// Copyright 2016 - 2022 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 Excelâ„¢ 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 1.15 or later.
package excelize
import (
"bytes"
"encoding/xml"
"fmt"
"io"
"io/ioutil"
"log"
"math"
"math/big"
"os"
"strconv"
"github.com/mohae/deepcopy"
)
// GetRows return all the rows in a sheet by given worksheet name
// (case sensitive), returned as a two-dimensional array, where the value of
// the cell is converted to the string type. If the cell format can be
// applied to the value of the cell, the applied value will be used,
// otherwise the original value will be used. GetRows fetched the rows with
// value or formula cells, the tail continuously empty cell will be skipped.
// For example:
//
// rows, err := f.GetRows("Sheet1")
// if err != nil {
// fmt.Println(err)
// return
// }
// for _, row := range rows {
// for _, colCell := range row {
// fmt.Print(colCell, "\t")
// }
// fmt.Println()
// }
//
func (f *File) GetRows(sheet string, opts ...Options) ([][]string, error) {
rows, err := f.Rows(sheet)
if err != nil {
return nil, err
}
results, cur, max := make([][]string, 0, 64), 0, 0
for rows.Next() {
cur++
row, err := rows.Columns(opts...)
if err != nil {
break
}
results = append(results, row)
if len(row) > 0 {
max = cur
}
}
return results[:max], rows.Close()
}
// Rows defines an iterator to a sheet.
type Rows struct {
err error
curRow, seekRow int
needClose, rawCellValue bool
sheet string
f *File
tempFile *os.File
sst *xlsxSST
decoder *xml.Decoder
token xml.Token
}
// Next will return true if find the next row element.
func (rows *Rows) Next() bool {
rows.seekRow++
if rows.curRow >= rows.seekRow {
return true
}
for {
token, _ := rows.decoder.Token()
if token == nil {
return false
}
switch xmlElement := token.(type) {
case xml.StartElement:
if xmlElement.Name.Local == "row" {
rows.curRow++
if rowNum, _ := attrValToInt("r", xmlElement.Attr); rowNum != 0 {
rows.curRow = rowNum
}
rows.token = token
return true
}
case xml.EndElement:
if xmlElement.Name.Local == "sheetData" {
return false
}
}
}
}
// Error will return the error when the error occurs.
func (rows *Rows) Error() error {
return rows.err
}
// Close closes the open worksheet XML file in the system temporary
// directory.
func (rows *Rows) Close() error {
if rows.tempFile != nil {
return rows.tempFile.Close()
}
return nil
}
// Columns return the current row's column values.
func (rows *Rows) Columns(opts ...Options) ([]string, error) {
if rows.curRow > rows.seekRow {
return nil, nil
}
var rowIterator rowXMLIterator
var token xml.Token
rows.rawCellValue, rows.sst = parseOptions(opts...).RawCellValue, rows.f.sharedStringsReader()
for {
if rows.token != nil {
token = rows.token
} else if token, _ = rows.decoder.Token(); token == nil {
break
}
switch xmlElement := token.(type) {
case xml.StartElement:
rowIterator.inElement = xmlElement.Name.Local
if rowIterator.inElement == "row" {
rowNum := 0
if rowNum, rowIterator.err = attrValToInt("r", xmlElement.Attr); rowNum != 0 {
rows.curRow = rowNum
} else if rows.token == nil {
rows.curRow++
}
if rows.curRow > rows.seekRow {
rows.token = nil
return rowIterator.columns, rowIterator.err
}
}
if rows.rowXMLHandler(&rowIterator, &xmlElement, rows.rawCellValue); rowIterator.err != nil {
rows.token = nil
return rowIterator.columns, rowIterator.err
}
rows.token = nil
case xml.EndElement:
if xmlElement.Name.Local == "sheetData" {
return rowIterator.columns, rowIterator.err
}
}
}
return rowIterator.columns, rowIterator.err
}
// appendSpace append blank characters to slice by given length and source slice.
