excelize/sheet.go

1934 lines
62 KiB
Go

// 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"
"path"
"path/filepath"
"reflect"
"regexp"
"sort"
"strconv"
"strings"
"unicode/utf16"
"unicode/utf8"
"github.com/mohae/deepcopy"
)
// NewSheet provides the function to create a new sheet by given a worksheet
// name and returns the index of the sheets in the workbook after it appended.
// Note that when creating a new workbook, the default worksheet named
// `Sheet1` will be created.
func (f *File) NewSheet(sheet string) (int, error) {
var err error
if err = checkSheetName(sheet); err != nil {
return -1, err
}
// Check if the worksheet already exists
index, err := f.GetSheetIndex(sheet)
if index != -1 {
return index, err
}
_ = f.DeleteSheet(sheet)
f.SheetCount++
wb, _ := f.workbookReader()
sheetID := 0
for _, v := range wb.Sheets.Sheet {
if v.SheetID > sheetID {
sheetID = v.SheetID
}
}
sheetID++
// Update [Content_Types].xml
_ = f.setContentTypes("/xl/worksheets/sheet"+strconv.Itoa(sheetID)+".xml", ContentTypeSpreadSheetMLWorksheet)
// Create new sheet /xl/worksheets/sheet%d.xml
f.setSheet(sheetID, sheet)
// Update workbook.xml.rels
rID := f.addRels(f.getWorkbookRelsPath(), SourceRelationshipWorkSheet, fmt.Sprintf("/xl/worksheets/sheet%d.xml", sheetID), "")
// Update workbook.xml
f.setWorkbook(sheet, sheetID, rID)
return f.GetSheetIndex(sheet)
}
// contentTypesReader provides a function to get the pointer to the
// [Content_Types].xml structure after deserialization.
func (f *File) contentTypesReader() (*xlsxTypes, error) {
if f.ContentTypes == nil {
f.ContentTypes = new(xlsxTypes)
f.ContentTypes.mu.Lock()
defer f.ContentTypes.mu.Unlock()
if err := f.xmlNewDecoder(bytes.NewReader(namespaceStrictToTransitional(f.readXML(defaultXMLPathContentTypes)))).
Decode(f.ContentTypes); err != nil && err != io.EOF {
return f.ContentTypes, err
}
}
return f.ContentTypes, nil
}
// contentTypesWriter provides a function to save [Content_Types].xml after
// serialize structure.
func (f *File) contentTypesWriter() {
if f.ContentTypes != nil {
output, _ := xml.Marshal(f.ContentTypes)
f.saveFileList(defaultXMLPathContentTypes, output)
}
}
// getWorksheetPath construct a target XML as xl/worksheets/sheet%d by split
// path, compatible with different types of relative paths in
// workbook.xml.rels, for example: worksheets/sheet%d.xml
// and /xl/worksheets/sheet%d.xml
func (f *File) getWorksheetPath(relTarget string) (path string) {
path = filepath.ToSlash(strings.TrimPrefix(
strings.ReplaceAll(filepath.Clean(fmt.Sprintf("%s/%s", filepath.Dir(f.getWorkbookPath()), relTarget)), "\\", "/"), "/"))
if strings.HasPrefix(relTarget, "/") {
path = filepath.ToSlash(strings.TrimPrefix(strings.ReplaceAll(filepath.Clean(relTarget), "\\", "/"), "/"))
}
return path
}
// mergeExpandedCols merge expanded columns.
func (f *File) mergeExpandedCols(ws *xlsxWorksheet) {
sort.Slice(ws.Cols.Col, func(i, j int) bool {
return ws.Cols.Col[i].Min < ws.Cols.Col[j].Min
})
var columns []xlsxCol
for i, n := 0, len(ws.Cols.Col); i < n; {
left := i
for i++; i < n && reflect.DeepEqual(
xlsxCol{
BestFit: ws.Cols.Col[i-1].BestFit,
Collapsed: ws.Cols.Col[i-1].Collapsed,
CustomWidth: ws.Cols.Col[i-1].CustomWidth,
Hidden: ws.Cols.Col[i-1].Hidden,
Max: ws.Cols.Col[i-1].Max + 1,
Min: ws.Cols.Col[i-1].Min + 1,
OutlineLevel: ws.Cols.Col[i-1].OutlineLevel,
Phonetic: ws.Cols.Col[i-1].Phonetic,
Style: ws.Cols.Col[i-1].Style,
Width: ws.Cols.Col[i-1].Width,
}, ws.Cols.Col[i]); i++ {
}
column := deepcopy.Copy(ws.Cols.Col[left]).(xlsxCol)
if left < i-1 {
column.Max = ws.Cols.Col[i-1].Min
}
columns = append(columns, column)
}
ws.Cols.Col = columns
}
// workSheetWriter provides a function to save xl/worksheets/sheet%d.xml after
// serialize structure.
func (f *File) workSheetWriter() {
var (
arr []byte
buffer = bytes.NewBuffer(arr)
encoder = xml.NewEncoder(buffer)
)
f.Sheet.Range(func(p, ws interface{}) bool {
if ws != nil {
sheet := ws.(*xlsxWorksheet)
if sheet.MergeCells != nil && len(sheet.MergeCells.Cells) > 0 {
_ = f.mergeOverlapCells(sheet)
}
if sheet.Cols != nil && len(sheet.Cols.Col) > 0 {
f.mergeExpandedCols(sheet)
}
sheet.SheetData.Row = trimRow(&sheet.SheetData)
if sheet.SheetPr != nil || sheet.Drawing != nil || sheet.Hyperlinks != nil || sheet.Picture != nil || sheet.TableParts != nil {
f.addNameSpaces(p.(string), SourceRelationship)
}
if sheet.DecodeAlternateContent != nil {
sheet.AlternateContent = &xlsxAlternateContent{
Content: sheet.DecodeAlternateContent.Content,
XMLNSMC: SourceRelationshipCompatibility.Value,
}
}
sheet.DecodeAlternateContent = nil
// reusing buffer
_ = encoder.Encode(sheet)
f.saveFileList(p.(string), replaceRelationshipsBytes(f.replaceNameSpaceBytes(p.(string), buffer.Bytes())))
ok := f.checked[p.(string)]
if ok {
f.Sheet.Delete(p.(string))
f.checked[p.(string)] = false
}
buffer.Reset()
}
return true
})
}
// trimRow provides a function to trim empty rows.
func trimRow(sheetData *xlsxSheetData) []xlsxRow {
var (
row xlsxRow
rows []xlsxRow
)
for k, v := range sheetData.Row {
row = sheetData.Row[k]
if row.C = trimCell(v.C); len(row.C) != 0 || row.hasAttr() {
rows = append(rows, row)
}
}
return rows
}
// trimCell provides a function to trim blank cells which created by fillColumns.
func trimCell(column []xlsxC) []xlsxC {
rowFull := true
for i := range column {
rowFull = column[i].hasValue() && rowFull
}
if rowFull {
return column
}
col := make([]xlsxC, len(column))
i := 0
for _, c := range column {
if c.hasValue() {
col[i] = c
i++
}
}
return col[:i]
}
// setContentTypes provides a function to read and update property of contents
// type of the spreadsheet.
func (f *File) setContentTypes(partName, contentType string) error {
content, err := f.contentTypesReader()
if err != nil {
return err
}
content.mu.Lock()
defer content.mu.Unlock()
content.Overrides = append(content.Overrides, xlsxOverride{
PartName: partName,
ContentType: contentType,
})
return err
}
// setSheet provides a function to update sheet property by given index.
func (f *File) setSheet(index int, name string) {
ws := xlsxWorksheet{
Dimension: &xlsxDimension{Ref: "A1"},
SheetViews: &xlsxSheetViews{
SheetView: []xlsxSheetView{{WorkbookViewID: 0}},
},
}
sheetXMLPath := "xl/worksheets/sheet" + strconv.Itoa(index) + ".xml"
f.sheetMap[name] = sheetXMLPath
f.Sheet.Store(sheetXMLPath, &ws)
f.xmlAttr[sheetXMLPath] = []xml.Attr{NameSpaceSpreadSheet}
}
// relsWriter provides a function to save relationships after
// serialize structure.
