// Copyright 2016 - 2024 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 1.18 or later. package excelize import ( "bytes" "encoding/xml" "io" "strconv" "strings" "unicode" "github.com/xuri/efp" ) type adjustDirection bool const ( columns adjustDirection = false rows adjustDirection = true ) // adjustHelperFunc defines functions to adjust helper. var adjustHelperFunc = [9]func(*File, *xlsxWorksheet, string, adjustDirection, int, int, int) error{ func(f *File, ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { return f.adjustConditionalFormats(ws, sheet, dir, num, offset, sheetID) }, func(f *File, ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { return f.adjustDataValidations(ws, sheet, dir, num, offset, sheetID) }, func(f *File, ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { return f.adjustDefinedNames(ws, sheet, dir, num, offset, sheetID) }, func(f *File, ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { return f.adjustDrawings(ws, sheet, dir, num, offset, sheetID) }, func(f *File, ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { return f.adjustMergeCells(ws, sheet, dir, num, offset, sheetID) }, func(f *File, ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { return f.adjustAutoFilter(ws, sheet, dir, num, offset, sheetID) }, func(f *File, ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { return f.adjustCalcChain(ws, sheet, dir, num, offset, sheetID) }, func(f *File, ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { return f.adjustTable(ws, sheet, dir, num, offset, sheetID) }, func(f *File, ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { return f.adjustVolatileDeps(ws, sheet, dir, num, offset, sheetID) }, } // adjustHelper provides a function to adjust rows and columns dimensions, // hyperlinks, merged cells and auto filter when inserting or deleting rows or // columns. // // sheet: Worksheet name that we're editing // column: Index number of the column we're inserting/deleting before // row: Index number of the row we're inserting/deleting before // offset: Number of rows/column to insert/delete negative values indicate deletion // // TODO: adjustComments, adjustPageBreaks, adjustProtectedCells func (f *File) adjustHelper(sheet string, dir adjustDirection, num, offset int) error { ws, err := f.workSheetReader(sheet) if err != nil { return err } sheetID := f.getSheetID(sheet) if dir == rows { err = f.adjustRowDimensions(sheet, ws, num, offset) } else { err = f.adjustColDimensions(sheet, ws, num, offset) } if err != nil { return err } f.adjustHyperlinks(ws, sheet, dir, num, offset) ws.checkSheet() _ = ws.checkRow() for _, fn := range adjustHelperFunc { if err := fn(f, ws, sheet, dir, num, offset, sheetID); err != nil { return err } } if ws.MergeCells != nil && len(ws.MergeCells.Cells) == 0 { ws.MergeCells = nil } return nil } // adjustCols provides a function to update column style when inserting or // deleting columns. func (f *File) adjustCols(ws *xlsxWorksheet, col, offset int) error { if ws.Cols == nil { return nil } for i := 0; i < len(ws.Cols.Col); i++ { if offset > 0 { if ws.Cols.Col[i].Min >= col { if ws.Cols.Col[i].Min += offset; ws.Cols.Col[i].Min > MaxColumns { ws.Cols.Col = append(ws.Cols.Col[:i], ws.Cols.Col[i+1:]...) i-- continue } } if ws.Cols.Col[i].Max >= col || ws.Cols.Col[i].Max+1 == col { if ws.Cols.Col[i].Max += offset; ws.Cols.Col[i].Max > MaxColumns { ws.Cols.Col[i].Max = MaxColumns } } continue } if ws.Cols.Col[i].Min == col && ws.Cols.Col[i].Max == col { ws.Cols.Col = append(ws.Cols.Col[:i], ws.Cols.Col[i+1:]...) i-- continue } if ws.Cols.Col[i].Min > col { ws.Cols.Col[i].Min += offset } if ws.Cols.Col[i].Max >= col { ws.Cols.Col[i].Max += offset } } if len(ws.Cols.Col) == 0 { ws.Cols = nil } return nil } // adjustColDimensions provides a function to update column dimensions when // inserting or deleting rows or columns. func (f *File) adjustColDimensions(sheet string, ws *xlsxWorksheet, col, offset int) error { for rowIdx := range ws.SheetData.Row { for _, v := range ws.SheetData.Row[rowIdx].C { if cellCol, _, _ := CellNameToCoordinates(v.R); col <= cellCol { if newCol := cellCol + offset; newCol > 0 && newCol > MaxColumns { return