require 'nokogiri' require 'zip/filesystem' require 'roo/link' require 'roo/utils' require 'forwardable' module Roo class Excelx < Roo::Base require 'set' extend Forwardable ERROR_VALUES = %w(#N/A #REF! #NAME? #DIV/0! #NULL! #VALUE! #NUM!).to_set require 'roo/excelx/shared' require 'roo/excelx/workbook' require 'roo/excelx/shared_strings' require 'roo/excelx/styles' require 'roo/excelx/cell' require 'roo/excelx/sheet' require 'roo/excelx/relationships' require 'roo/excelx/comments' require 'roo/excelx/sheet_doc' require 'roo/excelx/coordinate' require 'roo/excelx/format' delegate [:styles, :workbook, :shared_strings, :rels_files, :sheet_files, :comments_files] => :@shared ExceedsMaxError = Class.new(StandardError) # initialization and opening of a spreadsheet file # values for packed: :zip # optional cell_max (int) parameter for early aborting attempts to parse # enormous documents. def initialize(filename_or_stream, options = {}) packed = options[:packed] file_warning = options.fetch(:file_warning, :error) cell_max = options.delete(:cell_max) sheet_options = {} sheet_options[:expand_merged_ranges] = (options[:expand_merged_ranges] || false) unless is_stream?(filename_or_stream) file_type_check(filename_or_stream, %w[.xlsx .xlsm], 'an Excel 2007', file_warning, packed) basename = find_basename(filename_or_stream) end @tmpdir = make_tmpdir(basename, options[:tmpdir_root]) @shared = Shared.new(@tmpdir) @filename = local_filename(filename_or_stream, @tmpdir, packed) process_zipfile(@filename || filename_or_stream) @sheet_names = workbook.sheets.map do |sheet| unless options[:only_visible_sheets] && sheet['state'] == 'hidden' sheet['name'] end end.compact @sheets = [] @sheets_by_name = Hash[@sheet_names.map.with_index do |sheet_name, n| @sheets[n] = Sheet.new(sheet_name, @shared, n, sheet_options) [sheet_name, @sheets[n]] end] if cell_max cell_count = ::Roo::Utils.num_cells_in_range(sheet_for(options.delete(:sheet)).dimensions) raise ExceedsMaxError.new("Excel file exceeds cell maximum: #{cell_count} > #{cell_max}") if cell_count > cell_max end super rescue => e # clean up any temp files, but only if an error was raised close raise e end def method_missing(method, *args) if (label = workbook.defined_names[method.to_s]) safe_send(sheet_for(label.sheet).cells[label.key], :value) else # call super for methods like #a1 super end end def sheets @sheet_names end def sheet_for(sheet) sheet ||= default_sheet validate_sheet!(sheet) @sheets_by_name[sheet] end # Returns the content of a spreadsheet-cell. # (1,1) is the upper left corner. # (1,1), (1,'A'), ('A',1), ('a',1) all refers to the # cell at the first line and first row. def cell(row, col, sheet = nil) key = normalize(row, col) safe_send(sheet_for(sheet).cells[key], :value) end def row(rownumber, sheet = nil) sheet_for(sheet).row(rownumber) end # returns all values in this column as an array # column numbers are 1,2,3,... like in the spreadsheet def column(column_number, sheet = nil) if column_number.is_a?(::String) column_number = ::Roo::Utils.letter_to_number(column_number) end sheet_for(sheet).column(column_number) end # returns the number of the first non-empty row def first_row(sheet = nil) sheet_for(sheet).first_row end # returns the number of the last non-empty row def last_row(sheet = nil) sheet_for(sheet).last_row end # returns the number of the first non-empty column def first_column(sheet = nil) sheet_for(sheet).first_column end # returns the number of the last non-empty column def last_column(sheet = nil) sheet_for(sheet).last_column end # set a cell to a certain value # (this will not be saved back to the spreadsheet file!) def set(row, col, value, sheet = nil) #:nodoc: key = normalize(row, col) cell_type = cell_type_by_value(value) sheet_for(sheet).cells[key] = Cell.new(value, cell_type, nil, cell_type, value, nil, nil, nil, Coordinate.new(row, col)) end # Returns the formula at (row,col). # Returns nil if there is no formula. # The method #formula? checks if there is a formula. def formula(row, col, sheet = nil) key = normalize(row, col) safe_send(sheet_for(sheet).cells[key], :formula) end # Predicate methods really should return a boolean # value. Hopefully no one was relying on the fact that this # previously returned either nil/formula def formula?