func (f *File) relsWriter() {
f.Relationships.Range(func(path, rel interface{}) bool {
if rel != nil {
output, _ := xml.Marshal(rel.(*xlsxRelationships))
if strings.HasPrefix(path.(string), "xl/worksheets/sheet/rels/sheet") {
output = f.replaceNameSpaceBytes(path.(string), output)
}
f.saveFileList(path.(string), replaceRelationshipsBytes(output))
}
return true
})
}
// replaceRelationshipsBytes; Some tools that read spreadsheet files have very
// strict requirements about the structure of the input XML. This function is
// a horrible hack to fix that after the XML marshalling is completed.
func replaceRelationshipsBytes(content []byte) []byte {
sourceXmlns := []byte(`xmlns:relationships="http://schemas.openxmlformats.org/officeDocument/2006/relationships" relationships`)
targetXmlns := []byte("r")
return bytesReplace(content, sourceXmlns, targetXmlns, -1)
}
// SetActiveSheet provides a function to set the default active sheet of the
// workbook by a given index. Note that the active index is different from the
// ID returned by function GetSheetMap(). It should be greater than or equal to 0
// and less than the total worksheet numbers.
func (f *File) SetActiveSheet(index int) {
if index < 0 {
index = 0
}
wb, _ := f.workbookReader()
for activeTab := range wb.Sheets.Sheet {
if activeTab == index {
if wb.BookViews == nil {
wb.BookViews = &xlsxBookViews{}
}
if len(wb.BookViews.WorkBookView) > 0 {
wb.BookViews.WorkBookView[0].ActiveTab = activeTab
} else {
wb.BookViews.WorkBookView = append(wb.BookViews.WorkBookView, xlsxWorkBookView{
ActiveTab: activeTab,
})
}
}
}
for idx, name := range f.GetSheetList() {
ws, err := f.workSheetReader(name)
if err != nil {
// Chartsheet, macrosheet or dialogsheet
return
}
if ws.SheetViews == nil {
ws.SheetViews = &xlsxSheetViews{
SheetView: []xlsxSheetView{{WorkbookViewID: 0}},
}
}
if len(ws.SheetViews.SheetView) > 0 {
ws.SheetViews.SheetView[0].TabSelected = false
}
if index == idx {
if len(ws.SheetViews.SheetView) > 0 {
ws.SheetViews.SheetView[0].TabSelected = true
} else {
ws.SheetViews.SheetView = append(ws.SheetViews.SheetView, xlsxSheetView{
TabSelected: true,
})
}
}
}
}
// GetActiveSheetIndex provides a function to get active sheet index of the
// spreadsheet. If not found the active sheet will be return integer 0.
func (f *File) GetActiveSheetIndex() (index int) {
sheetID := f.getActiveSheetID()
wb, _ := f.workbookReader()
if wb != nil {
for idx, sheet := range wb.Sheets.Sheet {
if sheet.SheetID == sheetID {
index = idx
return
}
}
}
return
}
// getActiveSheetID provides a function to get active sheet ID of the
// spreadsheet. If not found the active sheet will be return integer 0.
func (f *File) getActiveSheetID() int {
wb, _ := f.workbookReader()
if wb != nil {
if wb.BookViews != nil && len(wb.BookViews.WorkBookView) > 0 {
activeTab := wb.BookViews.WorkBookView[0].ActiveTab
if len(wb.Sheets.Sheet) > activeTab && wb.Sheets.Sheet[activeTab].SheetID != 0 {
return wb.Sheets.Sheet[activeTab].SheetID
}
}
if len(wb.Sheets.Sheet) >= 1 {
return wb.Sheets.Sheet[0].SheetID
}
}
return 0
}
// SetSheetName provides a function to set the worksheet name by given source and
// target worksheet names. Maximum 31 characters are allowed in sheet title and
// this function only changes the name of the sheet and will not update the
// sheet name in the formula or reference associated with the cell. So there
// may be problem formula error or reference missing.
func (f *File) SetSheetName(source, target string) error {
var err error
if err = checkSheetName(source); err != nil {
return err
}
if err = checkSheetName(target); err != nil {
return err
}
if strings.EqualFold(target, source) {
return err
}
wb, _ := f.workbookReader()
for k, v := range wb.Sheets.Sheet {
if v.Name == source {
wb.Sheets.Sheet[k].Name = target
f.sheetMap[target] = f.sheetMap[source]
delete(f.sheetMap, source)
}
}
return err
}
// GetSheetName provides a function to get the sheet name of the workbook by
// the given sheet index. If the given sheet index is invalid, it will return
// an empty string.
func (f *File) GetSheetName(index int) (name string) {
for idx, sheet := range f.GetSheetList() {
if idx == index {
name = sheet
return
}
}
return
}
// getSheetID provides a function to get worksheet ID of the spreadsheet by
// given sheet name. If given worksheet name is invalid, will return an
// integer type value -1.
func (f *File) getSheetID(sheet string) int {
for sheetID, name := range f.GetSheetMap() {
if strings.EqualFold(name, sheet) {
return sheetID
}
}
return -1
}
// GetSheetIndex provides a function to get a sheet index of the workbook by
// the given sheet name. If the given sheet name is invalid or sheet doesn't
// exist, it will return an integer type value -1.
func (f *File) GetSheetIndex(sheet string) (int, error) {
if err := checkSheetName(sheet); err != nil {
return -1, err
}
for index, name := range f.GetSheetList() {
if strings.EqualFold(name, sheet) {
return index, nil
}
}
return -1, nil
}
// GetSheetMap provides a function to get worksheets, chart sheets, dialog
// sheets ID and name map of the workbook. For example:
//
// f, err := excelize.OpenFile("Book1.xlsx")
// if err != nil {
// return
// }
// defer func() {
// if err := f.Close(); err != nil {
// fmt.Println(err)
// }
// }()
// for index, name := range f.GetSheetMap() {
// fmt.Println(index, name)
// }
func (f *File) GetSheetMap() map[int]string {
wb, _ := f.workbookReader()
sheetMap := map[int]string{}
if wb != nil {
for _, sheet := range wb.Sheets.Sheet {
sheetMap[sheet.SheetID] = sheet.Name
}
}
return sheetMap
}
// GetSheetList provides a function to get worksheets, chart sheets, and
// dialog sheets name list of the workbook.
func (f *File) GetSheetList() (list []string) {
wb, _ := f.workbookReader()
if wb != nil {
for _, sheet := range wb.Sheets.Sheet {
list = append(list, sheet.Name)
}
}
return
}
// getSheetMap provides a function to get worksheet name and XML file path map
// of the spreadsheet.
func (f *File) getSheetMap() (map[string]string, error) {
maps := map[string]string{}
wb, err := f.workbookReader()
if err != nil {
return nil, err
}
rels, err := f.relsReader(f.getWorkbookRelsPath())
if err != nil {
return nil, err
}
if rels == nil {
return maps, nil
}
for _, v := range wb.Sheets.Sheet {
for _, rel := range rels.Relationships {
if rel.ID == v.ID {
sheetXMLPath := f.getWorksheetPath(rel.Target)
if _, ok := f.Pkg.Load(sheetXMLPath); ok {
maps[v.Name] = sheetXMLPath
}
if _, ok := f.tempFiles.Load(sheetXMLPath); ok {
maps[v.Name] = sheetXMLPath
}
}
}
}
return maps, nil
}
// getSheetXMLPath provides a function to get XML file path by given sheet
// name.
func (f *File) getSheetXMLPath(sheet string) (string, bool) {
var (
name string
ok bool
)
for sheetName, filePath := range f.sheetMap {
if strings.EqualFold(sheetName, sheet) {
name, ok = filePath, true
break
}
}
return name, ok
}
// SetSheetBackground provides a function to set background picture by given
// worksheet name and file path. Supported image types: BMP, EMF, EMZ, GIF,
// JPEG, JPG, PNG, SVG, TIF, TIFF, WMF, and WMZ.
func (f *File) SetSheetBackground(sheet, picture string) error {
var err error
// Check picture exists first.
if _, err = os.Stat(picture); os.IsNotExist(err) {
return err
}
file, _ := os.ReadFile(filepath.Clean(picture))
return f.setSheetBackground(sheet, path.Ext(picture), file)
}
// SetSheetBackgroundFromBytes provides a function to set background picture by
// given worksheet name, extension name and image data. Supported image types:
// BMP, EMF, EMZ, GIF, JPEG, JPG, PNG, SVG, TIF, TIFF, WMF, and WMZ.
