positive_qty" case locationStatus == "OVERLAP" && !opts.IncludeOverlap: report.Status = "skipped" report.Reason = "overlap_location" } reportRows = append(reportRows, report) if report.Status != "eligible" { continue } groupKey := fmt.Sprintf("%d:%d", row.SourceWarehouseID, *row.FarmWarehouseID) group := groupMap[groupKey] if group == nil { group = &transferGroup{ LocationID: row.LocationID, LocationName: row.LocationName, SourceWarehouseID: row.SourceWarehouseID, SourceWarehouseName: row.SourceWarehouseName, FarmWarehouseID: *row.FarmWarehouseID, FarmWarehouseName: derefString(row.FarmWarehouseName), } groupMap[groupKey] = group } group.Rows = append(group.Rows, &reportRows[len(reportRows)-1]) } groups := make([]transferGroup, 0, len(groupMap)) for _, group := range groupMap { sort.Slice(group.Rows, func(i, j int) bool { return group.Rows[i].ProductName < group.Rows[j].ProductName }) groups = append(groups, *group) } sort.Slice(groups, func(i, j int) bool { if groups[i].LocationName == groups[j].LocationName { return groups[i].SourceWarehouseName < groups[j].SourceWarehouseName } return groups[i].LocationName < groups[j].LocationName }) return reportRows, groups } func executeApply( ctx context.Context, svc systemTransferExecutor, opts *commandOptions, groups []transferGroup, ) (applySummary, error) { summary := applySummary{GroupsPlanned: len(groups)} for _, group := range groups { products := make([]transferSvc.SystemTransferProduct, 0, len(group.Rows)) for _, row := range group.Rows { products = append(products, transferSvc.SystemTransferProduct{ ProductID: row.ProductID, ProductQty: row.Qty, }) } reason := buildCutoverReason(opts.RunID, group.LocationName, opts.CutoverDate) transfer, err := svc.CreateSystemTransfer(ctx, &transferSvc.SystemTransferRequest{ TransferReason: reason, TransferDate: opts.CutoverDate, SourceWarehouseID: group.SourceWarehouseID, DestinationWarehouseID: group.FarmWarehouseID, Products: products, ActorID: opts.ActorID, StockLogNotes: reason, }) if err != nil { for _, row := range group.Rows { row.Status = "failed" row.Reason = err.Error() summary.RowsFailed++ } continue } summary.GroupsApplied++ for _, row := range group.Rows { row.Status = "applied" row.TransferID = &transfer.Id row.MovementNumber = &transfer.MovementNumber summary.RowsApplied++ } } for _, group := range groups { summary.RowsPlanned += len(group.Rows) } return summary, nil } func executeRollback( ctx context.Context, svc systemTransferExecutor, rows []rollbackDetailRow, actorID uint, ) error { if actorID == 0 { return fmt.Errorf("actor id is required for rollback") } byTransfer := make(map[uint64][]int) for idx, row := range rows { byTransfer[row.TransferID] = append(byTransfer[row.TransferID], idx) } transferIDs := make([]uint64, 0, len(byTransfer)) for transferID := range byTransfer { transferIDs = append(transferIDs, transferID) } sort.Slice(transferIDs, func(i, j int) bool { return transferIDs[i] > transferIDs[j] }) var firstErr error for _, transferID := range transferIDs { err := svc.DeleteSystemTransfer(ctx, uint(transferID), actorID) for _, idx := range byTransfer[transferID] { if err != nil { rows[idx].Status = "failed" rows[idx].Reason = err.Error() } else { rows[idx].Status = "rolled_back" } } if err != nil && firstErr == nil { firstErr = err } } return firstErr } func loadRollbackDetails(ctx context.Context, db *gorm.DB, runID string) ([]rollbackDetailRow, error) { type row struct { TransferID uint64 `gorm:"column:transfer_id"` MovementNumber string `gorm:"column:movement_number"` LocationName string `gorm:"column:location_name"` SourceWarehouseName string `gorm:"column:source_warehouse_name"` FarmWarehouseName string `gorm:"column:farm_warehouse_name"` ProductName string `gorm:"column:product_name"` Qty float64 `gorm:"column:qty"` } needle := buildRunReasonMatcher(runID) var dbRows []row err := db.WithContext(ctx). Table("stock_transfers st"). Select(` st.id AS transfer_id, st.movement_number AS movement_number, COALESCE(loc.name, '') AS location_name, ws.name AS source_warehouse_name, wd.name AS farm_warehouse_name, p.name AS product_name, COALESCE(std.total_qty, std.usage_qty, 0) AS qty `). Joins("JOIN warehouses ws ON ws.id = st.from_warehouse_id"). Joins("JOIN warehouses wd ON wd.id = st.to_warehouse_id"). Joins("LEFT JOIN locations loc ON loc.id = COALESCE(ws.location_id, wd.location_id)"). Joins("JOIN stock_transfer_details std ON std.stock_transfer_id = st.id AND std.deleted_at IS NULL"). Joins("JOIN products p ON p.id = std.product_id"). Where("st.deleted_at IS NULL"). Where("st.reason LIKE ?", needle). Order("st.id DESC, std.id ASC"). Scan(&dbRows).Error if err != nil { return nil, err } rows := make([]rollbackDetailRow, 0, len(dbRows)) for _, row := range dbRows { rows = append(rows, rollbackDetailRow{ RunID: runID, TransferID: