/* * Copyright (c) 2003-2023, John Wiegley. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are * met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * - Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * - Neither the name of New Artisans LLC nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT * OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, * SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT * LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include "filters.h" #include "iterators.h" #include "journal.h" #include "report.h" #include "compare.h" #include "pool.h" namespace ledger { void post_splitter::print_title(const value_t& val) { if (! report.HANDLED(no_titles)) { std::ostringstream buf; val.print(buf); post_chain->title(buf.str()); } } void post_splitter::flush() { foreach (value_to_posts_map::value_type& pair, posts_map) { preflush_func(pair.first); foreach (post_t * post, pair.second) (*post_chain)(*post); post_chain->flush(); post_chain->clear(); if (postflush_func) (*postflush_func)(pair.first); } } void post_splitter::operator()(post_t& post) { bind_scope_t bound_scope(report, post); value_t result(group_by_expr.calc(bound_scope)); if (! result.is_null()) { value_to_posts_map::iterator i = posts_map.find(result); if (i != posts_map.end()) { (*i).second.push_back(&post); } else { std::pair inserted = posts_map.insert(value_to_posts_map::value_type(result, posts_list())); assert(inserted.second); (*inserted.first).second.push_back(&post); } } } void truncate_xacts::flush() { if (! posts.size()) return; xact_t * xact = (*posts.begin())->xact; int l = 0; foreach (post_t * post, posts) if (xact != post->xact) { l++; xact = post->xact; } l++; xact = (*posts.begin())->xact; int i = 0; foreach (post_t * post, posts) { if (xact != post->xact) { xact = post->xact; i++; } bool print = false; if (head_count) { if (head_count > 0 && i < head_count) print = true; else if (head_count < 0 && i >= - head_count) print = true; } if (! print && tail_count) { if (tail_count > 0 && l - i <= tail_count) print = true; else if (tail_count < 0 && l - i > - tail_count) print = true; } if (print) item_handler::operator()(*post); } posts.clear(); item_handler::flush(); } void truncate_xacts::operator()(post_t& post) { if (completed) return; if (last_xact != post.xact) { if (last_xact) xacts_seen++; last_xact = post.xact; } if (tail_count == 0 && head_count > 0 && static_cast(xacts_seen) >= head_count) { flush(); completed = true; return; } posts.push_back(&post); } void sort_posts::post_accumulated_posts() { std::stable_sort(posts.begin(), posts.end(), compare_items(sort_order, report)); foreach (post_t * post, posts) { post->xdata().drop_flags(POST_EXT_SORT_CALC); item_handler::operator()(*post); } posts.clear(); } namespace { void split_string(const string& str, const char ch, std::list& strings) { const char * b = str.c_str(); for (const char * p = b; *p; p++) { if (*p == ch) { strings.push_back(string(b, static_cast(p - b))); b = p + 1; } } strings.push_back(string(b)); } account_t * create_temp_account_from_path(std::list& account_names, temporaries_t& temps, account_t * master) { account_t * new_account = NULL; foreach (const string& name, account_names) { if (new_account) { new_account = new_account->find_account(name); } else { new_account = master->find_account(name, false); if (! new_account) new_account = &temps.create_account(name, master); } } assert(new_account != NULL); return new_account; } } void anonymize_posts::render_commodity(amount_t& amt) { commodity_t& comm(amt.commodity()); std::size_t id; bool newly_added = false; commodity_index_map::iterator i = comms.find(&comm); if (i == comms.end()) { id = next_comm_id++; newly_added = true; comms.insert(commodity_index_map::value_type(&comm, id)); } else { id = (*i).second; } std::ostringstream buf; do { buf << static_cast('A' + (id % 26)); id /= 26; } while (id > 0); if (amt.has_annotation()) amt.set_commodity (*commodity_pool_t::current_pool->find_or_create(buf.str(), amt.annotation())); else amt.set_commodity (*commodity_pool_t::current_pool->find_or_create(buf.str())); if (newly_added) { amt.commodity().set_flags(comm.flags()); amt.commodity().set_precision(comm.precision()); } } void anonymize_posts::operator()(post_t& post) { boost::uuids::detail::sha1 sha; unsigned int message_digest[5]; bool copy_xact_details = false; if (last_xact != post.xact) { temps.copy_xact(*post.xact); last_xact = post.xact; copy_xact_details = true; } xact_t& xact = temps.last_xact(); xact.code = none; if (copy_xact_details) { xact.copy_details(*post.xact); std::ostringstream buf; buf << reinterpret_cast(post.xact->payee.c_str()) << integer_gen() << post.xact->payee.c_str(); sha.reset(); sha.process_bytes(buf.str().c_str(), buf.str().length()); sha.get_digest(message_digest); xact.payee = to_hex(message_digest); xact.note = none; } else { xact.journal = post.xact->journal; } std::list account_names; for (account_t * acct = post.account; acct; acct = acct->parent) { std::ostringstream buf; buf << integer_gen() << acct << acct->fullname(); sha.reset(); sha.process_bytes(buf.str().c_str(), buf.str().length()); sha.get_digest(message_digest); account_names.push_front(to_hex(message_digest)); } account_t * new_account = create_temp_account_from_path(account_names, temps, xact.journal->master); post_t& temp = temps.copy_post(post, xact, new_account); temp.note = none; temp.add_flags(POST_ANONYMIZED); render_commodity(temp.amount); if (temp.amount.has_annotation()) { temp.amount.annotation().tag = none; if (temp.amount.annotation().price) render_commodity(*temp.amount.annotation().price); } if (temp.cost) render_commodity(*temp.cost); if (temp.assigned_amount) render_commodity(*temp.assigned_amount); (*handler)(temp); } void calc_posts::operator()(post_t& post) { post_t::xdata_t& xdata(post.xdata()); if (last_post) { assert(last_post->has_xdata()); if (calc_running_total) xdata.total = last_post->xdata().total; xdata.count = last_post->xdata().count + 1; } else { xdata.count = 1; } post.add_to_value(xdata.visited_value, amount_expr); xdata.add_flags(POST_EXT_VISITED); account_t * acct = post.reported_account(); acct->xdata().add_flags(ACCOUNT_EXT_VISITED); if (calc_running_total) add_or_set_value(xdata.total, xdata.visited_value); item_handler::operator()(post); last_post = &post; } namespace { void handle_value(const value_t& value, account_t * account, xact_t * xact, temporaries_t& temps, post_handler_ptr handler, const date_t& date = date_t(), const bool act_date_p = true, const value_t& total = value_t(), const bool direct_amount = false, const bool mark_visited = false, const bool bidir_link = true) { post_t& post = temps.create_post(*xact, account, bidir_link); post.add_flags(ITEM_GENERATED); // If the account for this post is all virtual, then report the post as // such. This allows subtotal reports to show "(Account)" for accounts // that contain only virtual posts. if (account && account->has_xdata() && account->xdata().has_flags(ACCOUNT_EXT_AUTO_VIRTUALIZE)) { if (! account->xdata().has_flags(ACCOUNT_EXT_HAS_NON_VIRTUALS)) { post.add_flags(POST_VIRTUAL); if (! account->xdata().has_flags(ACCOUNT_EXT_HAS_UNB_VIRTUALS)) post.add_flags(POST_MUST_BALANCE); } } post_t::xdata_t& xdata(post.xdata()); if (is_valid(date)) { if (act_date_p) xdata.date = date; else xdata.value_date = date; } value_t temp(value); switch (value.type()) { case value_t::BOOLEAN: case value_t::INTEGER: temp.in_place_cast(value_t::AMOUNT); // fall through... case value_t::AMOUNT: post.amount = temp.as_amount(); break; case value_t::BALANCE: case value_t::SEQUENCE: xdata.compound_value = temp; xdata.add_flags(POST_EXT_COMPOUND); break; case value_t::DATETIME: case value_t::DATE: default: assert(false); break; } if (! total.is_null()) xdata.total = total; if (direct_amount) xdata.add_flags(POST_EXT_DIRECT_AMT); DEBUG("filters.changed_value.rounding", "post.amount = " << post.amount); (*handler)(post); if (mark_visited) { post.xdata().add_flags(POST_EXT_VISITED); post.account->xdata().add_flags(ACCOUNT_EXT_VISITED); } } } void collapse_posts::report_subtotal() { if (! count) return; std::size_t displayed_count = 0; foreach (post_t * post, component_posts) { bind_scope_t bound_scope(report, *post); if (only_predicate(bound_scope) && display_predicate(bound_scope)) displayed_count++; } if (collapse_depth == 0 && displayed_count == 1) { item_handler::operator()(*last_post); } else if (only_collapse_if_zero && ! subtotal.is_zero()) { foreach (post_t * post, component_posts) item_handler::operator()(*post); } else { date_t earliest_date; date_t latest_date; foreach (post_t * post, component_posts) { date_t date = post->date(); date_t value_date = post->value_date(); if (! is_valid(earliest_date) || date < earliest_date) earliest_date = date; if (! is_valid(latest_date) || value_date > latest_date) latest_date = value_date; } xact_t& xact = temps.create_xact(); xact.payee = last_xact->payee; xact._date = (is_valid(earliest_date) ? earliest_date : last_xact->_date); DEBUG("filters.collapse", "Pseudo-xact date = " << *xact._date); DEBUG("filters.collapse", "earliest date = " << earliest_date); DEBUG("filters.collapse", "latest date = " << latest_date); foreach (totals_map::value_type& pat, totals) { handle_value(/* value= */ pat.second, /* account= */ pat.first, /* xact= */ &xact, /* temps= */ temps, /* handler= */ handler, /* date= */ latest_date, /* act_date_p= */ false); } } totals.clear(); component_posts.clear(); last_xact = NULL; last_post = NULL; subtotal = 0L; count = 0; } value_t& collapse_posts::find_totals(account_t* account) { if (collapse_depth == 0) return totals[global_totals_account]; if (account->depth <= collapse_depth) return totals[account]; //else recurse return find_totals(account->parent); } void collapse_posts::operator()(post_t& post) { // If we've reached a new xact, report on the subtotal // accumulated thus far. if (last_xact != post.xact && count > 0) report_subtotal(); post.add_to_value(subtotal, amount_expr); post.add_to_value(find_totals(post.account), amount_expr); component_posts.push_back(&post); last_xact = post.xact; last_post = &post; count++; } void related_posts::flush() { if (posts.size() > 0) { foreach (post_t * post, posts) { assert(post->xact); foreach (post_t * r_post, post->xact->posts) { post_t::xdata_t& xdata(r_post->xdata()); if (! xdata.has_flags(POST_EXT_HANDLED) && (! xdata.has_flags(POST_EXT_RECEIVED) ? ! r_post->has_flags(ITEM_GENERATED | POST_VIRTUAL) : also_matching)) { xdata.add_flags(POST_EXT_HANDLED); item_handler::operator()(*r_post); } } } } item_handler::flush(); } display_filter_posts::display_filter_posts(post_handler_ptr handler, report_t& _report, bool _show_rounding) : item_handler(handler), report(_report), display_amount_expr(report.HANDLER(display_amount_).expr), display_total_expr(report.HANDLER(display_total_).expr), show_rounding(_show_rounding) { create_accounts(); TRACE_CTOR(display_filter_posts, "post_handler_ptr, report_t&, bool"); } bool display_filter_posts::output_rounding(post_t& post) { bind_scope_t bound_scope(report, post); value_t new_display_total; if (show_rounding) { new_display_total = (display_total_expr.calc(bound_scope) .strip_annotations(report.what_to_keep())); DEBUG("filters.changed_value.rounding", "rounding.new_display_total = " << new_display_total); } // Allow the posting to be displayed if: // 1. Its display_amount would display as non-zero, or // 2. The --empty option was specified, or // 3. a) The account of the posting is , and // b) the revalued option is specified, and // c) the --no-rounding option is not specified. if (post.account == revalued_account) { if (show_rounding) last_display_total = new_display_total; return true; } if (value_t repriced_amount = (display_amount_expr.calc(bound_scope) .strip_annotations(report.what_to_keep()))) { if (! last_display_total.is_null()) { DEBUG("filters.changed_value.rounding", "rounding.repriced_amount = " << repriced_amount); value_t precise_display_total(new_display_total.truncated() - repriced_amount.truncated()); DEBUG("filters.changed_value.rounding", "rounding.precise_display_total = " << precise_display_total); DEBUG("filters.changed_value.rounding", "rounding.last_display_total = " << last_display_total); if (value_t diff = precise_display_total - last_display_total) { DEBUG("filters.changed_value.rounding", "rounding.diff = " << diff); handle_value(/* value= */ diff, /* account= */ rounding_account, /* xact= */ post.xact, /* temps= */ temps, /* handler= */ handler, /* date= */ date_t(), /* act_date_p= */ true, /* total= */ precise_display_total, /* direct_amount= */ true, /* mark_visited= */ false, /* bidir_link= */ false); } } if (show_rounding) last_display_total = new_display_total; return true; } else { return report.HANDLED(empty); } } void display_filter_posts::operator()(post_t& post) { if (output_rounding(post)) item_handler::operator()(post); } changed_value_posts::changed_value_posts (post_handler_ptr handler, report_t& _report, bool _for_accounts_report, bool _show_unrealized, display_filter_posts * _display_filter) : item_handler(handler), report(_report), total_expr(report.HANDLED(revalued_total_) ? report.HANDLER(revalued_total_).expr : report.HANDLER(display_total_).expr), display_total_expr(report.HANDLER(display_total_).expr), changed_values_only(report.HANDLED(revalued_only)), historical_prices_only(report.HANDLED(historical)), for_accounts_report(_for_accounts_report), show_unrealized(_show_unrealized), last_post(NULL), display_filter(_display_filter) { string gains_equity_account_name; if (report.HANDLED(unrealized_gains_)) gains_equity_account_name = report.HANDLER(unrealized_gains_).str(); else gains_equity_account_name = _("Equity:Unrealized Gains"); gains_equity_account = report.session.journal->master->find_account(gains_equity_account_name); gains_equity_account->add_flags(ACCOUNT_GENERATED); string losses_equity_account_name; if (report.HANDLED(unrealized_losses_)) losses_equity_account_name = report.HANDLER(unrealized_losses_).str(); else losses_equity_account_name = _("Equity:Unrealized