package excelize import ( "archive/zip" "bytes" "io" "log" "math" "unicode" ) // ReadZipReader can be used to read an XLSX in memory without touching the // filesystem. func ReadZipReader(r *zip.Reader) (map[string][]byte, int, error) { fileList := make(map[string][]byte) worksheets := 0 for _, v := range r.File { fileList[v.Name] = readFile(v) if len(v.Name) > 18 { if v.Name[0:19] == "xl/worksheets/sheet" { worksheets++ } } } return fileList, worksheets, nil } // readXML provides a function to read XML content as string. func (f *File) readXML(name string) []byte { if content, ok := f.XLSX[name]; ok { return content } return []byte{} } // saveFileList provides a function to update given file content in file list // of XLSX. func (f *File) saveFileList(name string, content []byte) { newContent := make([]byte, 0, len(XMLHeader)+len(content)) newContent = append(newContent, []byte(XMLHeader)...) newContent = append(newContent, content...) f.XLSX[name] = newContent } // Read file content as string in a archive file. func readFile(file *zip.File) []byte { rc, err := file.Open() if err != nil { log.Fatal(err) } buff := bytes.NewBuffer(nil) _, _ = io.Copy(buff, rc) rc.Close() return buff.Bytes() } // ToAlphaString provides a function to convert integer to Excel sheet column // title. For example convert 36 to column title AK: // // excelize.ToAlphaString(36) // func ToAlphaString(value int) string { if value < 0 { return "" } var ans string i := value + 1 for i > 0 { ans = string((i-1)%26+65) + ans i = (i - 1) / 26 } return ans } // TitleToNumber provides a function to convert Excel sheet column title to // int (this function doesn't do value check currently). For example convert // AK and ak to column title 36: // // excelize.TitleToNumber("AK") // excelize.TitleToNumber("ak") // func TitleToNumber(s string) int { weight := 0.0 sum := 0 for i := len(s) - 1; i >= 0; i-- { ch := int(s[i]) if int(s[i]) >= int('a') && int(s[i]) <= int('z') { ch = int(s[i]) - 32 } sum = sum + (ch-int('A')+1)*int(math.Pow(26, weight)) weight++ } return sum - 1 } // letterOnlyMapF is used in conjunction with strings.Map to return only the // characters A-Z and a-z in a string. func letterOnlyMapF(rune rune) rune { switch { case 'A' <= rune && rune <= 'Z': return rune case 'a' <= rune && rune <= 'z': return rune - 32 } return -1 } // intOnlyMapF is used in conjunction with strings.Map to return only the // numeric portions of a string. func intOnlyMapF(rune rune) rune { if rune >= 48 && rune < 58 { return rune } return -1 } // boolPtr returns a pointer to a bool with the given value. func boolPtr(b bool) *bool { return &b } // defaultTrue returns true if b is nil, or the pointed value. func defaultTrue(b *bool) bool { if b == nil { return true } return *b } // axisLowerOrEqualThan returns true if axis1 <= axis2 axis1/axis2 can be // either a column or a row axis, e.g. "A", "AAE", "42", "1", etc. // // For instance, the following comparisons are all true: // // "A" <= "B" // "A" <= "AA" // "B" <= "AA" // "BC" <= "ABCD" (in a XLSX sheet, the BC col comes before the ABCD col) // "1" <= "2" // "2" <= "11" (in a XLSX sheet, the row 2 comes before the row 11) // and so on func axisLowerOrEqualThan(axis1, axis2 string) bool { if len(axis1) < len(axis2) { return true } else if len(axis1) > len(axis2) { return false } else { return axis1 <= axis2 } } // getCellColRow returns the two parts of a cell identifier (its col and row) // as strings // // For instance: // // "C220" => "C", "220" // "aaef42" => "aaef", "42" // "" => "", "" func getCellColRow(cell string) (col, row string) { for index, rune := range cell { if unicode.IsDigit(rune) { return cell[:index], cell[index:] } } return cell, "" } // parseFormatSet provides a method to convert format string to []byte and // handle empty string. func parseFormatSet(formatSet string) []byte { if formatSet != "" { return []byte(formatSet) } return []byte("{}") }