(*args) !!formula(*args) end # returns each formula in the selected sheet as an array of tuples in following format # [[row, col, formula], [row, col, formula],...] def formulas(sheet = nil) sheet_for(sheet).cells.select { |_, cell| cell.formula }.map do |(x, y), cell| [x, y, cell.formula] end end # Given a cell, return the cell's style def font(row, col, sheet = nil) key = normalize(row, col) definition_index = safe_send(sheet_for(sheet).cells[key], :style) styles.definitions[definition_index] if definition_index end # returns the type of a cell: # * :float # * :string, # * :date # * :percentage # * :formula # * :time # * :datetime def celltype(row, col, sheet = nil) key = normalize(row, col) safe_send(sheet_for(sheet).cells[key], :type) end # returns the internal type of an excel cell # * :numeric_or_formula # * :string # Note: this is only available within the Excelx class def excelx_type(row, col, sheet = nil) key = normalize(row, col) safe_send(sheet_for(sheet).cells[key], :cell_type) end # returns the internal value of an excelx cell # Note: this is only available within the Excelx class def excelx_value(row, col, sheet = nil) key = normalize(row, col) safe_send(sheet_for(sheet).cells[key], :cell_value) end # returns the internal value of an excelx cell # Note: this is only available within the Excelx class def formatted_value(row, col, sheet = nil) key = normalize(row, col) safe_send(sheet_for(sheet).cells[key], :formatted_value) end # returns the internal format of an excel cell def excelx_format(row, col, sheet = nil) key = normalize(row, col) sheet_for(sheet).excelx_format(key) end def empty?(row, col, sheet = nil) sheet = sheet_for(sheet) key = normalize(row, col) cell = sheet.cells[key] !cell || cell.empty? || (cell.type == :string && cell.value.empty?) || (row < sheet.first_row || row > sheet.last_row || col < sheet.first_column || col > sheet.last_column) end # shows the internal representation of all cells # for debugging purposes def to_s(sheet = nil) sheet_for(sheet).cells.inspect end # returns the row,col values of the labelled cell # (nil,nil) if label is not defined def label(name) labels = workbook.defined_names return [nil, nil, nil] if labels.empty? || !labels.key?(name) [labels[name].row, labels[name].col, labels[name].sheet] end # Returns an array which all labels. Each element is an array with # [labelname, [row,col,sheetname]] def labels @labels ||= workbook.defined_names.map do |name, label| [ name, [label.row, label.col, label.sheet] ] end end def hyperlink?(row, col, sheet = nil) !!hyperlink(row, col, sheet) end # returns the hyperlink at (row/col) # nil if there is no hyperlink def hyperlink(row, col, sheet = nil) key = normalize(row, col) sheet_for(sheet).hyperlinks[key] end # returns the comment at (row/col) # nil if there is no comment def comment(row, col, sheet = nil) key = normalize(row, col) sheet_for(sheet).comments[key] end # true, if there is a comment def comment?(row, col, sheet = nil) !!comment(row, col, sheet) end def comments(sheet = nil) sheet_for(sheet).comments.map do |(x, y), comment| [x, y, comment] end end # Yield an array of Excelx::Cell # Takes options for sheet, pad_cells, and max_rows def each_row_streaming(options = {}) sheet = sheet_for(options.delete(:sheet)) if block_given? sheet.each_row(options) { |row| yield row } else sheet.to_enum(:each_row, options) end end private def clean_sheet(sheet) @sheets_by_name[sheet].cells.each_pair do |coord, value| next unless value.value.is_a?