package xlsx import ( "archive/zip" "bytes" "encoding/xml" "errors" "fmt" "io" "os" "strconv" "strings" ) // File is a high level structure providing a slice of Sheet structs // to the user. type File struct { worksheets map[string]*zip.File referenceTable *RefTable Date1904 bool styles *xlsxStyleSheet Sheets []*Sheet Sheet map[string]*Sheet theme *theme DefinedNames []*xlsxDefinedName } // Create a new File func NewFile() *File { return &File{ Sheet: make(map[string]*Sheet), Sheets: make([]*Sheet, 0), DefinedNames: make([]*xlsxDefinedName, 0), } } // OpenFile() take the name of an XLSX file and returns a populated // xlsx.File struct for it. func OpenFile(filename string) (file *File, err error) { var f *zip.ReadCloser f, err = zip.OpenReader(filename) if err != nil { return nil, err } file, err = ReadZip(f) return } // OpenBinary() take bytes of an XLSX file and returns a populated // xlsx.File struct for it. func OpenBinary(bs []byte) (*File, error) { r := bytes.NewReader(bs) return OpenReaderAt(r, int64(r.Len())) } // OpenReaderAt() take io.ReaderAt of an XLSX file and returns a populated // xlsx.File struct for it. func OpenReaderAt(r io.ReaderAt, size int64) (*File, error) { file, err := zip.NewReader(r, size) if err != nil { return nil, err } return ReadZipReader(file) } // A convenient wrapper around File.ToSlice, FileToSlice will // return the raw data contained in an Excel XLSX file as three // dimensional slice. The first index represents the sheet number, // the second the row number, and the third the cell number. // // For example: // // var mySlice [][][]string // var value string // mySlice = xlsx.FileToSlice("myXLSX.xlsx") // value = mySlice[0][0][0] // // Here, value would be set to the raw value of the cell A1 in the // first sheet in the XLSX file. func FileToSlice(path string) ([][][]string, error) { f, err := OpenFile(path) if err != nil { return nil, err } return f.ToSlice() } // Save the File to an xlsx file at the provided path. func (f *File) Save(path string) (err error) { target, err := os.Create(path) if err != nil { return err } err = f.Write(target) if err != nil { return err } return target.Close() } // Write the File to io.Writer as xlsx func (f *File) Write(writer io.Writer) (err error) { parts, err := f.MarshallParts() if err != nil { return } zipWriter := zip.NewWriter(writer) for partName, part := range parts { w, err := zipWriter.Create(partName) if err != nil { return err } _, err = w.Write([]byte(part)) if err != nil { return err } } return zipWriter.Close() } // Add a new Sheet, with the provided name, to a File func (f *File) AddSheet(sheetName string) (*Sheet, error) { if _, exists := f.Sheet[sheetName]; exists { return nil, fmt.Errorf("duplicate sheet name '%s'.", sheetName) } sheet := &Sheet{ Name: sheetName, File: f, Selected: len(f.Sheets) == 0, } f.Sheet[sheetName] = sheet f.Sheets = append(f.Sheets, sheet) return sheet, nil } // Appends an existing Sheet, with the provided name, to a File func (f *File) AppendSheet(sheet Sheet, sheetName string) (*Sheet, error) { if _, exists := f.Sheet[sheetName]; exists { return nil, fmt.Errorf("duplicate sheet name '%s'.", sheetName) } sheet.Name = sheetName sheet.File = f sheet.Selected = len(f.Sheets) == 0 f.Sheet[sheetName] = &sheet f.Sheets = append(f.Sheets, &sheet) return &sheet, nil } func (f *File) makeWorkbook() xlsxWorkbook { return xlsxWorkbook{ FileVersion: xlsxFileVersion{AppName: "Go XLSX"}, WorkbookPr: xlsxWorkbookPr{ShowObjects: "all"}, BookViews: xlsxBookViews{ WorkBookView: []xlsxWorkBookView{ { ShowHorizontalScroll: true, ShowSheetTabs: true, ShowVerticalScroll: true, TabRatio: 204, WindowHeight: 8192, WindowWidth: 16384, XWindow: "0", YWindow: "0", }, }, }, Sheets: xlsxSheets{Sheet: make([]xlsxSheet, len(f.Sheets))}, CalcPr: xlsxCalcPr{ IterateCount: 100, RefMode: "A1", Iterate: false, IterateDelta: 0.001, }, } } // Some tools that read XLSX files have very strict requirements about // the structure of the input XML. In particular both Numbers on the Mac // and SAS dislike inline XML namespace declarations, or namespace // prefixes that don't match the ones that Excel itself uses. This is a // problem because the