ErrColumnNumber } } } } for _, sheetN := range f.GetSheetList() { worksheet, err := f.workSheetReader(sheetN) if err != nil { if err.Error() == newNotWorksheetError(sheetN).Error() { continue } return err } for rowIdx := range worksheet.SheetData.Row { for colIdx, v := range worksheet.SheetData.Row[rowIdx].C { if cellCol, cellRow, _ := CellNameToCoordinates(v.R); sheetN == sheet && col <= cellCol { if newCol := cellCol + offset; newCol > 0 { worksheet.SheetData.Row[rowIdx].C[colIdx].R, _ = CoordinatesToCellName(newCol, cellRow) } } if err := f.adjustFormula(sheet, sheetN, &worksheet.SheetData.Row[rowIdx].C[colIdx], columns, col, offset, false); err != nil { return err } } } } return f.adjustCols(ws, col, offset) } // adjustRowDimensions provides a function to update row dimensions when // inserting or deleting rows or columns. func (f *File) adjustRowDimensions(sheet string, ws *xlsxWorksheet, row, offset int) error { for _, sheetN := range f.GetSheetList() { if sheetN == sheet { continue } worksheet, err := f.workSheetReader(sheetN) if err != nil { if err.Error() == newNotWorksheetError(sheetN).Error() { continue } return err } numOfRows := len(worksheet.SheetData.Row) for i := 0; i < numOfRows; i++ { r := &worksheet.SheetData.Row[i] if err = f.adjustSingleRowFormulas(sheet, sheetN, r, row, offset, false); err != nil { return err } } } totalRows := len(ws.SheetData.Row) if totalRows == 0 { return nil } lastRow := &ws.SheetData.Row[totalRows-1] if newRow := lastRow.R + offset; lastRow.R >= row && newRow > 0 && newRow > TotalRows { return ErrMaxRows } numOfRows := len(ws.SheetData.Row) for i := 0; i < numOfRows; i++ { r := &ws.SheetData.Row[i] if newRow := r.R + offset; r.R >= row && newRow > 0 { r.adjustSingleRowDimensions(offset) } if err := f.adjustSingleRowFormulas(sheet, sheet, r, row, offset, false); err != nil { return err } } return nil } // adjustSingleRowDimensions provides a function to adjust single row dimensions. func (r *xlsxRow) adjustSingleRowDimensions(offset int) { r.R += offset for i, col := range r.C { colName, _, _ := SplitCellName(col.R) r.C[i].R, _ = JoinCellName(colName, r.R) } } // adjustSingleRowFormulas provides a function to adjust single row formulas. func (f *File) adjustSingleRowFormulas(sheet, sheetN string, r *xlsxRow, num, offset int, si bool) error { for i := 0; i < len(r.C); i++ { if err := f.adjustFormula(sheet, sheetN, &r.C[i], rows, num, offset, si); err != nil { return err } } return nil } // adjustCellRef provides a function to adjust cell reference. func (f *File) adjustCellRef(cellRef string, dir adjustDirection, num, offset int) (string, error) { var SQRef []string applyOffset := func(coordinates []int, idx1, idx2, maxVal int) []int { if coordinates[idx1] >= num { coordinates[idx1] += offset } if coordinates[idx2] >= num { if coordinates[idx2] += offset; coordinates[idx2] > maxVal { coordinates[idx2] = maxVal } } return coordinates } for _, ref := range strings.Split(cellRef, " ") { if !strings.Contains(ref, ":") { ref += ":" + ref } coordinates, err := rangeRefToCoordinates(ref) if err != nil { return "", err } if dir == columns { if offset < 0 && coordinates[0] == coordinates[2] { continue } coordinates = applyOffset(coordinates, 0, 2, MaxColumns) } else { if offset < 0 && coordinates[1] == coordinates[3] { continue } coordinates = applyOffset(coordinates, 1, 3, TotalRows) } if ref, err = coordinatesToRangeRef(coordinates); err != nil { return "", err } SQRef = append(SQRef, ref) } return strings.Join(SQRef, " "), nil } // adjustFormula provides a function to adjust formula reference and shared // formula reference. func (f *File) adjustFormula(sheet, sheetN string, cell *xlsxC, dir adjustDirection, num, offset int, si bool) error { var err error if cell.f != "" { if cell.f, err = f.adjustFormulaRef(sheet, sheetN, cell.f, false, dir, num, offset); err != nil { return err } } if cell.F == nil { return nil } if cell.F.Ref != "" && sheet == sheetN { if cell.F.Ref, err = f.adjustCellRef(cell.F.Ref, dir, num, offset); err != nil { return err } if si && cell.F.Si != nil { cell.F.Si = intPtr(*cell.F.Si + 1) } } if cell.F.Content != "" { if cell.F.Content, err = f.adjustFormulaRef(sheet, sheetN, cell.F.Content, false, dir, num, offset); err != nil { return err } } return nil } // escapeSheetName enclose sheet name in single quotation marks if the giving // worksheet name includes spaces or non-alphabetical characters. func escapeSheetName(name string) string { if strings.IndexFunc(name, func(r rune) bool { return !unicode.IsLetter(r) && !unicode.IsNumber(r) }) != -1 { return "'" + strings.ReplaceAll(name, "'", "''") + "'" } return name } // adjustFormulaColumnName adjust column name in the formula reference. func adjustFormulaColumnName(name, operand string, abs, keepRelative bool, dir adjustDirection, num, offset int) (string, string, bool, error) { if name == "" || (!abs && keepRelative) { return "", operand + name, abs, nil } col, err := ColumnNameToNumber(name) if err != nil { return "", operand, false, err } if dir == columns && col >= num { if col += offset; col < 1 { col = 1 } colName, err := ColumnNumberToName(col) return "", operand + colName, false, err } return "", operand + name, false, nil } // adjustFormulaRowNumber adjust row number in the formula reference. func adjustFormulaRowNumber(name, operand string, abs, keepRelative bool, dir adjustDirection, num, offset int) (string, string, bool, error) { if name == "" || (!abs && keepRelative) { return "", operand + name, abs, nil } row, _ := strconv.Atoi(name) if dir == rows && row >= num { if row += offset; row < 1 { row = 1 } if row > TotalRows { return "", operand + name, false, ErrMaxRows } return "", operand + strconv.Itoa(row), false, nil } return "", operand + name, false, nil } // adjustFormulaOperandRef adjust cell reference in the operand tokens for the formula. func adjustFormulaOperandRef(row, col, operand string, abs, keepRelative bool, dir adjustDirection, num int, offset int) (string, string, string, bool, error) { var err error col, operand, abs, err = adjustFormulaColumnName(col, operand, abs, keepRelative, dir, num, offset) if err != nil { return row, col, operand, abs, err } row, operand, abs, err = adjustFormulaRowNumber(row, operand, abs, keepRelative, dir, num, offset) return row, col, operand, abs, err } // adjustFormulaOperand adjust range operand tokens for the formula. func (f *File) adjustFormulaOperand(sheet, sheetN string, keepRelative bool, token efp.Token, dir adjustDirection, num int, offset int) (string, error) { var ( err error abs bool sheetName, col, row, operand string cell = token.TValue tokens = strings.Split(token.TValue, "!") ) if len(tokens) == 2 { // have a worksheet sheetName, cell = tokens[0], tokens[1] operand = escapeSheetName(sheetName) + "!" } if sheetName == "" { sheetName = sheetN } if sheet != sheetName { return operand + cell, err } for _, r := range cell { if r == '$' { if col, operand, _, err = adjustFormulaColumnName(col, operand, abs, keepRelative, dir, num, offset); err != nil { return operand, err } abs = true operand += string(r) continue } if ('A' <= r && r <= 'Z') || ('a' <= r && r <= 'z') { col += string(r) continue } if '0' <= r && r <= '9' { row += string(r) col, operand, abs, err = adjustFormulaColumnName(col, operand, abs, keepRelative, dir, num, offset) if err != nil { return operand, err } continue } if row, col, operand, abs, err = adjustFormulaOperandRef(row, col, operand, abs, keepRelative, dir, num, offset); err != nil { return operand, err } operand += string(r) } _, _, operand, _, err = adjustFormulaOperandRef(row, col, operand, abs, keepRelative, dir, num, offset) return operand, err } // adjustFormulaRef returns adjusted formula by giving adjusting direction and // the base number of column or row, and offset. func (f *File) adjustFormulaRef(sheet, sheetN, formula string, keepRelative bool, dir adjustDirection, num, offset int) (string, error) { var ( val string definedNames []string ps = efp.ExcelParser() ) for _, definedName := range f.GetDefinedName() { if definedName.Scope == "Workbook" || definedName.Scope == sheet { definedNames = append(definedNames, definedName.Name) } } for _, token := range ps.Parse(formula) { if token.TType == efp.TokenTypeUnknown { val = formula break } if token.TType == efp.TokenTypeOperand && token.TSubType == efp.TokenSubTypeRange { if inStrSlice(definedNames, token.TValue, true) != -1 { val += token.TValue continue } if strings.ContainsAny(token.TValue, "[]") { val += token.TValue continue } operand, err := f.adjustFormulaOperand(sheet, sheetN, keepRelative, token, dir, num, offset) if err != nil { return val, err } val += operand continue } if paren := transformParenthesesToken(token); paren != "" { val += transformParenthesesToken(token) continue } if token.TType == efp.TokenTypeOperand && token.TSubType == efp.TokenSubTypeText { val += string(efp.QuoteDouble) + strings.ReplaceAll(token.TValue, "\"", "\"\"") + string(efp.QuoteDouble) continue } val += token.TValue } return val, nil } // transformParenthesesToken returns formula part with parentheses by given // token. func transformParenthesesToken(token efp.Token) string { if isFunctionStartToken(token) || isBeginParenthesesToken(token) { return token.TValue + string(efp.ParenOpen) } if isFunctionStopToken(token) || isEndParenthesesToken(token) { return token.TValue + string(efp.ParenClose) } return "" } // adjustRangeSheetName returns replaced range reference by given source and // target sheet name. func adjustRangeSheetName(rng, source, target string) string { cellRefs := strings.Split(rng, ",") for i, cellRef := range cellRefs { rangeRefs := strings.Split(cellRef, ":") for j, rangeRef := range rangeRefs { parts := strings.Split(rangeRef, "!") for k, part := range parts { singleQuote := strings.HasPrefix(part, "'") && strings.HasSuffix(part, "'") if singleQuote { part = strings.TrimPrefix(strings.TrimSuffix(part, "'"), "'") } if part == source { if part = target; singleQuote { part = "'" + part + "'" } } parts[k] = part } rangeRefs[j] = strings.Join(parts, "!") } cellRefs[i] = strings.Join(rangeRefs, ":") } return strings.Join(cellRefs, ",") } // arrayFormulaOperandToken defines meta fields for transforming the array // formula to the normal formula. type arrayFormulaOperandToken struct { operandTokenIndex, topLeftCol, topLeftRow, bottomRightCol, bottomRightRow int sheetName, sourceCellRef, targetCellRef string } // setCoordinates convert each corner cell reference in the array formula cell // range to the coordinate number. func (af *arrayFormulaOperandToken) setCoordinates() error { for i, ref := range strings.Split(af.sourceCellRef, ":") { cellRef, col, row, err := parseRef(ref) if err != nil { return err } var c, r int if col { if cellRef.Row = TotalRows; i == 0 { cellRef.Row = 1 } } if row { if cellRef.Col = MaxColumns; i == 0 { cellRef.Col = 1 } } if c, r = cellRef.Col, cellRef.Row; cellRef.Sheet != "" { af.sheetName = cellRef.Sheet + "!" } if af.topLeftCol == 0 || c < af.topLeftCol { af.topLeftCol = c } if af.topLeftRow == 0 || r < af.topLeftRow { af.topLeftRow = r } if c > af.bottomRightCol { af.bottomRightCol = c } if r > af.bottomRightRow { af.bottomRightRow = r } } return nil } // transformArrayFormula transforms an array formula to the normal formula by // giving a formula tokens list and formula operand tokens list. func transformArrayFormula(tokens []efp.Token, afs []arrayFormulaOperandToken) string { var val string for i, token := range tokens { var skip bool for _, af := range afs { if af.operandTokenIndex == i { val += af.sheetName + af.targetCellRef skip = true break } } if skip { continue } if paren := transformParenthesesToken(token); paren != "" { val += transformParenthesesToken(token) continue } if token.TType == efp.TokenTypeOperand && token.TSubType == efp.TokenSubTypeText { val += string(efp.QuoteDouble) + strings.ReplaceAll(token.TValue, "\"", "\"\"") + string(efp.QuoteDouble) continue } val += token.TValue } return val } // getArrayFormulaTokens returns parsed formula token and operand related token // list for in array formula. func getArrayFormulaTokens(sheet, formula string, definedNames []DefinedName) ([]efp.Token, []arrayFormulaOperandToken, error) { var ( ps = efp.ExcelParser() tokens = ps.Parse(formula) arrayFormulaOperandTokens []arrayFormulaOperandToken ) for i, token := range tokens { if token.TSubType == efp.TokenSubTypeRange && token.TType == efp.TokenTypeOperand { tokenVal := token.TValue for _, definedName := range definedNames { if (definedName.Scope == "Workbook" || definedName.Scope == sheet) && definedName.Name == tokenVal { tokenVal = definedName.RefersTo } } if len(strings.Split(tokenVal, ":")) > 1 { arrayFormulaOperandToken := arrayFormulaOperandToken{ operandTokenIndex: i, sourceCellRef: tokenVal, } if err := arrayFormulaOperandToken.setCoordinates(); err != nil { return tokens, arrayFormulaOperandTokens, err } arrayFormulaOperandTokens = append(arrayFormulaOperandTokens, arrayFormulaOperandToken) } } } return tokens, arrayFormulaOperandTokens, nil } // adjustHyperlinks provides a function to update hyperlinks when inserting or // deleting rows or columns. func (f *File) adjustHyperlinks(ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset int) { // short path if ws.Hyperlinks == nil || len(ws.Hyperlinks.Hyperlink) == 0 { return } // order is important if offset < 0 { for i := len(ws.Hyperlinks.Hyperlink) - 1; i >= 0; i-- { linkData := ws.Hyperlinks.Hyperlink[i] colNum, rowNum, _ := CellNameToCoordinates(linkData.Ref) if (dir == rows && num == rowNum) || (dir == columns && num == colNum) { f.deleteSheetRelationships(sheet, linkData.RID) if len(ws.Hyperlinks.Hyperlink) > 1 { ws.Hyperlinks.Hyperlink = append(ws.Hyperlinks.Hyperlink[:i], ws.Hyperlinks.Hyperlink[i+1:]...) } else { ws.Hyperlinks = nil } } } } if ws.Hyperlinks == nil { return } for i := range ws.Hyperlinks.Hyperlink { link := &ws.Hyperlinks.Hyperlink[i] // get reference link.Ref, _ = f.adjustFormulaRef(sheet, sheet, link.Ref, false, dir, num, offset) } } // adjustTable provides a function to update the table when inserting or // deleting rows or columns. func (f *File) adjustTable(ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { if ws.TableParts == nil || len(ws.TableParts.TableParts) == 0 { return nil } for idx := 0; idx < len(ws.TableParts.TableParts); idx++ { tbl := ws.TableParts.TableParts[idx] target := f.getSheetRelationshipsTargetByID(sheet, tbl.RID) tableXML := strings.ReplaceAll(target, "..", "xl") content, ok := f.Pkg.Load(tableXML) if !ok { continue } t := xlsxTable{} if err := f.xmlNewDecoder(bytes.NewReader(namespaceStrictToTransitional(content.([]byte)))). Decode(&t); err != nil && err != io.EOF { return err } coordinates, err := rangeRefToCoordinates(t.Ref) if err != nil { return err } // Remove the table when deleting the header row of the table if dir == rows && num == coordinates[0] && offset == -1 { ws.TableParts.TableParts = append(ws.TableParts.TableParts[:idx], ws.TableParts.TableParts[idx+1:]...) ws.TableParts.Count = len(ws.TableParts.TableParts) idx-- continue } coordinates = f.adjustAutoFilterHelper(dir, coordinates, num, offset) x1, y1, x2, y2 := coordinates[0], coordinates[1], coordinates[2], coordinates[3] if y2-y1 < 1 || x2-x1 < 0 { ws.TableParts.TableParts = append(ws.TableParts.TableParts[:idx], ws.TableParts.TableParts[idx+1:]...) ws.TableParts.Count = len(ws.TableParts.TableParts) idx-- continue } t.Ref, _ = coordinatesToRangeRef([]int{x1, y1, x2, y2}) if t.AutoFilter != nil { t.AutoFilter.Ref = t.Ref } _ = f.setTableColumns(sheet, true, x1, y1, x2, &t) // Currently doesn't support query table t.TableType, t.TotalsRowCount, t.ConnectionID = "", 0, 0 table, _ := xml.Marshal(t) f.saveFileList(tableXML, table) } return nil } // adjustAutoFilter provides a function to update the auto filter when // inserting or deleting rows or columns. func (f *File) adjustAutoFilter(ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { if ws.AutoFilter == nil { return nil } coordinates, err := rangeRefToCoordinates(ws.AutoFilter.Ref) if err != nil { return err } x1, y1, x2, y2 := coordinates[0], coordinates[1], coordinates[2], coordinates[3] if (dir == rows && y1 == num && offset < 0) || (dir == columns && x1 == num && x2 == num) { ws.AutoFilter = nil for rowIdx := range ws.SheetData.Row { rowData := &ws.SheetData.Row[rowIdx] if rowData.R > y1 && rowData.R <= y2 { rowData.Hidden = false } } return err } coordinates = f.adjustAutoFilterHelper(dir, coordinates, num, offset) x1, y1, x2, y2 = coordinates[0], coordinates[1], coordinates[2], coordinates[3] ws.AutoFilter.Ref, err = coordinatesToRangeRef([]int{x1, y1, x2, y2}) return