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stream.go
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stream.go
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// Copyright 2016 - 2023 The excelize Authors. All rights reserved. Use of
// this source code is governed by a BSD-style license that can be found in
// the LICENSE file.
//
// Package excelize providing a set of functions that allow you to write to and
// read from XLAM / XLSM / XLSX / XLTM / XLTX files. Supports reading and
// writing spreadsheet documents generated by Microsoft Excel™ 2007 and later.
// Supports complex components by high compatibility, and provided streaming
// API for generating or reading data from a worksheet with huge amounts of
// data. This library needs Go version 1.16 or later.
package excelize
import (
"bytes"
"encoding/xml"
"fmt"
"io"
"os"
"reflect"
"strconv"
"strings"
"time"
)
// StreamWriter defined the type of stream writer.
type StreamWriter struct {
file *File
Sheet string
SheetID int
sheetWritten bool
cols strings.Builder
worksheet *xlsxWorksheet
rawData bufferedWriter
rows int
mergeCellsCount int
mergeCells strings.Builder
tableParts string
}
// NewStreamWriter returns stream writer struct by given worksheet name used for
// writing data on a new existing empty worksheet with large amounts of data.
// Note that after writing data with the stream writer for the worksheet, you
// must call the 'Flush' method to end the streaming writing process, ensure
// that the order of row numbers is ascending when set rows, and the normal
// mode functions and stream mode functions can not be work mixed to writing
// data on the worksheets. The stream writer will try to use temporary files on
// disk to reduce the memory usage when in-memory chunks data over 16MB, and
// you can't get cell value at this time. For example, set data for worksheet
// of size 102400 rows x 50 columns with numbers and style:
//
// f := excelize.NewFile()
// defer func() {
// if err := f.Close(); err != nil {
// fmt.Println(err)
// }
// }()
// sw, err := f.NewStreamWriter("Sheet1")
// if err != nil {
// fmt.Println(err)
// return
// }
// styleID, err := f.NewStyle(&excelize.Style{Font: &excelize.Font{Color: "777777"}})
// if err != nil {
// fmt.Println(err)
// return
// }
// if err := sw.SetRow("A1",
// []interface{}{
// excelize.Cell{StyleID: styleID, Value: "Data"},
// []excelize.RichTextRun{
// {Text: "Rich ", Font: &excelize.Font{Color: "2354e8"}},
// {Text: "Text", Font: &excelize.Font{Color: "e83723"}},
// },
// },
// excelize.RowOpts{Height: 45, Hidden: false}); err != nil {
// fmt.Println(err)
// return
// }
// for rowID := 2; rowID <= 102400; rowID++ {
// row := make([]interface{}, 50)
// for colID := 0; colID < 50; colID++ {
// row[colID] = rand.Intn(640000)
// }
// cell, err := excelize.CoordinatesToCellName(1, rowID)
// if err != nil {
// fmt.Println(err)
// break
// }
// if err := sw.SetRow(cell, row); err != nil {
// fmt.Println(err)
// break
// }
// }
// if err := sw.Flush(); err != nil {
// fmt.Println(err)
// return
// }
// if err := f.SaveAs("Book1.xlsx"); err != nil {
// fmt.Println(err)
// }
//
// Set cell value and cell formula for a worksheet with stream writer:
//
// err := sw.SetRow("A1", []interface{}{
// excelize.Cell{Value: 1},
// excelize.Cell{Value: 2},
// excelize.Cell{Formula: "SUM(A1,B1)"}});
//
// Set cell value and rows style for a worksheet with stream writer:
//
// err := sw.SetRow("A1", []interface{}{
// excelize.Cell{Value: 1}},
// excelize.RowOpts{StyleID: styleID, Height: 20, Hidden: false});
func (f *File) NewStreamWriter(sheet string) (*StreamWriter, error) {
if err := checkSheetName(sheet); err != nil {
return nil, err
}
sheetID := f.getSheetID(sheet)
if sheetID == -1 {
return nil, ErrSheetNotExist{sheet}
}
sw := &StreamWriter{
file: f,
Sheet: sheet,
SheetID: sheetID,
}
var err error
sw.worksheet, err = f.workSheetReader(sheet)
if err != nil {
return nil, err
}
sheetXMLPath, _ := f.getSheetXMLPath(sheet)
if f.streams == nil {
f.streams = make(map[string]*StreamWriter)
}
f.streams[sheetXMLPath] = sw
_, _ = sw.rawData.WriteString(xml.Header + `<worksheet` + templateNamespaceIDMap)
bulkAppendFields(&sw.rawData, sw.worksheet, 2, 3)
return sw, err
}
// AddTable creates an Excel table for the StreamWriter using the given
// cell range and format set. For example, create a table of A1:D5:
//
// err := sw.AddTable(&excelize.Table{Range: "A1:D5"})
//
// Create a table of F2:H6 with format set:
//
// disable := false
// err := sw.AddTable(&excelize.Table{
// Range: "F2:H6",
// Name: "table",
// StyleName: "TableStyleMedium2",
// ShowFirstColumn: true,
// ShowLastColumn: true,
// ShowRowStripes: &disable,
// ShowColumnStripes: true,
// })
//
// Note that the table must be at least two lines including the header. The
// header cells must contain strings and must be unique.