func (f *File) SetSheetBackgroundFromBytes(sheet, extension string, picture []byte) error {
if len(picture) == 0 {
return ErrParameterInvalid
}
return f.setSheetBackground(sheet, extension, picture)
}
// setSheetBackground provides a function to set background picture by given
// worksheet name, file name extension and image data.
func (f *File) setSheetBackground(sheet, extension string, file []byte) error {
imageType, ok := supportedImageTypes[strings.ToLower(extension)]
if !ok {
return ErrImgExt
}
name := f.addMedia(file, imageType)
sheetXMLPath, _ := f.getSheetXMLPath(sheet)
sheetRels := "xl/worksheets/_rels/" + strings.TrimPrefix(sheetXMLPath, "xl/worksheets/") + ".rels"
rID := f.addRels(sheetRels, SourceRelationshipImage, strings.Replace(name, "xl", "..", 1), "")
if err := f.addSheetPicture(sheet, rID); err != nil {
return err
}
f.addSheetNameSpace(sheet, SourceRelationship)
return f.setContentTypePartImageExtensions()
}
// DeleteSheet provides a function to delete worksheet in a workbook by given
// worksheet name. 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 deleted worksheet, it will cause a file error when you open
// it. This function will be invalid when only one worksheet is left.
func (f *File) DeleteSheet(sheet string) error {
if err := checkSheetName(sheet); err != nil {
return err
}
if idx, _ := f.GetSheetIndex(sheet); f.SheetCount == 1 || idx == -1 {
return nil
}
wb, _ := f.workbookReader()
wbRels, _ := f.relsReader(f.getWorkbookRelsPath())
activeSheetName := f.GetSheetName(f.GetActiveSheetIndex())
deleteLocalSheetID, _ := f.GetSheetIndex(sheet)
deleteAndAdjustDefinedNames(wb, deleteLocalSheetID)
for idx, v := range wb.Sheets.Sheet {
if !strings.EqualFold(v.Name, sheet) {
continue
}
wb.Sheets.Sheet = append(wb.Sheets.Sheet[:idx], wb.Sheets.Sheet[idx+1:]...)
var sheetXML, rels string
if wbRels != nil {
for _, rel := range wbRels.Relationships {
if rel.ID == v.ID {
sheetXML = f.getWorksheetPath(rel.Target)
sheetXMLPath, _ := f.getSheetXMLPath(sheet)
rels = "xl/worksheets/_rels/" + strings.TrimPrefix(sheetXMLPath, "xl/worksheets/") + ".rels"
}
}
}
target := f.deleteSheetFromWorkbookRels(v.ID)
_ = f.deleteSheetFromContentTypes(target)
_ = f.deleteCalcChain(f.getSheetID(sheet), "")
delete(f.sheetMap, v.Name)
f.Pkg.Delete(sheetXML)
f.Pkg.Delete(rels)
f.Relationships.Delete(rels)
f.Sheet.Delete(sheetXML)
delete(f.xmlAttr, sheetXML)
f.SheetCount--
}
index, err := f.GetSheetIndex(activeSheetName)
f.SetActiveSheet(index)
return err
}
// deleteAndAdjustDefinedNames delete and adjust defined name in the workbook
// by given worksheet ID.
func deleteAndAdjustDefinedNames(wb *xlsxWorkbook, deleteLocalSheetID int) {
if wb == nil || wb.DefinedNames == nil {
return
}
for idx := 0; idx < len(wb.DefinedNames.DefinedName); idx++ {
dn := wb.DefinedNames.DefinedName[idx]
if dn.LocalSheetID != nil {
localSheetID := *dn.LocalSheetID
if localSheetID == deleteLocalSheetID {
wb.DefinedNames.DefinedName = append(wb.DefinedNames.DefinedName[:idx], wb.DefinedNames.DefinedName[idx+1:]...)
idx--
} else if localSheetID > deleteLocalSheetID {
wb.DefinedNames.DefinedName[idx].LocalSheetID = intPtr(*dn.LocalSheetID - 1)
}
}
}
}
// deleteSheetFromWorkbookRels provides a function to remove worksheet
// relationships by given relationships ID in the file workbook.xml.rels.
func (f *File) deleteSheetFromWorkbookRels(rID string) string {
rels, _ := f.relsReader(f.getWorkbookRelsPath())
rels.mu.Lock()
defer rels.mu.Unlock()
for k, v := range rels.Relationships {
if v.ID == rID {
rels.Relationships = append(rels.Relationships[:k], rels.Relationships[k+1:]...)
return v.Target
}
}
return ""
}
// deleteSheetFromContentTypes provides a function to remove worksheet
// relationships by given target name in the file [Content_Types].xml.
func (f *File) deleteSheetFromContentTypes(target string) error {
if !strings.HasPrefix(target, "/") {
target = "/xl/" + target
}
content, err := f.contentTypesReader()
if err != nil {
return err
}
content.mu.Lock()
defer content.mu.Unlock()
for k, v := range content.Overrides {
if v.PartName == target {
content.Overrides = append(content.Overrides[:k], content.Overrides[k+1:]...)
}
}
return err
}
// CopySheet provides a function to duplicate a worksheet by gave source and
// target worksheet index. Note that currently doesn't support duplicate
// workbooks that contain tables, charts or pictures. For Example:
//
// // Sheet1 already exists...
// index, err := f.NewSheet("Sheet2")
// if err != nil {
// fmt.Println(err)
// return
// }
// err := f.CopySheet(1, index)
func (f *File) CopySheet(from, to int) error {
if from < 0 || to < 0 || from == to || f.GetSheetName(from) == "" || f.GetSheetName(to) == "" {
return ErrSheetIdx
}
return f.copySheet(from, to)
}
// copySheet provides a function to duplicate a worksheet by gave source and
// target worksheet name.
func (f *File) copySheet(from, to int) error {
fromSheet := f.GetSheetName(from)
sheet, err := f.workSheetReader(fromSheet)
if err != nil {
return err
}
worksheet := deepcopy.Copy(sheet).(*xlsxWorksheet)
toSheetID := strconv.Itoa(f.getSheetID(f.GetSheetName(to)))
sheetXMLPath := "xl/worksheets/sheet" + toSheetID + ".xml"
if len(worksheet.SheetViews.SheetView) > 0 {
worksheet.SheetViews.SheetView[0].TabSelected = false
}
worksheet.Drawing = nil
worksheet.TableParts = nil
worksheet.PageSetUp = nil
f.Sheet.Store(sheetXMLPath, worksheet)
toRels := "xl/worksheets/_rels/sheet" + toSheetID + ".xml.rels"
fromRels := "xl/worksheets/_rels/sheet" + strconv.Itoa(f.getSheetID(fromSheet)) + ".xml.rels"
if rels, ok := f.Pkg.Load(fromRels); ok && rels != nil {
f.Pkg.Store(toRels, rels.([]byte))
}
fromSheetXMLPath, _ := f.getSheetXMLPath(fromSheet)
fromSheetAttr := f.xmlAttr[fromSheetXMLPath]
f.xmlAttr[sheetXMLPath] = fromSheetAttr
return err
}
// getSheetState returns sheet visible enumeration by given hidden status.
func getSheetState(visible bool, veryHidden []bool) string {
state := "hidden"
if !visible && len(veryHidden) > 0 && veryHidden[0] {
state = "veryHidden"
}
return state
}
// SetSheetVisible provides a function to set worksheet visible by given
// worksheet name. A workbook must contain at least one visible worksheet. If
// the given worksheet has been activated, this setting will be invalidated.
// The third optional veryHidden parameter only works when visible was false.