func appendSpace(l int, s []string) []string {
for i := 1; i < l; i++ {
s = append(s, "")
}
return s
}
// ErrSheetNotExist defines an error of sheet is not exist
type ErrSheetNotExist struct {
SheetName string
}
func (err ErrSheetNotExist) Error() string {
return fmt.Sprintf("sheet %s is not exist", err.SheetName)
}
// rowXMLIterator defined runtime use field for the worksheet row SAX parser.
type rowXMLIterator struct {
err error
inElement string
cellCol int
columns []string
}
// rowXMLHandler parse the row XML element of the worksheet.
func (rows *Rows) rowXMLHandler(rowIterator *rowXMLIterator, xmlElement *xml.StartElement, raw bool) {
if rowIterator.inElement == "c" {
rowIterator.cellCol++
colCell := xlsxC{}
_ = rows.decoder.DecodeElement(&colCell, xmlElement)
if colCell.R != "" {
if rowIterator.cellCol, _, rowIterator.err = CellNameToCoordinates(colCell.R); rowIterator.err != nil {
return
}
}
blank := rowIterator.cellCol - len(rowIterator.columns)
if val, _ := colCell.getValueFrom(rows.f, rows.sst, raw); val != "" || colCell.F != nil {
rowIterator.columns = append(appendSpace(blank, rowIterator.columns), val)
}
}
}
// Rows returns a rows iterator, used for streaming reading data for a
// worksheet with a large data. For example:
//
// rows, err := f.Rows("Sheet1")
// if err != nil {
// fmt.Println(err)
// return
// }
// for rows.Next() {
// row, err := rows.Columns()
// if err != nil {
// fmt.Println(err)
// }
// for _, colCell := range row {
// fmt.Print(colCell, "\t")
// }
// fmt.Println()
// }
// if err = rows.Close(); err != nil {
// fmt.Println(err)
// }
//
func (f *File) Rows(sheet string) (*Rows, error) {
name, ok := f.sheetMap[trimSheetName(sheet)]
if !ok {
return nil, ErrSheetNotExist{sheet}
}
if ws, ok := f.Sheet.Load(name); ok && ws != nil {
worksheet := ws.(*xlsxWorksheet)
worksheet.Lock()
defer worksheet.Unlock()
// flush data
output, _ := xml.Marshal(worksheet)
f.saveFileList(name, f.replaceNameSpaceBytes(name, output))
}
var err error
rows := Rows{f: f, sheet: name}
rows.needClose, rows.decoder, rows.tempFile, err = f.xmlDecoder(name)
return &rows, err
}
// getFromStringItem build shared string item offset list from system temporary
// file at one time, and return value by given to string index.
func (f *File) getFromStringItem(index int) string {
if f.sharedStringTemp != nil {
if len(f.sharedStringItem) <= index {
return strconv.Itoa(index)
}
offsetRange := f.sharedStringItem[index]
buf := make([]byte, offsetRange[1]-offsetRange[0])
if _, err := f.sharedStringTemp.ReadAt(buf, int64(offsetRange[0])); err != nil {
return strconv.Itoa(index)
}
return string(buf)
}
needClose, decoder, tempFile, err := f.xmlDecoder(defaultXMLPathSharedStrings)
if needClose && err == nil {
defer tempFile.Close()
}
f.sharedStringItem = [][]uint{}
f.sharedStringTemp, _ = ioutil.TempFile(os.TempDir(), "excelize-")
f.tempFiles.Store(defaultTempFileSST, f.sharedStringTemp.Name())
var (
inElement string
i, offset uint
)
for {
token, _ := decoder.Token()
if token == nil {
break
}
switch xmlElement := token.(type) {
case xml.StartElement:
inElement = xmlElement.Name.Local
if inElement == "si" {
si := xlsxSI{}
_ = decoder.DecodeElement(&si, &xmlElement)
startIdx := offset
n, _ := f.sharedStringTemp.WriteString(si.String())
offset += uint(n)
f.sharedStringItem = append(f.sharedStringItem, []uint{startIdx, offset})
i++
}
}
}
return f.getFromStringItem(index)
}
// xmlDecoder creates XML decoder by given path in the zip from memory data
// or system temporary file.
