// Package tablew implements text table output writers. // // The actual rendering of the text table is handled by a modified // version ofolekukonko/tablewriter which can be found in the internal // sub-package. At the time, tablewriter didn't provide all the // functionality that sq required. However, that package has been // significantly developed since then fork, and it may be possible // that we could dispense with the forked version entirely and directly // use a newer version of tablewriter. // // This entire package could use a rewrite, a lot has changed with sq // since this package was first created. So, if you see code in here // that doesn't make sense to you, you're probably judging it correctly. package tablew import ( "database/sql" "fmt" "io" "strconv" "time" "github.com/neilotoole/sq/cli/output" "github.com/neilotoole/sq/cli/output/tablew/internal" "github.com/neilotoole/sq/libsq/core/kind" "github.com/neilotoole/sq/libsq/core/stringz" ) // table encapsulates our table implementation. type table struct { fm *output.Formatting out io.Writer header bool tblImpl *internal.Table } func (t *table) renderResultCell(knd kind.Kind, val any) string { //nolint:funlen switch val := val.(type) { case string: return val case *sql.NullString: if !val.Valid { return t.sprintNull() } return t.fm.String.Sprint(val.String) case *string: if val == nil { return t.sprintNull() } // Although val is string, we allow for the case where // the kind is not kind.Text: for example, sqlite returns // values of kind.Time as a string. switch knd { //nolint:exhaustive // ignore kind.Unknown and kind.Null case kind.Datetime, kind.Date, kind.Time: return t.fm.Datetime.Sprint(*val) case kind.Decimal, kind.Float, kind.Int: return t.fm.Number.Sprint(*val) case kind.Bool: return t.fm.Bool.Sprint(*val) case kind.Bytes: return t.sprintBytes([]byte(*val)) case kind.Text: return t.fm.String.Sprint(*val) default: // Shouldn't happen return *val } case float64: return t.sprintFloat64(val) case *float64: if val == nil { return t.sprintNull() } return t.sprintFloat64(*val) case *sql.NullFloat64: if !val.Valid { return t.sprintNull() } return t.sprintFloat64(val.Float64) case float32: return t.sprintFloat64(float64(val)) case *float32: if val == nil { return t.sprintNull() } return t.sprintFloat64(float64(*val)) case int, int8, int16, int32, int64, uint, uint8, uint16, uint32, uint64: s := fmt.Sprintf("%d", val) return t.fm.Number.Sprint(s) case *int: if val == nil { return t.sprintNull() } return t.sprintInt64(int64(*val)) case *int8: if val == nil { return t.sprintNull() } return t.sprintInt64(int64(*val)) case *int16: if val == nil { return t.sprintNull() } return t.sprintInt64(int64(*val)) case *int32: if val == nil { return t.sprintNull() } return t.sprintInt64(int64(*val)) case *int64: if val == nil { return t.sprintNull() } return t.sprintInt64(*val) case *uint: if val == nil { return t.sprintNull() } return t.sprintInt64(int64(*val)) case *uint8: if val == nil { return t.sprintNull() } return t.sprintInt64(int64(*val)) case *uint16: if val == nil { return t.sprintNull() } return t.sprintInt64(int64(*val)) case *uint32: if val == nil { return t.sprintNull() } return t.sprintInt64(int64(*val)) case *uint64: if val == nil { return t.sprintNull() } return t.sprintInt64(int64(*val)) case *sql.NullInt64: if !val.Valid { return t.sprintNull() } return t.sprintInt64(val.Int64) case bool: return t.fm.Bool.Sprint(strconv.FormatBool(val)) case *bool: if val == nil { return t.sprintNull() } return t.fm.Bool.Sprint(strconv.FormatBool(*val)) case *time.Time: if val == nil { return t.sprintNull() } var s string switch knd { //nolint:exhaustive default: s = val.Format(stringz.DatetimeFormat) case kind.Time: s = val.Format(stringz.TimeFormat) case kind.Date: s = val.Format(stringz.DateFormat) } return t.fm.Datetime.Sprint(s) case *sql.NullBool: if !val.Valid { return t.sprintNull() } return t.fm.Bool.Sprint(strconv.FormatBool(val.Bool)) case nil: return t.sprintNull() case []byte: return t.sprintBytes(val) case *[]byte: if val == nil || *val == nil { return t.sprintNull() } return t.sprintBytes(*val) case *sql.RawBytes: if val == nil || *val == nil { return t.sprintNull() } if knd == kind.Text { return string(*val) } return t.sprintBytes(*val) } return "" } func (t *table) sprintBytes(b []byte) string { s := fmt.Sprintf("[%d bytes]", len(b)) return t.fm.Bytes.Sprint(s) } func (t *table) sprintNull() string { return t.fm.Null.Sprint("NULL") } func (t *table) sprintInt64(num int64) string { return t.fm.Number.Sprint(strconv.FormatInt(num, 10)) } func (t *table) sprintFloat64(num float64) string { return t.fm.Number.Sprint(stringz.FormatFloat(num)) } func (t *table) reset() { t.tblImpl = internal.NewTable(t.out) t.setTableWriterOptions() t.tblImpl.SetAutoFormatHeaders(false) t.tblImpl.SetAutoWrapText(false) } func (t *table) setTableWriterOptions() { t.tblImpl.SetAlignment(internal.AlignLeft) t.tblImpl.SetAutoWrapText(false) t.tblImpl.SetBorder(false) t.tblImpl.SetHeaderAlignment(internal.AlignLeft) t.tblImpl.SetCenterSeparator("") t.tblImpl.SetColumnSeparator("") t.tblImpl.SetRowSeparator("") t.tblImpl.SetBorders(internal.Border{Left: false, Top: false, Right: false, Bottom: false}) t.tblImpl.SetAutoFormatHeaders(false) t.tblImpl.SetHeaderDisable(!t.header) t.tblImpl.SetHeaderTrans(t.fm.Header.SprintFunc()) } func (t *table) appendRowsAndRenderAll(rows [][]string) { for _, v := range rows { t.tblImpl.Append(v) } t.tblImpl.RenderAll() } func (t *table) appendRows(rows [][]string) { for _, v := range rows { t.tblImpl.Append(v) } } func (t *table) renderAll() { t.tblImpl.RenderAll() } func (t *table) renderRow(row []string) { t.tblImpl.Append(row) t.tblImpl.RenderAll() // Send output }