//
// Currently, only one table is allowed for a StreamWriter. AddTable must be
// called after the rows are written but before Flush.
//
// See File.AddTable for details on the table format.
func (sw *StreamWriter) AddTable(table *Table) error {
options, err := parseTableOptions(table)
if err != nil {
return err
}
coordinates, err := rangeRefToCoordinates(options.Range)
if err != nil {
return err
}
_ = sortCoordinates(coordinates)
// Correct the minimum number of rows, the table at least two lines.
if coordinates[1] == coordinates[3] {
coordinates[3]++
}
// Correct table reference range, such correct C1:B3 to B1:C3.
ref, err := sw.file.coordinatesToRangeRef(coordinates)
if err != nil {
return err
}
// create table columns using the first row
tableHeaders, err := sw.getRowValues(coordinates[1], coordinates[0], coordinates[2])
if err != nil {
return err
}
tableColumn := make([]*xlsxTableColumn, len(tableHeaders))
for i, name := range tableHeaders {
tableColumn[i] = &xlsxTableColumn{
ID: i + 1,
Name: name,
}
}
tableID := sw.file.countTables() + 1
name := options.Name
if name == "" {
name = "Table" + strconv.Itoa(tableID)
}
tbl := xlsxTable{
XMLNS: NameSpaceSpreadSheet.Value,
ID: tableID,
Name: name,
DisplayName: name,
Ref: ref,
AutoFilter: &xlsxAutoFilter{
Ref: ref,
},
TableColumns: &xlsxTableColumns{
Count: len(tableColumn),
TableColumn: tableColumn,
},
TableStyleInfo: &xlsxTableStyleInfo{
Name: options.StyleName,
ShowFirstColumn: options.ShowFirstColumn,
ShowLastColumn: options.ShowLastColumn,
ShowRowStripes: *options.ShowRowStripes,
ShowColumnStripes: options.ShowColumnStripes,
},
}
sheetRelationshipsTableXML := "../tables/table" + strconv.Itoa(tableID) + ".xml"
tableXML := strings.ReplaceAll(sheetRelationshipsTableXML, "..", "xl")
// Add first table for given sheet
sheetPath := sw.file.sheetMap[sw.Sheet]
sheetRels := "xl/worksheets/_rels/" + strings.TrimPrefix(sheetPath, "xl/worksheets/") + ".rels"
rID := sw.file.addRels(sheetRels, SourceRelationshipTable, sheetRelationshipsTableXML, "")
sw.tableParts = fmt.Sprintf(`<tableParts count="1"><tablePart r:id="rId%d"></tablePart></tableParts>`, rID)
if err = sw.file.addContentTypePart(tableID, "table"); err != nil {
return err
}
b, _ := xml.Marshal(tbl)
sw.file.saveFileList(tableXML, b)
return err
}
// Extract values from a row in the StreamWriter.