//
// For example, hide Sheet1:
//
// err := f.SetSheetVisible("Sheet1", false)
func (f *File) SetSheetVisible(sheet string, visible bool, veryHidden ...bool) error {
if err := checkSheetName(sheet); err != nil {
return err
}
wb, err := f.workbookReader()
if err != nil {
return err
}
if visible {
for k, v := range wb.Sheets.Sheet {
if strings.EqualFold(v.Name, sheet) {
wb.Sheets.Sheet[k].State = ""
}
}
return err
}
count, state := 0, getSheetState(visible, veryHidden)
for _, v := range wb.Sheets.Sheet {
if v.State != state {
count++
}
}
for k, v := range wb.Sheets.Sheet {
ws, err := f.workSheetReader(v.Name)
if err != nil {
return err
}
tabSelected := false
if len(ws.SheetViews.SheetView) > 0 {
tabSelected = ws.SheetViews.SheetView[0].TabSelected
}
if strings.EqualFold(v.Name, sheet) && count > 1 && !tabSelected {
wb.Sheets.Sheet[k].State = state
}
}
return err
}
// setPanes set create freeze panes and split panes by given options.
func (ws *xlsxWorksheet) setPanes(panes *Panes) error {
if panes == nil {
return ErrParameterInvalid
}
p := &xlsxPane{
ActivePane: panes.ActivePane,
TopLeftCell: panes.TopLeftCell,
XSplit: float64(panes.XSplit),
YSplit: float64(panes.YSplit),
}
if panes.Freeze {
p.State = "frozen"
}
if ws.SheetViews == nil {
ws.SheetViews = &xlsxSheetViews{SheetView: []xlsxSheetView{{}}}
}
ws.SheetViews.SheetView[len(ws.SheetViews.SheetView)-1].Pane = p
if !(panes.Freeze) && !(panes.Split) {
if len(ws.SheetViews.SheetView) > 0 {
ws.SheetViews.SheetView[len(ws.SheetViews.SheetView)-1].Pane = nil
}
}
var s []*xlsxSelection
for _, p := range panes.Panes {
s = append(s, &xlsxSelection{
ActiveCell: p.ActiveCell,
Pane: p.Pane,
SQRef: p.SQRef,
})
}
ws.SheetViews.SheetView[len(ws.SheetViews.SheetView)-1].Selection = s
return nil
}
// SetPanes provides a function to create and remove freeze panes and split panes
// by given worksheet name and panes options.
//
// ActivePane defines the pane that is active. The possible values for this
// attribute are defined in the following table:
//
// Enumeration Value | Description
// ---------------------------------+-------------------------------------------------------------
// bottomLeft (Bottom Left Pane) | Bottom left pane, when both vertical and horizontal
// | splits are applied.
// |
// | This value is also used when only a horizontal split has
// | been applied, dividing the pane into upper and lower
// | regions. In that case, this value specifies the bottom
// | pane.
// |
// bottomRight (Bottom Right Pane) | Bottom right pane, when both vertical and horizontal
// | splits are applied.
// |
// topLeft (Top Left Pane) | Top left pane, when both vertical and horizontal splits
// | are applied.
// |
// | This value is also used when only a horizontal split has
// | been applied, dividing the pane into upper and lower
// | regions. In that case, this value specifies the top pane.
// |
// | This value is also used when only a vertical split has
// | been applied, dividing the pane into right and left
// | regions. In that case, this value specifies the left pane
// |
// topRight (Top Right Pane) | Top right pane, when both vertical and horizontal
// | splits are applied.
// |
// | This value is also used when only a vertical split has
// | been applied, dividing the pane into right and left
// | regions. In that case, this value specifies the right
// | pane.
//
// Pane state type is restricted to the values supported currently listed in the following table:
//
// Enumeration Value | Description
// ---------------------------------+-------------------------------------------------------------
// frozen (Frozen) | Panes are frozen, but were not split being frozen. In
// | this state, when the panes are unfrozen again, a single
// | pane results, with no split.
// |
// | In this state, the split bars are not adjustable.
// |
// split (Split) | Panes are split, but not frozen. In this state, the split
// | bars are adjustable by the user.
//
// XSplit (Horizontal Split Position): Horizontal position of the split, in
// 1/20th of a point; 0 (zero) if none. If the pane is frozen, this value
// indicates the number of columns visible in the top pane.
//
// YSplit (Vertical Split Position): Vertical position of the split, in 1/20th
// of a point; 0 (zero) if none. If the pane is frozen, this value indicates the
// number of rows visible in the left pane. The possible values for this
// attribute are defined by the W3C XML Schema double datatype.
//
// TopLeftCell: Location of the top left visible cell in the bottom right pane
// (when in Left-To-Right mode).
//
// SQRef (Sequence of References): Range of the selection. Can be non-contiguous
// set of ranges.
//
// An example of how to freeze column A in the Sheet1 and set the active cell on
// Sheet1!K16:
//
// err := f.SetPanes("Sheet1", &excelize.Panes{
// Freeze: true,
// Split: false,
// XSplit: 1,
// YSplit: 0,
// TopLeftCell: "B1",
// ActivePane: "topRight",
// Panes: []excelize.PaneOptions{
// {SQRef: "K16", ActiveCell: "K16", Pane: "topRight"},
// },
// })
//
// An example of how to freeze rows 1 to 9 in the Sheet1 and set the active cell
// ranges on Sheet1!A11:XFD11:
//
// err := f.SetPanes("Sheet1", &excelize.Panes{
// Freeze: true,
// Split: false,
// XSplit: 0,
// YSplit: 9,
// TopLeftCell: "A34",
// ActivePane: "bottomLeft",
// Panes: []excelize.PaneOptions{
// {SQRef: "A11:XFD11", ActiveCell: "A11", Pane: "bottomLeft"},
// },
// })
//
// An example of how to create split panes in the Sheet1 and set the active cell
// on Sheet1!J60:
//
// err := f.SetPanes("Sheet1", &excelize.Panes{
// Freeze: false,
// Split: true,
// XSplit: 3270,
// YSplit: 1800,
// TopLeftCell: "N57",
// ActivePane: "bottomLeft",
// Panes: []excelize.PaneOptions{
// {SQRef: "I36", ActiveCell: "I36"},
// {SQRef: "G33", ActiveCell: "G33", Pane: "topRight"},
// {SQRef: "J60", ActiveCell: "J60", Pane: "bottomLeft"},
// {SQRef: "O60", ActiveCell: "O60", Pane: "bottomRight"},
// },
// })
//
// An example of how to unfreeze and remove all panes on Sheet1:
//
// err := f.SetPanes("Sheet1", &excelize.Panes{Freeze: false, Split: false})
func (f *File) SetPanes(sheet string, panes *Panes) error {
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
return ws.setPanes(panes)
}
// GetSheetVisible provides a function to get worksheet visible by given worksheet
// name. For example, get visible state of Sheet1:
//
// visible, err := f.GetSheetVisible("Sheet1")
func (f *File) GetSheetVisible(sheet string) (bool, error) {
var visible bool
if err := checkSheetName(sheet); err != nil {
return visible, err
}
wb, _ := f.workbookReader()
for k, v := range wb.Sheets.Sheet {
if strings.EqualFold(v.Name, sheet) {
if wb.Sheets.Sheet[k].State == "" || wb.Sheets.Sheet[k].State == "visible" {
visible = true
}
}
}
return visible, nil
}
// SearchSheet provides a function to get cell reference by given worksheet name,
// cell value, and regular expression. The function doesn't support searching
// on the calculated result, formatted numbers and conditional lookup
// currently. If it is a merged cell, it will return the cell reference of the
// upper left cell of the merged range reference.
//
// An example of search the cell reference of the value of "100" on Sheet1:
//
// result, err := f.SearchSheet("Sheet1", "100")
//
// An example of search the cell reference where the numerical value in the range
// of "0-9" of Sheet1 is described:
//
// result, err := f.SearchSheet("Sheet1", "[0-9]", true)
func (f *File) SearchSheet(sheet, value string, reg ...bool) ([]string, error) {
var (
regSearch bool
result []string
)
if err := checkSheetName(sheet); err != nil {
return result, err
}
for _, r := range reg {
regSearch = r
}
name, ok := f.getSheetXMLPath(sheet)
if !ok {
return result, ErrSheetNotExist{sheet}
}
if ws, ok := f.Sheet.Load(name); ok && ws != nil {
// Flush data
output, _ := xml.Marshal(ws.(*xlsxWorksheet))
f.saveFileList(name, f.replaceNameSpaceBytes(name, output))
}
return f.searchSheet(name, value, regSearch)
}
// searchSheet provides a function to get cell reference by given worksheet
// name, cell value, and regular expression.