func (f *File) xmlDecoder(name string) (bool, *xml.Decoder, *os.File, error) {
var (
content []byte
err error
tempFile *os.File
)
if content = f.readXML(name); len(content) > 0 {
return false, f.xmlNewDecoder(bytes.NewReader(content)), tempFile, err
}
tempFile, err = f.readTemp(name)
return true, f.xmlNewDecoder(tempFile), tempFile, err
}
// SetRowHeight provides a function to set the height of a single row. For
// example, set the height of the first row in Sheet1:
//
// err := f.SetRowHeight("Sheet1", 1, 50)
//
func (f *File) SetRowHeight(sheet string, row int, height float64) error {
if row < 1 {
return newInvalidRowNumberError(row)
}
if height > MaxRowHeight {
return ErrMaxRowHeight
}
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
prepareSheetXML(ws, 0, row)
rowIdx := row - 1
ws.SheetData.Row[rowIdx].Ht = height
ws.SheetData.Row[rowIdx].CustomHeight = true
return nil
}
// getRowHeight provides a function to get row height in pixels by given sheet
// name and row number.
func (f *File) getRowHeight(sheet string, row int) int {
ws, _ := f.workSheetReader(sheet)
ws.Lock()
defer ws.Unlock()
for i := range ws.SheetData.Row {
v := &ws.SheetData.Row[i]
if v.R == row && v.Ht != 0 {
return int(convertRowHeightToPixels(v.Ht))
}
}
// Optimization for when the row heights haven't changed.
return int(defaultRowHeightPixels)
}
// GetRowHeight provides a function to get row height by given worksheet name
// and row number. For example, get the height of the first row in Sheet1:
//
// height, err := f.GetRowHeight("Sheet1", 1)
//
func (f *File) GetRowHeight(sheet string, row int) (float64, error) {
if row < 1 {
return defaultRowHeightPixels, newInvalidRowNumberError(row)
}
ht := defaultRowHeight
ws, err := f.workSheetReader(sheet)
if err != nil {
return ht, err
}
if ws.SheetFormatPr != nil && ws.SheetFormatPr.CustomHeight {
ht = ws.SheetFormatPr.DefaultRowHeight
}
if row > len(ws.SheetData.Row) {
return ht, nil // it will be better to use 0, but we take care with BC
}
for _, v := range ws.SheetData.Row {
if v.R == row && v.Ht != 0 {
return v.Ht, nil
}
}
// Optimization for when the row heights haven't changed.
return ht, nil
}
// sharedStringsReader provides a function to get the pointer to the structure
// after deserialization of xl/sharedStrings.xml.
func (f *File) sharedStringsReader() *xlsxSST {
var err error
f.Lock()
defer f.Unlock()
relPath := f.getWorkbookRelsPath()
if f.SharedStrings == nil {
var sharedStrings xlsxSST
ss := f.readXML(defaultXMLPathSharedStrings)
if err = f.xmlNewDecoder(bytes.NewReader(namespaceStrictToTransitional(ss))).
Decode(&sharedStrings); err != nil && err != io.EOF {
log.Printf("xml decode error: %s", err)
}
if sharedStrings.Count == 0 {
sharedStrings.Count = len(sharedStrings.SI)
}
if sharedStrings.UniqueCount == 0 {
sharedStrings.UniqueCount = sharedStrings.Count
}
f.SharedStrings = &sharedStrings
for i := range sharedStrings.SI {
if sharedStrings.SI[i].T != nil {
f.sharedStringsMap[sharedStrings.SI[i].T.Val] = i
}
}
f.addContentTypePart(0, "sharedStrings")
rels := f.relsReader(relPath)
for _, rel := range rels.Relationships {
if rel.Target == "/xl/sharedStrings.xml" {
return f.SharedStrings
}
}
// Update workbook.xml.rels
f.addRels(relPath, SourceRelationshipSharedStrings, "/xl/sharedStrings.xml", "")
}
return f.SharedStrings
}
// getValueFrom return a value from a column/row cell, this function is
// intended to be used with for range on rows an argument with the spreadsheet
// opened file.