func (sw *StreamWriter) getRowValues(hRow, hCol, vCol int) (res []string, err error) {
res = make([]string, vCol-hCol+1)
r, err := sw.rawData.Reader()
if err != nil {
return nil, err
}
dec := sw.file.xmlNewDecoder(r)
for {
token, err := dec.Token()
if err == io.EOF {
return res, nil
}
if err != nil {
return nil, err
}
startElement, ok := getRowElement(token, hRow)
if !ok {
continue
}
// decode cells
var row xlsxRow
if err := dec.DecodeElement(&row, &startElement); err != nil {
return nil, err
}
for _, c := range row.C {
col, _, err := CellNameToCoordinates(c.R)
if err != nil {
return nil, err
}
if col < hCol || col > vCol {
continue
}
res[col-hCol], _ = c.getValueFrom(sw.file, nil, false)
}
return res, nil
}
}
// Check if the token is an XLSX row with the matching row number.
func getRowElement(token xml.Token, hRow int) (startElement xml.StartElement, ok bool) {
startElement, ok = token.(xml.StartElement)
if !ok {
return
}
ok = startElement.Name.Local == "row"
if !ok {
return
}
ok = false
for _, attr := range startElement.Attr {
if attr.Name.Local != "r" {
continue
}
row, _ := strconv.Atoi(attr.Value)
if row == hRow {
ok = true
return
}
}
return
}
// Cell can be used directly in StreamWriter.SetRow to specify a style and
// a value.
type Cell struct {
StyleID int
Formula string
Value interface{}
}
// RowOpts define the options for the set row, it can be used directly in
// StreamWriter.SetRow to specify the style and properties of the row.
type RowOpts struct {
Height float64
Hidden bool
StyleID int
OutlineLevel int
}
// marshalAttrs prepare attributes of the row.
func (r *RowOpts) marshalAttrs() (strings.Builder, error) {
var (
err error
attrs strings.Builder
)
if r == nil {
return attrs, err
}
if r.Height > MaxRowHeight {
err = ErrMaxRowHeight
return attrs, err
}
if r.OutlineLevel > 7 {
err = ErrOutlineLevel
return attrs, err
}
if r.StyleID > 0 {
attrs.WriteString(` s="`)
attrs.WriteString(strconv.Itoa(r.StyleID))
attrs.WriteString(`" customFormat="1"`)
}
if r.Height > 0 {
attrs.WriteString(` ht="`)
attrs.WriteString(strconv.FormatFloat(r.Height, 'f', -1, 64))
attrs.WriteString(`" customHeight="1"`)
}
if r.OutlineLevel > 0 {
attrs.WriteString(` outlineLevel="`)
attrs.WriteString(strconv.Itoa(r.OutlineLevel))
attrs.WriteString(`"`)
}
if r.Hidden {
attrs.WriteString(` hidden="1"`)
}
return attrs, err
}
// parseRowOpts provides a function to parse the optional settings for
// *StreamWriter.SetRow.
func parseRowOpts(opts ...RowOpts) *RowOpts {
options := &RowOpts{}
for _, opt := range opts {
options = &opt
}
return options
}
// SetRow writes an array to stream rows by giving starting cell reference and a
// pointer to an array of values. Note that you must call the 'Flush' function
// to end the streaming writing process.
//
// As a special case, if Cell is used as a value, then the Cell.StyleID will be
// applied to that cell.
func (sw *StreamWriter) SetRow(cell string, values []interface{}, opts ...RowOpts) error {
col, row, err := CellNameToCoordinates(cell)
if err != nil {
return err
}
if row <= sw.rows {
return newStreamSetRowError(row)
}
sw.rows = row
sw.writeSheetData()
options := parseRowOpts(opts...)