func (f *File) searchSheet(name, value string, regSearch bool) (result []string, err error) {
var (
cellName, inElement string
cellCol, row int
sst *xlsxSST
)
if sst, err = f.sharedStringsReader(); err != nil {
return
}
regex := regexp.MustCompile(value)
decoder := f.xmlNewDecoder(bytes.NewReader(f.readBytes(name)))
for {
var token xml.Token
token, err = decoder.Token()
if err != nil || token == nil {
if err == io.EOF {
err = nil
}
break
}
switch xmlElement := token.(type) {
case xml.StartElement:
inElement = xmlElement.Name.Local
if inElement == "row" {
row, err = attrValToInt("r", xmlElement.Attr)
if err != nil {
return
}
}
if inElement == "c" {
colCell := xlsxC{}
_ = decoder.DecodeElement(&colCell, &xmlElement)
val, _ := colCell.getValueFrom(f, sst, false)
if regSearch {
if !regex.MatchString(val) {
continue
}
} else {
if val != value {
continue
}
}
cellCol, _, err = CellNameToCoordinates(colCell.R)
if err != nil {
return result, err
}
cellName, err = CoordinatesToCellName(cellCol, row)
if err != nil {
return result, err
}
result = append(result, cellName)
}
default:
}
}
return
}
// attrValToInt provides a function to convert the local names to an integer
// by given XML attributes and specified names.
func attrValToInt(name string, attrs []xml.Attr) (val int, err error) {
for _, attr := range attrs {
if attr.Name.Local == name {
val, err = strconv.Atoi(attr.Value)
if err != nil {
return
}
}
}
return
}
// attrValToFloat provides a function to convert the local names to a float64
// by given XML attributes and specified names.
func attrValToFloat(name string, attrs []xml.Attr) (val float64, err error) {
for _, attr := range attrs {
if attr.Name.Local == name {
val, err = strconv.ParseFloat(attr.Value, 64)
if err != nil {
return
}
}
}
return
}
// attrValToBool provides a function to convert the local names to a boolean
// by given XML attributes and specified names.
func attrValToBool(name string, attrs []xml.Attr) (val bool, err error) {
for _, attr := range attrs {
if attr.Name.Local == name {
val, err = strconv.ParseBool(attr.Value)
if err != nil {
return
}
}
}
return
}
// SetHeaderFooter provides a function to set headers and footers by given
// worksheet name and the control characters.
//
// Headers and footers are specified using the following settings fields:
//
// Fields | Description
// ------------------+-----------------------------------------------------------
// AlignWithMargins | Align header footer margins with page margins
// DifferentFirst | Different first-page header and footer indicator
// DifferentOddEven | Different odd and even page headers and footers indicator
// ScaleWithDoc | Scale header and footer with document scaling
// OddFooter | Odd Page Footer
// OddHeader | Odd Header
// EvenFooter | Even Page Footer
// EvenHeader | Even Page Header
// FirstFooter | First Page Footer
// FirstHeader | First Page Header
//
// The following formatting codes can be used in 6 string type fields:
// OddHeader, OddFooter, EvenHeader, EvenFooter, FirstFooter, FirstHeader
//
// Formatting Code | Description
// ------------------------+-------------------------------------------------------------------------
// && | The character "&"
// |
// &font-size | Size of the text font, where font-size is a decimal font size in points
// |
// &"font name,font type" | A text font-name string, font name, and a text font-type string,
// | font type
// |
// &"-,Regular" | Regular text format. Toggles bold and italic modes to off
// |
// &A | Current worksheet's tab name
// |
// &B or &"-,Bold" | Bold text format, from off to on, or vice versa. The default mode is off
// |
// &D | Current date
// |
// &C | Center section
// |
// &E | Double-underline text format
// |
// &F | Current workbook's file name
// |
// &G | Drawing object as background (Not support currently)
// |
// &H | Shadow text format
// |
// &I or &"-,Italic" | Italic text format
// |
// &K | Text font color
// |
// | An RGB Color is specified as RRGGBB
// |
// | A Theme Color is specified as TTSNNN where TT is the theme color Id,
// | S is either "+" or "-" of the tint/shade value, and NNN is the
// | tint/shade value
// |
// &L | Left section
// |
// &N | Total number of pages
// |
// &O | Outline text format
// |
// &P[[+|-]n] | Without the optional suffix, the current page number in decimal
// |
// &R | Right section
// |
// &S | Strike through text format
// |
// &T | Current time
// |
// &U | Single-underline text format. If double-underline mode is on, the next
// | occurrence in a section specifier toggles double-underline mode to off;
// | otherwise, it toggles single-underline mode, from off to on, or vice
// | versa. The default mode is off
// |
// &X | Superscript text format
// |
// &Y | Subscript text format
// |
// &Z | Current workbook's file path
//
// For example:
//
// err := f.SetHeaderFooter("Sheet1", &excelize.HeaderFooterOptions{
// DifferentFirst: true,
// DifferentOddEven: true,
// OddHeader: "&R&P",
// OddFooter: "&C&F",
// EvenHeader: "&L&P",
// EvenFooter: "&L&D&R&T",
// FirstHeader: `&CCenter &"-,Bold"Bold&"-,Regular"HeaderU+000A&D`,
// })
//
// This example shows:
//
// - The first page has its own header and footer
//
// - Odd and even-numbered pages have different headers and footers
//
// - Current page number in the right section of odd-page headers
//
// - Current workbook's file name in the center section of odd-page footers
//
// - Current page number in the left section of even-page headers
//
// - Current date in the left section and the current time in the right section
// of even-page footers
//
// - The text "Center Bold Header" on the first line of the center section of
// the first page, and the date on the second line of the center section of
// that same page
//
// - No footer on the first page
func (f *File) SetHeaderFooter(sheet string, opts *HeaderFooterOptions) error {
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
if opts == nil {
ws.HeaderFooter = nil
return err
}
v := reflect.ValueOf(*opts)
// Check 6 string type fields: OddHeader, OddFooter, EvenHeader, EvenFooter,
// FirstFooter, FirstHeader
for i := 4; i < v.NumField()-1; i++ {
if len(utf16.Encode([]rune(v.Field(i).String()))) > MaxFieldLength {
return newFieldLengthError(v.Type().Field(i).Name)
}
}
ws.HeaderFooter = &xlsxHeaderFooter{
AlignWithMargins: opts.AlignWithMargins,
DifferentFirst: opts.DifferentFirst,
DifferentOddEven: opts.DifferentOddEven,
ScaleWithDoc: opts.ScaleWithDoc,
OddHeader: opts.OddHeader,
OddFooter: opts.OddFooter,
EvenHeader: opts.EvenHeader,
EvenFooter: opts.EvenFooter,
FirstFooter: opts.FirstFooter,
FirstHeader: opts.FirstHeader,
}
return err
}
// ProtectSheet provides a function to prevent other users from accidentally or
// deliberately changing, moving, or deleting data in a worksheet. The
// optional field AlgorithmName specified hash algorithm, support XOR, MD4,
// MD5, SHA-1, SHA2-56, SHA-384, and SHA-512 currently, if no hash algorithm
// specified, will be using the XOR algorithm as default. For example, protect
// Sheet1 with protection settings:
//
// err := f.ProtectSheet("Sheet1", &excelize.SheetProtectionOptions{
// AlgorithmName: "SHA-512",
// Password: "password",
// SelectLockedCells: true,
// SelectUnlockedCells: true,
// EditScenarios: true,
// })
func (f *File) ProtectSheet(sheet string, opts *SheetProtectionOptions) error {
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
if opts == nil {
return ErrParameterInvalid
}
ws.SheetProtection = &xlsxSheetProtection{
AutoFilter: !opts.AutoFilter,
DeleteColumns: !opts.DeleteColumns,
DeleteRows: !opts.DeleteRows,
FormatCells: !opts.FormatCells,
FormatColumns: !opts.FormatColumns,
FormatRows: !opts.FormatRows,
InsertColumns: !opts.InsertColumns,
InsertHyperlinks: !opts.InsertHyperlinks,
InsertRows: !opts.InsertRows,
Objects: !opts.EditObjects,
PivotTables: !opts.PivotTables,
Scenarios: !opts.EditScenarios,
SelectLockedCells: !opts.SelectLockedCells,
SelectUnlockedCells: !opts.SelectUnlockedCells,
Sheet: true,
Sort: !opts.Sort,
}
if opts.Password != "" {
if opts.AlgorithmName == "" {
ws.SheetProtection.Password = genSheetPasswd(opts.Password)
return err
}
hashValue, saltValue, err := genISOPasswdHash(opts.Password, opts.AlgorithmName, "", int(sheetProtectionSpinCount))
if err != nil {
return err
}
ws.SheetProtection.Password = ""
ws.SheetProtection.AlgorithmName = opts.AlgorithmName
ws.SheetProtection.SaltValue = saltValue
ws.SheetProtection.HashValue = hashValue
ws.SheetProtection.SpinCount = int(sheetProtectionSpinCount)
}
return err
}
// UnprotectSheet provides a function to remove protection for a sheet,
// specified the second optional password parameter to remove sheet
// protection with password verification.
func (f *File) UnprotectSheet(sheet string, password ...string) error {
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
// password verification
if len(password) > 0 {
if ws.SheetProtection == nil {
return ErrUnprotectSheet
}
if ws.SheetProtection.AlgorithmName == "" && ws.SheetProtection.Password != genSheetPasswd(password[0]) {
return ErrUnprotectSheetPassword
}
if ws.SheetProtection.AlgorithmName != "" {
// check with given salt value
hashValue, _, err := genISOPasswdHash(password[0], ws.SheetProtection.AlgorithmName, ws.SheetProtection.SaltValue, ws.SheetProtection.SpinCount)
if err != nil {
return err
}
if ws.SheetProtection.HashValue != hashValue {
return ErrUnprotectSheetPassword
}
}
}
ws.SheetProtection = nil
return err
}
// checkSheetName check whether there are illegal characters in the sheet name.
