// 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 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 1.16 or later. package excelize import ( "bytes" "encoding/xml" "image" "io" "os" "path" "path/filepath" "strconv" "strings" ) // parseGraphicOptions provides a function to parse the format settings of // the picture with default value. func parseGraphicOptions(opts *GraphicOptions) *GraphicOptions { if opts == nil { return &GraphicOptions{ PrintObject: boolPtr(true), Locked: boolPtr(true), ScaleX: defaultPictureScale, ScaleY: defaultPictureScale, } } if opts.PrintObject == nil { opts.PrintObject = boolPtr(true) } if opts.Locked == nil { opts.Locked = boolPtr(true) } if opts.ScaleX == 0 { opts.ScaleX = defaultPictureScale } if opts.ScaleY == 0 { opts.ScaleY = defaultPictureScale } return opts } // AddPicture provides the method to add picture in a sheet by given picture // format set (such as offset, scale, aspect ratio setting and print settings) // and file path, supported image types: BMP, EMF, EMZ, GIF, JPEG, JPG, PNG, // SVG, TIF, TIFF, WMF, and WMZ. This function is concurrency safe. For example: // // package main // // import ( // "fmt" // _ "image/gif" // _ "image/jpeg" // _ "image/png" // // "github.com/xuri/excelize/v2" // ) // // func main() { // f := excelize.NewFile() // defer func() { // if err := f.Close(); err != nil { // fmt.Println(err) // } // }() // // Insert a picture. // if err := f.AddPicture("Sheet1", "A2", "image.jpg", nil); err != nil { // fmt.Println(err) // return // } // // Insert a picture scaling in the cell with location hyperlink. // enable := true // if err := f.AddPicture("Sheet1", "D2", "image.png", // &excelize.GraphicOptions{ // ScaleX: 0.5, // ScaleY: 0.5, // Hyperlink: "#Sheet2!D8", // HyperlinkType: "Location", // }, // ); err != nil { // fmt.Println(err) // return // } // // Insert a picture offset in the cell with external hyperlink, printing and positioning support. // if err := f.AddPicture("Sheet1", "H2", "image.gif", // &excelize.GraphicOptions{ // PrintObject: &enable, // LockAspectRatio: false, // OffsetX: 15, // OffsetY: 10, // Hyperlink: "https://github.com/xuri/excelize", // HyperlinkType: "External", // Positioning: "oneCell", // }, // ); err != nil { // fmt.Println(err) // return // } // if err := f.SaveAs("Book1.xlsx"); err != nil { // fmt.Println(err) // } // } // // The optional parameter "AltText" is used to add alternative text to a graph // object. // // The optional parameter "PrintObject" indicates whether the graph object is // printed when the worksheet is printed, the default value of that is 'true'. // // The optional parameter "Locked" indicates whether lock the graph object. // Locking an object has no effect unless the sheet is protected. // // The optional parameter "LockAspectRatio" indicates whether lock aspect ratio // for the graph object, the default value of that is 'false'. // // The optional parameter "AutoFit" specifies if you make graph object size // auto-fits the cell, the default value of that is 'false'. // // The optional parameter "OffsetX" specifies the horizontal offset of the graph // object with the cell, the default value of that is 0. // // The optional parameter "OffsetY" specifies the vertical offset of the graph // object with the cell, the default value of that is 0. // // The optional parameter "ScaleX" specifies the horizontal scale of graph // object, the default value of that is 1.0 which presents 100%. // // The optional parameter "ScaleY" specifies the vertical scale of graph object, // the default value of that is 1.0 which presents 100%. // // The optional parameter "Hyperlink" specifies the hyperlink of the graph // object. // // The optional parameter "HyperlinkType" defines two types of // hyperlink "External" for website or "Location" for moving to one of the // cells in