Losses"); losses_equity_account = report.session.journal->master->find_account(losses_equity_account_name); losses_equity_account->add_flags(ACCOUNT_GENERATED); create_accounts(); TRACE_CTOR(changed_value_posts, "post_handler_ptr, report_t&, bool, bool, display_filter_posts *"); } void changed_value_posts::flush() { if (last_post && last_post->date() <= report.terminus.date()) { if (! historical_prices_only) { if (! for_accounts_report) output_intermediate_prices(*last_post, report.terminus.date()); output_revaluation(*last_post, report.terminus.date()); } last_post = NULL; } item_handler::flush(); } void changed_value_posts::output_revaluation(post_t& post, const date_t& date) { if (is_valid(date)) post.xdata().date = date; try { bind_scope_t bound_scope(report, post); repriced_total = total_expr.calc(bound_scope); } catch (...) { post.xdata().date = date_t(); throw; } post.xdata().date = date_t(); DEBUG("filters.changed_value", "output_revaluation(last_total) = " << last_total); DEBUG("filters.changed_value", "output_revaluation(repriced_total) = " << repriced_total); if (! last_total.is_null()) { if (value_t diff = repriced_total - last_total) { DEBUG("filters.changed_value", "output_revaluation(strip(diff)) = " << diff.strip_annotations(report.what_to_keep())); xact_t& xact = temps.create_xact(); xact.payee = _("Commodities revalued"); xact._date = is_valid(date) ? date : post.value_date(); if (! for_accounts_report) { handle_value (/* value= */ diff, /* account= */ revalued_account, /* xact= */ &xact, /* temps= */ temps, /* handler= */ handler, /* date= */ *xact._date, /* act_date_p= */ true, /* total= */ repriced_total); } else if (show_unrealized) { handle_value (/* value= */ - diff, /* account= */ (diff < 0L ? losses_equity_account : gains_equity_account), /* xact= */ &xact, /* temps= */ temps, /* handler= */ handler, /* date= */ *xact._date, /* act_date_p= */ true, /* total= */ value_t(), /* direct_amount= */ false, /* mark_visited= */ true); } } } } namespace { struct insert_prices_in_map { price_map_t& all_prices; insert_prices_in_map(price_map_t& _all_prices) : all_prices(_all_prices) {} void operator()(const datetime_t& date, const amount_t& price) { all_prices.insert(price_map_t::value_type(date, price)); } }; } void changed_value_posts::output_intermediate_prices(post_t& post, const date_t& current) { // To fix BZ#199, examine the balance of last_post and determine whether the // price of that amount changed after its date and before the new post's // date. If so, generate an output_revaluation for that price change. // Mostly this is only going to occur if the user has a series of pricing // entries, since a posting-based revaluation would be seen here as a post. value_t display_total(last_total); if (display_total.type() == value_t::SEQUENCE) { xact_t& xact(temps.create_xact()); xact.payee = _("Commodities revalued"); xact._date = is_valid(current) ? current : post.value_date(); post_t& temp(temps.copy_post(post, xact)); temp.add_flags(ITEM_GENERATED); post_t::xdata_t& xdata(temp.xdata()); if (is_valid(current)) xdata.date = current; DEBUG("filters.revalued", "intermediate last_total = " << last_total); switch (last_total.type()) { case value_t::BOOLEAN: case value_t::INTEGER: last_total.in_place_cast(value_t::AMOUNT); // fall through... case value_t::AMOUNT: temp.amount = last_total.as_amount(); break; case value_t::BALANCE: case value_t::SEQUENCE: xdata.compound_value = last_total; xdata.add_flags(POST_EXT_COMPOUND); break; case value_t::DATETIME: case value_t::DATE: default: assert(false); break; } bind_scope_t inner_scope(report, temp); display_total = display_total_expr.calc(inner_scope); DEBUG("filters.revalued", "intermediate display_total = " << display_total); } switch (display_total.type()) { case value_t::VOID: case value_t::INTEGER: case value_t::SEQUENCE: break; case value_t::AMOUNT: display_total.in_place_cast(value_t::BALANCE); // fall through... case value_t::BALANCE: { price_map_t all_prices; foreach (const balance_t::amounts_map::value_type& amt_comm, display_total.as_balance().amounts) amt_comm.first->map_prices(insert_prices_in_map(all_prices), datetime_t(current), datetime_t(post.value_date()), true); // Choose the last price from each day as the price to use typedef std::map date_map; date_map pricing_dates; BOOST_REVERSE_FOREACH(const price_map_t::value_type& price, all_prices) { // This insert will fail if a later price has already been inserted // for that date. DEBUG("filters.revalued", "re-inserting " << price.second << " at " << price.first.date()); pricing_dates.insert(date_map::value_type(price.first.date(), true)); } // Go through the time-sorted prices list, outputting a revaluation for // each