attrs, err := options.marshalAttrs()
if err != nil {
return err
}
_, _ = sw.rawData.WriteString(`<row r="`)
_, _ = sw.rawData.WriteString(strconv.Itoa(row))
_, _ = sw.rawData.WriteString(`"`)
_, _ = sw.rawData.WriteString(attrs.String())
_, _ = sw.rawData.WriteString(`>`)
for i, val := range values {
if val == nil {
continue
}
ref, err := CoordinatesToCellName(col+i, row)
if err != nil {
return err
}
c := xlsxC{R: ref, S: options.StyleID}
if v, ok := val.(Cell); ok {
c.S = v.StyleID
val = v.Value
setCellFormula(&c, v.Formula)
} else if v, ok := val.(*Cell); ok && v != nil {
c.S = v.StyleID
val = v.Value
setCellFormula(&c, v.Formula)
}
if err = sw.setCellValFunc(&c, val); err != nil {
_, _ = sw.rawData.WriteString(`</row>`)
return err
}
writeCell(&sw.rawData, c)
}
_, _ = sw.rawData.WriteString(`</row>`)
return sw.rawData.Sync()
}
// SetColWidth provides a function to set the width of a single column or
// multiple columns for the StreamWriter. Note that you must call
// the 'SetColWidth' function before the 'SetRow' function. For example set
// the width column B:C as 20:
//
// err := sw.SetColWidth(2, 3, 20)
func (sw *StreamWriter) SetColWidth(min, max int, width float64) error {
if sw.sheetWritten {
return ErrStreamSetColWidth
}
if min < MinColumns || min > MaxColumns || max < MinColumns || max > MaxColumns {
return ErrColumnNumber
}
if width > MaxColumnWidth {
return ErrColumnWidth
}
if min > max {
min, max = max, min
}
sw.cols.WriteString(`<col min="`)
sw.cols.WriteString(strconv.Itoa(min))
sw.cols.WriteString(`" max="`)
sw.cols.WriteString(strconv.Itoa(max))
sw.cols.WriteString(`" width="`)
sw.cols.WriteString(strconv.FormatFloat(width, 'f', -1, 64))
sw.cols.WriteString(`" customWidth="1"/>`)
return nil
}
// InsertPageBreak creates a page break to determine where the printed page ends
// and where begins the next one by a given cell reference, the content before
// the page break will be printed on one page and after the page break on
// another.
func (sw *StreamWriter) InsertPageBreak(cell string) error {
return sw.worksheet.insertPageBreak(cell)
}
// SetPanes provides a function to create and remove freeze panes and split
// panes by giving panes options for the StreamWriter. Note that you must call
// the 'SetPanes' function before the 'SetRow' function.
func (sw *StreamWriter) SetPanes(panes *Panes) error {
if sw.sheetWritten {
return ErrStreamSetPanes
}
return sw.worksheet.setPanes(panes)
}
// MergeCell provides a function to merge cells by a given range reference for
// the StreamWriter. Don't create a merged cell that overlaps with another
// existing merged cell.
func (sw *StreamWriter) MergeCell(hCell, vCell string) error {
_, err := cellRefsToCoordinates(hCell, vCell)
if err != nil {
return err
}
sw.mergeCellsCount++
_, _ = sw.mergeCells.WriteString(`<mergeCell ref="`)
_, _ = sw.mergeCells.WriteString(hCell)
_, _ = sw.mergeCells.WriteString(`:`)
_, _ = sw.mergeCells.WriteString(vCell)
_, _ = sw.mergeCells.WriteString(`"/>`)
return nil
}
// setCellFormula provides a function to set formula of a cell.
func setCellFormula(c *xlsxC, formula string) {
if formula != "" {
c.T, c.F = "str", &xlsxF{Content: formula}
}
}
// setCellTime provides a function to set number of a cell with a time.
func (sw *StreamWriter) setCellTime(c *xlsxC, val time.Time) error {
var date1904, isNum bool
wb, err := sw.file.workbookReader()
if err != nil {
return err
}
if wb != nil && wb.WorkbookPr != nil {
date1904 = wb.WorkbookPr.Date1904
}
if isNum, err = c.setCellTime(val, date1904); err == nil && isNum && c.S == 0 {
style, _ := sw.file.NewStyle(&Style{NumFmt: 22})
c.S = style
}
return nil
}
// setCellValFunc provides a function to set value of a cell.