// 1. Confirm that the sheet name is not empty
// 2. Make sure to enter a name with no more than 31 characters
// 3. Make sure the first or last character of the name cannot be a single quote
// 4. Verify that the following characters are not included in the name :\/?*[]
func checkSheetName(name string) error {
if name == "" {
return ErrSheetNameBlank
}
if utf8.RuneCountInString(name) > MaxSheetNameLength {
return ErrSheetNameLength
}
if strings.HasPrefix(name, "'") || strings.HasSuffix(name, "'") {
return ErrSheetNameSingleQuote
}
if strings.ContainsAny(name, ":\\/?*[]") {
return ErrSheetNameInvalid
}
return nil
}
// SetPageLayout provides a function to sets worksheet page layout.
//
// The following shows the paper size sorted by excelize index number:
//
// Index | Paper Size
// -------+-----------------------------------------------
// 1 | Letter paper (8.5 in. by 11 in.)
// 2 | Letter small paper (8.5 in. by 11 in.)
// 3 | Tabloid paper (11 in. by 17 in.)
// 4 | Ledger paper (17 in. by 11 in.)
// 5 | Legal paper (8.5 in. by 14 in.)
// 6 | Statement paper (5.5 in. by 8.5 in.)
// 7 | Executive paper (7.25 in. by 10.5 in.)
// 8 | A3 paper (297 mm by 420 mm)
// 9 | A4 paper (210 mm by 297 mm)
// 10 | A4 small paper (210 mm by 297 mm)
// 11 | A5 paper (148 mm by 210 mm)
// 12 | B4 paper (250 mm by 353 mm)
// 13 | B5 paper (176 mm by 250 mm)
// 14 | Folio paper (8.5 in. by 13 in.)
// 15 | Quarto paper (215 mm by 275 mm)
// 16 | Standard paper (10 in. by 14 in.)
// 17 | Standard paper (11 in. by 17 in.)
// 18 | Note paper (8.5 in. by 11 in.)
// 19 | #9 envelope (3.875 in. by 8.875 in.)
// 20 | #10 envelope (4.125 in. by 9.5 in.)
// 21 | #11 envelope (4.5 in. by 10.375 in.)
// 22 | #12 envelope (4.75 in. by 11 in.)
// 23 | #14 envelope (5 in. by 11.5 in.)
// 24 | C paper (17 in. by 22 in.)
// 25 | D paper (22 in. by 34 in.)
// 26 | E paper (34 in. by 44 in.)
// 27 | DL envelope (110 mm by 220 mm)
// 28 | C5 envelope (162 mm by 229 mm)
// 29 | C3 envelope (324 mm by 458 mm)
// 30 | C4 envelope (229 mm by 324 mm)
// 31 | C6 envelope (114 mm by 162 mm)
// 32 | C65 envelope (114 mm by 229 mm)
// 33 | B4 envelope (250 mm by 353 mm)
// 34 | B5 envelope (176 mm by 250 mm)
// 35 | B6 envelope (176 mm by 125 mm)
// 36 | Italy envelope (110 mm by 230 mm)
// 37 | Monarch envelope (3.875 in. by 7.5 in.).
// 38 | 6 3/4 envelope (3.625 in. by 6.5 in.)
// 39 | US standard fanfold (14.875 in. by 11 in.)
// 40 | German standard fanfold (8.5 in. by 12 in.)
// 41 | German legal fanfold (8.5 in. by 13 in.)
// 42 | ISO B4 (250 mm by 353 mm)
// 43 | Japanese postcard (100 mm by 148 mm)
// 44 | Standard paper (9 in. by 11 in.)
// 45 | Standard paper (10 in. by 11 in.)
// 46 | Standard paper (15 in. by 11 in.)
// 47 | Invite envelope (220 mm by 220 mm)
// 50 | Letter extra paper (9.275 in. by 12 in.)
// 51 | Legal extra paper (9.275 in. by 15 in.)
// 52 | Tabloid extra paper (11.69 in. by 18 in.)
// 53 | A4 extra paper (236 mm by 322 mm)
// 54 | Letter transverse paper (8.275 in. by 11 in.)
// 55 | A4 transverse paper (210 mm by 297 mm)
// 56 | Letter extra transverse paper (9.275 in. by 12 in.)
// 57 | SuperA/SuperA/A4 paper (227 mm by 356 mm)
// 58 | SuperB/SuperB/A3 paper (305 mm by 487 mm)
// 59 | Letter plus paper (8.5 in. by 12.69 in.)
// 60 | A4 plus paper (210 mm by 330 mm)
// 61 | A5 transverse paper (148 mm by 210 mm)
// 62 | JIS B5 transverse paper (182 mm by 257 mm)
// 63 | A3 extra paper (322 mm by 445 mm)
// 64 | A5 extra paper (174 mm by 235 mm)
// 65 | ISO B5 extra paper (201 mm by 276 mm)
// 66 | A2 paper (420 mm by 594 mm)
// 67 | A3 transverse paper (297 mm by 420 mm)
// 68 | A3 extra transverse paper (322 mm by 445 mm)
// 69 | Japanese Double Postcard (200 mm x 148 mm)
// 70 | A6 (105 mm x 148 mm)
// 71 | Japanese Envelope Kaku #2
// 72 | Japanese Envelope Kaku #3
// 73 | Japanese Envelope Chou #3
// 74 | Japanese Envelope Chou #4
// 75 | Letter Rotated (11in x 8 1/2 11 in)
// 76 | A3 Rotated (420 mm x 297 mm)
// 77 | A4 Rotated (297 mm x 210 mm)
// 78 | A5 Rotated (210 mm x 148 mm)
// 79 | B4 (JIS) Rotated (364 mm x 257 mm)
// 80 | B5 (JIS) Rotated (257 mm x 182 mm)
// 81 | Japanese Postcard Rotated (148 mm x 100 mm)
// 82 | Double Japanese Postcard Rotated (148 mm x 200 mm)
// 83 | A6 Rotated (148 mm x 105 mm)
// 84 | Japanese Envelope Kaku #2 Rotated
// 85 | Japanese Envelope Kaku #3 Rotated
// 86 | Japanese Envelope Chou #3 Rotated
// 87 | Japanese Envelope Chou #4 Rotated
// 88 | B6 (JIS) (128 mm x 182 mm)
// 89 | B6 (JIS) Rotated (182 mm x 128 mm)
// 90 | (12 in x 11 in)
// 91 | Japanese Envelope You #4
// 92 | Japanese Envelope You #4 Rotated
// 93 | PRC 16K (146 mm x 215 mm)
// 94 | PRC 32K (97 mm x 151 mm)
// 95 | PRC 32K(Big) (97 mm x 151 mm)
// 96 | PRC Envelope #1 (102 mm x 165 mm)
// 97 | PRC Envelope #2 (102 mm x 176 mm)
// 98 | PRC Envelope #3 (125 mm x 176 mm)
// 99 | PRC Envelope #4 (110 mm x 208 mm)
// 100 | PRC Envelope #5 (110 mm x 220 mm)
// 101 | PRC Envelope #6 (120 mm x 230 mm)
// 102 | PRC Envelope #7 (160 mm x 230 mm)
// 103 | PRC Envelope #8 (120 mm x 309 mm)
// 104 | PRC Envelope #9 (229 mm x 324 mm)
// 105 | PRC Envelope #10 (324 mm x 458 mm)
// 106 | PRC 16K Rotated
// 107 | PRC 32K Rotated
// 108 | PRC 32K(Big) Rotated
// 109 | PRC Envelope #1 Rotated (165 mm x 102 mm)
// 110 | PRC Envelope #2 Rotated (176 mm x 102 mm)
// 111 | PRC Envelope #3 Rotated (176 mm x 125 mm)
// 112 | PRC Envelope #4 Rotated (208 mm x 110 mm)
// 113 | PRC Envelope #5 Rotated (220 mm x 110 mm)
// 114 | PRC Envelope #6 Rotated (230 mm x 120 mm)
// 115 | PRC Envelope #7 Rotated (230 mm x 160 mm)
// 116 | PRC Envelope #8 Rotated (309 mm x 120 mm)
// 117 | PRC Envelope #9 Rotated (324 mm x 229 mm)
// 118 | PRC Envelope #10 Rotated (458 mm x 324 mm)
func (f *File) SetPageLayout(sheet string, opts *PageLayoutOptions) error {
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
if opts == nil {
return err
}
ws.setPageSetUp(opts)
return err
}
// newPageSetUp initialize page setup settings for the worksheet if which not
// exist.