this workbook. When the "HyperlinkType" is "Location", // coordinates need to start with "#". // // The optional parameter "Positioning" defines 3 types of the position of a // graph object in a spreadsheet: "oneCell" (Move but don't size with // cells), "twoCell" (Move and size with cells), and "absolute" (Don't move or // size with cells). If you don't set this parameter, the default positioning // is to move and size with cells. func (f *File) AddPicture(sheet, cell, name string, opts *GraphicOptions) error { var err error // Check picture exists first. if _, err = os.Stat(name); os.IsNotExist(err) { return err } ext, ok := supportedImageTypes[strings.ToLower(path.Ext(name))] if !ok { return ErrImgExt } file, _ := os.ReadFile(filepath.Clean(name)) return f.AddPictureFromBytes(sheet, cell, &Picture{Extension: ext, File: file, Format: opts}) } // AddPictureFromBytes provides the method to add picture in a sheet by given // picture format set (such as offset, scale, aspect ratio setting and print // settings), file base name, extension name and file bytes, supported image // types: EMF, EMZ, GIF, JPEG, JPG, PNG, SVG, TIF, TIFF, WMF, and WMZ. For // example: // // package main // // import ( // "fmt" // _ "image/jpeg" // "os" // // "github.com/xuri/excelize/v2" // ) // // func main() { // f := excelize.NewFile() // defer func() { // if err := f.Close(); err != nil { // fmt.Println(err) // } // }() // file, err := os.ReadFile("image.jpg") // if err != nil { // fmt.Println(err) // return // } // if err := f.AddPictureFromBytes("Sheet1", "A2", &excelize.Picture{ // Extension: ".jpg", // File: file, // Format: &excelize.GraphicOptions{AltText: "Excel Logo"}, // }); err != nil { // fmt.Println(err) // return // } // if err := f.SaveAs("Book1.xlsx"); err != nil { // fmt.Println(err) // } // } func (f *File) AddPictureFromBytes(sheet, cell string, pic *Picture) error { var drawingHyperlinkRID int var hyperlinkType string ext, ok := supportedImageTypes[strings.ToLower(pic.Extension)] if !ok { return ErrImgExt } options := parseGraphicOptions(pic.Format) img, _, err := image.DecodeConfig(bytes.NewReader(pic.File)) if err != nil { return err } // Read sheet data f.mu.Lock() ws, err := f.workSheetReader(sheet) if err != nil { f.mu.Unlock() return err } f.mu.Unlock() ws.mu.Lock() // Add first picture for given sheet, create xl/drawings/ and xl/drawings/_rels/ folder. drawingID := f.countDrawings() + 1 drawingXML := "xl/drawings/drawing" + strconv.Itoa(drawingID) + ".xml" drawingID, drawingXML = f.prepareDrawing(ws, drawingID, sheet, drawingXML) drawingRels := "xl/drawings/_rels/drawing" + strconv.Itoa(drawingID) + ".xml.rels" mediaStr := ".." + strings.TrimPrefix(f.addMedia(pic.File, ext), "xl") drawingRID := f.addRels(drawingRels, SourceRelationshipImage, mediaStr, hyperlinkType) // Add picture with hyperlink. if options.Hyperlink != "" && options.HyperlinkType != "" { if options.HyperlinkType == "External" { hyperlinkType = options.HyperlinkType } drawingHyperlinkRID = f.addRels(drawingRels, SourceRelationshipHyperLink, options.Hyperlink, hyperlinkType) } ws.mu.Unlock() err = f.addDrawingPicture(sheet, drawingXML, cell, ext, drawingRID, drawingHyperlinkRID, img, options) if err != nil { return err } if err = f.addContentTypePart(drawingID, "drawings"); err != nil { return err } f.addSheetNameSpace(sheet, SourceRelationship) return err } // deleteSheetRelationships provides a function to delete relationships in // xl/worksheets/_rels/sheet%d.xml.rels by given worksheet name and // relationship index. func (f *File) deleteSheetRelationships(sheet, rID string) { name, ok := f.getSheetXMLPath(sheet) if !ok { name = strings.ToLower(sheet) + ".xml" } rels := "xl/worksheets/_rels/" + strings.TrimPrefix(name, "xl/worksheets/") + ".rels" sheetRels, _ := f.relsReader(rels) if sheetRels == nil { sheetRels = &xlsxRelationships{} } sheetRels.mu.Lock() defer sheetRels.mu.Unlock() for k, v := range sheetRels.Relationships { if v.ID == rID { sheetRels.Relationships = append(sheetRels.Relationships[:k], sheetRels.Relationships[k+1:]...) } } f.Relationships.Store(rels, sheetRels) } // addSheetLegacyDrawing provides a function to add legacy drawing element to // xl/worksheets/sheet%d.xml by given worksheet name and relationship index. func (f *File) addSheetLegacyDrawing(sheet string, rID int) { ws, _ := f.workSheetReader(sheet) ws.LegacyDrawing = &xlsxLegacyDrawing{ RID: "rId" + strconv.Itoa(rID), } } // addSheetDrawing provides a function to add drawing element to // xl/worksheets/sheet%d.xml by given worksheet name and relationship index. func (f *File) addSheetDrawing(sheet string, rID int) { ws, _ := f.workSheetReader(sheet) ws.Drawing = &xlsxDrawing{ RID: "rId" + strconv.Itoa(rID), } } // addSheetPicture provides a function to add picture element to // xl/worksheets/sheet%d.xml by given worksheet name and relationship index. func (f *File) addSheetPicture(sheet string, rID int) error { ws, err := f.workSheetReader(sheet) if err != nil { return err } ws.Picture = &xlsxPicture{ RID: "rId" + strconv.Itoa(rID), } return err } // countDrawings provides a function to get drawing files count storage in the // folder xl/drawings. func (f *File) countDrawings() int { drawings := map[string]struct{}{} f.Pkg.Range(func(k, v interface{}) bool { if strings.Contains(k.(string), "xl/drawings/drawing") { drawings[k.(string)] = struct{}{} } return true }) f.Drawings.Range(func(rel, value interface{}) bool { if strings.Contains(rel.(string), "xl/drawings/drawing") { drawings[rel.(string)] = struct{}{} } return true }) return len(drawings) } // addDrawingPicture provides a function to add picture by given sheet, // drawingXML, cell, file name, width, height relationship index and format // sets. func (f *File) addDrawingPicture(sheet, drawingXML, cell, ext string, rID, hyperlinkRID int, img image.Config, opts *GraphicOptions) error { col, row, err := CellNameToCoordinates(cell) if err != nil { return err } if opts.Positioning != "" && inStrSlice(supportedPositioning, opts.Positioning, true) == -1 { return ErrParameterInvalid } width, height := img.Width, img.Height if opts.AutoFit { if width, height, col, row, err = f.drawingResize(sheet, cell, float64(width), float64(height), opts); err != nil { return err } } else { width = int(float64(width) * opts.ScaleX) height = int(float64(height) * opts.ScaleY) } colStart, rowStart, colEnd, rowEnd, x2, y2 := f.positionObjectPixels(sheet, col, row, opts.OffsetX, opts.OffsetY, width, height) content, cNvPrID, err := f.drawingParser(drawingXML) if err != nil { return err } twoCellAnchor := xdrCellAnchor{} twoCellAnchor.EditAs = opts.Positioning from := xlsxFrom{} from.Col = colStart from.ColOff = opts.OffsetX * EMU from.Row = rowStart from.RowOff = opts.OffsetY * EMU to := xlsxTo{} to.Col = colEnd to.ColOff = x2 * EMU to.Row = rowEnd to.RowOff = y2 * EMU twoCellAnchor.From = &from twoCellAnchor.To = &to pic := xlsxPic{} pic.NvPicPr.CNvPicPr.PicLocks.NoChangeAspect = opts.LockAspectRatio pic.NvPicPr.CNvPr.ID = cNvPrID pic.NvPicPr.CNvPr.Descr = opts.AltText pic.NvPicPr.CNvPr.Name = "Picture " + strconv.Itoa(cNvPrID) if hyperlinkRID != 0 { pic.NvPicPr.CNvPr.HlinkClick = &xlsxHlinkClick{ R: SourceRelationship.Value, RID: "rId" + strconv.Itoa(hyperlinkRID), } } pic.BlipFill.Blip.R = SourceRelationship.Value pic.BlipFill.Blip.Embed = "rId" + strconv.Itoa(rID) if ext == ".svg" { pic.BlipFill.Blip.ExtList = &xlsxEGOfficeArtExtensionList{ Ext: []xlsxCTOfficeArtExtension{ { URI: ExtURISVG, SVGBlip: xlsxCTSVGBlip{ XMLNSaAVG: NameSpaceDrawing2016SVG.Value, Embed: pic.BlipFill.Blip.Embed, }, }, }, } } pic.SpPr.PrstGeom.Prst = "rect" twoCellAnchor.Pic = &pic twoCellAnchor.ClientData = &xdrClientData{ FLocksWithSheet: *opts.Locked, FPrintsWithSheet: *opts.PrintObject, } content.mu.Lock() defer content.mu.Unlock() content.TwoCellAnchor = append(content.TwoCellAnchor, &twoCellAnchor) f.Drawings.Store(drawingXML, content) return err } // countMedia provides a function to get media files count storage in the // folder xl/media/image. func (f *File) countMedia() int { count := 0 f.Pkg.Range(func(k, v interface{}) bool { if strings.Contains(k.