Go XML library doesn't multiple namespace // declarations in a single element of a document. This function is a // horrible hack to fix that after the XML marshalling is completed. func replaceRelationshipsNameSpace(workbookMarshal string) string { newWorkbook := strings.Replace(workbookMarshal, `xmlns:relationships="http://schemas.openxmlformats.org/officeDocument/2006/relationships" relationships:id`, `r:id`, -1) // Dirty hack to fix issues #63 and #91; encoding/xml currently // "doesn't allow for additional namespaces to be defined in the // root element of the document," as described by @tealeg in the // comments for #63. oldXmlns := `` newXmlns := `` return strings.Replace(newWorkbook, oldXmlns, newXmlns, 1) } // Construct a map of file name to XML content representing the file // in terms of the structure of an XLSX file. func (f *File) MarshallParts() (map[string]string, error) { var parts map[string]string var refTable *RefTable = NewSharedStringRefTable() refTable.isWrite = true var workbookRels WorkBookRels = make(WorkBookRels) var err error var workbook xlsxWorkbook var types xlsxTypes = MakeDefaultContentTypes() marshal := func(thing interface{}) (string, error) { body, err := xml.Marshal(thing) if err != nil { return "", err } return xml.Header + string(body), nil } parts = make(map[string]string) workbook = f.makeWorkbook() sheetIndex := 1 if f.styles == nil { f.styles = newXlsxStyleSheet(f.theme) } f.styles.reset() if len(f.Sheets) == 0 { err := errors.New("Workbook must contains atleast one worksheet") return nil, err } for _, sheet := range f.Sheets { xSheet := sheet.makeXLSXSheet(refTable, f.styles) rId := fmt.Sprintf("rId%d", sheetIndex) sheetId := strconv.Itoa(sheetIndex) sheetPath := fmt.Sprintf("worksheets/sheet%d.xml", sheetIndex) partName := "xl/" + sheetPath types.Overrides = append( types.Overrides, xlsxOverride{ PartName: "/" + partName, ContentType: "application/vnd.openxmlformats-officedocument.spreadsheetml.worksheet+xml"}) workbookRels[rId] = sheetPath workbook.Sheets.Sheet[sheetIndex-1] = xlsxSheet{ Name: sheet.Name, SheetId: sheetId, Id: rId, State: "visible"} parts[partName], err = marshal(xSheet) if err != nil { return parts, err } sheetIndex++ } workbookMarshal, err := marshal(workbook) if err != nil { return parts, err } workbookMarshal = replaceRelationshipsNameSpace(workbookMarshal) parts["xl/workbook.xml"] = workbookMarshal if err != nil { return parts, err } parts["_rels/.rels"] = TEMPLATE__RELS_DOT_RELS parts["docProps/app.xml"] = TEMPLATE_DOCPROPS_APP // TODO - do this properly, modification and revision information parts["docProps/core.xml"] = TEMPLATE_DOCPROPS_CORE parts["xl/theme/theme1.xml"] = TEMPLATE_XL_THEME_THEME xSST := refTable.makeXLSXSST() parts["xl/sharedStrings.xml"], err = marshal(xSST) if err != nil { return parts, err } xWRel := workbookRels.MakeXLSXWorkbookRels() parts["xl/_rels/workbook.xml.rels"], err = marshal(xWRel) if err != nil { return parts, err } parts["[Content_Types].xml"], err = marshal(types) if err != nil { return parts, err } parts["xl/styles.xml"], err = f.styles.Marshal() if err != nil { return parts, err } return parts, nil } // Return the raw data contained in the File as three // dimensional slice. The first index represents the sheet number, // the second the row number, and the third the cell number. // // For example: // // var mySlice [][][]string // var value string // mySlice = xlsx.FileToSlice("myXLSX.xlsx") // value = mySlice[0][0][0] // // Here, value would be set to the raw value of the cell A1 in the // first sheet in the XLSX file. func (file *File) ToSlice() (output [][][]string, err error) { output = [][][]string{} for _, sheet := range file.Sheets { s := [][]string{} for _, row := range sheet.Rows { if row == nil { continue } r := []string{} for _, cell := range row.Cells { str, err := cell.FormattedValue() if err != nil { // Recover from strconv.NumError if the value is an empty string, // and insert an empty string in the output. if numErr, ok := err.(*strconv.NumError); ok && numErr.Num == "" { str = "" } else { return output, err } } r = append(r, str) } s = append(s, r) } output = append(output, s) } return output, nil }