#include "pyinterp.h" #include namespace ledger { using namespace boost::python; struct python_run { object result; python_run(python_interpreter_t * intepreter, const string& str, int input_mode) : result(handle<>(borrowed(PyRun_String(str.c_str(), input_mode, intepreter->nspace.ptr(), intepreter->nspace.ptr())))) {} operator object() { return result; } }; extern void initialize_for_python(); python_interpreter_t::python_interpreter_t(xml::xpath_t::scope_t * parent) : xml::xpath_t::scope_t(parent), mmodule(borrowed(PyImport_AddModule("__main__"))), nspace(handle<>(borrowed(PyModule_GetDict(mmodule.get())))) { Py_Initialize(); boost::python::detail::init_module("ledger", &initialize_for_python); } object python_interpreter_t::import(const string& str) { assert(Py_IsInitialized()); try { PyObject * mod = PyImport_Import(PyString_FromString(str.c_str())); if (! mod) throw_(std::logic_error, "Failed to import Python module " << str); object newmod(handle<>(borrowed(mod))); #if 1 // Import all top-level entries directly into the main namespace dict m_nspace(handle<>(borrowed(PyModule_GetDict(mod)))); nspace.update(m_nspace); #else nspace[string(PyModule_GetName(mod))] = newmod; #endif return newmod; } catch (const error_already_set&) { PyErr_Print(); throw_(std::logic_error, "Importing Python module " << str); } } object python_interpreter_t::eval(std::istream& in, py_eval_mode_t mode) { bool first = true; string buffer; buffer.reserve(4096); while (! in.eof()) { char buf[256]; in.getline(buf, 255); if (buf[0] == '!') break; if (first) first = false; else buffer += "\n"; buffer += buf; } try { int input_mode; switch (mode) { case PY_EVAL_EXPR: input_mode = Py_eval_input; break; case PY_EVAL_STMT: input_mode = Py_single_input; break; case PY_EVAL_MULTI: input_mode = Py_file_input; break; } assert(Py_IsInitialized()); return python_run(this, buffer, input_mode); } catch (const error_already_set&) { PyErr_Print(); throw_(std::logic_error, "Evaluating Python code"); } } object python_interpreter_t::eval(const string& str, py_eval_mode_t mode) { try { int input_mode; switch (mode) { case PY_EVAL_EXPR: input_mode = Py_eval_input; break; case PY_EVAL_STMT: input_mode = Py_single_input; break; case PY_EVAL_MULTI: input_mode = Py_file_input; break; } assert(Py_IsInitialized()); return python_run(this, str, input_mode); } catch (const error_already_set&) { PyErr_Print(); throw_(std::logic_error, "Evaluating Python code"); } } void python_interpreter_t::functor_t::operator()(value_t& result, xml::xpath_t::scope_t * locals) { try { if (! PyCallable_Check(func.ptr())) { result = static_cast(extract(func.ptr())); } else { assert(locals->args.type == value_t::SEQUENCE); if (locals->args.sequence()->size() > 0) { list arglist; for (value_t::sequence_t::iterator i = locals->args.sequence()->begin(); i != locals->args.sequence()->end(); i++) arglist.append(*i); if (PyObject * val = PyObject_CallObject(func.ptr(), boost::python::tuple(arglist).ptr())) { result = extract(val)(); Py_DECREF(val); } else if (PyObject * err = PyErr_Occurred()) { PyErr_Print(); throw_(xml::xpath_t::calc_error, "While calling Python function '" << name() << "'"); } else { assert(0); } } else { result = call(func.ptr()); } } } catch (const error_already_set&) { PyErr_Print(); throw_(xml::xpath_t::calc_error, "While calling Python function '" << name() << "'"); } } void python_interpreter_t::lambda_t::operator()(value_t& result, xml::xpath_t::scope_t * locals) { try { assert(locals->args.type == value_t::SEQUENCE); assert(locals->args.sequence()->size() == 1); value_t item = locals->args[0]; assert(item.type == value_t::POINTER); result = call(func.ptr(), item.xml_node()); } catch (const error_already_set&) { PyErr_Print(); throw_(xml::xpath_t::calc_error, "While evaluating Python lambda expression"); } } } // namespace ledger