(string), "xl/media/image") { count++ } return true }) return count } // addMedia provides a function to add a picture into folder xl/media/image by // given file and extension name. Duplicate images are only actually stored once // and drawings that use it will reference the same image. func (f *File) addMedia(file []byte, ext string) string { count := f.countMedia() var name string f.Pkg.Range(func(k, existing interface{}) bool { if !strings.HasPrefix(k.(string), "xl/media/image") { return true } if bytes.Equal(file, existing.([]byte)) { name = k.(string) return false } return true }) if name != "" { return name } media := "xl/media/image" + strconv.Itoa(count+1) + ext f.Pkg.Store(media, file) return media } // setContentTypePartImageExtensions provides a function to set the content // type for relationship parts and the Main Document part. func (f *File) setContentTypePartImageExtensions() error { imageTypes := map[string]string{ "bmp": "image/", "jpeg": "image/", "png": "image/", "gif": "image/", "svg": "image/", "tiff": "image/", "emf": "image/x-", "wmf": "image/x-", "emz": "image/x-", "wmz": "image/x-", } content, err := f.contentTypesReader() if err != nil { return err } content.mu.Lock() defer content.mu.Unlock() for _, file := range content.Defaults { delete(imageTypes, file.Extension) } for extension, prefix := range imageTypes { content.Defaults = append(content.Defaults, xlsxDefault{ Extension: extension, ContentType: prefix + extension, }) } return err } // setContentTypePartVMLExtensions provides a function to set the content type // for relationship parts and the Main Document part. func (f *File) setContentTypePartVMLExtensions() error { var vml bool content, err := f.contentTypesReader() if err != nil { return err } content.mu.Lock() defer content.mu.Unlock() for _, v := range content.Defaults { if v.Extension == "vml" { vml = true } } if !vml { content.Defaults = append(content.Defaults, xlsxDefault{ Extension: "vml", ContentType: ContentTypeVML, }) } return err } // addContentTypePart provides a function to add content type part // relationships in the file [Content_Types].xml by given index. func (f *File) addContentTypePart(index int, contentType string) error { setContentType := map[string]func() error{ "comments": f.setContentTypePartVMLExtensions, "drawings": f.setContentTypePartImageExtensions, } partNames := map[string]string{ "chart": "/xl/charts/chart" + strconv.Itoa(index) + ".xml", "chartsheet": "/xl/chartsheets/sheet" + strconv.Itoa(index) + ".xml", "comments": "/xl/comments" + strconv.Itoa(index) + ".xml", "drawings": "/xl/drawings/drawing" + strconv.Itoa(index) + ".xml", "table": "/xl/tables/table" + strconv.Itoa(index) + ".xml", "pivotTable": "/xl/pivotTables/pivotTable" + strconv.Itoa(index) + ".xml", "pivotCache": "/xl/pivotCache/pivotCacheDefinition" + strconv.Itoa(index) + ".xml", "sharedStrings": "/xl/sharedStrings.xml", } contentTypes := map[string]string{ "chart": ContentTypeDrawingML, "chartsheet": ContentTypeSpreadSheetMLChartsheet, "comments": ContentTypeSpreadSheetMLComments, "drawings": ContentTypeDrawing, "table": ContentTypeSpreadSheetMLTable, "pivotTable": ContentTypeSpreadSheetMLPivotTable, "pivotCache": ContentTypeSpreadSheetMLPivotCacheDefinition, "sharedStrings": ContentTypeSpreadSheetMLSharedStrings, } s, ok := setContentType[contentType] if ok { if err := s(); err != nil { return