// Copyright 2016 - 2020 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 XLSX / XLSM / XLTM files. Supports reading and writing // spreadsheet documents generated by Microsoft Exce™ 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 1.10 or later. package excelize import ( "encoding/xml" "errors" "fmt" "reflect" "strconv" "strings" "time" ) const ( // STCellFormulaTypeArray defined the formula is an array formula. STCellFormulaTypeArray = "array" // STCellFormulaTypeDataTable defined the formula is a data table formula. STCellFormulaTypeDataTable = "dataTable" // STCellFormulaTypeNormal defined the formula is a regular cell formula. STCellFormulaTypeNormal = "normal" // STCellFormulaTypeShared defined the formula is part of a shared formula. STCellFormulaTypeShared = "shared" ) // GetCellValue provides a function to get formatted value from cell by given // worksheet name and axis in XLSX file. If it is possible to apply a format // to the cell value, it will do so, if not then an error will be returned, // along with the raw value of the cell. func (f *File) GetCellValue(sheet, axis string) (string, error) { return f.getCellStringFunc(sheet, axis, func(x *xlsxWorksheet, c *xlsxC) (string, bool, error) { val, err := c.getValueFrom(f, f.sharedStringsReader()) return val, true, err }) } // SetCellValue provides a function to set value of a cell. The specified // coordinates should not be in the first row of the table. The following // shows the supported data types: // // int // int8 // int16 // int32 // int64 // uint // uint8 // uint16 // uint32 // uint64 // float32 // float64 // string // []byte // time.Duration // time.Time // bool // nil // // Note that default date format is m/d/yy h:mm of time.Time type value. You can // set numbers format by SetCellStyle() method. func (f *File) SetCellValue(sheet, axis string, value interface{}) error { var err error switch v := value.(type) { case int, int8, int16, int32, int64, uint, uint8, uint16, uint32, uint64: err = f.setCellIntFunc(sheet, axis, v) case float32: err = f.SetCellFloat(sheet, axis, float64(v), -1, 32) case float64: err = f.SetCellFloat(sheet, axis, v, -1, 64) case string: err = f.SetCellStr(sheet, axis, v) case []byte: err = f.SetCellStr(sheet, axis, string(v)) case time.Duration: _, d := setCellDuration(v) err = f.SetCellDefault(sheet, axis, d) if err != nil { return err } err = f.setDefaultTimeStyle(sheet, axis, 21) case time.Time: err = f.setCellTimeFunc(sheet, axis, v) case bool: err = f.SetCellBool(sheet, axis, v) case nil: err = f.SetCellStr(sheet, axis, "") default: err = f.SetCellStr(sheet, axis, fmt.Sprint(value)) } return err } // setCellIntFunc is a wrapper of SetCellInt. func (f *File) setCellIntFunc(sheet, axis string, value interface{}) error { var err error switch v := value.(type) { case int: err = f.SetCellInt(sheet, axis, v) case int8: err = f.SetCellInt(sheet, axis, int(v)) case int16: err = f.SetCellInt(sheet, axis, int(v)) case int32: err = f.SetCellInt(sheet, axis, int(v)) case int64: err = f.SetCellInt(sheet, axis, int(v)) case uint: err = f.SetCellInt(sheet, axis, int(v)) case uint8: err = f.SetCellInt(sheet, axis, int(v)) case uint16: err = f.SetCellInt(sheet, axis, int(v)) case uint32: err = f.SetCellInt(sheet, axis, int(v)) case uint64: err = f.SetCellInt(sheet, axis, int(v)) } return err } // setCellTimeFunc provides a method to process time type of value for // SetCellValue. func (f *File) setCellTimeFunc(sheet, axis string, value time.Time) error { xlsx, err := f.workSheetReader(sheet) if err != nil { return err } cellData, col, _, err := f.prepareCell(xlsx, sheet, axis) if err != nil { return err } cellData.S = f.prepareCellStyle(xlsx, col, cellData.S) var isNum bool cellData.T, cellData.V, isNum, err = setCellTime(value) if err != nil { return err } if isNum { err = f.setDefaultTimeStyle(sheet, axis, 22) if err != nil { return err } } return err } func setCellTime(value time.Time) (t string, b string, isNum bool, err error) { var excelTime float64 excelTime, err = timeToExcelTime(value) if err != nil { return } isNum = excelTime > 0 if isNum { t, b = setCellDefault(strconv.FormatFloat(excelTime, 'f', -1, 64)) } else { t, b = setCellDefault(value.Format(time.RFC3339Nano)) } return } func setCellDuration(value time.Duration) (t string, v string) { v = strconv.FormatFloat(value.Seconds()/86400.0, 'f', -1, 32) return } // SetCellInt provides a function to set int type value of a cell by given // worksheet name, cell coordinates and cell value. func (f *File) SetCellInt(sheet, axis string, value int) error { xlsx, err := f.workSheetReader(sheet) if err != nil { return err } cellData, col, _, err := f.prepareCell(xlsx, sheet, axis) if err != nil { return err } cellData.S = f.prepareCellStyle(xlsx, col, cellData.S) cellData.T, cellData.V = setCellInt(value) return err } func setCellInt(value int) (t string, v string) { v = strconv.Itoa(value) return } // SetCellBool provides a function to set bool type value of a cell by given // worksheet name, cell name and cell value. func (f *File) SetCellBool(sheet, axis string, value bool) error { xlsx, err := f.workSheetReader(sheet) if err != nil { return err } cellData, col, _, err := f.prepareCell(xlsx, sheet, axis) if err != nil { return err } cellData.S = f.prepareCellStyle(xlsx, col, cellData.S) cellData.T, cellData.V = setCellBool(value) return err } func setCellBool(value bool) (t string, v string) { t = "b" if value { v = "1" } else { v = "0" } return } // SetCellFloat sets a floating point value into a cell. The prec parameter // specifies how many places after the decimal will be shown while -1 is a // special value that will use as many decimal places as necessary to // represent the number. bitSize is 32 or 64 depending on if a float32 or // float64 was originally used for the value. For Example: // // var x float32 = 1.325 // f.SetCellFloat("Sheet1", "A1", float64(x), 2, 32) // func (f *File) SetCellFloat(sheet, axis string, value float64, prec, bitSize int) error { xlsx, err := f.workSheetReader(sheet) if err != nil { return err } cellData, col, _, err := f.prepareCell(xlsx, sheet, axis) if err != nil { return err } cellData.S = f.prepareCellStyle(xlsx, col, cellData.S) cellData.T, cellData.V = setCellFloat(value, prec, bitSize) return err } func setCellFloat(value float64, prec, bitSize int) (t string, v string) { v = strconv.FormatFloat(value, 'f', prec, bitSize) return } // SetCellStr provides a function to set string type value of a cell. Total // number of characters that a cell can contain 32767 characters. func (f *File) SetCellStr(sheet, axis, value string) error { xlsx, err := f.workSheetReader(sheet) if err != nil { return err } cellData, col, _, err := f.prepareCell(xlsx, sheet, axis) if err != nil { return err } cellData.S = f.prepareCellStyle(xlsx, col, cellData.S) cellData.T, cellData.V = f.setCellString(value) return err } // setCellString provides a function to set string type to shared string // table. func (f *File) setCellString(value string) (t string, v string) { if len(value) > TotalCellChars { value = value[0:TotalCellChars] } t = "s" v = strconv.Itoa(f.setSharedString(value)) return } // setSharedString provides a function to add string to the share string table. func (f *File) setSharedString(val string) int { sst := f.sharedStringsReader() f.Lock() defer f.Unlock() if i, ok := f.sharedStringsMap[val]; ok { return i } sst.Count++ sst.UniqueCount++ t := xlsxT{Val: val} // Leading and ending space(s) character detection. if len(val) > 0 && (val[0] == 32 || val[len(val)-1] == 32) { ns := xml.Attr{ Name: xml.Name{Space: NameSpaceXML, Local: "space"}, Value: "preserve", } t.Space = ns } sst.SI = append(sst.SI, xlsxSI{T: &t}) f.sharedStringsMap[val] = sst.UniqueCount - 1 return sst.UniqueCount - 1 } // setCellStr provides a function to set string type to cell. func setCellStr(value string) (t string, v string, ns xml.Attr) { if len(value) > TotalCellChars { value = value[0:TotalCellChars] } // Leading and ending space(s) character detection. if len(value) > 0 && (value[0] == 32 || value[len(value)-1] == 32) { ns = xml.Attr{ Name: xml.Name{Space: NameSpaceXML, Local: "space"}, Value: "preserve", } } t = "str" v = value return } // SetCellDefault provides a function to set string type value of a cell as // default format without escaping the cell. func (f *File) SetCellDefault(sheet, axis, value string) error { xlsx, err := f.workSheetReader(sheet) if err != nil { return err } cellData, col, _, err := f.prepareCell(xlsx, sheet, axis) if err != nil { return err } cellData.S = f.prepareCellStyle(xlsx, col, cellData.S) cellData.T, cellData.V = setCellDefault(value) return err } func setCellDefault(value string) (t string, v string) { v = value return } // GetCellFormula provides a function to get formula from cell by given // worksheet name and axis in XLSX file. func (f *File) GetCellFormula(sheet, axis string) (string, error) { return f.getCellStringFunc(sheet, axis, func(x *xlsxWorksheet, c *xlsxC) (string, bool, error) { if c.F == nil { return "", false, nil } if c.F.T == STCellFormulaTypeShared { return getSharedForumula(x, c.F.Si), true, nil } return c.F.Content, true, nil }) } // FormulaOpts can be passed to SetCellFormula to use other formula types. type FormulaOpts struct { Type *string // Formula type Ref *string // Shared formula ref } // SetCellFormula provides a function to set cell formula by given string and // worksheet name. func (f *File) SetCellFormula(sheet, axis, formula string, opts ...FormulaOpts) error { xlsx, err := f.workSheetReader(sheet) if err != nil { return err } cellData, _, _, err := f.prepareCell(xlsx, sheet, axis) if err != nil { return err } if formula == "" { cellData.F = nil f.deleteCalcChain(f.getSheetID(sheet), axis) return err } if cellData.F != nil { cellData.F.Content = formula } else { cellData.F = &xlsxF{Content: formula} } for _, o := range opts { if o.Type != nil { cellData.F.T = *o.Type } if o.Ref != nil { cellData.F.Ref = *o.Ref } } return err } // GetCellHyperLink provides a function to get cell hyperlink by given // worksheet name and axis. Boolean type value link will be ture if the cell // has a hyperlink and the target is the address of the hyperlink. Otherwise, // the value of link will be false and the value of the target will be a blank // string. For example get hyperlink of Sheet1!H6: // // link, target, err := f.GetCellHyperLink("Sheet1", "H6") // func (f *File) GetCellHyperLink(sheet, axis string) (bool, string, error) { // Check for correct cell name if _, _, err := SplitCellName(axis); err != nil { return false, "", err } xlsx, err := f.workSheetReader(sheet) if err != nil { return false, "", err } axis, err = f.mergeCellsParser(xlsx, axis) if err != nil { return false, "", err } if xlsx.Hyperlinks != nil { for _, link := range xlsx.Hyperlinks.Hyperlink { if link.Ref == axis { if link.RID != "" { return true, f.getSheetRelationshipsTargetByID(sheet, link.RID), err } return