err } // adjustAutoFilterHelper provides a function for adjusting auto filter to // compare and calculate cell reference by the giving adjusting direction, // operation reference and offset. func (f *File) adjustAutoFilterHelper(dir adjustDirection, coordinates []int, num, offset int) []int { if dir == rows { if coordinates[1] >= num { coordinates[1] += offset } if coordinates[3] >= num { coordinates[3] += offset } return coordinates } if coordinates[0] >= num { coordinates[0] += offset } if coordinates[2] >= num { coordinates[2] += offset } return coordinates } // adjustMergeCells provides a function to update merged cells when inserting // or deleting rows or columns. func (f *File) adjustMergeCells(ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { if ws.MergeCells == nil { return nil } for i := 0; i < len(ws.MergeCells.Cells); i++ { mergedCells := ws.MergeCells.Cells[i] mergedCellsRef := mergedCells.Ref if !strings.Contains(mergedCellsRef, ":") { mergedCellsRef += ":" + mergedCellsRef } coordinates, err := rangeRefToCoordinates(mergedCellsRef) if err != nil { return err } x1, y1, x2, y2 := coordinates[0], coordinates[1], coordinates[2], coordinates[3] if dir == rows { if y1 == num && y2 == num && offset < 0 { f.deleteMergeCell(ws, i) i-- continue } y1, y2 = f.adjustMergeCellsHelper(y1, y2, num, offset) } else { if x1 == num && x2 == num && offset < 0 { f.deleteMergeCell(ws, i) i-- continue } x1, x2 = f.adjustMergeCellsHelper(x1, x2, num, offset) } if x1 == x2 && y1 == y2 { f.deleteMergeCell(ws, i) i-- continue } mergedCells.rect = []int{x1, y1, x2, y2} if mergedCells.Ref, err = coordinatesToRangeRef([]int{x1, y1, x2, y2}); err != nil { return err } } return nil } // adjustMergeCellsHelper provides a function for adjusting merge cells to // compare and calculate cell reference by the given pivot, operation reference // and offset. func (f *File) adjustMergeCellsHelper(p1, p2, num, offset int) (int, int) { if p2 < p1 { p1, p2 = p2, p1 } if offset >= 0 { if num <= p1 { p1 += offset p2 += offset } else if num <= p2 { p2 += offset } return p1, p2 } if num < p1 || (num == p1 && num == p2) { p1 += offset p2 += offset } else if num <= p2 { p2 += offset } return p1, p2 } // deleteMergeCell provides a function to delete merged cell by given index. func (f *File) deleteMergeCell(ws *xlsxWorksheet, idx int) { if idx < 0 { return } if len(ws.MergeCells.Cells) > idx { ws.MergeCells.Cells = append(ws.MergeCells.Cells[:idx], ws.MergeCells.Cells[idx+1:]...) ws.MergeCells.Count = len(ws.MergeCells.Cells) } } // adjustCellName returns updated cell name by giving column/row number and // offset on inserting or deleting rows or columns. func adjustCellName(cell string, dir adjustDirection, c, r, offset int) (string, error) { if dir == rows { if rn := r + offset; rn > 0 { return CoordinatesToCellName(c, rn) } } return CoordinatesToCellName(c+offset, r) } // adjustCalcChain provides a function to update the calculation chain when // inserting or deleting rows or columns. func (f *File) adjustCalcChain(ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { if f.CalcChain == nil { return nil } // If sheet ID is omitted, it is assumed to be the same as the i value of // the previous cell. var prevSheetID int for i := 0; i < len(f.CalcChain.C); i++ { c := f.CalcChain.C[i] if c.I == 0 { c.I = prevSheetID } prevSheetID = c.I if c.I != sheetID { continue } colNum, rowNum, err := CellNameToCoordinates(c.R) if err != nil { return err } if dir == rows && num <= rowNum { if num == rowNum && offset == -1 { _ = f.deleteCalcChain(c.I, c.R) i-- continue } f.CalcChain.C[i].R, _ = adjustCellName(c.R, dir, colNum, rowNum, offset) } if dir == columns && num <= colNum { if num == colNum && offset == -1 { _ = f.deleteCalcChain(c.I, c.R) i-- continue } f.CalcChain.C[i].R, _ = adjustCellName(c.R, dir, colNum, rowNum, offset) } } return nil } // adjustVolatileDepsTopic updates the volatile dependencies topic when // inserting or deleting rows or columns. func (vt *xlsxVolTypes) adjustVolatileDepsTopic(cell string, dir adjustDirection, indexes []int) (int, error) { num, offset, i1, i2, i3, i4 := indexes[0], indexes[1], indexes[2], indexes[3], indexes[4], indexes[5] colNum, rowNum, err := CellNameToCoordinates(cell) if err != nil { return i4, err } if dir == rows && num <= rowNum { if num == rowNum && offset == -1 { vt.deleteVolTopicRef(i1, i2, i3, i4) i4-- return i4, err } vt.VolType[i1].Main[i2].Tp[i3].Tr[i4].R, _ = adjustCellName(cell, dir, colNum, rowNum, offset) } if dir == columns && num <= colNum { if num == colNum && offset == -1 { vt.deleteVolTopicRef(i1, i2, i3, i4) i4-- return i4, err } if name, _ := adjustCellName(cell, dir, colNum, rowNum, offset); name != "" { vt.VolType[i1].Main[i2].Tp[i3].Tr[i4].R, _ = adjustCellName(cell, dir, colNum, rowNum, offset) } } return i4, err } // adjustVolatileDeps updates the volatile dependencies when inserting or // deleting rows or columns. func (f *File) adjustVolatileDeps(ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { volTypes, err := f.volatileDepsReader() if err != nil || volTypes == nil { return err } for i1 := 0; i1 < len(volTypes.VolType); i1++ { for i2 := 0; i2 < len(volTypes.VolType[i1].Main); i2++ { for i3 := 0; i3 < len(volTypes.VolType[i1].Main[i2].Tp); i3++ { for i4 := 0; i4 < len(volTypes.VolType[i1].Main[i2].Tp[i3].Tr); i4++ { ref := volTypes.VolType[i1].Main[i2].Tp[i3].Tr[i4] if ref.S != sheetID { continue } if i4, err = volTypes.adjustVolatileDepsTopic(ref.R, dir, []int{num, offset, i1, i2, i3, i4}); err != nil { return err } } } } } return nil } // adjustConditionalFormats updates the cell reference of the worksheet // conditional formatting when inserting or deleting rows or columns. func (f *File) adjustConditionalFormats(ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { for i := 0; i < len(ws.ConditionalFormatting); i++ { cf := ws.ConditionalFormatting[i] if cf == nil { continue } ref, err := f.adjustCellRef(cf.SQRef, dir, num, offset) if err != nil { return err } if ref == "" { ws.ConditionalFormatting = append(ws.ConditionalFormatting[:i], ws.ConditionalFormatting[i+1:]...) i-- continue } ws.ConditionalFormatting[i].SQRef = ref } return nil } // adjustDataValidations updates the range of data validations for the worksheet // when inserting or deleting rows or columns. func (f *File) adjustDataValidations(ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { for _, sheetN := range f.GetSheetList() { worksheet, err := f.workSheetReader(sheetN) if err != nil { if err.Error() == newNotWorksheetError(sheetN).Error() { continue } return err } if worksheet.DataValidations == nil { return nil } for i := 0; i < len(worksheet.DataValidations.DataValidation); i++ { dv := worksheet.DataValidations.DataValidation[i] if dv == nil { continue } if sheet == sheetN { ref, err := f.adjustCellRef(dv.Sqref, dir, num, offset) if err != nil { return err } if ref == "" { worksheet.DataValidations.DataValidation = append(worksheet.DataValidations.DataValidation[:i], worksheet.DataValidations.DataValidation[i+1:]...) i-- continue } worksheet.DataValidations.DataValidation[i].Sqref = ref } if worksheet.DataValidations.DataValidation[i].Formula1.isFormula() { formula := formulaUnescaper.Replace(worksheet.DataValidations.DataValidation[i].Formula1.Content) if formula, err = f.adjustFormulaRef(sheet, sheetN, formula, false, dir, num, offset); err != nil { return err } worksheet.DataValidations.DataValidation[i].Formula1 = &xlsxInnerXML{Content: formulaEscaper.Replace(formula)} } if worksheet.DataValidations.DataValidation[i].Formula2.isFormula() { formula := formulaUnescaper.Replace(worksheet.DataValidations.DataValidation[i].Formula2.Content) if formula, err = f.adjustFormulaRef(sheet, sheetN, formula, false, dir, num, offset); err != nil { return err } worksheet.DataValidations.DataValidation[i].Formula2 = &xlsxInnerXML{Content: formulaEscaper.Replace(formula)} } } if worksheet.DataValidations.Count = len(worksheet.DataValidations.DataValidation); worksheet.DataValidations.Count == 0 { worksheet.DataValidations = nil } } return nil } // adjustDrawings updates the starting anchor of the two cell anchor pictures // and charts object when inserting or deleting rows or columns. func (from *xlsxFrom) adjustDrawings(dir adjustDirection, num, offset int, editAs string) (bool, error) { var