/* * 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 "pyinterp.h" #include "pyutils.h" #include "amount.h" #include #include #include namespace ledger { using namespace boost::python; #ifdef INTEGER_MATH amount_t py_round_0(const amount_t& amount) { return amount.round(); } amount_t py_round_1(const amount_t& amount, amount_t::precision_t prec) { return amount.round(prec); } #endif double py_to_double_0(amount_t& amount) { return amount.to_double(); } double py_to_double_1(amount_t& amount, bool no_check) { return amount.to_double(no_check); } long py_to_long_0(amount_t& amount) { return amount.to_long(); } long py_to_long_1(amount_t& amount, bool no_check) { return amount.to_long(no_check); } boost::optional py_value_0(const amount_t& amount) { return amount.value(); } boost::optional py_value_1(const amount_t& amount, const boost::optional& moment) { return amount.value(moment); } boost::optional py_value_2(const amount_t& amount, const boost::optional& moment, const boost::optional& in_terms_of) { return amount.value(moment, in_terms_of); } void py_parse_2(amount_t& amount, object in, unsigned char flags) { if (PyFile_Check(in.ptr())) { pyifstream instr(reinterpret_cast(in.ptr())); amount.parse(instr, flags); } else { PyErr_SetString(PyExc_IOError, "Argument to amount.parse(file) is not a file object"); } } void py_parse_1(amount_t& amount, object in) { py_parse_2(amount, in, 0); } void py_parse_str_1(amount_t& amount, const string& str) { amount.parse(str); } void py_parse_str_2(amount_t& amount, const string& str, unsigned char flags) { amount.parse(str, flags); } void py_print(amount_t& amount, object out) { if (PyFile_Check(out.ptr())) { pyofstream outstr(reinterpret_cast(out.ptr())); amount.print(outstr); } else { PyErr_SetString(PyExc_IOError, "Argument to amount.print_(file) is not a file object"); } } void py_read_1(amount_t& amount, object in) { if (PyFile_Check(in.ptr())) { pyifstream instr(reinterpret_cast(in.ptr())); amount.read(instr); } else { PyErr_SetString(PyExc_IOError, "Argument to amount.read(file) is not a file object"); } } void py_read_2(amount_t& amount, const std::string& str) { const char * p = str.c_str(); amount.read(p); } void py_write_xml_1(amount_t& amount, object out) { if (PyFile_Check(out.ptr())) { pyofstream outstr(reinterpret_cast(out.ptr())); amount.write_xml(outstr); } else { PyErr_SetString(PyExc_IOError, "Argument to amount.write_xml(file) is not a file object"); } } void py_write_xml_2(amount_t& amount, object out, const int depth) { if (PyFile_Check(out.ptr())) { pyofstream outstr(reinterpret_cast(out.ptr())); amount.write_xml(outstr, depth); } else { PyErr_SetString(PyExc_IOError, "Argument to amount.write_xml(file, depth) is not a file object"); } } #define EXC_TRANSLATOR(type) \ void exc_translate_ ## type(const type& err) { \ PyErr_SetString(PyExc_ArithmeticError, err.what()); \ } EXC_TRANSLATOR(amount_error) void export_amount() { class_< amount_t > ("Amount") .def("initialize", &amount_t::initialize) .staticmethod("initialize") .def("shutdown", &amount_t::shutdown) .staticmethod("shutdown") .add_static_property("current_pool", make_getter(&amount_t::current_pool, return_value_policy())) .add_static_property("keep_base", &amount_t::keep_base) .add_static_property("keep_price", &amount_t::keep_price) .add_static_property("keep_date", &amount_t::keep_date) .add_static_property("keep_tag", &amount_t::keep_tag) .add_static_property("stream_fullstrings", make_getter(&amount_t::stream_fullstrings), make_setter(&amount_t::stream_fullstrings)) .def(init()) .def(init()) .def(init()) .def("exact", &amount_t::exact, args("value"), "Construct an amount object whose display precision is always equal to its\n\ internal precision.") .staticmethod("exact") .def(init()) .def("compare", &amount_t::compare) .def(self == self) .def(self == long()) .def(long() == self) .def(self == double()) .def(double() == self) .def(self != self) .def(self != long()) .def(long() != self) .def(self != double()) .def(double() != self) .def(! self) .def(self < self) .def(self < long()) .def(long() < self) .def(self < double()) .def(double() < self) .def(self <= self) .def(self <= long()) .def(long() <= self) .def(self <= double()) .def(double() <= self) .def(self > self) .def(self > long()) .def(long() > self) .def(self > double()) .def(double() > self) .def(self >= self) .def(self >= long()) .def(long() >= self) .def(self >= double()) .def(double() >= self) .def(self += self) .def(self += long()) .def(self += double()) .def(self + self) .def(self + long()) .def(long() + self) .def(self + double()) .def(double() + self) .def(self -= self) .def(self -= long()) .def(self -= double()) .def(self - self) .def(self - long()) .def(long() - self) .def(self - double()) .def(double() - self) .def(self *= self) .def(self *= long()) .def(self *= double()) .def(self * self) .def(self * long()) .def(long() * self) .def(self * double()) .def(double() * self) .def(self /= self) .def(self /= long()) .def(self /= double()) .def(self / self) .def(self / long()) .def(long() / self) .def(self / double()) .def(double() / self) .def("precision", &amount_t::precision) .def("negate", &amount_t::negate) .def("in_place_negate", &amount_t::in_place_negate, return_value_policy()) .def(- self) .def("abs", &amount_t::abs) .def("__abs__", &amount_t::abs) #ifdef INTEGER_MATH .def("round", py_round_0) .def("round", py_round_1) #endif .def("unround", &amount_t::unround) .def("reduce", &amount_t::reduce) .def("in_place_reduce", &amount_t::in_place_reduce, return_value_policy()) .def("unreduce", &amount_t::unreduce) .def("in_place_unreduce", &amount_t::in_place_unreduce, return_value_policy()) .def("value", py_value_0) .def("value", py_value_1) .def("value", py_value_2) .def("sign", &amount_t::sign) .def("__nonzero__", &amount_t::is_nonzero) .def("is_nonzero", &amount_t::is_nonzero) .def("is_zero", &amount_t::is_zero) .def("is_realzero", &amount_t::is_realzero) .def("is_null", &amount_t::is_null) .def("to_double", py_to_double_0) .def("to_double", py_to_double_1) .def("__float__", py_to_double_0) .def("to_long", py_to_long_0) .def("to_long", py_to_long_1) .def("__int__", py_to_long_0) .def("to_string", &amount_t::to_string) .def("__str__", &amount_t::to_string) .def("to_fullstring", &amount_t::to_fullstring) .def("__repr__", &amount_t::to_fullstring) .def("fits_in_double", &amount_t::fits_in_double) .def("fits_in_long", &amount_t::fits_in_long) .def("quantity_string", &amount_t::quantity_string) .def("commodity", &amount_t::commodity, return_value_policy()) .def("set_commodity", &amount_t::set_commodity, with_custodian_and_ward<1, 2>()) .def("has_commodity", &amount_t::has_commodity) .def("clear_commodity", &amount_t::clear_commodity) .def("number", &amount_t::number) .def("annotate", &amount_t::annotate) .def("is_annotated", &amount_t::is_annotated) #if 0 .def("annotation", &amount_t::annotation) #endif .def("strip_annotations", &amount_t::strip_annotations) .def("parse", py_parse_1) .def("parse", py_parse_2) .def("parse", py_parse_str_1) .def("parse", py_parse_str_2) .def("parse_conversion", &amount_t::parse_conversion) .staticmethod("parse_conversion") .def("print_", py_print) .def("read", py_read_1) .def("read", py_read_2) .def("write", &amount_t::write) .def("read_xml", &amount_t::read_xml) .def("write_xml", py_write_xml_1) .def("write_xml", py_write_xml_2) .def("dump", &amount_t::dump) .def("valid", &amount_t::valid) ; enum_< amount_t::parse_flags_enum_t >("AmountParse") .value("PARSE_DEFAULT", amount_t::PARSE_DEFAULT) .value("PARSE_NO_MIGRATE", amount_t::PARSE_NO_MIGRATE) .value("PARSE_NO_REDUCE", amount_t::PARSE_NO_REDUCE) .value("PARSE_SOFT_FAIL", amount_t::PARSE_SOFT_FAIL) ; register_optional_to_python(); implicitly_convertible(); implicitly_convertible(); implicitly_convertible(); #define EXC_TRANSLATE(type) \ register_exception_translator(&exc_translate_ ## type); EXC_TRANSLATE(amount_error); } } // namespace ledger