func (c *xlsxC) getValueFrom(f *File, d *xlsxSST, raw bool) (string, error) {
f.Lock()
defer f.Unlock()
switch c.T {
case "b":
if !raw {
if c.V == "1" {
return "TRUE", nil
}
if c.V == "0" {
return "FALSE", nil
}
}
return f.formattedValue(c.S, c.V, raw), nil
case "s":
if c.V != "" {
xlsxSI := 0
xlsxSI, _ = strconv.Atoi(c.V)
if _, ok := f.tempFiles.Load(defaultXMLPathSharedStrings); ok {
return f.formattedValue(c.S, f.getFromStringItem(xlsxSI), raw), nil
}
if len(d.SI) > xlsxSI {
return f.formattedValue(c.S, d.SI[xlsxSI].String(), raw), nil
}
}
return f.formattedValue(c.S, c.V, raw), nil
case "str":
return f.formattedValue(c.S, c.V, raw), nil
case "inlineStr":
if c.IS != nil {
return f.formattedValue(c.S, c.IS.String(), raw), nil
}
return f.formattedValue(c.S, c.V, raw), nil
default:
if isNum, precision := isNumeric(c.V); isNum && !raw {
if precision == 0 {
c.V = roundPrecision(c.V, 15)
} else {
c.V = roundPrecision(c.V, -1)
}
}
return f.formattedValue(c.S, c.V, raw), nil
}
}
// roundPrecision provides a function to format floating-point number text
// with precision, if the given text couldn't be parsed to float, this will
// return the original string.
func roundPrecision(text string, prec int) string {
decimal := big.Float{}
if _, ok := decimal.SetString(text); ok {
flt, _ := decimal.Float64()
if prec == -1 {
return strconv.FormatFloat(flt, 'G', 15, 64)
}
return strconv.FormatFloat(flt, 'f', -1, 64)
}
return text
}
// SetRowVisible provides a function to set visible of a single row by given
// worksheet name and Excel row number. For example, hide row 2 in Sheet1:
//
// err := f.SetRowVisible("Sheet1", 2, false)
//
func (f *File) SetRowVisible(sheet string, row int, visible bool) error {
if row < 1 {
return newInvalidRowNumberError(row)
}
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
prepareSheetXML(ws, 0, row)
ws.SheetData.Row[row-1].Hidden = !visible
return nil
}
// GetRowVisible provides a function to get visible of a single row by given
// worksheet name and Excel row number. For example, get visible state of row
// 2 in Sheet1:
//
// visible, err := f.GetRowVisible("Sheet1", 2)
//
func (f *File) GetRowVisible(sheet string, row int) (bool, error) {
if row < 1 {
return false, newInvalidRowNumberError(row)
}
ws, err := f.workSheetReader(sheet)
if err != nil {
return false, err
}
if row > len(ws.SheetData.Row) {
return false, nil
}
return !ws.SheetData.Row[row-1].Hidden, nil
}
// SetRowOutlineLevel provides a function to set outline level number of a
// single row by given worksheet name and Excel row number. The value of
// parameter 'level' is 1-7. For example, outline row 2 in Sheet1 to level 1:
//
// err := f.SetRowOutlineLevel("Sheet1", 2, 1)
//
func (f *File) SetRowOutlineLevel(sheet string, row int, level uint8) error {
if row < 1 {
return newInvalidRowNumberError(row)
}
if level > 7 || level < 1 {
return ErrOutlineLevel
}
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
prepareSheetXML(ws, 0, row)
ws.SheetData.Row[row-1].OutlineLevel = level
return nil
}
// GetRowOutlineLevel provides a function to get outline level number of a
// single row by given worksheet name and Excel row number. For example, get
// outline number of row 2 in Sheet1:
//
// level, err := f.GetRowOutlineLevel("Sheet1", 2)
//
func (f *File) GetRowOutlineLevel(sheet string, row int) (uint8, error) {
if row < 1 {
return 0, newInvalidRowNumberError(row)
}
ws, err := f.workSheetReader(sheet)
if err != nil {
return 0, err
}
if row > len(ws.SheetData.Row) {
return 0, nil
}
return ws.SheetData.Row[row-1].OutlineLevel, nil
}
// RemoveRow provides a function to remove single row by given worksheet name
// and Excel row number. For example, remove row 3 in Sheet1:
//
// err := f.RemoveRow("Sheet1", 3)
//
// Use this method with caution, which will affect changes in references such
// as formulas, charts, and so on. If there is any referenced value of the
// worksheet, it will cause a file error when you open it. The excelize only
// partially updates these references currently.