func (sw *StreamWriter) setCellValFunc(c *xlsxC, val interface{}) error {
var err error
switch val := val.(type) {
case int, int8, int16, int32, int64, uint, uint8, uint16, uint32, uint64:
err = setCellIntFunc(c, val)
case float32:
c.T, c.V = setCellFloat(float64(val), -1, 32)
case float64:
c.T, c.V = setCellFloat(val, -1, 64)
case string:
c.setCellValue(val)
case []byte:
c.setCellValue(string(val))
case time.Duration:
c.T, c.V = setCellDuration(val)
case time.Time:
err = sw.setCellTime(c, val)
case bool:
c.T, c.V = setCellBool(val)
case nil:
return err
case []RichTextRun:
c.T, c.IS = "inlineStr", &xlsxSI{}
c.IS.R, err = setRichText(val)
default:
c.setCellValue(fmt.Sprint(val))
}
return err
}
// setCellIntFunc is a wrapper of SetCellInt.
func setCellIntFunc(c *xlsxC, val interface{}) (err error) {
switch val := val.(type) {
case int:
c.T, c.V = setCellInt(val)
case int8:
c.T, c.V = setCellInt(int(val))
case int16:
c.T, c.V = setCellInt(int(val))
case int32:
c.T, c.V = setCellInt(int(val))
case int64:
c.T, c.V = setCellInt(int(val))
case uint:
c.T, c.V = setCellUint(uint64(val))
case uint8:
c.T, c.V = setCellUint(uint64(val))
case uint16:
c.T, c.V = setCellUint(uint64(val))
case uint32:
c.T, c.V = setCellUint(uint64(val))
case uint64:
c.T, c.V = setCellUint(val)
default:
}
return
}
// writeCell constructs a cell XML and writes it to the buffer.
func writeCell(buf *bufferedWriter, c xlsxC) {
_, _ = buf.WriteString(`<c`)
if c.XMLSpace.Value != "" {
_, _ = buf.WriteString(` xml:`)
_, _ = buf.WriteString(c.XMLSpace.Name.Local)
_, _ = buf.WriteString(`="`)
_, _ = buf.WriteString(c.XMLSpace.Value)
_, _ = buf.WriteString(`"`)
}
_, _ = buf.WriteString(` r="`)
_, _ = buf.WriteString(c.R)
_, _ = buf.WriteString(`"`)
if c.S != 0 {
_, _ = buf.WriteString(` s="`)
_, _ = buf.WriteString(strconv.Itoa(c.S))
_, _ = buf.WriteString(`"`)
}
if c.T != "" {
_, _ = buf.WriteString(` t="`)
_, _ = buf.WriteString(c.T)
_, _ = buf.WriteString(`"`)
}
_, _ = buf.WriteString(`>`)
if c.F != nil {
_, _ = buf.WriteString(`<f>`)
_ = xml.EscapeText(buf, []byte(c.F.Content))
_, _ = buf.WriteString(`</f>`)
}
if c.V != "" {
_, _ = buf.WriteString(`<v>`)
_ = xml.EscapeText(buf, []byte(c.V))
_, _ = buf.WriteString(`</v>`)
}
if c.IS != nil {
if len(c.IS.R) > 0 {
is, _ := xml.Marshal(c.IS.R)
_, _ = buf.WriteString(`<is>`)
_, _ = buf.Write(is)
_, _ = buf.WriteString(`</is>`)
}
if c.IS.T != nil {
_, _ = buf.WriteString(`<is><t`)
if c.IS.T.Space.Value != "" {
_, _ = buf.WriteString(` xml:`)
_, _ = buf.WriteString(c.IS.T.Space.Name.Local)
_, _ = buf.WriteString(`="`)
_, _ = buf.WriteString(c.IS.T.Space.Value)
_, _ = buf.WriteString(`"`)
}
_, _ = buf.WriteString(`>`)
_, _ = buf.Write([]byte(c.IS.T.Val))
_, _ = buf.WriteString(`</t></is>`)
}
}
_, _ = buf.WriteString(`</c>`)
}
// writeSheetData prepares the element preceding sheetData and writes the
// sheetData XML start element to the buffer.
func (sw *StreamWriter) writeSheetData() {
if !sw.sheetWritten {
bulkAppendFields(&sw.rawData, sw.worksheet, 4, 5)
if sw.cols.Len() > 0 {
_, _ = sw.rawData.WriteString("<cols>")
_, _ = sw.rawData.WriteString(sw.cols.String())
_, _ = sw.rawData.WriteString("</cols>")
}
_, _ = sw.rawData.WriteString(`<sheetData>`)
sw.sheetWritten = true
}
}
// Flush ending the streaming writing process.