func (ws *xlsxWorksheet) newPageSetUp() {
if ws.PageSetUp == nil {
ws.PageSetUp = new(xlsxPageSetUp)
}
}
// setPageSetUp set page setup settings for the worksheet by given options.
func (ws *xlsxWorksheet) setPageSetUp(opts *PageLayoutOptions) {
if opts.Size != nil {
ws.newPageSetUp()
ws.PageSetUp.PaperSize = opts.Size
}
if opts.Orientation != nil && (*opts.Orientation == "portrait" || *opts.Orientation == "landscape") {
ws.newPageSetUp()
ws.PageSetUp.Orientation = *opts.Orientation
}
if opts.FirstPageNumber != nil && *opts.FirstPageNumber > 0 {
ws.newPageSetUp()
ws.PageSetUp.FirstPageNumber = strconv.Itoa(int(*opts.FirstPageNumber))
ws.PageSetUp.UseFirstPageNumber = true
}
if opts.AdjustTo != nil && 10 <= *opts.AdjustTo && *opts.AdjustTo <= 400 {
ws.newPageSetUp()
ws.PageSetUp.Scale = int(*opts.AdjustTo)
}
if opts.FitToHeight != nil {
ws.newPageSetUp()
ws.PageSetUp.FitToHeight = opts.FitToHeight
}
if opts.FitToWidth != nil {
ws.newPageSetUp()
ws.PageSetUp.FitToWidth = opts.FitToWidth
}
if opts.BlackAndWhite != nil {
ws.newPageSetUp()
ws.PageSetUp.BlackAndWhite = *opts.BlackAndWhite
}
}
// GetPageLayout provides a function to gets worksheet page layout.
func (f *File) GetPageLayout(sheet string) (PageLayoutOptions, error) {
opts := PageLayoutOptions{
Size: intPtr(0),
Orientation: stringPtr("portrait"),
FirstPageNumber: uintPtr(1),
AdjustTo: uintPtr(100),
}
ws, err := f.workSheetReader(sheet)
if err != nil {
return opts, err
}
if ws.PageSetUp != nil {
if ws.PageSetUp.PaperSize != nil {
opts.Size = ws.PageSetUp.PaperSize
}
if ws.PageSetUp.Orientation != "" {
opts.Orientation = stringPtr(ws.PageSetUp.Orientation)
}
if num, _ := strconv.Atoi(ws.PageSetUp.FirstPageNumber); num != 0 {
opts.FirstPageNumber = uintPtr(uint(num))
}
if ws.PageSetUp.Scale >= 10 && ws.PageSetUp.Scale <= 400 {
opts.AdjustTo = uintPtr(uint(ws.PageSetUp.Scale))
}
if ws.PageSetUp.FitToHeight != nil {
opts.FitToHeight = ws.PageSetUp.FitToHeight
}
if ws.PageSetUp.FitToWidth != nil {
opts.FitToWidth = ws.PageSetUp.FitToWidth
}
opts.BlackAndWhite = boolPtr(ws.PageSetUp.BlackAndWhite)
}
return opts, err
}
// SetDefinedName provides a function to set the defined names of the workbook
// or worksheet. If not specified scope, the default scope is workbook.
// For example:
//
// err := f.SetDefinedName(&excelize.DefinedName{
// Name: "Amount",
// RefersTo: "Sheet1!$A$2:$D$5",
// Comment: "defined name comment",
// Scope: "Sheet2",
// })
func (f *File) SetDefinedName(definedName *DefinedName) error {
if definedName.Name == "" || definedName.RefersTo == "" {
return ErrParameterInvalid
}
if err := checkDefinedName(definedName.Name); err != nil {
return err
}
wb, err := f.workbookReader()
if err != nil {
return err
}
d := xlsxDefinedName{
Name: definedName.Name,
Comment: definedName.Comment,
Data: definedName.RefersTo,
}
if definedName.Scope != "" {
if sheetIndex, _ := f.GetSheetIndex(definedName.Scope); sheetIndex >= 0 {
d.LocalSheetID = &sheetIndex
}
}
if wb.DefinedNames != nil {
for _, dn := range wb.DefinedNames.DefinedName {
var scope string
if dn.LocalSheetID != nil {
scope = f.GetSheetName(*dn.LocalSheetID)
}
if scope == definedName.Scope && dn.Name == definedName.Name {
return ErrDefinedNameDuplicate
}
}
wb.DefinedNames.DefinedName = append(wb.DefinedNames.DefinedName, d)
return nil
}
wb.DefinedNames = &xlsxDefinedNames{
DefinedName: []xlsxDefinedName{d},
}
return nil
}
// DeleteDefinedName provides a function to delete the defined names of the
// workbook or worksheet. If not specified scope, the default scope is
// workbook. For example:
//
// err := f.DeleteDefinedName(&excelize.DefinedName{
// Name: "Amount",
// Scope: "Sheet2",
// })
func (f *File) DeleteDefinedName(definedName *DefinedName) error {
wb, err := f.workbookReader()
if err != nil {
return err
}
if wb.DefinedNames != nil {
for idx, dn := range wb.DefinedNames.DefinedName {
scope := "Workbook"
deleteScope := definedName.Scope
if deleteScope == "" {
deleteScope = "Workbook"
}
if dn.LocalSheetID != nil {
scope = f.GetSheetName(*dn.LocalSheetID)
}
if scope == deleteScope && dn.Name == definedName.Name {
wb.DefinedNames.DefinedName = append(wb.DefinedNames.DefinedName[:idx], wb.DefinedNames.DefinedName[idx+1:]...)
return err
}
}
}
return ErrDefinedNameScope
}
// GetDefinedName provides a function to get the defined names of the workbook
// or worksheet.
func (f *File) GetDefinedName() []DefinedName {
var definedNames []DefinedName
wb, _ := f.workbookReader()
if wb.DefinedNames != nil {
for _, dn := range wb.DefinedNames.DefinedName {
definedName := DefinedName{
Name: dn.Name,
Comment: dn.Comment,
RefersTo: dn.Data,
Scope: "Workbook",
}
if dn.LocalSheetID != nil && *dn.LocalSheetID >= 0 {
definedName.Scope = f.GetSheetName(*dn.LocalSheetID)
}
definedNames = append(definedNames, definedName)
}
}
return definedNames
}
// GroupSheets provides a function to group worksheets by given worksheets
// name. Group worksheets must contain an active worksheet.
func (f *File) GroupSheets(sheets []string) error {
// Check an active worksheet in group worksheets
var inActiveSheet bool
activeSheet := f.GetActiveSheetIndex()
sheetMap := f.GetSheetList()
for idx, sheetName := range sheetMap {
for _, s := range sheets {
if strings.EqualFold(s, sheetName) && idx == activeSheet {
inActiveSheet = true
}
}
}
if !inActiveSheet {
return ErrGroupSheets
}
// check worksheet exists
var wss []*xlsxWorksheet
for _, sheet := range sheets {
worksheet, err := f.workSheetReader(sheet)
if err != nil {
return err
}
wss = append(wss, worksheet)
}
for _, ws := range wss {
sheetViews := ws.SheetViews.SheetView
if len(sheetViews) > 0 {
for idx := range sheetViews {
ws.SheetViews.SheetView[idx].TabSelected = true
}
continue
}
}
return nil
}
// UngroupSheets provides a function to ungroup worksheets.