price difference. foreach (const date_map::value_type& price, pricing_dates) { output_revaluation(post, price.first); last_total = repriced_total; } break; } default: assert(false); break; } } void changed_value_posts::operator()(post_t& post) { if (last_post) { if (! for_accounts_report && ! historical_prices_only) output_intermediate_prices(*last_post, post.value_date()); output_revaluation(*last_post, post.value_date()); } if (changed_values_only) post.xdata().add_flags(POST_EXT_DISPLAYED); item_handler::operator()(post); bind_scope_t bound_scope(report, post); last_total = total_expr.calc(bound_scope); last_post = &post; } void subtotal_posts::report_subtotal(const char * spec_fmt, const optional& interval) { if (component_posts.empty()) return; optional range_start = interval ? interval->start : none; optional range_finish = interval ? interval->inclusive_end() : none; if (! range_start || ! range_finish) { foreach (post_t * post, component_posts) { date_t date = post->date(); date_t value_date = post->value_date(); #if defined(__GNUC__) && __GNUC__ >= 4 && __GNUC_MINOR__ >= 7 #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wmaybe-uninitialized" #endif if (! range_start || date < *range_start) range_start = date; if (! range_finish || value_date > *range_finish) range_finish = value_date; #if defined(__GNUC__) && __GNUC__ >= 4 && __GNUC_MINOR__ >= 7 #pragma GCC diagnostic pop #endif } } component_posts.clear(); std::ostringstream out_date; if (spec_fmt) { out_date << format_date(*range_finish, FMT_CUSTOM, spec_fmt); } else if (date_format) { out_date << "- " << format_date(*range_finish, FMT_CUSTOM, date_format->c_str()); } else { out_date << "- " << format_date(*range_finish); } xact_t& xact = temps.create_xact(); xact.payee = out_date.str(); xact._date = *range_start; foreach (values_map::value_type& pair, values) handle_value(/* value= */ pair.second.value, /* account= */ pair.second.account, /* xact= */ &xact, /* temps= */ temps, /* handler= */ handler, /* date= */ *range_finish, /* act_date_p= */ false); values.clear(); } void subtotal_posts::operator()(post_t& post) { component_posts.push_back(&post); account_t * acct = post.reported_account(); assert(acct); value_t amount(post.amount); post.xdata().compound_value = amount; post.xdata().add_flags(POST_EXT_COMPOUND); values_map::iterator i = values.find(acct->fullname()); if (i == values.end()) { #if DEBUG_ON std::pair result = #endif values.insert(values_pair (acct->fullname(), acct_value_t(acct, amount, post.has_flags(POST_VIRTUAL), post.has_flags(POST_MUST_BALANCE)))); #if DEBUG_ON assert(result.second); #endif } else { if (post.has_flags(POST_VIRTUAL) != (*i).second.is_virtual) throw_(std::logic_error, _("'equity' cannot accept virtual and " "non-virtual postings to the same account")); add_or_set_value((*i).second.value, amount); } // If the account for this post is all virtual, mark it as // such, so that `handle_value' can show "(Account)" for accounts // that contain only virtual posts. post.reported_account()->xdata().add_flags(ACCOUNT_EXT_AUTO_VIRTUALIZE); if (! post.has_flags(POST_VIRTUAL)) post.reported_account()->xdata().add_flags(ACCOUNT_EXT_HAS_NON_VIRTUALS); else if (! post.has_flags(POST_MUST_BALANCE)) post.reported_account()->xdata().add_flags(ACCOUNT_EXT_HAS_UNB_VIRTUALS); } void interval_posts::report_subtotal(const date_interval_t& ival) { if (exact_periods) subtotal_posts::report_subtotal(); else subtotal_posts::report_subtotal(NULL, ival); } namespace { struct sort_posts_by_date { bool operator()(post_t * left, post_t * right) const { return left->date() < right->date(); } }; } void interval_posts::operator()(post_t& post) { // If there is a duration (such as weekly), we must generate the // report in two passes. Otherwise, we only have to check whether the // post falls within the reporting period. if (interval.duration) { all_posts.push_back(&post); } else if (interval.find_period(post.date(), align_intervals)) { item_handler::operator()(post); } } void interval_posts::flush() { if (! interval.duration) { item_handler::flush(); return; } // Sort all the postings we saw by date ascending std::stable_sort(all_posts.begin(), all_posts.end(), sort_posts_by_date()); // only if the interval has no start use the earliest post if (!