#include #include "acconf.h" #include "debug.h" #ifdef USE_BOOST_PYTHON #include "py_eval.h" #endif using namespace ledger; #include #include #include #include #include #include #include #include #include #include #include #if !defined(DEBUG_LEVEL) || DEBUG_LEVEL <= RELEASE #define auto_ptr bogus_auto_ptr // This version of auto_ptr does not delete on deconstruction. namespace std { template struct bogus_auto_ptr { T * ptr; bogus_auto_ptr() : ptr(NULL) {} explicit bogus_auto_ptr(T * _ptr) : ptr(_ptr) {} T& operator*() const throw() { return *ptr; } T * operator->() const throw() { return ptr; } T * get() const throw() { return ptr; } T * release() throw() { T * tmp = ptr; ptr = 0; return tmp; } void reset(T * p = 0) throw() { if (p != ptr) { delete ptr; ptr = p; } } }; } #endif item_handler * chain_xact_handlers(const std::string& command, item_handler * base_formatter, journal_t * journal, account_t * master, std::list *>& ptrs) { item_handler * formatter = NULL; ptrs.push_back(formatter = base_formatter); // format_transactions write each transaction received to the // output stream. if (! (command == "b" || command == "E")) { // filter_transactions will only pass through transactions // matching the `display_predicate'. if (! config.display_predicate.empty()) ptrs.push_back(formatter = new filter_transactions(formatter, config.display_predicate)); // calc_transactions computes the running total. When this // appears will determine, for example, whether filtered // transactions are included or excluded from the running total. ptrs.push_back(formatter = new calc_transactions(formatter)); // sort_transactions will sort all the transactions it sees, based // on the `sort_order' value expression. if (! config.sort_string.empty()) ptrs.push_back(formatter = new sort_transactions(formatter, config.sort_string)); // changed_value_transactions adds virtual transactions to the // list to account for changes in market value of commodities, // which otherwise would affect the running total unpredictably. if (config.show_revalued) ptrs.push_back(formatter = new changed_value_transactions(formatter, config.show_revalued_only)); // collapse_transactions causes entries with multiple transactions // to appear as entries with a subtotaled transaction for each // commodity used. if (config.show_collapsed) ptrs.push_back(formatter = new collapse_transactions(formatter)); } // subtotal_transactions combines all the transactions it receives // into one subtotal entry, which has one transaction for each // commodity in each account. // // period_transactions is like subtotal_transactions, but it // subtotals according to time periods rather than totalling // everything. // // dow_transactions is like period_transactions, except that it // reports all the transactions that fall on each subsequent day // of the week. if (config.show_subtotal && ! (command == "b" || command == "E")) ptrs.push_back(formatter = new subtotal_transactions(formatter)); if (config.days_of_the_week) ptrs.push_back(formatter = new dow_transactions(formatter)); else if (config.by_payee) ptrs.push_back(formatter = new by_payee_transactions(formatter)); if (! config.report_period.empty()) { ptrs.push_back(formatter = new interval_transactions(formatter, config.report_period, config.report_period_sort)); ptrs.push_back(formatter = new sort_transactions(formatter, "d")); } // invert_transactions inverts the value of the transactions it // receives. if (config.show_inverted) ptrs.push_back(formatter = new invert_transactions(formatter)); // related_transactions will pass along all transactions related // to the transaction received. If `show_all_related' is true, // then all the entry's transactions are passed; meaning that if // one transaction of an entry is to be printed, all the // transaction for that entry will be printed. if (config.show_related) ptrs.push_back(formatter = new related_transactions(formatter, config.show_all_related)); // This filter_transactions will only pass through transactions // matching the `predicate'. if (! config.predicate.empty()) ptrs.push_back(formatter = new filter_transactions(formatter, config.predicate)); // budget_transactions takes a set of transactions from a data // file and uses them to generate "budget transactions" which // balance against the reported transactions. // // forecast_transactions is a lot like budget_transactions, except // that it adds entries only for the future, and does not balance // them against anything but the future balance. if (config.budget_flags) { budget_transactions * handler = new budget_transactions(formatter, config.budget_flags); handler->add_period_entries(journal->period_entries); ptrs.push_back(formatter = handler); } else if (! config.forecast_limit.empty()) { forecast_transactions * handler = new forecast_transactions(formatter, config.forecast_limit); handler->add_period_entries(journal->period_entries); ptrs.push_back(formatter = handler); } if (config.comm_as_payee) ptrs.push_back(formatter = new set_comm_as_payee(formatter)); return formatter; } int parse_and_report(int argc, char * argv[], char * envp[]) { std::auto_ptr journal(new journal_t); // Parse command-line arguments, and those set in the environment std::list args; process_arguments(config_options, argc - 1, argv + 1, false, args); if (args.empty()) { option_help(std::cerr); return 1; } strings_list::iterator arg = args.begin(); if (config.cache_file == "") config.use_cache = false; else config.use_cache = config.data_file.empty() && config.price_db.empty(); DEBUG_PRINT("ledger.config.cache", "1. use_cache = " << config.use_cache); process_environment(config_options, envp, "LEDGER_"); #if 1 // These are here for backwards compatability, but are deprecated. if (const char * p = std::getenv("LEDGER")) process_option(config_options, "file", p); if (const char * p = std::getenv("LEDGER_INIT")) process_option(config_options, "init-file", p); if (const char * p = std::getenv("PRICE_HIST")) process_option(config_options, "price-db", p); if (const char * p = std::getenv("PRICE_EXP")) process_option(config_options, "price-exp", p); #endif const char * p = std::getenv("HOME"); std::string home = p ? p : ""; if (config.init_file.empty()) config.init_file = home + "/.ledgerrc"; if (config.price_db.empty()) config.price_db = home + "/.pricedb"; if (config.cache_file.empty()) config.cache_file = home + "/.ledger-cache"; if (config.data_file == config.cache_file) config.use_cache = false; DEBUG_PRINT("ledger.config.cache", "2. use_cache = " << config.use_cache); // Read the command word, canonicalize it to its one letter form, // then configure the system based on the kind of report to be // generated std::string command = *arg++; if (command == "balance" || command == "bal" || command == "b") command = "b"; else if (command == "register" || command == "reg" || command == "r") command = "r"; else if (command == "print" || command == "p") command = "p"; else if (command == "xml") command = "X"; else if (command == "entry") command = "e"; else if (command == "equity") command = "E"; else if (command == "prices") command = "P"; else throw error(std::string("Unrecognized command '") + command + "'"); // Parse initialization files, ledger data, price database, etc. std::auto_ptr bin_parser(new binary_parser_t); #ifdef HAVE_XMLPARSE std::auto_ptr xml_parser(new xml_parser_t); std::auto_ptr gnucash_parser(new gnucash_parser_t); #endif std::auto_ptr qif_parser(new qif_parser_t); std::auto_ptr text_parser(new textual_parser_t); register_parser(bin_parser.get()); #ifdef HAVE_XMLPARSE register_parser(xml_parser.get()); register_parser(gnucash_parser.get()); #endif register_parser(qif_parser.get()); register_parser(text_parser.get()); parse_ledger_data(journal.get(), bin_parser.get(), text_parser.get() #ifdef HAVE_XMLPARSE , xml_parser.get() #endif ); // process the command word and its following arguments config.process_options(command, arg, args.end()); std::auto_ptr new_entry; if (command == "e") { new_entry.reset(derive_new_entry(*journal, arg, args.end())); if (! new_entry.get()) return 1; } // Configure the output stream std::ostream * out = &std::cout; if (! config.output_file.empty()) out = new std::ofstream(config.output_file.c_str()); // Compile the format strings const std::string * format; if (! config.format_string.empty()) format = &config.format_string; else if (command == "b") format = &config.balance_format; else if (command == "r") format = &config.register_format; else if (command == "E") format = &config.equity_format; else if (command == "P") format = &config.prices_format; else format = &config.print_format; #ifdef USE_BOOST_PYTHON // If Python support is compiled, we can easily report minimum and // maximum values for each commodity. There is a line in config.cc // which configures the prices report to call these two functions, // if Python is available. if (command == "P") python_eval("\ min_val = 0\n\ def vmin(d, val):\n\ global min_val\n\ if not min_val or val < min_val:\n\ min_val = val\n\ return val\n\ return min_val\n\ \n\ max_val = 0\n\ def vmax(d, val):\n\ global max_val\n\ if not max_val or val > max_val:\n\ max_val = val\n\ return val\n\ return max_val\n", PY_EVAL_MULTI); #endif // USE_BOOST_PYTHON // Walk the entries based on the report type and the options item_handler * formatter; std::list *> formatter_ptrs; if (command == "b" || command == "E") formatter = new set_account_value; else if (command == "p" || command == "e") formatter = new format_entries(*out, *format); else if (command == "X") formatter = new format_xml_entries(*out, config.show_totals); else formatter = new format_transactions(*out, *format); formatter = chain_xact_handlers(command, formatter, journal.get(), journal->master, formatter_ptrs); if (command == "e") walk_transactions(new_entry->transactions, *formatter); else if (command == "P") walk_commodities(commodity_t::commodities, *formatter); else walk_entries(journal->entries, *formatter); if (command != "P") formatter->flush(); // For the balance and equity reports, output the sum totals. if (command == "b") { format_account acct_formatter(*out, *format, config.display_predicate); sum_accounts(*journal->master); walk_accounts(*journal->master, acct_formatter, config.sort_string); acct_formatter.flush(); if (account_has_xdata(*journal->master)) { account_xdata_t& xdata = account_xdata(*journal->master); if (! config.show_collapsed && xdata.total) { *out << "--------------------\n"; xdata.value = xdata.total; acct_formatter.format.format(*out, details_t(*journal->master)); } } } else if (command == "E") { format_equity acct_formatter(*out, *format, config.display_predicate); sum_accounts(*journal->master); walk_accounts(*journal->master, acct_formatter, config.sort_string); acct_formatter.flush(); } #if DEBUG_LEVEL >= BETA clear_all_xdata(); if (! config.output_file.empty()) delete out; for (std::list *>::iterator i = formatter_ptrs.begin(); i != formatter_ptrs.end(); i++) delete *i; #endif // DEBUG_LEVEL >= BETA // Write out the binary cache, if need be if (config.use_cache && config.cache_dirty && ! config.cache_file.empty()) { std::ofstream stream(config.cache_file.c_str()); write_binary_journal(stream, journal.get(), &journal->sources); } return 0; } int main(int argc, char * argv[], char * envp[]) { try { return parse_and_report(argc, argv, envp); } catch (const std::exception& err) { std::cerr << "Error: " << err.what() << std::endl; return 1; } catch (int& val) { return val; // this acts like a std::setjmp } } // main.cc ends here.