func (sw *StreamWriter) Flush() error {
sw.writeSheetData()
_, _ = sw.rawData.WriteString(`</sheetData>`)
bulkAppendFields(&sw.rawData, sw.worksheet, 8, 15)
mergeCells := strings.Builder{}
if sw.mergeCellsCount > 0 {
_, _ = mergeCells.WriteString(`<mergeCells count="`)
_, _ = mergeCells.WriteString(strconv.Itoa(sw.mergeCellsCount))
_, _ = mergeCells.WriteString(`">`)
_, _ = mergeCells.WriteString(sw.mergeCells.String())
_, _ = mergeCells.WriteString(`</mergeCells>`)
}
_, _ = sw.rawData.WriteString(mergeCells.String())
bulkAppendFields(&sw.rawData, sw.worksheet, 17, 38)
_, _ = sw.rawData.WriteString(sw.tableParts)
bulkAppendFields(&sw.rawData, sw.worksheet, 40, 40)
_, _ = sw.rawData.WriteString(`</worksheet>`)
if err := sw.rawData.Flush(); err != nil {
return err
}
sheetPath := sw.file.sheetMap[sw.Sheet]
sw.file.Sheet.Delete(sheetPath)
sw.file.checked.Delete(sheetPath)
sw.file.Pkg.Delete(sheetPath)
return nil
}
// bulkAppendFields bulk-appends fields in a worksheet by specified field
// names order range.
func bulkAppendFields(w io.Writer, ws *xlsxWorksheet, from, to int) {
s := reflect.ValueOf(ws).Elem()
enc := xml.NewEncoder(w)
for i := 0; i < s.NumField(); i++ {
if from <= i && i <= to {
_ = enc.Encode(s.Field(i).Interface())
}
}
}
// bufferedWriter uses a temp file to store an extended buffer. Writes are
// always made to an in-memory buffer, which will always succeed. The buffer
// is written to the temp file with Sync, which may return an error.
// Therefore, Sync should be periodically called and the error checked.
type bufferedWriter struct {
tmp *os.File
buf bytes.Buffer
}
// Write to the in-memory buffer. The error is always nil.
func (bw *bufferedWriter) Write(p []byte) (n int, err error) {
return bw.buf.Write(p)
}
// WriteString write to the in-memory buffer. The error is always nil.
func (bw *bufferedWriter) WriteString(p string) (n int, err error) {
return bw.buf.WriteString(p)
}
// Reader provides read-access to the underlying buffer/file.
func (bw *bufferedWriter) Reader() (io.Reader, error) {
if bw.tmp == nil {
return bytes.NewReader(bw.buf.Bytes()), nil
}
if err := bw.Flush(); err != nil {
return nil, err
}
fi, err := bw.tmp.Stat()
if err != nil {
return nil, err
}
// os.File.ReadAt does not affect the cursor position and is safe to use here
return io.NewSectionReader(bw.tmp, 0, fi.Size()), nil
}
// Sync will write the in-memory buffer to a temp file, if the in-memory
// buffer has grown large enough. Any error will be returned.
func (bw *bufferedWriter) Sync() (err error) {
// Try to use local storage
if bw.buf.Len() < StreamChunkSize {
return nil
}
if bw.tmp == nil {
bw.tmp, err = os.CreateTemp(os.TempDir(), "excelize-")
if err != nil {
// can not use local storage
return nil
}
}
return bw.Flush()
}
// Flush the entire in-memory buffer to the temp file, if a temp file is being
// used.
func (bw *bufferedWriter) Flush() error {
if bw.tmp == nil {
return nil
}
_, err := bw.buf.WriteTo(bw.tmp)
if err != nil {
return err
}
bw.buf.Reset()
return nil
}
// Close the underlying temp file and reset the in-memory buffer.
func (bw *bufferedWriter) Close() error {
bw.buf.Reset()
if bw.tmp == nil {
return nil
}
defer os.Remove(bw.tmp.Name())
return bw.tmp.Close()
}