(interval.begin() && interval.find_period(*interval.begin(), align_intervals))) // Determine the beginning interval by using the earliest post if (all_posts.size() > 0 && all_posts.front() && !interval.find_period(all_posts.front()->date(), align_intervals)) throw_(std::logic_error, _("Failed to find period for interval report")); // Walk the interval forward reporting all posts within each one // before moving on, until we reach the end of all_posts bool saw_posts = false; for (std::deque::iterator i = all_posts.begin(); i != all_posts.end(); ) { post_t * post(*i); DEBUG("filters.interval", "Considering post " << post->date() << " = " << post->amount); #if DEBUG_ON DEBUG("filters.interval", "interval is:"); debug_interval(interval); #endif assert(! interval.finish || post->date() < *interval.finish); if (interval.within_period(post->date())) { DEBUG("filters.interval", "Calling subtotal_posts::operator()"); subtotal_posts::operator()(*post); ++i; saw_posts = true; } else { if (saw_posts) { DEBUG("filters.interval", "Calling subtotal_posts::report_subtotal()"); report_subtotal(interval); saw_posts = false; } else if (generate_empty_posts) { // Generate a null posting, so the intervening periods can be // seen when -E is used, or if the calculated amount ends up // being non-zero xact_t& null_xact = temps.create_xact(); null_xact._date = interval.inclusive_end(); post_t& null_post = temps.create_post(null_xact, empty_account); null_post.add_flags(POST_CALCULATED); null_post.amount = 0L; subtotal_posts::operator()(null_post); report_subtotal(interval); } DEBUG("filters.interval", "Advancing interval"); ++interval; } } // If the last postings weren't reported, do so now. if (saw_posts) { DEBUG("filters.interval", "Calling subtotal_posts::report_subtotal() at end"); report_subtotal(interval); } // Tell our parent class to flush subtotal_posts::flush(); } namespace { struct create_post_from_amount { post_handler_ptr handler; xact_t& xact; account_t& balance_account; temporaries_t& temps; explicit create_post_from_amount(post_handler_ptr _handler, xact_t& _xact, account_t& _balance_account, temporaries_t& _temps) : handler(_handler), xact(_xact), balance_account(_balance_account), temps(_temps) { TRACE_CTOR(create_post_from_amount, "post_handler_ptr, xact_t&, account_t&, temporaries_t&"); } create_post_from_amount(const create_post_from_amount& other) : handler(other.handler), xact(other.xact), balance_account(other.balance_account), temps(other.temps) { TRACE_CTOR(create_post_from_amount, "copy"); } ~create_post_from_amount() throw() { TRACE_DTOR(create_post_from_amount); } void operator()(const amount_t& amount) { if(amount.is_zero()) return; post_t& balance_post = temps.create_post(xact, &balance_account); balance_post.amount = - amount; (*handler)(balance_post); } }; } void posts_as_equity::report_subtotal() { date_t finish; foreach (post_t * post, component_posts) { date_t date = post->date(); if (! is_valid(finish) || date > finish) finish = date; } component_posts.clear(); xact_t& xact = temps.create_xact(); xact.payee = _("Opening Balances"); xact._date = finish; value_t total = 0L; foreach (values_map::value_type& pair, values) { value_t value(pair.second.value.strip_annotations(report.what_to_keep())); if (unround) value.in_place_unround(); if (! value.is_zero()) { if (value.is_balance()) { value.as_balance_lval().map_sorted_amounts ([&](const amount_t& amt) { if (! amt.is_zero()) handle_value(/* value= */ amt, /* account= */ pair.second.account, /* xact= */ &xact, /* temps= */ temps, /* handler= */ handler, /* date= */ finish, /* act_date_p= */ false); }); } else { handle_value(/* value= */ value.to_amount(), /* account= */ pair.second.account, /* xact= */ &xact, /* temps= */ temps, /* handler= */ handler, /* date= */ finish, /* act_date_p= */ false); } } if (! pair.second.is_virtual || pair.second.must_balance) total += value; } values.clear(); // This last part isn't really needed, since an Equity:Opening // Balances posting with a null amount will automatically balance with // all the other postings generated. But it does make the full // balancing amount clearer to the user. if (! total.is_zero()) { create_post_from_amount post_creator(handler, xact, *balance_account, temps); if (total.is_balance()) total.as_balance_lval().map_sorted_amounts(post_creator); else post_creator(total.to_amount()); } } void by_payee_posts::flush() { foreach (payee_subtotals_map::value_type& pair, payee_subtotals) pair.second->report_subtotal(pair.first.c_str()); item_handler::flush(); payee_subtotals.clear(); } void by_payee_posts::operator()(post_t& post) { payee_subtotals_map::iterator i = payee_subtotals.find(post.payee()); if (i == payee_subtotals.end()) { payee_subtotals_pair temp(post.payee(), shared_ptr(new subtotal_posts(handler, amount_expr))); std::pair result = payee_subtotals.insert(temp); assert(result.second); if (! result.second) return; i = result.first; } (*(*i).second)(post); } void transfer_details::operator()(post_t& post) { xact_t& xact = temps.copy_xact(*post.xact); xact._date = post.date(); post_t& temp = temps.copy_post(post, xact); temp.set_state(post.state()); bind_scope_t