sq/cli/output/xmlw/xmlw.go
Neil O'Toole f85da722ad
#335 decimal type support (#336)
* Now using a dedicated `decimal.Decimal` type instead of float/string.
2023-11-21 14:49:52 -07:00

223 lines
5.4 KiB
Go

// Package xmlw implements output writers for XML.
package xmlw
import (
"bytes"
"encoding/base64"
"encoding/xml"
"fmt"
"io"
"strconv"
"time"
"github.com/fatih/color"
"github.com/shopspring/decimal"
"github.com/neilotoole/sq/cli/output"
"github.com/neilotoole/sq/libsq/core/errz"
"github.com/neilotoole/sq/libsq/core/kind"
"github.com/neilotoole/sq/libsq/core/record"
"github.com/neilotoole/sq/libsq/core/stringz"
)
// recordWriter implements output.RecordWriter.
type recordWriter struct {
out io.Writer
pr *output.Printing
recMeta record.Meta
// outBuf holds output prior to flushing.
outBuf *bytes.Buffer
// recWritten indicates that at least one record has been written
// to outBuf.
recsWritten bool
elemColor *color.Color
tplRecStart string
tplRecEnd string
tplFieldStart []string
tplFieldEnd []string
fieldPrintFns []func(w io.Writer, a ...any)
}
const (
decl = "<?xml version=\"1.0\"?>"
recsElementName = "records"
recElemName = "record"
)
var _ output.NewRecordWriterFunc = NewRecordWriter
// NewRecordWriter returns an output.RecordWriter instance for XML.
func NewRecordWriter(out io.Writer, pr *output.Printing) output.RecordWriter {
return &recordWriter{out: out, pr: pr, elemColor: pr.Key.Add(color.Faint)}
}
// Open implements output.RecordWriter.
func (w *recordWriter) Open(recMeta record.Meta) error {
w.recMeta = recMeta
var indent, newline string
if !w.pr.Compact {
indent = w.pr.Indent
newline = "\n"
}
w.fieldPrintFns = make([]func(w io.Writer, a ...any), len(recMeta))
w.tplFieldStart = make([]string, len(recMeta))
w.tplFieldEnd = make([]string, len(recMeta))
w.tplRecStart = "\n" + indent + w.elemColor.Sprintf("<%s>", recElemName)
w.tplRecEnd = newline + indent + w.elemColor.Sprintf("</%s>", recElemName)
for i, name := range recMeta.MungedNames() {
elementName := stringz.SanitizeAlphaNumeric(name, '_')
w.tplFieldStart[i] = newline + indent + indent + w.elemColor.Sprintf("<%s>", elementName)
w.tplFieldEnd[i] = w.elemColor.Sprintf("</%s>", elementName)
if w.pr.IsMonochrome() {
w.fieldPrintFns[i] = monoPrint
continue
}
switch w.recMeta[i].Kind() { //nolint:exhaustive // ignore kind.Unknown and kind.Null
default:
w.fieldPrintFns[i] = monoPrint
case kind.Datetime, kind.Date, kind.Time:
w.fieldPrintFns[i] = w.pr.Datetime.FprintFunc()
case kind.Int, kind.Decimal, kind.Float:
w.fieldPrintFns[i] = w.pr.Number.FprintFunc()
case kind.Bool:
w.fieldPrintFns[i] = w.pr.Bool.FprintFunc()
case kind.Bytes:
w.fieldPrintFns[i] = w.pr.Bytes.FprintFunc()
case kind.Text:
w.fieldPrintFns[i] = w.pr.String.FprintFunc()
}
}
w.outBuf = &bytes.Buffer{}
w.outBuf.WriteString(w.pr.Faint.Sprint(decl))
return nil
}
// monoPrint delegates to fmt.Fprint, for
// monochrome (non-color) printing.
func monoPrint(w io.Writer, a ...any) {
_, _ = fmt.Fprint(w, a...)
}
// Flush implements output.RecordWriter.
func (w *recordWriter) Flush() error {
_, err := w.outBuf.WriteTo(w.out) // resets buf
return errz.Err(err)
}
// Close implements output.RecordWriter.
func (w *recordWriter) Close() error {
w.outBuf.WriteByte('\n')
if w.recsWritten {
w.outBuf.WriteString(w.elemColor.Sprintf("</%s>", recsElementName))
} else {
// empty element: <records />
w.outBuf.WriteString(w.elemColor.Sprintf("<%s />", recsElementName))
}
w.outBuf.WriteByte('\n')
return w.Flush()
}
// WriteRecords implements output.RecordWriter.
// Note that (by design) the XML element is omitted for any nil value
// in a record.
func (w *recordWriter) WriteRecords(recs []record.Record) error {
if len(recs) == 0 {
return nil
}
if !w.recsWritten {
w.outBuf.WriteByte('\n')
w.outBuf.WriteString(w.elemColor.Sprintf("<%s>", recsElementName))
w.recsWritten = true
}
var err error
for _, rec := range recs {
err = w.writeRecord(rec)
if err != nil {
return err
}
}
return nil
}
func (w *recordWriter) writeRecord(rec record.Record) error {
var err error
tmpBuf := &bytes.Buffer{}
w.outBuf.WriteString(w.tplRecStart)
for i, val := range rec {
if val == nil {
continue // omit the element if val is nil
}
w.outBuf.WriteString(w.tplFieldStart[i])
switch val := val.(type) {
default:
// should never happen
err = xml.EscapeText(tmpBuf, []byte(fmt.Sprintf("%v", val)))
if err != nil {
return errz.Err(err)
}
w.fieldPrintFns[i](w.outBuf, tmpBuf.String())
tmpBuf.Reset()
case string:
err = xml.EscapeText(tmpBuf, []byte(val))
if err != nil {
return errz.Err(err)
}
w.fieldPrintFns[i](w.outBuf, tmpBuf.String())
tmpBuf.Reset()
case []byte:
w.fieldPrintFns[i](w.outBuf, base64.StdEncoding.EncodeToString(val))
case bool:
w.fieldPrintFns[i](w.outBuf, strconv.FormatBool(val))
case int64:
w.fieldPrintFns[i](w.outBuf, strconv.FormatInt(val, 10))
case float64:
w.fieldPrintFns[i](w.outBuf, stringz.FormatFloat(val))
case decimal.Decimal:
w.fieldPrintFns[i](w.outBuf, stringz.FormatDecimal(val))
case time.Time:
switch w.recMeta[i].Kind() { //nolint:exhaustive
default:
w.fieldPrintFns[i](w.outBuf, w.pr.FormatDatetime(val))
case kind.Time:
w.fieldPrintFns[i](w.outBuf, w.pr.FormatTime(val))
case kind.Date:
w.fieldPrintFns[i](w.outBuf, w.pr.FormatDate(val))
}
}
w.outBuf.WriteString(w.tplFieldEnd[i])
}
w.outBuf.WriteString(w.tplRecEnd)
if w.outBuf.Len() > w.pr.FlushThreshold {
return w.Flush()
}
return nil
}