/* * Copyright (c) 2003-2009, 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 "balance.h" #include "commodity.h" #include "annotate.h" #include "pool.h" #include "unistring.h" // for justify() namespace ledger { balance_t::balance_t(const double val) { TRACE_CTOR(balance_t, "const double"); amounts.insert (amounts_map::value_type(amount_t::current_pool->null_commodity, val)); } balance_t::balance_t(const unsigned long val) { TRACE_CTOR(balance_t, "const unsigned long"); amounts.insert (amounts_map::value_type(amount_t::current_pool->null_commodity, val)); } balance_t::balance_t(const long val) { TRACE_CTOR(balance_t, "const long"); amounts.insert (amounts_map::value_type(amount_t::current_pool->null_commodity, val)); } balance_t& balance_t::operator+=(const balance_t& bal) { foreach (const amounts_map::value_type& pair, bal.amounts) *this += pair.second; return *this; } balance_t& balance_t::operator+=(const amount_t& amt) { if (amt.is_null()) throw_(balance_error, _("Cannot add an uninitialized amount to a balance")); if (amt.is_realzero()) return *this; amounts_map::iterator i = amounts.find(&amt.commodity()); if (i != amounts.end()) i->second += amt; else amounts.insert(amounts_map::value_type(&amt.commodity(), amt)); return *this; } balance_t& balance_t::operator-=(const balance_t& bal) { foreach (const amounts_map::value_type& pair, bal.amounts) *this -= pair.second; return *this; } balance_t& balance_t::operator-=(const amount_t& amt) { if (amt.is_null()) throw_(balance_error, _("Cannot subtract an uninitialized amount from a balance")); if (amt.is_realzero()) return *this; amounts_map::iterator i = amounts.find(&amt.commodity()); if (i != amounts.end()) { i->second -= amt; if (i->second.is_realzero()) amounts.erase(i); } else { amounts.insert(amounts_map::value_type(&amt.commodity(), amt.negated())); } return *this; } balance_t& balance_t::operator*=(const amount_t& amt) { if (amt.is_null()) throw_(balance_error, _("Cannot multiply a balance by an uninitialized amount")); if (is_realzero()) { ; } else if (amt.is_realzero()) { *this = amt; } else if (! amt.commodity()) { // Multiplying by an amount with no commodity causes all the // component amounts to be increased by the same factor. foreach (amounts_map::value_type& pair, amounts) pair.second *= amt; } else if (amounts.size() == 1) { // Multiplying by a commoditized amount is only valid if the sole // commodity in the balance is of the same kind as the amount's // commodity. if (*amounts.begin()->first == amt.commodity()) amounts.begin()->second *= amt; else throw_(balance_error, _("Cannot multiply a balance with annotated commodities by a commoditized amount")); } else { assert(amounts.size() > 1); throw_(balance_error, _("Cannot multiply a multi-commodity balance by a commoditized amount")); } return *this; } balance_t& balance_t::operator/=(const amount_t& amt) { if (amt.is_null()) throw_(balance_error, _("Cannot divide a balance by an uninitialized amount")); if (is_realzero()) { ; } else if (amt.is_realzero()) { throw_(balance_error, _("Divide by zero")); } else if (! amt.commodity()) { // Dividing by an amount with no commodity causes all the // component amounts to be divided by the same factor. foreach (amounts_map::value_type& pair, amounts) pair.second /= amt; } else if (amounts.size() == 1) { // Dividing by a commoditized amount is only valid if the sole // commodity in the balance is of the same kind as the amount's // commodity. if (*amounts.begin()->first == amt.commodity()) amounts.begin()->second /= amt; else throw_(balance_error, _("Cannot divide a balance with annotated commodities by a commoditized amount")); } else { assert(amounts.size() > 1); throw_(balance_error, _("Cannot divide a multi-commodity balance by a commoditized amount")); } return *this; } optional balance_t::value(const bool primary_only, const optional& moment, const optional& in_terms_of) const { balance_t temp; bool resolved = false; foreach (const amounts_map::value_type& pair, amounts) { if (optional val = pair.second.value(primary_only, moment, in_terms_of)) { temp += *val; resolved = true; } else { temp += pair.second; } } return resolved ? temp : optional(); } balance_t balance_t::price() const { balance_t temp; foreach (const amounts_map::value_type& pair, amounts) temp += pair.second.price(); return temp; } optional balance_t::commodity_amount(const optional& commodity) const { if (! commodity) { if (amounts.size() == 1) { return amounts.begin()->second; } else if (amounts.size() > 1) { // Try stripping annotations before giving an error. balance_t temp(strip_annotations(keep_details_t())); if (temp.amounts.size() == 1) return temp.commodity_amount(commodity); throw_(amount_error, _("Requested amount of a balance with multiple commodities: %1") << temp); } } else if (amounts.size() > 0) { amounts_map::const_iterator i = amounts.find(const_cast(&*commodity)); if (i != amounts.end()) return i->second; } return none; } balance_t balance_t::strip_annotations(const keep_details_t& what_to_keep) const { balance_t temp; foreach (const amounts_map::value_type& pair, amounts) temp += pair.second.strip_annotations(what_to_keep); return temp; } void balance_t::print(std::ostream& out, const int first_width, const int latter_width, const bool right_justify, const bool colorize) const { bool first = true; int lwidth = latter_width; if (lwidth == -1) lwidth = first_width; typedef std::vector amounts_array; amounts_array sorted; foreach (const amounts_map::value_type& pair, amounts) if (pair.second) sorted.push_back(&pair.second); std::stable_sort(sorted.begin(), sorted.end(), compare_amount_commodities()); foreach (const amount_t * amount, sorted) { int width; if (! first) { out << std::endl; width = lwidth; } else { first = false; width = first_width; } std::ostringstream buf; buf << *amount; justify(out, buf.str(), width, right_justify, colorize && amount->sign() < 0); } if (first) { out.width(first_width); if (right_justify) out << std::right; else out << std::left; out << 0; } } void to_xml(std::ostream& out, const balance_t& bal) { push_xml x(out, "balance"); foreach (const balance_t::amounts_map::value_type& pair, bal.amounts) to_xml(out, pair.second); } } // namespace ledger