bound_scope(scope, temp); value_t substitute(expr.calc(bound_scope)); if (! substitute.is_null()) { switch (which_element) { case SET_DATE: temp._date = substitute.to_date(); break; case SET_ACCOUNT: { string account_name = substitute.to_string(); if (! account_name.empty() && account_name[account_name.length() - 1] != ':') { account_t * prev_account = temp.account; temp.account->remove_post(&temp); account_name += ':'; account_name += prev_account->fullname(); std::list account_names; split_string(account_name, ':', account_names); temp.account = create_temp_account_from_path(account_names, temps, xact.journal->master); temp.account->add_post(&temp); temp.account->add_flags(prev_account->flags()); if (prev_account->has_xdata()) temp.account->xdata().add_flags(prev_account->xdata().flags()); } break; } case SET_PAYEE: xact.payee = substitute.to_string(); break; } } item_handler::operator()(temp); } void day_of_week_posts::flush() { for (int i = 0; i < 7; i++) { foreach (post_t * post, days_of_the_week[i]) subtotal_posts::operator()(*post); subtotal_posts::report_subtotal("%As"); days_of_the_week[i].clear(); } subtotal_posts::flush(); } void generate_posts::add_period_xacts(period_xacts_list& period_xacts) { foreach (period_xact_t * xact, period_xacts) foreach (post_t * post, xact->posts) add_post(xact->period, *post); } void generate_posts::add_post(const date_interval_t& period, post_t& post) { pending_posts.push_back(pending_posts_pair(period, &post)); } void budget_posts::report_budget_items(const date_t& date) { { // Cleanup pending items that finished before date // We have to keep them until the last day they apply because operator() needs them to see if a // posting is budgeted or not std::list posts_to_erase; for (pending_posts_list::iterator i = pending_posts.begin(); i != pending_posts.end(); i++) { pending_posts_list::value_type& pair(*i); if (pair.first.finish && ! pair.first.start && pair.first.finish < date) { posts_to_erase.push_back(i); } } foreach (pending_posts_list::iterator& i, posts_to_erase) pending_posts.erase(i); } if (pending_posts.size() == 0) return; bool reported; do { reported = false; for (pending_posts_list::iterator i = pending_posts.begin(); i != pending_posts.end(); i++) { pending_posts_list::value_type& pair(*i); if (pair.first.finish && ! pair.first.start) continue; // skip expired posts optional begin = pair.first.start; if (! begin) { optional range_begin; if (pair.first.range) range_begin = pair.first.range->begin(); DEBUG("budget.generate", "Finding period for pending post"); if (! pair.first.find_period(range_begin ? *range_begin : date)) continue; if (! pair.first.start) throw_(std::logic_error, _("Failed to find period for periodic transaction")); begin = pair.first.start; } #if DEBUG_ON DEBUG("budget.generate", "begin = " << *begin); DEBUG("budget.generate", "date = " << date); if (pair.first.finish) DEBUG("budget.generate", "pair.first.finish = " << *pair.first.finish); #endif if (*begin <= date && (! pair.first.finish || *begin < *pair.first.finish)) { post_t& post = *pair.second; ++pair.first; DEBUG("budget.generate", "Reporting budget for " << post.reported_account()->fullname()); xact_t& xact = temps.create_xact(); xact.payee = _("Budget transaction"); xact._date = begin; post_t& temp = temps.copy_post(post, xact); temp.amount.in_place_negate(); if (flags & BUDGET_WRAP_VALUES) { value_t seq; seq.push_back(0L); seq.push_back(temp.amount); temp.xdata().compound_value = seq; temp.xdata().add_flags(POST_EXT_COMPOUND); } item_handler::operator()(temp); reported = true; } } } while (reported); } void budget_posts::operator()(post_t& post) { bool post_in_budget = false; foreach (pending_posts_list::value_type& pair, pending_posts) { for (account_t * acct = post.reported_account(); acct; acct = acct->parent) { if (acct == (*pair.second).reported_account()) { post_in_budget = true; // Report the post as if it had occurred in the parent account. if (post.reported_account() != acct) post.set_reported_account(acct); goto handle; } } } handle: if (post_in_budget && flags & BUDGET_BUDGETED) { report_budget_items(post.date()); item_handler::operator()(post); } else if (! post_in_budget && flags & BUDGET_UNBUDGETED) { item_handler::operator()(post); } } void budget_posts::flush() { if (flags & BUDGET_BUDGETED) report_budget_items(terminus); item_handler::flush(); } void forecast_posts::add_post(const date_interval_t& period, post_t& post) { date_interval_t i(period); if (! i.start && ! i.find_period(CURRENT_DATE())) return; generate_posts::add_post(i, post); // Advance the period's interval until it is at or beyond the current // date. while (*i.start < CURRENT_DATE()) ++i; } void