err } } content, err := f.contentTypesReader() if err != nil { return err } content.mu.Lock() defer content.mu.Unlock() for _, v := range content.Overrides { if v.PartName == partNames[contentType] { return err } } content.Overrides = append(content.Overrides, xlsxOverride{ PartName: partNames[contentType], ContentType: contentTypes[contentType], }) return err } // getSheetRelationshipsTargetByID provides a function to get Target attribute // value in xl/worksheets/_rels/sheet%d.xml.rels by given worksheet name and // relationship index. func (f *File) getSheetRelationshipsTargetByID(sheet, rID string) string { name, ok := f.getSheetXMLPath(sheet) if !ok { name = strings.ToLower(sheet) + ".xml" } rels := "xl/worksheets/_rels/" + strings.TrimPrefix(name, "xl/worksheets/") + ".rels" sheetRels, _ := f.relsReader(rels) if sheetRels == nil { sheetRels = &xlsxRelationships{} } sheetRels.mu.Lock() defer sheetRels.mu.Unlock() for _, v := range sheetRels.Relationships { if v.ID == rID { return v.Target } } return "" } // GetPictures provides a function to get picture meta info and raw content // embed in spreadsheet by given worksheet and cell name. This function // returns the image contents as []byte data types. This function is // concurrency safe. For example: // // f, err := excelize.OpenFile("Book1.xlsx") // if err != nil { // fmt.Println(err) // return // } // defer func() { // if err := f.Close(); err != nil { // fmt.Println(err) // } // }() // pics, err := f.GetPictures("Sheet1", "A2") // if err != nil { // fmt.Println(err) // } // for idx, pic := range pics { // name := fmt.Sprintf("image%d%s", idx+1, pic.Extension) // if err := os.WriteFile(name, pic.File, 0644); err != nil { // fmt.Println(err) // } // } func (f *File) GetPictures(sheet, cell string) ([]Picture, error) { col, row, err := CellNameToCoordinates(cell) if err != nil { return nil, err } col-- row-- f.mu.Lock() ws, err := f.workSheetReader(sheet) if err != nil { f.mu.Unlock() return nil, err } f.mu.Unlock() if ws.Drawing == nil { return nil, err } target := f.getSheetRelationshipsTargetByID(sheet, ws.Drawing.RID) drawingXML := strings.ReplaceAll(target, "..", "xl") drawingRelationships := strings.ReplaceAll( strings.ReplaceAll(target, "../drawings", "xl/drawings/_rels"), ".xml", ".xml.rels") return f.getPicture(row, col, drawingXML, drawingRelationships) } // DeletePicture provides a function to delete all pictures in a cell by given // worksheet name and cell reference. Note that the image file won't be deleted // from the document currently. func (f *File) DeletePicture(sheet, cell string) error { col, row, err := CellNameToCoordinates(cell) if err != nil { return err } col-- row-- ws, err := f.workSheetReader(sheet) if err != nil { return err } if ws.Drawing == nil { return err } drawingXML := strings.ReplaceAll(f.getSheetRelationshipsTargetByID(sheet, ws.Drawing.RID), "..", "xl") return f.deleteDrawing(col, row, drawingXML, "Pic") } // getPicture provides a function to get picture base name and raw content // embed in spreadsheet by given coordinates and drawing relationships. func (f *File) getPicture(row, col int, drawingXML, drawingRelationships string) (pics []Picture, err error) { var ( ok bool deWsDr *decodeWsDr deCellAnchor *decodeCellAnchor drawRel *xlsxRelationship wsDr *xlsxWsDr ) if wsDr, _, err = f.drawingParser(drawingXML); err != nil { return } pics = f.getPicturesFromWsDr(row, col, drawingRelationships, wsDr) deWsDr = new(decodeWsDr) if err = f.xmlNewDecoder(bytes.NewReader(namespaceStrictToTransitional(f.readXML(drawingXML)))). Decode(deWsDr); err != nil && err != io.EOF { return } err = nil extractAnchor := func(anchor *decodeCellAnchor) { deCellAnchor = new(decodeCellAnchor) if err := f.xmlNewDecoder(strings.NewReader("" + anchor.Content + "")). Decode(deCellAnchor); err != nil && err != io.EOF { return } if err = nil; deCellAnchor.From != nil && deCellAnchor.Pic != nil { if deCellAnchor.From.Col == col && deCellAnchor.From.Row == row { drawRel = f.getDrawingRelationships(drawingRelationships, deCellAnchor.Pic.BlipFill.Blip.Embed) if _, ok = supportedImageTypes[strings.ToLower(filepath.Ext(drawRel.Target))]; ok { pic := Picture{Extension: filepath.Ext(drawRel.Target), Format: &GraphicOptions{}} if buffer, _ := f.Pkg.Load(strings.ReplaceAll(drawRel.Target, "..", "xl")); buffer != nil { pic.File = buffer.