func (f *File) RemoveRow(sheet string, row int) error {
if row < 1 {
return newInvalidRowNumberError(row)
}
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
if row > len(ws.SheetData.Row) {
return f.adjustHelper(sheet, rows, row, -1)
}
keep := 0
for rowIdx := 0; rowIdx < len(ws.SheetData.Row); rowIdx++ {
v := &ws.SheetData.Row[rowIdx]
if v.R != row {
ws.SheetData.Row[keep] = *v
keep++
}
}
ws.SheetData.Row = ws.SheetData.Row[:keep]
return f.adjustHelper(sheet, rows, row, -1)
}
// InsertRow provides a function to insert a new row after given Excel row
// number starting from 1. For example, create a new row before row 3 in
// Sheet1:
//
// err := f.InsertRow("Sheet1", 3)
//
// Use this method with caution, which will affect changes in references such
// as formulas, charts, and so on. If there is any referenced value of the
// worksheet, it will cause a file error when you open it. The excelize only
// partially updates these references currently.
func (f *File) InsertRow(sheet string, row int) error {
if row < 1 {
return newInvalidRowNumberError(row)
}
return f.adjustHelper(sheet, rows, row, 1)
}
// DuplicateRow inserts a copy of specified row (by its Excel row number) below
//
// err := f.DuplicateRow("Sheet1", 2)
//
// Use this method with caution, which will affect changes in references such
// as formulas, charts, and so on. If there is any referenced value of the
// worksheet, it will cause a file error when you open it. The excelize only
// partially updates these references currently.
func (f *File) DuplicateRow(sheet string, row int) error {
return f.DuplicateRowTo(sheet, row, row+1)
}
// DuplicateRowTo inserts a copy of specified row by it Excel number
// to specified row position moving down exists rows after target position
//
// err := f.DuplicateRowTo("Sheet1", 2, 7)
//
// Use this method with caution, which will affect changes in references such
// as formulas, charts, and so on. If there is any referenced value of the
// worksheet, it will cause a file error when you open it. The excelize only
// partially updates these references currently.
func (f *File) DuplicateRowTo(sheet string, row, row2 int) error {
if row < 1 {
return newInvalidRowNumberError(row)
}
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
if row2 < 1 || row == row2 {
return nil
}
var ok bool
var rowCopy xlsxRow
for i, r := range ws.SheetData.Row {
if r.R == row {
rowCopy = deepcopy.Copy(ws.SheetData.Row[i]).(xlsxRow)
ok = true
break
}
}
if err := f.adjustHelper(sheet, rows, row2, 1); err != nil {
return err
}
if !ok {
return nil
}
idx2 := -1
for i, r := range ws.SheetData.Row {
if r.R == row2 {
idx2 = i
break
}
}
if idx2 == -1 && len(ws.SheetData.Row) >= row2 {
return nil
}
rowCopy.C = append(make([]xlsxC, 0, len(rowCopy.C)), rowCopy.C...)
f.adjustSingleRowDimensions(&rowCopy, row2)
if idx2 != -1 {
ws.SheetData.Row[idx2] = rowCopy
} else {
ws.SheetData.Row = append(ws.SheetData.Row, rowCopy)
}
return f.duplicateMergeCells(sheet, ws, row, row2)
}
// duplicateMergeCells merge cells in the destination row if there are single
// row merged cells in the copied row.