row.TransferID, MovementNumber: row.MovementNumber, LocationName: row.LocationName, SourceWarehouseName: row.SourceWarehouseName, FarmWarehouseName: row.FarmWarehouseName, ProductName: row.ProductName, Qty: row.Qty, }) } return rows, nil } func applyTimingLocationFilter(db *gorm.DB, opts *commandOptions) *gorm.DB { if opts == nil { return db } switch { case opts.LocationID > 0: return db.Where("pf.location_id = ?", opts.LocationID) case opts.LocationName != "": return db.Where("LOWER(l.name) = LOWER(?)", opts.LocationName) default: return db } } func applyLegacyStockLocationFilter(db *gorm.DB, opts *commandOptions) *gorm.DB { if opts == nil { return db } switch { case opts.LocationID > 0: return db.Where("kw.location_id = ?", opts.LocationID) case opts.LocationName != "": return db.Where("LOWER(l.name) = LOWER(?)", opts.LocationName) default: return db } } func buildCutoverReason(runID, locationName string, cutoverDate time.Time) string { locationName = strings.ReplaceAll(strings.TrimSpace(locationName), "|", "/") return fmt.Sprintf("%s|run_id=%s|location=%s|cutover_date=%s", cutoverReasonPrefix, runID, locationName, cutoverDate.Format("2006-01-02")) } func buildRunReasonMatcher(runID string) string { return fmt.Sprintf("%s|run_id=%s|%%", cutoverReasonPrefix, strings.TrimSpace(runID)) } func buildRunID() string { return fmt.Sprintf("egg-cutover-%s", time.Now().UTC().Format("20060102T150405.000000000Z")) } func normalizeDateOnly(value time.Time) time.Time { return time.Date(value.Year(), value.Month(), value.Day(), 0, 0, 0, 0, time.UTC) } func normalizeDatePtr(value *time.Time) *time.Time { if value == nil { return nil } normalized := normalizeDateOnly(*value) return &normalized } func derefString(value *string) string { if value == nil { return "" } return *value } func summarizeApply(rows []migrationReportRow, groups []transferGroup, appliedGroups int) applySummary { summary := applySummary{ GroupsPlanned: len(groups), GroupsApplied: appliedGroups, } for _, row := range rows { switch row.Status { case "eligible": summary.RowsPlanned++ case "applied": summary.RowsPlanned++ summary.RowsApplied++ case "failed": summary.RowsPlanned++ summary.RowsFailed++ case "skipped": summary.RowsSkipped++ } } return summary } func flattenGroups(groups []transferGroup, fallback []migrationReportRow) []migrationReportRow { if len(groups) == 0 { return fallback } rows := make([]migrationReportRow, 0, len(fallback)) for _, group := range groups { for _, row := range group.Rows { rows = append(rows, *row) } } for _, row := range fallback { if row.Status == "skipped" { rows = append(rows, row) } } sort.Slice(rows, func(i, j int) bool { if rows[i].LocationName == rows[j].LocationName { if rows[i].SourceWarehouseName == rows[j].SourceWarehouseName { return rows[i].ProductName < rows[j].ProductName } return rows[i].SourceWarehouseName < rows[j].SourceWarehouseName } return rows[i].LocationName < rows[j].LocationName }) return rows } func renderMigrationReport(mode string, rows []migrationReportRow, summary applySummary) { if mode == outputModeJSON { payload := map[string]any{ "rows": rows, "summary": summary, } enc := json.NewEncoder(os.Stdout) enc.SetIndent("", " ") _ = enc.Encode(payload) return } w := tabwriter.NewWriter(os.Stdout, 0, 0, 2, ' ', 0) fmt.Fprintln(w, "RUN_ID\tLOCATION\tSOURCE_WAREHOUSE\tFARM_WAREHOUSE\tPRODUCT\tQTY\tLOCATION_STATUS\tSTATUS\tREASON\tTRANSFER_ID\tMOVEMENT_NUMBER") for _, row := range rows { transferID := "-" if row.TransferID != nil { transferID = fmt.Sprintf("%d", *row.TransferID) } movementNumber := "-" if row.MovementNumber != nil { movementNumber = *row.MovementNumber } fmt.Fprintf( w, "%s\t%s\t%s\t%s\t%s\t%.3f\t%s\t%s\t%s\t%s\t%s\n", row.RunID, row.LocationName, row.SourceWarehouseName, derefString(row.FarmWarehouseName), row.ProductName, row.Qty, row.LocationStatus, row.Status, row.Reason, transferID, movementNumber, ) } _ = w.Flush() fmt.Printf("\nSummary: rows_planned=%d rows_applied=%d rows_skipped=%d rows_failed=%d groups_planned=%d groups_applied=%d\n", summary.RowsPlanned, summary.RowsApplied, summary.RowsSkipped, summary.RowsFailed, summary.GroupsPlanned, summary.GroupsApplied) } func renderRollbackReport(mode string, rows []rollbackDetailRow) { if mode == outputModeJSON { enc := json.NewEncoder(os.Stdout) enc.SetIndent("", " ") _ = enc.Encode(map[string]any{"rows": rows}) return } w := tabwriter.NewWriter(os.Stdout, 0, 0, 2, ' ', 0) fmt.Fprintln(w, "RUN_ID\tTRANSFER_ID\tMOVEMENT_NUMBER\tLOCATION\tSOURCE_WAREHOUSE\tFARM_WAREHOUSE\tPRODUCT\tQTY\tSTATUS\tREASON") for _, row := range rows { fmt.Fprintf( w, "%s\t%d\t%s\t%s\t%s\t%s\t%s\t%.3f\t%s\t%s\n", row.RunID, row.TransferID, row.MovementNumber, row.LocationName, row.SourceWarehouseName, row.FarmWarehouseName, row.ProductName, row.Qty, row.Status, row.Reason, ) } _ = w.Flush() }