([]byte) pic.Format.AltText = deCellAnchor.Pic.NvPicPr.CNvPr.Descr pics = append(pics, pic) } } } } } for _, anchor := range deWsDr.TwoCellAnchor { extractAnchor(anchor) } for _, anchor := range deWsDr.OneCellAnchor { extractAnchor(anchor) } return } // getPicturesFromWsDr provides a function to get picture base name and raw // content in worksheet drawing by given coordinates and drawing // relationships. func (f *File) getPicturesFromWsDr(row, col int, drawingRelationships string, wsDr *xlsxWsDr) (pics []Picture) { var ( ok bool anchor *xdrCellAnchor drawRel *xlsxRelationship ) wsDr.mu.Lock() defer wsDr.mu.Unlock() for _, anchor = range wsDr.TwoCellAnchor { if anchor.From != nil && anchor.Pic != nil { if anchor.From.Col == col && anchor.From.Row == row { if drawRel = f.getDrawingRelationships(drawingRelationships, anchor.Pic.BlipFill.Blip.Embed); drawRel != nil { if _, ok = supportedImageTypes[strings.ToLower(filepath.Ext(drawRel.Target))]; ok { pic := Picture{Extension: filepath.Ext(drawRel.Target), Format: &GraphicOptions{}} if buffer, _ := f.Pkg.Load(strings.ReplaceAll(drawRel.Target, "..", "xl")); buffer != nil { pic.File = buffer.([]byte) pic.Format.AltText = anchor.Pic.NvPicPr.CNvPr.Descr pics = append(pics, pic) } } } } } } return } // getDrawingRelationships provides a function to get drawing relationships // from xl/drawings/_rels/drawing%s.xml.rels by given file name and // relationship ID. func (f *File) getDrawingRelationships(rels, rID string) *xlsxRelationship { if drawingRels, _ := f.relsReader(rels); drawingRels != nil { drawingRels.mu.Lock() defer drawingRels.mu.Unlock() for _, v := range drawingRels.Relationships { if v.ID == rID { return &v } } } return nil } // drawingsWriter provides a function to save xl/drawings/drawing%d.xml after // serialize structure. func (f *File) drawingsWriter() { f.Drawings.Range(func(path, d interface{}) bool { if d != nil { v, _ := xml.Marshal(d.(*xlsxWsDr)) f.saveFileList(path.(string), v) } return true }) } // drawingResize calculate the height and width after resizing. func (f *File) drawingResize(sheet, cell string, width, height float64, opts *GraphicOptions) (w, h, c, r int, err error) { var mergeCells []MergeCell mergeCells, err = f.GetMergeCells(sheet) if err != nil { return } var rng []int var inMergeCell bool if c, r, err = CellNameToCoordinates(cell); err != nil { return } cellWidth, cellHeight := f.getColWidth(sheet, c), f.getRowHeight(sheet, r) for _, mergeCell := range mergeCells { if inMergeCell { continue } if inMergeCell, err = f.checkCellInRangeRef(cell, mergeCell[0]); err != nil { return } if inMergeCell { rng, _ = cellRefsToCoordinates(mergeCell.GetStartAxis(), mergeCell.GetEndAxis()) _ = sortCoordinates(rng) } } if inMergeCell { cellWidth, cellHeight = 0, 0 c, r = rng[0], rng[1] for col := rng[0]; col <= rng[2]; col++ { cellWidth += f.getColWidth(sheet, col) } for row := rng[1]; row <= rng[3]; row++ { cellHeight += f.getRowHeight(sheet, row) } } if float64(cellWidth) < width { asp := float64(cellWidth) / width width, height = float64(cellWidth), height*asp } if float64(cellHeight) < height { asp := float64(cellHeight) / height height, width = float64(cellHeight), width*asp } width, height = width-float64(opts.OffsetX), height-float64(opts.OffsetY) w, h = int(width*opts.ScaleX), int(height*opts.ScaleY) return }