func (f *File) duplicateMergeCells(sheet string, ws *xlsxWorksheet, row, row2 int) error {
if ws.MergeCells == nil {
return nil
}
if row > row2 {
row++
}
for _, rng := range ws.MergeCells.Cells {
coordinates, err := areaRefToCoordinates(rng.Ref)
if err != nil {
return err
}
if coordinates[1] < row2 && row2 < coordinates[3] {
return nil
}
}
for i := 0; i < len(ws.MergeCells.Cells); i++ {
areaData := ws.MergeCells.Cells[i]
coordinates, _ := areaRefToCoordinates(areaData.Ref)
x1, y1, x2, y2 := coordinates[0], coordinates[1], coordinates[2], coordinates[3]
if y1 == y2 && y1 == row {
from, _ := CoordinatesToCellName(x1, row2)
to, _ := CoordinatesToCellName(x2, row2)
if err := f.MergeCell(sheet, from, to); err != nil {
return err
}
}
}
return nil
}
// checkRow provides a function to check and fill each column element for all
// rows and make that is continuous in a worksheet of XML. For example:
//
// <row r="15" spans="1:22" x14ac:dyDescent="0.2">
// <c r="A15" s="2" />
// <c r="B15" s="2" />
// <c r="F15" s="1" />
// <c r="G15" s="1" />
// </row>
//
// in this case, we should to change it to
//
// <row r="15" spans="1:22" x14ac:dyDescent="0.2">
// <c r="A15" s="2" />
// <c r="B15" s="2" />
// <c r="C15" s="2" />
// <c r="D15" s="2" />
// <c r="E15" s="2" />
// <c r="F15" s="1" />
// <c r="G15" s="1" />
// </row>
//
// Noteice: this method could be very slow for large spreadsheets (more than
// 3000 rows one sheet).
func checkRow(ws *xlsxWorksheet) error {
for rowIdx := range ws.SheetData.Row {
rowData := &ws.SheetData.Row[rowIdx]
colCount := len(rowData.C)
if colCount == 0 {
continue
}
// check and fill the cell without r attribute in a row element
rCount := 0
for idx, cell := range rowData.C {
rCount++
if cell.R != "" {
lastR, _, err := CellNameToCoordinates(cell.R)
if err != nil {
return err
}
if lastR > rCount {
rCount = lastR
}
continue
}
rowData.C[idx].R, _ = CoordinatesToCellName(rCount, rowIdx+1)
}
lastCol, _, err := CellNameToCoordinates(rowData.C[colCount-1].R)
if err != nil {
return err
}
if colCount < lastCol {
oldList := rowData.C
newlist := make([]xlsxC, 0, lastCol)
rowData.C = ws.SheetData.Row[rowIdx].C[:0]
for colIdx := 0; colIdx < lastCol; colIdx++ {
cellName, err := CoordinatesToCellName(colIdx+1, rowIdx+1)
if err != nil {
return err
}
newlist = append(newlist, xlsxC{R: cellName})
}
rowData.C = newlist
for colIdx := range oldList {
colData := &oldList[colIdx]
colNum, _, err := CellNameToCoordinates(colData.R)
if err != nil {
return err
}
ws.SheetData.Row[rowIdx].C[colNum-1] = *colData
}
}
}
return nil
}
// SetRowStyle provides a function to set the style of rows by given worksheet
// name, row range, and style ID. Note that this will overwrite the existing
// styles for the rows, it won't append or merge style with existing styles.
//
// For example set style of row 1 on Sheet1:
//
// err = f.SetRowStyle("Sheet1", 1, 1, styleID)
//
// Set style of rows 1 to 10 on Sheet1:
//
// err = f.SetRowStyle("Sheet1", 1, 10, styleID)
//
func (f *File) SetRowStyle(sheet string, start, end, styleID int) error {
if end < start {
start, end = end, start
}
if start < 1 {
return newInvalidRowNumberError(start)
}
if end > TotalRows {
return ErrMaxRows
}
if styleID < 0 {
return newInvalidStyleID(styleID)
}
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
prepareSheetXML(ws, 0, end)
for row := start - 1; row < end; row++ {
ws.SheetData.Row[row].S = styleID
ws.SheetData.Row[row].CustomFormat = true
}
return nil
}
// convertRowHeightToPixels provides a function to convert the height of a
// cell from user's units to pixels. If the height hasn't been set by the user
// we use the default value. If the row is hidden it has a value of zero.
func convertRowHeightToPixels(height float64) float64 {
var pixels float64
if height == 0 {
return pixels
}
pixels = math.Ceil(4.0 / 3.0 * height)
return pixels
}