ok bool if dir == columns && from.Col+1 >= num && from.Col+offset >= 0 { if from.Col+offset >= MaxColumns { return false, ErrColumnNumber } from.Col += offset ok = editAs == "oneCell" } if dir == rows && from.Row+1 >= num && from.Row+offset >= 0 { if from.Row+offset >= TotalRows { return false, ErrMaxRows } from.Row += offset ok = editAs == "oneCell" } return ok, nil } // adjustDrawings updates the ending anchor of the two cell anchor pictures // and charts object when inserting or deleting rows or columns. func (to *xlsxTo) adjustDrawings(dir adjustDirection, num, offset int, editAs string, ok bool) error { if dir == columns && to.Col+1 >= num && to.Col+offset >= 0 && ok { if to.Col+offset >= MaxColumns { return ErrColumnNumber } to.Col += offset } if dir == rows && to.Row+1 >= num && to.Row+offset >= 0 && ok { if to.Row+offset >= TotalRows { return ErrMaxRows } to.Row += offset } return nil } // adjustDrawings updates the two cell anchor pictures and charts object when // inserting or deleting rows or columns. func (a *xdrCellAnchor) adjustDrawings(dir adjustDirection, num, offset int) error { editAs := a.EditAs if a.From == nil || a.To == nil || editAs == "absolute" { return nil } ok, err := a.From.adjustDrawings(dir, num, offset, editAs) if err != nil { return err } return a.To.adjustDrawings(dir, num, offset, editAs, ok || editAs == "") } // adjustDrawings updates the existing two cell anchor pictures and charts // object when inserting or deleting rows or columns. func (a *xlsxCellAnchorPos) adjustDrawings(dir adjustDirection, num, offset int, editAs string) error { if a.From == nil || a.To == nil || editAs == "absolute" { return nil } ok, err := a.From.adjustDrawings(dir, num, offset, editAs) if err != nil { return err } return a.To.adjustDrawings(dir, num, offset, editAs, ok || editAs == "") } // adjustDrawings updates the pictures and charts object when inserting or // deleting rows or columns. func (f *File) adjustDrawings(ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { if ws.Drawing == nil { return nil } target := f.getSheetRelationshipsTargetByID(sheet, ws.Drawing.RID) drawingXML := strings.TrimPrefix(strings.ReplaceAll(target, "..", "xl"), "/") var ( err error wsDr *xlsxWsDr ) if wsDr, _, err = f.drawingParser(drawingXML); err != nil { return err } anchorCb := func(a *xdrCellAnchor) error { if a.GraphicFrame == "" { return a.adjustDrawings(dir, num, offset) } deCellAnchor := decodeCellAnchor{} deCellAnchorPos := decodeCellAnchorPos{} _ = f.xmlNewDecoder(strings.NewReader("" + a.GraphicFrame + "")).Decode(&deCellAnchor) _ = f.xmlNewDecoder(strings.NewReader("" + a.GraphicFrame + "")).Decode(&deCellAnchorPos) xlsxCellAnchorPos := xlsxCellAnchorPos(deCellAnchorPos) for i := 0; i < len(xlsxCellAnchorPos.AlternateContent); i++ { xlsxCellAnchorPos.AlternateContent[i].XMLNSMC = SourceRelationshipCompatibility.Value } if deCellAnchor.From != nil { xlsxCellAnchorPos.From = &xlsxFrom{ Col: deCellAnchor.From.Col, ColOff: deCellAnchor.From.ColOff, Row: deCellAnchor.From.Row, RowOff: deCellAnchor.From.RowOff, } } if deCellAnchor.To != nil { xlsxCellAnchorPos.To = &xlsxTo{ Col: deCellAnchor.To.Col, ColOff: deCellAnchor.To.ColOff, Row: deCellAnchor.To.Row, RowOff: deCellAnchor.To.RowOff, } } if err = xlsxCellAnchorPos.adjustDrawings(dir, num, offset, a.EditAs); err != nil { return err } cellAnchor, _ := xml.Marshal(xlsxCellAnchorPos) a.GraphicFrame = strings.TrimSuffix(strings.TrimPrefix(string(cellAnchor), ""), "") return err } for _, anchor := range wsDr.TwoCellAnchor { if err = anchorCb(anchor); err != nil { return err } } return nil } // adjustDefinedNames updates the cell reference of the defined names when // inserting or deleting rows or columns. func (f *File) adjustDefinedNames(ws *xlsxWorksheet, sheet string, dir adjustDirection, num, offset, sheetID int) error { wb, err := f.workbookReader() if err != nil { return err } if wb.DefinedNames != nil { for i := 0; i < len(wb.DefinedNames.DefinedName); i++ { data := wb.DefinedNames.DefinedName[i].Data if data, err = f.adjustFormulaRef(sheet, "", data, true, dir, num, offset); err == nil { wb.DefinedNames.DefinedName[i].Data = data } } } return nil }