#include #include #include "reader/reader.hpp" #include "cell/cell.hpp" #include "common/datetime.hpp" #include "worksheet/range_reference.hpp" #include "workbook/workbook.hpp" #include "worksheet/worksheet.hpp" #include "workbook/document_properties.hpp" #include "common/relationship.hpp" #include "common/zip_file.hpp" #include "common/exceptions.hpp" namespace xlnt { std::vector> reader::read_sheets(const zip_file &archive) { auto xml_source = archive.get_file_contents("xl/workbook.xml"); pugi::xml_document doc; doc.load(xml_source.c_str()); std::vector> sheets; for(auto sheet_node : doc.child("workbook").child("sheets").children("sheet")) { std::string id = sheet_node.attribute("r:id").as_string(); std::string name = sheet_node.attribute("name").as_string(); sheets.push_back(std::make_pair(id, name)); } return sheets; } datetime w3cdtf_to_datetime(const std::string &string) { datetime result(1900, 1, 1); auto separator_index = string.find('-'); result.year = std::stoi(string.substr(0, separator_index)); result.month = std::stoi(string.substr(separator_index + 1, string.find('-', separator_index + 1))); separator_index = string.find('-', separator_index + 1); result.day = std::stoi(string.substr(separator_index + 1, string.find('T', separator_index + 1))); separator_index = string.find('T', separator_index + 1); result.hour = std::stoi(string.substr(separator_index + 1, string.find(':', separator_index + 1))); separator_index = string.find(':', separator_index + 1); result.minute = std::stoi(string.substr(separator_index + 1, string.find(':', separator_index + 1))); separator_index = string.find(':', separator_index + 1); result.second = std::stoi(string.substr(separator_index + 1, string.find('Z', separator_index + 1))); return result; } document_properties reader::read_properties_core(const std::string &xml_string) { document_properties props; pugi::xml_document doc; doc.load(xml_string.c_str()); auto root_node = doc.child("cp:coreProperties"); props.excel_base_date = calendar::windows_1900; if(root_node.child("dc:creator") != nullptr) { props.creator = root_node.child("dc:creator").text().as_string(); } if(root_node.child("cp:lastModifiedBy") != nullptr) { props.last_modified_by = root_node.child("cp:lastModifiedBy").text().as_string(); } if(root_node.child("dcterms:created") != nullptr) { std::string created_string = root_node.child("dcterms:created").text().as_string(); props.created = w3cdtf_to_datetime(created_string); } if(root_node.child("dcterms:modified") != nullptr) { std::string modified_string = root_node.child("dcterms:modified").text().as_string(); props.modified = w3cdtf_to_datetime(modified_string); } return props; } std::string reader::read_dimension(const std::string &xml_string) { pugi::xml_document doc; doc.load(xml_string.c_str()); auto root_node = doc.child("worksheet"); auto dimension_node = root_node.child("dimension"); std::string dimension = dimension_node.attribute("ref").as_string(); return dimension; } std::vector reader::read_relationships(const std::string &content) { pugi::xml_document doc; doc.load(content.c_str()); auto root_node = doc.child("Relationships"); std::vector relationships; for(auto relationship : root_node.children("Relationship")) { std::string id = relationship.attribute("Id").as_string(); std::string type = relationship.attribute("Type").as_string(); std::string target = relationship.attribute("Target").as_string(); relationships.push_back(xlnt::relationship(type, id, target)); } return relationships; } std::vector> reader::read_content_types(const zip_file &archive) { pugi::xml_document doc; try { doc.load(archive.get_file_contents("[Content_Types].xml").c_str()); } catch(std::out_of_range) { throw invalid_file_exception(archive.get_filename()); } auto root_node = doc.child("Types"); std::vector> override_types; for(auto child : root_node.children("Override")) { std::string part_name = child.attribute("PartName").as_string(); std::string content_type = child.attribute("ContentType").as_string(); override_types.push_back({part_name, content_type}); } return override_types; } std::string reader::determine_document_type(const std::vector> &override_types) { auto match = std::find_if(override_types.begin(), override_types.end(), [](const std::pair &p) { return p.first == "/xl/workbook.xml"; }); if(match == override_types.end()) { return "unsupported"; } std::string type = match->second; if(type == "application/vnd.openxmlformats-officedocument.spreadsheetml.sheet.main+xml") { return "excel"; } else if(type == "application/vnd.openxmlformats-officedocument.presentationml.presentation.main+xml") { return "powerpoint"; } else if(type == "application/vnd.openxmlformats-officedocument.wordprocessingml.document.main+xml") { return "word"; } return "unsupported"; } void read_worksheet_common(worksheet ws, const pugi::xml_node &root_node, const std::vector &string_table, const std::vector &number_format_ids) { auto dimension_node = root_node.child("dimension"); std::string dimension = dimension_node.attribute("ref").as_string(); auto sheet_data_node = root_node.child("sheetData"); auto merge_cells_node = root_node.child("mergeCells"); if(merge_cells_node != nullptr) { int count = merge_cells_node.attribute("count").as_int(); for(auto merge_cell_node : merge_cells_node.children("mergeCell")) { ws.merge_cells(merge_cell_node.attribute("ref").as_string()); count--; } if(count != 0) { throw std::runtime_error("mismatch between count and actual number of merged cells"); } } for(auto row_node : sheet_data_node.children("row")) { int row_index = row_node.attribute("r").as_int(); std::string span_string = row_node.attribute("spans").as_string(); auto colon_index = span_string.find(':'); int min_column = std::stoi(span_string.substr(0, colon_index)); int max_column = std::stoi(span_string.substr(colon_index + 1)); for(int i = min_column; i < max_column + 1; i++) { std::string address = xlnt::cell_reference::column_string_from_index(i) + std::to_string(row_index); auto cell_node = row_node.find_child_by_attribute("c", "r", address.c_str()); if(cell_node != nullptr) { if(cell_node.attribute("t") != nullptr && std::string(cell_node.attribute("t").as_string()) == "inlineStr") // inline string { ws.get_cell(address) = cell_node.child("is").child("t").text().as_string(); } else if(cell_node.attribute("t") != nullptr && std::string(cell_node.attribute("t").as_string()) == "s") // shared string { ws.get_cell(address) = string_table.at(cell_node.child("v").text().as_int()); } else if(cell_node.attribute("s") != nullptr) { auto style_index = cell_node.attribute("s").as_int(); auto number_format_id = number_format_ids.at(style_index); if(number_format_id == 0) // integer { ws.get_cell(address) = cell_node.child("v").text().as_int(); } else if(number_format_id == 14) // date { ws.get_cell(address) = datetime::from_number(cell_node.child("v").text().as_double(), ws.get_parent().get_properties().excel_base_date); } else if(number_format_id == 18) // time { ws.get_cell(address) = time::from_number(cell_node.child("v").text().as_double()); } else if(number_format_id == 22) // datetime { ws.get_cell(address) = datetime::from_number(cell_node.child("v").text().as_double(), ws.get_parent().get_properties().excel_base_date); } else if(number_format_id == 14) // decimal { ws.get_cell(address) = cell_node.child("v").text().as_double(); } else if(number_format_id == 9) // percent { ws.get_cell(address) = cell_node.child("v").text().as_double(); } else { throw number_format_id; } } else if(cell_node.child("v") != nullptr) { ws.get_cell(address) = cell_node.child("v").text().as_string(); } } } } } void reader::read_worksheet(worksheet ws, const std::string &xml_string, const std::vector &string_table, const std::vector &number_format_ids) { pugi::xml_document doc; doc.load(xml_string.c_str()); read_worksheet_common(ws, doc.child("worksheet"), string_table, number_format_ids); } worksheet xlnt::reader::read_worksheet(std::istream &handle, xlnt::workbook &wb, const std::string &title, const std::vector &string_table) { auto ws = wb.create_sheet(); ws.set_title(title); pugi::xml_document doc; doc.load(handle); read_worksheet_common(ws, doc.child("worksheet"), string_table, {}); return ws; } std::vector reader::read_shared_string(const std::string &xml_string) { std::vector shared_strings; pugi::xml_document doc; doc.load(xml_string.c_str()); auto root_node = doc.child("sst"); //int count = root_node.attribute("count").as_int(); int unique_count = root_node.attribute("uniqueCount").as_int(); for(auto si_node : root_node) { shared_strings.push_back(si_node.child("t").text().as_string()); } if(unique_count != (int)shared_strings.size()) { throw std::runtime_error("counts don't match"); } return shared_strings; } workbook reader::load_workbook(const std::string &filename, bool guess_types) { workbook wb; wb.load(filename); return wb; } } // namespace xlnt