forecast_posts::flush() { posts_list passed; date_t last = CURRENT_DATE(); // If there are period transactions to apply in a continuing series until // the forecast condition is met, generate those transactions now. Note // that no matter what, we abandon forecasting beyond the next 5 years. // // It works like this: // // Earlier, in forecast_posts::add_period_xacts, we cut up all the periodic // transactions into their components postings, so that we have N "periodic // postings". For example, if the user had this: // // ~ daily // Expenses:Food $10 // Expenses:Auto:Gas $20 // ~ monthly // Expenses:Food $100 // Expenses:Auto:Gas $200 // // We now have 4 periodic postings in `pending_posts'. // // Each periodic postings gets its own copy of its parent transaction's // period, which is modified as we go. This is found in the second member // of the pending_posts_list for each posting. // // The algorithm below works by iterating through the N periodic postings // over and over, until each of them meets the termination criteria for the // forecast and is removed from the set. while (pending_posts.size() > 0) { // At each step through the loop, we find the first periodic posting whose // period contains the earliest starting date. pending_posts_list::iterator least = pending_posts.begin(); for (pending_posts_list::iterator i = ++pending_posts.begin(); i != pending_posts.end(); i++) { assert((*i).first.start); assert((*least).first.start); if (*(*i).first.start < *(*least).first.start) least = i; } #if !NO_ASSERTS if ((*least).first.finish) assert(*(*least).first.start < *(*least).first.finish); #endif // If the next date in the series for this periodic posting is more than 5 // years beyond the last valid post we generated, drop it from further // consideration. date_t& next(*(*least).first.next); assert(next > *(*least).first.start); if (static_cast((next - last).days()) > static_cast(365U) * forecast_years) { DEBUG("filters.forecast", "Forecast transaction exceeds " << forecast_years << " years beyond today"); pending_posts.erase(least); continue; } // `post' refers to the posting defined in the period transaction. We // make a copy of it within a temporary transaction with the payee // "Forecast transaction". post_t& post = *(*least).second; xact_t& xact = temps.create_xact(); xact.payee = _("Forecast transaction"); xact._date = next; post_t& temp = temps.copy_post(post, xact); // Submit the generated posting DEBUG("filters.forecast", "Forecast transaction: " << temp.date() << " " << temp.account->fullname() << " " << temp.amount); item_handler::operator()(temp); // If the generated posting matches the user's report query, check whether // it also fails to match the continuation condition for the forecast. If // it does, drop this periodic posting from consideration. if (temp.has_xdata() && temp.xdata().has_flags(POST_EXT_MATCHES)) { DEBUG("filters.forecast", " matches report query"); bind_scope_t bound_scope(context, temp); if (! pred(bound_scope)) { DEBUG("filters.forecast", " fails to match continuation criteria"); pending_posts.erase(least); continue; } } // Increment the 'least', but remove it from pending_posts if it // exceeds its own boundaries. ++(*least).first; if (! (*least).first.start) { pending_posts.erase(least); continue; } } item_handler::flush(); } inject_posts::inject_posts(post_handler_ptr handler, const string& tag_list, account_t * master) : item_handler(handler) { scoped_array buf(new char[tag_list.length() + 1]); std::strcpy(buf.get(), tag_list.c_str()); for (char * q = std::strtok(buf.get(), ","); q; q = std::strtok(NULL, ",")) { std::list account_names; split_string(q, ':', account_names); account_t * account = create_temp_account_from_path(account_names, temps, master); account->add_flags(ACCOUNT_GENERATED); tags_list.push_back (tags_list_pair(q, tag_mapping_pair(account, tag_injected_set()))); } TRACE_CTOR(inject_posts, "post_handler_ptr, string, account_t *"); } void inject_posts::operator()(post_t& post) { foreach (tags_list_pair& pair, tags_list) { optional tag_value = post.get_tag(pair.first, false); // When checking if the transaction has the tag, only inject once // per transaction. if (! tag_value && pair.second.second.find(post.xact) == pair.second.second.end() && (tag_value = post.xact->get_tag(pair.first))) pair.second.second.insert(post.xact); if (tag_value) { xact_t& xact = temps.copy_xact(*post.xact); xact._date = post.date(); xact.add_flags(ITEM_GENERATED); post_t& temp = temps.copy_post(post, xact); temp.account = pair.second.first; temp.amount = tag_value->to_amount(); temp.add_flags(ITEM_GENERATED); item_handler::operator()(temp); } } item_handler::operator()(post); } } // namespace ledger