func (f *File) UngroupSheets() error {
activeSheet := f.GetActiveSheetIndex()
for index, sheet := range f.GetSheetList() {
if activeSheet == index {
continue
}
ws, _ := f.workSheetReader(sheet)
sheetViews := ws.SheetViews.SheetView
if len(sheetViews) > 0 {
for idx := range sheetViews {
ws.SheetViews.SheetView[idx].TabSelected = false
}
}
}
return nil
}
// InsertPageBreak create a page break to determine where the printed page
// ends and where begins the next one by given worksheet name and cell
// reference, so the content before the page break will be printed on one page
// and after the page break on another.
func (f *File) InsertPageBreak(sheet, cell string) error {
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
return ws.insertPageBreak(cell)
}
// insertPageBreak create a page break in the worksheet by specific cell
// reference.
func (ws *xlsxWorksheet) insertPageBreak(cell string) error {
var (
row, col int
err error
rowBrk, colBrk = -1, -1
)
if col, row, err = CellNameToCoordinates(cell); err != nil {
return err
}
col--
row--
if col == row && col == 0 {
return err
}
if ws.RowBreaks == nil {
ws.RowBreaks = &xlsxRowBreaks{}
}
if ws.ColBreaks == nil {
ws.ColBreaks = &xlsxColBreaks{}
}
for idx, brk := range ws.RowBreaks.Brk {
if brk.ID == row {
rowBrk = idx
}
}
for idx, brk := range ws.ColBreaks.Brk {
if brk.ID == col {
colBrk = idx
}
}
if row != 0 && rowBrk == -1 {
ws.RowBreaks.Brk = append(ws.RowBreaks.Brk, &xlsxBrk{
ID: row,
Max: MaxColumns - 1,
Man: true,
})
ws.RowBreaks.ManualBreakCount++
}
if col != 0 && colBrk == -1 {
ws.ColBreaks.Brk = append(ws.ColBreaks.Brk, &xlsxBrk{
ID: col,
Max: TotalRows - 1,
Man: true,
})
ws.ColBreaks.ManualBreakCount++
}
ws.RowBreaks.Count = len(ws.RowBreaks.Brk)
ws.ColBreaks.Count = len(ws.ColBreaks.Brk)
return err
}
// RemovePageBreak remove a page break by given worksheet name and cell
// reference.
func (f *File) RemovePageBreak(sheet, cell string) error {
var (
ws *xlsxWorksheet
row, col int
err error
)
if ws, err = f.workSheetReader(sheet); err != nil {
return err
}
if col, row, err = CellNameToCoordinates(cell); err != nil {
return err
}
col--
row--
if col == row && col == 0 {
return err
}
removeBrk := func(ID int, brks []*xlsxBrk) []*xlsxBrk {
for i, brk := range brks {
if brk.ID == ID {
brks = append(brks[:i], brks[i+1:]...)
}
}
return brks
}
if ws.RowBreaks == nil || ws.ColBreaks == nil {
return err
}
rowBrks := len(ws.RowBreaks.Brk)
colBrks := len(ws.ColBreaks.Brk)
if rowBrks > 0 && rowBrks == colBrks {
ws.RowBreaks.Brk = removeBrk(row, ws.RowBreaks.Brk)
ws.ColBreaks.Brk = removeBrk(col, ws.ColBreaks.Brk)
ws.RowBreaks.Count = len(ws.RowBreaks.Brk)
ws.ColBreaks.Count = len(ws.ColBreaks.Brk)
ws.RowBreaks.ManualBreakCount--
ws.ColBreaks.ManualBreakCount--
return err
}
if rowBrks > 0 && rowBrks > colBrks {
ws.RowBreaks.Brk = removeBrk(row, ws.RowBreaks.Brk)
ws.RowBreaks.Count = len(ws.RowBreaks.Brk)
ws.RowBreaks.ManualBreakCount--
return err
}
if colBrks > 0 && colBrks > rowBrks {
ws.ColBreaks.Brk = removeBrk(col, ws.ColBreaks.Brk)
ws.ColBreaks.Count = len(ws.ColBreaks.Brk)
ws.ColBreaks.ManualBreakCount--
}
return err
}
// relsReader provides a function to get the pointer to the structure
// after deserialization of xl/worksheets/_rels/sheet%d.xml.rels.
func (f *File) relsReader(path string) (*xlsxRelationships, error) {
rels, _ := f.Relationships.Load(path)
if rels == nil {
if _, ok := f.Pkg.Load(path); ok {
c := xlsxRelationships{}
if err := f.xmlNewDecoder(bytes.NewReader(namespaceStrictToTransitional(f.readXML(path)))).
Decode(&c); err != nil && err != io.EOF {
return nil, err
}
f.Relationships.Store(path, &c)
}
}
if rels, _ = f.Relationships.Load(path); rels != nil {
return rels.(*xlsxRelationships), nil
}
return nil, nil
}
// fillSheetData ensures there are enough rows, and columns in the chosen
// row to accept data. Missing rows are backfilled and given their row number
// Uses the last populated row as a hint for the size of the next row to add
func (ws *xlsxWorksheet) prepareSheetXML(col int, row int) {
rowCount := len(ws.SheetData.Row)
sizeHint := 0
var ht *float64
var customHeight bool
if ws.SheetFormatPr != nil && ws.SheetFormatPr.CustomHeight {
ht = float64Ptr(ws.SheetFormatPr.DefaultRowHeight)
customHeight = true
}
if rowCount > 0 {
sizeHint = len(ws.SheetData.Row[rowCount-1].C)
}
if rowCount < row {
// append missing rows
for rowIdx := rowCount; rowIdx < row; rowIdx++ {
ws.SheetData.Row = append(ws.SheetData.Row, xlsxRow{R: rowIdx + 1, CustomHeight: customHeight, Ht: ht, C: make([]xlsxC, 0, sizeHint)})
}
}
rowData := &ws.SheetData.Row[row-1]
fillColumns(rowData, col, row)
}
// fillColumns fill cells in the column of the row as contiguous.
func fillColumns(rowData *xlsxRow, col, row int) {
cellCount := len(rowData.C)
if cellCount < col {
for colIdx := cellCount; colIdx < col; colIdx++ {
cellName, _ := CoordinatesToCellName(colIdx+1, row)
rowData.C = append(rowData.C, xlsxC{R: cellName})
}
}
}
// makeContiguousColumns make columns in specific rows as contiguous.
func (ws *xlsxWorksheet) makeContiguousColumns(fromRow, toRow, colCount int) {
for ; fromRow < toRow; fromRow++ {
rowData := &ws.SheetData.Row[fromRow-1]
fillColumns(rowData, colCount, fromRow)
}
}
// SetSheetDimension provides the method to set or remove the used range of the
// worksheet by a given range reference. It specifies the row and column bounds
// of used cells in the worksheet. The range reference is set using the A1
// reference style(e.g., "A1:D5"). Passing an empty range reference will remove
// the used range of the worksheet.
func (f *File) SetSheetDimension(sheet string, rangeRef string) error {
ws, err := f.workSheetReader(sheet)
if err != nil {
return err
}
// Remove the dimension element if an empty string is provided
if rangeRef == "" {
ws.Dimension = nil
return nil
}
parts := len(strings.Split(rangeRef, ":"))
if parts == 1 {
_, _, err = CellNameToCoordinates(rangeRef)
if err == nil {
ws.Dimension = &xlsxDimension{Ref: strings.ToUpper(rangeRef)}
}
return err
}
if parts != 2 {
return ErrParameterInvalid
}
coordinates, err := rangeRefToCoordinates(rangeRef)
if err != nil {
return err
}
_ = sortCoordinates(coordinates)
ref, err := f.coordinatesToRangeRef(coordinates)
ws.Dimension = &xlsxDimension{Ref: ref}
return err
}
// GetSheetDimension provides the method to get the used range of the worksheet.
func (f *File) GetSheetDimension(sheet string) (string, error) {
var ref string
ws, err := f.workSheetReader(sheet)
if err != nil {
return ref, err
}
if ws.Dimension != nil {
ref = ws.Dimension.Ref
}
return ref, err
}