(::String) @sheets_by_name[sheet].cells[coord].value = sanitize_value(value.value) end @cleaned[sheet] = true end # Internal: extracts the worksheet_ids from the workbook.xml file. xlsx # documents require a workbook.xml file, so a if the file is missing # it is not a valid xlsx file. In these cases, an ArgumentError is # raised. # # wb - a Zip::Entry for the workbook.xml file. # path - A String for Zip::Entry's destination path. # # Examples # # extract_worksheet_ids(, 'tmpdir/roo_workbook.xml') # # => ["rId1", "rId2", "rId3"] # # Returns an Array of Strings. def extract_worksheet_ids(entries, path) wb = entries.find { |e| e.name[/workbook.xml$/] } fail ArgumentError 'missing required workbook file' if wb.nil? wb.extract(path) workbook_doc = Roo::Utils.load_xml(path).remove_namespaces! workbook_doc.xpath('//sheet').map { |s| s.attributes['id'].value } end # Internal # # wb_rels - A Zip::Entry for the workbook.xml.rels file. # path - A String for the Zip::Entry's destination path. # # Examples # # extract_worksheets(, 'tmpdir/roo_workbook.xml.rels') # # => { # "rId1"=>"worksheets/sheet1.xml", # "rId2"=>"worksheets/sheet2.xml", # "rId3"=>"worksheets/sheet3.xml" # } # # Returns a Hash. def extract_worksheet_rels(entries, path) wb_rels = entries.find { |e| e.name[/workbook.xml.rels$/] } fail ArgumentError 'missing required workbook file' if wb_rels.nil? wb_rels.extract(path) rels_doc = Roo::Utils.load_xml(path).remove_namespaces! worksheet_type = 'http://schemas.openxmlformats.org/officeDocument/2006/relationships/worksheet' relationships = rels_doc.xpath('//Relationship').select do |relationship| relationship.attributes['Type'].value == worksheet_type end relationships.inject({}) do |hash, relationship| attributes = relationship.attributes id = attributes['Id'] hash[id.value] = attributes['Target'].value hash end end # Extracts the sheets in order, but it will ignore sheets that are not # worksheets. def extract_sheets_in_order(entries, sheet_ids, sheets, tmpdir) (sheet_ids & sheets.keys).each_with_index do |id, i| name = sheets[id] entry = entries.find { |e| e.name =~ /#{name}$/ } path = "#{tmpdir}/roo_sheet#{i + 1}" sheet_files << path @sheet_files << path entry.extract(path) end end # Extracts all needed files from the zip file def process_zipfile(zipfilename_or_stream) @sheet_files = [] unless is_stream?(zipfilename_or_stream) zip_file = Zip::File.open(zipfilename_or_stream) else zip_file = Zip::CentralDirectory.new zip_file.read_from_stream zipfilename_or_stream end process_zipfile_entries zip_file.to_a.sort_by(&:name) end def process_zipfile_entries(entries) # NOTE: When Google or Numbers 3.1 exports to xlsx, the worksheet filenames # are not in order. With Numbers 3.1, the first sheet is always # sheet.xml, not sheet1.xml. With Google, the order of the worksheets is # independent of a worksheet's filename (i.e. sheet6.xml can be the # first worksheet). # # workbook.xml lists the correct order of worksheets and # workbook.xml.rels lists the filenames for those worksheets. # # workbook.xml: # # # workbook.xml.rel: # # sheet_ids = extract_worksheet_ids(entries, "#{@tmpdir}/roo_workbook.xml") sheets = extract_worksheet_rels(entries, "#{@tmpdir}/roo_workbook.xml.rels") extract_sheets_in_order(entries, sheet_ids, sheets, @tmpdir) entries.each do |entry| path = case entry.name.downcase when /sharedstrings.xml$/ "#{@tmpdir}/roo_sharedStrings.xml" when /styles.xml$/ "#{@tmpdir}/roo_styles.xml" when /comments([0-9]+).xml$/ # FIXME: Most of the time, The order of the comment files are the same # the sheet order, i.e. sheet1.xml's comments are in comments1.xml. # In some situations, this isn't true. The true location of a # sheet's comment file is in the sheet1.xml.rels file. SEE # ECMA-376 12.3.3 in "Ecma Office Open XML Part 1". nr = Regexp.last_match[1].to_i comments_files[nr - 1] = "#{@tmpdir}/roo_comments#{nr}" when %r{chartsheets/_rels/sheet([0-9]+).xml.rels$} # NOTE: Chart sheet relationship files were interfering with # worksheets. nil when /sheet([0-9]+).xml.rels$/ # FIXME: Roo seems to use sheet[\d].xml.rels for hyperlinks only, but # it also stores the location for sharedStrings, comments, # drawings, etc. nr = Regexp.last_match[1].to_i rels_files[nr - 1] = "#{@tmpdir}/roo_rels#{nr}" end entry.extract(path) if path end end def safe_send(object, method, *args) object.send(method, *args) if object && object.respond_to?(method) end end end