true, link.Location, err } } } return false, "", err } // SetCellHyperLink provides a function to set cell hyperlink by given // worksheet name and link URL address. LinkType defines two types of // hyperlink "External" for web site or "Location" for moving to one of cell // in this workbook. Maximum limit hyperlinks in a worksheet is 65530. The // below is example for external link. // // err := f.SetCellHyperLink("Sheet1", "A3", "https://github.com/360EntSecGroup-Skylar/excelize", "External") // // Set underline and font color style for the cell. // style, err := f.NewStyle(`{"font":{"color":"#1265BE","underline":"single"}}`) // err = f.SetCellStyle("Sheet1", "A3", "A3", style) // // A this is another example for "Location": // // err := f.SetCellHyperLink("Sheet1", "A3", "Sheet1!A40", "Location") // func (f *File) SetCellHyperLink(sheet, axis, link, linkType string) error { // Check for correct cell name if _, _, err := SplitCellName(axis); err != nil { return err } xlsx, err := f.workSheetReader(sheet) if err != nil { return err } axis, err = f.mergeCellsParser(xlsx, axis) if err != nil { return err } var linkData xlsxHyperlink if xlsx.Hyperlinks == nil { xlsx.Hyperlinks = new(xlsxHyperlinks) } if len(xlsx.Hyperlinks.Hyperlink) > TotalSheetHyperlinks { return errors.New("over maximum limit hyperlinks in a worksheet") } switch linkType { case "External": linkData = xlsxHyperlink{ Ref: axis, } sheetPath := f.sheetMap[trimSheetName(sheet)] sheetRels := "xl/worksheets/_rels/" + strings.TrimPrefix(sheetPath, "xl/worksheets/") + ".rels" rID := f.addRels(sheetRels, SourceRelationshipHyperLink, link, linkType) linkData.RID = "rId" + strconv.Itoa(rID) f.addSheetNameSpace(sheet, SourceRelationship) case "Location": linkData = xlsxHyperlink{ Ref: axis, Location: link, } default: return fmt.Errorf("invalid link type %q", linkType) } xlsx.Hyperlinks.Hyperlink = append(xlsx.Hyperlinks.Hyperlink, linkData) return nil } // SetCellRichText provides a function to set cell with rich text by given // worksheet. For example, set rich text on the A1 cell of the worksheet named // Sheet1: // // package main // // import ( // "fmt" // // "github.com/360EntSecGroup-Skylar/excelize" // ) // // func main() { // f := excelize.NewFile() // if err := f.SetRowHeight("Sheet1", 1, 35); err != nil { // fmt.Println(err) // return // } // if err := f.SetColWidth("Sheet1", "A", "A", 44); err != nil { // fmt.Println(err) // return // } // if err := f.SetCellRichText("Sheet1", "A1", []excelize.RichTextRun{ // { // Text: "bold", // Font: &excelize.Font{ // Bold: true, // Color: "2354e8", // Family: "Times New Roman", // }, // }, // { // Text: " and ", // Font: &excelize.Font{ // Family: "Times New Roman", // }, // }, // { // Text: " italic", // Font: &excelize.Font{ // Bold: true, // Color: "e83723", // Italic: true, // Family: "Times New Roman", // }, // }, // { // Text: "text with color and font-family,", // Font: &excelize.Font{ // Bold: true, // Color: "2354e8", // Family: "Times New Roman", // }, // }, // { // Text: "\r\nlarge text with ", // Font: &excelize.Font{ // Size: 14, // Color: "ad23e8", // }, // }, // { // Text: "strike", // Font: &excelize.Font{ // Color: "e89923", // Strike: true, // }, // }, // { // Text: " and ", // Font: &excelize.Font{ // Size: 14, // Color: "ad23e8", // }, // }, // { // Text: "underline.", // Font: &excelize.Font{ // Color: "23e833", // Underline: "single", // }, // }, // }); err != nil { // fmt.Println(err) // return // } // style, err := f.NewStyle(&excelize.Style{ // Alignment: &excelize.Alignment{ // WrapText: true, // }, // }) // if err != nil { // fmt.Println(err) // return // } // if err := f.SetCellStyle("Sheet1", "A1", "A1", style); err != nil { // fmt.Println(err) // return // } // if err := f.SaveAs("Book1.xlsx"); err != nil { // fmt.Println(err) // } // } // func (f *File) SetCellRichText(sheet, cell string, runs []RichTextRun) error { ws, err := f.workSheetReader(sheet) if err != nil { return err } cellData, col, _, err := f.prepareCell(ws, sheet, cell) if err != nil { return err } cellData.S = f.prepareCellStyle(ws, col, cellData.S) si := xlsxSI{} sst := f.sharedStringsReader() textRuns := []xlsxR{} for _, textRun := range runs { run := xlsxR{T: &xlsxT{Val: textRun.Text}} if strings.ContainsAny(textRun.Text, "\r\n ") { run.T.Space = xml.Attr{Name: xml.Name{Space: NameSpaceXML, Local: "space"}, Value: "preserve"} } fnt := textRun.Font if fnt != nil { rpr := xlsxRPr{} if fnt.Bold { rpr.B = " " } if fnt.Italic { rpr.I = " " } if fnt.Strike { rpr.Strike = " " } if fnt.Underline != "" { rpr.U = &attrValString{Val: &fnt.Underline} } if fnt.Family != "" { rpr.RFont = &attrValString{Val: &fnt.Family} } if fnt.Size > 0.0 { rpr.Sz = &attrValFloat{Val: &fnt.Size} } if fnt.Color != "" { rpr.Color = &xlsxColor{RGB: getPaletteColor(fnt.Color)} } run.RPr = &rpr } textRuns = append(textRuns, run) } si.R = textRuns sst.SI = append(sst.SI, si) sst.Count++ sst.UniqueCount++ cellData.T, cellData.V = "s", strconv.Itoa(len(sst.SI)-1) return err } // SetSheetRow writes an array to row by given worksheet name, starting // coordinate and a pointer to array type 'slice'. For example, writes an // array to row 6 start with the cell B6 on Sheet1: // // err := f.SetSheetRow("Sheet1", "B6", &[]interface{}{"1", nil, 2}) // func (f *File) SetSheetRow(sheet, axis string, slice interface{}) error { col, row, err := CellNameToCoordinates(axis) if err != nil { return err } // Make sure 'slice' is a Ptr to Slice v := reflect.ValueOf(slice) if v.Kind() != reflect.Ptr || v.Elem().Kind() != reflect.Slice { return errors.New("pointer to slice expected") } v = v.Elem() for i := 0; i < v.Len(); i++ { cell, err := CoordinatesToCellName(col+i, row) // Error should never happens here. But keep checking to early detect regresions // if it will be introduced in future. if err != nil { return err } if err := f.SetCellValue(sheet, cell, v.Index(i).Interface()); err != nil { return err } } return err } // getCellInfo does common preparation for all SetCell* methods. func (f *File) prepareCell(xlsx *xlsxWorksheet, sheet, cell string) (*xlsxC, int, int, error) { xlsx.Lock() defer xlsx.Unlock() var err error cell, err = f.mergeCellsParser(xlsx, cell) if err != nil { return nil, 0, 0, err } col, row, err := CellNameToCoordinates(cell) if err != nil { return nil, 0, 0, err } prepareSheetXML(xlsx, col, row) return &xlsx.SheetData.Row[row-1].C[col-1], col, row, err } // getCellStringFunc does common value extraction workflow for all GetCell* // methods. Passed function implements specific part of required logic. func (f *File) getCellStringFunc(sheet, axis string, fn func(x *xlsxWorksheet, c *xlsxC) (string, bool, error)) (string, error) { xlsx, err := f.workSheetReader(sheet) if err != nil { return "", err } axis, err = f.mergeCellsParser(xlsx, axis) if err != nil { return "", err } _, row, err := CellNameToCoordinates(axis) if err != nil { return "", err } xlsx.Lock() defer xlsx.Unlock() lastRowNum := 0 if l := len(xlsx.SheetData.Row); l > 0 { lastRowNum = xlsx.SheetData.Row[l-1].R } // keep in mind: row starts from 1 if row > lastRowNum { return "", nil } for rowIdx := range xlsx.SheetData.Row { rowData := &xlsx.SheetData.Row[rowIdx] if rowData.R != row { continue } for colIdx := range rowData.C { colData := &rowData.C[colIdx] if axis != colData.R { continue } val, ok, err := fn(xlsx, colData) if err != nil { return "", err } if ok { return val, nil } } } return "", nil } // formattedValue provides a function to returns a value after formatted. If // it is possible to apply a format to the cell value, it will do so, if not // then an error will be returned, along with the raw value of the cell. func (f *File) formattedValue(s int, v string) string { if s == 0 { return v } styleSheet := f.stylesReader() if s >= len(styleSheet.CellXfs.Xf) { return v } numFmtId := *styleSheet.CellXfs.Xf[s].NumFmtID ok := builtInNumFmtFunc[numFmtId] if ok != nil { return ok(v, builtInNumFmt[numFmtId]) } for _, xlsxFmt := range styleSheet.NumFmts.NumFmt { if xlsxFmt.NumFmtID == numFmtId { format := strings.ToLower(xlsxFmt.FormatCode) if strings.Contains(format, "y") || strings.Contains(format, "m") || strings.Contains(format, "d") || strings.Contains(format, "h") { return parseTime(v, format) } return v } } return v } // prepareCellStyle provides a function to prepare style index of cell in // worksheet by given column index and style index. func (f *File) prepareCellStyle(xlsx *xlsxWorksheet, col, style int) int { if xlsx.Cols != nil && style == 0 { for _, c := range xlsx.Cols.Col { if c.Min <= col && col <= c.Max { style = c.Style } } } return style } // mergeCellsParser provides a function to check merged cells in worksheet by // given axis. func (f *File) mergeCellsParser(xlsx *xlsxWorksheet, axis string) (string, error) { axis = strings.ToUpper(axis) if xlsx.MergeCells != nil { for i := 0; i < len(xlsx.MergeCells.Cells); i++ { ok, err := f.checkCellInArea(axis, xlsx.MergeCells.Cells[i].Ref) if err != nil { return axis, err } if ok { axis = strings.Split(xlsx.MergeCells.Cells[i].Ref, ":")[0] } } } return axis, nil } // checkCellInArea provides a function to determine if a given coordinate is // within an area. func (f *File) checkCellInArea(cell, area string) (bool, error) { col, row, err := CellNameToCoordinates(cell) if err != nil { return false, err } rng := strings.Split(area, ":") if len(rng) != 2 { return false, err } coordinates, err := f.areaRefToCoordinates(area) if err != nil { return false, err } return cellInRef([]int{col, row}, coordinates), err } // cellInRef provides a function to determine if a given range is within an // range. func cellInRef(cell, ref []int) bool { return cell[0] >= ref[0] && cell[0] <= ref[2] && cell[1] >= ref[1] && cell[1] <= ref[3] } // isOverlap find if the given two rectangles overlap or not. func isOverlap(rect1, rect2 []int) bool { return cellInRef([]int{rect1[0], rect1[1]}, rect2) || cellInRef([]int{rect1[2], rect1[1]}, rect2) || cellInRef([]int{rect1[0], rect1[3]}, rect2) || cellInRef([]int{rect1[2], rect1[3]}, rect2) || cellInRef([]int{rect2[0], rect2[1]}, rect1) || cellInRef([]int{rect2[2], rect2[1]}, rect1) || cellInRef([]int{rect2[0], rect2[3]}, rect1) || cellInRef([]int{rect2[2], rect2[3]}, rect1) } // getSharedForumula find a cell contains the same formula as another cell, // the "shared" value can be used for the t attribute and the si attribute can // be used to refer to the cell containing the formula. Two formulas are // considered to be the same when their respective representations in // R1C1-reference notation, are the same. // // Note that this function not validate ref tag to check the cell if or not in // allow area, and always return origin shared formula. func getSharedForumula(xlsx *xlsxWorksheet, si string) string { for _, r := range xlsx.SheetData.Row { for _, c := range r.C { if c.F != nil && c.F.Ref != "" && c.F.T == STCellFormulaTypeShared && c.F.Si == si { return c.F.Content } } } return "" }